Artilleriya - Artillery

Askarlari Qirollik artilleriyasi otish 105 mm engil gublitsalar jismoniy mashqlar paytida

Artilleriya og'ir harbiy sinf turli xil qurollar ishga tushirish uchun qurilgan o'q-dorilar diapazoni va kuchidan ancha yuqori piyoda askarlar qurol. Dastlabki artilleriya rivojlanishi buzilish qobiliyatiga yo'naltirilgan mudofaa devorlari va istehkomlar davomida qamallar va og'ir, juda harakatsiz bo'lib qoldi qamal dvigatellari. Texnologiyalar yaxshilanishi bilan engilroq va mobilroq dala artilleriyasi zambaraklar jang maydonidan foydalanish uchun ishlab chiqilgan. Ushbu rivojlanish bugungi kunda ham davom etmoqda; zamonaviy o'ziyurar artilleriya transport vositalari - bu juda ko'p qirrali yuqori darajada harakatlanadigan qurol, odatda armiyaning umumiy o't o'chirish kuchining eng katta qismini ta'minlaydi.

Dastlab, "artilleriya" so'zi asosan ishlab chiqarilgan qurol yoki zirhning bir turi bilan qurollangan har qanday askarlar guruhini nazarda tutgan. Joriy etilganidan beri porox va zambarak, "artilleriya" asosan zambaraklarni anglatar edi va zamonaviy foydalanishda odatda shuni anglatadi qobiq - qurol, гаubitsalar, minomyotlar va raketa artilleriyasi. Oddiy nutqda "artilleriya" so'zi ko'pincha alohida moslamalarni, shuningdek, ularning aksessuarlari va armaturalarini nazarda tutish uchun ishlatiladi, garchi bu yig'ilishlar "uskunalar" deb to'g'ri nomlangan bo'lsa ham. Biroq, qurol, гаubitsa, minomyot va boshqalar uchun umumiy tan olingan umumiy atama mavjud emas: Qo'shma Shtatlar "artilleriya bo'lagi" dan foydalanadi, ammo aksariyat ingliz tilida so'zlashadigan qo'shinlar "qurol" va "minomyot" dan foydalanadilar. Otilgan snaryadlar odatda "otilgan "(qattiq bo'lsa) yoki" qobiq "(agar qattiq bo'lmasa). Tarixiy jihatdan qattiq tortishish variantlari quti, zanjir otish va uzum ham ishlatilgan. "Shell" - bu tarkibiy qism bo'lgan snaryad uchun keng ishlatiladigan umumiy atama o'q-dorilar.

Birlashma bo'yicha, artilleriya shuningdek xizmat qo'li odatda bunday dvigatellarni ishlaydi. Ba'zi qo'shinlarda artilleriya qo'li harakat qildi maydon, qirg'oq bo'yi, zenit va tankga qarshi artilleriya; Boshqalarida bu alohida qurol bo'lib, ba'zi davlatlar qirg'oq dengiz yoki dengiz mas'uliyatiga ega.

20-asrda, birinchi navbatda artilleriya uchun maqsadlarni sotib olish uchun texnologiyaga asoslangan nishonlarni yig'ish moslamalari (masalan, radar) va tizimlar (masalan, ovoz balandligi va chaqnashni aniqlash) paydo bo'ldi. Bu odatda artilleriya qurollarining bir yoki bir nechtasi tomonidan boshqariladi. 20-asrning boshlarida bilvosita yong'inning keng tarqalishi dala artilleriyasi uchun maxsus ma'lumotlarga ehtiyoj sezdi, xususan tadqiqot va meteorologik; ba'zi qo'shinlarda bularni ta'minlash artilleriya qo'liga tegishli.

Artilleriya, shubhasiz, hozirgi paytda ishlatiladigan quruqlikdagi qurollanishning eng o'ldiruvchi shakli bo'lib, hech bo'lmaganda dastlabki paytlardan beri Sanoat inqilobi. Jangovar o'limlarning aksariyati Napoleon urushlari, Birinchi jahon urushi va Ikkinchi jahon urushi artilleriya sabab bo'lgan.[1] 1944 yilda, Jozef Stalin artilleriya "urush xudosi" ekanligini nutqida aytdi.[1]

Artilleriya qismi

Frantsuz askarlari Frantsiya-Prussiya urushi 1870–71.
Britaniyalik 64 asoschisi Bermudadagi Scaur Hill Fort-da, Monkriff tog'ida yo'qolib borayotgan jumboqli (RML) qurol. Bu quruqlikdagi hujumlardan himoya qilish va qirg'oq artilleriyasi vazifasini bajarish uchun mo'ljallangan, batareyaning bir qismidir.

Garchi shunday nomlanmasa ham, artilleriya sifatida taniqli rolni bajaradigan qamal motorlari qadim zamonlardan beri urushda ishlatilgan. Birinchisi ma'lum katapulta yilda ishlab chiqilgan Sirakuza miloddan avvalgi 399 yilda.[2] Kirishgacha porox G'arbiy urushda artilleriya mexanik energiyaga bog'liq edi, bu nafaqat snaryadlarning kinetik energiyasini jiddiy ravishda cheklabgina qolmay, balki etarli miqdorda energiya to'plash uchun juda katta dvigatellarni yaratishni talab qildi. Miloddan avvalgi 1-asrda 6,55 kg (14,4 lb) toshlarni tashlagan rim katapultasi 16000 kinetik energiyaga erishdi. jyul, 19-asrning o'rtalariga nisbatan 12 pog'onali qurol 4.1 kg (9.0 lb) dumaloq, kinetik energiyasi 240.000 jul yoki 20-asrda AQShning jangovar kemasi asosiy akkumulyatoridan energiya darajasi 350.000.000 dan oshib, 1.225 kg (2.701 lb) o'q otgan. jyul.

Dan O'rta yosh ko'plari orqali zamonaviy davr, artilleriya qismlari quruqlikda ko'chirildi otga tortilgan qurol-yarog 'vagonlari. In zamonaviy davr, artilleriya qismlari va ularning ekipaji ishongan g'ildirakli yoki kuzatiladigan transport vositalari transport sifatida. Artilleriyaning ushbu quruq versiyalari mitti edi temir yo'l qurollari; bularning eng kattasi katta kalibrli qurollar har doim homilador bo'lgan - Bobil loyihasi ning Supergun ishi - nazariy jihatdan qobiliyatli edi sun'iy yo'ldoshni orbitaga chiqarish. Dengiz kuchlari tomonidan ishlatiladigan artilleriya ham sezilarli darajada o'zgardi raketalar odatda qurollarni almashtirish yuzaki urush.

Harbiy tarix davomida snaryadlar turli xil materiallardan, turli xil shakllarda ishlab chiqarilgan bo'lib, unda turli xil usullardan foydalanilgan. nishon mudofaa ishlari va dushmanni qo'zg'atish qurbonlar. Uchun muhandislik dasturlari qurol etkazib berish ham vaqt o'tishi bilan sezilarli darajada o'zgarib, bugungi kunda qo'llanilayotgan eng murakkab va ilg'or texnologiyalarni o'z ichiga olgan.

Ba'zi armiyalarda artilleriya quroli o'q otadigan asbob emas, o'qdir. Yong'inni nishonga etkazish jarayoni otishma deb ataladi. Artilleriya qismini boshqarish bilan bog'liq harakatlar "otryad" yoki qurol ekipaji tomonidan "qurolga xizmat qilish" deb nomlanadi, bu to'g'ridan-to'g'ri yoki bilvosita artilleriya o'qini tashkil etadi. Qurol-yarog 'ekipajlari (yoki tuzilmalari) ish uslubiga artilleriya yordami deyiladi. Tarixning turli davrlarida bu erdan, dengizdan va hatto havodan otish uchun mo'ljallangan qurollarni nazarda tutishi mumkin qurol platformalari.

Ekipaj

Atama "qurolli qurol "ba'zi qurolli kuchlarda artilleriya ishlatishning asosiy vazifasi bo'lgan askarlar va dengizchilar uchun ishlatiladi.

7 kishilik qurol ekipaji AQShni o'qqa tutmoqda M777 Light Towed Howitzer, Afg'onistondagi urush, 2009.

Qurolchilar va ularning qurollari odatda "ekipaj" yoki "otryad" deb nomlangan jamoalarga birlashtirilgan. Boshqa funktsiyalarga ega bo'lgan bir nechta bunday ekipajlar va guruhlar artilleriya bo'linmasiga birlashtiriladi, odatda a batareya, ba'zan kompaniyani chaqirsa ham. Qurolli otryadlarda har bir rol "1" dan boshlanib, otryad qo'mondoni bilan belgilanadi va eng yuqori raqam bu ikkinchi darajali buyruq beruvchidir. "Gunner" shuningdek, eng quyi unvonga ega, kichik kichik ofitserlar esa ba'zi artilleriya qurollarida "Bombardilar".

Batareyalar taxminan a ga teng kompaniya piyoda askarlarda va kattaroqqa birlashtirilgan harbiy tashkilotlar armiyaga qarab ma'muriy va operatsion maqsadlarda, yoki batalonlar yoki polklar. Bular brigadalarga birlashtirilishi mumkin; Rossiya armiyasi, shuningdek, ba'zi brigadalarni artilleriya bo'linmalariga birlashtiradi va Xalq ozodlik armiyasi artilleriya korpusiga ega.

"Artilleriya" atamasi a ga nisbatan ham qo'llaniladi jangovar qo'l eng ko'p harbiy xizmatlar tavsiflash uchun tashkiliy jihatdan foydalanilganda birliklar va shakllanishlar qurol ishlatadigan milliy qurolli kuchlarning.

Davomida harbiy harakatlar, roli dala artilleriyasi jangda boshqa qurollarni qo'llab-quvvatlash yoki maqsadlarga, ayniqsa chuqur hujumga yordam berish. Umuman olganda, bu ta'sirlar dushmanni bostirish yoki zararsizlantirish yoki qurbonlar, zarar etkazish va yo'q qilish uchun ikkita toifaga bo'linadi. Bunga, asosan, portlashi mumkin bo'lgan o'q-dorilarni bostirish yoki dushmanga zarar etkazish uchun etkazib berish orqali erishiladi korpus parchalari va boshqa chiqindilar va portlash yoki dushman pozitsiyalarini, uskunalarini va transport vositalarini yo'q qilish orqali. O'ldirmaydigan o'q-dorilar, xususan tutun, dushmanning ko'rinishini yashirish orqali ularni bostirish yoki zararsizlantirish uchun ham ishlatilishi mumkin.

Yong'in an tomonidan boshqarilishi mumkin artilleriya kuzatuvchisi yoki boshqa kuzatuvchi, jumladan uchuvchisiz va uchuvchisiz samolyot uchuvchilari yoki ularni chaqirish xarita koordinatalari.

Harbiy doktrin yadroga sezilarli ta'sir ko'rsatdi muhandislik dizayni artilleriya qurol-yarog'larini o'z tarixidan kelib chiqib, ordinatsiya harakatchanligi bilan etkazilgan olov hajmi o'rtasidagi muvozanatga erishishga intilish. Biroq, zamonaviy davrda, to'pponchalarni himoya qilish masalasi 19-asr oxiri piyoda qurollarining yangi avlodini joriy etganligi sababli paydo bo'ldi. konoidal o'q, sifatida tanilgan Minié to'pi, deyarli dala artilleriyasi kabi uzoq masofaga ega.

Gunnersning boshqa jangovar qurollarga va samolyotlarning hujumlariga qarshi to'g'ridan-to'g'ri jang qilishda yaqinligi va ishtirok etishi tobora ortib borayotgani qurol qalqonini kiritishni zarur qildi. Ko'chma urushda qattiq yoki ot bilan tortib olingan qurolni qanday ishlatish masalalari artilleriyani jangovar harakatga etkazishning yangi usullarini ishlab chiqishni taqozo etdi. Ikki xil artilleriya shakli ishlab chiqilgan: tortib olingan qurol, u asosan belgilangan chiziqqa hujum qilish yoki himoya qilish uchun ishlatilgan; va harakatlanuvchi kuchga hamrohlik qilish va doimiy ravishda olovni qo'llab-quvvatlash va / yoki to'xtatish uchun mo'ljallangan o'ziyurar qurol. Ushbu ta'sirlar artilleriya qurollarini, tizimlarini, tashkilotlarini va operatsiyalarini hozirgi kungacha rivojlantirishga rahbarlik qilib kelgan, artilleriya tizimlari 100 m dan qit'alararo intervalgacha qo'llab-quvvatlashga qodir. ballistik raketalar. Artilleriya ishtirok eta olmaydigan yagona jang bu yaqin atrofdagi jang, artilleriya razvedka guruhlari bundan mustasno.[3]

Etimologiya

Hozirgi sharoitda ishlatilgan so'z O'rta yosh. Bitta taklif shuki, bu Qadimgi frantsuzcha atelye, "tartibga solish" ma'nosini anglatadi va yomonlashish, "uskunalar" ma'nosini anglatadi.

XIII asrdan boshlab an artillier har qanday urush uskunalarini ishlab chiqaruvchiga yo'naltirilgan; va keyingi 250 yil davomida "artilleriya" so'zining ma'nosi harbiy qurollarning barcha turlarini qamrab oldi. Demak, Hurmatli artilleriya kompaniyasi, bu aslida an edi piyoda askarlar 19-asrgacha birlik. Yana bir taklif shundaki, u italyan tilidan keladi arte de tirare (o'q otish san'ati), artilleriyadan foydalanish bo'yicha birinchi nazariyotchilardan biri tomonidan ishlab chiqilgan, Nikkole Tartalya.

Tarix

Qadimgi urushlarda o'q-dorilarni otish uchun ishlatiladigan mexanik tizimlar, "urush dvigatellari "kabi katapulta, onager, trebuchet va ballista, shuningdek, harbiy tarixchilar artilleriya deb atashadi.

Porox ixtirosi

Dastlabki vaza shaklidagi to'p (bu erda "Uzoq masofaga hayratga soluvchi zambarak" (威遠 as) sifatida tasvirlangan, taxminan 1350 yilgi milodiy 1350 yilga oid qo'pol ko'rinish va alangalanish porti bilan to'ldirilgan. Rasm XIV asrga tegishli) Ming sulolasi kitobi Huolongjing.[4]

Dastlabki Xitoy artilleriyasi guldonga o'xshash shakllarga ega edi. Bunga XIV asrda topilgan 1350 yildagi "uzoqdan hayratga soluvchi ilhomlantiruvchi" zambarak kiradi Min sulolasi risola Huolongjing.[4] Yaxshi metallurgiya texnikasi rivojlanishi bilan, keyinchalik to'plar erta Xitoy artilleriyasining vaza shaklidan voz kechishdi. Ushbu o'zgarishni dastlabki namunasi bo'lgan bronza "ming dona momaqaldiroq to'pi" da ko'rish mumkin dala artilleriyasi.[5] Ushbu kichik, qo'pol qurollar O'rta Sharqqa tarqaldi madfaa ) va 13-asrda Evropaga juda cheklangan tarzda etib bordi.

Osiyoda, Mo'g'ullar Xitoy artilleriyasini qabul qildi va uni samarali ishlatdi katta fath. 14-asr oxiriga kelib xitoylik isyonchilar mo'g'ullarni siqib chiqarish uchun uyushgan artilleriya va otliqlardan foydalanganlar. To'plardan foydalanish Mo‘g‘ullarning Yava istilosi,[6] joylashtirishga olib keldi ketbang zambaraklar Majapaxit 1300-yillarda park va undan keyin qaytib qurol va to'plardan universal foydalanish Nusantara arxipelagi.[7][8]

Kichkina silliq teshikli naychalar sifatida dastlab ular temir yoki bronzadan yadro atrofiga quyilgan bo'lib, birinchi burg'ulash teshiklari 1247 yilda Sevilya yaqinida ishlatilgan.[iqtibos kerak ] Ular qo'rg'oshin, temir yoki tosh koptoklarni, ba'zida katta o'qlarni va ba'zida qo'lga kelgan har qanday hurdalarning bir nechtasini otdilar. Davomida Yuz yillik urush, bu qurollar keng tarqalgan bo'lib, dastlab bombardimon va keyinroq to'p. To'p har doim edi tumshug'i yuklagichlar. Qisqichbaqasimon yuklash konstruktsiyalarini ishlab chiqarishda ko'plab dastlabki urinishlar bo'lgan bo'lsa-da, muhandislik bilimlarining etishmasligi ularni musluz yuk mashinalariga qaraganda ancha xavfli qildi.

Artilleriyadan foydalanishni kengaytirish

XV asrdagi frantsuz qurolli qurol, 1904 yilgi illyustratsiya.
Akbar paytida qamal qurollarini tepaga ko'targan buqalar Ranthamborani qamal qilish[10]

1415 yilda portugallar O'rta er dengizi port shaharchasini bosib olishdi Seuta. Shaharni qamal qilishda o'qotar quroldan foydalanishni tasdiqlash qiyin bo'lsa-da, ma'lumki, portugallar uni keyinchalik qurol bilan himoya qilishgan, ya'ni bombardalar, kolebratlarva lochinlar. 1419 yilda Sulton Abu Said qo'shinni boshchiligida qulab tushgan shaharni qayta egallab oldi va Marinidlar to'plar olib kelib, Seuta hujumida qo'lladilar. Nihoyat, 1437 yilda Marokashda qo'l qurollari va miltiqchilar xalqiga qarshi ekspeditsiyada paydo bo'lishdi. Tanjerlar.[11][sahifa kerak ] Ushbu qurollar kichik qurollardan tortib to katta artilleriya qismlariga qadar bir necha xil shakllarda rivojlanganligi aniq.

Evropada artilleriya inqilobi davomida qo'lga kiritildi Yuz yillik urush va janglarning olib borilish uslubini o'zgartirdi. O'tgan o'n yilliklarda inglizlar hattoki Shotlandlarga qarshi harbiy yurishlarda poroxga o'xshash quroldan foydalanganlar.[12] Biroq, bu vaqtda jangda ishlatiladigan to'plar juda kichik va ayniqsa kuchli emas edi. To'plar faqat a himoyasi uchun foydalidir qal'a, ko'rsatilgandek Bretuil 1356 yilda, qamalda bo'lgan inglizlar hujum qilayotgan frantsuz hujum minorasini yo'q qilish uchun to'pdan foydalanganlarida.[13] 14-asrning oxiriga kelib, zambaraklar faqat tomlarni qoqishga qodir edi va qal'a devorlariga kira olmadi.

Biroq, 1420 yildan 1430 yilgacha katta o'zgarish yuz berdi, o'sha paytda artilleriya ancha kuchliroq bo'lib, endi mustahkam va qal'alarni juda samarali ravishda urib yuborishi mumkin edi. Inglizlar, frantsuzlar va burgundiyaliklar harbiy texnikada ilg'or edilar va natijada mudofaaga qamalda bo'lgan an'anaviy ustunlik yo'qoldi. Ushbu davrda to'p uzaytirildi va poroxning retsepti yaxshilandi, bu avvalgidan uch baravar kuchliroq edi.[14] Ushbu o'zgarishlar o'sha davrdagi artilleriya qurollarida kuchning kuchayishiga olib keldi.

Joan of Arc porox quroliga bir necha bor duch kelgan. 1430 yilda Tourelles jangida frantsuzlarni inglizlarga qarshi olib borganida, u og'ir porox istehkomlariga duch keldi va shu bilan birga uning jangchilari g'olib chiqdi. Bundan tashqari, u inglizlar tomonidan boshqariladigan Jargeo, Meung va Beavensiya shaharlariga qarshi hujumlarni olib bordi va ularning hammasi katta artilleriya bo'linmalarining ko'magi bilan amalga oshirildi. U Parijga hujumni boshlaganida, Joan, ayniqsa, Sankt-Denis atrofidagi qattiq artilleriya otishmalariga duch keldi va bu oxir-oqibat bu jangda uning mag'lub bo'lishiga olib keldi. 1430 yil aprel oyida u burgundiyaliklarga qarshi jangga chiqdi, uning yordami inglizlar tomonidan sotib olingan. Bu vaqtda burgundiyaliklar Evropa qudratlari orasida eng kuchli va eng katta porox arsenaliga ega edilar va shunga qaramay frantsuzlar, Joan of Arc boshchiligida burgundiyaliklarni mag'lubiyatga uchratib, o'zlarini himoya qila olishdi.[16] Natijada, Joan Ark ishtirok etgan yuz yillik urushning aksariyat janglari porox artilleriyasi bilan jang qilingan.

Armiyasi Mehmet Fath, fath qilgan Konstantinopol 1453 yilda tarkibiga porox qurollari bilan qurollangan artilleriya va piyoda askarlar ham kiritilgan.[17] The Usmonlilar o'n besh alohida batareyada oltmish to'qqiz qurolni qamalga olib kelib, shahar devorlariga o'rgatdi. Usmonli zambaraklaridan o'q otish qirq kun davom etdi va ular 19320 marta o'q otishgani taxmin qilinmoqda.[18] Artilleriya ham hal qiluvchi rol o'ynadi Sent-Yakob an der Birs jangi 1444 yil. Dastlabki to'p har doim ham ishonchli emas edi; Qirol Shotlandiyalik Jeyms II 1460 yilda Roksburg qal'asi qamalida Flandriyadan olib kelingan o'z to'pidan birining tasodifiy portlashi natijasida o'ldirilgan.

Koreyaning yirik artilleriyasining uchtasi, Chontong Jinju milliy muzeyida. Ushbu zambaraklar XVI asr o'rtalarida ishlab chiqarilgan. Eng yaqini "Cheonja chongtong" (천자 총통, 天字 銃 筒), ikkinchisi - "Jija chongtong" (지자 지자, 地 字 銃 筒), uchinchisi - "Xyeonja chongtong" (현자 총통 총통, is).字 銃 筒).

Yangi Min sulolasi artilleriyaning har xil turlariga ixtisoslashgan "ilohiy dvigatellar batalyoni" ni (神 机 营) tashkil etdi. Yengil to'plar va bir nechta voleybolli to'plar ishlab chiqilgan. Bugungi Birma chegarasi yaqinidagi mahalliy ozchiliklar qo'zg'olonini bostirish kampaniyasida "Ming armiyasi fillar shakllanishini yo'q qilish uchun arquebuses / mushketsning 3 qatorli usulidan foydalangan".[iqtibos kerak ]

Portugaliyaliklar va ispaniyaliklar Janubi-Sharqiy Osiyoga kelganlarida, mahalliy qirolliklar allaqachon zambaraklardan foydalanayotganligini aniqladilar. To'p haqidagi dastlabki ma'lumotlardan biri va artilleriyachilar Java 1346 yildan beri.[19] Portugaliyalik va ispaniyalik bosqinchilar yoqimsiz hayratga tushishdi va hatto ba'zida eskirganlar.[20] Duarte Barbosa ca. 1510 yilda Yava aholisi artilleriya otish bo'yicha buyuk ustalar va juda yaxshi artilleriya ekanligi aytilgan. Ular ko'plab bitta pulemyotlardan foydalanadilar (cetbang yoki rentaka ), uzun mushketlar, spingarde (arquebus), schioppi (qo'l to'pi), Yunoncha olov qurollar (zambaraklar) va boshqa o't o'chirish moslamalari. Har qanday joy artilleriya tashlashda va undan foydalanishni bilishda juda yaxshi hisoblanadi.[21][22] 1513 yilda Yava floti Patif Yunus boshchiligida hujumga o'tdi Portugaliyalik Malakka "Javada ishlab chiqarilgan ko'plab artilleriya bilan, chunki yavaliklar asos solish va quyish bo'yicha mahoratga ega va barcha ishlarda temir, ular ichidagi narsalardan va ustidan Hindiston ".[23][24]:23 XVI asr boshlariga kelib Yava allaqachon mahalliy ishlab chiqaradigan yirik qurollar, ularning ba'zilari hali ham bugungi kungacha omon qolgan va "muqaddas to'p" yoki "muqaddas to'p" deb nomlangan. Ushbu to'plar 180-260 funt sterlinggacha o'zgarib turar edi, ularning vazni 3-8 tonnagacha bo'lgan har qanday joyda, ularning uzunligi 3-6 metrgacha bo'lgan.[25]

1593 yildan 1597 yilgacha 200 mingga yaqin koreys va xitoy qo'shinlari Koreyada Yaponiyaga qarshi kurashgan qamalda ham, dala jangida ham og'ir artilleriyadan faol foydalangan. Koreya kuchlari artilleriya qurollarini joylashtirdilar kemalarda kabi dengiz qurollari, ishlatilgan Yaponiya dengiz flotiga qarshi ustunlikni ta'minlash Kunikuzushi (国 崩 し - yapon tili qaynoq qurol ) va Utszutsu (大 筒 - katta hajm Tanegashima ) ularning eng katta o'qotar qurollari sifatida.[26][27]

Smoothbores

Artilleriya gabion mustahkamlash

Bomba bombalari asosan ahamiyatga ega edi qamallar. Da ishlatiladigan mashhur turkiy misol Konstantinopolni qamal qilish 1453 yilda 19 tonna og'irlik qildi[noaniq ], 200 kishini va oltmishta ho'kizni olib ketish uchun olib ketishdi va kuniga atigi etti marta olov olishlari mumkin edi. Konstantinopolning qulashi, ehtimol "ulkan ahamiyatga ega bo'lgan birinchi hodisa bo'lib, uning natijasi artilleriya yordamida aniqlandi". Mehmed II shahar devorlarini buzib, oxiriga etkazdi Vizantiya imperiyasi, Sirning so'zlariga ko'ra Charlz Ummon.[28]

Evropada ishlab chiqarilgan bombalar juda katta edi silliq teshik dala aravachasi yo'qligi, bir paytlar harakatsizligi, juda individual dizayni va ishonchsizligi bilan ajralib turadigan qurollar (1460 yilda Jeyms II, Shotlandiya qiroli, Roksburg qamalida portlashi natijasida o'ldirilgan). Ularning katta o'lchamlari bochkalarni tashlashga to'sqinlik qilar edi va ular bochka singari halqalar bilan bog'langan metall tayoqchalar yoki novdalardan yasalgan bo'lib, ularning nomlarini qurol bochkasi.[29][sahifa kerak ]

"To'p" so'zining ishlatilishi XV asrda o'qi, izi va hayvonlarga chizilgan limber bilan maxsus dala aravachasi paydo bo'lishini anglatadi - bu harakatlanuvchi va armiyani qo'llab-quvvatlashi mumkin bo'lgan harakatlanuvchi dala qismlari ishlab chiqarilgan, aksincha qamalda va statik mudofaada. Barrel hajmining qisqarishi temir ishlab chiqarish va porox ishlab chiqarishni takomillashtirish bilan bog'liq bo'lib, rivojlanayotgan paytda trunnionlar - gipsning ajralmas qismi sifatida to'p yonbag'ridagi prognozlar, o'qni harakatlanuvchi poydevorga o'rnatishga imkon berdi, shuningdek, ko'tarish yoki tushirishni ancha osonlashtirdi.[29]

The Tsar to'pi (890 mm kalibrli), 1586 yilda Moskvada quyilgan. Bu dunyodagi eng katta bombardimon.

Birinchi quruqlikdagi mobil qurol odatda kreditga beriladi Jan Zižka paytida mollarni olib yuradigan to'pini joylashtirgan Gussiya urushlari Bohemiya (1418–1424). Biroq, to'plar hali ham katta va noqulay edi. XVI asrda mushakbozlik avj olganida, to'p ko'p jihatdan (umuman bo'lmasa ham) jang maydonidan ko'chirildi - to'p juda sekin va og'ir bo'lib ishlatilishi mumkin emas edi va dushmanning tezkor ilgarilashiga osonlikcha yutqazdi.

Otish va kukunni bitta bo'lakka, gilzaga birlashtirish 1620-yillarda oddiy mato sumkasi bilan sodir bo'lgan va tezda barcha xalqlar tomonidan qabul qilingan. U yuklanishni tezlashtirdi va uni xavfsizroq qildi, ammo o'qilmagan sumkaning bo'laklari qurol o'qida qo'shimcha ifloslik va yangi vosita - a qurt - ularni olib tashlash uchun kiritilgan. Gustavus Adolphus zambarakni jang maydoniga ta'sirchan kuchga aylantirgan - ancha engil va kichikroq qurollarni ishlab chiqarishga undab, ularni avvalgiga qaraganda ancha ko'p sonli qurollarni joylashtirgan general sifatida aniqlandi. Janglarning natijasi hali ham piyoda askarlarning to'qnashuvi bilan aniqlandi.

Chig'anoqlar, portlovchi moddalar bilan to'ldirilgan birlashtirilgan snaryadlar, shuningdek, 17-asrda ishlab chiqilgan.[iqtibos kerak ] Ixtisoslashgan buyumlarni ishlab chiqish - kema artilleriyasi, gubitsalar va minomyotlar - bu davrda ham boshlangan. Ko'p barel kabi ko'proq ezoterik dizaynlar ribauldequin ("organ qurollari" deb nomlanuvchi), shuningdek ishlab chiqarilgan.[shubhali ]

1650 yilda yozilgan kitob Kazimierz Siemienowicz Artis Magnae Artilleriae pars prima[30] artilleriya mavzusidagi eng muhim zamonaviy nashrlardan biri edi. Ikki asrdan ko'proq vaqt davomida ushbu asar Evropada asosiy artilleriya qo'llanmasi sifatida ishlatilgan.[iqtibos kerak ]

Bu davrda artilleriyaning eng muhim ta'sirlaridan biri biroz ko'proq bilvosita edi - O'rta asr tipidagi har qanday istehkomni yoki shahar devorlarini osongina vayronaga aylantirib (ba'zi Rim davridan beri mavjud bo'lgan), u minglab yillik qamal-urush strategiyasi va uslublarini bekor qildi. istehkom binosi.[29] Bu, boshqa narsalar qatori, yangilarning g'azablanishiga olib keldi bastion - butun Evropada va uning mustamlakalarida barpo etiladigan uslubiy istehkomlar, shuningdek, rivojlanayotgan davlatlarga kuchli ta'sirchan ta'sir ko'rsatdi, chunki qirollar yangi topilgan artilleriya ustunligidan foydalanib, har qanday mahalliy knyaz yoki lordlarni o'z irodalariga bo'ysunishga majbur qilishdi; absolutist podsholiklarning kelishi uchun zamin yaratmoqda.[29]

Zamonaviy raketa artilleriyasi merosini orqaga qaytarishi mumkin Mysorean raketalari Hindiston. Ularning birinchi foydalanish 1780 yilda janglar paytida bo'lgan Ikkinchi, Uchinchidan va To'rtinchi Mysore urushlari. O'rtasida urushlar British East India kompaniyasi va Mysore qirolligi yilda Hindiston raketalardan qurol sifatida foydalangan. In Pollilur jangi, Seringapatamni qamal qilish (1792) va Seringapatam jangi 1799 yilda ushbu raketalar inglizlarga qarshi sezilarli darajada ishlatilgan. "[31] Urushlardan so'ng, Mysore-ning bir nechta raketalari Angliyaga jo'natildi, ammo og'ir yuklar bilan tajribalar muvaffaqiyatsiz tugadi. 1804 yilda Uilyam Kongriv Misoriya raketalarini juda qisqa masofaga ega (1000 metrdan kam) deb hisoblagan holda, 3000 metrgacha bo'lgan masofada juda ko'p miqdordagi raketalarni ishlab chiqardi va oxir-oqibat temir korpusdan foydalangan Congveve raketasi davomida samarali foydalanilgan Napoleon urushlari va 1812 yilgi urush.[32]

Napoleon artilleriyasi

Napoleon urushlari bilan artilleriya jismoniy dizaynda ham, operatsiyada ham o'zgarishlarga duch keldi. Artilleriya "mexanika" nazorati ostida emas, balki jang maydonida hukmronlik qilish qobiliyatiga ega bo'lgan o'zining xizmat ko'rsatish tarmog'i sifatida qaraldi. Frantsuz artilleriya kompaniyalarining muvaffaqiyati hech bo'lmaganda qisman jang tartibsizligi paytida rahbarlik qiluvchi va muvofiqlashtiruvchi artilleriya zobitlarining mavjudligi bilan bog'liq edi.[33] Napoleon, o'zi sobiq artilleriya zobiti, hal qiluvchi piyoda va otliqlar hujumiga tayyorgarlik sifatida dushmanlari qatoridagi tanqidiy nuqtada paydo bo'lgan ommaviy artilleriya batareyalarini taktikasini takomillashtirdi.

Jismoniy jihatdan to'plar tobora kichrayib boraverdi - Prussiyalik Frederik II etti yillik urush paytida birinchi haqiqiy engil artilleriyani joylashtirdi.

Jan-Batist de Gribeoval, frantsuz artilleriya muhandisi, 18-asr o'rtalarida to'plar dizaynini standartlashtirishni joriy etdi. U 6 dyuymli (150 mm) dala gubitsa ishlab chiqardi, uning qurol o'qi, vagon yig'ish va o'q-dorilarning xususiyatlari barcha frantsuz to'plari uchun bir hil holga keltirildi. Ushbu to'plarning yong'oq, murvat va vintlargacha bo'lgan standartlashtirilgan almashtiriladigan qismlari ularni ommaviy ishlab chiqarishni va ta'mirlashni ancha osonlashtirdi. Gribeauval tizimi yanada samarali ishlab chiqarish va yig'ishni amalga oshirgan bo'lsa-da, ishlatilgan vagonlar og'ir edi va qurolbardorlar piyoda yurishga majbur bo'ldilar (o'rniga minish o'rniga limber va ingliz tizimidagi kabi qurol).[34] Har bir to'p o'z snaryadlarining og'irligi uchun nomlangan bo'lib, bizga 4, 8 va 12 kabi variantlarni berdi, bu og'irlikni funtlarda ko'rsatdi. Marmarlarning o'zida qattiq o'qlar yoki qo'rg'oshin o'qlari yoki boshqa materiallar bo'lgan quti bor edi. Ushbu kanistr otishmalar nishonni yaqin masofada yuzlab snaryadlar bilan qirib tashlagan holda, katta ov miltig'i vazifasini bajargan.[35] Sifatida tanilgan qattiq to'plar dumaloq otish, yassi va ochiq maydon bo'ylab elkalarining balandligidan otilganda eng samarali bo'ldi. To'p dushman saflarini yorib o'tar yoki oyoq va to'piqlarni sindirib yerga sakrab tushar edi.[36]

Zamonaviy artilleriya

Zamonaviy artilleriya rivojlanishi 19-asrning o'rtalaridan oxirigacha asosiy texnologiyaning turli xil takomillashuvlari yaqinlashishi natijasida yuzaga keldi. Metallurgiyadagi yutuqlar qurilishiga imkon berdi kamar yuklash miltiqlangan juda katta o'q otishi mumkin bo'lgan qurollar tumshug'i tezligi.

Britaniya artilleriyasi namoyish qilingandan keyin Qrim urushi dan beri deyarli o'zgarmaganday Napoleon urushlari sanoatchi Uilyam Armstrong hukumat tomonidan yangi artilleriya qismini loyihalashtirish bo'yicha shartnoma bilan taqdirlangan. Ishlab chiqarish 1855 yilda boshlangan Elsvik Ordnance kompaniyasi va "Qirollik klubi" da Vulvich va natijasi inqilobiy edi Armstrong qurol zamonaviy artilleriya tug'ilishini belgilab bergan.[37][38] Uning uchta xususiyati ayniqsa ajralib turadi.

Davomida Yaponiya tomonidan joylashtirilgan Armstrong qurol Boshin urushi (1868–69)

Birinchidan, parcha miltillashgan, bu juda aniq va kuchli harakatlarga imkon bergan. XV asrdan beri miltiq otish qurollari ustida sinab ko'rilgan bo'lsa-da, artilleriyani aniq o'qqa tutish uchun zarur texnika 19-asr o'rtalariga qadar mavjud emas edi. Martin von Vahrendorff va Jozef Uitvort mustaqil ravishda miltiq to'pi 1840-yillarda ishlab chiqarilgan, ammo bu Qrim urushi paytida birinchi bo'lib Armstrongning qurolidir.[39] The quyma temir Armstrong qurolining qobig'i a shakliga o'xshash edi Minié to'pi va uni quroldan ko'ra kattaroq qilib yupqa qo'rg'oshin qoplamasiga ega edi zerikarli miltiqning miltiq chuqurchasi bilan o'ralgan va miltiqqa spin berish uchun. Ushbu spin, yo'q qilish bilan birga shamol mahkam o'rnashib olish natijasida qurol kichikroq kukunli zaryadga ega bo'lgan silliq teshikli og'zaki yuklagichlarga qaraganda katta masofa va aniqlikka erishishga imkon berdi.

Davomida 8 dyuymli Armstrong qurol Amerika fuqarolar urushi, Fort Fisher, 1865

Uning miltig'i ham peshtaxta yuklovchi edi. O'rta asrlardan buyon yuk ko'tarish mexanizmlariga urinishlar qilingan bo'lsa-da, muhim muhandislik muammosi shundaki, mexanizm portlovchi zaryadga bardosh bera olmagan. Bu faqat yutuqlar bilan edi metallurgiya va aniq muhandislik davomida imkoniyatlari Sanoat inqilobi Armstrong hayotga tatbiq etiladigan echim topa olganligi. Qurol samarali artilleriya qismini tashkil etuvchi barcha xususiyatlarni birlashtirdi. Qurol vagonga qurolni o'q otish holatiga qaytaradigan tarzda o'rnatildi orqaga chekinmoq.

Qurolni haqiqatan ham inqilobiy holga keltirgan narsa, qurolning o'qini qurish texnikasida yotibdi, bu esa uning yanada kuchli portlovchi kuchlariga dosh berishga imkon berdi. "qurildi "usuli barrelni yig'ishni o'z ichiga oladi temir (keyinroq yumshoq po'lat ishlatilgan) ketma-ket kichikroq diametrli quvurlar.[40] Keyin trubka kengayib, oldingi trubka ustiga o'tirishi uchun qizdiriladi. Sovutganda, qurol asl hajmiga qaytmasa ham qisqaradi, bu esa qurol devorlari bo'ylab bir tekis bosim o'tkazishga imkon beradi, bu esa qurolning o'qqa tutilishi natijasida tashqi kuchlarga qarshi yo'naltirilgan.[41]

Odatda 20-asr qurollari bilan bog'liq bo'lgan yana bir innovatsion xususiyat Armstrongning "ushlash" deb atashi edi, bu asosan siqish teshigi edi; tumshug'idagi teshikning 6 dyuymli diametri biroz kichikroq bo'lib, u qobiqni barreldan chiqmasdan oldin markazlashtirgan va shu bilan birga biroz o'zgargan qo'rg'oshin qoplamasini pastga tushirib, diametrini pasaytiradi va ballistik fazilatlarini biroz yaxshilaydi.

Frantsuzlar Canon de 75 uslubi 1897 yil, birinchi zamonaviy artilleriya qismi

Armstrong tizimi 1858 yilda dastlab "sohada maxsus xizmat ko'rsatish" uchun qabul qilingan va dastlab u faqat kichikroq artilleriya qurollarini, 6 pog'onali (2,5 dyuym / 64 mm) tog 'yoki engil dala qurollarini, 9 pog'onali (3 dyuym / 76 mm) ishlab chiqargan. ) uchun qurol ot artilleriyasi va 12 poundli (3 dyuym / 76 mm) dala qurollari.

Barcha "zamonaviy" xususiyatlarni o'z ichiga olgan birinchi to'p, odatda, deb hisoblanadi Frantsuzcha 75 1897 yil[42][43] Bu birinchi edi dala qurol qo'shmoq gidro-pnevmatik orqaga chekinish mexanizmi o'q otish ketma-ketligi paytida qurol izi va g'ildiraklarini mukammal darajada ushlab turdi. Har bir otishdan keyin uni qayta yo'naltirishga hojat yo'qligi sababli, ekipaj barrel dam olish joyiga qaytishi bilanoq o'q uzishi mumkin edi. Oddiy foydalanishda frantsuz 75 o'z maqsadiga ko'ra daqiqada o'n besh tur etkazib berishi mumkin edi shrapnel yoki melinit yuqori portlovchi, taxminan 8500 m masofada. Uning otish tezligi juda qisqa vaqt ichida va juda tajribali ekipaj bilan bo'lsa ham, daqiqada 30 turga yaqinlashishi mumkin edi. Bu zamonaviy bo'lgan stavkalar edi murvatli miltiq mos kelmadi. Qurol quti o'q-dorilarni ishlatgan, yuk ko'taruvchi va zamonaviy ko'rinishga ega, o'zini o'zi otish mexanizmi va gidro-pnevmatik orqaga qaytish namlash.

Bilvosita yong'in

Bilvosita yong'in, qurol va nishon orasidagi to'g'ridan-to'g'ri ko'rish chizig'iga tayanmasdan snaryadni otish, ehtimol XVI asrga to'g'ri keladi.[44] Dastlabki jang maydonida bilvosita olovdan foydalanish sodir bo'lishi mumkin Palsig 1759 yil iyulda, rus artilleriyasi daraxtlarning tepasida o'q uzganda,[45] va Vaterloo jangi, bu erda batareyaning Qirol ot artilleriyasi otilgan Shrapnel ilg'or frantsuz qo'shinlariga qarshi bilvosita.[46]

1882 yilda rus podpolkovnigi KG Guk nashr etdi Dala artilleriyasi uchun bilvosita olovbilvosita yong'in uchun nishonlarni ishlatishning amaliy uslubini taqdim etgan, "nishonga olish punktlari, tepaliklarni tozalash va kuzatuvchi tomonidan olovni to'g'rilashning barcha zaruriyatlarini" tavsiflab.[47]

Bir necha yil o'tgach, Richtfläche (astarli tekislik) ko'rinish Germaniyada ixtiro qilindi va u allaqachon mavjud bo'lgan balandlikda bilvosita yotqizish uchun klinometrlarni to'ldirib, azimutda bilvosita yotqizish vositasini taqdim etdi. Ichidagi konservativ qarshiliklarga qaramay Germaniya armiyasi, bilvosita yong'in doktrin sifatida 1890-yillarda qabul qilingan. 1900-yillarning boshlarida Germaniyada Gyertz azimut yotqizish uchun optik ko'rinishni yaratdi. U tezda qoplama tekisligini almashtirdi; ingliz tilida "Dial Sight" (Buyuk Britaniya) yoki "Panoramic Telescope" (AQSh) bo'ldi.

1890-yillardan beri inglizlar bilvosita yong'in texnikasini sinab ko'rdilar, ammo boshlanishi bilan Boer urushi, ular nazariyani amalda birinchi bo'lib 1899 yilda qo'lladilar, garchi ular samolyot ko'rinishisiz improvizatsiya qilishlari kerak edi.[48]

Keyingi 15 yil ichida Birinchi jahon urushi, bilvosita olov texnikasi barcha turdagi artilleriya uchun mavjud bo'ldi. Bilvosita yong'in 20-asr artilleriyasining o'ziga xos xususiyati bo'lib, aksariyati Birinchi Jahon urushi paytida yuz bergan artilleriya miqdori, uning taktikasi, tashkil etilishi va texnikasi o'zgarishini xayolga keltirdi.

Bilvosita otishni o'rganish va qurollarni takomillashtirish natijasi qurol va nishon orasidagi masofani ko'paytirishi edi, bu parvoz vaqtini va traektoriyaning tepasini oshirdi. Natija nostandart sharoitlarning kuchayib borishi natijasida aniqlikning pasayishi (nishon va unga yo'naltirilgan snaryadlarning o'rtacha ta'sir nuqtasi orasidagi masofaning ortishi) pasayishiga olib keldi. Bevosita o'q otish ma'lumotlari ma'lum sharoitda namlik tezligi, shamolning nol darajasi, havo harorati va zichligi va yoqilg'i harorati kabi standart sharoitlarga asoslangan. Amalda, shartlarning ushbu standart kombinatsiyasi deyarli hech qachon mavjud emas edi, ular kun davomida va kundan-kunga o'zgarib turar edi va parvoz vaqti qancha ko'p bo'lsa, shunchalik noaniqlik oshadi. Qurolning koordinatalarini aniq tuzatish va qurollar uchun aniq yo'nalishni ta'minlash uchun so'rov o'tkazish zarurati yana bir murakkablik bo'ldi. Albatta, maqsadlar aniq joylashtirilishi kerak edi, ammo 1916 yilga kelib, havodan suratga olish texnikasi bunga imkon berdi va ba'zida erni o'rganish texnikasidan foydalanish mumkin edi.

1914 yilda o'q otish ma'lumotlarini haqiqiy sharoitlar uchun tuzatish usullari tez-tez chalkashib ketgan va haqiqiy sharoitlar to'g'risidagi ma'lumotlarning mavjudligi ibtidoiy yoki umuman bo'lmagan, yong'in har doim o'zgarib turadi (sozlangan). 1914 yil oxiridan boshlab Britaniya og'ir artilleriyasi ushbu muammolarning barchasini bosqichma-bosqich hal qilish uchun g'ayrat bilan ishladi va 1918 yil boshlarida ham dala, ham og'ir artilleriya uchun samarali jarayonlar sodir bo'ldi. Ushbu jarayonlar keyinchalik "taxmin qilingan yong'in" deb nomlangan "xaritada tortishish" ni amalga oshirdi; bu samarali yong'inni aniq belgilangan nishonga masofadan turib etkazish mumkinligini anglatardi. Shunga qaramay, ta'sirning o'rtacha nuqtasi hali ham maqsad markazining maqsad nuqtasidan bir necha o'n metr narida edi. Bu aniq yong'in emas edi, lekin u kontsentratsiyalar va to'siqlar uchun etarlicha yaxshi edi. Ushbu jarayonlar XXI asrda kompyuterlar tomonidan hisob-kitoblarni takomillashtirish va nostandart sharoitlar bo'yicha ma'lumotlarni olish yaxshilanishi bilan amalda qolmoqda.

Inglizlar general-mayor Genri Xyu Tudor kashfiyotda zirh va artilleriya hamkorligi Kambrey urushi. Nostandart sharoitlar (qo'zg'alish harorati, tumshug'i tezligi, shamol, havo harorati va barometrik bosim) uchun ma'lumotlar bilan ta'minlash va ulardan foydalanishni takomillashtirish urush davomida asosiy jangchilar tomonidan ishlab chiqilgan va samarali yong'inni ta'minlagan.[49] Buning samaradorligi 1917 yilda inglizlar tomonidan (Kambreyda) va keyingi yil Germaniya tomonidan namoyish etildi (Maykl operatsiyasi ).

General-mayor J.B.A. Beyli, Britaniya armiyasi (nafaqaga chiqqan) shunday deb yozgan:

O'n sakkizinchi asrning o'rtalaridan o'n to'qqizinchi o'rtalariga qadar artilleriya jang maydonidagi yo'qotishlarning 50 foizini tashkil etgan deb baholanadi. 1914 yildan oldingi oltmish yil ichida bu raqam, ehtimol, 10 foizga teng bo'lgan. Qolgan 90 foiz o'q otish qurollariga to'g'ri keldi, ularning masofasi va aniqligi artilleriya bilan raqobatlashdi. ... [WWI tomonidan] The Britaniya qirollik artilleriyasi Bir milliondan oshiq odam Qirollik flotidan kattaroq bo'lib o'sdi. Bellamy (1986), 1-7-betlar, 1914 yildan beri turli teatrlarda artilleriya sabab bo'lgan talofatlarning foizini keltirmoqda: Birinchi Jahon urushida Rossiya halok bo'lganlarning 45 foizi va Buyuk Britaniyaning G'arbiy frontdagi talofatlarining 58 foizi; Ikkinchi Jahon urushida Buyuk Britaniyaning Shimoliy Afrikadagi talofatlarining 75 foizi va Sovet Ittifoqining 51 foizining (1945 yilda 61 foizi) va Germaniyaning Sharqiy frontda halok bo'lganlarining 70 foizi; va Koreya urushida AQShning 60 foiz talofati, shu jumladan minomyotlar tomonidan etkazilgan zarar.[50]

— J.B.A. Beyli (2004). Dala artilleriyasi va o'q otish kuchlari

Taxminan 75000 frantsuz askarlari Birinchi Jahon urushining to'rt yilida do'stona artilleriya otishmalarida qurbon bo'lishgan.[51]

Aniq yo'naltirilgan artilleriya

M982 Excalibur boshqariladigan artilleriya pulemyoti

Zamonaviy artilleriya aniq uzoq masofadan o'q otish bilan ajralib turadi portlovchi qobiq yoki raketa otish va tashish uchun ko'chma vagon. Shu bilan birga, uning eng muhim xususiyati bilvosita olovdan foydalanishdir, bunda o'q otish moslamalari uning diqqatga sazovor joylari orqali maqsadni ko'rmasdan yo'naltiriladi. Indirect fire emerged at the beginning of the 20th century and was greatly enhanced by the development of bashorat qilingan yong'in methods in World War I. However, indirect fire was area fire; it was and is not suitable for destroying point targets; its primary purpose is area suppression. Nevertheless, by the late 1970s precision-guided munitions started to appear, notably the US 155 mm Copperhead and its Soviet 152 mm Krasnopol equivalent that had success in Indian service. These relied on laser designation to 'illuminate' the target that the shell homed onto. However, in the early 21st Century, the Global joylashishni aniqlash tizimi (GPS) enabled relatively cheap and accurate guidance for shells and missiles, notably the US 155 mm Excalibur and the 227 mm GMLRS rocket. The introduction of these led to a new issue, the need for very accurate three dimensional target coordinates—the mensuration process.

Weapons covered by the term 'modern artillery' include "to'p " artillery (such as гаubitsa, ohak va field gun ) va raketa artilleriyasi. Certain smaller-caliber mortars are more properly designated small arms rather than artillery, albeit indirect-fire small arms. This term also came to include qirg'oq artilleriyasi which traditionally defended coastal areas against seaborne attack and controlled the passage of ships. With the advent of powered flight at the start of the 20th century, artillery also included ground-based zenit batareyalari.

The term "artillery" has traditionally not been used for projectiles with internal rahbarlik tizimlari, preferring the term "missilery",[iqtibos kerak ] though some modern artillery units employ surface-to-surface raketalar. Advances in terminal guidance systems for small munitions has allowed large-caliber guided projectiles to be developed, blurring this distinction.

O'q-dorilar

One of the most important roles of logistics is the supply of o'q-dorilar as a primary type of artillery consumable, their storage (o'q-dorilar tashlanadigan joy, qurol, jurnal ) and the provision of fuzes, detonators and warheads at the point where artillery troops will assemble the charge, projectile, bomb or shell.

A round of artillery ammunition comprises four components:

  1. Fuze
  2. Marmar
  3. Yonilg'i
  4. Astar

Fuzes

Fuzes are the devices that initiate an artillery projectile, either to detonate its High Explosive (HE) filling or eject its cargo (illuminating flare or smoke canisters being examples). The official military spelling is "fuze".[52] Broadly there are four main types:

  • impact (including graze and delay)
  • mechanical time including havo portlashi
  • proximity sensor including airburst
  • programmable electronic detonation including airburst

Most artillery fuzes are nose fuzes. However, base fuzes have been used with armour piercing shells and for squash head (High-Explosive Squash Head (HESH) yoki High Explosive, Plastic (HEP) anti-tank shells. At least one nuclear shell and its non-nuclear spotting version also used a multi-deck mechanical time fuze fitted into its base.

Impact fuzes were, and in some armies remain, the standard fuze for HE projectiles. Their default action is normally 'superquick', some have had a 'graze' action which allows them to penetrate light cover and others have 'delay'. Delay fuzes allow the shell to penetrate the ground before exploding. Armor or Concrete-Piercing (AP or CP) fuzes are specially hardened. During World War I and later, ricochet fire with delay or graze fuzed HE shells, fired with a flat angle of descent, was used to achieve airburst.

HE shells can be fitted with other fuzes. Airburst fuzes usually have a combined airburst and impact function. However, until the introduction of proximity fuzes, the airburst function was mostly used with cargo munitions—for example, shrapnel, illumination, and smoke. The larger calibers of zenit artillery are almost always used airburst. Airburst fuzes have to have the fuze length (running time) set on them. This is done just before firing using either a wrench or a fuze setter pre-set to the required fuze length.

Early airburst fuzes used igniferous timers which lasted into the second half of the 20th century. Mechanical time fuzes appeared in the early part of the century. These required a means of powering them. The Thiel mechanism used a spring and escapement (i.e. 'clockwork'), Junghans used markazdan qochiradigan kuch and gears, and Dixi used centrifugal force and balls. From about 1980, electronic time fuzes started replacing mechanical ones for use with cargo munitions.

Proximity fuzes have been of two types: photo-electric or radar. The former was not very successful and seems only to have been used with British zenit artilleriyasi 'unrotated projectiles' (rockets) in World War II. Radar proximity fuzes were a big improvement over the mechanical (time) fuzes which they replaced. Mechanical time fuzes required an accurate calculation of their running time, which was affected by non-standard conditions. With HE (requiring a burst 20 to 30 feet (9.1 m) above the ground), if this was very slightly wrong the rounds would either hit the ground or burst too high. Accurate running time was less important with cargo munitions that burst much higher.

Birinchi radar proximity fuzes (perhaps originally codenamed 'VT' and later called Variable Time (VT)) were invented by the British and developed by the US and initially used against aircraft in World War II. Their ground use was delayed for fear of the enemy recovering 'blinds' (artillery shells which failed to detonate) and copying the fuze. The first proximity fuzes were designed to detonate about 30 feet (9.1 m) above the ground. These air-bursts are much more lethal against personnel than ground bursts because they deliver a greater proportion of useful fragments and deliver them into terrain where a prone soldier would be protected from ground bursts.

However, proximity fuzes can suffer premature detonation because of the moisture in heavy rain clouds. This led to 'Controlled Variable Time' (CVT) after World War II. These fuzes have a mechanical timer that switched on the radar about 5 seconds before expected impact, they also detonated on impact.

The proximity fuze emerged on the battlefields of Europe in late December 1944. They have become known as the U.S. Artillery's "Christmas present", and were much appreciated when they arrived during the Bulge jangi. They were also used to great effect in anti-aircraft projectiles in the Pacific against kamikadze as well as in Britain against V-1 uchar bomba.[53]

Electronic multi-function fuzes started to appear around 1980. Using solid-state electronics they were relatively cheap and reliable, and became the standard fitted fuze in operational ammunition stocks in some western armies. The early versions were often limited to proximity airburst, albeit with height of burst options, and impact. Some offered a go/no-go functional test through the fuze setter.

Later versions introduced induction fuze setting and testing instead of physically placing a fuze setter on the fuze. The latest, such as Junghan's DM84U provide options giving, superquick, delay, a choice of proximity heights of burst, time and a choice of foliage penetration depths.

A new type of artillery fuze will appear soon. In addition to other functions these offer some course correction capability, not full precision but sufficient to significantly reduce the dispersion of the shells on the ground.

Mermilar

Artillery ammunition can also make use of yadroviy kallaklar, ko'rinib turganidek this 1953 nuclear test.

The projectile is the munition or "bullet" fired downrange. This may or may not be an explosive device.

Traditionally, projectiles have been classified as "shot" or "shell", the former being solid and the latter having some form of "payload".

Shells can also be divided into three configurations: bursting, base ejection or nose ejection. The latter is sometimes called the shrapnel configuration. The most modern is base ejection, which was introduced in World War I. Both base and nose ejection are almost always used with airburst fuzes. Bursting shells use various types of fuze depending on the nature of the payload and the tactical need at the time.

Payloads have included:

  • Bursting: high-explosive, White Phosphorus (WP) ("Willie Pete" or "Wilson Picket"),[iqtibos kerak ] coloured marker, chemical, nuclear devices; High-Explosive Anti-Tank (HEAT) and canister may be considered special types of bursting shell.
  • Nose Ejection: shrapnel, star, incendiary and flechette (a more modern version of shrapnel).
  • Base Ejection: Dual-Purpose Improved Conventional Munition (DPICM) -bomblets, which arm themselves and function after a set number of rotations after having been ejected from the projectile (this produces unexploded sub-munitions, or "duds", which remain dangerous), scatterable mines, illuminating, coloured flare, smoke, incendiary, propaganda, chaff[54] (foil to jam radars)[55] and modern exotics such as electronic payloads and sensor-fuzed munitions.

Stabilizatsiya

  • Rifled Traditionally, artillery projectiles have been spin-stabilised, meaning that they spin in flight so that gyroscopic forces prevent them from tumbling. Spin is induced by gun barrels having miltiq which engages a soft metal band around the projectile, called a "haydash guruhi " (UK) or "rotating band" (U.S.). The driving band is usually made of copper, but synthetic materials have also been used.
  • Smoothbore/Fin-Stabilized In modern artillery, silliq teshik tubes have been used mostly by minomyotlar. These projectiles use fins in the airflow at their rear to maintain correct orientation. The primary benefits over rifled barrels is reduced barrel wear, longer ranges that can be achieved (due to the reduced loss of energy to friction and gas escaping around the projectile via the rifling) and larger explosive cores for a given caliber artillery due to less metal needing to be used to form the case of the projectile because of less force applied to the shell from the non-rifled sides of the barrel of smooth bore guns.
  • Rifled/Fin-Stabilized A combination of the above can be used, where the barrel is rifled, but the projectile also has deployable fins for stabilization,[56] ko'rsatma[57] or gliding.[58]

Yonilg'i

Most forms of artillery require a yoqilg'i to propel the projectile at the target. Propellant is always a low explosive, this means it deflagratlar o'rniga portlatish, as with high explosives. The shell is accelerated to a high velocity in a very short time by the rapid generation of gas from the burning propellant. This high pressure is achieved by burning the propellant in a contained area, either the chamber of a gun barrel or the combustion chamber of a raketa dvigateli.

Until the late 19th century, the only available propellant was qora kukun. Black powder had many disadvantages as a propellant; it has relatively low power, requiring large amounts of powder to fire projectiles, and created thick clouds of white smoke that would obscure the targets, betray the positions of guns, and make aiming impossible. In 1846, nitrocellulose (also known as guncotton) was discovered, and the high explosive nitrogliserin was discovered at nearly the same time. Nitroselüloz was significantly more powerful than black powder, and was smokeless. Early guncotton was unstable, however, and burned very fast and hot, leading to greatly increased barrel wear. Widespread introduction of smokeless powder would wait until the advent of the double-base powders, which combine nitrocellulose and nitroglycerin to produce powerful, smokeless, stable propellant.

Many other formulations were developed in the following decades, generally trying to find the optimum characteristics of a good artillery propellant; low temperature, high energy, non-corrosive, highly stable, cheap, and easy to manufacture in large quantities. Broadly, modern gun propellants are divided into three classes: single-base propellants which are mainly or entirely nitrocellulose based, double-base propellants composed of a combination of nitrocellulose and nitroglycerin, and triple base composed of a combination of nitrocellulose and nitroglycerin and Nitroguanidin.

Artillery shells fired from a barrel can be assisted to greater range in three ways:

  • Rocket-Assisted Projectiles (RAP) enhance and sustain the projectile's velocity by providing additional 'push' from a small rocket motor that is part of the projectile's base.
  • Baza qonaydi uses a small pyrotechnic charge at the base of the projectile to introduce sufficient combustion products into the low-pressure region behind the base of the projectile responsible for a large proportion of the sudrab torting.
  • ramjet-assisted, similar to rocket-assisted, but using a ramjet instead of a rocket motor; it is anticipated that a ramjet-assisted 120-mm mortar shell could reach a range of 22 mi (35 km).[59]

Propelling charges for tube artillery can be provided in one of two ways: either as cartridge bags or in metal cartridge cases. Generally, anti-aircraft artillery and smaller-caliber (up to 3" or 76.2 mm) guns use metal cartridge cases that include the round and propellant, similar to a modern rifle cartridge. This simplifies loading and is necessary for very high rates of fire. Bagged propellant allows the amount of powder to be raised or lowered, depending on the range to the target. It also makes handling of larger shells easier. Each requires a totally different type of breech to the other. A metal case holds an integral primer to initiate the propellant and provides the gas seal to prevent the gases leaking out of the breech; this is called obturation. With bagged charges, the breech itself provides obturation and holds the primer. In either case, the primer is usually percussion, but electrical is also used, and lazer ateşlemesi is emerging. Modern 155 mm guns have a primer magazine fitted to their breech.

Battleship Ammunition: 16" artillery shells aboard one of the United States Ayova- sinf jangovar kemalar.

Artillery ammunition has four classifications according to use:

  • Xizmat: ammunition used in live fire training or for wartime use in a combat zone. Also known as "warshot" ammunition.
  • Practice: Ammunition with a non- or minimally-explosive projectile that mimics the characteristics (range, accuracy) of live rounds for use under training conditions. Practice artillery ammunition often utilizes a colored-smoke-generating bursting charge for marking purposes in place of the normal high-explosive charge.
  • Dummy: Ammunition with an inert warhead, inert primer, and no propellant; used for training or display.
  • Blank: Ammunition with live primer, greatly reduced propellant charge (typically qora kukun ), and no projectile; used for training, demonstration or ceremonial use.

Field artillery system

Siklon of the 320th French Artillery, in Hoogstade, Belgium, September 5, 1917.

Because field artillery mostly uses bilvosita olov the guns have to be part of a system that enables them to attack targets invisible to them in accordance with the combined arms plan.

The main functions in the field artillery system are:

  • Aloqa
  • Command: authority to allocate resources;
  • Target acquisition: detect, identify and deduce the location of targets;
  • Control: authority to decide which targets to attack and allot fire units to the attack;
  • Computation of firing data – to deliver fire from a fire unit onto its target;
  • Fire units: guns, launchers or mortars grouped together;
  • Specialist services: produce data to support the production of accurate firing data;
  • Logistic services: to provide combat supplies, particularly ammunition, and equipment support.

All these calculations to produce a quadrant elevation (or range) and azimuth were done manually using instruments, tabulated, data of the moment, and approximations until battlefield computers started appearing in the 1960s and 1970s. While some early calculators copied the manual method (typically substituting polinomlar for tabulated data), computers use a different approach. They simulate a shell's trajectory by 'flying' it in short steps and applying data about the conditions affecting the trajectory at each step. This simulation is repeated until it produces a quadrant elevation and azimuth that lands the shell within the required 'closing' distance of the target coordinates.NATO has a standard ballistic model for computer calculations and has expanded the scope of this into the NATO Armaments Ballistic Kernel (NABK)[60] ichida SG2 almashinadigan (yong'in nazorati) dasturiy ta'minot to'plami (S4).

Logistika

Supply of artillery ammunition has always been a major component of military logistics. Up until World War I some armies made artillery responsible for all forward ammunition supply because the load of small arms ammunition was trivial compared to artillery. Different armies use different approaches to ammunition supply, which can vary with the nature of operations. Differences include where the logistic service transfers artillery ammunition to artillery, the amount of ammunition carried in units and extent to which stocks are held at unit or battery level. A key difference is whether supply is 'push' or 'pull'. In the former the 'pipeline' keeps pushing ammunition into formations or units at a defined rate. In the latter units fire as tactically necessary and replenish to maintain or reach their authorised holding (which can vary), so the logistic system has to be able to cope with surge and slack.

Classification of artillery

Artillery types can be categorised in several ways, for example by type or size of weapon or ordnance, by role or by organizational arrangements.

Types of ordnance

The types of cannon artillery are generally distinguished by the velocity at which they fire projectiles.Types of artillery:

Germaniya armiyasi PzH 2000 o'ziyurar artilleriya
Naval cannon, early 19th century
  • Dengiz artilleriyasi: guns mounted on warships and used either against other ships or in support of ground forces. The crowning achievement of naval artillery was the jangovar kema, but the advent of airpower and missiles have rendered this type of artillery largely obsolete. They are typically longer-barreled, low-trajectory, high-velocity weapons designed primarily for a direct-fire role.
  • Sohil artilleriyasi: Fixed-position weapons dedicated to defense of a particular location, usually a coast (for example, the Atlantika devori in World War II) or harbor. Not needing to be mobile, coastal artillery used to be much larger than equivalent field artillery pieces, giving them longer range and more destructive power. Modern coastal artillery (for example, Russia's "Bereg" system) is often self-propelled, (allowing it to avoid batareyaga qarshi yong'in ) and fully integrated, meaning that each battery has all of the support systems that it requires (maintenance, targeting radar, etc.) organic to its unit.

Modern field artillery can also be split into two other subcategories: towed and o'ziyurar. Nomidan ko'rinib turibdiki, tortib olingan artilleriya has a prime mover, usually an artilleriya traktori or truck, to move the piece, crew, and ammunition around. Towed artillery is in some cases equipped with an APU for small displacements. Self-propelled artillery is permanently mounted on a carriage or vehicle with room for the crew and ammunition and is thus capable of moving quickly from one firing position to another, both to support the fluid nature of modern combat and to avoid counter-battery fire. It includes mortar carrier vehicles, many of which allow the mortar to be removed from the vehicle and be used dismounted, potentially in terrain in which the vehicle cannot navigate, or in order to avoid detection.

Organizational types

At the beginning of the modern artillery period, the late 19th century, many armies had three main types of artillery, in some case they were sub-branches within the artillery branch in others they were separate branches or corps. There were also other types excluding the armament fitted to warships:

Horse-drawn artillery.
Man-pulled artillery.
Australian gunners, wearing gaz maskalari, faoliyat a 9.2-inch (230 mm) howitzer Birinchi Jahon urushi paytida.
  • Ot artilleriyasi, first formed as regular units in the late 18th century, with the role of supporting cavalry, they were distinguished by the entire crew being mounted.
  • Field or "foot" artillery, the main artillery arm of the field army, using either guns, howitzers, or mortars. In World War II this branch again started using raketalar and later surface to surface missiles.
  • Fortress or garrison artillery, manned a nation's fixed defences using guns, howitzers or mortars, either on land or coastal frontiers. Some had deployable elements to provide heavy artillery to the field army. In some nations coast defence artillery was a naval responsibility.
  • Tog 'artilleriyasi, a few nations treated mountain artillery as a separate branch, in others it was a speciality in another artillery branch. They used light guns or howitzers, usually designed for pack animal transport and easily broken down into small easily handled loads
  • Naval artillery, some nations carried pack artillery on some warships, these were used and manhandled by naval (or marine) landing parties. At times, part of a ship's armament would be unshipped and mated to makeshift carriages and limbers for actions ashore, for example during the Ikkinchi Boer urushi, during the First World War the guns from the stricken SMS Königsberg formed the main artillery strength of the German forces in East Africa.
Firing of an 18-pound gun, Lui-Filipp Krepin, (1772–1851)

After World War I many nations merged these different artillery branches, in some cases keeping some as sub-branches. Naval artillery disappeared apart from that belonging to marines. However, two new branches of artillery emerged during that war and its aftermath, both used specialised guns (and a few rockets) and used direct not indirect fire, in the 1950s and 1960s both started to make extensive use of missiles:

  • Anti-tank artillery, also under various organisational arrangements but typically either field artillery or a specialist branch and additional elements integral to infantry, etc., units. However, in most armies field and anti-aircraft artillery also had at least a secondary anti-tank role. After World War II anti-tank in Western armies became mostly the responsibility of infantry and armoured branches and ceased to be an artillery matter, with some exceptions.
  • Zenit artilleriyasi, under various organisational arrangements including being part of artillery, a separate corps, even a separate service or being split between army for the field and airforce for home defence. In some cases infantry and the new armoured corps also operated their own integral light anti-aircraft artillery. Home defence anti-aircraft artillery often used fixed as well as mobile mountings. Some anti-aircraft guns could also be used as field or anti-tank artillery, providing they had suitable sights.

However, the general switch by artillery to indirect fire before and during World War I led to a reaction in some armies. The result was accompanying or infantry guns. These were usually small, short range guns, that could be easily man-handled and used mostly for direct fire but some could use indirect fire. Some were operated by the artillery branch but under command of the supported unit. In World War II they were joined by self-propelled assault guns, although other armies adopted infantry or close support tanks in armoured branch units for the same purpose, subsequently tanks generally took on the accompanying role.

Equipment types

The three main types of artillery "gun" are qurol, гаubitsalar va minomyotlar. During the 20th century, guns and howitzers have steadily merged in artillery use, making a distinction between the terms somewhat meaningless. By the end of the 20th century, true guns with calibers larger than about 60 mm have become very rare in artillery use, the main users being tanks, ships, and a few residual anti-aircraft and coastal guns. The term "cannon" is a United States generic term that includes guns, howitzers, and mortars; it is not used in other English speaking armies.

The traditional definitions differentiated between guns and howitzers in terms of maximum elevation (well less than 45° as opposed to close to or greater than 45°), number of charges (one or more than one charge), and having higher or lower muzzle velocity, sometimes indicated by barrel length. These three criteria give eight possible combinations, of which guns and howitzers are but two. However, modern "howitzers" have higher velocities and longer barrels than the equivalent "guns" of the first half of the 20th century.

True guns are characterized by long range, having a maximum elevation significantly less than 45°, a high muzzle velocity and hence a relatively long barrel, smooth bore (no rifling) and a single charge. The latter often led to fixed ammunition where the projectile is locked to the cartridge case. There is no generally accepted minimum muzzle velocity or barrel length associated with a gun.

A British 60-pounder (5-inch (130 mm)) gun at full recoil, in action during the Gallipoli jangi, 1915. Surat muallifi Ernest Bruks.

Howitzers can fire at maximum elevations at least close to 45°; elevations up to about 70° are normal for modern howitzers. Howitzers also have a choice of charges, meaning that the same elevation angle of fire will achieve a different range depending on the charge used. They have rifled bores, lower muzzle velocities and shorter barrels than equivalent guns. All this means they can deliver fire with a steep angle of descent. Because of their multi-charge capability, their ammunition is mostly separate loading (the projectile and propellant are loaded separately).

That leaves six combinations of the three criteria, some of which have been termed qurol гаubitsalari. A term first used in the 1930s when howitzers with a relatively high maximum muzzle velocities were introduced, it never became widely accepted, most armies electing to widen the definition of "gun" or "howitzer". By the 1960s, most equipments had maximum elevations up to about 70°, were multi-charge, had quite high maximum muzzle velocities and relatively long barrels.

Minomyotlar are simpler. The modern mortar originated in World War I and there were several patterns. After that war, most mortars settled on the Stokes pattern, characterized by a short barrel, smooth bore, low muzzle velocity, elevation angle of firing generally greater than 45°, and a very simple and light mounting using a "baseplate" on the ground. The projectile with its integral propelling charge was dropped down the barrel from the muzzle to hit a fixed firing pin. Since that time, a few mortars have become rifled and adopted breech loading.

There are other recognized typifying characteristics for artillery. One such characteristic is the type of obturation used to seal the chamber and prevent gases escaping through the breech. This may use a metal cartridge case that also holds the propelling charge, a configuration called "QF" or "quickfiring" by some nations. The alternative does not use a metal cartridge case, the propellant being merely bagged or in combustible cases with the breech itself providing all the sealing. This is called "BL" or "breech loading" by some nations.

A second characteristic is the form of propulsion. Modern equipment can either be towed or self-propelled (SP). A towed gun fires from the ground and any inherent protection is limited to a gun shield. Towing by horse teams lasted throughout World War II in some armies, but others were fully mechanized with wheeled or tracked gun towing vehicles by the outbreak of that war. The size of a towing vehicle depends on the weight of the equipment and the amount of ammunition it has to carry.

A variation of towed is portee, where the vehicle carries the gun which is dismounted for firing. Mortars are often carried this way. A mortar is sometimes carried in an armored vehicle and can either fire from it or be dismounted to fire from the ground. Since the early 1960s it has been possible to carry lighter towed guns and most mortars by helicopter. Even before that, they were parachuted or landed by glider from the time of the first airborne trials in the USSR in the 1930s.

In an SP equipment, the gun is an integral part of the vehicle that carries it. SPs first appeared during World War I, but did not really develop until World War II. Ular asosan kuzatiladigan transport vositalaridir, ammo g'ildirakli SPlar 1970-yillarda paydo bo'la boshladi. Ba'zi SPlarda zirh yo'q va boshqa qurol va o'q-dorilar kam yoki umuman yo'q. Zirhli SPlar odatda foydali o'q-dorilar yukini ko'taradi. Dastlabki zirhli SP-lar asosan "casemate" konfiguratsiyasi bo'lib, mohiyatan faqat cheklangan shpalni taklif qiluvchi ochiq zirhli quti. Biroq, aksariyat zamonaviy zirhli SP-lar to'liq qurol-yarog 'turretiga ega, odatda qurol uchun to'liq harakatlanish imkoniyatini beradi. Ko'pgina SP stabilizatorlar yoki belkuraklarni ishlatmasdan, ba'zan esa gidravlika bilan olov qila olmaydi. Qurolning qaytarish kuchlari taglik plitasi orqali to'g'ridan-to'g'ri erga uzatilishi uchun bir nechta SP mo'ljallangan. Bir nechta tortib olingan qurollarga yordamchi dvigatel yordamida cheklangan o'ziyurar kuch berildi.

20-asrning birinchi yarmida taktik harakatlanishning yana ikkita shakli ishlatilgan: temir yo'llar yoki jihozlarni transport vositalarida transport vositasi, ikki yoki uchta alohida yuk sifatida, sayohat boshida va oxirida demontaj va qayta yig'ish bilan. Temir yo'l artilleriyasi to'g'ridan-to'g'ri yong'in rolida engil artilleriya bilan qurollangan "jangovar mashinalar" sifatida og'ir va o'ta og'ir qurollar va gubitsa va zirhli poezdlar uchun temir yo'l o'rnatilishi ikki shaklni oldi. Demontaj qilingan transport og'ir va o'ta og'ir qurollar bilan ham ishlatilgan va 1950 yillarga qadar davom etgan.

Kalibr toifalari

Artilleriyani yozishning uchinchi shakli - uni "engil", "o'rta", "og'ir" va boshqa har xil atamalarga ajratish. Bu Birinchi Jahon Urushida kiritilgan bo'lib, u har xil o'lchamdagi juda ko'p sonli artilleriyani yaratdi, shuning uchun oddiy kategorik tizim zarur edi. Ba'zi qo'shinlar ushbu toifalarni kalibrli tasmalar bilan aniqladilar. Har xil turdagi qurollar uchun turli xil lentalar ishlatilgan - dala qurollari, minomyotlar, zenit qurollari va qirg'oq qurollari.

Zamonaviy operatsiyalar

Ikki frantsuz armiyasi Giat GCT 155 mm (155 mm AUF1) O'ziyurar qurollar, 40-polk d 'artilleriya, IFOR nishonlari bilan Bosniya va Gertsegovinaning Mostar yaqinidagi Hekon bazasida to'xtab turibdi.

Artilleriya miqdori bo'yicha mamlakatlar ro'yxati:[61]

  1. Rossiya - 26,121[62]
  2. Shimoliy Koreya - 17 900+[63]
  3. Xitoy - 17 700+[64]
  4. Hindiston - 11258+[65]
  5. Janubiy Koreya - 10,774+[66]
  6. Amerika Qo'shma Shtatlari - 8137[67]
  7. Turkiya - 7450+[68]
  8. Isroil - 5432[69]
  9. Misr - 4,480[70]
  10. Pokiston - 4 291+[71]
  11. Suriya - 3,805+[71]
  12. Eron - 3,668+[71]
  13. Jazoir - 3465[71]
  14. Iordaniya - 2,339[71]
  15. Iroq - 2300+[71]
  16. Finlyandiya - 1398[72]
  17. Braziliya - 900[71]
  18. Kamerun - 883[71]
  19. Marokash - 848[71]
  20. Vengriya - 835
  21. Frantsiya - 758[71]

Artilleriya turiga va kalibriga qarab turli rollarda qo'llaniladi. Artilleriyaning umumiy roli ta'minlashdir olovni qo'llab-quvvatlash- "yo'q qilish uchun kuch manevrasi bilan muvofiqlashtirilgan olovni qo'llash," zararsizlantirish yoki bostirish NATOning ushbu ta'rifi artilleriyani qo'llab-quvvatlovchi qurolga aylantiradi, ammo barcha NATO armiyalari bu mantiqqa qo'shilmaydi kursiv shartlari NATOnikidir.[73]

Raketalardan farqli o'laroq, qurol-yarog '(yoki ba'zi armiyalar hanuzgacha shunday deb ataladigan govitalar) va minomyotlar etkazib berish uchun javob beradi yaqin olov. Biroq, ularning barchasi ta'minlash uchun javob beradi chuqur qo'llab-quvvatlovchi olov garchi ko'plab minomyotlarning cheklangan doirasi ularni roldan chetlatishga intiladi. Ularning nazorat tartiblari va cheklangan doirasi, shuningdek, ohaklarning eng mos kelishini anglatadi to'g'ridan-to'g'ri qo'llab-quvvatlovchi olov. Qurollar yoki buning uchun ishlatiladi umumiy qo'llab-quvvatlovchi olov raketalar asosan ikkinchisi uchun ishlatiladi. Biroq, to'g'ridan-to'g'ri olovni qo'llab-quvvatlash uchun engilroq raketalar ishlatilishi mumkin. Ushbu qoidalar NATO armiyalariga tegishli.

Zamonaviy minomyotlar, engilligi va soddaligi, ko'chirilishi mumkin bo'lgan dizayni tufayli, odatda ajralmas qismidir piyoda askarlar va ba'zi qo'shinlarda zirh birliklar. Bu degani, ular umuman kerak emas konsentrat ularning olovi, shuning uchun ularning qisqa diapazoni kamchilik emas. Ba'zi qo'shinlar piyodalar tomonidan boshqariladigan minomyotlarni artilleriyadan ko'ra ko'proq sezgir deb hisoblashadi, ammo bu nazorat tartibining vazifasidir va hamma armiyalarda ham shunday emas. Biroq, minomyotlar artilleriya bo'linmalari tomonidan doimo ishlatilib kelingan va ular qatorida ko'plab armiyalarda, shu qatorda NATO tarkibida qolmoqda.

NATO armiyasida artilleriya, odatda, unga biriktirilgan tarkib yoki bo'linmalar bilan aloqalarini va mas'uliyatini belgilaydigan taktik vazifani topshiradi. Ko'rinib turibdiki, barcha NATO davlatlari bu shartlardan foydalanmaydilar va NATOdan tashqarida boshqalar ham qo'llanilishi mumkin. Standart shartlar: to'g'ridan-to'g'ri qo'llab-quvvatlash, umumiy qo'llab-quvvatlash, umumiy yordamni kuchaytirish va mustahkamlovchi. Ushbu taktik topshiriqlar buyruq vakolati tarkibiga kiradi: tezkor buyruq, tezkor nazorat, taktik buyruq yoki taktik nazorat.

NATO-da to'g'ridan-to'g'ri qo'llab-quvvatlash, odatda to'g'ridan-to'g'ri qo'llab-quvvatlanadigan artilleriya bo'linmasi kuzatuvchilar va qo'llab-quvvatlanadigan manevr qo'shinlari bilan aloqani ta'minlaydi degan ma'noni anglatadi, odatda artilleriya batalyoni yoki unga teng keladigan ekipaj brigadaga, uning batareyalari esa brigada batalyonlariga beriladi. Biroq, ba'zi qo'shinlar bunga to'g'ridan-to'g'ri qo'llab-quvvatlanadigan qo'shin boshchiligidagi tayinlangan artilleriya bo'linmalarini joylashtirish orqali erishadilar. Shunga qaramay, batareyalar olovi bo'lishi mumkin jamlangan masofadagi va boshqa taktik vazifalardagi bo'linmalarning olovi kabi bitta nishonga.

Olovni qo'llash

Amerika Qo'shma Shtatlari tomonidan otilgan 155 mm'lik artilleriya snaryad 11-dengiz polki M-198 гаubitsa

Ushbu mavzuning bir nechta o'lchovlari mavjud. Birinchisi, olov yong'inga qarshi bo'lishi mumkin degan tushunchadir imkoniyat maqsad yoki bo'lishi mumkin oldindan kelishilgan. Agar u ikkinchisi bo'lsa, u ham bo'lishi mumkin chaqiruv yoki rejalashtirilgan. Oldindan tuzilgan maqsadlar a ning bir qismi bo'lishi mumkin yong'in rejasi. Yong'in ham bo'lishi mumkin kuzatilgan yoki kuzatilmagan, agar avvalgi bo'lishi mumkin bo'lsa sozlangan, agar ikkinchisi bo'lsa, unda bo'lishi kerak bashorat qilingan. Sozlangan olovni kuzatish to'g'ridan-to'g'ri oldinga kuzatuvchi yoki bilvosita boshqasi orqali bo'lishi mumkin maqsadli sotib olish tizim.

NATO shuningdek taktik maqsadlar uchun bir necha xil yong'inni qo'llab-quvvatlashni tan oladi:

  • Qarshi akkumulyator yong'ini: yo'q qilish maqsadida etkazilgan yoki zararsizlantirish dushmanning yong'indan himoya qilish tizimi.
  • Qarama qarshi tayyorgarlik: dushman hujumining yaqinligi aniqlanganda oldindan tayyorlangan intensiv yong'in.
  • Yong'inni qoplash: dushmanning kichik qurollari chegarasida bo'lganda qo'shinlarni himoya qilish uchun ishlatiladi.
  • Himoya olovi: mudofaa harakati bilan shug'ullanadigan qismga yordam berish va himoya qilish uchun qo'llab-quvvatlovchi qismlar tomonidan etkazib beriladi.
  • Oxirgi himoya yong'in: dushmanning mudofaa chizig'i yoki hududlari bo'ylab harakatlanishiga to'sqinlik qilish uchun mo'ljallangan oldindan tuzilgan yong'in to'sig'i.
  • Olovni bezovta qilish: tasodifiy miqdordagi snaryadlar tasodifiy vaqt oralig'ida, dushman oldindan aytib beradigan biron bir naqshsiz otiladi. Ushbu jarayon dushman kuchlarining harakatiga to'sqinlik qilish uchun ishlab chiqilgan va doimiy ravishda beriladigan stress, yo'qotish xavfi va dushman kuchlarining bo'shashish yoki uxlay olmaslik ruhiyatini pasaytiradi.
  • To'siq yong'in: maydon yoki nuqtani dushmanning ishlatishiga yo'l qo'ymaslik uchun maydon yoki nuqtaga joylashtirilgan.
  • Olovga tayyorgarlik: dushman pozitsiyasini zaiflashtirish uchun hujumdan oldin etkazilgan.

Ushbu maqsadlar 20-asrning aksariyat qismida mavjud edi, ammo ularning ta'riflari rivojlanib bordi va etishmayapti bostirish yilda qarshi kurash tashlab ketishdir. Umuman olganda, ularni quyidagicha aniqlash mumkin:

  • Chuqur qo'llab-quvvatlovchi olovdushman zaxiralari va qurollarini zararsizlantirish yoki yo'q qilish, dushmanning buyrug'i, ta'minoti, aloqasi va kuzatuviga aralashish uchun o'z kuchlari yaqinida bo'lmagan maqsadlarga yo'naltirilgan; yoki
  • Yong'inni yopingdushman qo'shinlari, qurol-yarog 'yoki pozitsiyalarga joylashtiriladi, ular yaqinligi sababli qo'llab-quvvatlanadigan birlik uchun eng tezkor va jiddiy xavf tug'diradi.
USMC M-198 tashqarida otish Falluja, Iroq 2004 yilda

NATOning yana ikkita atamasi ham ta'rifga muhtoj:

  • Yong'inni zararsizlantirish: maqsadni vaqtincha samarasiz yoki yaroqsiz holga keltirish uchun etkazilgan; va
  • Yong'inni o'chirish: bu maqsadni o'z vazifasini bajarish uchun zarur bo'lgan darajadan past darajaga tushiradi. Bostirish odatda faqat olov davomida samarali bo'ladi.

Taktik maqsadlarga zamonaviy "effektga asoslangan operatsiyalar" tushunchasi bilan tez sur'atlarda kengayib boruvchi turli xil "topshiriq fe'llari" kiradi.

Maqsad maqsadni tanlash va operatsion talablar va imkoniyatlarni hisobga olgan holda ularga tegishli javobni moslashtirish jarayoni. Bu talab qilinadigan yong'inni qo'llab-quvvatlash turini va qo'llab-quvvatlanadigan qo'l bilan muvofiqlashtirish darajasini hisobga olishni talab qiladi. Bunga quyidagilar kiradi:

  • qanday effektlar talab qilinadi, masalan, zararsizlantirish yoki bostirish;
  • o'z qo'shinlari yoki jangovar bo'lmagan shaxslarning yaqinligi va ularga xavf tug'dirishi;
  • o'q-dorilarning qaysi turlari, shu jumladan ularning fuzingi va qancha miqdorda ishlatilishi kerak;
  • nishonlarga qachon va qachongacha hujum qilish kerak;
  • qanday usullardan foydalanish kerak, masalan, yaqinlashdi yoki tarqatildi, to'g'rilashga ruxsat beriladimi yoki ajablanib bo'ladimi, aniqlik yoki xavf kabi maxsus protseduralarga ehtiyoj tugaydi
  • qancha yong'in bo'linmasi kerak va ular mavjud bo'lganlardan qaysi biri bo'lishi kerak (boshqa maqsadga ajratilmagan, kerakli o'q-dorilar turiga va miqdoriga qarab, o'z qo'shinlariga ega bo'lish xavfi mavjud bo'lsa, eng mos keladigan otishma liniyasiga ega) yoki jangovar bo'lmaganlar);

The nishonga olish jarayon yong'inni taktik nazorat qilishning asosiy jihati. Vaziyatlarga va milliy protseduralarga qarab, barchasi bir joyda amalga oshirilishi yoki tarqatilishi mumkin. Old tomondan nazoratni amalga oshiradigan qo'shinlarda, jarayonning katta qismi oldinga kuzatuvchi yoki boshqa maqsadlarni sotib oluvchi tomonidan amalga oshirilishi mumkin. Bu, ayniqsa, faqat bir nechta o't o'chirishni talab qiladigan kichikroq maqsadga tegishli. Jarayonning rasmiy yoki norasmiy bo'lganligi va kompyuterga asoslangan tizimlardan, hujjatlashtirilgan me'yorlardan yoki tajriba va qarorlardan foydalanish darajasi ham armiyalar va boshqa holatlarda juda farq qiladi.

Ajablanish muhim yoki ahamiyatsiz bo'lishi mumkin. Bu qanday ta'sirlarni talab qilishiga va maqsad harakatlanishi yoki uning himoya holatini tezda yaxshilashi yoki qilmasligiga bog'liq. Ikkinchi Jahon urushi paytida Buyuk Britaniyaning tadqiqotchilari xulosa qilishlaricha, zararli qurollar uchun nisbiy xavf quyidagicha:[iqtibos kerak ]

  • turgan erkaklar - 1
  • yolg'on gapiradigan erkaklar - 1/3
  • xandaqlardan o'q otayotgan erkaklar - 1 / 15-1 / 50
  • xandaqlarda cho'kib yotgan erkaklar - 1 / 25-1 / 100

Havodan otilib chiqadigan o'q-dorilar, yolg'onchi erkaklar uchun nisbiy xavfni sezilarli darajada oshiradi va hokazo. Tarixiy ma'lumotlarga ko'ra, qurbonlarning ko'pi olovning birinchi 10-15 soniyasida sodir bo'ladi, ya'ni reaksiya ko'rsatish va himoya holatini yaxshilash uchun zarur bo'lgan vaqt, ammo agar havo portlashi ishlatilsa, bu unchalik ahamiyatga ega emas.

Maksimal zaiflikning ushbu qisqacha oynasidan samarali foydalanishning bir necha yo'li mavjud:

  • qurollarni birgalikda ijro etishni buyruq bilan yoki ijro buyrug'i bilan yoki "olov" vaqtida. Kamchilik shundaki, agar olov bo'lsa jamlangan ko'p tarqalganlardan yong'in bo'linmalari u holda parvozning har xil vaqtlari bo'ladi va birinchi turlar o'z vaqtida tarqaladi. Muayyan darajada katta kontsentratsiya muammoni bartaraf etadi, chunki har bir quroldan faqat bitta o'q kerak bo'ladi va ularning aksariyati 15 soniyali oynaga etib borishi mumkin.
  • portlash yong'ini, har bir quroldan 10 yoki 15 soniya ichida uch marta o'q uzish uchun otashin tezligi, bu qurollarning sonini kamaytiradi va shu sababli zarur bo'ladigan yong'in birliklari, demak ular kamroq tarqalgan va uchish vaqtlarida kamroq o'zgaruvchan bo'lishi mumkin. 105 mm kabi kichikroq kalibrli qurollar har doim 15 soniya ichida uch marta o'q uzishga qodir edi, kattaroq kalibrlar ham aniq o'q bilan o'q otishi mumkin edi, ammo 1970 yillarga qadar ko'p zaryadli 155 mm gabaritsa, FH-70 birinchi navbatda qobiliyatni qo'lga kiritdi.
  • bir vaqtning o'zida bir martalik zarba (MRSI), bu erda bitta qurol yoki bir nechta individual qurollar turli xil traektoriyalarda bir nechta o'qlarni otishadi, shunda barcha turlar bir vaqtning o'zida maqsadga etib boradi.
  • maqsadga erishish vaqti, yong'in bo'linmalari parvoz vaqtidan kam bo'lgan vaqtda otishadi, bu oldindan rejalashtirilgan yong'in bilan yaxshi ishlaydi, ammo imkoniyat nishonlari uchun unchalik qoniqarli emas, chunki bu barcha yoki ko'pgina yong'in bo'linmalari erishishi mumkin bo'lgan "xavfsiz" vaqtni tanlash bilan olovni etkazib berishni kechiktirishni anglatadi. . Ikkala oldingi ikkita usul bilan ham foydalanish mumkin.

Qarama-qarshi akkumulyator

Zamonaviy batareyalarga qarshi olov ishlab chiqilgan Birinchi jahon urushi, dushman artilleriyasini mag'lub etish maqsadi bilan. Odatda bunday yong'in dushman akkumulyatorlarini do'stona kuchlar faoliyatiga to'sqinlik qilayotgan yoki to'sqinlik qilayotgan paytlarda (masalan, yaqinlashib kelayotgan hujumga qarshi mudofaa artilleriyasining o'qini oldini olish uchun) bosish yoki dushman qurollarini muntazam ravishda yo'q qilish uchun ishlatilgan. Birinchi jahon urushida ikkinchisi havoni kuzatishni talab qildi. Batareyaga qarshi birinchi bilvosita yong'in 1900 yil may oyida kuzatuvchi tomonidan havo sharida bo'lgan.

Dushman artilleriyasi qurolni havodan to'g'ridan-to'g'ri kuzatib borish yoki erdagi kuzatuvchilar (shu jumladan, maxsus razvedka) yoki ularning o'q otish imzolari orqali ikki yo'l bilan aniqlanishi mumkin. Bunga uchish joyidagi snaryadlarni kuzatib boradigan radarlar, kelib chiqadigan joyni aniqlash, qurollarning otilishini aniqlash va ularning holatini juft mikrofonlardan aniqlash yoki odamlarning kuzatuvchilari yoki opto-elektron qurilmalar kuzatuvi yordamida milt-milt milt-miltlarini o'zaro kuzatish kabi tovushlar kiradi. "chaqnashsiz" yoqilg'ining ikkinchisining samaradorligi cheklangan.

Dushmanli batareyalar aniqlangandan so'ng, ular tezda do'stona artilleriya tomonidan yoki keyinroq eng maqbul vaqtda, taktik vaziyat va batareyalarga qarshi siyosatiga bog'liq bo'lishi mumkin. Havo zarbasi yana bir variant. Ba'zi holatlarda, artilleriya razvedkasi xodimlari tomonidan ishlab chiqilgan rejaga muvofiq, kerakli vaqtda qarshi batareyali olov yordamida hujum uchun barcha faol dushman batareyalarini topish kerak. Boshqa holatlarda, batareyaning joylashuvi har doim etarli darajada aniqlikda bo'lishi mumkin.

Batareyani zamonaviy nishonga olish uchuvchisiz samolyotlardan foydalanadi, batareyalarga qarshi radar, zamin razvedkasi va ovoz balandligi. Batareyaga qarshi yong'in ba'zi tizimlar tomonidan sozlanishi mumkin, masalan, uchuvchisiz samolyot operatori harakat qilsa batareyani "kuzatishi" mumkin. Batareyalarni himoya qilish choralari tez-tez o'zgarib turadigan pozitsiyani yoki mudofaa tuproq ishlarini qurishni o'z ichiga oladi, Shimoliy Koreya foydalanadigan tunnellar bu juda yaxshi misoldir. Qarama-qarshi choralar samolyotlarga qarshi havo mudofaasi va qarshi va akkumulyator batareyalari radarlariga jismoniy va elektron hujumlardan iborat.

Zamonaviy artilleriya o'q-dorilar. Tomonidan ishlatiladigan 155 mm kalibrli PzH 2000

Dala artilleriya jamoasi

"Dala artilleriya jamoasi" AQSh atamasi bo'lib, quyidagi tavsif va terminologiya AQShga taalluqlidir, boshqa qo'shinlar umuman o'xshash, ammo muhim tafsilotlari bilan farq qiladi. Zamonaviy dala artilleriyasi (Birinchi Jahon urushidan keyingi) uchta alohida qismga ega: Oldinga kuzatuvchi (FO), Yong'in yo'nalishi markazi (FDC) va qurollarning o'zi. Oldinga kuzatuvchi kabi vositalar yordamida maqsadni kuzatadi durbin, masofaviy o'lchagichlar, o'z radiosida yong'in missiyalarini tayinlaydi va chaqiradi yoki ma'lumotlarni kompyuterga chastotali sakrash bilan to'siqlardan himoyalangan shifrlangan raqamli radio aloqasi orqali ko'chma kompyuter orqali uzatadi. Jamoaning unchalik ham taniqli bo'lmagan qismi - bu to'plar uchun "Gun Line" ni o'rnatadigan FAS yoki Field Artillery Survey guruhi. Bugungi kunda aksariyat artilleriya batalyonlari (n) "Maqsadli doira" dan foydalanmoqdalar, bu tezroq o'rnatish va ko'proq harakatlanishga imkon beradi. FAS guruhlari hanuzgacha muvozanat va muvozanatni saqlash maqsadida ishlatiladi va agar qurol akkumulyatori "Maqsadli aylana" bilan bog'liq muammolarga duch kelsa, FAS guruhi ular uchun buni amalga oshiradi.

FO to'g'ridan-to'g'ri FDC batareyasi bilan aloqa o'rnatishi mumkin, ularning har biri bittadan batareya 4-8 qurol. Aks holda, bir nechta FO'lar batalon darajasidagi kabi yuqori FDC bilan aloqa o'rnatadilar va yuqori FDC maqsadlarni birinchi o'ringa qo'yadi va FO tomonidan kuzatilgan maqsadlarni jalb qilish yoki oldindan rejalashtirilgan yong'inlarni bajarish uchun kerak bo'lganda yong'inlarni alohida batareyalarga ajratadi.

Batareya FDC o'q otish ma'lumotlarini - ishlatilishi kerak bo'lgan o'q-dorilarni, changni zaryadlashni, sug'urta sozlamalarini, maqsadga yo'nalishni va maqsadga erishish uchun to'rtburchak balandligini hisoblaydi, maqsadni sozlash uchun zarur bo'lgan har qanday o'qni qanday o'q uzishini, va aniq nishonga olingandan so'ng, har bir qurol tomonidan nishonga otiladigan o'qlarning soni - qurollarga. An'anaviy ravishda ushbu ma'lumotlar qurolga ogohlantirish buyrug'i sifatida radio yoki simli aloqa orqali uzatiladi, so'ngra o'q-dorilar turini va sug'urta sozlamalarini, yo'nalishini va maqsadga erishish uchun balandlikni va buyruqni sozlash usuli yoki yong'in uchun buyruqlarni yuboradi. effekt uchun (FFE). Biroq, yanada rivojlangan artilleriya bo'linmalarida ushbu ma'lumotlar raqamli radio aloqasi orqali uzatiladi.

Dala artilleriya guruhining boshqa qismlariga havo harorati, namligi va bosimi hamda turli balandlikdagi shamol yo'nalishi va tezligini aniqlash uchun meteorologik tahlil kiradi. Shuningdek, radar dushmanning artilleriya va minomyot batareyalarining joylashishini aniqlashda va akkumulyator bilan otilgan o'qlarning aniq zarba nuqtalarini aniqlashda va ushbu joyni kelajakdagi turlarni yanada aniqroq o'qqa tutishga imkon beradigan ro'yxatga olishni hisoblash bilan taqqoslashda foydalaniladi. .

Maqsad bo'yicha vaqt

Nishonga vaqt (TOT) deb nomlangan metodika 1941 yil oxiri va 1942 yil boshlarida Shimoliy Afrikadagi Britaniya armiyasi tomonidan ishlab chiqilgan, ayniqsa, batareyalarga qarshi yong'in va boshqa kontsentratsiyalar uchun juda mashhur edi. Bi-bi-si vaqt signallariga tayanib, zobitlarga soatlarini ikkinchisiga sinxronlashtirishga imkon berdi, chunki bu harbiy radio tarmoqlaridan foydalanish va kutilmagan hodisani yo'qotish ehtimoli hamda sahroda dala telefon tarmoqlariga ehtiyoj sezildi.[74] Ushbu texnikada har bir yong'in bo'linmasidan (akkumulyator yoki qo'shin) maqsadga uchish vaqti masofadan yoki otish stollaridan olinadi yoki kompyuter va har bir ishlaydigan yong'in bo'linmasi otish vaqtini aniqlash uchun TOTdan uchish vaqtini olib tashlaydi. . Yong'in bo'linmasidagi barcha qurollarga o'q otish uchun buyruq buyruq berish uchun to'g'ri vaqtda beriladi. Har bir yong'in bo'linmasi o'zlarining o'q otish vaqtida o'z o'qlarini o'qqa tutganda, barcha ochilish raundlari deyarli bir vaqtning o'zida maqsadga etib boradi. Bu, ayniqsa, yong'inlarni oldindan sozlashsiz yong'in sodir bo'lishiga imkon beradigan texnikalar bilan birlashtirilganda samarali bo'ladi.

Bir vaqtning o'zida bir nechta ta'sirlar (MRSI)

MRSI-da ishlatiladigan turli xil traektoriyalarning tasviri: Har qanday muskul tezligi uchun tik (> 45 °, qattiq chiziq) va pastroq (<45 °, kesik chiziq) traektoriya mavjud. Ushbu turli traektoriyalarda chig'anoqlar uchish vaqtiga ega.
Turli xil balandlik, tezlik va vaqtdagi oltita o'qni bir vaqtning o'zida nishonga qanday qilib urish mumkinligini ko'rsatadigan animatsiya (SMIL bilan animatsiya qilingan SVG-ni bosing)

Oldingi versiyasining zamonaviy versiyasi "maqsadga erishish vaqti "bu turli xil qurollardan otilgan otish bir vaqtning o'zida nishonga etib kelish vaqti bo'lgan tushunchadir. Artilleriya nishonga bitta qurolga bir nechta snaryad o'q uzishi va ularning hammasi bir vaqtning o'zida etib borishi mumkin, bu MRSI (Multiple Round") deb nomlanadi. Buning sababi shundaki, aylananing istalgan maqsadga uchishi uchun bir nechta traektoriya mavjud: odatda biri gorizontaldan 45 darajadan pastroq, ikkinchisi esa uning ustida joylashgan va har bir qobiq bilan har xil o'lchamdagi harakatlantiruvchi zaryadlardan foydalangan holda Ko'proq traektoriyalarni yaratish mumkin, chunki yuqori traektoriyalar chig'anoqlarning havoga ko'tarilishiga olib keladi, maqsadga erishish uchun ko'proq vaqt ketadi va shuning uchun snaryadlar ushbu traektoriyalarda birinchi voleybollar uchun otilsa (qobiq eng ko'pi bilan boshlanadi) va keyin to'g'ri pauzadan so'ng pastki trayektoriyalarga ko'proq voleybollar otilganida, chig'anoqlar bir vaqtning o'zida etib keladi, chunki bu foydali, chunki yana ko'plab chig'anoqlar ta ga tushishi mumkin ogohlantirishsiz rget. Xuddi shu traektoriya bo'ylab an'anaviy voleybollar bilan, maqsadli joyda har qanday kishi, voleybollar o'rtasida yashirinish uchun vaqtni olishi mumkin (qurolni qayta o'qqa tutish va qayta o'q otish qancha vaqt talab etadi). Biroq, portlashi mumkin bo'lgan qurollar har biri uchun bir xil o'q otish ma'lumotlaridan foydalansalar va bir nechta joyda joylashgan qurollar bir nishonga o'q uzayotgan bo'lsa, 10 soniya ichida bir necha marta o'q uzishi mumkin. bir vaqtning o'zida va maqsad.

MRSI-dan foydalangan holda nishonlarni jalb qilish uchun ikkita narsa kerak bo'ladi: birinchi navbatda kerakli darajada otashin tezligi bo'lgan qurollar va har xil miqdordagi harakatga keltiruvchi zaryadlar, ikkinchidan, bunday vazifalarni hisoblash uchun ishlab chiqilgan yong'inni boshqarish kompyuteri va barcha o'q otish ma'lumotlariga imkon beradigan ma'lumotlar bilan ishlash qobiliyati. ishlab chiqarilgan, har bir qurolga yuborilgan va keyin qurol komandiriga to'g'ri tartibda taqdim etilgan.[75][76] MRSI-da etkazib beriladigan turlarning soni, avvalambor, nishon oralig'iga va yong'in tezligiga bog'liq, chunki maksimal turlar oralig'i maqsadga etib boradigan eng past harakatlanadigan zaryad bilan cheklangan.

MRSI uchun yaroqli bo'lgan yong'in tezligi bilan qurolga misollar Buyuk Britaniyani o'z ichiga oladi AS-90, Janubiy Afrikaning Denel G6 -52 (kamida 25 km (16 milya) masofadagi nishonlarga bir vaqtning o'zida oltita turni tushirishi mumkin), Germaniya Panzerhaubitze 2000 yil[77] (kamida 17 km (11 milya) masofadagi nishonlarga bir vaqtning o'zida beshta turni tushira oladi), Slovakiya 155 mm SpGH ZUZANA modeli 2000 y va K9 momaqaldiroq.[78]

The Archer loyihasi (BAE-Systems Bofors tomonidan Shvetsiyada ishlab chiqarilgan) - g'ildirakli shassidagi 155 mm gabaritli gubitsa, xuddi shu quroldan bir vaqtning o'zida oltita snaryadni etkazib bera oladigan deb da'vo qilmoqda. 120 mm egizak bochka AMOS ohak tizimi, qo'shma tomonidan ishlab chiqilgan Hagglunds (Shvetsiya) va Patriya (Finlyandiya),[79] MRSI 7 + 7 chig'anoqlariga qodir. AQSH Salibchi dastur (endi bekor qilingan) MRSI qobiliyatiga ega bo'lishi kerak edi. Yong'inni boshqarish uchun qancha kompyuter zarur imkoniyatlarga ega ekanligi aniq emas.

Ikki raundli MRSI otishmalari 1960 yillarda mashhur artilleriya namoyishi bo'lib, u erda yaxshi o'qitilgan otryadlar tomoshabinlar uchun o'z mahoratlarini namoyish etishlari mumkin edi.

Havo portladi

Artilleriya bombardimonlarining zararli ta'sirini snaryadlarning bir qismi yoki barchasi havo portlashi uchun o'rnatilganda kuchaytirilishi mumkin, ya'ni ular zarba berish o'rniga, nishon ustidagi havoda portlashadi. Bunga vaqt orqali erishish mumkin fuzes yoki yaqinlik fuzalari. Vaqt fuzesida oldindan belgilangan kechikishdan keyin qobiqni portlatish uchun aniq taymer ishlatiladi. Ushbu usul hiyla-nayrangdir va fuzening ishlashidagi ozgina farqlar uning juda baland portlashi va samarasiz bo'lishiga yoki uning ustida portlash o'rniga erga urilishiga olib kelishi mumkin. 1944 yil dekabrdan (Bulge jangi ), taxminiy taxminlarni ushbu jarayondan chiqarib yuboradigan yaqin atrofdagi qurollangan artilleriya snaryadlari mavjud edi. Ularda miniatyura, kam quvvatli ishlaydi radar erni aniqlash va ularni oldindan belgilangan balandlikda portlatish uchun fuzadagi transmitter. Zaif radar signalining qaytishi qobiqni portlatadigan fuzedagi elektr zanjirini yakunlaydi. Yaqinlik fuzesi o'zi samaradorligini oshirish uchun inglizlar tomonidan ishlab chiqilgan zenitga qarshi urush.

Bu piyoda va yengil transport vositalariga qarshi juda samarali taktika, chunki u tarqaladi parchalanish qobiqni kattaroq maydonda ushlab turadi va uni er usti yoki to'siqlar bilan to'sib qo'yishiga yo'l qo'ymaydi, ular qandaydir mustahkam havo qoplamasini o'z ichiga olmaydi. Kelayotgan turlar haqida ogohlantirmaydigan TOT yoki MRSI taktikalari bilan birlashganda, bu turlar ayniqsa halokatli, chunki ko'plab dushman askarlari ochiq joylarda ushlanib qolishlari mumkin. Hujum mustahkam taktik holatdagi birlikka emas, balki yig'ilish maydoniga yoki ochiq havoda harakatlanadigan qo'shinlarga qarshi boshlangan bo'lsa, bu yanada kuchayadi.

Yodgorliklarda foydalaning

1864 yilga bag'ishlangan yodgorlikdagi artilleriya qismi Tupelo jangi (Amerika fuqarolar urushi ).

Ko'p sonli urush yodgorliklari butun dunyoda o'ziga xos urushda yoki urushda eslangan jangda ishlatilgan artilleriya qismini o'z ichiga oladi.

Shuningdek qarang

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Bibliografiya

Qo'shimcha o'qish

  • Xogg, Oliver Frederik Gillilan (1970). Artilleriya: uning kelib chiqishi, hayajonlangan kun va pasayish. London: C. Xerst. ISBN  978-0-900966-43-9. OCLC  99454.
  • Beyli, JB.A. (2004). Dala artilleriyasi va o'q otish kuchlari. AUSA quruqlik urushi instituti kitobi. Annapolis, tibbiyot fanlari: Naval Institute Press. ISBN  978-1-59114-029-0. OCLC  51931033.

Tashqi havolalar