Zenitlarga qarshi urush - Anti-aircraft warfare

"Flak" qayta yo'naltirishlar. Boshqa maqsadlar uchun qarang Flak (ajralish).
"Zenit" bu erga yo'naltiradi. Arkada o'yini uchun qarang Samolyotga qarshi (video o'yin).
"Ack ack" qayta yo'naltirishlar. Boshqa maqsadlar uchun qarang Ack Ack.

Shved Bofors 40 mm plyajga qaragan holda o'rnatilgan zenit qurol Jazoir tomonidan boshqariladigan Qo'shma Shtatlar zenit artilleriya ekipaji. (1943)
Serialning bir qismi
Urush

Zenitlarga qarshi urush yoki havoga qarshi mudofaa bo'ladi jang maydoni javob havo urushi tomonidan belgilanadi NATO sifatida "dushman havo harakati samaradorligini bekor qilish yoki kamaytirishga qaratilgan barcha choralar".[1] Bunga kiradi sirtga asoslangan, er osti (dengiz osti kemasi ishga tushirildi ) va havoga asoslangan qurol tizimlari, tegishli sensor tizimlari, buyruqni boshqarish va passiv choralar (masalan, baraj sharlari ). U har qanday joyda dengiz, quruqlik va havo kuchlarini himoya qilish uchun ishlatilishi mumkin. Biroq, aksariyat mamlakatlar uchun asosiy urinish moyil bo'lgan vatan himoyasi. NATO havodan havo hujumidan mudofaa deb ataladi qarshi havo va dengiz havo hujumidan mudofaa zenitga qarshi urush. Raketaga qarshi mudofaa havo mudofaasining kengayishi, shuningdek, havo mudofaasini parvoz paytida har qanday snaryadni ushlab turish vazifasiga moslashtirish bo'yicha tashabbuslar.

Ba'zi mamlakatlarda, masalan Angliya va Germaniyada Ikkinchi jahon urushi, Sovet Ittifoqi va zamonaviy NATO va Amerika Qo'shma Shtatlari, quruqlikdagi havo mudofaasi va havo hujumiga qarshi mudofaa samolyotlari yaxlit qo'mondonlik va boshqaruv ostida bo'lgan. Biroq, umumiy havo mudofaasi Vatan mudofaasi uchun (shu jumladan, harbiy ob'ektlar uchun) bo'lishi mumkin bo'lsa-da, sohadagi kuchlar, qaerda bo'lishidan qat'i nazar, havo tahdidi bo'lsa, har doim o'zlarining havo hujumidan mudofaa qobiliyatini ishga soladilar. Raqibga havo maydonidan foydalanishni rad etish uchun havoga qarshi mudofaa qobiliyati ham hujumga asoslangan holda qo'llanilishi mumkin.

1950 yillarga qadar 7,62 mm dan 152,4 mm gacha bo'lgan ballistik o'q-dorilarni o'qqa tutadigan qurollar odatiy qurol edi; boshqariladigan raketalar, keyinchalik eng qisqa masofalar bundan mustasno, hukmron bo'ldi yaqin qurol tizimlari odatda foydalanadigan rotatsion avtomatlar yoki juda zamonaviy tizimlarda qisqa masofadagi "havo-havo" moslashuvlari "havo-havo" raketalari, ko'pincha bitta tizimda aylanadigan to'plar bilan birlashtirilgan).

Terminologiya

Atama havo mudofaasi ehtimol birinchi marta qachon Britaniya tomonidan ishlatilgan Buyuk Britaniyaning havo hujumidan mudofaasi (ADGB) a sifatida yaratilgan Qirollik havo kuchlari Buyuk Britaniyadagi kelishuvlar "zenit" deb ham nomlangan, qisqartirilgan AA, bu atama 1950-yillarga qadar umumiy foydalanishda qoldi. Keyin Birinchi jahon urushi qurol yoki birlik turini tasniflash uchun ba'zida "Yengil" yoki "Og'ir" (LAA yoki HAA) tomonidan qo'shilgan. Zenit qurollarining taxalluslari kiradi AA, AAA yoki uchlik-A, an qisqartirish ning zenit artilleriyasi; "ack-ack" (dan imlo alifbosi inglizlar tomonidan "AA" ovozli uzatish uchun foydalaniladi));[2] va arxi (Birinchi Jahon urushi Britaniyaning atamasi ehtimol tomonidan yaratilgan Amyas Borton va orqali hosil bo'lishiga ishongan Qirollik uchar korpusi, dan musiqa zali komediyachi Jorj Robi "Archibald, albatta yo'q!"[3]).

NATO zenitga qarshi urushni (AAW) "samolyotlar, kemalar, suv osti kemalari va quruqlikdagi maydonlardan uchirilgan havo qurollari hujumlaridan dengiz kuchlarini himoya qilish bo'yicha ko'rilgan choralar" deb ta'riflaydi.[1] Ba'zi qo'shinlarda bu atama Hamma qurollardan havo mudofaasi (AAAD) maxsus bo'lmagan qo'shinlar tomonidan havo hujumidan mudofaa uchun foydalaniladi. 20-asr oxiridagi boshqa atamalar ham o'z ichiga oladi GBAD (Ground Based AD) tegishli atamalar bilan SHORAD (AD qisqa diapazoni) va MANPADS ("Man Portable AD Systems": odatda elkali raketalar). Zenit-raketalar har xil nomlanadi "yer-havo" raketasi, qisqartirilgan va talaffuz qilingan "SAM" va Surface to Air Guided Weapon (SAGW). Bunga misollar Raytheon standart raketasi 2, Raytheon standart raketasi 6 yoki MBDA Aster raketasi.

Havodan mudofaa uchun inglizcha bo'lmagan atamalar nemis tilini o'z ichiga oladi FlaK (FlegerabwehrKanone, "samolyotdan mudofaa to'pi",[4] sifatida keltirilgan Flyomonabwehrkyolg'iz), qaerdan inglizcha po'stloqva ruscha atama Protivovozdushnaya oborona (Kirillcha: Protivovozdúshnaya oboróna), "havoga qarshi mudofaa" ning so'zma-so'z tarjimasi, qisqartirilgan PVO.[5] Rus tilida AA tizimlari deyiladi zenitnye (ya'ni "zenitga ishora qilish") tizimlari (qurollar, raketalar va boshqalar). Frantsuz tilida havo hujumidan mudofaa deyiladi DCA (D.mudofaa vontre les aeronefs, "aéronef" - bu havoda uchadigan barcha vositalar (samolyot, dirijabl, havo shari, raketa, raketa va boshqalar) uchun umumiy atama.[6]

Qurol yoki raketa samolyotni jalb qilishi mumkin bo'lgan maksimal masofa muhim ko'rsatkichdir. Biroq, turli xil ta'riflardan foydalaniladi, ammo bir xil ta'rif ishlatilmasa, turli xil qurollar yoki raketalarning ishlash ko'rsatkichlarini taqqoslash mumkin emas. AA qurollari uchun traektoriyaning faqat ko'tarilgan qismidan foydali foydalanish mumkin. Bitta atama "shift" dir, maksimal vertikal o'q otilgan taqdirda snaryad yetadigan balandlik, maksimal AA qurollari vertikal ravishda o'q otishga qodir bo'lganligi va maksimal sug'urta muddati juda qisqa bo'lishi mumkin, ammo potentsial sifatida foydali bo'lishi mumkin turli xil qurollarni taqqoslash uchun standart.

Inglizlar "samarali shift" ni qabul qildilar, ya'ni qurol harakatlanayotgan nishonga qarata bir necha snaryadlarni etkazib bera oladigan balandlik; bu sug'urtaning maksimal ishlash muddati va qurolning qobiliyati bilan cheklanishi mumkin. 1930-yillarning oxiriga kelib, Britaniyaning ta'rifi "balandligi 400 milya tezlikda to'g'ridan-to'g'ri yaqinlashadigan balandlik edi (= 643,6 km / soat) qurol 70 darajaga ko'tarilishidan oldin 20 soniya davomida o'qqa tutilishi mumkin ".[7] Biroq, og'ir AA qurollari uchun samarali shiftga nonballistik omillar ta'sir ko'rsatdi:

  • Sug'urtalashning maksimal ishlash muddati, bu maksimal parvoz vaqtini belgilab qo'ydi.
  • Yong'inni boshqarish vositalarining uzoq masofadagi maqsad balandligini aniqlash qobiliyati.
  • Yong'inning tsikli tezligining aniqligi, sug'urta uzunligini hisoblash va otishdan keyin uchish vaqtida nishon qaerda bo'lishini belgilash kerak edi, buning uchun dumaloq qachon otishini aniq bilish kerak edi.

Umumiy tavsif

Havodan mudofaaning mohiyati dushman samolyotlarni aniqlash va ularni yo'q qilishdan iborat. Muhim masala - uch o'lchovli kosmosda harakatlanadigan nishonga zarba berish; hujum nafaqat ushbu uchta koordinataga mos kelishi, balki maqsad shu pozitsiyada bo'lgan vaqtda ham bajarilishi kerak. Bu shuni anglatadiki, snaryadlar nishonga urish uchun boshqarilishi kerak, yoki nishonning ham, snaryadning ham tezligi va yo'nalishini hisobga olgan holda, unga etib kelgan vaqtda nishonning taxmin qilingan holatiga yo'naltirilgan bo'lishi kerak.

20-asr davomida havo hujumiga qarshi mudofaa harbiy texnologiyalarning tez rivojlanayotgan yo'nalishlaridan biri bo'lib, u samolyotlar evolyutsiyasiga javob beradigan va turli xil qulay texnologiyalardan, xususan, radar, boshqariladigan raketalar va hisoblash vositalaridan foydalangan (dastlab 1930-yillardan boshlab elektromexanik analog hisoblash) quyida tavsiflangan uskunalar). Havodan mudofaa evolyutsiyasi datchiklar va texnik yong'in nazorati, qurol-yarog 'va qo'mondonlik boshqaruvini qamrab oldi. 20-asrning boshlarida ular juda ibtidoiy yoki umuman bo'lmagan.

Dastlab sensorlar Birinchi Jahon urushi davrida ishlab chiqarilgan va 1930-yillarda davom etgan optik va akustik qurilmalar edi,[8] ammo tezda radar bilan almashtirildi, bu esa o'z navbatida to'ldirildi optronika 1980-yillarda Buyurtma va boshqaruv Buyuk Britaniya yaxlit tizim yaratgan 1930-yillarning oxirigacha ibtidoiy bo'lib qoldi[9] armiyaning AA qo'mondonligining quruqlikdagi havo hujumidan mudofaasini bog'laydigan ADGB uchun, ammo maydonga tushirilgan havo mudofaasi unchalik murakkab bo'lmagan tuzilmalarga tayangan. Keyinchalik NATO ushbu kelishuvlarni "havo hujumidan mudofaa operatsiyalarini taktik nazorat qilish uchun foydalaniladigan operatsiyalarning ma'lum bir teatri tarkibidagi yerdagi radarlar va qo'mondonlik markazlari tarmog'i" deb ta'riflangan "havo mudofaasi quruqlik muhiti" deb atadi.[1]

Bog'lanish qoidalari samimiy yoki neytral samolyotlarni havoga qarshi himoya qilishning oldini olish uchun juda muhimdir. Ulardan foydalanish yordam beradi, ammo IFF tomonidan boshqarilmaydi (identifikator do'sti yoki dushmani ) davomida dastlab kiritilgan elektron qurilmalar Ikkinchi jahon urushi. Ushbu qoidalar eng yuqori hokimiyatdan kelib chiqqan bo'lsa-da, har xil qoidalar bir vaqtning o'zida bir xil hududni qamrab oladigan har xil turdagi havo hujumlariga nisbatan qo'llanilishi mumkin. AAAD odatda eng qat'iy qoidalar asosida ishlaydi.

NATO ushbu qoidalarni qurolni nazorat qilish bo'yicha buyruqlar (JST) deb nomlaydi, ular:

  • qurolsiz: qurollar do'stona deb ijobiy tan olinmagan har qanday nishonga otilishi mumkin.
  • qurol qattiq: qurol faqat dushman deb tan olingan nishonlarga otilishi mumkin.
  • qurol-yarog ': qurollar faqat o'zini himoya qilish yoki rasmiy buyruqqa binoan otish mumkin.[1]

1950 yillarga qadar ballistik o'q-dorilarni o'qqa tutadigan qurollar odatiy qurol edi; eng qisqa masofalar bundan mustasno, boshqariladigan raketalar ustunlik qildi. Biroq, qobiq yoki jangovar kallakning turi va uning fuzioni va raketalar bilan boshqarilish tartibi turli xil bo'lgan va har xil. Maqsadlarni yo'q qilish har doim ham oson emas; Shunga qaramay, shikastlangan samolyotlar o'z vazifalarini to'xtatishga majbur qilishlari mumkin va hatto ular qaytib kelish va do'stona hududga qo'nishga muvaffaq bo'lishsa ham, bir necha kun yoki doimiy ravishda ishlamay qolishlari mumkin. Qurol-yarog 'va kichikroq pulemyotlarga e'tibor bermaslik, havoga qarshi mudofaa qurollari 20 mm dan 152 mm gacha bo'lgan kalibrda turlicha bo'lgan.[10]

Quruq havo hujumidan mudofaa bir necha usulda joylashtirilgan:

  • O'zlarining organik qurollaridan foydalangan holda quruqlikdagi kuchlar tomonidan o'zini himoya qilish, AAAD.
  • Zirhli va piyoda qo'shinlarga hamrohlik qiluvchi mudofaa, maxsus yordam himoyasi elementlari.
  • Ko'prik, muhim hukumat binosi yoki kema kabi asosiy nishon atrofida mudofaani yo'naltiring.
  • Havodan mudofaa, odatda to'siqni ta'minlash uchun havo mudofaasining "kamarlari", lekin ba'zan hududni qoplaydigan soyabon. Maydonlar hajmi jihatidan juda xilma-xil bo'lishi mumkin. Ular millat chegarasi bo'ylab cho'zilishi mumkin, masalan. The Sovuq urush MIM-23 Hawk va Nike Germaniya bo'ylab shimoldan janubga, harbiy formasyonning manevr zonasi bo'ylab yoki shahar yoki portdan yuqoriga qarab o'tadigan kamarlar. Quruqlikdagi operatsiyalarda havo hujumidan mudofaa zonalari samolyotlarning hozirgi tranzit yo'nalishlari bo'ylab tezkor ravishda joylashtirish orqali tajovuzkor tarzda ishlatilishi mumkin.

Havodan mudofaa boshqa elementlarni ham o'z ichiga olgan, garchi Ikkinchi Jahon Urushidan keyin ko'pchilik bekor qilingan:

  • Bog'langan baraj sharlari havo sharlari balandligidan pastroqda uchadigan samolyotlarni to'xtatish va tahdid qilish, bu erda ular temir tetherlar bilan to'qnashuvga ta'sir qiladi.
  • Qidiruv yoritgichlar tunda qurol-yarog 'va optik asboblar operatorlari uchun samolyotlarni yoritish. Ikkinchi Jahon urushi paytida qidiruv chiroqlari radar nazorati ostida qoldi.
  • Katta tutun ekranlari nishonlarni ekranga chiqarish va samolyotlar tomonidan aniq qurol nishonga olinishini oldini olish uchun erdagi katta tutun qutilari tomonidan yaratilgan.

Passiv havo hujumidan mudofaa NATO tomonidan "Havo va / yoki raketa hujumi samaradorligini minimallashtirish uchun shaxsiy himoya, muhim moslamalar va jihozlarni jismoniy himoya qilish va himoya qilish bo'yicha passiv choralar" deb ta'riflanadi.[1] Bu quruqlikdagi kuchlar tomonidan hayotiy faoliyat bo'lib qolmoqda va razvedka va hujum samolyotlari tomonidan aniqlanmaslik uchun kamuflyaj va yashirishni o'z ichiga oladi. Ikkinchi jahon urushida muhim binolarni kamuflyaj qilish kabi tadbirlar keng tarqalgan edi. Sovuq urush davrida ba'zi aerodromlarning uchish-qo'nish yo'laklari va qatnov yo'llari yashil rangga bo'yalgan.

Tashkilot

Dengiz kuchlari odatda o'zlarining havo hujumidan mudofaasi uchun, hech bo'lmaganda dengizdagi kemalar uchun mas'ul bo'lsa-da, quruqlikdagi havo hujumidan mudofaa uchun tashkiliy choralar xalqlar orasida va vaqt o'tishi bilan farq qiladi.

Eng keskin hodisa Sovet Ittifoqi bo'lgan va ba'zi mamlakatlarda ushbu model hanuzgacha amal qilishi mumkin: bu armiya, dengiz floti yoki havo kuchlari bilan teng ravishda alohida xizmat edi. Sovet Ittifoqida bu shunday nomlangan Voyska PVO Ikkala qiruvchi samolyot ham, havo kuchlaridan ajratilgan va erga asoslangan tizimlar bo'lgan. Bu ikki qo'lga bo'lingan, PVO Strany, 1941 yilda tashkil topgan va 1954 yilda mustaqil xizmatga aylangan Vatanni havo hujumidan mudofaa qilish uchun mas'ul bo'lgan strategik havo mudofaasi xizmati va PVO SV, Quruqlik kuchlarining havo hujumidan mudofaasi. Keyinchalik, ular navbati bilan havo kuchlari va quruqlikdagi kuchlarning bir qismiga aylandi.[11][12]

Boshqa tomondan Amerika Qo'shma Shtatlari armiyasi bor Havodan mudofaa artilleriyasi bo'limi Vatan uchun ham, armiya uchun ham quruqlikdan havo mudofaasini ta'minlagan, ammo bu operatsiya ostida Qo'shma kuchlar havo komponentlari qo'mondoni. Boshqa ko'plab davlatlar armiyada havo hujumidan mudofaa bo'linmasini joylashtirmoqdalar. Yaponiya yoki Isroil kabi boshqa davlatlar, havo hujumiga qarshi mudofaa tizimlarini o'zlarining havo kuchlariga qo'shishni tanlaydilar.

Buyuk Britaniyada va boshqa ba'zi armiyalarda bitta artilleriya bo'limi ham ichki, ham xorijdagi quruqlikdagi havo hujumidan mudofaa uchun mas'ul bo'lgan, ammo bu mas'uliyat ikkiga bo'lingan bo'lsa ham Qirollik floti Birinchi jahon urushida Britaniya orollarini havoga qarshi mudofaa uchun. Ammo, Ikkinchi Jahon urushi paytida RAF polki hamma joyda aerodromlarni himoya qilish uchun tashkil etilgan va bunga engil havo mudofaasi kiritilgan. Sovuq urushning keyingi o'n yilliklarida, shu jumladan Amerika Qo'shma Shtatlari havo kuchlari Buyuk Britaniyadagi operatsion bazalari. Biroq, barcha quruqlikdagi havo hujumidan mudofaa 2004 yilda Qirollik havo kuchlari (RAF) yurisdiksiyasidan chiqarildi. Britaniya armiyasi Samolyotga qarshi qo'mondonlik 1955 yil mart oyida tarqatib yuborilgan,[13] ammo 1960-70 yillarda RAF qiruvchi qo'mondonligi Buyuk Britaniyadagi muhim hududlarni himoya qilish uchun uzoq masofali havo hujumiga qarshi mudofaa raketalarini boshqargan. Ikkinchi jahon urushi davrida Qirol dengiz piyodalari shuningdek, havo hujumidan mudofaa bo'linmalari taqdim etildi; rasmiy ravishda mobil dengiz bazasi mudofaasi tashkilotining bir qismi bo'lib, ular armiya qo'mondonligi bo'lgan quruqlikdagi havo mudofaasining ajralmas qismi sifatida ko'rib chiqilgan.

Havodan mudofaa qilishning asosiy qismi odatda 2 dan 12 gacha qurol yoki raketa uchirish moslamalari va yong'inni boshqarish elementlari bo'lgan batareyadir. Ushbu batareyalar, ayniqsa qurol bilan, odatda kichik maydonda ishlaydi, garchi batareyalar bo'linishi mumkin; bu ba'zi raketa tizimlari uchun odatiy holdir. SHORAD raketa batareyalari ko'pincha bir-biridan bir necha kilometr masofada joylashgan alohida uchirish moslamalari joylashgan hududga tarqaladi. Qachon MANPADS mutaxassislar tomonidan boshqariladi, batareyalarda bir nechta o'nlab jamoalar bo'lishi mumkin, ular kichik qismlarga bo'linadi; o'ziyurar havo hujumidan mudofaa qurollari juft bo'lib joylashtirilishi mumkin.

Batareyalar odatda batalyonlarga yoki ularga teng keladigan guruhlarga bo'linadi. Dala armiyasida ko'pincha avtomat yoki SHORAD batalyoni manevr bo'linmasiga tayinlanadi. Og'ir qurollar va uzoq masofaga uchadigan raketalar havo hujumidan mudofaa brigadalarida bo'lishi va korpus yoki undan yuqori qo'mondonlik ostida bo'lishi mumkin. Vatan havo hujumidan mudofaa to'liq harbiy tuzilishga ega bo'lishi mumkin. Masalan, Buyuk Britaniyaning Samolyotga qarshi qo'mondonlik, to'liq buyruq Britaniya armiyasi generali ADGB tarkibiga kirgan. 1941–42 yillarda eng yuqori cho'qqisida u uchta AA korpusidan iborat bo'lib, ular orasida 12 AA bo'linishi mavjud edi.[14]

Tarix

Eng erta foydalanish

Amerika fuqarolar urushi paytida AQSh armiyasi tomonidan havo sharlaridan foydalanish Konfederatlarni ularga qarshi kurash usullarini ishlab chiqishga majbur qildi. Bular orasida artilleriya, otishma qurollari va diversantlardan foydalanish ham bor edi. Ular muvaffaqiyatsiz bo'lishdi, ammo ichki siyosat Qo'shma Shtatlar armiyasini olib bordi Balon korpusi urush o'rtalarida tarqatib yuborish. Konfederatlar sharlar bilan ham tajriba o'tkazdilar.[15]

Turklar ushbu davrda tarixdagi birinchi zenit operatsiyasini amalga oshirdilar Italo-turk urushi. Garchi ular zenit qurollariga ega bo'lmasalar-da, ular birinchi bo'lib samolyotni miltiqdan otib tashlagan. Urushda halokatga uchragan birinchi samolyot 1912 yil 25 avgustda urib tushirilgan leytenant Pero Manzini samolyoti edi.[16][17]

Zenit uchun maxsus tayyorlangan qurollardan ma'lum bo'lgan eng qadimgi foydalanish paytida sodir bo'lgan Frantsiya-Prussiya urushi 1870 yil Sedandagi falokat, Parij qamal qilindi va shahar tashqarisidagi frantsuz qo'shinlari orqali aloqa o'rnatishga kirishdilar shar. Gustav Krupp o'zgartirilgan 1 pog'onali (37 mm) avtomat o'rnatildi - bu Ballonabwehrkanone (Balon mudofaasi to'pi) yoki BaK - bu sharlarni urib tushirish uchun otli aravaning ustiga.[18][sahifa kerak ]

  • Krupp tomonidan Ballonabwehrkanone

  • Krupp tomonidan Ballonabwehrkanone

  • Prussiya korvetidagi ballonabwehrkanone Nimfa 1872.

  • 20 mm Becker-Oerlikon modeli 1917 AA-Gun

20-asrning boshlarida quruqlik va dengizdan foydalanish uchun havo sharlari yoki dirijabl, qurollar e'tiborni tortdi. Har xil turdagi o'q-dorilar, yuqori portlovchi, yoqish, o'q zanjirlari, novda o'qlari va shrapnellar taklif qilingan. Qandaydir iz yoki tutun iziga ehtiyoj aniqlandi. Fuzing variantlari ham ta'sir, ham vaqt turlari bo'yicha ko'rib chiqildi. O'rnatish odatda poydevor turiga tegishli edi, lekin maydon maydonchalarida bo'lishi mumkin edi. Sud jarayonlari Evropaning aksariyat mamlakatlarida boshlangan, ammo faqat Krupp, Erxardt, Vikers Maksim va Shnayder 1910 yilgacha har qanday ma'lumotni nashr etgan edi. Kruppning dizaynlari 65 mm 9 pog'onali, 75 mm 12 pog'onali va hatto 105 mm qurolni moslashtirishdan iborat edi. Shuningdek, Erxardt 12 pog'onali edi, Vikers Maksim 3 pog'onali, Shnayder esa 47 mm. 1910 yilda frantsuzcha shar pulemyoti paydo bo'ldi, u 11 pog'onali edi, lekin transport vositasiga o'rnatildi, uning tortilmagan og'irligi 2 tonna. Biroq, sharlar sekin harakatlanayotganligi sababli, diqqatga sazovor joylar oddiy edi. Ammo tezroq harakatlanadigan samolyotlarning muammolari tan olindi.[19]

1913 yilga kelib faqat Frantsiya va Germaniya havo sharlari va samolyotlarini jalb qilish uchun mos bo'lgan dala qurollarini ishlab chiqdilar va harbiy tashkilot masalalarini hal qildilar. Buyuk Britaniyaning Qirollik dengiz floti tez orada QF 3 dyuym va QF 4 dyuym AA qurollari ham bor edi Vickers 1-pounder tez otish "pom-pom" lar turli xil montajlarda ishlatilishi mumkin.[20][21]

AQShning birinchi zenit-to'pi 1-asosli kontsept dizayni edi Admiral Tvinning 1911 yilda havo kemalari tahdidini qondirish uchun, oxir-oqibat AQSh dengiz kuchlarining birinchi operatsion zenit to'pi uchun asos sifatida ishlatilgan: 3 "/ 23 kalibrli qurol.[22]


Birinchi jahon urushi

1909 yildagi Krupp 9-asosli zenit qurol
1918 yildagi Kanadaning zenit bo'linmasi "lavozimini egallab turibdi"
A tushirgan frantsuz zenit motorli batareyasi (motorli AAA batareyasi) Zeppelin Parij yaqinida. Jurnaldan Otsiz asr, 1916.

1915 yil 30 sentyabrda Serbiya armiyasi dushmanning uchta samolyoti yaqinlashayotganini kuzatdi Kragujevac. Askarlar ularga miltiq va pulemyotlardan o'q uzdilar, lekin shaharga 45 ta bomba tashlab, harbiy inshootlarga, temir yo'l stantsiyasiga va shahardagi boshqa ko'pgina fuqarolik maqsadlariga zarba berishlariga to'sqinlik qila olmadilar. Bomba reydi paytida, xususiy Radoje Lyutovac to'pini dushman samolyotiga qarata otdi va muvaffaqiyatli birini urib tushirdi. U shaharda qulab tushdi va ikkala uchuvchi ham olgan jarohatlaridan vafot etdi. Ljutovac to'pi zenit qurol sifatida ishlab chiqilmagan; davomida ozgina o'zgartirilgan turk to'pi edi Birinchi Bolqon urushi 1912 yilda. Bu harbiy tarixda harbiy samolyot urib tushirilgan birinchi voqea bo'ldi yerdan havoga olov.[23][24][25]

Inglizlar Birinchi Jahon urushi boshlanishidan bir necha hafta oldin zenitga qarshi qobiliyat zarurligini angladilar; 1914 yil 8-iyulda Nyu-York Tayms Buyuk Britaniya hukumati "dengiz orollari qirg'oqlarini" har biri maxsus dizayndagi ikkita tez o'q otar qurol bilan qurollangan bir qator minoralar bilan belgilashga qaror qildi, shu bilan birga "dengiz minoralari atrofida to'liq minoralar aylanasi" qurilishi kerak edi. "va" boshqa zaif nuqtalarda "o'rnatish. 1914 yil dekabrga qadar Qirollik dengiz ko'ngillilari qo'riqxonasi (RNVR) to'qqizta portda turli manbalardan yig'ilgan AA qurollari va qidiruv chiroqlarini boshqargan. The Qirollik garnizon artilleriyasi (RGA) motorli ikkita qurol qismidan foydalangan holda maydonda AA mudofaasi uchun javobgarlikni oldi. Birinchisi rasmiy ravishda 1914 yil noyabrda tuzilgan. Dastlab ular foydalangan QF 1 asosli "pom-pom" (ning 37 mm versiyasi Maksim qurol ).[21][26]

Maksim zenit pulemyoti.

Tez orada barcha qo'shinlar AA qurollarini o'zlarining kichikroq maydonchalari, xususan frantsuzlar 75 mm va ruslar 76,2 mm ga asoslangan holda joylashtirdilar, odatda osmonga burkangan tumshug'iga erishish uchun shunchaki biron bir to'siqda turar edilar. The Britaniya armiyasi 13-poundni tezda AA foydalanish uchun mos keladigan yangi moslamalarni ishlab chiqarishni qabul qildi 13-pdr QF 6 cwt Mk III U 1915 yilda chiqarilgan. U urush davomida xizmat qildi, ammo 18 pdrli qurollar 13 pdr po'stlog'ini olish uchun kattaroq kartrij bilan olish uchun tizilgan edi. 13-pr QF 9 cwt va bu juda qoniqarli edi.[27] Ammo, umuman olganda, ushbu maxsus echimlar umuman foydasiz bo'lib chiqdi. Ushbu rolda ozgina tajribaga ega bo'lganligi sababli, nishonni to'pponchalarga nisbatan nishonni, masofani, balandlikni yoki tezlikni o'lchashning hech qanday vositasi o'zlarining sug'urta sozlamalarini to'g'rilashga qodir emasligini isbotladi va ko'pgina turlar maqsadlaridan ancha pastroq yorilib ketdi. Ushbu qoidadan istisno, dog'lanish sharlarini himoya qiladigan qurollar edi, bu holda balandlikni sharni ushlab turgan kabel uzunligidan aniq o'lchash mumkin edi.

Birinchi masala o'q-dorilar edi. Urushdan oldin o'q-dorilar havoda portlashi kerakligi tan olingan. Ham yuqori portlovchi (HE), ham shrapnel asosan birinchisi ishlatilgan. Havodagi sug'urta sigortalari yonib turadigan (yonayotgan sug'urta asosida) yoki mexanik (soat mexanizmi) edi. Achchiq sigortalar zenitdan foydalanish uchun juda mos bo'lmagan. Sug'urtalash uzunligi parvoz paytida aniqlangan, ammo poroxning yonish tezligi balandlikka ta'sir qilgan. Britaniyalik pom-pomlarda faqat kontaktga biriktirilgan o'q-dorilar bor edi. Zeppelinlar vodorod bilan to'ldirilgan sharlar bo'lib, yondiruvchi snaryadlar uchun nishon bo'lgan va inglizlar ularni havo pufagi sigortalari bilan, ikkala shrapnel tipidagi oldinga proektsion va potentsial oqimni chiqarib tashlashni taklif qilishgan. Shuningdek, inglizlar tunda ishlatish uchun chig'anoqlariga trasserlar o'rnatdilar. Tutun chig'anoqlari ba'zi AA qurollari uchun ham mavjud edi, bu portlashlar mashg'ulotlar paytida nishon sifatida ishlatilgan.[28]

1915 yilda Germaniyaning Buyuk Britaniya orollariga hujumlari ko'paygan va AA harakatlari biroz samarasiz deb topilgan, shuning uchun Qirollik floti qurol-yarog 'mutaxassisi, admiral ser Persi Skott, yaxshilanishlarni amalga oshirish uchun tayinlandi, xususan London uchun AA mudofaasini birlashtirdi. Havodan himoyalanish 75 mm va 3 dyuymli ko'proq RNVR AA qurollari bilan kengaytirildi, pom-pomlar samarasiz edi. Dengiz 3 dyuymli armiya tomonidan ham qabul qilingan QF 3 dyuymli 20 cwt (76 mm), 1916 yilda yangi maydon o'rnatilishi boshlandi. Aksariyat hujumlar tunda bo'lganligi sababli, tez orada qidiruv chiroqlari ishlatildi va aniqlash va joylashtirishning akustik usullari ishlab chiqildi. 1916 yil dekabrga qadar Buyuk Britaniyani himoya qiladigan 183 AA bo'limlari (ko'pi 3 dyuymli), 74 tasi Frantsiyada BEF va 10 ta Yaqin Sharqda.[29]

AA qurol-yarog 'ishlab chiqarish qiyin ish edi. Muammo qobiqni kelajakdagi pozitsiyasiga yaqinlashish uchun muvaffaqiyatli nishonga olish edi, bu turli xil omillar ta'sirida snaryadlarning taxmin qilingan traektoriyasiga ta'sir qildi. Bunga burilish qurolini yotqizish deyilgan, masofa va balandlik uchun "to'siqsiz" burchaklar qurolga o'rnatilib, maqsadlari siljishi bilan yangilangan. Ushbu usulda diqqatga sazovor joylar maqsadga yo'naltirilgan bo'lsa, barrel maqsadning kelajakdagi pozitsiyasiga qaratildi. Maqsadning diapazoni va balandligi sug'urta uzunligini aniqladi. Qiyinchiliklar samolyotning ishlashi yaxshilanishi bilan ortdi.

Britaniyaliklar birinchi navbatda diapazonni o'lchash bilan shug'ullanishdi, shunda diapazon sug'urta parametrlarini yaxshiroq ishlab chiqarish uchun kalit ekanligini angladilar. Bu sabab bo'ldi Balandlik / masofani qidirish (HRF), birinchi model Barr va Stroud UB2, 2 metr optik tasodifiy masofani aniqlovchi shtativga o'rnatilgan. U nishonga masofani va balandlik burchagini o'lchadi, bu birgalikda samolyotning balandligini berdi. Ular murakkab asboblar edi va boshqa turli xil usullardan ham foydalanilgan. Tez orada HRF balandligi / sug'urta ko'rsatkichi (HFI) bilan birlashtirildi, bu balandlik burchaklari va balandligi chiziqlari bilan sug'urta uzunligining egri chiziqlari bilan belgilangan bo'lib, HRF operatori tomonidan bildirilgan balandlikdan foydalanib, zarur bo'lgan sug'urta uzunligini o'chirib qo'yish mumkin edi.[30]

Biroq, burilishni sozlash muammosi - "maqsadga yo'naltirilgan" - maqsad pozitsiyasining o'zgarish tezligini bilishni talab qildi. Frantsiya ham, Buyuk Britaniya ham nishonlarni kuzatish va vertikal va gorizontal burilish burchaklarini hosil qilish uchun takimetrik moslamalarni joriy qildilar. Frantsiyaning Brocq tizimi elektr edi, operator maqsad oralig'iga kirdi va miltiqlarda displeylarga ega edi; u 75 mm bilan ishlatilgan. Britaniyalik Uilson-Dalbi qurol-yarog 'boshqaruvchisi bir juft izdosh va mexanik taximetriyadan foydalangan; operator sug'urta uzunligini kiritdi va burilish burchaklari asboblardan o'qildi.[31][32]

Boshlanishiga qadar Birinchi jahon urushi, 77 mm standart nemis quroliga aylandi va harakatlanish uchun vagonda osongina olinadigan katta shpalga o'rnatildi. Krupp 75 mm qurollari ularning imkoniyatlarini yaxshilaydigan optik ko'rish tizimi bilan ta'minlandi. Nemis armiyasi ittifoqdosh uchuvchilarga "nomi bilan ma'lum bo'lgan aylanuvchi to'pni ham moslashtirdi"olovli piyoz "Bu uchish paytida snaryadlardan. Ushbu qurolda beshta bochka bor edi, ular tezda 37 millimetrlik artilleriya snaryadlarini ishga tushirishdi.[iqtibos kerak ]

Samolyotlar jang maydonidagi er nishonlariga qarshi ishlatila boshlagach, AA qurollari yaqin nishonlarda etarlicha tez o'tib keta olmadi va nisbatan kam bo'lganligi sababli har doim ham kerakli joyda bo'lmadi (va ko'pincha boshqa qo'shinlar bilan mashhur bo'lmagan), shuning uchun o'zgargan tez-tez pozitsiyalar. Tez orada kuchlar har xil qo'shildi avtomat ustunlarga o'rnatilgan qurollar. Ushbu qisqa masofaga mo'ljallangan qurollar ko'proq halokatli bo'lib chiqdi va "Qizil Baron "zenit tomonidan urib tushirilgan deb taxmin qilinmoqda Vikers avtomati. Urush tugagandan so'ng, samolyotlarning tobora ortib borayotgan qobiliyatlari maqsadlarga erishish va ularni nishonga olish uchun yaxshiroq vositalarni talab qilishi aniq edi. Shunga qaramay, bir naqsh o'rnatildi: zenit urushi baland qurolli nishonlarga hujum qilish uchun og'ir qurollardan va samolyotlar pastroqqa kelganda foydalanish uchun engilroq qurollardan foydalanadi.

Bilan ishlatilgan 1-sonli Mark III bashoratchi QF 3,7 dyuymli AA qurol
1934 yil Shvetsiyada zenit qurol bilan otish

Urushlararo yillar

Birinchi Jahon urushi samolyotlar jang maydonining muhim qismi bo'lishi mumkinligini namoyish etdi, ammo ba'zi mamlakatlarda bu tahdid va imkoniyatni taqdim etgan asosiy masalalar strategik havo hujumi istiqboli edi. Zeppelins va. Londonga to'rt yillik havo hujumlari tajribasi Gotha G.V. bombardimonchilar, ayniqsa, inglizlarga ta'sir ko'rsatgan va mustaqil havo kuchlarini shakllantirish uchun asosiy haydovchilardan biri bo'lgan. Samolyotlar va ularning dvigatellarining imkoniyatlari yaxshilanishi bilan ularning masofasi va qurol-yarog'ining o'sishi bilan ularning kelajakdagi urushdagi roli yanada muhimroq bo'lishi aniq edi. Biroq, Birinchi Jahon Urushidan bir necha yil o'tgach, yana bir katta urush ehtimoli uzoq bo'lib tuyuldi, ayniqsa Evropada, harbiy jihatdan eng qudratli davlatlar bo'lgan va mablag 'kam bo'lgan.

To'rt yillik urushda harbiy faoliyatning yangi va texnik jihatdan talab qilinadigan sohasi yaratildi. Havodan mudofaa juda past boshlang'ich nuqtadan bo'lsa-da, katta yutuqlarga erishdi. Biroq, bu yangi edi va ko'pincha cheklangan mudofaa byudjetlarining ulushi uchun raqobatda ta'sirchan "do'stlar" yo'q edi. Demobilizatsiya shuni anglatadiki, aksariyat AA qurollari xizmatdan chiqarilgan bo'lib, eng zamonaviylari qolgan.

Biroq, o'rganilishi kerak bo'lgan saboqlar mavjud edi. Xususan, kunduzi aksariyat teatrlarda AA qurollari bo'lgan va ularni uydagi tungi hujumlarga qarshi ishlatgan inglizlar. Bundan tashqari, ular an Samolyotlarga qarshi eksperimental bo'lim urush paytida va keng ko'lamli tahlilga uchragan ko'plab ma'lumotlarni to'plagan. Natijada ular 1924-1925 yillarda ikki jildni nashr etishdi Samolyotlarga qarshi qurol-yarog 'ishlab chiqarish bo'yicha darslik. U HAA uskunalari uchun beshta asosiy tavsiyalarni o'z ichiga olgan:

  • Yaxshilangan ballistik shakldagi qobiqlar HE plombalari va mexanik sug'urta.
  • Avtomatlashtirish yordamida yuqori darajadagi yong'in.
  • Uzunlikdagi optik asboblar yordamida balandlikni aniqlash.
  • Meteorologik va aşınma omillari uchun momentni tuzatish uchun moslamani o'z ichiga olgan takimetrik asboblar tomonidan boshqariladigan har bir qurol pozitsiyasida olovni markazlashtirilgan boshqarish.
  • Projektorlar yo'nalishi uchun aniqroq ovozli joylashuv va baraj yong'inlari uchun uchastkalarni taqdim etish.

Ikki taxminlar HAA yong'iniga qarshi inglizlarning yondashuvini qo'llab-quvvatladi; birinchi navbatda, maqsadli yong'in asosiy usul edi va bu qurolni ma'lumotni vizual ravishda kuzatib borishi va uning balandligiga ega bo'lishini taxmin qilish orqali ta'minlandi. Ikkinchidan, maqsad barqaror yo'nalishni, tezlikni va balandlikni saqlab turishi. Ushbu HAA 24000 futgacha bo'lgan nishonlarni jalb qilishi kerak edi. Mexanik, tutashganlardan farqli o'laroq, vaqtni sug'urtalash talab qilingan, chunki changni yoqish tezligi balandlikka qarab o'zgarib turar edi, shuning uchun sug'urta uzunligi parvoz vaqtining oddiy vazifasi emas edi. Avtomatlashtirilgan yong'in doimiy yong'in tezligini ta'minladi, bu har bir qobiqning qaerga alohida yo'naltirilishi kerakligini taxmin qilishni osonlashtirdi.[33][34]

1925 yilda inglizlar Vikers tomonidan ishlab chiqilgan yangi asbobni qabul qilishdi. Bu Predictor AA № 1 mexanik analog kompyuteri edi. Maqsad balandligini hisobga olgan holda, uning operatorlari maqsadni kuzatib borishdi va podshipnik, kvadrant balandligi va sug'urta sozlamalarini ishlab chiqarishdi. Ular qurolga elektr bilan uzatildi, u erda qurollarni yotqizish uchun "ko'rsatkichlar" (maqsadli ma'lumotlar va qurolning haqiqiy ma'lumotlari) mos keladigan qatlamlarga takroriy terish ko'rsatildi. 1880-yillarda ingliz qirg'oq artilleriyasi va sohil artilleriyasi tomonidan kiritilgan kelishuvlar asosida qurilgan ushbu takroriy elektr terish tizimi ko'plab AA ofitserlarining fonidir. Shunga o'xshash tizimlar boshqa mamlakatlarda ham qo'llanilgan va masalan, keyinchalik AQShda M3A3 deb nomlangan Sperry moslamasi Buyuk Britaniya tomonidan Predictor AA № 2 sifatida ishlatilgan. Balandlik topuvchilar hajmi ham ko'payib bormoqda, Buyuk Britaniyada Birinchi Jahon urushi Barr va Stroud UB 2 (7 metrli optik tayanch) o'rniga UB 7 (9 metrli optik tayanch) va UB 10 (18 metrli optik tayanch, faqat statik AA saytlarida ishlatiladi). Germaniyadagi Gyertz va Fransiyadagi Levallo 5 metrli asboblarni ishlab chiqarishdi. Biroq, aksariyat mamlakatlarda 1930-yillarning o'rtalariga qadar HAA qurolidagi asosiy harakatlar mavjudlarini takomillashtirishga qaratilgan edi, ammo chizilgan taxtalarda turli xil yangi dizaynlar mavjud edi.[34][35]

1930-yillarning boshlaridan sakkiz mamlakat ishlab chiqilgan radar; ushbu o'zgarishlar 1930-yillarning oxiriga kelib rivojlanish bo'yicha ishlash uchun etarlicha rivojlangan edi ovozni aniqlaydigan akustik moslamalar uskunalar saqlanib qolgan bo'lsa-da, odatda to'xtatilishi kerak. Bundan tashqari, Britaniyada ko'ngilli Kuzatuvchilar korpusi 1925 yilda tashkil etilgan bo'lib, Buyuk Britaniya ustidan uchib o'tgan dushman samolyotlari haqida xabar berish uchun kuzatuv punktlari tarmog'ini taqdim etdi. Dastlab radar yaqinlashayotgan dushman samolyotlarini aniqlash uchun havo hududini kuzatishda foydalanilgan. Biroq, nemis Vyurtsburg radarlari AA qurollarini boshqarish uchun mos ma'lumotlarni taqdim etishga qodir edi va Britaniyaning AA No 1 Mk 1 GL radari AA qurol pozitsiyalarida foydalanishga mo'ljallangan edi.[36]

The Versal shartnomasi Germaniyaning AA qurollariga ega bo'lishining oldini oldi va masalan, Krupps dizaynerlari Shvetsiyadagi Boforsga qo'shilishdi. Birinchi jahon urushidagi ba'zi qurollar saqlanib qoldi va ba'zi bir yashirin AA mashqlari 1920-yillarning oxirida boshlandi. Germaniya 1933 yilda 8,8 sm FlaK 18 ni ishlab chiqardi, 36 va 37 modellari turli xil yaxshilanishlarga ega edi, ammo ballistik ko'rsatkichlar o'zgarmadi. 1930-yillarning oxirida 10,5 sm hajmdagi FlaK 38 paydo bo'ldi, ko'p o'tmay 39 ta; bu asosan statik saytlar uchun ishlab chiqilgan, ammo mobil o'rnatishga ega edi va jihoz 220 V 24 kVt quvvatga ega generatorlarga ega edi. 1938 yilda dizayn 12,8 sm FlaKda boshlandi.[37][38]

SSSR yangi 76 mm ni taqdim etdi M1931 1930-yillarning boshlarida va 85 mm M1938 o'n yillikning oxiriga kelib.[39]

1918 yilda Britaniya 3,6 dyuymli yangi HAA qurolini muvaffaqiyatli sinovdan o'tkazdi. 1928 yilda 3,7 dyuym afzal echimga aylandi, ammo mablag 'topish uchun 6 yil vaqt ketdi. Ishlab chiqarish QF 3,7 dyuym (94 mm) 1937 yilda boshlangan; ushbu qurol dala armiyasi bilan ko'chma vagonlarda va statik holatlar uchun sobit o'rnatiladigan transport vositalarida ishlatilgan. Shu bilan birga, Qirollik dengiz floti qo'shni minorada 4,5 dyuymli (114 mm) yangi qurolni qabul qildi, armiya uni harbiy qurol-yarog 'mavjud bo'lgan portlar atrofida statik holatlar uchun soddalashtirilgan bitta qurol o'rnatishda qabul qildi. Yangi qurollarning ishlashi ularning 199-sonli standart sug'urta bilan cheklangan, 30 soniyali ishlash vaqti bilan, 43 soatlik yangi mexanik vaqt sug'urtasi esa tayyor bo'lishiga yaqin edi. 1939 yilda qo'lda sug'urta sozlamalarini yo'q qilish uchun Machine Fuse Setter ishlab chiqarildi.[40]

AQSh Birinchi Jahon urushini ikkita 3 dyuymli AA qurollari bilan tugatdi va yaxshilanishlar urushlararo davr mobaynida ishlab chiqildi. Biroq, 1924 yilda 105 mm yangi AA tabancasi ustida ish boshlandi, ammo 1930 yillarning o'rtalariga kelib, ularning bir nechtasi ishlab chiqarildi, chunki bu vaqtga qadar 90 mm AA qurolida ish boshlandi, ko'chma vagonlar va statik o'rnatishlar havo, dengiz va quruqlikdagi maqsadlar. M1 versiyasi 1940 yilda ma'qullangan. 1920-yillarda 4,7 dyuymli ish olib borildi, lekin u 1937 yilda tiklandi va 1944 yilda yangi qurol paydo bo'ldi.[41]

HAA va unga tegishli maqsadlarni sotib olish va yong'in nazorati AA harakatlarining asosiy yo'nalishi bo'lgan bo'lsa-da, past darajadagi yaqin masofadagi maqsadlar saqlanib qoldi va 1930-yillarning o'rtalariga kelib muammoga aylandi.

Shu vaqtgacha inglizlar RAFning talabiga binoan Birinchi Jahon urushi pulemyotlaridan foydalanishni davom ettirishdi va AAAD uchun egizak MG moslamalarini o'rnatdilar. Armiyaga .50 dyuymdan kattaroq narsalarni ko'rib chiqish taqiqlangan. Biroq, 1935 yilda ularning sinovlari shuni ko'rsatdiki, minimal samarali tur zarb bilan biriktirilgan 2 funt HE qobig'i edi. Keyingi yil ular asrab olishga qaror qilishdi Bofors 40 mm va a egizak bochka Vikers 2-pdr (40 mm) o'zgartirilgan dengiz tog'ida. Havodan sovutiladigan Bofors erdan foydalanish uchun juda ustun edi, chunki suv bilan sovutilgan pom-pomga qaraganda ancha engil edi va Buyuk Britaniyada Bofors 40 mm ishlab chiqarish litsenziyalangan edi. The Bashoratli AA № 3, Kerrison bashorati rasman ma'lum bo'lganidek, u bilan tanishtirildi.[42]

40 mmli Boforlar 1931 yilda paydo bo'ldi. 1920 yillarning oxirlarida Shvetsiya dengiz kuchlari dan 40 mm dengiz zenit qurolini ishlab chiqishni buyurgan edi Bofors kompaniya. Bu engil, tezkor va ishonchli edi va tez orada to'rt g'ildirakli vagonda mobil versiyasi ishlab chiqildi. Sodda qilib tanilgan 40 mm, Ikkinchi Jahon urushidan oldin 17 ga yaqin turli mamlakatlar tomonidan qabul qilingan va bugungi kunda ham ba'zi sohalarda, masalan, qirg'oq qo'riqchilari fregatlarida qo'llanilmoqda.

20-asrning 20-yillarida Germaniyadagi Rheinmetall avtomati 20 mm ishlab chiqardi va Shveytsariyadagi Oerlikon Birinchi Jahon urushi paytida Germaniyada ishlab chiqarilgan avtomat 20 mm avtomatiga patent oldi. 2 sm FlaK 30 keyinchalik o'n yillikda u Mauzer-Verke tomonidan qayta ishlangan va 2 sm FlaK 38 ga aylangan.[43] Shunga qaramay, 20 mm pulemyotdan yaxshiroq bo'lsa-da va juda kichik treylerga o'rnatilsa, harakatni osonlashtirdi, uning samaradorligi cheklangan edi. Shuning uchun Germaniya 3,7 sm qo'shib qo'ydi. Birinchisi, 30-yillarning boshlarida Rheinmetall tomonidan ishlab chiqarilgan 3,7 sm hajmdagi FlaK 18 asosan 2 sm kattalashtirilgan FlaK 30 edi. U 1935 yilda ishlab chiqarilgan va keyingi yili ishlab chiqarish to'xtatilgan. 3.7 sm hajmdagi qayta ishlangan FlaK 36 avtomati 1938 yilda xizmatga kirdi, u ham ikki g'ildirakli vagonga ega edi.[44] Biroq, 1930-yillarning o'rtalariga kelib, Luftwaffe 3,7 sm dan 8,8 sm gacha bo'lgan qurollar orasida qamrov oralig'i hali ham borligini tushundi. Ular to'rt g'ildirakli vagonda 5 sm qurol ishlab chiqarishni boshladilar.[45]

Birinchi Jahon Urushidan so'ng AQSh armiyasi tomonidan ishlab chiqilgan ikki tomonlama (AA / yer) avtomatik 37 mmli to'p ishlab chiqarishni boshladi. John M. Browning. It was standardised in 1927 as the T9 AA cannon, but trials quickly revealed that it was worthless in the ground role. However, while the shell was a bit light (well under 2 lbs) it had a good effective ceiling and fired 125 rounds per minute; an AA carriage was developed and it entered service in 1939. The Browning 37 mm proved prone to jamming, and was eventually replaced in AA units by the Bofors 40 mm. The Bofors had attracted attention from the US Navy, but none were acquired before 1939.[46] Also, in 1931 the US Army worked on a mobile anti-aircraft machine mount on the back of a heavy truck having four .30 calibre water-cooled machine guns and an optical director. It proved unsuccessful and was abandoned.[47]

The Soviet Union also used a 37 mm, the 37 mm M1939, which appears to have been copied from the Bofors 40 mm. A Bofors 25 mm, essentially a scaled down 40 mm, was also copied as the 25 mm M1939.[48]

During the 1930s solid-fuel rockets were under development in the Soviet Union and Britain. In Britain the interest was for anti-aircraft fire, it quickly became clear that guidance would be required for precision. However, rockets, or 'unrotated projectiles' as they were called, could be used for anti-aircraft barrages. A 2-inch rocket using HE or wire obstacle warheads was introduced first to deal with low-level or dive bombing attacks on smaller targets such as airfields. The 3-inch was in development at the end of the inter-war period.[49]

Naval aspects

WW1 had been a war in which air warfare blossomed but had not matured to the point of being a real threat to naval forces. Assumptions that a few small relatively small caliber naval guns could manage to keep enemy aircraft beyond a range where harm might be expected. In 1939 radio controlled drones became available to the US Navy in quantity allowing a more realistic testing of existing anti-aircraft suites against actual flying and maneuvering targets.[50] The results were sobering to an unexpected degree. The United States was still emerging from the effects of the Katta depressiya and funds for the military had been sparse. To the degree that powder fused shells were still 50% of the shells used.[50] The US Navy found that a significant portion of its shells were duds or low order detonations (incomplete detonation of the explosive contained by the shell). Virtually every major country involved in combat in World War 2 invested in aircraft development. The cost of aircraft research and development was small and the results could be large.[51] So rapid was the performance leaps of evolving aircraft that the British HAC's fire control system was obsolete and designing a successor very difficult for the British establishment.[52] Electronics would prove to be an enabler for effective anti-aircraft systems and both the US and Great Britain had a growing electronics industry.[52] In 1939 radio controlled drones became available to actually test existing systems in British and American service. The results were disappointing by any measure. High-level maneuvering drones were virtually immune to shipboard AA systems. The US drones could simulate dive bombing which showed the dire need for autocannons. Japan introduced powered gliders in 1940 as drones but apparently was unable to dive bomb.[53] There is no evidence of other powers using drones in this application at all. It may have caused a major underestimation of the threat and an inflated view of their AA systems.[54]

Ikkinchi jahon urushi

Poland's AA defences were no match for the German attack and the situation was similar in other European countries.[55] Significant AA warfare started with the Britaniya jangi in the summer of 1940. 3.7-inch HAA were to provide the backbone of the groundbased AA defences, although initially significant numbers of 3-inch 20-cwt were also used. The Army's Anti-aircraft command, which was under command of the Air Defence UK organisation, grew to 12 AA divisions in 3 AA corps. 40-mm Bofors entered service in increasing numbers. In addition the RAF regiment was formed in 1941 with responsibility for airfield air defence, eventually with Bofors 40mm as their main armament. Fixed AA defences, using HAA and LAA, were established by the Army in key overseas places, notably Maltada, Suvaysh kanali va Singapur.

While the 3.7-inch was the main HAA gun in fixed defences and the only mobile HAA gun with the field army, 4.5-inch, manned by artillery, was used in the vicinity of naval ports, making use of the naval ammunition supply. 4.5-inch at Singapore had the first success in shooting down Japanese bombers. Mid war 5.25-inch HAA gun started being emplaced in some permanent sites around London. This gun was also deployed in dual role coast defence/AA positions.

Nemis 88 mm flak gun in action against Allied bombers.

Germany's high-altitude needs were originally going to be filled by a 75 mm gun from Krupp, designed in collaboration with their Swedish counterpart Bofors, but the specifications were later amended to require much higher performance. In response Krupp's engineers presented a new 88 mm design, the FlaK 36. First used in Spain during the Ispaniya fuqarolar urushi, the gun proved to be one of the best anti-aircraft guns in the world, as well as particularly deadly against light, medium, and even early heavy tanks.

Keyin Dambusters raid in 1943 an entirely new system was developed that was required to knock down any low-flying aircraft with a single hit. The first attempt to produce such a system used a 50 mm gun, but this proved inaccurate and a new 55 mm gun replaced it. The system used a centralised control system including both search and targeting radar, which calculated the aim point for the guns after considering windage and ballistics, and then sent electrical commands to the guns, which used gidravlika to point themselves at high speeds. Operators simply fed the guns and selected the targets. This system, modern even by today's standards, was in late development when the war ended.

German soldier manning a MG34 anti-aircraft gun in WW2

The British had already arranged licence building of the Bofors 40 mm, and introduced these into service. These had the power to knock down aircraft of any size, yet were light enough to be mobile and easily swung. The gun became so important to the British war effort that they even produced a movie, Qurol, that encouraged workers on the assembly line to work harder. The Imperial measurement production drawings the British had developed were supplied to the Americans who produced their own (unlicensed) copy of the 40 mm at the start of the war, moving to licensed production in mid-1941.

A USAAF B-24 hit by flak over Italy, 10 April 1945.

Service trials demonstrated another problem however: that ranging and tracking the new high-speed targets was almost impossible. At short range, the apparent target area is relatively large, the trajectory is flat and the time of flight is short, allowing to correct lead by watching the tracers. At long range, the aircraft remains in firing range for a long time, so the necessary calculations can in theory be done by slide rules—though, because small errors in distance cause large errors in shell fall height and detonation time, exact ranging is crucial. For the ranges and speeds that the Bofors worked at, neither answer was good enough.

Inglizlar QF 3,7 dyuym gun in London 1939 yilda.

The solution was avtomatlashtirish, in the form of a mechanical computer, the Kerrison bashoratchisi. Operators kept it pointed at the target, and the Predictor then calculated the proper aim point automatically and displayed it as a pointer mounted on the gun. The gun operators simply followed the pointer and loaded the shells. The Kerrison was fairly simple, but it pointed the way to future generations that incorporated radar, first for ranging and later for tracking. Similar predictor systems were introduced by Germany during the war, also adding radar ranging as the war progressed.

US Coast Guardsmen in the South Pacific man a 20 mm anti-aircraft cannon.

A plethora of anti-aircraft gun systems of smaller calibre were available to the German Wehrmacht combined forces, and among them the 1940-origin Flakvierling quadruple-20 mm-avtomatik qurol -based anti-aircraft weapon system was one of the most often-seen weapons, seeing service on both land and sea. Shunga o'xshash Ittifoqdosh smaller-calibre air-defence weapons of the American forces were also quite capable, although they receive little attention. Their needs could cogently be met with smaller-calibre ordnance beyond using the usual singly-mounted M2 .50 kalibrli machine gun atop a tank's turret, as four of the ground-used "heavy barrel" (M2HB) guns were mounted together on the American Maxson firm's M45 Quadmount weapon (as a direct answer to the Flakvierling), which were often mounted on the back of a yarim yo'l shakllantirish Half Track, M16 GMC, Anti-Aircraft. Although of less power than Germany's 20 mm systems, the typical four or five combat batteries of an Army AAA battalion were often spread many kilometres apart from each other, rapidly attaching and detaching to larger ground combat units to provide welcome defence from enemy aircraft.

Indian troops manning a Bren yengil pulemyot in an anti-aircraft mount in 1941.

AAA battalions were also used to help suppress ground targets. Ular kattaroq 90 mm M3 qurol would prove, as did the eighty-eight, to make an excellent anti-tank gun as well, and was widely used late in the war in this role. Also available to the Americans at the start of the war was the 120 mm M1 qurol stratosfera tabancası, which was the most powerful AA gun with an impressive 60,000 ft (18 km) altitude capability, however no 120 M1 was ever fired at an enemy aircraft. The 90 mm and 120 mm guns would continue to be used into the 1950s.

The Amerika Qo'shma Shtatlari dengiz kuchlari had also put some thought into the problem, When the US Navy began to rearm in 1939 in many ships the primary short ranged gun was the M2 .50 caliber machine gun. While effective in fighters at 300 to 400 yards this is point blank range in naval anti-aircraft ranges. Production of the Swiss Oerlikon 20mm had already started to provide protection for the British and this was adopted in exchange for the M2 machine guns.[56] In the December 1941 to January 1942 time frame production had risen to not only cover all British requirements but also allowed 812 units to be actually delivered to the US Navy.[57] By the end of 1942 the 20mm had accounted for 42% of all aircraft destroyed by the US Navy's shipboard AA. However, the King Board had noted that the balance was shifting towards the larger guns used by the fleet. The US Navy had intended to use the British Pom-Pom, however, the weapon required the use of cordite which BuOrd had found objectionable for US service.[58] Further investigation revealed that US powders would not work in the Pom-Pom.[59] Bureau of Ordnance was well aware of the Bofors 40mm gun. The firm York Safe and Lock was negotiating with Bofors to attain the rights to the air-cooled version of the weapon. At the same time Henry Howard, an engineer, and businessman became aware of it and contacted RAMD W. R. Furlong Chief of the Bureau of Ordnance. He ordered the Bofors weapon system to be investigated. York Safe and Lock would be used as the contracting agent. The system had to be redesigned for both the English measurement system and mass production, as the original documents recommended hand filing and drilling to shape.[60] As early as 1928 the US Navy saw the need to replace the .50 caliber machine gun with something heavier. The 1.1"/75 (28 mm) Mark 1 was designed. Placed in quadruple mounts with a 500 rpm rate of fire it would have fit the requirements. However, the gun was suffering teething issues being prone to jamming. While this could have been solved the weight of the system was equal to that of the quad mount Bofors 40mm while lacking the range and power that the Bofors provided. The gun was relegated to smaller less vital ships by the end of the war.[61] The 5"/38 naval gun rounded out the US Navy's AA suite. A dual propose mount it was used in both the surface and AA roles with great success. Mated with the Mark 37 director and the proximity fuse it could routinely knock drones out of the sky at ranges as far as 13,000 yards.[62] A 3"/50 MK 22 semiautomatic dual gun was produced but not employed before the end of the war and therefore beyond the scope of this article. However early marks of the 3"/50 were employed in destroyer escorts and on merchant ships. 3″/50 kalibrli guns (Marks 10, 17, 18, and 20) first entered service in 1915 as a refit to USSTexas (BB-35), and were subsequently mounted on many types of ships as the need for anti-aircraft protection was recognized. During World War II, they were the primary gun armament on halokat eskortlari, patrul fregatlari, suvosti kemalari, minalar tozalash kemalari, some fleet dengiz osti kemalari, and other auxiliary vessels, and were used as a secondary dual-purpose battery on some other types of ships, including some older battleships. They also replaced the original low-angle 4"/50 caliber guns (Mark 9) on "flush-deck" Viklar va Klemson- sinfni yo'q qiluvchilar zenitlardan yaxshiroq himoya qilishni ta'minlash. The gun was also used on specialist destroyer conversions; the "AVD" dengiz samolyoti uchun tender konversiyalar ikkita qurol oldi; the "APD" tezyurar transport vositalari, "DM" minelayers va "DMS" minesweeper conversions received three guns, and those retaining destroyer classification received six.[63]

Oltitadan biri flak towers davomida qurilgan Ikkinchi jahon urushi yilda Vena.
A British North Sea World War II Maunsell Fort.

The Germans developed massive reinforced-concrete blokxonalar, some more than six stories high, which were known as Hochbunker "High Bunkers" or "Flaktürme" flak towers, on which they placed anti-aircraft artillery. Those in cities attacked by the Allied land forces became fortresses. Several in Berlin were some of the last buildings to fall to the Soviets during the Berlin jangi in 1945. The British built structures such as the Maunsell qal'alari ichida Shimoliy dengiz, Temza daryosi and other tidal areas upon which they based guns. After the war most were left to rot. Some were outside territorial waters, and had a second life in the 1960s as platforms for qaroqchi radiosi stations, while another became the base of a mikronatsiya, Sealand knyazligi.

USAAF B-24 bomber emerges from a cloud of flak with its no. 2 engine smoking.

Some nations started rocket research before World War II, including for anti-aircraft use. Further research started during the war. The first step was unguided missile systems like the British 2-inch RP and 3-inch, which was fired in large numbers from Z batteries, and were also fitted to warships. The firing of one of these devices during an air raid is suspected to have caused the Bethnal Green disaster 1943 yilda.[iqtibos kerak ] Facing the threat of Japanese Kamikadze attacks the British and US developed surface-to-air rockets like British Stooge yoki amerikalik Lark as counter measures, but none of them were ready at the end of the war. The Germans missile research was the most advanced of the war as the Germans put considerable effort in the research and development of rocket systems for all purposes. Ularning orasida bir nechtasi bor edi guided and unguided systems. Unguided systems involved the Fliegerfaust (literally "aircraft fist") as the first MANPADS. Guided systems were several sophisticated radio, wire, or radar guided missiles like the Wasserfall ("waterfall") rocket. Due to the severe war situation for Germany all of those systems were only produced in small numbers and most of them were only used by training or trial units.

Flak in the Balkans, 1942 (chizilgan Helmut Ellgaard ).

Another aspect of anti-aircraft defence was the use of baraj sharlari to act as physical obstacle initially to bomber aircraft over cities and later for ground attack aircraft over the Normandiya bosqini fleets. The balloon, a simple blimp tethered to the ground, worked in two ways. Firstly, it and the steel cable were a danger to any aircraft that tried to fly among them. Secondly, to avoid the balloons, bombers had to fly at a higher altitude, which was more favourable for the guns. Barrage balloons were limited in application, and had minimal success at bringing down aircraft, being largely immobile and passive defences.

The allies' most advanced technologies were showcased by the anti-aircraft defence against the German V-1 cruise missiles (V stands for Vergeltungswaffe, "retaliation weapon"). The 419th and 601st Anti-aircraft Gun Battalions of the US Army were first allocated to the Folkestone-Dover coast to defend London, and then moved to Belgium to become part of the "Antwerp X" project coordinated from the Le Grand Veneur [nl ][64] yilda Keerbergen. With the liberation of Antwerp, the port city immediately became the highest priority target, and received the largest number of V-1 and V-2 missiles of any city. The smallest tactical unit of the operation was a gun battery consisting of four 90 mm guns firing shells equipped with a radio proximity fuse. Incoming targets were acquired and automatically tracked by SCR-584 radar, developed at the MIT Rad laboratoriyasi. Output from the gun-laying radar was fed to the M-9 director, an electronic analogue computer developed at Qo'ng'iroq laboratoriyalari to calculate the lead and elevation corrections for the guns. With the help of these three technologies, close to 90% of the V-1 missiles, on track to the defence zone around the port, were destroyed.[65][66]

Urushdan keyingi urush

A 1970s-era Talos anti-aircraft missile, fired from a kreyser

Post-war analysis demonstrated that even with newest anti-aircraft systems employed by both sides, the vast majority of bombers reached their targets successfully, on the order of 90%. While these figures were undesirable during the war, the advent of the atom bombasi considerably altered the acceptability of even a single bomber reaching its target.

The developments during World War II continued for a short time into the post-war period as well. In particular the U.S. Army set up a huge air defence network around its larger cities based on radar-guided 90 mm and 120 mm guns. US efforts continued into the 1950s with the 75 mm Skysweeper system, an almost fully automated system including the radar, computers, power, and auto-loading gun on a single powered platform. The Skysweeper replaced all smaller guns then in use in the Army, notably the 40 mm Bofors. By 1955, the US Military deemed the 40mm Bofors obsolete due to its reduced capability to shoot down jet powered aircraft, and turned to SAM development, with the Nike Ajax and the RSD-58. In Europe NATO's Allied Command Europe developed an integrated air defence system, NATO Air Defence Ground Environment (NADGE), that later became the NATO Integrated Air Defence System.

The introduction of the guided missile resulted in a significant shift in anti-aircraft strategy. Although Germany had been desperate to introduce anti-aircraft missile systems, none became operational during World War II. Following several years of post-war development, however, these systems began to mature into viable weapons. The US started an upgrade of their defences using the Nike Ajax missile, and soon the larger anti-aircraft guns disappeared. The same thing occurred in the SSSR after the introduction of their SA-2 qo'llanmasi tizimlar.

A three-person JASDF fireteam practices using a rocket target with a training variant of a Type 91 Kai MANPADS during an exercise at Eielson havo kuchlari bazasi, Alyaska as part of Red Flag – Alaska.

As this process continued, the missile found itself being used for more and more of the roles formerly filled by guns. First to go were the large weapons, replaced by equally large missile systems of much higher performance. Smaller missiles soon followed, eventually becoming small enough to be mounted on armoured cars and tank chassis. These started replacing, or at least supplanting, similar gun-based SPAAG systems in the 1960s, and by the 1990s had replaced almost all such systems in modern armies. Man-portable missiles, MANPADS as they are known today, were introduced in the 1960s and have supplanted or replaced even the smallest guns in most advanced armies.

1982 yilda Folklend urushi, the Argentine armed forces deployed the newest west European weapons including the Oerlikon GDF-002 35 mm twin cannon va SAM Roland. The Rapier missile system was the primary GBAD system, used by both British artillery and RAF regiment, a few brand-new FIM-92 Stinger were used by British special forces. Both sides also used the Blowpipe raketasi. British naval missiles used included Dengiz darti va kattaroq Dengiz shilliqqurti longer range systems, Dengiz mushuki va yangi Dengiz bo'ri short range systems. Machine guns in AA mountings was used both ashore and afloat.

Davomida 2008 yil Janubiy Osetiya urushi air power faced off against powerful SAM systems, like the 1980s Buk-M1.

In February 2018, an Israeli F-16 fighter was downed in the occupied Golan balandliklari province, after it had attacked an Iranian target in Syria.[67][68][69][70] In 2006, Israel also lost a helicopter over Lebanon, shot down by a Hezbollah rocket.[71]

AA warfare systems

Although the firearms used by the infantry, particularly machine guns, can be used to engage low altitude air targets, on occasion with notable success, their effectiveness is generally limited and the muzzle flashes reveal infantry positions. Speed and altitude of modern jet aircraft limit target opportunities, and critical systems may be armoured in aircraft designed for the ground attack role. Adaptations of the standard avtomatik qurol, originally intended for air-to-ground use, and heavier artilleriya systems were commonly used for most anti-aircraft gunnery, starting with standard pieces on new mountings, and evolving to specially designed guns with much higher performance prior to World War II.

The o'q-dorilar va chig'anoqlar fired by these weapons are usually fitted with different types of sigortalar (barometrik, time-delay, or yaqinlik ) to explode close to the airborne target, releasing a shower of fast metal fragments. For shorter-range work, a lighter weapon with a higher yong'in darajasi is required, to increase a hit probability on a fast airborne target. Weapons between 20 mm and 40 mm calibre have been widely used in this role. Smaller weapons, typically .50 calibre or even 8 mm rifle calibre guns have been used in the smallest mounts.

A Soviet WW II-era zirhli poezd with anti-aircraft gunners

Unlike the heavier guns, these smaller weapons are in widespread use due to their low cost and ability to quickly follow the target. Classic examples of autocannons and large calibre guns are the 40 mm autocannon va 8.8 cm FlaK 18, 36 gun, both designed by Bofors ning Shvetsiya. Artillery weapons of this sort have for the most part been superseded by the effective surface-to-air missile systems that were introduced in the 1950s, although they were still retained by many nations. The development of surface-to-air missiles began in Natsistlar Germaniyasi during the late World War II with missiles such as the Wasserfall, though no working system was deployed before the war's end, and represented new attempts to increase effectiveness of the anti-aircraft systems faced with growing threat from bombardimonchilar. Land-based SAMs can be deployed from fixed installations or mobile launchers, either wheeled or tracked. The tracked vehicles are usually armoured vehicles specifically designed to carry SAMs.

Larger SAMs may be deployed in fixed launchers, but can be towed/re-deployed at will. The SAMs launched by individuals are known in the United States as the Kishi-Portable Air D.efence Systems (MANPADS). MANPADS of the former Soviet Union have been exported around the World, and can be found in use by many armed forces. Targets for non-ManPAD SAMs will usually be acquired by air-search radar, then tracked before/while a SAM is "locked-on" and then fired. Potential targets, if they are military aircraft, will be identified as friend or foe before being engaged. The developments in the latest and relatively cheap short-range missiles have begun to replace autocannons in this role.

Sovet 85 mm anti-aircraft guns deployed in the neighborhood of Aziz Ishoqning sobori davomida Leningradni qamal qilish (formerly Petrograd, now called St. Petersburg, ) in 1941.

The interceptor aircraft (or simply interceptor) is a type of qiruvchi samolyotlar designed specifically to intercept and destroy enemy aircraft, particularly bombardimonchilar, usually relying on high speed and balandlik imkoniyatlar. A number of jet interceptors such as the F-102 Delta xanjar, F-106 Delta Dart, va MiG-25 were built in the period starting after the end of World War II and ending in the late 1960s, when they became less important due to the shifting of the strategik bombardimon roli ICBMlar. Invariably the type is differentiated from other fighter aircraft designs by higher speeds and shorter operating ranges, as well as much reduced ordnance payloads.

The radar systems use elektromagnit waves to identify the range, altitude, direction, or speed of aircraft and weather formations to provide tactical and operational warning and direction, primarily during defensive operations. In their functional roles they provide target search, threat detection, ko'rsatma, razvedka, navigatsiya, asbobsozlik va ob-havo haqida xabar berish support to combat operations.

Anti-UAV defences

Shuningdek qarang: Uchuvchisiz havo tizimi

An Anti-UAV Defence System (AUDS) is a system for defence against military uchuvchisiz uchish vositalari. A variety of designs have been developed, using lasers,[72] net-guns and air-to-air netting, signal jamming, and hi-jacking by means of in-flight hacking.[73] Anti-UAV defence systems have been deployed against IShID drones during the Mosul jangi (2016–2017).[74][75]

Alternative approaches for dealing with UAVs have included using a ov miltig'i at close range, and for smaller drones, training burgutlar to snatch them from the air.[73]

The Qirollik floti "s 45 turdagi esminets are advanced air defence ships

Kelajakdagi o'zgarishlar

Guns are being increasingly pushed into specialist roles, such as the Dutch Darvozabon CIWS, ishlatadigan GAU-8 Qasoskor 30 mm seven-barrel Gatling qurol for last ditch anti-missile and anti-aircraft defence. Even this formerly front-line weapon is currently being replaced by new missile systems, such as the RIM-116 Rolling Airframe raketasi, which is smaller, faster, and allows for mid-flight course correction (guidance) to ensure a hit. To bridge the gap between guns and missiles, Russia in particular produces the Kashtan CIWS, which uses both guns and missiles for final defense with two six-barrelled 30 mm Gsh-6-30 Gatling guns and eight 9M311 surface-to-air missiles provide for its defensive capabilities.

Upsetting this development to all-missile systems is the current move to stealth aircraft. Long range missiles depend on long-range detection to provide significant lead. Stealth designs cut detection ranges so much that the aircraft is often never even seen, and when it is, it is often too late for an intercept. Systems for detection and tracking of stealthy aircraft are a major problem for anti-aircraft development.

Ammo, kabi yashirin texnologiya grows, so does anti-stealth technology. Multiple transmitter radars such as those from bistatic radars va past chastotali radarlar are said to have the capabilities to detect stealth aircraft. Advanced forms of termografik kameralar such as those that incorporate QWIPs would be able to optically see a Stealth aircraft regardless of the aircraft's Radar kesmasi (RCS). In addition, Side looking radars, High-powered optik sun'iy yo'ldoshlar, and sky-scanning, high-diafragma, high sensitivity radarlar kabi radio teleskoplari, would all be able to narrow down the location of a stealth aircraft under certain parameters.[76] The newest SAMs have a claimed ability to be able to detect and engage stealth targets, with the most notable being the Russian S-400, which is claimed to be able to detect a target with a 0.05-metre squared RCS from 90 km away.[77]

Another potential weapon system for anti-aircraft use is the lazer. Although air planners have imagined lasers in combat since the late 1960s, only the most modern laser systems are currently reaching what could be considered "experimental usefulness". Xususan Taktik yuqori energiyali lazer can be used in the anti-aircraft and anti-missile role.

The future of projectile based weapons may be found in the temir qurol. Currently tests are underway on developing systems that could create as much damage as a Tomaxavk (raketa), but at a fraction of the cost. In February 2008 the AQSh dengiz kuchlari tested a railgun; it fired a shell at 5,600 miles (9,000 km) per hour using 10 megajoules of energy. Its expected performance is over 13,000 miles (21,000 km) per hour muzzle velocity, accurate enough to hit a 5-metre target from 200 nautical miles (370 km) away while shooting at 10 shots per minute. It is expected to be ready in 2020 to 2025.[78] These systems, while currently designed for static targets, would only need the ability to be retargeted to become the next generation of AA system.

Force structures

Shuningdek qarang: Category:Air defence forces

Most Western and Commonwealth militaries integrate air defence purely with the traditional services of the military (i.e. armiya, dengiz floti va havo kuchlari ), kabi separate arm or as part of artillery. In Britaniya armiyasi for instance, air defence is part of the artillery arm, while in the Pokiston armiyasi, it was split off from the artillery to form a separate arm of its own in 1990. This is in contrast to some (largely communist or ex-communist) countries where not only are there provisions for air defence in the army, navy and air force but there are specific branches that deal only with the air defence of territory, for example, the Soviet PVO strany. The SSSR also had a separate strategic rocket force in charge of yadroviy qit'alararo ballistik raketalar.

Dengiz kuchlari

Sovet / rus AK-630 CIWS (close-in weapon system)
Model of the multirole IDAS missile ning Germaniya dengiz floti, which can be fired from submerged anti-aircraft weapon systems

Smaller boats and ships typically have machine-guns or fast cannons, which can often be deadly to low-flying aircraft if linked to a radar - yo'naltirilgan yong'inni boshqarish tizimi radar-controlled cannon for point defence. Some vessels like Egey -equipped destroyers and cruisers are as much a threat to aircraft as any land-based air defence system. In general, naval vessels should be treated with respect by aircraft, however the reverse is equally true. Carrier battle groups are especially well defended, as not only do they typically consist of many vessels with heavy air defence armament but they are also able to launch qiruvchi samolyotlar uchun jangovar havo patrul overhead to intercept incoming airborne threats.

Nations such as Japan use their SAM-equipped vessels to create an outer air defence perimeter and radar piketi in the defence of its Home islands, and the United States also uses its Aegis-equipped ships as part of its Aegis ballistik raketadan mudofaa tizimi in the defence of the Continental United States.

Some modern submarines, such as the Type 212 submarines ning Germaniya dengiz floti, are equipped with surface-to-air missile systems, since helicopters and dengiz ostiga qarshi urush aircraft are significant threats. The subsurface launched anti-air missile was first purposed by US Navy Rear Admiral Charles B. Momsen, in a 1953 article.[79]

Layered air defence

A RIM-67 surface to air missile intercepts a Olovli ari drone at Oq qum, 1980.

Air defence in naval tactics, especially within a carrier group, is often built around a system of concentric layers with the aircraft carrier at the centre. Tashqi qatlam odatda aviatashuvchining samolyoti tomonidan ta'minlanadi, xususan uning AEW & C bilan birlashtirilgan samolyot CAP. Agar tajovuzkor bu qatlamga kira oladigan bo'lsa, unda keyingi qatlamlar yer-havo raketalari tashuvchining eskortlari tomonidan olib boriladi; kabi mudofaa raketalari RIM-67 standarti, 100 nmi gacha bo'lgan masofaga va mudofaa raketalari kabi RIM-162 ESSM, 30 nmi gacha bo'lgan masofa bilan. Va nihoyat, deyarli har bir zamonaviy harbiy kemada kichik kalibrli qurollar, shu jumladan a CIWS odatda bu radar tomonidan boshqariladi Gatling qurol daqiqada bir necha ming otishni o'rganish qobiliyatiga ega bo'lgan 20 mm dan 30 mm gacha bo'lgan kalibrli.[80]

Armiya

Qo'shinlar odatda havodan mudofaaga chuqur, ajralmas narsalarga ega inson portativ havo mudofaasi tizimlari (MANPADS) kabi RBS 70, Stinger va Igla kabi kichik kuch darajalarida armiya darajasidagi raketadan mudofaa tizimlariga qadar Angara va Vatanparvar. Ko'pincha balandlikdan uzoq masofaga uchadigan raketa tizimlari samolyotlarni past darajadagi uchishga majbur qiladi, bu erda zenit qurollari ularni pastga tushirishi mumkin. Kichik va katta tizimlar kabi samarali havo hujumidan mudofaa qilish uchun oraliq tizimlar ham bo'lishi kerak. Ular polk darajasida joylashtirilishi mumkin va o'ziyurar zenit qurollari (SPAAG) bo'ladimi-yo'qmi, o'z-o'zidan yuradigan zenit platformalarining vzvodlaridan iborat bo'lishi mumkin. Tunguska yoki shunga o'xshash "yer-havo" raketa platformalari Roland yoki SA-8 Gecko.

Milliy darajadagi Amerika Qo'shma Shtatlari armiyasi, avvalo, kontinental AQShning raketa havodan mudofaasi uchun mas'ul bo'lganligi sababli tipik bo'lmagan. Nike loyihasi.

Havo kuchlari

USAF F-22A Raptor otish an AIM-120 havo-havo raketasi.

Havo kuchlari tomonidan havo mudofaasi odatda tomonidan ta'minlanadi qiruvchi samolyotlar ko'tarish "havo-havo" raketalari. Biroq, aksariyat havo kuchlari havo bazasi mudofaasini "yer-havo" raketa tizimlari bilan kuchaytirishni tanlaydilar, chunki ular juda qimmatli nishon va dushman samolyotlari hujumiga duchor bo'lishadi. Bundan tashqari, ayrim mamlakatlar havo hujumidan mudofaa bo'yicha barcha majburiyatlarni havo kuchlari zimmasiga yuklashni tanlaydilar.

Hududga qarshi mudofaa

Hududga qarshi mudofaa, ma'lum bir hudud yoki joyning havoga qarshi mudofaasi, (aksincha nuqta himoyasi ) tarixiy ravishda ikkala armiya tomonidan boshqarilgan (Samolyotga qarshi qo'mondonlik Britaniya armiyasida, masalan) va havo kuchlarida ( Amerika Qo'shma Shtatlari havo kuchlari "s CIM-10 Bomark ). Mintaqa mudofaasi tizimlari o'rta va uzoq masofalarga ega va boshqa har xil tizimlardan iborat bo'lishi va hududni himoya qilish tizimiga ulanishi mumkin (bu holda u hududni samarali qamrab olish uchun birlashtirilgan bir nechta qisqa masofali tizimlardan iborat bo'lishi mumkin). Saudiya Arabistoni va Isroil tomonidan mudofaani hududlarni himoya qilish misoli MIM-104 Patriot birinchi navbatda raketa batareyalari Fors ko'rfazi urushi Bu erda maqsad aholi punktlarini qamrab olish edi.

Taktikalar

Harakatlilik

Rus Pantsir-S1 harakatlanayotganda maqsadlarni jalb qilishi va shu bilan yuqori darajada yashashga erishishi mumkin.

Zamonaviy havo hujumiga qarshi mudofaa tizimlarining aksariyati juda harakatchan. Hatto kattaroq tizimlar ham treylerlarga o'rnatilishga moyil bo'lib, ularni tezda buzib tashlash yoki sozlash uchun mo'ljallangan. Ilgari, bu har doim ham shunday emas edi. Dastlabki raketa tizimlari noqulay va juda ko'p infratuzilmani talab qilar edi; ko'pchilikni umuman ko'chirish mumkin emas edi. Havodan mudofaani diversifikatsiya qilish bilan harakatchanlikka ko'proq e'tibor qaratildi. Aksariyat zamonaviy tizimlar odatda o'ziyurar (ya'ni qurollar yoki raketalar yuk mashinasiga yoki kuzatiladigan shassiga o'rnatiladi) yoki tortib olinadi. Ko'pgina tarkibiy qismlardan tashkil topgan tizimlar ham (transportyor / montajchi / ishga tushirgichlar, radarlar, qo'mondonlik punktlari va boshqalar) transport vositalarining parkiga o'rnatilishidan foyda ko'radi. Umuman olganda, sobit tizimni aniqlash, hujum qilish va yo'q qilish mumkin, mobil tizim kutilmagan joylarda paydo bo'lishi mumkin. Sovet tizimlari, ayniqsa, harakatchanlikka ko'proq e'tibor qaratishadi Vetnam urushi AQSh va Vetnam o'rtasida. Mojaroning ushbu qismi haqida ko'proq ma'lumot olish uchun qarang SA-2 qo'llanmasi.

Havodan mudofaa va havo mudofaasini bostirish

AGM-88 va AIM-9 a Luftwaffe Tornado.

Isroil va AQSh havo kuchlari a'zolari bilan birgalikda NATO uchun muhim taktikalarni ishlab chiqqan havo mudofaasini bostirish. Kabi maxsus qurollar radiatsiyaga qarshi raketalar va rivojlangan elektron razvedka va elektron qarshi choralar platformalar qarama-qarshi havo mudofaasi tizimining samaradorligini bostirishga yoki inkor etishga intiladi. Bu qurollanish poygasi; siqilish, qarshi choralar va radiatsiyaga qarshi qurollar ishlab chiqilganligi sababli, SAM tizimlari ham yaxshilanadi ECCM qobiliyatlari va ularga qaratilgan radiatsiyaga qarshi raketalarni va boshqa o'q-dorilarni yoki ular himoya qilayotgan maqsadlarni urib tushirish qobiliyati.

Isyonchilar taktikasi

Raketa qo'zg'atuvchilar vertolyotlarga qarshi ishlatilishi mumkin va ko'pincha ishlatilishi mumkin (masalan, Somali militsionerlari paytida Mogadishu jangi (1993) ). RPGni tik burchak ostida o'qqa tutish foydalanuvchiga xavf tug'diradi, chunki o'q otish orqasidagi zarba erdan aks etadi. Somalida militsiya a'zolari ba'zan AQSh vertolyotlarini otish paytida o'q otuvchidan bosimni pasaytirish uchun RPG naychasining chiqadigan uchiga po'lat plitani payvandlab qo'yishgan. RPG-lar ushbu rolda faqat samaraliroq qurollar mavjud bo'lmaganda foydalaniladi.

RPGlarni vertolyotlarga qarshi ishlatishning yana bir misoli ANACONDA operatsiyasi 2002 yil mart oyida Afg'onistonda. Toliblar qo'zg'olonchilari himoya qilmoqda Shohi-Kot vodiysi to'g'ridan-to'g'ri yong'in rolida ishlatiladigan RPG-lar vertolyotlarning qo'nishiga qarshi. 4 nafar qo'riqchi o'ldirilgan[81] ularning vertolyoti RPG tomonidan urib tushirilganda va SEAL jamoasi a'zosi Nil C. Roberts vertolyotni 2 RPGga urganida qulab tushdi.[82] Boshqa holatlarda Afg'onistonda vertolyotlar missiya paytida urib tushirilgan[83] Vardak viloyatida. RPG-larni havo mudofaasida foydali qiladigan xususiyatlardan biri shundaki, ular 920 m balandlikda avtomatik ravishda portlash uchun birlashtirilgan.[84] Agar havoga yo'naltirilgan bo'lsa, bu jangovar kallakning havo portlashiga olib keladi, bu esa vertolyotga qo'nish yoki uchish uchun urilgan cheklangan, ammo zararli bo'lishi mumkin bo'lgan shrapnel miqdorini chiqarishi mumkin.

Isyonchilar uchun eng samarali usul qarshi samolyot ularni havo bazasi atrofiga kirib, samolyotlarni alohida-alohida yo'q qilish orqali yo'q qilishga urinishdir, masalan. The 2012 yil sentyabr oyida Bastion lageriga reyd yoki samolyotlar ohaktosh kabi bilvosita olov bilan shug'ullanishi mumkin bo'lgan joyni topish. Davomida paydo bo'lgan so'nggi tendentsiya Suriya fuqarolar urushi ning ishlatilishi ATGM vertolyotlarning qo'nishiga qarshi.[85]

Shuningdek qarang

Adabiyotlar

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