Shimoliy Amerika temir yo'l signallari - North American railroad signals

Baltimor va Ogayo temir yo'llari qavs ustunlaridagi rang holati chiroqlari Magnoliya, G'arbiy Virjiniya

Shimoliy Amerika temir yo'l signallari odatda namoyish etiladigan ko'p boshli elektr yoritgichlar toifasiga kiradi tezlikka asoslangan yoki zaif yo'nalish signalizatsiyasi.^[1] Signallari bo'lishi mumkin qidiruv nuri, rangli yorug'lik, holat nuri, yoki rang holati yorug'ligi turlari, ularning har biri turlicha jihatlari xabar beradigan lokomotiv muhandisi u o'z poezdini nazorat ostida ushlab turishi va har qanday to'siq yoki xavfli vaziyatda to'xtab turishi uchun yo'l sharoitlarini.

Shimoliy Amerikada temir yo'l signalizatsiyasi uchun milliy standart yoki tizim mavjud emas. Shaxsiy temir yo'l korporatsiyalari xavfsizlikning ba'zi bir asosiy talablarini qo'llab-quvvatlagan taqdirda o'zlarining signalizatsiya tizimlarini erkin ishlab chiqishlari mumkin. 1960-yillardan beri sodir bo'lgan birlashish to'lqini tufayli avvalgi temir yo'llardan meros bo'lib o'tgan har xil signalizatsiya turlarini boshqaradigan bitta temir yo'lni ko'rish odatiy hol emas. Ushbu xilma-xillik apparatning oddiy farqlaridan tortib to butunlay boshqacha qoidalar va jihatlarga qadar bo'lishi mumkin. Yaqinda temir yo'llarda apparat va qoidalar bo'yicha ba'zi bir standartlashtirish mavjud bo'lsa-da, xilma-xillik odatiy bo'lib qolmoqda.

Ushbu maqola odatda Shimoliy Amerika temir yo'l signalizatsiyasida mavjud bo'lgan ba'zi jihatlarni tushuntiradi. Signallarning aslida qanday ishlashini ko'proq texnik ko'rish uchun qarang Shimoliy Amerika temir yo'l signalizatsiyasi.

Signal aspekt tizimlari

Shimoliy Amerikada signalizatsiya aspekt tizimlarining ikkita asosiy turi mavjud, Tezlik signalizatsiyasi va Zaif marshrut signalizatsiyasi.^[2] Tezlik signalizatsiyasi yaqinlashib kelayotgan trek segmentida poezdning qancha tez yurishiga ruxsat berilganligi to'g'risida ma'lumot uzatadi; kuchsiz marshrut signalizatsiyasi poezdning tutashgan joyidan o'tadigan marshrutga oid ma'lumotlarni uzatadi va shunga qarab poyezd tezligini boshqarish muhandis zimmasiga yuklanadi. Zaif marshrut signalizatsiyasi "zaif" atamasi bilan qo'llaniladi, chunki tizimda ba'zi tezlik signallari jihatlari ishlatilishi mumkin, shuningdek, aniq marshrut ma'lumotlari odatda uzatilmaydi, faqat ajralib chiqadigan yoki to'g'ridan-to'g'ri marshrut haqiqati, ularning har biri oldindan ma'lum bo'lgan diapazonga ega tezlik.

Odatda temir yo'llar Sharqiy Amerika Qo'shma Shtatlari G'arbdagi temir yo'llar marshrut signalizatsiyasidan foydalangan holda, O'rta G'arbiy va Janubdagi tizimlarning aralashuvi bilan tezlikni signalizatsiya qilishdi. Bunga sabab g'arbdagi poezd zichligi pastligi, odatda oddiyroq yo'llarning joylashuvi bilan birlashtirilgan. Vaqt o'tishi bilan marshrut signalizatsiyasi temir yo'llari birlashish orqali tezlikni signalizatsiya segmentlarini birlashtirdi va tizimga tezlikka asoslangan jihatlarni o'zlashtirdi. Beshta asosiy 1-sinf temir yo'llari ichida Qo'shma Shtatlar, CSX tezlik signalizatsiyasidan foydalanadi, Birlik Tinch okeani va BNSF tezlikni oshirgan marshrut signalizatsiyasidan foydalaning va Norfolk janubi chiziqning asl egasiga asoslangan tezlik va marshrut signalizatsiyasi aralashmasidan foydalanadi. Shahar atrofidagi temir yo'llar va Amtrak hamma o'zlari ishlaydigan joylarda tezlikni signalizatsiyasidan foydalanadilar yoki ushlab turadilar. Kanadalik temir yo'llarning barchasi Kanadada tezkor signalizatsiya tizimining kuchli tizimidan foydalanadi, ammo Qo'shma Shtatlarda egallagan yo'nalishlarda marshrut signalizatsiyasining ba'zi segmentlariga ega.

Umumiy signalizatsiya usullari

Signal turlari

Shimoliy Amerika signallari odatda uchta turga ega.

Mutlaqo - Mutlaq signallar odatda an ga ulanadi o'zaro bog'liqlik tomonidan boshqariladi blok operatori yoki poezd dispetcheri. Ularning eng cheklovchi jihati - bu "To'xtash" va poezdlar ularni maxsus vakolat olmasa to'xtab o'tishlari mumkin emas. Mutlaq signallar, agar nazorat qilish organi tomonidan aniq belgilanmagan bo'lsa, to'xtash belgisi ko'rsatiladi. Qadimgi amaliyotda bir nechta signal boshlari ustun ustidagi bir-birining ustiga to'g'ridan-to'g'ri va pastda joylashgan.
Avtomatik - Avtomatik signallar elektr orqali ulangan mantiq bilan boshqariladi trek davrlari poezdlar yoki to'siqlar mavjudligini avtomatik ravishda aniqlaydigan. Avtomatik signallar ruxsat etiladi, chunki ularning cheklov jihatlari "Cheklangan jarayon" turlaridan biri hisoblanadi. Poyezdlar hech qanday tashqi ruxsatisiz "Cheklangan harakat" ko'rsatiladigan avtomatik signaldan o'tishlari mumkin. Avtomatik signallar odatda biriktirilgan raqam plitasiga ega bo'lish orqali va eski amaliyotda, ustunda bir-biridan uzoqlashtirilgan bir nechta signal boshlari (ya'ni ustunning qarama-qarshi tomonlarida) bo'lishi bilan tan olinadi.
Yarim Avtomatik - Yarim Avtomatik signallar - bu odatda avtomatik signal vazifasini bajaradigan, ammo "To'xtatish" mutlaq jihatini ko'rsatadigan qilib o'rnatilishi mumkin bo'lgan signallar. Yarim Avtomatik signallarda raqam belgisi yo'q, lekin aniq "Cheklangan davom etish" turidagi signalni ko'rsatishi mumkin.

Boshqa turdagi signallarni o'z ichiga olishi mumkin Poezdga buyurtma signallari, qo'lda blok kabi maxsus xavfsizlik asboblarini boshqaradigan signallar yoki signallar slayd to'siqlari, qulflanmagan pervazlar, yo'l kesishmalari va boshqalar. Bu uchta standart turga qaraganda ancha kam uchraydi.

Maket

Yig'ilgan qidiruv nuri mitti signal Sprinfild, Massachusets

Shimoliy Amerika signallari odatda umumiy sxemaga amal qiladi. A yuqori signal birdan uchgacha iborat boshlar taxminan vertikal stakka o'rnatiladi, har bir bosh birdan to'rtgacha tomonlarni namoyish etishga qodir. Avtomatik signallar raqam belgisi bilan aniqlanadi, mutlaq signallar esa yo'q. Signalning tomoni har bir boshning ko'rsatadigan tomonlari kombinatsiyasiga asoslangan. Agar signal bir nechta boshga ega bo'lsa, aspektlar yuqoridan pastga qarab o'qiladi va "X ustidan Y dan Zgacha" deb ta'riflanadi.

Mittilar signallari past tezlikli yoki cheklangan bo'sh joylarda ishlatiladigan kichikroq signallar. Ko'pgina signalizatsiya aspekt tizimlari yuqori signallarda ishlatiladigan jihatlardan farq qiluvchi mitti signallardan foydalanish uchun parallel jihatlarga ega. Mittilar signallari yuqori signal singari bir nechta boshlarga ega bo'lishi mumkin, lekin ba'zida mitti signallarda bo'sh joy va xarajatlarni tejash uchun "virtual boshlar" deb nomlangan narsalar ishlatiladi. Bu erda mitti signal bir nechta lampalarni aks ettiradi, odatda bir nechta signal boshlarining ta'sirini yaratadigan bitta signal boshi bo'lishi mumkin. Masalan, Sariq / Qizil / Yashil rangdagi mitti lampalar to'plami oddiy sariq, qizil va yashil ranglarni, shuningdek sariqdan yashil ranggacha va qizil ranglar yashil ranglarni aks ettirishi mumkin.

Signal boshining orqasida qorong'i orqa yoki nishon, bu yorqin atrof-muhit yoritilishida signal ko'rinishini yaxshilashga yordam beradi. Maqsadli dizaynlar har xil, lekin odatda signal lampalarining joylashishiga qarab yumaloq yoki tasvirlar shaklida bo'ladi. Har bir signal turi uchun odatda alohida temir yo'l kompaniyasi tomonidan tanlanishi mumkin bo'lgan bir qator maqsad o'lchovlari mavjud. Mitti signallarni uzoq masofadan ko'rish uchun mo'ljallanmaganligi sababli, ular umuman nishonlar bilan ta'minlanmagan.

O'rnatish

A Pensilvaniya temir yo'li fonda o'rnini bosuvchi ustunli signallari bo'lgan yorug'lik signal ko'prigi. Bug 'lokomotivlari dizayni barcha signallarni yugurish yo'lidan o'ng tomonga qo'yish kerakligini anglatadi. Hozirgi dizel dvigatel dizayni chapda ham, o'ngda ham o'tirishga imkon beradi.

Signallarni ko'pincha muhandisning ko'zoynagiga qo'yish uchun balandligi taxminan 12 fut (3,7 m) dan 15 fut (4,6 m) gacha bo'lgan balandlikdagi taytlarga o'rnatiladi. Signallarni ham o'rnatish mumkin signal ko'priklari yoki konsol ustunlari bir nechta treklarni qamrab olish. Signal ko'priklari va ustunlar odatda relsning yuqori qismida kamida 20 fut (6,1 m) masofani ta'minlaydi. Qavs ustunlari ikkita signal qo'shni treklarni boshqaradigan bir xil ustunlarga o'rnatiladi. Qavs ustunlari poezd brigadasiga oraliq yo'lda poezd orqali signalni ko'rishga imkon beradigan signallarning eng baland turi bo'lishga moyil. Elektrlangan hududdagi signallar o'rnatilishi mumkin kateteriya tuzilishi va signallari yoqilgan ikki tomonlama chiziqlar bir xil o'rnatish moslamasida orqaga qarab o'rnatilishi mumkin.

1985 yilgacha signallar tartibga solish bo'yicha ular boshqaradigan yo'lning tepasida va o'ng tomonida o'rnatilishi kerak edi. Ushbu o'rnatish muhandisga bug 'yoki teplovozni chap burunni cheklaydigan uzun burunli haydash paytida signalni ko'rishga imkon berish uchun ishlab chiqilgan. Ko'pgina holatlarda, ayniqsa ikki tomonlama harakatlanish amalga oshirilgan joylarda, signallarni yo'lning yuqorisida yoki stsenar ustunlariga o'rnatilishi kerak edi, chunki bu o'ng qo'lni joylashtirishga imkon beradi. Yo'lning ikkala tomonida yaxshi ko'rinishga imkon berish uchun lokomotiv dizayni o'zgarganligi sababli, temir yo'llarni ikki yo'nalishli ustun tipidagi signallarga o'tishga imkon beruvchi qoidalar o'zgartirildi, signal ko'priklaridan faqat bir nechta yo'llar yoki cheklangan ko'rinishlar bilan bog'liq maxsus holatlarda foydalanildi.

Mittilar signallari odatda past tezlikda harakatlanadigan joylarda yoki cheklangan bo'shliqlarda erga o'rnatiladi. Ko'rinishni yaxshilash uchun ba'zan mitti signallarni kichik tirgakka yoki boshqa inshootlarga balandroq qilib o'rnatish mumkin. Ular "yuqori mitti" yoki "tayoq signallari" deb nomlanishi mumkin, ammo baland o'rnatilishi mitti signalining past tezlikli dasturlarini o'zgartirmaydi.

Signal ranglari va lampalar

Elektr signal lampalari odatda kam quvvatga ega (35 vatt) akkor lampalar past kuchlanishli doimiy oqimdan yoki yaqinda yuqori chiqindidan chiqib ketish LED massivlar. Akkor signallar a dan foydalanadi dublet ob'ektiv O'zlarining kichik kuchlarini uzoq masofaga yo'naltirish uchun kombinatsiya (kunduzi 3500 fut.) Yangi LED signallari yoki noaniq qatorni ishlatishi yoki an'anaviy ob'ektiv orqasida tushadigan o'rnini bosishi mumkin. AQSh signal linzalari standart diametri 8,375 dyuym (21,27 sm) ga teng. Shimoliy Amerika signallari 1905 yil oktyabrda belgilangan va boshqa transport turlari uchun odatiy bo'lgan standart ranglar to'plamidan foydalanadi, Simmons-Boardman 1911 signal lug'atining 384-betida ko'rsatilgandek.

Yashil - "aniq" yoki harakatni ko'rsatish uchun ishlatiladi.
Sariq - muhandisni oldinda egallab olingan "blok" uchun yaqinlashib kelayotgan to'xtash yoki tezlikni pasayishi to'g'risida ogohlantirish uchun ishlatiladi. Bundan tashqari, past tezlikli harakatlar uchun ham foydalaniladi.
Qizil - to'xtash joyini yoki boshqa cheklov holatini ko'rsatish uchun ishlatiladi yoki "to'ldiruvchi" chiroq sifatida ishlatiladi (signalning bu qismi ishlatilmaganda, lekin ekipajga signal ishlayotganligini tasdiqlash uchun, qolgan qismini taxmin qilishni talab qilmaslik uchun) yorug'lik ishlamay qolganda kombinatsiya).
Moviy - Signal qo'g'irchoq ustunida signal va signal qo'llaniladigan yo'l o'rtasidagi oraliq yo'lni yoki yo'lning uchastkasidagi barcha uskunalarni ko'k signalning orqa tomoniga yo'naltirishni bildiradi, chunki erkaklar ishlayotgani sababli ko'chirilmaydi. ostida, yoqilgan yoki aytilgan uskunada.
Siyohrang - eskirgan. Taxminan 1940 yilgacha,^[3] binafsha rangli linzalardan ba'zilarida "To'xtatish" belgisi sifatida qizil rangdan ko'ra ko'proq foydalanilgan hovlilar va relslardan chiqib ketadi. 1952 yilda Davlatlararo savdo komissiyasi binafsha rang endi bu maqsadda AQShda ishlatilmasligi to'g'risida qaror chiqardi.^{[iqtibos kerak ]}
Oy oq - Cheklangan davom etish holatini ko'rsatish uchun ishlatiladigan sariq rangning barcha izlarini yo'q qilish uchun ko'k filtrlangan yorug'lik.
Limon sariq (AAR ning rasmiy nomi) - Pozitsiyali yorug'lik tizimlarida har xil maqsadlarga mo'ljallangan yuqori ko'rinadigan rang, tumanga eng katta kirib borish sifatida ishlatiladi.
(Oddiy) Oq - Oddiy akkor oq chiroq. Buzuq linzalari bo'lgan mitti holatdagi yorug'lik signallarida ishlatiladi.

Shaxsiy signal boshlari boshqa signal tomonini yaratish uchun rangni yondiradigan qilib o'rnatilishi mumkin. Qo'shma Shtatlardagi signallar odatda bir vaqtning o'zida faqat bitta bosh yonadi, Kanadadagi signallar bir vaqtning o'zida ikkita boshni chaqishi mumkin; miltillovchi chiroqlar odatda kamroq cheklovchi barqaror chiroqlardan ko'ra.^{[iqtibos kerak ]}

Biroz tezkor tranzit tizimlar faqat ikkita signal chiroq rangidan foydalanadi (oy oqi davom etish uchun va qizil nuqta uchun); misollariga quyidagilar kiradi Baltimor metro metro liniyasi, Vashington metrosi va PATCO Speedline.

Tezlik

Signal qoidalari va jihatlari oldindan belgilangan bir necha tezlikni ishlatadi. Ushbu tezliklar zaif yo'nalish turi signalizatsiyasida ham qo'llaniladi.

Oddiy tezlik - Shuningdek ma'lum bo'lgan temir yo'l liniyasining normal tezligi Maksimal ruxsat berilgan tezlik (MAS).
Cheklangan tezlik - 40-yillardan boshlab yuqori tezlikda foydalanish uchun ishlatilgan Oddiy Tezlikdan past tezlik saylovchilar (kalitlar). Ushbu tezlik alohida temir yo'llar tomonidan belgilanadi va soatiga 40 mildan (64 km / soat) 60 milya (97 km / soat) gacha.
O'rta tezlik - Odatda soatiga 30 milya (48 km / soat) o'rnatilgan standart "tushirilgan" tezlik uchun original kontseptsiya va soatiga 40 milya (64 km / soat) gacha ko'tarilishi mumkin. Bu blokirovkalash orqali harakatlanishni farqlash uchun odatiy tezlik, shuningdek, tezyurar poezdlar to'xtash yoki cheklangan harakatlanish signallariga yaqinlashganda cheklangan.
Sekin tezlik - qulflash chegarasida bo'lmaganida soatiga 15 mil (24 km / soat) va blokirovka chegarasida bo'lmaganida 20 milya. Ushbu poezdlar o'zaro bog'lanishda murakkab trekka bo'yicha muzokaralar olib borish uchun ishlatiladi.
Cheklangan tezlik - Belgilanmagan hududga kiradigan yoki ishlaydigan poezdlar uchun yoki kuchsizlantirilgan yo'l sxemasiga kirishda foydalaniladi. Blokirovka chegaralaridan tashqarida soatiga 20 mildan (32 km / soat) ko'p bo'lmagan tartibga solish ta'rifi, blokirovka chegaralarida 15 milya. Cheklangan tezlikda harakatlanadigan poezdlar to'siq bo'lmaguncha yarim ko'rish masofasida to'xtab turishi va buzilgan relslarga e'tibor berishlari kerak.

Xatolarga bardoshlik

Signal aspektlari ba'zi darajalarni o'z ichiga olgan holda ishlab chiqilgan xatolarga bardoshlik. Aspektlar ko'pincha shunday ishlab chiqilganki, nosoz yoki xiralashgan chiroq, natijada paydo bo'ladigan tomonni mo'ljallanganidan ko'ra cheklashiga olib keladi. Operatsion qoidalari (GCOR, NORAC yoki CROR ) qorong'i yoki qoraygan signal boshlarini o'zlarining eng cheklovchi tomonlarini (ya'ni to'xtashni) ko'rsatadigan deb hisoblashlarini talab qilishlari kerak, ammo nosozliklarga bardoshli jihatlar dizayni muhandisga signalning ishlamay qolishi aniq bo'lguncha xavfsizroq harakat qilishiga yordam berishi mumkin. Barcha jihatlar nosozliklarga chidamli bo'lmasada, eng yuqori qismdagi yashil chiroq faqat eng kam cheklovchi signal tomoni "Tozalash" tomonidan ishlatiladi, shuning uchun muvaffaqiyatsizlik tasodifan aniq tomonni ko'rsatishi mumkin bo'lgan holatlar mavjud emas.

Signal tomoni miltillovchi chiroqni o'z ichiga olgan joyda, miltillovchi chiroq har doim kamroq cheklangan signallarga qo'llaniladi. Bu tiqilib qolgan miltillashning oldini olish uchun o'rni tasodifan signalni yangilashdan.

Ba'zi signalizatsiya mantig'ida "lampochkaning chiqib ketishi" (chiroq ishlamay qolishi) yoki boshqa nosozliklarni aniqlash, nosozlik yuz berganda eng cheklovchi tomonni ko'rsatishga harakat qilish kerak. Biroq, bu xususiyat talab qilinmaydi yoki umuman qabul qilinmaydi.

Signal turlari

Semafor signallari

Semafor signali Atchison, Topeka va Santa Fe temir yo'li 1943 yilda

Semafor signallari birinchi marta 1841 yilda Angliyada ishlab chiqilgan.^[4]^:169 Ba'zi AQSh temir yo'llari ularni 1860-yillarning boshlarida o'rnatishni boshladilar va semaforlar asta-sekin boshqa turdagi signallarni siqib chiqardi. The Union Switch & Signal kompaniyasi (US&S) 1881 yilda elektro-pnevmatik konstruktsiyani taqdim etdi. Bu avvalgisiga qaraganda ancha ishonchli edi, shunchaki mexanik versiyalar va ularni ko'proq temir yo'llar ishlata boshladi. Biroq, o'sha paytda ular ancha qimmat edi Hall disk yoki "banjo" signallari.^[4]^:171

19-asrning oxiriga kelib, ayniqsa, poezdlar tezroq va tezlashib borar va temir yo'llar tirbandligi oshib borar edi, banjo signalida yagona va terminal nuqson bor edi: ko'rish. Tumanli ob-havo sharoitida va shisha paneliga qor yopishganda ichki diskni ko'rish qiyin edi. US&S tomonidan ishlab chiqarilgan elektro-pnevmatik semaforlarning avvalgi turlari 1880 yilga qadar cheklangan dasturni avtomatik blok signallari sifatida ko'rgan. Uzoq pnevmatik liniyalarda havo bosimini ushlab turish zarurati oxir-oqibat temir yo'llarni avtomatik blok signallari sifatida keng foydalanishni to'xtatishga olib keldi. Biroq, bu turlar o'zaro bog'langan o'simliklarda uzoq vaqt xizmat qilgan. Dastlabki semaforlar, shuningdek, simlarni qo'l bilan ishlashi va yomon ob-havo sharoitida ishonchliligi bilan cheklangan edi.^[4]^{:149, 170–171} Shunday qilib, ba'zi temir yo'llar diskli signallardan foydalanishni davom ettirdilar, bu erda qo'l blokirovka stantsiyalari o'rtasida avtomatik blokli signal ishlashiga ehtiyoj bor edi, chunki 1920-yillarga va undan keyingi davrlarga oid qoidalar kitoblarida tasdiqlangan.

1890-yillarning boshlarida ko'proq temir yo'llar kun davomida va noqulay ob-havo sharoitida minglab fut masofalarda ko'rinadigan elektr motorli semafor signallarini o'rnatishni boshladi. 1893 yilda yuqori kuchlanishli, elektr motorli avtomat blokli signalli semafor birinchi marta chiqdi. 1898 yilga kelib, US&S Style "B" semafori, birinchi muvaffaqiyatli past kuchlanishli, butunlay yopiq elektr motorli semafor mexanizmi paydo bo'ldi. Bu inqilobiy edi, barcha avvalgi semafor dizaynlarini takomillashtirdi, oxirgi misoli 2009 yilda, ilgari S.P.ning sobiq Siskiyou liniyasida, hozirgi CORPS xizmatidan olib tashlandi.

1872 yildagi temir yo'l bloklari tizimi paydo bo'lganidan beri ishlatilgan dvigatel tomonidan boshqariladigan Shimoliy Amerika semaforlari Buyuk Britaniya, Germaniya va boshqa joylarda bo'lgani kabi ish haqini kamaytirish va qo'lda ishlaydigan tizimlarda ishonchliligini oshirish uchun temir yo'llar tomonidan izlangan avtomatlashtirish shaklini taqdim etdi. Mitti signallari mexanik ravishda, pnevmatik tarzda, cheklash tipidagi signallarni berish uchun blokirovkalash paytida ustun tipidagi signallarni berish kabi ishlangan, ammo 1908 yilda Model 2A signali ishlab chiqilgandan keyin motorli mitti tez-tez uchragan. 1915 yildayoq texnologik surish - shunday intellektual Pensilvaniya shtatidagi RH vakili AH Rudd va uning tezlik signalizatsiyasi kontseptsiyasi, Pozitsiya nuri signalini ishlab chiqishi va Uilyam Cherchillning dublet linzalari kombinatsiyasidan foydalangan holda bir vaqtda rang-yorug'lik signallari bilan amaliy ravishda semaforni eskirgan qildi.

Semafor signallari deyarli butunlay Shimoliy Amerikada yorug'lik signallari bilan almashtirilgan, ammo ular tarkibida bir nechta muhim dizayn elementlari mavjud. Shimoliy Amerikada ishlatiladigan semafor tipidagi signallarning aksariyati va 2009 yilga qadar xizmatda saqlanib qolgan yagona tur - bu uchta pozitsiya, yuqori kvadrant xilma-xilligi. Pastki kvadrant navlari ko'pincha ikkita pozitsiyaga ega bo'lishadi, lekin uchta dumaloq, ikkitasi cheklovli rangga ega. Ushbu semafora tomoshasining 60-75 daraja pastki to'rtburchagi, uchta diafragma dizayni "Uzluksiz yorug'lik ko'zoynagi" nomi bilan tanilgan va 1902 yildagi Lori-Patenoll patentlangan, yuqori to'rtburchakning uchta pozitsiyasidan oldin paydo bo'lgan. Niyat buzilish ehtimolini kamaytirish yoki qor yog'ishi signalning gorizontal tomon qisman ko'tarilishiga olib keladi, ammo baribir eng cheklangan rangli tungi ko'rsatkichni aks ettiradi. Ushbu signallarning rangli tasvirlari buni uyning "Qizil-Qizil-Yashil" va uzoqdagi qurollarning "Sariq-Sariq-Yashil" 60 va 75 darajalarida universal ishlatilganligi (B&M, Central Vermont) L.Q. semaforalar. Uchta rangli 60 yoki 75 darajali signal ishlatilmagan. "Quyi Kvadrant" 90 daraja 3 darajali "standart" tomosha Lorre-Patenall U.Q. sifatida cheklangan dasturni (oxirgi Memfis, Tenn va Sent-Luis, Mo, Terminallarda ishlatilgan) ko'rdi. tomosha vizual masofani sezilarli darajada oshirdi.

Semaforaning pichoq qismi har xil ma'noga ega bo'lgan bir nechta naqshlardan iborat edi: - kvadrat uchi bo'lganlar "mutlaq" signallar va odatda poezdlarni eng cheklov holatida to'xtashga majbur qilishadi. "signallarni beradi va poezdni to'liq to'xtashga emas, balki ancha past tezlikda davom ettirishga imkon beradi. -" Baliq dumasi "bilan semaforlar (ya'ni, V-pog'onali uchi) muhandisga etkazadigan" uzoq "signallardir. semaforning rangi yuqoridagi toifalarga ham tez-tez mos keladi, chunki mutlaq signallar odatda qizil pichoqda oq chiziq, boshqalari esa qora chiziq bilan (ko'pincha takrorlanadi) pichoqning uchi shakli) kvadrat yoki 60 daraja, RSA standarti edi.

2014 yil iyul oyidan boshlab, sobiq AT&SF ning hozirgi BNSF temir yo'lining Glorietta dovoni, Las-Vegas va Nyu-Meksiko shtatidagi Vagon Mound orqali o'tadigan bir necha qismida 20 ga yaqin faol semaforalar mavjud.

Projektor signallari

A-da "bitta boshli" qidiruv signalining misoli Kanada milliy kirish Vinnipeg

1911 yilda doktor Uilyam Cherchill tomonidan Corning Glassning Nyu-Yorkdagi Korning shahridagi ilmiy-tadqiqot muassasasida "Doublet-Lens" kombinatsiyasini uzoq masofaga (kunduzi 2500 fut) patentlashi, temir yo'l foydalanishda semafor signalining hukmronligi tezda yaqinlashayotganini ko'rsatdi. oxiri. 1916 yilga kelib, ushbu optik birikma va sotuvga qo'yilgan javoblar boshqaruvini rag'batlantirdi Hall Signal kompaniyasi ularning yangi kiritilgan va eng zamonaviy "L" uslubidagi semafor mexanizmini (har qanday AQSh signal ishlab chiqaruvchi kompaniyasi tomonidan ishlab chiqarilgan eng so'nggi) amalga oshirish haqiqatan ham eskirgan edi. Ushbu ikkita linzali qurilma tomonidan ishlab chiqilgan Kornell universiteti Doktor Uilyam Cherchill ishlayotgan paytida Corning Glass Works. U Corning tomonidan 1905 yil 10-oktyabrda patentlangan temir yo'l shisha idishlari uchun rang me'yorlarini ishlab chiqishni tugatdi. Ular zudlik bilan kunduzgi yorug'lik masofasi va tunnel tipidagi elektr cho'g'lanma lampochkalari sifatida foydalanishga topshirildi. Keyin u o'z e'tiborini juda yaxshilangan optikadan foydalangan holda bir xil akkor elektr lampalar yordamida: "Dublet-Lens" kombinatsiyasidan foydalangan holda, o'rta va uzoq masofali Yorug'lik signallariga qaratdi.

Xollning (ular uchun) og'ir vaziyatga munosabati, janob Bleykdan "Izlash" signaliga 1918 yilda berilgan patentlarni sotib olish edi. Darhaqiqat, qidiruv signallari berkitilgan eski zalning yangilangan va zamonaviylashtirilgan o'zgarishi edi disk signali. Bleyk nima qilgan bo'lsa, standart temir yo'lning uchta pozitsiyasidan foydalanish edi qutblangan qanotli o'rni, miniatyura ko'zoynagi va Pyrex, past kengaytiruvchi Borosilikat shishadan yasalgan dumaloq va bu juda samarali elliptik reflektor va optik linzalar tizimiga ega bo'lgan juda katta 10-1 / 2 diametrli pog'onali tashqi linzalarni qo'shing. Ushbu inqilobiy rivojlanish, signal yorug 'yo'lda bo'lganida, kunduzi signaldan bir mil uzoqlikda ko'rinadigan ko'rsatkich bilan ta'minlandi. Dastlabki rangli yorug'lik signallari taxminan bir xil oqim sarfidan foydalangan holda (2500 fut) masofaning atigi yarmida ko'rinib turardi, keyin esa "Birlamchi akkumulyator hududi". 1925 yilga kelib, doktor Gage va Corning Glass tomonidan ishlab chiqarilgan "Yuqori transmissiya ranglari" temir yo'l shisha idishlari ushbu cheklangan masofani tanjen yo'lida maqbul raqobatdosh 3500 futgacha yaxshilab berdi.

1920 yilda yangi Hall Searchlight signallari taqdim etilganda, ko'plab muhandislarning yozgan javoblari klassik edi: "Ular eski" Hall Banjo Signal "ni olib, qabrdan tiriltirdilar va yoritdilar!"^{[iqtibos kerak ]} Buyuk Britaniyada asl elektromexanik qidiruv signallari nishon orqasida pichoqdan mahrum bo'lgan semafor ko'zoynagi ortiga o'rnatilgan kam quvvatli akkor lampochkadan iborat edi.^{[iqtibos kerak ]} Amerika Qo'shma Shtatlarida hamma joyda mavjud bo'lgan Union Switch and Signal Company qidiruv signalida tizim ishlamay qolsa, signalni qizil holatida mexanik ravishda tekislash uchun og'irlik tizimiga ega bo'lgan ichki kabel mavjud.

Projektor signalidan foydalanish asosan ularning nisbatan past texnik xizmat ko'rsatishi, yuqori ko'rinadiganligi, kam quvvat sarfi va 1932 yildan keyin 4 vattli, 3 voltli lampochkali birikma linzalardan foydalanganligi sababli keng tarqaldi, bu batareyali signalizatsiya bilan ishlaydigan hududda juda yaxshi ishladi. Bundan tashqari, bitta ob'ektiv ustun va boshqa signal boshlariga nisbatan belgilangan joyda bir nechta boshni bir-biriga bog'laydigan signallarga ko'rsatma beradi, bu bir nechta linzalarning rangli yorug'lik signallari bilan bog'liq emas. Vaqt o'tishi bilan ancha qimmat proyektor signalining o'rni xarajatlari ixcham o'lchamlari va bitta lampochkadan tejashdan oddiy ko'p linzali rangli yorug'lik signallari bilan taqqoslaganda oshib keta boshladi. 1980-yillarning oxiriga kelib proektor Shimoliy Amerikadagi eng mashhur signal uslubi sifatida o'z mavqeini yo'qotdi.^{[iqtibos kerak ]}

Harakatlanuvchi qismlar bilan bog'liq muammolarni bartaraf etish uchun yangi qattiq holat, bitta linzali signallar ishlab chiqildi. 1968 yilda "Unilens" deb nomlangan birinchi shunday mahsulot Safetran tizimlari, foydalanadi optik tolalar bitta ob'ektiv orqasida to'rttagacha yorug'lik manbasini to'plashni. Biroq, faqat qisqa masofani ko'rishni talab qiladigan past tezlik signallaridan tashqari, ular umuman muvaffaqiyatli bo'lmadi va aksariyati endi nisbatan qisqa umr ko'rgandan keyin magistral xizmatidan olib tashlanmoqda.^{[iqtibos kerak ]} To'rt jihatdan qobiliyatli, ko'pgina misollarda ikkita chiroq birligi bir vaqtning o'zida och qizil rangga ega bo'lib, eng cheklovli ko'rsatkichni bitta chiroq bo'linmasi yordamida olinganidan ko'ra ko'proq ingl.

Eng so'nggi yagona ob'ektiv, bir nechta aspektli signal texnologiyasi bir nechta ranglardan foydalanishni o'z ichiga oladi Nur chiqaradigan diodlar bitta teshikdan bir nechta ranglarni hosil qilish uchun umumiy tekislikka o'rnatiladi. Hozir Britaniyada standart rangli yorug'lik signallari mavjud bo'lsa-da, ular Buyuk Britaniyadan tashqarida keng tarqalmagan^{[iqtibos kerak ]}

Projektor signallari odatda katta dumaloq fon bilan o'rnatiladi, bitta yoki ikkita temir yo'l kichik maqsadni afzal ko'radi, masalan Nyu-York Markaziy 1950 yillarning o'rtalaridan boshlab Perlman ma'muriyati ostida.^{[iqtibos kerak ]}

Uchburchak rangli yorug'lik signallari

Maqsad uslubidagi rangli yorug'lik signallari SEPTA Asosiy yo'nalish

Uchburchak joylashtirilgan rangli yorug'lik signallari katta dumaloq nishonning o'rtasida joylashgan uchta rangli chiroq rozetkasining klasteridan iborat. Ular Nyu-York Markaziy va asosan qabul qilgan yuqori zichlikdagi rangli yorug'lik signallarining birinchi keng tarqalgan turlaridan biri bo'lgan Dengiz sohilidagi qirg'oq chizig'i temir yo'llari va keyinchalik faqat tomonidan ishlatilgan Konra va Nyu-Jersi tranziti.^[5]

Asl nusxa Bosh temir yo'l signali (GRS) "G" tipidagi dizayn uchburchak tartibda uchta dublet linzali birlikni o'z ichiga olgan quyma temir qutidan iborat edi. AQSh va S "TR" va "TP" modellarida umumiy fonga ega bo'lgan uchta kichik ulangan bitta chiroqli korpus ishlatilgan. Uzoq ishlamay qolgan Chikago Signal Company standart ichki teskari qavariq va zinapoyali linzalar o'rniga standart 5-3 / 8 "kalit chiroq linzalarini (ko'pincha Makbet ishlab chiqarishida) ishlatadigan versiyaga ega edi. keyinchalik GRS modeliga o'xshash bitta birlikka yangilandi.Modulli rangli yorug'lik signallari keng tarqalib ketganligi sababli, odatda vertikal turdagi konfiguratsiyalar bilan bir qatorda nishon tipidagi konfiguratsiyalar taklif qilindi.Uchburchak rangli yorug'lik signali, ayniqsa, jismoniy cheklangan va cheklangan joylarda juda foydali edi.^[5]

Vertikal rangli yorug'lik signallari

Moduli bo'lmagan 1, 2 va 3 chiroqli vertikal rangli yorug'lik boshlari

"Darth Vader" turi modulli rangli chiroqlar xizmatga kirishni kutmoqda

Pensilvaniya temir yo'lidagi yuqori signal "Yaqinlashish O'rta" ni aks ettiradi

Amtrak rang holatidagi chiroqlar Trenton, Nyu-Jersi

Yangi to'liq B & O uslubidagi CPL signali yoqildi CSX Carroll interlocking-da, Baltimor, Merilend

Baltimor shtatidagi Bailey-ning CSX-dagi CPL mitti signali

Vertikal rangli yorug'lik signallari rangli yorug'lik signallarining ikkinchi asosiy naqshidir va bugungi kunda Shimoliy Amerikadagi eng mashhur signal turini ifodalaydi.^{[iqtibos kerak ]} Ushbu signallar funktsiyasi bo'yicha uchburchak tipdagi rangli signaldan farq qilmaydi, lekin juda o'zgargan vizual ko'rinishga ega.

Yagona, optik rangli linzalardan va yo'naltirilgan lampochkadan ishonchli, uzoq masofali yorug'lik manbalari bilan bog'liq muammolar doimiy ravishda kunduzgi tashqi ilovalar yoki tunnellar va boshqa er osti yoki past tezlikli komplekslarga rangli yorug'lik signallaridan birinchi foydalanishni cheklab qo'ydi. 1911 yil Nyu-York Penn Stantsiyasi Loyiha ushbu rangli rangli signal signallaridan biri bo'lib, uning tashqi rangli 8 3/8 "optik linzalari mavjud bo'lib, ularning ba'zilari 2011 yilgacha xizmat qilmoqda.

Corning Glass Works-da Cherchill tomonidan dublet linzalarning ishlab chiqarilishi elektr yorug'lik manbai oldingi kunduzgi rangli yorug'lik signallari dizayniga qaraganda samaraliroq bo'lishiga imkon berdi. Ikkita asosiy turdagi holatlar mavjud: bitta kassa, ikkita yoki undan ortiq lampalar bitta quyma korpusga joylashtirilgan va har bir chiroq o'zboshimchalik bilan konfiguratsiya signaliga, shu jumladan uchburchakga o'rnatilishi mumkin bo'lgan mustaqil birlik bo'lgan modulli yorug'lik. . US&S R / R-2, P-2/5 va N uslublari bilan mashhur bitta kassa turiga ega, GRS esa uchburchak shaklida joylashgan G tipini taklif qildi, Chikago Signal Company esa shunga o'xshash versiyasini taqdim etdi. Bugungi Safetrans uchburchagi - bu GRS G tipidagi nusxa, lekin vertikal ravishda joylashtirilgan ikkita eshikli.

N / N-2 modeli kabi signallarni, shuningdek, mitti signal sifatida to'g'ridan-to'g'ri erga o'rnatilishi mumkin. Ushbu turdagi signallarning eng taniqli foydalanuvchisi Chesapeake va Ogayo, ammo butun mamlakat bo'ylab temir yo'llarda birliklarni topish mumkin edi.

Vaqt o'tishi bilan arzonligi va ko'p qirraliligi tufayli modulli rangli yorug'lik signali Shimoliy Amerikada standart bo'lib qoldi. Birinchi modulli tizim GRS turi "D" bo'lib, birinchi bo'lib 1922 yilda sotuvga chiqarilgan va Janubiy temir yo'l boshqalar bilan bir qatorda: D&RG va boshqalar. GRS birliklari taqqoslanadigan US&S vertikalidan kichikroq "fon" dan foydalangan, ehtimol uzoq masofalarga ko'rinishni biroz pasaytirgan. Bugungi kunda Shimoliy Amerikadagi eng mashhur yangi signal turi - bu Safetran tomonidan ishlab chiqarilgan modulli dizayn, chunki u eng arzon, chunki barcha to'rtta asosiy 1-temir yo'llar uni deyarli faqat o'rnatgan.^{[iqtibos kerak ]} Bugungi kunda GRS ham Safetran bozorida ham yuqori va mitti signallar uchun modulli tizimlar ajratilgan, US&S esa bitta modulli Style "R-2" dizaynidan yuqori va Style N-2 dan mitti uchun foydalanadi.

Modulli rangli chiroqlar rangli chiroqlarga xos bo'lgan barcha xarajatlarni tejashga imkon beradi, shuningdek temir yo'llarning signallarni to'ldirishini va blokirovkalarni o'zgartirishni osonlashtiradi. Maxsus boshlarni buyurtma qilish o'rniga yangi signallarni yaratish yoki mavjud boshlarni o'zgartirish uchun yangi modullarni zaxiradan olish mumkin.

Oddiy braketka yordamida ushbu standartlashtirilgan komponentlar bilan hatto uchburchak rangli yoritgichlar ham o'rnatilishi mumkin.

Zamonaviy modulli rangli yorug'lik signallarining yana bir keng tarqalgan xususiyati - bu quyoshli quyoshli sharoitda ko'rinishni yaxshilaydigan to'liq uzunlikdagi quyosh soyasi. Ushbu soya birinchi navbatda Union Tinch okeani tomonidan ishlab chiqilgan bo'lib, bir soyada qor to'planib qolishi uning ustidagi signal linzalarini yashirmasligi uchun. Soya ko'rinishi tufayli ushbu turdagi signallarga taxallus berilgan Darth Vader aniq temir yo'l ixlosmandlari.

Yorug'lik signallarini joylashtiring

Joylashgan yorug'lik signallari yuqori kvadrant semafor pichog'ining holatini simulyatsiya qilish uchun 5,375 dyuym (13,65 sm) diametrli lampalardan foydalanadi. Joylashuv chiroqlari signalizatsiya boshlig'i A.H.Rudd tomonidan ishlab chiqilgan Pensilvaniya temir yo'li (PRR). Ular 1915 yilda semafor signallarining o'rnini bosuvchi sifatida kiritilgan Asosiy yo'nalish o'rtasida Paoli va Filadelfiya semafor signallari talab qilinadigan texnik xizmatni kamaytirish va yangi elektrlashtirish loyihasi tufayli ko'rinadigan muammolarni kamaytirish uchun. Dastlabki tizimda to'rtta chiroq satrlari ishlatilgan. Keyinchalik tizim umumiy chiroq markazini o'rab turgan uchta chiroq qatoridan foydalanishga qisqartirildi. Bu to'rt nurli variantning unchalik katta bo'lmagan va qabr toshi shaklidagi "suzib yurish" ta'sirini pasaytirdi. Dastlabki o'rnatishda temirdan yasalgan temir tayanchning oldida turgan lampalar ishlatilgan, ammo ko'p o'tmay, yangi dumaloq fon har bir satr moslamasi uchun kamaytirilgan 3 chiroqqa va to'g'ridan-to'g'ri deb nomlangan ramkaning tagiga o'rnatildi. "o'rgimchak".^[6]

Har bir pozitsiya chiroq birligi 12 voltli, 6 bilan jihozlangan sham kuchi parabolik oyna oldiga o'rnatilgan lampochka nisbatan kuchsiz lampochkaning intensivligini oshiradi. Fantomik ko'rsatmalarga yo'l qo'ymaslik uchun dizayn maxsus teskari tomonni ishlatadi torik ob'ektiv (ya'ni bitta aniq Fresnel ob'ektiv o'rnatilgan qadam tomonlari tashqariga) linzalar zinapoyalarining bir qismi qora rangga bo'yalgan. Muzli uchi bo'lgan och sariq rangli rangli konusning oynasi tanlangan, chunki bu rang Korningda o'sha paytdagi empirik tadqiqotlar asosida tuman sharoitida eng yuqori ko'rinishga ega ekanligi aniqlangan.^[7]

Standart yuqori darajadagi yorug'lik ikki boshdan iborat; agar kerak bo'lmasa pastki bosh qorong'i bo'lib qolishi mumkin. PRR yuqori mavqeli yorug'lik signallaridan tashqari mitti pozitsiya nurini ham ishlab chiqdi, chunki ko'plab temir yo'llarda bo'lgani kabi, bu mitti signallarni 19-asrda aylanib yurgan "Pot tipidagi signal" an'anasi ham "qozon" deb atashadi. To'rtta oddiy oq lampalar ikkita chiroq bilan har birida past tezlikli to'rtta tomonni namoyish etishga qodir. 1930 yilda Filadelfiyaning yaqin masofalari Shahar atrofidagi stantsiya umumiy gips tayanchidagi ikkita pozitsion mitti signallardan iborat bo'lgan postament tipidagi holatni murakkab rivojlanishiga olib keldi.^[7]

PRR tipidagi pozitsiya chiroqlari ulkan PRR tizimida ham ishlatilgan Long Island temir yo'l yo'li (LIRR), PRR filiali va Norfolk va G'arbiy, uchdan bir qismi PRRga tegishli edi. US&S klassik pozitsiyali yorug'lik uskunalarini yagona etkazib beruvchisi edi, chunki ushbu ishlab chiqaruvchi zavod ilgari P.R.R.ning to'rtta magistral yo'lida joylashgan edi. Swissvale, Pa.^[7]

1954 yilda PRR Overbrook blokirovkasida mutlaq Stop signallarining masofadan ko'rinishini oshirishga yordam berish uchun qizil bosh linzalarini yuqori boshning gorizontal holatiga o'rnatishni tajriba qildi.^[8] Ostida Penn Markaziy va keyinroq Konra it became standard practice to add these red lenses to high position lights and even some pedestal signals. The Norfolk and Western modified its signals to use red and green lenses in the upper head Stop and Clear positions and yellow lenses everywhere else. In the 1980s Amtrak modified most of its former-PRR position lights to use the equivalent color light colors in all of the positions of both heads. Internally referred to as position color lights, these are not to be confused with color position lights described below, which while functionally similar are structurally considerably different.^[7]

New PRR type position lights continued to be installed up until the 1980s on former Konra tizimlar. Today most of the old PRR position lights are slowly being replaced by modern color lights, but Amtrak, SEPTA and the LIRR continue to install new position lights (Amtrak's being of the colorized variety). US&S no longer manufactures position light equipment, but updated models from Safetran continue to be available.^[7]

Color position light

The color position light (CPL) signal was developed by Frank Patenal, superintendent of signaling of the Baltimor va Ogayo (B&O) railroad, circa 1918. He also developed a proprietary signal aspect system to replace the earlier A.H. Rudd, ARA standard signaling system (PRR-based) then in use. The CPL system was unique in that it was a conceptually original design instead of being an update of an existing system. The CPL system incorporates several design principles that are otherwise unique to North American signaling. Use of the color red only in the case of an absolute stop or restricted speed situation is the most significant characteristic. The other 11 standard possible combinations do not display a red aspect.^[9]

The CPL consists of a central position target with up to four pairs of doublet lens units around the perimeter of the background disc. The lens units are spaced at 45-degree axes using the positions: green |, yellow /, red—and a lunar white for restricting also being present in some installations. The main head is surrounded by up to 6 markers at the 12:00, 2:30, 4:30, 6:00, 8:30 and 10:30 o'clock positions. The function of the main head was block occupancy information with green representing two or more clear blocks, yellow one clear block and red/lunar white representing a restricting indication, meaning the engineman was permitted to enter his train into an occupied block. The orbitals provide speed information, 12 o'clock being Normal speed, 6 being Medium speed (Limited speed if flashing), 10 being Normal to Medium (Limited if flashing), 2 being Normal to Slow, 8 being Medium to Medium, 4 being Medium to Slow and no lit orbitals being Slow to Slow.^[9]

B&O CPL signal, yellow in Staten Island, 2018

This CPL was first deployed on the Staten Island Railroad (a B&O subsidiary) in the 1920s, and deployed system-wide shortly thereafter. Ning qismlari Chikago va Alton temir yo'llari received CPLs later, when the B&O gained control of that line. In the 1980s both Amtrak's Chikago Union Station va Metra "s Chicago Northwestern Station installed dwarf CPLs to replace earlier signals in those terminals.^[9]

As of 2008 and as with all U.S. Railroads, CSX is slowly replacing all of the remaining CPLs on its system with contemporary vertical color light LED signals. The signals on the old Alton temir yo'li have also been almost entirely replaced as have many of the CPL dwarfs at the two Chikago terminallar. The sole exception is the Staten Island Railroad, which recently upgraded its signaling system with new CPLs using modern Safetran position light equipment.^[9]

Obsolete mechanical and electrical signals

Early mechanical signals

The first signals employed on an American railroad were a system of flags used on the Newcastle and Frenchtown Turnpike and Rail Road 1830-yillarda. The railroad then developed a more effective system consisting of wooden balls, painted red, white or black, and hoisted up or down a pole on a rope-and-pulley system. The initial use of these signals was merely to indicate the on-time status of trains, rather than to control train movements. The wooden balls were often configured with lanterns for nighttime use.^[10]^:18 Ball signals were first used to direct train movements in 1852, on the New York and New Haven Railroad.^[4]^:134 Other mechanical signals used during the 19th century include:

A 4 feet (1.2 m) disc, painted red and mounted on a revolving pole; it indicated "stop" when positioned to face an approaching train.
A pivoted board, called a "smashboard," which could be operated to swing into position across the track.^[4]^:136
The O'qish temir yo'li used vane signals mounted on wooden towers. Painted boards (vanes) of various colors were moved into position to signify danger (stop), caution, and safety (proceed). The vanes were illuminated at night by lanterns.

Wooden ball signal
A smashboard installation on the approach to a swingbridge
Vane signal mounted on a tower

Hall disc signal

Hall disc signals

The Hall disc signal (also called a "banjo" signal) was the first electrically operated signal to be widely adopted by American railroads. Thomas Hall patented his disc signal design in 1867.^[4]^:146–147

A banjo-shaped wooden case housed a large iron wire hoop with red silk stretched and glued over it. The opposite end had a much smaller hoop in which a very thin disc of colored glass was secured. This entire iron wire assembly was pivoted inside an elektromagnit on what was known as a "Z" armature which was wound with copper magnet wire. When the coil was energized, the wire hoops were moved away from the large glass opening in the front of the wooden "banjo" case exposing its white painted insides. The colored glass disc at the same time moving away from a clear primitive Fresnel lens at the top of the case which was backed up on the rear side of the case with a kerosene lamp.^[11]^:271 The disc signal was first placed into service in 1870 on the New York and New Haven Railroad at Stemford, Konnektikut, using a track treadle device to activate it, as the revolutionary track circuit was not developed until 1872 by Dr. William Robinson.^[12]^[13]

The Hall Signal kompaniyasi installed the disc signals as part of automatic block signal systems, initially utilizing line wire circuits, running on poles alongside the tracks, connecting the track treadle devices. One of the earliest such systems was installed in 1871 on the Eastern Railroad (keyinchalik Boston va Meyn ).^[14]^:18 About 1500 disc signals were operational by 1896.^[15]^:80

The all-metal US&S Enclosed Disc Signal was introduced in 1896 and had one version that employed both a red and a green banner (as well as both colored glasses) that were mechanically arranged in such a way as to have the banners and glass roundels exchange places within the signal case as the indication required.

Extant mechanical and electrical signals

There are examples of various mechanical and electrical signals in several railway museums and in the collections of a very few railroad enthusiasts. These include signals that were manufactured by US&S, GRS, Hall and even the Federal Signal Company. The Hall Company's 1924-introduced variant of the dwarf "Position Color Light" signal (or "PCL" as they were referred to at that time) are among the most rare and sought after by collectors, as are the extremely rare mechanical dwarf semaphores of the T. George Stiles Company. These signals were installed at the beginning of the 20th century by the New Haven Railroad and used into the 1980s.

Common signal rule classes

Most North American railroads have between 10 and 20 separate signal rules, each which are often represented by multiple aspects. However, all of these complicated rules revolve around the simple premise of informing the locomotive engineers how they are to operate their train in the present location, and what they are to expect at the next signal location.^[16] From here the large set of rules and aspects can be broken down into a small number of classes which are common to all North American signaling systems.^{[iqtibos kerak ]}

Automatic Block - Block aspects convey basic track occupancy information and advise the engineer (operator) which of the basic signal rules (common to all railroads) he/she is to follow in the operation of his/her train at any point on the railway line. These include Clear, Advance Approach and Approach which instruct the engineer to "expect no stop", "expect stop at second signal" and "expect stop at next signal" respectively. Advance approach is only used in situation with short signal blocks to ensure trains have enough stopping distance. These are the most common signal aspects in North America and are the only aspects most automatic block signals need to display.
Approach at Speed - When a train needs to be told to slow down due to dynamic conditions an "Approach Speed" aspect is used. These inform the engineer to slow to a prescribed speed by the next signal. The most common reason for this is that the train is to take a diverging, or non-Normal speed route at the next interlocking. Signals of this type include Approach Medium, Approach Limited, Approach Slow and Approach Diverging. These signals are typically displayed on the distant signal to an interlocking, but can sometimes be used with short signal blocks in place of Advance Approach.
Diverge to Clear - This class appears only on absolute signals and informs the engineer that the train will be taking a diverging route and need not expect a stop at the next signal. In speed signaling the engineer is informed of the speed the train needs to take the route at, in weak route signaling the engineer is just informed of a diverging route. Signals in this class include Medium Clear, Slow Clear, Limited Clear and Diverging Clear.
Diverge to Stop - Same as above only the train can expect to stop at the signal after the interlocking. These signals include Medium Approach, Slow Approach and Diverging Approach.
Combination Signals - These combine functions of a "Diverge to" signal with an "Approach Speed" signal and occur in areas of complex trackwork where there are no intermediate signals between one interlocking and the next. In the United States only a few combination signals like Medium Approach Medium, Medium Approach Slow and Diverging Approach Medium/Slow are ever found in rulebooks and not frequently used in practice. The Canadian standard rulebook contains signal rules and aspects for every possible combination.^[17]
Restricted Speed Signal - This class of signals is displayed for trains moving into a block where a track circuit has been de-energized or does not exist. A "shunted" track circuit indicates either the block is occupied by another train or railcar, or there is a problem such as a broken rail or flooded track. Where a track is not protected by track circuits that track must be presumed to be occupied. As the name implies this signal requires trains to move at Restricted speed, specifically with the ability to stop short of an obstruction. Restricted speed signals take many forms including Restricted and Restricted Proceed where trains must simply pass the signal at restricted speed and also Stop and Proceed, where a train must come to a complete stop before proceeding at restricted speed. Stop and Proceed has fallen out of favor with most freight railroads due to the fuel and time savings of allowing the trains to not come to a complete stop. This aspect class can be displayed on almost all railroads in North America.
Stop Signal - Stop signals are displayed on Absolute signals, in fact the ability to display an absolute Stop is part of that signal type's definition. Stop is the most important signal as passing a signal at Stop presents a serious risk of accident. Engineers committing a Stop signal violation automatically have their Federal certification suspended and are frequently fired. Stop signals can only be passed upon special permission from a control authority.
Cab Signaling Signals - Where cab signaling is employed without fixed trackside automatic signals, special signal aspects are required at absolute signals. These include some sort of absolute block "Super Clear" signal that allows passage to the next interlocking with a fixed signal and also the "Cab Speed" signal that informs the engineer to proceed under direction of cab signals.

Distant (approach) signals

A pair of distant signals on the NJT RiverLINE engil temir yo'l. Note the 'D' boards placed in accordance with the NORAC "Distant Signal Rule."

A distant signal can either be an automatic signal before an interlocking, or the interlocking signal itself when interlockings are back to back. Distant signals typically display more aspects than a typical block or interlocking signal to warn trains of diverging movements at the next interlocking however this is not always the case if there are no diverging paths available.^{[iqtibos kerak ]}

Distant signals are often referred to as Approach Signals as the signal block before the interlocking is known as the approach block. When a train enters the approach block any route lined up at the interlocking will become locked in place until a timer is run to prevent routing a conflicting movement without giving the approaching train adequate time to come to a stop.^{[iqtibos kerak ]}

In the aftermath of the 1996 Silver Spring Collision, Federal temir yo'l boshqarmasi amended its regulations for push-pull train operation to prevent locomotive engineers from forgetting that they were approaching a stop signal after making a station stop. The resulting "Delay in Block Rule" requires that all distant signals, located in territory where push-pull trains operate in the absence of cab signals, be marked with a "D" placard. The placard is intended to remind engineers that they are bound by a 40 miles per hour (64 km/h) speed restriction, and must approach the interlocking signal prepared to stop, whenever a station stop is made or train speed drops below 10 miles per hour (16 km/h) in the approach block. The restrictions hold until the interlocking signal is clearly visible and is displaying a "proceed" indication.^[18]

Adabiyotlar

^ Bej, Mark D. "Significance of Signal Components (N. America)." Railway Signalling and Operations FAQ. 1997-04-16.
^ Bej, Mark D. "Learning the ('typical' US) Aspects." Railway Signalling and Operations FAQ. 1996-11-15.
^ Todd Sestero, ed. (2019-02-14). "Discussions on Blue and Purple Lenses". Railroad Signals of the U.S. Olingan 2020-07-05.
^ ^a ^b ^v ^d ^e ^f Bianculli, Anthony J. (2003). "Volume 4. Bridges and Tunnels; Signals". Trains and Technology: The American Railroad in the Nineteenth Century. Cranbury, NJ: Associated University Presses. ISBN 0-87413-803-5.
^ ^a ^b http://www.railroadsignals.us/signals/trilights/index.htm
^ Pennsylvania Railroad Technical & Historical Society, Philadelphia Chapter (2008). "PRR Position Light Signal System." Based on the original article by Edward Waytel. 2008-10-28.
^ ^a ^b ^v ^d ^e http://www.railroadsignals.us/signals/pl/pl.htm
^ Penn Central Railroad (1972). "Harrisburg Division-East; "Overbrook" Interlocking Station and Jeff & Valley Interlockings." Signal diagram. 1972-01-01.
^ ^a ^b ^v ^d http://www.railroadsignals.us/signals/cpl/index.htm
^ Solomon, Brian (2003). Railroad Signaling. MBI nashriyoti. p. 55. ISBN 978-0-7603-1360-2.
^ King, Everett Edgar (1921). Railway Signaling. Nyu-York: McGraw-Hill.
^ New Haven Railroad Historical and Technical Association. "New Haven Railroad Historical Events (p.4)." Accessed 2011-10-12.
^ American Railway Association, New York (1922). "The Invention of the Track Circuit."
^ American Practice in Block Signaling. New York: Railroad Gazette. 1891 yil.
^ Elliott, W. H. (1896). Block and Interlocking Signals. New York: Locomotive Engineering.
^ Bej, Mark D. "RR Signal Aspect Speed Table (N. America)." Railway Signalling and Operations FAQ. 1997-03-31.
^ http://www.trainweb.org/railwayop/Signals2/signal2a.html Arxivlandi October 11, 2004, at the Orqaga qaytish mashinasi
^
U.S. Federal Railroad Administration (FRA), Washington, D.C.
- Emergency Order No. 20, Notice No. 1 (1996-02-20). "Commuter and Intercity Passenger Railroads, Including Public Authorities Providing Passenger Service, and Affected Freight Railroads Emergency; Order Requiring Enhanced Operating Rules and Plans for Ensuring the Safety of Passengers Occupying the Leading Car of a Train."
- Emergency Order No. 20, Notice No. 2 (1996-03-05). "Commuter and Intercity Passenger Railroads, Including Public Authorities Providing Passenger Service, and Affected Freight Railroads; Clarification of Emergency Order Requiring Enhanced Operating Rules and Plans for Ensuring the Safety of Passengers Occupying the Leading Car of a Train With Appropriate Amendments." Federal Register, 61 FR 8703-06.

Armstrong, John (1957). "All About Signals." Two-article series. Poezdlar Jurnal, June and July 1957.
"Canadian Railway Operating Rules - CROR Signal Aspects." 2010-02-01.
Pennsylvania Railroad (1964). "Rules for conducting transportation." 1964-08-25.
Pennsylvania Railroad (1968). "Rules for conducting transportation." 1968-04-28

Tashqi havolalar

[1] Bej, Mark D. "Significance of Signal Components (N. America)." Railway Signalling and Operations FAQ. 1997-04-16.

[2] Bej, Mark D. "Learning the ('typical' US) Aspects." Railway Signalling and Operations FAQ. 1996-11-15.

[SesteroPurple-3] Todd Sestero, ed. (2019-02-14). "Discussions on Blue and Purple Lenses". Railroad Signals of the U.S. Olingan 2020-07-05.

[Bianculli-4] v ^d ^e ^f Bianculli, Anthony J. (2003). "Volume 4. Bridges and Tunnels; Signals". Trains and Technology: The American Railroad in the Nineteenth Century. Cranbury, NJ: Associated University Presses. ISBN 0-87413-803-5.

[Tri-5] ttp://www.railroadsignals.us/signals/trilights/index.htm

[6] Pennsylvania Railroad Technical & Historical Society, Philadelphia Chapter (2008). "PRR Position Light Signal System." Based on the original article by Edward Waytel. 2008-10-28.

[PRRPL-7] v ^d ^e http://www.railroadsignals.us/signals/pl/pl.htm

[8] Penn Central Railroad (1972). "Harrisburg Division-East; "Overbrook" Interlocking Station and Jeff & Valley Interlockings." Signal diagram. 1972-01-01.

[BnOCPL-9] v ^d http://www.railroadsignals.us/signals/cpl/index.htm

[Solomon-10] Solomon, Brian (2003). Railroad Signaling. MBI nashriyoti. p. 55. ISBN 978-0-7603-1360-2.

[King_1921-11] King, Everett Edgar (1921). Railway Signaling. Nyu-York: McGraw-Hill.

[12] New Haven Railroad Historical and Technical Association. "New Haven Railroad Historical Events (p.4)." Accessed 2011-10-12.

[13] American Railway Association, New York (1922). "The Invention of the Track Circuit."

[American_Practice_1891-14] American Practice in Block Signaling. New York: Railroad Gazette. 1891 yil.

[Elliott_1896-15] Elliott, W. H. (1896). Block and Interlocking Signals. New York: Locomotive Engineering.

[16] Bej, Mark D. "RR Signal Aspect Speed Table (N. America)." Railway Signalling and Operations FAQ. 1997-03-31.

[17] ttp://www.trainweb.org/railwayop/Signals2/signal2a.html Arxivlandi October 11, 2004, at the Orqaga qaytish mashinasi

[18] U.S. Federal Railroad Administration (FRA), Washington, D.C.
Emergency Order No. 20, Notice No. 1 (1996-02-20). "Commuter and Intercity Passenger Railroads, Including Public Authorities Providing Passenger Service, and Affected Freight Railroads Emergency; Order Requiring Enhanced Operating Rules and Plans for Ensuring the Safety of Passengers Occupying the Leading Car of a Train."
Emergency Order No. 20, Notice No. 2 (1996-03-05). "Commuter and Intercity Passenger Railroads, Including Public Authorities Providing Passenger Service, and Affected Freight Railroads; Clarification of Emergency Order Requiring Enhanced Operating Rules and Plans for Ensuring the Safety of Passengers Occupying the Leading Car of a Train With Appropriate Amendments." Federal Register, 61 FR 8703-06.

[19] Emergency Order No. 20, Notice No. 1 (1996-02-20). "Commuter and Intercity Passenger Railroads, Including Public Authorities Providing Passenger Service, and Affected Freight Railroads Emergency; Order Requiring Enhanced Operating Rules and Plans for Ensuring the Safety of Passengers Occupying the Leading Car of a Train."

[20] Emergency Order No. 20, Notice No. 2 (1996-03-05). "Commuter and Intercity Passenger Railroads, Including Public Authorities Providing Passenger Service, and Affected Freight Railroads; Clarification of Emergency Order Requiring Enhanced Operating Rules and Plans for Ensuring the Safety of Passengers Occupying the Leading Car of a Train With Appropriate Amendments." Federal Register, 61 FR 8703-06.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]

[10]

[11]

[12]

[13]

[14]

[15]

[16]

[17]

[18]

Temir yo'l signalizatsiyasi
Bloklash tizimlari	Mutlaq blok signalizatsiyasi Avtomatik blokirovka signalizatsiyasi Markazlashtirilgan transportni boshqarish Aloqa asosida poezdlarni boshqarish To'g'ridan-to'g'ri transportni boshqarish Evropa poezdlarini boshqarish tizimi Harakatlanuvchi blok Radio elektron token bloki Token Kafolatni boshqarish Poezdlarni buyurtma qilish jarayoni
Signalni boshqarish	Postni bloklash Integratsiyalashgan elektron boshqaruv markazi Interlocking Lever ramkasi Temir yo'llarni boshqarish markazi Qattiq jismlarning o'zaro bog'lanishi Westlock Interlocking
Signallar	Temir yo'l signallarini qo'llash Kabin signalizatsiyasi Shimoliy Amerika temir yo'l signallari Temir yo'l semafor signali
Poezdni aniqlash	Eksa hisoblagichi Yo'l davri O'chirish to'xtatuvchisi Yugurish
Poezdlarni himoya qilish	Fuqarolik tezligini ta'minlashning ilg'or tizimi ALSN ASFA Poezdlarni avtomatik boshqarish Poezdlarni avtomatik himoya qilish Poezdlarni avtomatik himoya qilish (Buyuk Britaniya) Poezdning avtomatik to'xtashi Avtomatik ogohlantirish tizimi Automatische treinbeïnvloeding Balise Ballarni ushlang Xitoy poezdlarini boshqarish tizimi Doimiy avtomatik ogohlantirish tizimi Contrôle de vitesse par balises EBICAB IIATS Integra-Signum Birgalikda ishlaydigan aloqa asosidagi signalizatsiya Timsoh Linienzugbeeinflussung Poezdlarni ijobiy boshqarish Pulse kodining kabinasi signalizatsiyasi Punktförmige Zugbeeinflussung RS4 Codici SelTrac Sistema Controllo Marcia Treno SACEM Slayd panjarasi Avtomatik to'xtash nazoratini o'rgating Poezdlarni himoya qilish va ogohlantirish tizimi Poezd to'xtashi Transmissiya balis-lokomotivi Transmissiya ovozli mashinasi
Signallarni kesib o'tish	Darajani kesib o'tish signallari Krossbuk Wigwag Elektron signal Yo'l shoxi
Ishlab chiqaruvchilar	Federal GRS Grisvold Zal Xitachi Magnit Progress Rail Safetran Saksbi Smit va Yardli Union Switch Westinghouse tormozi va signali Westinghouse Rail Systems
Tashkilotlar	AAR AREMA FRA HMRI IRSE Transport Kanada UIC
Mamlakatlar bo'yicha	Avstraliya Bavariya Belgiya Kanada Finlyandiya Frantsiya Germaniya Gretsiya Italiya Yaponiya Gollandiya Shimoliy Amerika Norvegiya Polsha Shvetsiya Shveytsariya Birlashgan Qirollik