Vintli uzatmalar ro'yxati - List of screw drives

"Frearson" qayta yo'naltirishlar. Janubiy Avstraliyaning noshirlari va matbaachilari Samuel, Septimus va Robert uchun qarang Frearson birodarlar.
Serialning bir qismi
Vintli haydovchi turlari
Yivli
Xoch shakli
Tashqi ko'pburchak
Ichki ko'pburchak
Hexalobular
Uch burchakli
Maxsus

A vintli haydovchi a ni aylantirish uchun ishlatiladigan tizimdir vida.[1][2] Hech bo'lmaganda, bu vida boshidagi shakllangan bo'shliqlar va chiqishlar to'plamidir moment unga qo'llanilishi kerak. Odatda, bu juftlikni ham o'z ichiga oladi vosita, masalan tornavida, uni aylantirish uchun ishlatiladi. Quyidagi boshchalar chastotasi bo'yicha toifalarga bo'linadi, kamroq tarqalgan disklarning ba'zilari "buzilishga chidamli" deb tasniflanadi.

Ko'pgina boshlar odatda "Phillips # 00" kabi raqamlar bilan ajralib turadigan o'lchamlarga ega. Ushbu o'lchamlar haydovchi shaklining ma'lum bir o'lchamini tavsiflashi shart emas, aksincha o'zboshimchalik bilan belgilanadi.

O'rnatilgan disklar

Slot haydovchi vositasi va vint o'lchamlari[3]
Pichoq kengligiVida kattaligi
yildamm
3322.40–1
183.22
5324.03
3164.84–5
146.46–7
5167.98–10
389.512–14
7161116–18
121318–24

Slot

Vintli bosh - Slotted.svg

Slot vintli drayvlar bitta gorizontal chuqurchaga ega ( uyasi) mahkamlagichning boshida va "umumiy pichoq" yoki tekis pichoq bilan boshqariladi tornavida. Ushbu forma ishlab chiqarilgan vintli qo'zg'aysan qo'zg'atuvchisining birinchi turi bo'lib, asrlar davomida bu eng sodda va eng arzon bo'lgan. Bunga qo'shimcha ravishda, u boshqa keng tarqalgan disklarga nisbatan noyobdir, chunki u uyaning boshini ishlab chiqarish uchun sodda va oddiy qo'l asbobini boshqarish qobiliyatiga ega. The teshikli vint odatda oddiy mahsulot bilan bir qatorda mavjud mahsulotlar va qurilmalarda uchraydi duradgorlik minimal darajada bo'lgan joylarda va ilovalarda moment kerak. Slot vintlari antiqa mebellar, transport vositalari va jihozlarni tiklashda ham qo'llaniladi.

Biroq, ushbu dizayn tomonidan o'rnatish uchun juda mos emas elektr asboblari, quvvat drayveri tez-tez uyadan chiqib ketishini hisobga olsak; bu ko'pincha vintni va atrofdagi materialni shikastlanishiga olib keladi. Shu sababli, xoch shaklida drayvlar bilan bir qatorda slot drayveri ko'plab dasturlarda. Uyani boshqarish uchun ishlatiladigan asbob a deb nomlanadi umumiy pichoq, yassi pichoq, boshcha, yassi uchi[3] yoki tekis bosh / yassi[4] tornavida. A bo'shliq tornavida kamroq bo'ladi chiqib ketish (burilish momenti eksenel kuchga aylantirilishi sababli uyani tark eting - xuddi Fillips haydovchisiga o'xshash, lekin faqat haydovchi pichog'iga bog'liq), shuning uchun burama vintning boshiga shikast etkazmasdan ko'proq momentni qo'llash mumkin. Yassi zargarning tornavidalari va uchlari 14-inch yoki 6,4 millimetrli qo'zg'aysan to'plamlari odatda bo'shliqli tuproqdir. Shuni esda tutingki, bu 9 ta tornavida kattaligiga 24 xil tirqishli vintni o'lchamlarini haydashga imkon beradi, bu esa kamchiliklari bo'sh tuproqli tornavida singari o'rnatilmasligi va mahkamlagichga yoki uning atrofiga zarar etkazish imkoniyatini oshiradi.

Yivli vintni mos keladigan tornavida uchun vaqtincha ushlab turishning kamida bitta mexanik usuli mavjud, bu Kedman kompaniyasi tomonidan 1950-yillarda ishlab chiqarilgan Quick-Wedge vintni ushlab turuvchi tornavida.[5]

Dzus mahkamlagichlari, burama korpus o'rniga kam-qulflash korpusiga ega bo'lgan, slot drayveridan foydalaning.

Tangalar uyasi

Vintli bosh - tanga Slot.svg

Chiqib ketishning pastki qismi egilganligi sababli tanga-uyali disklar deb ataladi va bu ularni mos keladigan haydashni osonlashtiradi. tanga. Ular tez-tez foydalanuvchida kerak bo'lganda tornavida bo'lmasligi mumkin bo'lgan narsalarda, masalan, kameralarni biriktiruvchi chuqur vintlardek ishlatiladi. tripod adapterlari va bolalar o'yinchoqlari kabi ba'zi jihozlarning batareyalar bo'linmalari.[iqtibos kerak ]

Salom-moment

Hi-Torque slot drayverlari Alcoa Fastening Systems tomonidan juda yuqori momentga ehtiyoj sezadigan holatlar uchun va mahkamlagichni qayta-qayta o'rnatish va echib olish imkoniyati bilan ishlab chiqilgan.[6] Dizayn tekis devorli slot haydovchisidan farqli o'laroq, egri devorlarga ega.

II toifa (Conical / Connie) dizayni haydovchiga markazlashtiruvchi pinni oladigan konusning stakanini qo'shib, harakatlantiruvchi vositaning mahkamlagich chuqurchasiga moslashishini yaxshilaydi.

Kesib o'tish

Vida boshi - cross.svg

A kesib o'tish yoki er-xotin uyasi vintli uzatgichda mahkamlagich boshida bir-biriga perpendikulyar ravishda yo'naltirilgan ikkita teshik bor; teshikli tornavida hali ham faqat bitta uyani haydash uchun ishlatiladi. Ushbu turdagi odatda arzon yasalgan tom yopish murvatlari va shunga o'xshash narsalarda uchraydi, bu erda 5 mm (0,20 dyuym) va undan yuqori ip katta tekislangan panning boshi. Afzallik shundaki, ular ortiqcha ish hajmini ta'minlaydilar: agar bitta tirqish xizmatida deformatsiya bo'lsa, ikkinchisi ishlatilishi mumkin va asbob siljishi mumkin emas.

Xoch shaklidagi disklar

Shuningdek qarang: O'zaro bog'langan, Torq o'rnatilgan va Fillips / kvadrat

Quyidagi a-ga asoslangan vintli drayvlar xoch shaklida shakli; ya'ni xoch shakli. Ushbu turdagi disklarning boshqa nomlari xoch chuqurligi, boshcha, o'zaro faoliyat uchiva o'zaro faoliyat nuqta. Ikkala teshikli vintli haydovchi xoch shaklida ko'rib chiqilmaydi, chunki shakli chuqurchaga ega emas va faqat ikkita ustma-ust qo'yilgan oddiy frezalangan uyalardan iborat. Ushbu turlardan ba'zilari ISO 4757 da ko'rsatilgan, Vintlar uchun o'zaro faoliyat chuqurliklar.


Fillips

Vida boshi - Phillips.svg
Phillips haydovchi vositasi va mahkamlagich o'lchamlari[3][7]
Haydovchi
hajmi		Yog'och vint
hajmi		Mashina vintining kattaligi
#0#0–1M1.6, M2 (Din: faqat M1.6)
yoki # 0, # 1
#1#2–4M2.5, M3 (din: shuningdek M2)
yoki # 2, # 3, # 4
#2#5–9M3.5, M4, M5
yoki # 5-10
#3#10–16M6
yoki # 12, 1/4 dyuym,
plyus 5/16 dyuymli bo'lsa
#4#18–24M8, M10
yoki 3/8 dyuym, 9/16 dyuym,
ortiqcha 5/16 dyuym
#55/8 dyuym, 3/4 dyuym.

The Fillips vintli uzatma (ANSI Type I Cross chuqurchasi sifatida ko'rsatilgan)[8]va ISO hujjatlarida H turini yozing.) Jon P. Tompson tomonidan ishlab chiqarilgan, u ishlab chiqaruvchilarni qiziqtirmasdan, dizaynini biznesmenga sotgan Genri F. Fillips.[9][10] Fillips kompaniyani tashkil etganligi sababli (Phillips Screw Company ), dizaynini takomillashtirish va uning mahsulotini qabul qilishni targ'ib qilish.[9] Patentning asl nusxasi[11] 1966 yilda tugagan, ammo Phillips Screw Company takomillashtirilgan dizaynlarni ishlab chiqishda davom etdi.[9]

The American Screw Company ning Providens, Rod-Aylend, vintni samarali ishlab chiqarish vositasini ishlab chiqish uchun mas'ul bo'lgan va ularning usullarini muvaffaqiyatli patentlab, litsenziyalashgan; 1930-yillarning boshqa vida ishlab chiqaruvchilari Fillips kontseptsiyasini rad etishdi, chunki u vintning boshida nisbatan murakkab chuqurlashtirilgan rozetkaning shaklini talab qildi - bu vintli vintning oddiy frezalangan uyasidan farq qiladi. Fillipsning vintli konstruktsiyasi teshikli vintlar bilan bog'liq bir nechta muammolarni to'g'ridan-to'g'ri hal qilish uchun ishlab chiqilgan: ko'paytirildi chiqib ketish salohiyat; siljish va haydovchiga, mahkamlagichga va qo'shni sirtlarga zarar etkazmaslik uchun zarur bo'lgan aniq hizalama; va ishlaydigan vositalar bilan haydash qiyinligi.

Phillips haydovchi bitlari ko'pincha "PH" harflari bilan belgilanadi,[9] ortiqcha 0000, 000, 00, 0, 1, 2, 3 yoki 4 o'lchamdagi kod (kattalashtirish tartibida); raqamli bit o'lchamlari kodlari vint o'lchamdagi nominal raqamlarga mos kelmasligi shart.[3][12]

Fillips vintli boshi PoziDrivdan sezilarli darajada farq qiladi;[9] qarang § Pozidriv batafsil ma'lumot uchun quyidagi bo'lim.

Dizayn ko'pincha moyilligi uchun tanqid qilinadi chiqib ketish boshqa "o'zaro faoliyat kallak" konstruktsiyalariga qaraganda past moment momentlarida. Uzoq vaqtdan beri bu a. Degan mashhur e'tiqod mavjud qasddan dizaynning o'ziga xos xususiyati, alyuminiy samolyotlarni mahkamlagichlarni ortiqcha tortmasdan yig'ish.[13]:85[14] Ushbu aniq bayon uchun keng dalillar etishmayapti va bu xususiyat asl patentlarda qayd etilmagan.[15] Biroq, 1949 yilgi AQSh Patentidagi № 2.474.994-da tasvirlangan original dizayndagi takomillashtirish[16][17][18] ushbu xususiyatni tavsiflaydi.

Pozidriv

Vintli bosh - Pozidrive.svg


Pozidriv boshi bilan vintlardek
Pozidriv vintli va tornavida

The Pozidriv (ba'zan noto'g'ri yozilgan "Pozidrive") - bu Phillips vintli haydovchisining takomillashtirilgan versiyasi. Bu tomonidan "IA IA" nomi berilgan ANSI standartlar.[19] va ISO hujjatlaridagi "Z turi" Pozidriv tomonidan patentlangan GKN Vintlar va mahkamlagichlar 1962 yilda.[20][21] U Fillips drayverlariga qaraganda ko'proq momentni qo'llash va ulanish imkoniyatini ta'minlash uchun ishlab chiqilgan. Natijada, Pozidrivning ehtimoli kam chiqib ketish.[9][22][23] Bu Supadriv vintli haydovchiga o'xshash va mos keladi.[24]

Pozidriv tornavidalari tez-tez "PZ" harflari yordamida belgilanadi, so'ngra 0, 1, 2, 3, 4 yoki 5 o'lchamdagi kod (kattalashtirish tartibida).[9] Raqamlar nominal vint o'lchamdagi raqamlarga mos kelmaydi. PZ1 odatda vida diametri 2-3 mm, PZ2 3,5-5 mm va PZ3 5,5 mm dan 8 mm gacha ishlatiladi. Ushbu o'lchamlar taxminan Fillipsning bosh raqamlariga to'g'ri keladi.

Pozidriv vintlari vintning bosh qismidagi asosiy xoch chuqurchadan 45 ° ga o'rnatilgan radiusli chuqurchalar to'plamiga (belgilash belgilari) ega, bu ularni Fillips vintlaridan ingl.[9]

Fillips tornavidasida biroz toraygan qanotlari, uchi uchi va burchaklari yumaloq bo'lsa, Pozidriv tornavidasida asosiy uyalariga 45 ° da parallel qanotlari, to'mtoq uchi va qo'shimcha kichikroq qovurg'alari mavjud. Pozidriv tornavida uchlari uchun ishlab chiqarish jarayoni Fillipsnikiga qaraganda biroz murakkabroq to'sarni talab qiladi, ammo ikkalasi ham toraytirilgan bo'shliqdan to'rtta kesmada tayyorlanishi mumkin.

Pozidriv va Fillips bir-birining o'rnini bosadigan ko'rinadi, ammo noto'g'ri ishlatilsa zarar etkazishi mumkin. Pozidriv tornavidalari Fillips vintlariga yopishib qoladi, lekin mahkamlanganda ular Flipps vintining boshini siljitishi yoki uzib tashlashi mumkin. Aksincha, Fillips tornavidalari Pozidriv vintlarini bo'shashtirganda va burab qo'yganda, etarli moment ishlatilsa, ular vintlardek vintning boshiga yoki tornavidaga zarar etkazishi mumkin.[9][22]

JIS B 1012

Vida boshi - JIS B 1012.svg
JIS xoch shaklidagi haydovchining o'lchamlari[1]
Haydovchi
hajmi		Mashina vidası
hajmi
#000
#00
#0
#1M2, M2.2, M 2.5
#2M3, M3.5, M4, M4.5, M5
#3M6, M8

The JIS B 1012 odatda kameralar va mototsikllar kabi Yaponiyada ishlab chiqarilgan uskunalarda uchraydi. Yuzaki u kamroq va kamroq vertikal teshiklari bo'lgan Fillips vintiga o'xshaydi chiqib ketish. Chuqurchaning pastki qismi tekis bo'lib, haydovchining nuqtasi to'mtoq bo'lishi kerak. Fillips tornavidasi xuddi shu 26,5 daraja konusning burchagiga ega, ammo toraygan teshiklari va uchi uchi to'liq o'tirmaydi va majburan vintni shikastlaydi. To'g'ri o'lchamdagi JIS drayveri to'liq chuqurlikda Fillips yoki Pozidriv bosh vintiga kiradi. bo'shashmasdan, ammo zarar etkazmasdan. JIS boshlari ko'pincha bitta nuqta yoki o'zaro faoliyat tirgakning bir tomoniga "X" belgisi bilan aniqlanadi.[25]

Ushbu turdagi vintlar uchun "JIS" standartlashtirilgan xochsimon pichoqli tornavidalar mavjud va ular har doim bosh va haydovchiga shikast etkazmaslik uchun ishlatilishi kerak.

Supadriv

Vintli bosh - Supadrive.svg

The Supadriv (ba'zan "Supadrive" deb noto'g'ri yozilgan) vintli haydovchi funktsiyasi va tashqi ko'rinishi jihatidan Pozidrivga juda o'xshash. Bu xuddi shu kompaniyaning keyingi rivojlanishi. Pozidriv boshining tavsifi Supadrivga ham tegishli. Har birining o'z haydovchisi bo'lsa-da,[26] bir xil tornavida boshlari ikkala tur uchun ham zarar etkazmasdan ishlatilishi mumkin; ko'pgina maqsadlar uchun ikkita diskni ajratish kerak emas. Pozidriv va Supadriv vintlari biroz farq qiladi; keyinchalik Supadriv vintla tornavida o'rtasida kichik burchakka siljish imkonini beradi, Pozidriv esa to'g'ridan-to'g'ri chiziqda bo'lishi kerak.[24][27][28]

Batafsil ma'lumotga ko'ra, Supadriv vintzasi Pozidrivga o'xshaydi, lekin atigi ikkita identifikatsiyalash shomiliga ega va ikkilamchi pichoqlar kattaroq. Drayv pichoqlari taxminan teng qalinlikda. Asosiy amaliy farq vintlarni vertikal sirtlarga surishda: vintlarni haydovchilarga haydash uchun vertikal sirtga yaqin bo'lgan joyda Supadriv ustun tishlaydi, bu esa burama berishni samaraliroq qiladi chiqib ketish.[26]

Fillips II

Vintli bosh - Phillips II.svg

Phillips II chuqurchasi Phillips drayverlariga mos keladi, lekin xoch shaklidagi chuqurchalar o'rtasida vertikal qovurg'a mavjud bo'lib, ular Phillips II haydovchisining gorizontal qovurg'alari bilan o'zaro bog'lanib, tayoq-fit hosil qiladi va kamdan chiqib ketishga qarshi xususiyatlarni beradi (qovurg'alar savdo belgisi bilan belgilangan Chiqib ketishga qarshi qovurg'alar uchun "ACR").[iqtibos kerak ]

Frearson

Vintli bosh - Frearson.svg
Frearson va Phillips.svg

The Frearson deb nomlanuvchi vintli uzatma Rid va shahzoda vintli uzatma va ANSI Type II Cross chuqurchasi sifatida ko'rsatilgan, Fillipsga o'xshaydi, lekin Frearson V uchida keskin uchi va kattaroq burchagiga ega.[19] Phillips haydovchisidan bir afzalligi shundaki, bitta haydovchi yoki bit barcha vint o'lchamlariga mos keladi. Bu ko'pincha dengiz texnikasida uchraydi va to'g'ri ishlashi uchun Frearson tornavida yoki bitni talab qiladi. Asboblar chuqurchasi mukammal, keskin xoch bo'lib, yumaloq, toraygan Fillips boshidan farqli o'laroq, ko'proq qo'llaniladigan momentga imkon beradi. chiqib ketish yuqori momentda. U 19-asrda Frearson ismli ingliz ixtirochisi tomonidan ishlab chiqilgan va 1930-yillarning oxiridan 1970-yillarning o'rtalariga qadar ishlab chiqarilgan. Reed & Prince Mfg., Worcester, Massachusets shtati, 1987 yilda bankrotlikka uchragan va 1990 yilda tugatilgan. Reed & Prince Manufacturing Corporation deb nomlangan boshqa tashkilot, hozirgi Leominster, Massachusets shtati, ba'zi aktivlarni sotib oldi, shu jumladan tugatish sotuvidagi nom. .[29]

Fransuzcha tanaffus

Vintli bosh - French Recess Interior.svg
Frantsiya chuqurchasi drayveri

Shuningdek, chaqirildi BNAE NFL22-070 undan keyin By lééronautique et de l'espace by normallashtirish byurosi standart raqam. Ikki pog'onali haydovchi dizayni bilan kesma boshli vint, pichoq diametri nuqtadan uzoqlashganda.


Mortorq

Vida boshi - Mortorq.svg

The Mortorq haydovchi, Phillips Screw Company tomonidan ishlab chiqarilgan, bu avtomobilda ishlatiladigan format[30] va aerokosmik dasturlar. U engil, kam profilli va yuqori quvvatga ega haydovchi sifatida ishlab chiqilgan bo'lib, butun chuqurchaga qanoti bo'ylab to'liq aloqa qilib, yalang'ochlash xavfini kamaytiradi.[31]

Kvadratchalar

Robertson

Kvadrat chuqurchasining o'lchamlari[32][33]
RangYo'qVida o'lchamlariFraksiyaOraliq
yildamm
apelsin#00#1, #2116 ichida +0.051.3[34]
Sariq#0#3, #4332 ichida -0.0696–0.0711.77–1.80
Yashil#1#5, #6,[eslatma 1] #7764 ichida +0.090–0.0912.3–2.3
Qizil#2# 8, #9, #1018 ichida +0.111–0.11262.82–2.86
Qora#3#12, 1/4316 ichida +0.1315–0.1333.34–3.38
jigarrang#45/16, 3/8316 ichida +0.1895–0.1914.81–4.85
Vintli bosh - Robertson.svg
Robertson vintini yopish

A Robertson, shuningdek, a kvadrat[35] yoki Scrulox[36] vintli haydovchi ANSI III toifa kvadrat markazi sifatida ko'rsatilgan va a ga ega kvadrat -vint boshidagi shakldagi rozetka va asbobga to'rtburchak chiqib ketish. Asbobda ham, rozetkada ham ozgina narsa bor toraygan. Dastlab vintlardek ishlab chiqarishni amaliy ravishda bajarish sovuq shakllanish boshlarning,[13]:79–81 Ushbu konusning haydovchini ommalashtirishga xizmat qilgan yana ikkita afzalligi mavjud: bu asbobni kiritishni osonlashtiradi va vintni asbob uchida ushlab turishga yordam beruvchiga kerak bo'lmaydi.[13]

Robertson vintlari odatiy holdir Kanada, garchi ular boshqa joylarda ishlatilgan bo'lsa ham[13]:85–86 va boshqa mamlakatlarda ancha keng tarqalgan. Patentlarning amal qilish muddati tugashi va ularning afzalliklari to'g'risida xabardorlik tarqalishi bilan Robertson mahkamlagichlari mashhur bo'lib qoldi yog'ochni qayta ishlash va umumiy qurilishda. Robertson / Phillips kombinatsiyalangan disklari ko'pincha elektr savdosida, ayniqsa, qurilmalar va to'sar terminallari, shuningdek qisqich konnektorlari uchun ishlatiladi.

Robertson tornavidalaridan bir qo'lda foydalanish oson, chunki toraytirilgan rozetka vintni silkitsa ham ushlab turishga intiladi.[13]:85–86 Ular, shuningdek, burchakli vintli haydovchilar va trim boshli vintlarni ishlatishga imkon beradi. Soket boshli Robertson vintlari o'z-o'zini markazlashtiradi, kamaytiradi chiqib ketish, o'rnatilganda elektr asbobini to'xtating va agar bo'yalgan yoki eski yoki pasli bo'lsa, uni olib tashlash mumkin.[13]:85–86 Sanoatda ular ishlab chiqarishni tezlashtiradi va mahsulotga zararni kamaytiradi.[13]:85–86

Vintlar uchun ichki burchakli kvadrat rozetkaning haydovchisi (shuningdek, tegishli uchburchak rozetkaning haydovchisi) Kanadadan bir necha o'n yillar oldin o'ylab topilgan P. L. Robertson 1906 yilda Robertson vintini va tornavidasini ixtiro qildi va kanadalikni qabul qildi Patent 1907 yilda (CA103387, AQSh Patenti CA103387A ) va AQSh patent 1911 (AQSh Patenti 1.003.657 ) ishlab chiqarish mashinasi uchun. Ikkala kvadrat-rozetkani ham qamrab oladigan avvalgi patent- va uchburchak rozetkasi - yog'och vintlarni burab, AQSh Patenti 161,390 , 1875-yil 30-martda Nyu-York shahridan bir Allan Cummingsga berilgan. Ammo 1860-yillarda 1890-yillarga qadar o'ylab topilgan va patentlangan boshqa aqlli haydovchi turlarida bo'lgani kabi, patent muddati davomida u (umuman bo'lsa) keng ishlab chiqarilmadi. o'sha paytda buni amalga oshirishning qiyinligi va xarajatlari.[13]:79–81 Robertsonning 1908 yildagi yutug'i rozetkaning konusini va nisbatlarini shunday birikmada loyihalashda boshlari osongina va muvaffaqiyatli bo'lishi mumkin edi. sovuq shakllangan,[13]:79–81 aynan shu kabi vintlarni qimmatli qildi tijorat taklifi. Bugungi kunda, sovuq shakllantirish (plyonkada shtamplash bilan) hali ham sotilgan vintlarning ko'pchiligida keng tarqalgan usul hisoblanadi rotatsion broaching hozir ham keng tarqalgan. Burg'ilangan teshikka burchaklarni kesish uchun chiziqli brooch (a harakatiga o'xshash) o'lik mashinasi o'nlab yillar davomida (kamroq ishlov berish) ishlatilgan.

Robertson vintlar konstruktsiyasini Angliyada ishlab chiqaruvchiga litsenziyalashtirgan, ammo u bilan ish tutgan tomon litsenziatni qasddan bankrotlikka olib keldi va ishonchli shaxsdan arzonlashtirilgan narxlarda huquqlarni sotib oldi va shu bilan dastlabki shartnomani chetlab o'tdi.[iqtibos kerak ] Robertson huquqlarini qaytarib sotib olish uchun ozgina boylik sarfladi va keyinchalik litsenziyaga ko'ra vintlarni yasashga boshqalarga ruxsat bermadi. Qachon Genri Ford Robertson vintlarini sinab ko'rdi, u ularning ko'p vaqtini tejashini aniqladi Model T ishlab chiqarish, ammo Robertson vintlar konstruktsiyasini litsenziyalashdan bosh tortganida, Ford vint etkazib berish kafolatlanmasligini tushundi va ulardan ishlab chiqarishda foydalanishni Fordning Kanadadagi bo'limi bilan cheklashni tanladi.[37][38][39] Robertsonning vintlarini litsenziyalashdan bosh tortishi ularni AQShda keng tarqalishiga to'sqinlik qildi, bu erda ko'proq litsenziyaga ega bo'lgan Fillips rahbari kengroq qabul qilindi. Robertsonning ichki maydonini litsenziyalashni cheklash tezlashgan bo'lishi mumkin ichki olti burchakning rivojlanishi, garchi buning hujjatlari cheklangan bo'lsa ham.

Robertson haydovchisining yangi o'zgarishi - bu Nüvo qo'zg'aysan tizimi, bu erda vintlar Robertson qo'zg'aysan asboblariga mos keladi, ammo vintlar yumaloq loblarga ega bo'lib, ular Nüvo drayverlari bilan ishlatilganda "tebranish va echishni keskin kamaytiradi va bitta qo'l bilan ishlaydi. operatsiya ".[40]

  • Robertson haydovchilarining yaqinlashuvi

  • Robertson vintlari uchun turli o'lchamdagi tornavida bitlari

  • Robertson patentiga talabnoma

  • Reklama: "Evolyutsiyadagi tadqiqotlar"

  • 161390-sonli AQSh patent, Allan Cummings, 1875, vintli vintlardek

Bir nechta kvadrat disklar

LOX-chuqurchasi

Vida boshi - LOX.svg

LOX-Recess vintli uzatmasi Bred Vagner tomonidan ixtiro qilingan va uning yordamida mahkamlagichlar Hitachi, Dietrick Metal Framing va Grabber litsenziyalari tomonidan tarqatiladi.[41] Dizayn to'rtta to'rtburchak chuqurchadan iborat bo'lib, ular 12 ta aloqa nuqtasiga ega va momentni oshirish, aşınmayı kamaytirish va o'chirib qo'ymaslik uchun mo'ljallangan.[42]

LOX tipidagi vint va bitlar

Ikki kvadrat

Vintli bosh - Ikki karra kvadrat.svg

The ikki kvadrat qo'zg'aysan - bu 45 ° burilishda birlashtirilgan ikkita kvadrat bo'lib, 8 burchakli yulduzni hosil qiladi. Dizayn to'rtburchaklar haydovchiga o'xshaydi (Robertson), lekin haydovchi biti tomonidan tez-tez burchak ostida bo'lishi mumkin.

Uch kvadrat (XZN)

Vintli bosh - Triple Square.svg

The uch kvadrat, shuningdek, nomi bilan tanilgan XZN, har biri 90 ° ichki burchak bilan tugaydigan, 12 ta bir-biridan bir-biridan uzoqlashadigan vintli qo'zg'aysan turining turi. Bu nom uchta to'rtburchakning ustiga qo'yilib, 12 ta to'g'ri burchakli o'simtalar (12 qirrali yulduz) bilan shunday naqsh hosil qiladi. Boshqacha qilib aytganda, uchta Robertson kvadratlar ketma-ket 30 ° burilishda ustma-ust joylashtirilgan. Dizayn xuddi shunga o'xshash ikki kvadrat - ikkala holatda ham, uning fikri shundan iboratki, u kvadratga o'xshaydi (Robertson), lekin haydovchi tomonidan tez-tez burchak ostida shug'ullanishi mumkin. Ushbu vintlarni standart Robertson bitlari bilan haydash mumkin.

M4, M5, M6, M8, M9, M10, M12, M14, M16 va M18 o'lchamlari. Shunga o'xshash nomlash sxemasiga qaramay metrik mahkamlagichlar, asbobning o'lchamlari va o'lchamlari o'rtasida hech qanday bog'liqlik yo'q.

12 yulduzli ichki yulduz shakli yuzaki ravishda "ikki olti burchakli" mahkamlagich boshiga o'xshaydi, lekin oltitagichning 120 ° ichki burchagi o'rniga 90 ° (kvadratdan olingan) ichki burchakka shakllantirilganligi bilan tubdan farq qiladi. . Amalda, mahkamlagichlar haydovchilari bir-birining o'rnini bosishi mumkin yoki almashtirmasligi mumkin, ammo kuch ishlatishdan oldin ularning mosligi uchun ehtiyotkorlik bilan tekshirilishi kerak. Kvadrat kesmaning kaliti to'g'ri mos keladigan joyda olti burchakli kalitdan foydalanmaslik kerak.

Uch kvadrat kvadrat haydovchi tutturucular, masalan, yuqori torklu dasturlarda ishlatilgan silindr boshi murvat va poezdni haydash komponentlar. Qatnashtiruvchi biriktirgichlarda yulduzcha nuqtalarini yo'q qilmasdan qo'zg'alish momentiga bardosh berish uchun qotirilgan va temperaturali boshlar mavjud. Ular odatda topilgan Nemis transport vositalari kabi BMW, Opel, Mercedes, Porsche va Volkswagen Group (Audi, O'rindiq, Skoda va Volkswagen ).[43]

  • M6 va M8 uchburchak kvadratchalar haydovchilari

  • M10 uchburchak vintning so'nggi ko'rinishi

Ichki olti disklar

Olti burchakli rozetka

Asosiy maqola: Olti burchakli kalit
Vintli bosh - Hex Socket.svg
Olti burchakli vintlardek

The olti burchakli rozetka vintli haydovchi olti burchakli chuqurchaga ega va uni qo'zg'atishi mumkin olti burchakli kalit, shuningdek, an Allen kaliti, Allen kaliti, olti burchakli kalit, yoki inbus shuningdek, olti burchakli tornavida (shuningdek, olti burchakli haydovchi sifatida ham tanilgan) yoki bit. Chuqurchaga pimi o'rnatilgan tamperga chidamli versiyalar mavjud. Olti burchakli rozetkaning metrik o'lchamlari ISO 4762 (rozetkaning bosh qopqog'i vintlari), ISO 4026 (yassi nuqtali rozetkalarni o'rnatish vintlari), ISO 4027 (konusli nuqtali rozetkalarni o'rnatish vintlari), ISO 4028 (it nuqtasi bilan vintlardek) bilan belgilanadi. va ISO 4029 (chashka uchi bilan rozetkaga o'rnatiladigan vintlardek).

Nemis kompaniyasi Bauer & Schaurte Germaniyada 1936 yilgi olti burchakli rozetkani patentladi va uning asosida mahsulotlarni sotdi.[iqtibos kerak ] "Inbus" atamasi olingan Yildanensechskant Bauer siz. Schaurte (Germaniya: "Inner 6-edge Bauer & Schaurte"), AQShning "Allen key" atamasiga o'xshash. Ko'pgina mamlakatlarda u odatda "noto'g'ri" deb nomlanadimavtobus ".[iqtibos kerak ]

Ikki baravar

Vintli bosh - Ikki karra Hex.svg

Ikki baravar ikkita koaksiyal ofset olti burchakli shaklidagi rozetkali vintli uzatma; uni standart hex kalitlari vositalari boshqarishi mumkin. Shakl uchburchak va spline vintli qo'zg'aysanlarga o'xshaydi, ammo ular mos kelmaydi.

Har birining radial "balandligi" arris olti punkt bilan taqqoslaganda kamayadi, garchi ularning soni ikki baravarga ko'paygan bo'lsa. Ular potentsial ravishda olti punktga qaraganda ko'proq momentga ega bo'lishga qodir, ammo boshlarning metallurgiyasiga va ishlatilgan asboblarga katta talablar qo'yiladi, ular dumaloqlash va siljishni oldini olish uchun.[iqtibos kerak ]

Pentalobular rozetkalar

Pentalobe

Pentalobular.svg

The pentalobe vintli uzatma (ko'pincha 5-nuqta torxli vintli haydovchilar deb adashadi) - bu amalga oshirilayotgan besh burchakli buzg'unchilikka chidamli tizim. olma uning mahsulotlarida.[44] Apple pentalobe diskini birinchi marta 2009 yil o'rtalarida batareyani ta'minlash uchun ishlatgan MacBook Pro. Hozirda kichik versiyalar ishlatiladi iPhone 4 va undan keyingi modellar MacBook Air (2010 yil oxiridan boshlab), MacBook Pro Retina Display va the bilan 2015 yil MacBook. Uchinchi shaxslar tomonidan ishlab chiqarilgan arzon pentalobe tornavidalarini olish nisbatan oson.[45] Pentalobe vint o'lchamlari orasida TS1 (shuningdek, P2 yoki 0,8 mm deb nomlanadi, iPhone 4 va undan keyingi modellarda ishlatiladi), TS4 (P5 yoki 1,2 mm deb ham nomlanadi, MacBook Air [2010 yil oxiridan beri], Retina bilan MacBook Pro Displey va 2015 MacBook) va TS5 (shuningdek, P6 yoki 1,5 mm deb nomlanadi, 2009 yil MacBook Pro batareyasida ishlatilgan). TS belgisi noaniq, chunki u Torq o'rnatilgan vintli haydovchi uchun ham ishlatiladi.

ASTER tanaffusi

Vintli bosh - ASTER Recess.svg

The ASTER tanaffusi LISI Aerospace tomonidan ishlab chiqilgan[46] kompozitsion inshootlarni samolyotlarda yig'ish uchun olti burchakli chuqurchaga qaraganda ancha ishonchli echimni ta'minlash. Ushbu chuqurchaga aerokosmik biriktirgichlarning tishli uchiga moslash uchun optimallashtirilgan. Ushbu biriktirgichlar yong'oqni mahkamlash va murvatni bir vaqtning o'zida, strukturaning bir tomonida, faqat bitta operator tomonidan ushlab turishga imkon beradi.

TORX PLUS buzishga chidamli

Torx plus tamper.jpg

Torx Plus-ning buzishga chidamli varianti,[47] ba'zan chaqiriladi Torx Plus xavfsizligi, beshta lobli variant, markaziy post bilan. Bu xavfsizlik uchun ishlatiladi, chunki haydovchilar kam uchraydi.

Geksalobulyar rozetkalar

Asosiy maqola: Torx

Torx

Vintli bosh - Torx.svg
Torx haydovchisi

The geksalobulyar rozetka tez-tez asl firma nomi bilan ataladigan vintli haydovchi Torx (/ˈt.rks/) yoki muqobil umumiy nom bilan yulduz haydovchi, oltita yumaloq nuqta bilan mahkamlagichda yulduz shaklidagi chuqurchadan foydalanadi. Boshqa haydovchi tizimlar bilan taqqoslaganda momentni haydovchidan bitgacha oshirishga ruxsat berish uchun ishlab chiqilgan. Disk 1967 yilda ishlab chiqilgan[48] Camcar tomonidan Textron.[49] Torx avtomobil va elektronika sanoatida juda mashhur, chunki qarshilikka ega chiqib ketish, va bitning ishlash muddati uzaytirildi, shuningdek, chiqib ketishni oldini olish uchun qo'zg'alish vositasida ishlash zarurligini minimallashtirish orqali operator charchoqni kamaytiradi. Buzishga chidamli Xavfsizlik Torx boshning chuqurchasi ichida kichik pimi bor. Olti barobarlik simmetriyasi tufayli Torx drayveri olti burchakli haydovchining qo'lbola o'rnini bosuvchi vosita sifatida ham ishlatilishi mumkin, ammo rozetkani echib olishning oldini olish uchun ehtiyotkorlik bilan o'lchov qilish juda muhimdir.

Torx Plus

Vintli bosh - Torx Plus.svg

Torx Plus Torx-ning takomillashtirilgan versiyasi bo'lib, u asbobning ishlash muddatini yanada uzaytiradi va Torks bilan taqqoslaganda katta tork o'tkazishga imkon beradi. An Tashqi Torx versiya mavjud bo'lib, u erda burama bosh Torx tornavida uchi shakliga ega va uni boshqarish uchun Torx rozetkasi ishlatiladi. Qarang § tashqi Torx.

Torx Paralobe

Torx Plus-ni yanada takomillashtirish.[50]

Torx ttap

Torx ttap Torx-ning biriktirgich va asbob o'rtasidagi tebranishni kamaytiradigan versiyasidir orqaga qarab mos keladi standart heksalobulyar vositalar bilan.


Kombinatsiyalangan disklar (ortiqcha-minus)

Vintli bosh - Phillips Combo.svg

Ba'zi vintlardek bir nechta haydovchilarni joylashtirishga mo'ljallangan boshlari bor, ba'zida ularni kombo-bosh yoki kombi-bosh deb atashadi. Ulardan eng keng tarqalgani a birikmasi yivli / Fillips boshi, tez-tez tugmachalarni mebel tortmasining old qismiga o'rnatishda ishlatiladi va birlashtiriladi o'yilgan / pozidriv elektr tarqatish moslamalarida juda ko'p uchraydigan boshlar "elektr vintlari" laqabini olgan. (G'oya shundan iboratki, asboblar qutisidan birinchi tornavida ishlatiladi va foydalanuvchi to'g'ri drayverni qidirishda qimmatli vaqtni sarflamaydi). Yivli / Fillips (yivli / pozidrivdan farqli o'laroq) boshlar ba'zi Shimoliy Amerikada ishlab chiqarilgan tarqatish moslamalarida uchraydi.[iqtibos kerak ]Ommabop foydalanishga erishish ularning boshi kuchsizroq bo'lishiga qaramay, to'g'ri tornavida ham, Pozidriv / Phillips tornavida ham bu vintlarni kerakli momentga etkazishda to'liq muvaffaqiyatga erisha olmaydi. Ba'zi bir tornavida ishlab chiqaruvchilari ushbu muammoni hal qilishda mos keladigan tornavidalarni taklif qilishadi va ularni "Modulo", "Plus-minus" yoki "pudratchi tornavida" deb atashadi, garchi ma'lum bir haydovchini qidirishga hojat yo'qligi haqidagi asl tushunchani buzsa ham.

Boshqa kombinatsiyalar - Fillips va Robertson, Robertson va yivli, Torx va yivli va uch g'ildirakli vint, ular yivli, Fillips yoki Robertsonni olishlari mumkin.

ACR Phillips II Plus

ACR Phillips II Plus - bu # 2-chi Phillips haydovchisi yoki # 2-Robertson haydovchisi tomonidan boshqarilishi mumkin bo'lgan vintli uzatma dizayni, ammo Phillips II Plus Bit tomonidan boshqarilganda, bu kombinatsiya yopishqoq interfeysga olib keladi.[51]

Fillips / kvadrat

Vida boshi - Quadrex.svg

The Fillips / kvadrat deb nomlanuvchi vintli uzatma Quadrex, Pozisquare vintli haydovchi, bu Fillips va Robertson vintli haydovchilarining birikmasidir. Standart Fillips yoki Robertson vositasidan foydalanish mumkin bo'lsa-da, u uchun asbob va mahkamlagich orasidagi sirt maydonini ko'paytiradigan, shuningdek, ko'proq momentni boshqarishi uchun maxsus vosita mavjud.[52]

Qabul qilish

The Qabul qilish qo'zg'aysan tizimi, ishlab chiqarishni yig'ish paytida Robertson haydovchisining birlashtirilgan toymasin qulayligini va Phillipsni bozorga xizmat ko'rsatish uchun taklif qiladi. Phillips Screw Company kompaniyasi Robertson bilan Phillips va Pozidriv kombinat boshlarini taklif qiladi.[iqtibos kerak ]

Yivli / Torx

Torx T25 / slot Dual Drive vidasi, bilan 316- chap tomonda 4,8 millimetrli tekis pichoqli tornavida, o'ng tomonda esa T25 tornavida. Ikkala tornavida ham ushbu vintni dizayni bo'yicha boshqarishi mumkin.

Elektron ishlab chiqarishda birlashtirilgan yivli va Torx qo'zg'aysan vidasi ishlatilgan. Masalan, Compaq ishlab chiqarishda Torxning afzalliklari va dala ta'mirlash holatlarida tekis haydovchining umumiyligini birlashtirish uchun ushbu turdan foydalangan. Yassi pichoqli asbob chetga chiqib ketmasligi va yaqin atrofdagi elektronikaga zarar etkazmasligi uchun teshik uchlari yopilgan.

Debriyaj

Vida boshi - Debriyaj turi A.svg
Vintli bosh - Debriyaj turi G.svg
A debriyajning bosh vintini kiriting

Ikkita turi mavjud debriyaj vintli drayvlar: A va G. tipidagi A tiplari, shuningdek "standart debriyaj" deb nomlanadi, a ga o'xshaydi Kapalak galstuk, markazda kichik dumaloq "tugun" bilan. Ular keng tarqalgan edi GM 1940 va 50-yillarda avtoulovlar, yuk mashinalari va avtobuslar. G turi kapalakka o'xshaydi va markaziy "tugun" yo'q. Ushbu turdagi vida boshi odatda ishlab chiqarishda qo'llaniladi ko'chma uylar va dam olish vositalari.[53] Debriyaj boshi tekis tornavida bilan, shuningdek, debriyaj haydovchisi bilan boshqarilishi uchun mo'ljallangan.

Thumbscrew

A vintli vint bu baland bo'yli va tizimli yoki vintli haydovchining bir turi o'ralgan yon tomonlari yoki kalitga o'xshash tekis qirrali vertikal bosh. Ular qo'l bilan mahkamlash va yumshatish uchun mo'ljallangan va tizimli dasturlarda mavjud emas. Ba'zan ular ham kesiladi Fillipsning boshi yoki teshikli tornavidalar, shuningdek barmoqni ushlash uchun tirnoqqa ega. MENDEK 18.6.8 A tipidagi (boshning ostidagi yelka) o'lchamlarini muntazam va og'ir, B turi bilan birga (yelkasiz), muntazam va og'irliklarni qamrab oladi. Ularni ko'pchilikda topish mumkin kompyuter qutilari va boshqa joylarda asboblarsiz oson kirish zarur bo'lgan joylarda.

Tashqi disklar

Tashqi drayvlar a bilan tavsiflanadi ayol asbob va a erkak mahkamlagich. Tashqi qo'zg'aysan mahkamlagichlarining afzalligi shundaki, ular boshida chuqurchaga ega emas, ular suv, axloqsizlik yoki bo'yoq to'plashi mumkin, bu haydovchi vositasini keyinchalik kiritilishiga xalaqit beradi. Bundan tashqari, ba'zi bir tashqi drayvlar asboblardan foydalanish uchun katta ichki bo'shliqni talab qilmasdan yon tomondan o'rnatilishi mumkin, bu ularni dvigatellar yoki murakkab quvur liniyalari kabi tor joylarda ishlatishga imkon beradi. Kallaklar biriktiriladigan sirtdan ajralib turishi kerakligi sababli, ular kamdan-kam hollarda qarama-qarshi yoki yupqa dizaynlarda mavjud.

Kvadrat

Vida boshi - Square External.svg

A kvadrat vintli qo'zg'aysan moslamasi bilan burish mumkin bo'lgan to'rt tomonlama mahkamlagich boshlarini ishlatadi sozlanishi kalit, ochiq kalit yoki 8 yoki 12 ball[54] rozetkalar. 19-asr va 20-asrning boshlarida tez-tez uchraydi, ishlab chiqarilishi boshqa haydovchilarga qaraganda osonroq va arzonroq bo'lgan, bugungi kunda u kamroq uchraydi (topish oson bo'lsa ham), chunki tashqi olti burchak endi raqobatbardosh va shunga qaramay kalitlarni o'chirish uchun yaxshiroq kirish imkoniyatini beradi. yaqin atrofdagi to'siqlar.

Olti burchak

Vintli bosh - Hex External.svg

A olti burchak vintli haydovchi olti qirrali mahkamlagich boshlaridan foydalanadi va mahkamlagich a nomi bilan tanilgan olti burchakli boshli vint. Uni sozlanishi kalit bilan burish mumkin, kombinatsiyalangan kalit va 6 yoki 12 ball rozetkalar. Olti burchakli haydovchi to'rtburchak haydovchiga qaraganda, atrofdagi to'siqlar kalitlarni kesib o'tishni cheklaydi, chunki kichikroq burama yoylar tutturucuyu muvaffaqiyatli aylantirishi mumkin. Olti burchakning metrik o'lchamlari ISO 4032 va ISO 4033 tomonidan belgilanadi, shuningdek murabbo yong'oqlari uchun ISO 4035 va olti burchakli vintlar uchun ISO 4014 va ISO 4017, olti burchakli vintlar uchun ISO 4018 (v sinf).

Pentagon

Vida boshi - Pentagon External.svg

A beshburchak vintli haydovchida besh tomonlama mahkamlagich boshlari ishlatiladi va mahkamlagich sifatida tanilgan penta vint yoki penta murvat. U ko'plab vositalar bilan ichki jihatdan mos kelmaydigan qilib yaratilgan. Besh yildan beri toq raqam, uni ochiq-oydin yoki sozlanishi kalitlar, ular parallel yuzlarga ega (va shuning uchun juft sonli biriktirgichni talab qiladi). Bundan tashqari, uni oltita yoki o'n ikki ballga ega bo'lgan (ikkalasi ham bo'lmagan) iste'molchilar va professional darajadagi soket haydovchilari aylantira olmaydi. ko'paytmalar beshdan). Penta yong'og'i Xavfsizlik mahkamlagichlari ham mavjud, ularni faqat ixtisoslashgan besh qirrali soket drayverlari boshqarishi mumkin. Biroq, ushbu dizaynning xavfsizlik xususiyatini ba'zi bir turlaridan foydalanib chetlab o'tish mumkin penseler agar etarli kuch ishlatilsa.

Ushbu mahkamlagichlarni ixtisoslashgan (va kam uchraydigan) besh nuqtali kalitlarsiz burish qiyinligi sababli hidrant kalitlari, ular odatda buzilish qarshiligi uchun ishlatiladi kommunal xizmatlar kuni suv o'lchagich qopqoqlar, tabiiy gaz klapanlari, elektr shkaflari va yong'in gidrantlari.

Tashqi Torx

Vintli bosh - Torx External.svg

An tashqi Torx vida Torx tornavida uchi shaklida proektsiyalovchi boshga ega (standart chuqurlashtirilgan bo'shliq o'rniga); uni boshqarish uchun Torx rozetkasi ishlatiladi. Tashqi "E" Torx nominal o'lchamlari "T" o'lchamiga mos kelmaydi (masalan, E40 rozetkasi T40 ga sig'maydigan darajada katta, E8 Torx rozetkasi T40 Torx bitiga mos keladi[55]). Ushbu vintlar ko'pincha avtomobilsozlik sohasida uchraydi.

12 ball

Vida boshi - 12-nuqta tashqi.svg

A 12 ball vintli uzatmada bir-birining ustiga 30 by ga o'ralgan ikkita olti burchak shakllari ishlatiladi. Standart 12-nuqtali olti burchakli rozetkaning uchlari va kalitlari ushbu vintlarga mos keladi. Vida boshlari odatda gardishli bo'lib, mahkamlash uchun kalıplanmış yoki ishlov beriladigan standart Allen hex rozetkali qopqoqli vintlardek teshiklariga mos kelishi mumkin. Compared to Allen hex sockets, the advantages of these bolts include higher torque capability and the lack of a recess to trap water. A disadvantage is the extra cost involved in forming the heads.

Tamper-resistant types

A set of "secure" or otherwise less common screwdriver bits, including secure Torx and secure hex or "allen" variants.

Most of the following screw drives are considered tamper-resistant ular tufayli obscurity. Tamper-resistant drives are commonly used on equipment such as home electronics, to prevent easy access thereby reducing the incidence of damage, improper repairs or repairs by people without the relevant technical knowledge. Recent widespread availability of assorted drive bits (including security types) minimizes this advantage, at least for some fastener types. True tamper-resistant screw drives include the breakaway head and one-way screw drives.

In addition to screw drives, various nut drives have been designed to make removal difficult without specialized tools. Proprietary examples include T-Groove, Slot-Lok, Pentagon, Tork-Nut, T-Slope and Spanner designs.[56]

Breakaway head

The breakaway head (shuningdek, deyiladi breakoff yoki qirqish fastener)[57] is a high-security fastener whose head breaks off during installation, during or immediately after the driving process, to leave only a smooth surface. It typically consists of a countersunk flat-head bolt, with a thin shank and hex head protruding from the flat head. The hex head is used to drive the bolt into the countersunk hole, then either a wrench or hammer is used to break the shank and hex head from the flat head, or it is driven until the driving head shears off. Either method leaves only a smooth bolt head exposed. This type of bolt is commonly used with prison door locks, automobile ignition switches va street signs, to prevent easy removal. An alternative design leaves a low-profile button head visible after installation.[57] In addition to breakaway bolts, breakaway nuts of similar design are available.[58]

In non-security applications, a breakaway head fastener is sometimes used as a crude torque limiter, intended to break off at an approximate torque limit. For example, certain hojatxona o'rindig'i fastener bolts use a breakaway plastic nut, with the driver part intended to shear at a torque high enough to prevent wobbling, while not shattering the porcelain toilet from excessive pressure. Breakaway fasteners used in a non-security application may have a second driveable surface (such as a hex head) to allow later removal or adjustment of the fastener after the initial breakaway installation.

This drive type has the disadvantage of not being as precisely controlled as can be obtained by proper use of a torque wrench; applications may still fail due to either too little torque being applied to correctly fasten the joint, or too much torque being required to shear the head, resulting in damage to the material being fastened.[iqtibos kerak ]

Bristol

Bristol head driver sizes[1]
Driver size
yildammfleytayildammfleyta
0.0330.844 ta naycha0.1684.36 flutes
0.0481.24 & 6 flutes0.1834.66 flutes
0.0601.56 flutes0.2165.56 flutes
0.0691.84 ta naycha0.216 OS5.56 flutes
0.0721.86 flutes0.2516.46 flutes
0.0761.94 ta naycha0.2917.46 flutes
0.0962.46 flutes0.3729.46 flutes
0.1112.86 flutes0.45411.56 flutes
0.1333.46 flutes0.59515.16 flutes
0.1453.76 flutes
Vintli bosh - Bristol.svg

The Bristol (yoki Bristol spline) screw drive is a fastener with four or six splinelar, but is not necessarily tamper resistant.[59] The grooves in the wrench are cut by a square-cornered broshka, giving a slight undercut to the outer corners of the driver. The main advantage to this drive system is that almost all of the turning force is applied at right angles to the fastener spline face, which reduces the possibility of stripping the fastener. For this reason Bristol screw drives are often used in softer, non-ferrous metals. Compared to an Allen drive, Bristol drives are less likely to strip for the same amount of torque; however, the Bristol drive is not much more strip-resistant than a Torx drive.[iqtibos kerak ] It was patented in the United States in 1913 by Dwight S. Goldwin and put into production by the Bristol Wrench Company.[60][61]

This type of drive is commonly used in avionika, higher-end communications equipment, cameras, air brakes, construction and farm equipment, astronomy equipment, and military equipment. Variants with a pin in the center are often found in game systems, to discourage improvised attempts to use a slotted screwdriver to drive the fastener.

Line

Line head driver sizes[1]
IchkiTashqiTamper-resistant
ALR2ALH2
ALR3ALH3ALR3T
ALR4ALH4ALR4T
ALR5ALH5ALR5T
ALR6ALH6ALR6T
Vida boshi - chiziq male.svg
Vintli boshli chiziq - line.svg
Vintli boshli chiziq tamper.svg ayol

The line screw drive is a Japanese system with male, female and female tamper-resistant screw configurations. The fasteners are commonly called "line head screws". They are also known as "game bit screws", due to their use on some video game consoles. They are found on IBM computers, as well as Nintendo and Sega systems and their o'yin patronlari. The female sizes are designated ALR2, ALR3, ALR4, ALR5, ALR6; the male sizes are designated with an "H" instead of an "R"; and the tamper-resistant female have a "T" at the end of the designation (e.g. ALR3T).[1]

In Japan, the male sizes are often designated as DTC-20, DTC-27, DTC-40 (discontinued) and DTC-45 corresponding to a respective screw head size of 3.2mm, 4.6mm, 6.4mm and 7.7mm; with the size of the screw measured across the widest portion of the mating part of the head. The most common sizes in use for consumer electronics are DCT-20 and DTC-27.

Bir tomonga

A one-way slotted screw
Vida boshi - bir tomonlama Clutch.svg

One-way screws are special screws that can be turned only in one direction. Ba'zan ularni chaqirishadi one-way clutch screws, but should not be confused with true "clutch" screws. They can be installed with a standard flat-blade screwdriver, but cannot be easily removed using standard tools. One-way screws are commonly used in commercial restroom fixtures and on avtotransport vositalarining ro'yxatga olish belgilari, oldini olish uchun vandallar from tampering with them.

One-way screws are practical only when the need for removal is unlikely. They are difficult to remove with conventional tools because the slot is designed to cause cam out when even minimal torque is applied in the direction to unscrew it. Instead, a one-way screw can be removed by drilling a hole through the head of the screw and inserting a screw extractor. Shu bilan bir qatorda, a rotary tool with cutting disk can be used to extend the slot, the head can be gripped with locking pliers, or the screw can be removed with a pin spanner (snake-eyes driver) after drilling two holes in the slot. It can also sometimes be removed by attaching a precision drill chuck tightly to the screw head, in a manner similar to removing screws that have broken heads.[62]

tuxumsimon

Vida boshi - Jura external.svg

Espresso makers from Yura Elektroapparat use a proprietary screw head with an eccentric oval to dissuade users from servicing their own machine, but the tool required (or just the bit for a common driver) is usually available from the same places that sell the parts directly to consumers.

Polydrive

Vintli bosh - Polydrive.svg

The polydrive screw drive, also known as RIBE,[63] is spline-shaped with rounded ends in the fastener head. The tool has six flat teeth at equal spacing; the sizes are determined by the diameter of the star points. Its primary advantage over older screw drives is that it resists cam out. It is used primarily in the automotive industry in high-torque applications, such as tormoz tizimlari va qo'zg'aysan vallari.

Proprietary head

There are specialty fastener companies that make unusual, proprietary head designs, such as Slot-Lok and Avsafe.[64] These use special circular or oval cam-shaped heads that require complementary socket drivers.

For further security, there are custom-designed fastener heads requiring matching drivers available only from the manufacturer and only supplied to registered owners, similar to keyed locks.[65]

The Ultra-Lok, and Ultra-Lok II are some of these designs that use custom keyed drivers, which tend to be confined to industrial and institutional uses that are unavailable to the average layperson. Key-Rex screws are another design, and are used in such things as ballot boxes and bank vaults.[42]

One example familiar to laypersons is for the attachment of wheels and spare tires of passenger vehicles to deter theft; one of the lug nuts on each wheel may require a specialized socket provided with the set of lug nuts. Similar security fasteners are also available for bicycle wheels and seats.

Security hex

Asosiy maqola: Hex key § Variants
Vintli bosh - Hex Socket Tamperproof.svg

A security hex screw drive features an extruded pin to make the fastener more tamper resistant by inserting a pin in the fastener screw drive, requiring a tool with a corresponding hole to drive the fastener. This can also prevent attempts at turning the screw with a small flat-bladed screwdriver.

Security Torx

Asosiy maqola: Torx § Variants
Vintli bosh - Torx Tamperproof.svg

A security Torx screw drive is a common modification to socket and cruciform style drives to make the fastener more tamper resistant by inserting a pin in the fastener screw drive, requiring a tool with a corresponding hole to drive the fastener. This can also prevent attempts at turning the screw with a small flat-bladed screwdriver.

Kalit

Vida boshi - Spanner.svg

The spanner[66] yoki Snake-Eyes (trademarked)[67] screw drive uses two round holes (sometimes two slots; the same driver bits work in both types) opposite each other and is designed to prevent tampering. Other informal names include pig nose, drilled head yoki twin hole.[68] This type is often seen in liftlar va hojatxonalar Qo'shma Shtatlarda London metrosi in the United Kingdom, some train wagons and the Monreal metrosi yilda Monreal, Kvebek, and is seen in all Panama Metro vagonlar. The driving tool is called a "spanner driver" or "spanner screwdriver"[69] in the US, and a "pin spanner" in the UK.[iqtibos kerak ] They are also often used for soft spikes on golf shoes. The US military's M17 and M18 service pistols (variants of the SIG Sauer P320 ) use spanner screws to dissuade disassembly of the handgun beyond normal field maintenance except by the authorized armorer, they have also been used previously for reinforcement screws on the M14 in order to secure the front locking tab on the magazine well, and are commonly found on the recoil lug of surplus rifles.

The knife and gun manufacturer Microtech uses a variation of this with 3 round holes arranged in a triangle shape. The camera company Leica kamerasi has used versions of this on rewind knobs and other levers on their rangefinder cameras.

12-spline flange

Vida boshi - Spline.svg

The 12-spline flange screw drive has twelve splinelar in the fastener and tool. It consists of 12 equally spaced protrusions, each with a 60° angle. It is achieved overlaying 4 equilateral triangles, each one rotated 30° over the previous one. The spline drive was part of the obsolete, U.S-designed Optimum Metric Fastener System and was defined by ASTM B18.2.7.1M, which was withdrawn in 2011,[70] making the spline drive obsolescent. Spline drives were specified for 5, 6.3, 8, 10, 12, 14, 16, and 20 mm size screws.[71] Its primary advantage is its ability to resist cam out, so it is used in high-torque applications, such as tamper-proof yong'oq yong'oqlari, cylinder head bolts, and other engine bolts.

Torq-set

Vintli bosh - Torq-set.svg
A set of torq-set bits

Torq-set a cruciform screw drive used in torque-sensitive applications. The Torq-set head is similar in appearance to a Phillips drive in that it has a cross with 4 arms. In Torq-set however, the lines are offset from each other, so they do not align to form intersecting slots across the top of the head. Because of this, a regular Phillips or flat-blade screwdriver will not fit the head. It is used in military and aerospace applications. Masalan E-3, P-3, F-16, Airbus, Embraer va Bombardier Inc. samolyot.[72] Phillips Screw Company owns the name and produces the fasteners.

The applicable standards that govern the Torq-set geometry are National Aerospace Standard NASM 33781 and NASM 14191 for the ribbed version. The ribbed version is also known as ACR Torq-set.[73]

Tri-angle

Vintli bosh - TA.svg

The TA is a type of screw drive that uses a triangle-shaped recess in the screw head. This drive can restrict access to the device internals but can readily be driven with hex keys. These screws are often found in children's toys from fast food restaurants, as well as vacuum cleaners, fan heaters, liftlar, camping stoves, golf clubs, Breville kettles and Master Locks, among others, Sizes include TA14, TA18, TA20, TA23 and TA27.[74] Note that the sides of the triangle are straight, which differs from Tri-point-3 fasteners.

Tri-point

Vida boshi - Tri-point.svg
First row: Tri-Wing bits and screw head. Beneath: Tri-Point/Y-Type.

The TP (yoki Y-type) security screw drive is similar to the Phillips screw head, but with three points rather than four. These specialized screws are usually used on electronics equipment, including some Nintendo handheld hardware, Sanyo and Kyocera cellular telephones, and Fuji digital cameras.[75]olma uses Y-type screws to secure the battery on the 2010 and 2011 MacBook Pro, as well as an extremely small type in the Apple Watch, iPhone 7 va iPhone X.[76][77]

Tri-point-3

Vida boshi - TP3.svg

TP3 (ba'zan shunday deyiladi tri-lobe yoki tri-lobular) uses a Reuleaux uchburchagi -shaped recess in the screw head, to make it semi-secure because it cannot be driven by a flat-blade screwdriver[78] and is not readily driven, as Tri-angle is, by hex keys. U ishlatilgan tez tayyorlanadigan ovqat promotional toys and video games, die-cast toys, and some Roomba battery packs. There are four sizes: A = 2 mm, 2.3 mm, 2.7 mm, and 3.2 mm.

Tri-groove

Vintli bosh - Tri-groove.svg

Tri-groove yoki T-groove is a design for a security screw with a flat-topped conical head and three short radial slots that do not join in the center.

Tri-wing

Vintli bosh - Tri-wing.svg

The tri-wing, shuningdek, nomi bilan tanilgan triangular slotted, is a screw with three slotted "wings" and a small triangular hole in the center. Unlike the "tri-point" fastener, the slots are offset, and do not intersect the center of the fastener. A version with left-hand threads is called an Opsit screw, where unscrewing can be done by turning the screwdriver clockwise, which is the opposite of tri-wing and regular screws.[79][80]

The design was adopted by some parts of the aerospace industry, led by Lokid in the early 1970s on the L-1011, but met with mixed results due to complaints of insert damage during installation.[iqtibos kerak ] McDonnell Duglas also used this as a primary fastener on its commercial aircraft. British Aerospace and Airbus are also users of this fastener. In the present day it is usually seen on electronics equipment.

Other drive types

U-drive

A U-drive screw has a helical thread with an angle acute enough to be driven by a hammer, and thus has a domed head with no means of turning it.[81] These are most frequently driven into plastic.

Alternative categorizations

Og'zaki-B rechargeable toothbrush, showing the TP3 headed screw used to hold the case together. When the rechargeable battery is no longer serviceable, the toothbrush may be dismantled with this screw and the battery and motor units sent separately for recycling. The battery charger has a molded screwdriver on its case.

There are various other ways to categorize screw drives. One way is by shape of the fastener screw drive:

  • Tashqi
    • Olti burchak
    • Line (ALH)
    • Square
  • Socket head
    • Bristol
    • Clutch
    • Double hex
    • Hex socket
    • Hexalobular socket
    • Line (ALR)
    • Polydrive
    • Robertson
    • Spline
    • TP3

Shuningdek qarang

Explanatory notes

  1. ^ Some specialty #6 Robertson screws require a Red #2 driver.

Adabiyotlar

Iqtiboslar

  1. ^ a b v d e "screw drive systems". Sizes.com. 2010-12-30. Olingan 2012-03-12.
  2. ^ Pavlis, Egon "arcticpenguin" [pseudonym]. "When a Phillips is not a Phillips Plus So Much More!". Instructables: share what you make. O'qitiladigan narsalar. Olingan 2012-03-11.
  3. ^ a b v d Capotosto, Rosario (December 1996). "Screwdriver Basics". Mashhur mexanika. 173 (12): 82–83. ISSN  0032-4558.
  4. ^ Review, Princeton (2004). Cracking the Asvab. Nyu-York: tasodifiy uy. p.174. ISBN  978-0-375-76430-1.
  5. ^ "Screw Holding Screw Driver" (PDF). Audiocraft Magazine: 7. April 1956.
  6. ^ When a Phillips Is Not a Phillips Plus So Much More! – Instructables.com
  7. ^ "Screw Drive Systems". size.com.
  8. ^ Mashinasozlik uchun qo'llanma (PDF) (27-nashr). Industrial Press, Inc. 2004. p. 1596. Archived from asl nusxasi (PDF) 2017 yil 8 sentyabrda. Olingan 8 sentyabr 2017.
  9. ^ a b v d e f g h men Higgins, Matt (September 16, 2015). "What is the Difference: Screw Bits – Phillips vs. Pozidriv". Fine Homebuilding. 154 (November 2015): 38. Olingan 2015-09-25.
  10. ^ Ryder Windham (2006). You Know You're in Rhode Island When...: 101 Quintessential Places, People, Events, Customs, Lingo, and Eats of the Ocean State. Globe Pequot Press. pp. 60ff. ISBN  978-0-7627-3940-0.
  11. ^ "Means for uniting a screw with a driver". AQSh Patent va savdo markasi idorasi. AQSh hukumati. Olingan 28 fevral 2016.
  12. ^ Docter, Quentin; Dulaney, Emmett; Skandier, Toby (2006). CompTIA A+ Complete Study Guide. John Wiley and Sons. p. 766. ISBN  978-0-470-04831-3.
  13. ^ a b v d e f g h men Rybczynski, Witold (2000). One good turn : a natural history of the screwdriver and the screw. New York [u.a.]: Scribner. ISBN  0-684-86729-X.
  14. ^ Wilder, George. "What are the differences between the two types of drive – Phillips and Posidriv®?" (PDF). v8register. Olingan 2017-09-02.
  15. ^ Adler, Alexander (1998-05-18). "Testing and Understanding Screwdriver Bit Wear" (PDF). Virginia Tech Digital Library and Archives. Virginia Tech. hdl:10919/36701. Olingan 2020-09-23. Xulosa.
  16. ^ U.S. Patent 2,474,994
  17. ^ US 2474994, Tomalis, Joseph & American Screw Company, "Screw Socket", published December 30, 1942, issued July 5, 1949 
  18. ^ "US Patent #2,474,994 Claims, Page 7".
  19. ^ a b "Screw drive systems". Olingan 2009-06-23.
  20. ^ "Improvements in or relating to screw threaded fasteners and drivers for use therewith". G. K. N. Screws and Fasteners Ltd. 1962-05-04. Iqtibos jurnali talab qiladi | jurnal = (Yordam bering)CS1 maint: boshqalar (havola)
  21. ^ "Recessed head fastener and driver combination". Alan Pritchard, Research Engineering & Manufacturing Inc. 2015-12-11. Iqtibos jurnali talab qiladi | jurnal = (Yordam bering)CS1 maint: boshqalar (havola)
  22. ^ a b Pozidriv page at Phillips Screw Company
  23. ^ "Screw head types / Product Guides / Service / Information & Services / England / Home — Wiha | Screwdrivers L-Keys Bits Pliers Online Shop| Premium Tools for Professionals". 2008-02-13. Arxivlandi asl nusxasi 2008-02-13 kunlari. Olingan 2012-03-12.
  24. ^ a b "Unterschied zwischen Pozidrive und Superdrive" [Difference between Pozidriv and Supadriv] (in German). Goedkopeschroevenkopen.nl. Arxivlandi asl nusxasi 2014 yil 22 fevralda. Olingan 2014-03-20.
  25. ^ "When a Phillips is not a Phillips!". Instructables.com.
  26. ^ a b arcticpenguin (2008-12-29). "SupaDriv®". Instructables.com. Olingan 2012-03-12.
  27. ^ "Phillips, JIS, Pozidriv, SupaDriv and other screw drive types". blog.jtbworld.com. Olingan 2017-09-02.
  28. ^ [1]: "Supadrive allow a small angular offset between the screw and the screwdriver. Pozidrive have to be directly in line"
  29. ^ "Reed & Prince Manufacturing Corporation: Welcome". Reedandprincemfg.com. Olingan 2012-03-12.
  30. ^ "New Bolt Drives FCA to Better Seat Assembly". www.assemblymag.com. Olingan 23 avgust 2019.
  31. ^ "The Phillips Screw Company". www.phillips-screw.com.
  32. ^ "McFeely's Square Drive Screws". Arxivlandi asl nusxasi 2008-11-22 kunlari. Olingan 2010-06-03.
  33. ^ "American Fastener". Arxivlandi asl nusxasi 2010-06-12. Olingan 2010-06-03.
  34. ^ Wera Catalog, 2011/2012, P. 371
  35. ^ Kelsey, John; Kirby, Ian J. (2004). Furniture Projects for the Deck and Lawn. ISBN  9781892836175. Olingan 2012-03-12.
  36. ^ Robertson Inc. "Robertson Inc. – The Original Robertson Fastening System". Robertson Inc. main site. Olingan 28 sentyabr 2011.
  37. ^ "Robertson Screws".
  38. ^ "History of Screws and Screwdrivers".
  39. ^ Martindale, Barbara (1996-03-01). Caledonia: Along the Grand River. ISBN  978-0-920474-81-5.
  40. ^ "NUVO Screws 2016" (PDF).
  41. ^ "Lox : Screws Designed for Power Tools". www.lox.com.
  42. ^ a b Thompson, Avery (October 10, 2016). "11 Strange Screws You Don't See Every Day". Mashhur mexanika.
  43. ^ GermanAutoParts.com Volkswagen Tools
  44. ^ Frauenfelder, Mark (2011-01-20). "Apple's diabolical plan to screw your iPhone". Boing Boing.
  45. ^ Ray, Bill (January 24, 2011). "The cost of beating Apple's shrewd screws? £2". Ro'yxatdan o'tish. Olingan July 5, 2011.
  46. ^ "ASTER™ System". www.lisi-aerospace.com (frantsuz tilida). Olingan 2018-06-13.
  47. ^ "TORX PLUS® Tamper-Resistant Drive System". www.acument.com. Olingan 2019-04-18.
  48. ^ U.S. Patent 3,584,667 filed 1967-03-21
  49. ^ Camcar eventually became part of Textron Fastening Systems in the 1990s. In 2006 Textron Fastening Systems was sold to Platinum Equities, LLC, of Beverly Hills, California. They renamed the company Acument Global Technologies, which as of 2010 includes Avdel, Camcar, Ring Screw, and others.
  50. ^ https://www.acument.com/licensing/licensed-products/torx-paralobe-drive-system/
  51. ^ "Phillips Fastener". Phillips Fastener.
  52. ^ "McMaster-Carr catalog" (116th ed.). McMaster-Carr: 2806. Olingan 2010-06-11. Iqtibos jurnali talab qiladi | jurnal = (Yordam bering)
  53. ^ "Clutch Head Bit Set (Set of 4)". Vintage Trailer Supply.
  54. ^ Digest, Reader's (2003). Family Handyman Best Projects, Tips and Tools. Readers Digest. p. 106. ISBN  978-0-7621-0455-0.
  55. ^ "Chart of Torx fasteners and tools". Wiha Tools USA. Arxivlandi asl nusxasi 2015-12-26 kunlari. Olingan 2012-01-14.
  56. ^ "Tamper Proof Nuts". Loss Prevention Fasteners. Ultra Fasteners Inc. Olingan 2015-09-25.
  57. ^ a b "Tork-Bolts". Loss Prevention Fasteners. Ultra Fasteners Inc. Olingan 2015-09-25.
  58. ^ "Tork-Nuts". Loss Prevention Fasteners. Ultra Fasteners Inc. Olingan 2015-09-25.
  59. ^ U.S. Bureau of Naval Personnel (1973). Tools and Their Uses. Courier Dover nashrlari. p. 13. ISBN  0-486-22022-2.
  60. ^ US patent 1075710, Goodwin, Dwight S., "Set-screw or the like.", issued 1913-10-14 
  61. ^ "About Bristol Wrench Spline Drive Bits". 2016-10-21. Arxivlandi asl nusxasi 2016-10-21 kunlari. Olingan 2019-11-23.
  62. ^ David Galloway. "Remove Screws with Broken Heads Using a Drill Chuck". Lifehacker.com. Olingan 2015-12-24.
  63. ^ "Ribe – Your development partner for fastening systems". Ribe Verbindungstechnik.
  64. ^ "Avsafe". www.losspreventionfasteners.com. Olingan 2017-02-28.
  65. ^ "Key-Rex Security Screws". Arxivlandi asl nusxasi 2008-03-18. Olingan 2008-04-02. The keyway is licensed and private for each user (Current KeyRex page )
  66. ^ McMaster-Carr catalog (116th ed.). p. 3056. Olingan 2010-05-06.Needs login
  67. ^ "tamperproof.com online catalog". Olingan 2012-08-23.
  68. ^ "Spanner-Bolts". Loss Prevention Fasteners. Ultra Fasteners Inc. Olingan 2015-09-25.
  69. ^ McMaster-Carr catalog (116th ed.). p. 2821. Olingan 2011-09-26.Needs login
  70. ^ "ISO Fastener Standards Should Be Referenced for All Metric Fasteners" (PDF).
  71. ^ Transactions of Technical Conference on Metric Mechanical Fasteners. American National Standards Institute. 1975. p. 67.
  72. ^ "Phillips Screw Company". Phillips-screw.com. Olingan 2017-05-01.
  73. ^ "Phillips Screw Company". Phillips-screw.com. Olingan 2014-03-20.
  74. ^ "Triangular recesses and heads". Screw drive systems. Olingan 2017-09-02.
  75. ^ "MTI Catalog" (PDF). moodytools.com. Olingan 2014-01-10.
  76. ^ "How-To: Understand and unlock Apple's Mac and iPhone security screws". 9to5Mac. May 5, 2015. Olingan 28 fevral 2017.
  77. ^ "Tri-point Y000 Screwdriver (for Apple Watch and iPhone 7)". iFixit. Olingan 28 fevral 2017.
  78. ^ "TP3". Olingan 2009-05-23.
  79. ^ Tri-Wing Screwdriver. "Tri-wing screwdriver: Types". Triwingscrewdrivers.com. Olingan 2012-03-12.
  80. ^ "Security Fasteners". www.stanleyfasteners.com. Olingan 2017-02-28.
  81. ^ "Fastener Superstore Fastener Guide".

Umumiy bibliografiya

Tashqi havolalar