US45452A - watkins - Google Patents

watkins Download PDF

Info

Publication number
US45452A
US45452A US45452DA US45452A US 45452 A US45452 A US 45452A US 45452D A US45452D A US 45452DA US 45452 A US45452 A US 45452A
Authority
US
United States
Prior art keywords
tool
mandrel
machine
bolts
secured
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
Publication date
Application granted granted Critical
Publication of US45452A publication Critical patent/US45452A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B23MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
    • B23GTHREAD CUTTING; WORKING OF SCREWS, BOLT HEADS, OR NUTS, IN CONJUNCTION THEREWITH
    • B23G1/00Thread cutting; Automatic machines specially designed therefor
    • B23G1/16Thread cutting; Automatic machines specially designed therefor in holes of workpieces by taps
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T408/00Cutting by use of rotating axially moving tool
    • Y10T408/16Cutting by use of rotating axially moving tool with control means energized in response to activator stimulated by condition sensor
    • Y10T408/165Cutting by use of rotating axially moving tool with control means energized in response to activator stimulated by condition sensor to control Tool rotation

Definitions

  • A represents the main frame of the machine, which is made in any convenient form and supported by the legs a. c a., or any convenient device.
  • This frame forms the bearings for a stationary shaft, B, which is made hollow for thepurpose of conveying oil to the bearings of the wheels and pulleys.
  • O O are bevel-wheels, which turn loosely on the shaft B and to which motion is imparted by the pulleys D D', which are firmly connected to the same and revolve with them on the shaft B, being driven by a suitable belt, Oi, from the line-shaft Dit.
  • E E are loose pulleys, which are situated between the pulleys D D and support the belt C* when the machine stops. To effect this purpose the weight or spring which governs the position of the belt-shipper has to be disconnected and the belt shipper shifted to the requisite position by hand.
  • Two or more such shafts or mandrels are arranged side by side in one and the same frame, so that one operator is enabled to attend simultaneously to two or more devices.
  • the belts (3*, which impart motion to these mandrels, are shifted, it' desired, by the forked arms M of the bellcrank levers J M, which .are attached to roekshat'ts I that have their bearings in suitable boxes below the mandrels F.
  • the arms J of the bell-crank levers J M are loaded with weights L, and arms K, which are rmly secured to the rock-shafts I, are bent at right angles and extend out in front of the machine, so that they can be conveniently reached by the operator, or, if desired, said arms may be made to connect with suitable treadles to be operated by the feet.
  • the levers or arms K are held in a ho'rizontal position, or nearly so, by the action ot' the pawls Q, which are hinged to suitable lugs or ears projecting from the inner surface of the front cross-bar of the frame A.
  • the weights L turn the bell-crank levers J M in the direction of the arrows marked near them in Fig. 2, and the belts C* are carried to the pulleys D.
  • the arms K By depressing the arms K so that the same will be held by the pawls Q the belts are shifted to the pulleys D and the motion of the mandrel is reversed.
  • the bolts to be cut or, if desired, the taps used for tapping are secured in jaws T T', which are secured in carriages lt, moving ou slidesiS.
  • the jaws T T are adjusted and sescured to the slides by bolts b Ig b" 12', (see Fig. 3,) or one ot said jaws may be firmly secured in the required position and the other operated by the cam U and hand lever V.
  • the bolts b b', &c. pass through oblong slots in the jaws, so that the latter can be moved closer together or farther apart, according to the thickness of the article to be placed between them, and after said article has been adjusted in the proper position it is clamped by the action of the handlever V and cam U on the end of the jaw T.
  • Adjustable rods NV secured in the brackets X, which rise from the carriages It, serve to either of the carriages has moved to the desired point.
  • a tool, Y is used, which is secured to a shank, Z, in the interior of the hollow mandrel F, as clearly shown in Fig. 1 of the drawings.
  • the pin d which connects the same with the shank Z, is changed into either of the holes e e c 6 and nearly the whole "of the cutting-tool can be used.
  • the vcutting-tool Y is properly adjusted Within the mandrel F, and the bolt as it comes through t'le die comes in contact with the cutting-edge ot' said tool, which cuts oft' the corners as required. Itwill be seen that if the tool Y was rigid in the mandrel the chip taken by the cutting-tool would be equal to the thread of 4 the screw, and to avoid such a result the tool is free to slide back, being held only by a spring, i. By this arrangement the tool is enabled to take only the proper cut, and allowance is made for a certain amount ot' variation in the length of theloolts.
  • a chuck for holding the taps is used in place of the die, the nuts are held by the grip-jaws T T', and the machine is operated similar to other well'known machines used for the purpose.
  • the object in using one side of the machine for screwing and the other for tapping is that the operator will more readily detect any imperfection or wear in the taps or dies, insuring a perfect lit to the nut and bolt.
  • the gripping device7 constructed as herein described and shown, for holding round headed bolts and stud ends.77

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Press Drives And Press Lines (AREA)

Description

F. WATKINS.: Machine for Tpping Baita N0. 45,452. Pamed'nec-13, 1864.
' N. PETERS, nmvmhunprm wan-nume". at;
UNITED STATES PATENT OEEICE.
F. VVATKINS, OF LONDON WORKS, IN BIRMINGHAM, ENGLAND.
MACHINE FOR TAPPING B'OLTS.
Specification forming part of Letters Patent No. 45,452, dated December 13, 1864.
A ting Screw-Threads .upon Bolts and for Tapping Nuts; and I do hereby declare that the following is a full, clear, and exact description thereof, which will enable others skilled in the art to make and use the same, reference being had to the accompanying drawings, forming part of this specification, in which- Figure l represents a transverse vertical section of this invention. Fig. 2 is a plan or top view of the same. Fig. 3 is a detached elevation of the clamping device. Fig. 4 is a detached sectional view of the automatic beltshipper.
Similar letters` of reference indicate like parts.
A represents the main frame of the machine, which is made in any convenient form and supported by the legs a. c a., or any convenient device. This frame forms the bearings for a stationary shaft, B, which is made hollow for thepurpose of conveying oil to the bearings of the wheels and pulleys.
O O are bevel-wheels, which turn loosely on the shaft B and to which motion is imparted by the pulleys D D', which are firmly connected to the same and revolve with them on the shaft B, being driven by a suitable belt, Oi, from the line-shaft Dit.
E E are loose pulleys, which are situated between the pulleys D D and support the belt C* when the machine stops. To effect this purpose the weight or spring which governs the position of the belt-shipper has to be disconnected and the belt shipper shifted to the requisite position by hand.
The bevelwheels O O gear into a correspondin g bevelwheel, G, mounted on one end 'g release the pawls Q automatically as soon as of the hollow shaft or mandrel F, which ro` ta-tes in suitable bearings in the frame A, and the opposite end of which is supplied with a square socket to receive the die H or a suitable chuck for holding the taps. Two or more such shafts or mandrels are arranged side by side in one and the same frame, so that one operator is enabled to attend simultaneously to two or more devices. The belts (3*, which impart motion to these mandrels, are shifted, it' desired, by the forked arms M of the bellcrank levers J M, which .are attached to roekshat'ts I that have their bearings in suitable boxes below the mandrels F.
The arms J of the bell-crank levers J M are loaded with weights L, and arms K, which are rmly secured to the rock-shafts I, are bent at right angles and extend out in front of the machine, so that they can be conveniently reached by the operator, or, if desired, said arms may be made to connect with suitable treadles to be operated by the feet.
The levers or arms K are held in a ho'rizontal position, or nearly so, by the action ot' the pawls Q, which are hinged to suitable lugs or ears projecting from the inner surface of the front cross-bar of the frame A. When these pawls are pushed back, the weights L turn the bell-crank levers J M in the direction of the arrows marked near them in Fig. 2, and the belts C* are carried to the pulleys D. By depressing the arms K so that the same will be held by the pawls Q the belts are shifted to the pulleys D and the motion of the mandrel is reversed.
The bolts to be cut or, if desired, the taps used for tapping, are secured in jaws T T', which are secured in carriages lt, moving ou slidesiS. The jaws T T are adjusted and sescured to the slides by bolts b Ig b" 12', (see Fig. 3,) or one ot said jaws may be firmly secured in the required position and the other operated by the cam U and hand lever V. The bolts b b', &c., pass through oblong slots in the jaws, so that the latter can be moved closer together or farther apart, according to the thickness of the article to be placed between them, and after said article has been adjusted in the proper position it is clamped by the action of the handlever V and cam U on the end of the jaw T.
Adjustable rods NV, secured in the brackets X, which rise from the carriages It, serve to either of the carriages has moved to the desired point.
For the purpose ot' pointing and chamt'ering the bolts a tool, Y, is used, which is secured to a shank, Z, in the interior of the hollow mandrel F, as clearly shown in Fig. 1 of the drawings. As the point or cutting-edge ot' the tool ywears away, the pin d, which connects the same with the shank Z, is changed into either of the holes e e c 6 and nearly the whole "of the cutting-tool can be used.
' the carriage is drawn in the inner end of the The shank Z is held in place by a pin, j', which passes through a hole, h, in the mandrel F and through a slot, g, in said shank, causin g the same, together with the cuttin g-tool, to revolve with the mandrel, but allowing it to move freely back ward and forward. The pin f' can be adjusted by placing it in either ofthe holes It. A spring, t', which bears on an adjustable stop, k, in the mandrel forces the shank and the tool in the direction of the arrow marked thereouin Fig. l. y
The operation is as follows: Vhea the head of the bolt is secured between the jaws T T, the machine is putin motion by throwing the4 belt on the pulley D', which is accomplished by depressing thelever K until it is caught by the pawl Q. The carriage is then slid up until the bolt enters the die, and if a right hand die is used and the motion of the mandrel is from right to left, a thread is formed on the bolt, and the bolt together with the carriage is drawn toward the machine so long as the mandrel continues to revolve in that direction. As
rod W comes in contact with the upper end ot' the pawl Q, forcing the same back and releasing the lever K, so as to allow the Weight to fall and throw the band on the pulley D. The motion ot' the machine being thereby reversed, the screw is caused to back out ofthe die, from which it may be removed and the operation repeated.
When it is desired to point the bolts, the vcutting-tool Y is properly adjusted Within the mandrel F, and the bolt as it comes through t'le die comes in contact with the cutting-edge ot' said tool, which cuts oft' the corners as required. Itwill be seen thatif the tool Y was rigid in the mandrel the chip taken by the cutting-tool would be equal to the thread of 4 the screw, and to avoid such a result the tool is free to slide back, being held only by a spring, i. By this arrangement the tool is enabled to take only the proper cut, and allowance is made for a certain amount ot' variation in the length of theloolts.
To arrange the machine for tapping nuts, a chuck for holding the taps is used in place of the die, the nuts are held by the grip-jaws T T', and the machine is operated similar to other well'known machines used for the purpose.
The object in using one side of the machine for screwing and the other for tapping is that the operator will more readily detect any imperfection or wear in the taps or dies, insuring a perfect lit to the nut and bolt.
Having thus described n1yinvention,lelaim as new and desire to secure byLetters Paten t 1. The arrangement ot' the levers, weights, and pedals, substantially as herein described, for the `purpose ot reversing the motion of the machines.
2. The gripping device7 constructed as herein described and shown, for holding round headed bolts and stud ends.77
3. The hollow stationary axle, in combina-
US45452D watkins Expired - Lifetime US45452A (en)

Publications (1)

Publication Number Publication Date
US45452A true US45452A (en) 1864-12-13

Family

ID=2115013

Family Applications (1)

Application Number Title Priority Date Filing Date
US45452D Expired - Lifetime US45452A (en) watkins

Country Status (1)

Country Link
US (1) US45452A (en)

Similar Documents

Publication Publication Date Title
US45452A (en) watkins
US34467A (en) Improvement in machines for cutting twist-moldings
US43521A (en) Improved bolt-heading machine
US585151A (en) Swaging-machine
US368672A (en) Leather-cutting machine
US52415A (en) Improved bolt-screwing and nut-tapping machine
US388900A (en) millett
US654461A (en) Pipe-threading machine.
US444810A (en) Hub-boring machine
US53670A (en) Improvement in sawing-machines
US742015A (en) Felly compressing and boring machine.
US823952A (en) Woodworking-machine.
US543309A (en) Machine for cutting key seats
US680971A (en) Screw-thread-cutting machine.
US1909598A (en) Metal sawing machine
US62693A (en) Fkanzis schwbizeb
US430825A (en) Laterally-adjustable vise for bolt-cutting machines
US276671A (en) Machine for threading the points of lag-screws
US51355A (en) Improvement in machines for cutting threads on bolts
US161340A (en) Improvement in machines for tapping pipe-fittings
US298543A (en) Machine for turning insulator-pins
US65669A (en) Henky hassenpflug
US495839A (en) Polyhedral lathe
US246903A (en) Metal-turning lathe
US846117A (en) Machine for making bolts, pins, &c.