US3633634A

US3633634A - Lead straightening machine

Info

Publication number: US3633634A
Application number: US813423A
Authority: US
Inventors: Ernest J Bryner; Gard W Wolcott
Original assignee: SIGMA ENGINEERING SERVICE Inc
Current assignee: SIGMA ENGINEERING SERVICE Inc
Priority date: 1969-04-04
Filing date: 1969-04-04
Publication date: 1972-01-11
Anticipated expiration: 1989-01-11

Abstract

The disclosure describes a straightening machine for lead wires. The machine has concave straightening shoes with complementary shaped straightening rollers supported in closely spaced relation to the concavity of the shoes. The straightening shoes are supported by tension spring which apply a uniform pressure to the bottom of the shoes as the lead wires of the components pass between the rollers and the shoes. A limited travel adjusting screw is disposed in the bottom of the shoes thus providing fine adjustment between the shoes and the rollers. The shoes are made of a dielectric material which will not contaminate the work and is resistant to wear. The straightening surface of the shoes is progressively sloped and this, combined with the variable pressure and clearance adjustment, gives advantages not found in prior machines. No separate means is required for driving the components through the machine since the straightening action also drives the components through the machine. Jamming of the parts in the machine is practically eliminated.

Description

United States Patent 72] Inventors Ernest J. Bryner;

Gard W. Wolcott, both of Bradford, Pa. [2 1] Appl. No. 813,423 [22] Filed Apr. 4, 1969 [45] Patented Jan. 11, 1972 [7 3] Assignee Sigma Engineering Service, Inc.

Custer City, Pa.

[54] LEAD STRAIGHTENING MACHINE 8 Claims, 3 Drawing Figs.

[52] 0.8. CI 140/147, 72/93, 72/94, 72/DIG. 4 [51] Int. Cl B2lf1/02 [50] Field oi Search 140/ l 47; 72/92, 93, 94, DIG. l

[56] References Cited UNITED STATES PATENTS 2,860,686 11/1958 Frank et al 72/94 2,867,262 [[1959 Ainsworth et al.... 140/147 3,146,805 911964 Bryner et al. 140/147 3,186,447 6/]965 Wilson etal.

Primary E.raminerLowell A. Larson Attorney-Charles L. Lovercheck ABSTRACT: The disclosure describes a straightening machine for lead wires. The machine has concave straightening shoes with complementary shaped straightening rollers supported in closely spaced relation to the concavity of the shoes. The straightening shoes are supported by tension spring which apply a uniform pressure to the bottom of the shoes as the lead wires of the components pass between the rollers and the shoes. A limited travel adjusting screw is disposed in the bottom of the shoes thus providing fine adjustment between the shoes and the rollers. The shoes are made of a dielectric material which will not contaminate the work and is resistant to wear. The straightening surface of the shoes is progressively sloped and this, combined with the variable pressure and clearance adjustment, gives advantages not found in prior machines. No separate means is required for driving the components through the machine since the straightening action also drives the components through the machine. Jamming of the parts in the machine is practically eliminated.

PATENTEB .mu 1 m2 31533334 SHEETl [1F 3 Fig.1

M N INVENTORS ERNEST J. BRYNER GARD W. WOLCOTT PATENTEU JAIN 1 1972 SHEET 2 [IF 3 Fig.2

INVENTORS ERNEST J. BRYNER ATTORNEY PATENTEU JAIN 1 72 SHEET 3 [IF 3 ullll 'd INVENTORS ERNEST J. BRVNER ATTORNEY LEAD STRAIGIITENING MACHINE BACKGROUND OF INVENTION This invention relates to straightening machines and, more particularly, to machines for straightening lead wires on electrical components.

DESCRIPTION OF PRIOR ART This machine constitutes an improvement over prior machines and over U.S. Pat. No. 3,146,805 which shows a lead straightening device which does not have all of the ad vantages and improvements of the machine disclosed herein.

OBJECTS OF THE INVENTION It is an object of the invention to provide an improved lead straightening machine.

Another object of the invention 7 is to provide a lead straightening machine that is simple in construction, economical to manufacture, and simple and efficient to use.

Another object is to provide a lead straightening machine that is fully automatic and in which leaded components are fed from a rotary bowl-type feeder controlled by a small compact all solid-state circuit disposed in a panel box which provides the necessary power, rectifiers and photoelectric sensors in a unique arrangement shown to assure the proper feeding of components.

Another object is to provide an improved feeder hopper designed to orient and align components as they are discharged from the bowl feeder and which is adjustable to any length component.

Another object is to provide a parts chute which will not readily jam and is easily adjustable to varying different part sizes.

Another object is to provide a rotary wheel which serves as an escapement in removing components from the bottom of the chute without abrasion to the part leaving the bent wires free to turn as the component advances to the straightening assembly.

Another object is to provide a novel shape of he body wheel providing a resilient fingerlike scallop which imparts a spin to he component body as it enters the V-notch formed by the straightening shoes and the roller.

Another object is to provide floating straightening shoes in which four tension springs apply uniform pressure to the shoes, The bottom of the shoes are drilled and tapped to receive adjusting screws, anchored to traveling blocks, thus permitting fine pressure adjustment.

Another object is to provide an improved material in combination with a straightening machine which material will re sist wear and will not contaminate the leads or other parts.

DESCRIPTION OF DRAWINGS FIG. 1 is a side view of the invention.

FIG. 2 is an end view of the invention.

FIG. 3 is a top view of the invention.

Now with more particular reference to the drawings, the machine according to the invention is supported on a base and the

ways

25 and 26 support the bearings 28. The support blocks are fixed to the base 10 by means of studs 27 which pass through the bottom of the base frame 10.

The bearings 28 likewise are fixed to the base 10 by means of studs 27 and these bearings 28 support the ways and 26. The blocks 29 are also slidably supported on

ways

25 and 26 and blocks 29 may be moved axially along the

ways

25 and 26 by adjusting the handwheel 23 which is connected to a threaded screw 31 which enters the ways.

The straightening shoes 52 are supported on the blocks 29 by means of tension springs 60 which are attached at one end to the blocks 29 and by the other end to the straightening shoes. The straightening shoes are made of a dielectric material such as micarta. The straightening shoes have a concave top surface 53 which is disposed in close spaced relation to the outer periphery of the straightening rolls 54. Straightening rolls 54 are supported on shaft 24 which is journaled in support blocks 20. The shaft 2d is driven by the motor I5 which is supported on a base 55 on the support base 10. The motor 15 has a gear reduction unit 56 which drives the shaft 24 through a coupling 57.

The straightening rolls 54 are designed in two pieces providing roller hubs and an easily removable sleeve made .of a dielectric resilient long wearing material such as polyurethane. The dielectric material will not contaminate the axial leads, the resiliency is critical to grabbing" or starting the wires through the straightening assembly and the long wearing characteristic is necessary for economical operation. The ends of the rolls remote from each other are smaller in diameter than the ends adjacent each other so that a sloping, straightening surface is provided for gradually increasing the working surface of the shoes. The sloped surface, when combined with variable pressure and clearance adjustment, is critical to the successful straightening of axial leaded components.

The shoes 52 float in four adjusting tension springs 60 which apply uniform pressure to the bottom of the shoes as components pass between the shoes and the rollers 54, The bottom of the shoes are drilled and tapped to permit insertion of a limiting travel adjustment screw 61.

The body wheel 21 is supported on the frame on a bracket 31 which is fixed to the frame by studs 32. The body wheel 21 rotates about an axis 33 and it has notches 34 which receive leads of components that slide down the slot 35 between the upper plate 50 and the lower plate 51 of the waterfall feeding chute. The waterfall feeding chute has spaced plate 50 and spaced plate 51 between which the bodies pass from the feed hopper 30 so that the bodies pass between the plates 51 and the leads extending out through the groove 35 and when each component drops down to the bottom of the chute, its lead wires are picked up by the notches 34 and it is carried onto the V-shaped notch 36 formed by the straightening roller 54 and the shoe 52. The bowl-type feeder I1 is supported on top of the base 16 and a suitable control panel is provided for housing the electrical controls for the machine. The

plates

50 and 51 may be held in suitable spaced relation to each other by the adjusting

bolts

37 and 38. Thus, it will be seen that when articles having lead wires to be straightened, such as resistors and other electrical components, are placed in the bowl feeder 11. They are fed down a chute 12 into the straightening 30 from which they move into the waterfall chute made up of the

plates

50 and 51. They move down the waterfall chute to the body wheel 21 where they are picked up at the lower end of the groove 35 in the chute and are carried to the V-shaped notch 36, best shown in FIG 2.

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

1. A device for straightened thin deformable end members projecting from the ends of body members of articles of manufacture comprising a frame,

a pair of spaced straightening shoes having smooth concave surfaces,

means supporting said straightening shoes,

said means supporting said shoes comprising a tension spring having one end attached to each said shoe and the other end of each said spring attached to a block on said frame,

spaced straightening rollers rotatably supported on said frame,

means rotating said rollers,

said rollers peripheral surface generally conforming to the said concave surface,

an adjustment screw fixed to each said block and engaging each said block whereby the force of said spring on said block and the clearance between said rollers and said shoes may be adjusted,

means to feed articles having deformable wirelike end members projecting from their ends,

said means comprising a feeding chute,

said feeding chute comprising two upper plates spaced form each other and two lower plates spaced from each other and spaced from said upper plates and defining a groove between said upper plates ans said lower plates through which said wirelike end members may pass,

a body wheel disposed at the lower end of said upper plates and said lower plates,

said upper plate having a lower end with a surface overlying said body wheel, said lower end surface of said upper plates having a radius of curvature substantially equal to the radius of said body wheel,

the outer periphery of said body wheel being disposed adjacent the outer periphery of said straightening rollers and between said straightening shoes,

spaced notches in the outer periphery of said body wheel adapted to receive the bodies of said articles and to carry said articles from said space between said upper plates and said lower plates to said straightening rolls and to deposit said articles in the space between said straightening rolls and said straightening shoes.

2. The device recited in claim 1 wherein said rollers have a sloping straightening surface made up by each said roller having a smaller diameter at the end remote from the other said roller.

3. The device recited in claim 1 wherein said shoes are made of a dielectric material.

4. The device recited in claim 1 wherein said rollers are each made ofa cylindrical hub and a sleeve made of dielectric material.

5. The machine recited in claim 2 wherein said rollers are adjustable axially along their axis of rotation and said shoes are supported on axially extending rods,

said shoes are adjustable axially along said rods.

6. A device as defined in claim 1 wherein the concave surfaces of said shoes encircle said rollers for substantially more than 7. A device defined in claim 1 wherein said shoes are disposed vertically below said rollers. I 8. A device for axially straightening elongated articles of the type having a large body portion and thin deformable end members projecting from each end comprising, in combination,

a frame, a guiding track mounted thereon, a shaft journaled in said frame and spaced from and parallel to said track, a pair of rollers constituting the only means of moving the articles through the device, means mounting said rollers for angular movement with said shaft and relatively axial adjustment there-along. a shoe mount associated with each roller and movable on said track, a pressure shoe for eachshoe mount, means universally mounting each pressure shoe on a respective shoe mount for small rectilinear and angular move ments in all directions with respect thereto, said pressure shoe having a concave surface spaced slightly from, and conforming substantially to the curvature of the surface of its associated roller, whereby said shoes and rollers may be adjusted to the length of said body portion and substantially the entire end members may be subjected to straightening action between said rollers and said shoes, I a body wheel supported to rotate on an axis disposed parallel to the axis of rotation of said rollers, said body wheel having spaced notches therein, means to feed said articles bodies into said notches, said body wheel having means to rotate to deposit said bodies between said rollers and said shoes.

Claims

1. A device for straightened thin deformable end members projecting from the ends of body members of articles of manufacture comprising a frame, a pair of spaced straightening shoes having smooth concave surfaces, means supporting said straightening shoes, said means supporting said shoes comprising a tension spring having one end attached to each said shoe and the other end of each said spring attached to a block on said frame, spaced straightening rollers rotatably supported on said frame, means rotating said rollers, said rollers peripheral surface generally conforming to the said concave surface, an adjustment screw fixed to each said block and engaging each said block whereby the force of said spring on said block and the clearance between said rollers and said shoes may be adjusted, means to feed articles having deformable wirelike end members projecting from their ends, said means comprising a feeding chute, said feeding chute comprising two upper plates spaced form each other and two lower plates spaced from each other and spaced from said upper plates and defining a groove between said upper plates ans said lower plates through which said wirelike end members may pass, a body wheel disposed at the lower end of said upper plates and said lower plates, said upper plate having a lower end with a surface overlying said body wheel, said lower end surface of said upper plates having a radius of curvature substantially equal to the radius of said body wheel, the outer periphery of said body wheel being disposed adjacent the outer periphery of said straightening rollers and between said straightening shoes, spaced notches in the outer periphery of said body wheel adapted to receive the bodies of said articles and to carry said articles from said space between said upper plates and said lower plates to said straightening rolls and to deposit said articles in the space between said straightening rolls and said straightening shoes.

4. The device recited in claim 1 wherein said rollers are each made of a cylindrical hub and a sleeve made of dielectric material.

5. The machine recited in claim 2 wherein said rollers are adjustable axially along their axis of rotation and said shoes are supported on axially extending rods, said shoes are adjustable axially along said rods.

6. A device as defined in claim 1 wherein the concave surfaces of said shoes encircle said rollers for substantially more than 90*.

7. A device as defined in claim 1 wherein said shoes are disposed vertically below said rollers.

8. A device for axially straightening elongated articles of the type having a large body portion and thin deformable end members projecting from each end comprising, in combination, a frame, a guiding track mounted thereon, a shaft journaled in said frame and spaced from and parallel to said track, a pair of rollers constituting the only means of moving the articles through the device, means mounting said rollers for angular movement with said shaft and relatively axial adjustment therealong, a shoe mount associated with each roller and movable on said track, a pressure shoe for each shoe mount, means universally mounting each pressure shoe on a respective shoe mount for small rectilinear and angular movements in all directions with respect thereto, said pressure shoe having a concave surface spaced slightly from, and conforming substantially to the curvature of the surface of its associated roller, whereby said shoes and rollers may be adjusted to the length of said body portion and substantially the entire end members may be subjected to straightening action between said rollers and said shoes, a body wheel supported to rotate on an axis disposed parallel to the axis of rotation of said rollers, said body wheel having spaced notches therein, means to feed said articles bodies into said notches, said body wheel having means to rotate to deposit said bodies between said rollers and said shoes.