US3063237A

US3063237A - Method of making one piece sprocket links

Info

Publication number: US3063237A
Application number: US701814A
Authority: US
Inventors: Eugene W Onulak
Original assignee: LOCKE STEEL CHAIN CO
Current assignee: ALLIED-LOCKE INDUSTRIES INCORPORATED GREEN RIVER INDUST PARK US 30 DIXON IL A CORP OF IL; Stellar Industries Inc
Priority date: 1957-12-10
Filing date: 1957-12-10
Publication date: 1962-11-13
Anticipated expiration: 1979-11-13

Description

Nov. 13, 1962 E. w. ONULAK 3,063,237

METHOD OF MAKING ONE PIECE SPROCKET LINKS Filed Dec. 10, 1957 4 SheetsSheet 1 ZNDFEEDING 5LIDE:

INVENTOR.

Euqerus w. Or ulak A T TORNE Y5 Nov. 13, 1962 E. w. ONULAK 3,063,237

METHOD OF MAKING .ONE PIECE SPROCKET LINKS Filed Dec. 10, 1957 4 Sheets-Sheet 2 ATTORNEYS E. w. ONULAK 3,063,237

METHOD OF MAKING ONE PIECE SPROCKET LINKS 4 Sheets-Sheet 3 Nov. 13,1962

Filed Dec. 10, 1957 LLB ' INVENTOR. Eugene LU.Onulak. BY

rum wan gyms/3am ATTORNEYS Nov. 13, 1962 E. w. ONULAK 3,063,237

METHOD OF MAKING ONE PIECE SPROCKET LINKS Filed Dec. 10, 1957 4 Sheets-Sheet 4 0 m I 71F l4], IZ

INVENTOR.

- ATTORNEYS bushing.

United States PatentiO 3,063,237 7 7 METHOD OF MAKING ONE PIECE SPROCKET LINKS Eugene W. ()nulak, Trumbull, Conn., assiguor to The Locke Steel Chain Company, Bridgeport, Conn., a corporation of Connecticut Filed Dec. 10, 1957, Ser. No. 701,814 8 Claims. (Cl. 598) This invention relates to a method and an apparatus for forming integral chain links adapted to be joined together to form a conveyor or similar chain.

The invention is particularly adapted to form chain links of a type similar to those shown in Patent No. 2,793,536. Such a link is formed from a blank having longitudinally extending legs on either side of a cylindrically shaped hollow bushing. This bushing is formed by a separate apparatus, such as that shown in copending application Serial No. 661,648, filed May 27, 1957, now Patent No. 2,968,913, issued January 24, 1961, which may be set up so as to feed the blanks to the magazine of the instant apparatus, and thus form a single continuous machine. In bending the legs of the blank to a position where they enclose the bushing and are generally parallel to each other, it is imperative that the fold.at the juncture be formed so that the metal at the fold is not weakened to any significant degree. Also, it is' desirable to have a relatively sharp bend atthe proper place without the bend being too sharp. It has been found that by first'partially bending the legs, and then completing the bending of the legs by utilizing force which is both downward and inward, there is no material weakening of the link at the fold line and also the fold'will be at the proper place. f

It is also important, in the formation of integral chain links, that the distance between the axisof the cylindrical bushing and the hole which is formed in the free'ends' of the legs be uniform in each chain link which is formed. To accomplish this result, this invention provides a method and an apparatus for properly positioning the blank so that the hole is pierced at a predetermined distance from the axis of the bushing. 1

It is an object of this invention to provide a'continuou's machine for bending the leg's'of a blank to a position where the legs enclose the cylindrical bushing of the link and are perpendicular to the axis of said bushing, and for piercing holes in the free ends of the legs a predetermined distance from said bushing.

It is another object of this invention to provide a method for forming chain links in which the strength ofthe link adjacent the fold lines between the bushing and the legs is not materially affected. V

A further object of this invention is to provide a method for positioning the blanks so that holes are pierced in the legs of all blanks an equal and predetermined distance from their respective bushings.

It is a further object. of this invention to provide a mechanism for properly positioning a blank prior to the piercing of the legs thereof, so that all of the links passing through the mechanism have holes pierced in their legs an equal and predetermined distance from their respective bushings.

It is a still further further object of this invention to provide a mechanism for properly positioning the blank, which mechanism first depresses the blank below its piercing position and then gradually raises the link by positioning pins, so that all the links will have their legs pierced an equal and predetermined distance from the axis of the The apparatus for forming an integral chain link'from extending outwardly from said bushing includes, means for partially bending the legs adjacent their juncture with the bushing and means for bending the partially bent legs to a position perpendicular to the axis of the bushing and generally parallel to each other. Means are also provided for piercing holes in the free ends of the completely bent legs a predetermined distance from the axis of the bushing.

In a further aspect, it has been found desirable to have a continuous machine with various stations through which each blank is fed sequentially by reciprocating feeding slides, so that all of the means set forth in the paragraph above will operate simultaneously on different blanks.

The foregoing and other objects, features and advantages hereof will become apparent from the following description and drawings which are merely exemplary.

In the drawings:

FIG. 1 is an isometric schematic view of the apparatus of the invention with certain parts omitted for clarity; FIG. 1a is an enlarged schematic view of the magazine feeding mechanism utilized in the invention, when in its 3 non-feed position;

of the type utilized in the apparatus of the invention;

FIG. 5 is an enlarged view of the final folding mechani'sm;

FIG. 6 is an enlarged view of a bushing being held in position in the folding dies of FIG. 2;

FIG. 7 is an elevational view of the positioning and piercing mechanism of the invention;

FIG. 8 is a side view of a completed chain link; FIG. 9 is a front elevational view of the link of FIG. 8; FIGS. 10, l1 and 12 are views showing various steps in the positioning and piercing operations of the device of FIG. 7, in which,

'FIG. 10 shows the mechanism prior to the of the link;

FIG. 11 shows the mechanism after the depression of depressing I the link; and

a blank having a. cylindrical bushing thereon and legs I FIG. 12 shows the mechanism after the link is raised into proper position by the mechanism;

FIG. 13 is a fragmentary view of an arrangement wherein the piercing is performed on both legs simultaneously; and FIG. 14 is a diagrammatic side elevational view of the positioning and piercing station. FIG. 1 is a diagrammatic view of a preferred form of apparatus for forming chain links of the type shown in FIGS. 8 and 9 from a blank of the type shown in full lines in FIG. 4. The apparatus generally includes a feeding mechanism, shown at 20, a first folding station, a

second folding station, and two piercing stations. It may also include a sizing operation after the second folding station. The blanks B are fed step-by-step through the appratus by feeding slides designated in FIG. 1 as the 1st, 2nd and 3rd feeding slides. All of the feeding slides reciprocate in unison so that the blanks are advanced a step at a time through the apparatus during the forward stroke of the reciprocating slides, thereby resulting in con,- tinuous operation of the entire apparatus at all times- The feeding mechanism 20 includes a horizontal magazine or table 21 having a recessed portion 22 in which the cylindrical bushing 23 of blanks B are placed. The

magazine is mounted above the plane of the remainder of the apparatus and is spaced rearwardly from the entrance end of the apparatus. A pair of inclined rods 24 connect the forward end of the magazine to the rearward end of the apparatus so that blanks which are fed by feeding means (not shown) to the rods move downwardly by gravity. The lead or lowest blank is engaged by an upwardly urged, vertically movable stop 25. In order to feed the lead blank from the rods into the operating portion of the apparatus, a plunger 26 (FIGS. la, lb) is provided which moves downwardly from its FIG. lw position to its FIG. 1b position prior to the forward or advance stroke of the first feeding slide. The downward movement of plunger 26 forces the lead blank and stops 25 downwardly until the legs of the blank come into engagement with the surface 27. Stops 25 are then below the level of surface 27 where they will not interfere with the advancement of the lead blank when the first feeding slide moves through the advancing portion of its cycle of operation. The downward movement of the next succeeding blank is prevented by the vertical face of plunger 26. As plunger 26 moves upwardly from its FIG. lb position to its FIG. 1a position, said next succeeding blank moves downwardly to engage stops 25 which have moved upwardly to their FIG. la position. The cycle of feeding is then repeated for the next succeeding blank. The structure just described results in the advancing of one blank B into the apparatus for each reciprocatory movement of the feeding slides.

The first feeding slide serves to move the blanks to the first folding station, shown generally at 28. As will be described hereafter, at this station, the legs 29 of the blank are bent adjacent their juncture with bushing 23 so that they are at an angle to the axis of the bushing. This angle is preferably about 45 but may be any desired angle. The angle is chosen so to result in the satisfactory first upsetting of the metal adjacent the bushing. The mechanism preferably used for performing this partial bending is best illustrated in FIGS. 2 and 3, and includes a lower die member 30 and a vertically movable press member 31.

Lower die member 30 is formed with sloping side walls 32. A block mounted in a slot in die member 30 has a cavity in its upper surface for receiving bushing 23 and is spring pressed upwardly by spring 33 to engage the bottom of bushing 23 and hold legs 29 away from the top surface of die member 30 when the press member 31 is in its raised or FIG. 2 position.

Press member 31 has an outer portion 35 to which upper die member 36 is fixedly attached. Mounted slidingly within a cavity in portion 35 is a frame member 37 which is biased downwardly by springs 38. Bars or legs 39 extend downwardly from frame member 37 and are below the bottom of upper die member 36 when press member 31 is in its raised or FIG. 2 position. Press member 31 is moved down by suitable means, such as a piston arrangement (not shown).

As press member 31 moves downwardly, the bars 39 engage blank B; the center bar, which is preferably resilient, engaging bushing 23 and the outer bars engaging legs 29. Further downward movement of the press member depresses blank B and block 34 to properly position the blank and hold it in this position. The continuing downward movement of press member 31 causes frame member 37 to move relative to outer portion 35 against the action of springs 38, such being closely adjacent the bushing. This results in upper die member 36 engaging the legs 29 so that they bend the legs downwardly. In order to ensure the proper alignment of legs 29 against the sides, upper die member 36 may have downwardly inclined faces 40. Preferably these faces are formed on inserts 41 which may be replaced as needed.

The blank is then advanced from the first folding station 28 to second folding station 42 by the second feeding slide. At this station the paritally bent legs29 are bent to a position generally perpendicular to the axis of bushing 23 and enclosing the main portion of the bushing, as shown in FIG. 9. The final bending is accomplished about a lower die member 43 (FIG. 5) which has sides shaped to conform to the desired shape of the legs of the completed link. A pair of members 44, pivoted at 45, have inner faces also shaped so as to conform to the shape of the legs of the completed link. The lower die member has a cavity for receiving bushing 23 and holding the blank B in proper position. Members 44 are generally in the form of a bell crank and may have rollers 47 attached to the upper ends of legs 48. Spring 49 biases legs 48 toward each other. A suitably operated press member 50 is adapted to engage rollers 47. As press member 50 moves downwardly, legs 48 are forced away from each other against the action of spring 49. The lower legs of members 44 are moved inwardly and downwardly as the members are pivoted about pivots 45. When press member 50 reaches the lowermost portion of the stroke, the parts are in the broken line position of FIG. 5.

By first folding the legs 29 to a position where they are inclined at an angle of approximately 45 from the axis of bushing 23 with a vertically downward force, and then completing the bending of the legs by a combined downward and inward force, it has been found that the junctures between the legs and the bushing of the completed link are substantially stronger than if the legs were bent by conventional methods.

After completion of the folding of legs 29 the blanks are advanced to the piercing

stations

51 and 52 by the third reciprocating feeding slide. The operations performed at each of these stations are the same, except that they are performed on different legs of blank B.

The mechanism which is preferably used to pierce holes in the free ends of legs 29 is best shown in FIG. 7. The blanks B are moved sequentially from the folding station 28, to piercing station 51 and then to piercing station 52, along lower die member 43, during the forward portion of the reciprocating stroke of the third feeding slide. At each of the piercing stations, lower die member 43 has a depression formed in its upper surface which is slightly wider than the diameter of bushing 23.

As the blank B is moved to either of the piercing stations the mechanism at the related station is actuated. This mechanism includes a vertically reciprocating head 54 upon which is secured a downwardly extending piston 55 and a pair of downwardly extending bars 56. The lower ends of bars 56 are formed so as to fit in slots 57 in the machine support. Bars 56 have flanges 58 extending perpendicularly thereto. These flanges are in clined downwardly and outwardly so as to form a cam surface. On either side of lower die member 43 there is an'element 59 which is slidable on upper surface 60 of the machine support. On the outer ends of each of the elements 59 is a U-shaped extension 61 which extends over the front of its respective flange 58 so that as bar 56 moves up and down in slot 57, it will engage either the outer or the inner leg of extension 61 to move element 59 either outwardly or inwardly relative to the lower die member 43.

As shown in FIG. 7, both of the elements 59 have a pair of positioning pins 62 extending inwardly from an upper portion thereof. These elements have downwardly and inwardly inclined surfaces 63. Blank B is held above the top surface of the depression in the lower die member by a pair of spring pressed elements 64 which engage the lower edges of legs 29. Spring pressed elements 64 may have an extension 64A fitting in slot 64B of base element 43A, which is omitted from FIG. 1 for clarity. Elements 64 are urged upwardly by springs 65.

In the preferred form of mechanism where a hole is punched in one leg at each of the piercing stations, the apropriate element 59 has a pin 66 extending inwardly a predetermined distance below its respective pin 62. A passage 67 is formed in lower die member 43 immediately l opposite pin .66. This passage provides for the disposal of the metal waste punched from leg 29 by pin 66. If the piercing is to be accomplished at a single station as seen in FIG. 13, insert 70 may be provided having cross passage 71 with vertical passage 72. The projection 73 serves as a key to prevent side motion. Air passages 74 can be used to furnish air to assist the movement of the scrap through passage 72.

The operation at the piercing stations will be described in conjunction with FIGS. 10, 11 and 12 which show the position of the operating elements at various stages in the piercing operation. As head 54 is moved downwardly by suitable means, a pad 68 on the lower portion of piston 55 engages the upper surface of bushing 23 and urges it downwardly against the upper surface 69 of the depression in lower die member 43. Pad 68 is preferably formed of a resilient material for a purpose to be described later. As head 54 continues to move downwardly, flanges 58 engage the inner legs of U-shaped members 61 and move elements 59 inwardly toward blank B. When the lower portion of bushing 23 is in engagement with surface 69 the inner surface of the upper portion of bushing 23 is below the upper surface of pins 62. As pins 62 continue their inward movement, said upper surface is engaged by inclined faces 63 and blank B is raised a small distance upwardly and pad 68 is compressed. The parts are then in the position seen in FIG. 12 where blank B is properly positioned between resilient pad 68 and the upper surface of pins 62. Furtherdownward movement of head 54 forces pin 66 against its cooperating leg 29 and causes pin 66 to pierce said leg and form a hole therein a predetermined distance p (FIG. 8) from the lower surface of the upper portion of bushing 23. The other leg 24 will have a hole punched init and at the second piercing station by a mechanism identical with that just described, except that pin 66 will be on the element 59 on the opposite side of lower die member 43 and the scrap passage 67 will open to the opposite side of said lower die member.

The particular mode of operation, shown in FIGS. 10, 11 and 1 2, of depressing the blank below the level of the positioning pins 62 and then raising the blank by the positioning pins against the action of plunger 55 and pad 68 results in the exact positioning of the hole in the lower end of all legs 29 on all blanks which pass through the machine. This accurate positioning is of extreme importance since the completed links are joined together to form a conveyor chain, and the bushing 23- of each blank must fit between legs 29, so that the hollow portion of cylindrical bushing 23 is in accurate alignment with the holes formed in the lower ends of legs 29 of the adjacent link. This permits the ready insertion of pins through the holes and the hollow portion of bushing 23, so that a chain of desired length may be readily formed.

In order to ensure the proper location of the holes re1ative to the sides of the legs 29, the lower die has a nest or slot 75 (FIG, 14) formed therein (for each of the positioning and piercing stations) into which the legs fit upon depression of the blank at the respective station..

The slots have been omitted in FIG. 1 in the interests of clarity since this is a schematic view.

From the above detailed description it can be seen that there has been provided a continuous apparatus for forming a one piece chain link in which the legs are bent to a position vertical to the axis of the bushing of the link, without any undue weakening of the juncture. The apparatus also results in all of the links having holes formed in the ends of the legs a predetermined distance from the axis of the bushing thereof. The apparatus described produces links having uniform characteristics, so that they may be readily formed into strong and inexpensive convevor or drive chains.

It has been found desirable in some instances to burnish the apertures of the legs 29 preceding the positioning or piercing of the blank at the piercing station. This may be accomplished by mounting pins (not shown) of proper contour on the piercing slides at a location preceding the piercing pin locating means and after final folding, thereby shaping the bushing hole.

It is to be understood that the described exemplary embodiment is merely intended for the purpose of illustration, and that the principles of the invention are not intended to be limited thereto, except as defined in the appended claims.

What is claimed is:

1. In a method for folding apertured legs of a blank having a cylindrical bushing from which said legs extend outwardly in opposite directions with the apertures thereof closely adjacent to the junctures with said bushing, the combination comprising the steps of holding said bushing and then partially bending said legs toward the bushing adjacent their apertures and junctures with said bushing by a vertical downward force applied to said legs at the area of said junctures between said bushing and apertures at a first station, and then at a second station bending said partially bent legs about said junctures to a position perpendicular to the axis of said bushing by applying a combined downward and inwardforce against said partially bent legs to thereby form a generally U -shaped link wherein the bushing and said apertures are in alignment.

2. In a method for folding apertured legs of a blank having a cylindrical bushing from which said legs extend outwardly in opposite directions with the apertures thereof closely adjacent to. the junctures with said bushing, the combination comprising the steps of holding said bushing and then partially bending said legs toward the bushing adjacent their apertures and junctures with said bushing about a diemember having downwardly and outwardly inclined walls by directing a vertical downward force against said legs at the area of said juncture between said bushing and apertures from a die having surfaces adapted to mate with said downwardly and outwardly inclined walls, advancingsaid blank from said inclined diememher to a die member having generally vertical side walls, and bending said partially bent legs about said junctures against said vertical side walled die member by applying a combined downward and inward force against said partially bent legs to thereby form a'generally U-shaped link wherein the bushing andisaid apertures are in alignment.

3. In a method for folding the legs ,of an apertured blank having a cylindrical bushing from which said legs extend outwardly in opposite directions with the apertures thereof closely adjacent to the junctures of said legs with said bushing, the combination comprising the steps of positioning the bushing on the upper surface of a die member having inclined side surfaces and an upwardly biased support for said bushing, depressing said'blank against said biased support so that said bushing is held to properly locate said blank relative to said inclined side surfaces, applying a downward force to each of said legs simultaneously at the area of said junctures between said bushing and apertures while said bushing is held in said proper location so as to bend said legs against said inclined surfaces, advancing said blank from said inclined die member to a die member having generally perpendicular side walls, and applying a combined downward and inward force against each of the partially bent legs simultaneously so as to bend said legs at their juncture with said bushing against said generally perpendicular side walls to thereby form a generally U-shaped link wherein the bushing and said apertures are in alignment.

4. A method of forming holes in the free ends of apertured legs of a generally Ushaped chain link having a hollow cylindrical bushing, comprising the steps of resiliently urging said link away from the upper surface of a lower die member, resiliently depressing said link to a position against said upper surface, positively raising said link a small distance above said surface by inserting guide means in said apertures to properly position the leg apertures relative to piercing means which are fixed in position relative to said guide means, and by means of said piercing means piercing a hole in the free end of each of said legs a predetermined distance from the lower surface of the upper portion of said bushing.

5. -In a method for forming an integral chain link from a blank having a cylindrical bushing thereon and legs extending outwardly from said bushing, each of said legs having an opening therein adjacent said bushing, the combination comprising the steps of partially bending said legs adjacent their junctions with said bushing, then bending said partially bent legs adjacent their junctions to a position perpendicular to the axis of said bushing and generally parallel to each other so that said openings are aligned with the axis of said bushing, positively positioning by inserting guide means in said openings and holding said openings in a predetermined location to position the openings in said legs relative to piercing means which are fixed in position relative to said guide means, then by said piercing means piercing the free end of each of said legs a predetermined distance from the lower surface of the upper portion of said bushing.

6. In a method for forming an integral chain link from a blank having a cylindrical bushing thereon and legs extending outwardly from said bushing, each of said legs having an opening therein adjacent said bushing, the combination comprising the steps of partially bending said legs about a die member having outwardly inclined walls, advancing said blank from said inclined die memher to a die member having generally vertical walls, bending said partially bent legs against said vertical walled die member so that said openings are aligned with the axis of said bushing, advancing said blank from said vertical walled die member to a positioning and piercing station, positively positioning by inserting guide means in said openings and holding said openings in a predetermined location to position the openings in said legs relative to piercing means which are fixed in position relative to said guide means, then by means of said piercing means piercing the free end of each of said legs a predetermined distance from the lower surface of the upper portion of said bushing.

7. In a method of forming an integral chain link from a blank having a cylindrical bushing and a pair of legs extending outwardly in opposite directions from said bushing, each of said legs having an opening therein adjacent said bushing, a combination comprising the steps of positioning said bushing on the upper surface of a die member having inclined side surfaces, depressing said blank while said bushing is held to properly locate said blank relative to said inclined side surfaces, applying a downward force to each of said legs simultaneously while said bushing is held in said proper location so as to bend said legs against said inclined surfaces, advancing said blank from said inclined die member to a second die member having generally perpendicular side walls, applying an inward and downward force to each of said til legs simultaneously so as to press said legs against said generally perpendicular side surfaces so that said openings are aligned with the axis of said bushing, advancing said blank from said second die member to a first positioning and piercing station, positively positioning by inserting guide means in said openings and holding said openings in a predetermined location to position the openings in said legs relative to piercing means which are fixed in position relative to said guide means, by means of said piercing means piercing the free end of one of said legs a predetermined distance from the lower surface of the upper portion of said bushing, advancing said blank from said first positioning and piercing station to a second positioning and piercing station, positively positioning by inserting guide means in said openings and holding said openings in a second similar relative location at said second station, and 'by means of said piercing means piercing the free end of the other of said legs at the same predetermined distance from said bushing lower surface.

8. A method of forming holes in the free ends of the legs of a generally U-shaped chain link having a hollow cylindrical bushing, each of said legs having an opening therein adjacent said bushing, comprising the steps of advancing said link to a first piercing station, resiliently depressing said link against a supporting surface, then positively raising said link by inserting guide means in said openings to position said openings in a predetermined location to position the openings in said legs relative to piercing means which are fixed in position relative to said guide means, by means of said piercing means piercing a hole in the free end of one of said legs a predetermined distance from said bushing lower surface while the link is in its raised position, releasing said link, advancing said link to a second piercing station, resiliently depressing said link against a second supporting surface, then positively raising said link by inserting guide means in said openings to properly position said openings in a second similar relative location, and then by means of said piercing means piercing a hole in the free end of the other of said legs at the same predetermined distance from said bushing lower surface while the link is in its raised position.

References Cited in the file of this patent UNITED STATES PATENTS 1,448,663 Hoya Mar; 13, 1923 1,503,884 Curtis Aug. 5, 1924 1,796,594 Dull Mar. 17, 1934 1,962,432 Daley June 12, 1934 2,155,626 Weiss Apr. 25, 1939 2,266,997 Sherman Dec. 23, 1941 2,362,006 Herzog Nov. 7, 1944 2,445,093 Von Cseh July 13, 1948 2,665,547 So derland Jan. 12, 1954 2,793,536 Onulak May 28, 1957 2,857,735 Mashl Oct. 28, 1958 UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No, 3 O63 237 November l3 1962 Eugene W. Onulak or appears in the above numbered pat- It is hereby certified that err d Letters Patent should read as ent requiring correction and that the sai corrected below.

line 64 strike out "further" second occurrence;

Column I column 5 line 42 after 'block" insert 34 line 74 for ""paritally" read partially column 4 line 73 for "epropriate" read appropriate column 5 line 35, strike line 35 for "juncture" read junctures out and; column or Signed and sealed this 10th day of December 1963c SEAL) Attest:

EDWIN L. REYNOLDS ERNEST W. SWIDER L I U I Ac t, i ng Commissioner of Patents Attesting Officer