US2783728A - Apparatus for pressing sheet metal shapes - Google Patents

Description

APPARATUS EoR PREssING SHEET METAL sHAPEs Filed sept. 12. 1951 March 5, 1957 E o. HoFFMANN 5 Sheets-Sheet 2 W @M gwumw INVE'vToR.

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March 5, 1957 0, HOFFMANN 2,783,728

APPARATUS FOR PRESSING SHEET METAL SHPES vFiled Sept. 1;.;"195J1 I 3g 36 j//////&///////////////////////////////////\//W5 7 @i \\\\\\\\\\\\\\m\x\ Ei; *g

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APPARATUS Fox PREssING SHEET METAL sHAPEs Filed sept. 12. 1951 March 5, 1957 o. HOFFMANN 5 Sheets-Sheet 4 C) Q C) C) C) ,f

March 5, 1957 Q .OFFMANN 2,783,728

APPARATUS FOR PRESSING SHEET METAL SHAPES Filed Sept. l2. 1951 5 Sheets-Sheet 5 /Pissz/Avz 0 L/a z// MESH 3422 72g) 732 733 7? Kl? 29 M50 75 y 67 J ifi 55 742, 56a`' 56 d FROM MAIN TANK APPARATUS FOR PRESSNG SHEET METAL SHAPES Otto Hoifrnann, Kenmore, N. Y., assigner to Lake E rie Engineering Corporation, Buffalo, N. Y., a corporation of New York Application September 12, 1951, Serial No. 246,229

3 Claims. (Cl. 113-44) vThis invention relates to apparatus for pressing sheet metal shapes and more particularly to a unit for this purpose adapted to be inserted between the movable platen or ram and stationary platen of any standard hydraulic press of suitable size.

The invention generally relates to that type of apparatus in which the blank is placed against a resilient pad or cushion, such as rubber backed with a liquid, and in which a punch forces the blank into the body against controlled relief of the liquid so that the body wraps the blank around the punch to form it to a corresponding shape. Such apparatus is particularly useful with unusual or complicated shapes which ycan be formed in one operation with such apparatus but which would require a number of separate operations with a corre-` sponding large number of dies if done with male and female metal dies.

It is one of the principal objects of the invention to provide such apparatus in the form of a unit of low height and which can be readily inserted between the movable platen or rarn and fixed platen of anystandard metal forming press of suitable size, this eliminating the necessity of acquiring a special press for this particular type of pressing operation.

Another object is to provide such-aV unit which can be used with standard presses having relatively small separation, or so called daylight opening of its ram and stationary platen.

Another object is to provide such a pressing unit `including a liquid backed rubber body, in which the rubber body is not subject to tearing or impairment in use.

Another object is to provide such a unit which is selfadapting to different sizes of punches and in which the full capacity of the press is used with all sizes of punches. rl`hus with the unit, for a given press speed, with small punches used in pressing small shapes the speed of .the punch is automatically increased proportionally to `the size of the punch to use the full capacity of the press.

Another object is to provide a simple and reliable relief valve and a mechanism for controlling the relief valve which is a part of the unit and which controls the back pressure of the liquid to suit changes in the `form of the punch, the formation of sharp corners requiring higher pressure.

Another object is to provide such a unit in which the punch is automatically provided with full, uniformly distributed support over its entire area.

Another object is to provide such a unit which operates under high pressure, such as 6,000 to 10,000 pounds per square inch or more.

Another object is to provide a simple and positive stripper mechanism for stripping the finished workpiece from the punch.

Another object is to provide a simple mechanism for elevating the blank holder of the unit during the press opening cycle. j

Other objects and advantages of the invention will be ICC 2 v apparent from the following description and drawings in which:

Fig. 1 is a vertical section through the ram of a hydraulic press and showing interposed between this movable platen or ram and the lower stationary platen of the press a unit for pressing sheet metal shapes and which embodies the present invention. In this viewv the parts are `shown in the position occupied at the start of the pressing stroke.

Fig. 2 is a side elevational view thereof.

Fig. 3 is a view similar to Fig. 1 but showing the position of the parts and a corresponding deformation of the blank at the middle of the pressing stroke.

Fig. 4 is Van enlarged fragmentary vertical sectional view through one of a multiplicity of plungers, this view being typical of all of the plungers employed to elevate and support the blank bolster and plunger bolster of the unit.

Fig. 5 is a view similar to Figs. -1 and 3 and shows the position of the parts on completion of the pressing stroke and showing the blank `fully formed to the desired shape.

Fig. 6 is an enlarged fragmentary vertical .section taken on line 6 6, Fig. 5.

Fig. 7 is a horizontal section, partly in elevation, taken generally online 7 7., Fig. 1, parts being broken away.

Fig. 8 is a fragmentary vertical section taken online 8 8, Fig. 7.

Fig. 9 is a diagrammatic representation of the hydraulic circuit of the unit embodying the present invention.

.A feature of lthe invention is that the apparatus for pressing sheet metal shapes is embodied in a low, relatively broad unit adapted tobe interposed between the movable platen orram 10 and stationary platen 11 of any standard hydraulic press having a suiiicient opening to receive. the

unit. The unit comprises an upper rubber pad or cushion holder 12 secured'to theram 10 of the press and which is preferably in the form of a rectangular casting having an upperiiat face 13 which engages the lower face of theram 10. This pad or cushion holder 12 is provided in the center of itslower face 14 with a large pocket or recess extending upwardly therefrom and which forms achamber 18 containing a body ofoil 19. Theoil 19 is retained in this chamber 1'8 by a rubber pad or cushion 2i) and for this purpose the recess orchamber 18 is bellshaped having anupper face 21 of relatively small diameter from which a truste-conical side wall 22 flares downwardly and outwardly and the lower end of this frusto-conical side wall 22 terminating in a generally verticalannular wall 23 which extends to thelower dat face 14 of the pad or cushion holder. This lowerannular wall 23 of the `chamber 1S is also provided withannular channels 24 which are preferably of saw tooth form 'and have horizontal lower faces against whichannular beads 25 around the perimeter of therubber cushion 20 fit so as to hold thecushion 20 within 'the recess orchamber 18.

. `To prevent tearing or rupture ofvthis rubber cushion 20 and to Vprovide adequate contact between this rubber cushion and theinternal side walls 22, 23 of the pad or cushion holder 12, this central part of the rubber pad 'orcushion 20 is in the form of a relatively thin section 28 while itsmarginal portion 29 is thickened to provide a thick marginal rim the perimeter of which corresponds to theinternal frusto-conical andvertical faces 22, 23 of the pad `or cushion holder 12. In the undistorted condition 4of this rubber pad orcushion 20 `shown in Fig. l, this shape of this rubber pad or cushion iis provided by forming it with a central vb'owl shaped recess 30 which terminates in a thin rim 31 of upwardly diminishing cross section, this rim, 4in turn, Aterminating #in a feather edge 32. It will be seen thatthe pressure of thefluid body 19 tends to press the upwardly tapering feather edged rim 32 of thecushion 20 against the internal frustoconical side wall 22 of the chamber or recess 18 and hence provide a seal against the escape of fluid between the walls of this pocket orchamber 18 and the perimeter of the rubber pad orcushion 20.

The movement of theliquid 19 into and out of thechamberV 18 is through avertical bore 33 communicating with ahorizontal bore 34 one end of which is connected with aline 123, as later described, and the other end of which communicates with arelief valve 36 which is of such form as to restrict the escape of duid from this chamber in accordance with the vertical position of aplunger 37 depending from thevalve 36 and carrying aroller 38. The relief valve is such that the `higher the position of itsplunger 37 the less is its resistance to the escape of theliquid 19 from the chamber 18V and this relief valve is controlled automatically in a manner `-hereinafter described in detail.

A blank plate 44) is shown as provided with a central annular raisedportion 41 which fits within the lower rim portion ot the recess orpocket 18 for the rubber pad or cushion 2G and the central part of this raisedportion 41 is recessed, as indicated at 42, to provide an indented surface on which the blank 43 is placed.

The blank plate is secured, as byscrews 44, to the upper face of ablank bolster 45 which is of fiat rectangular form. Theblank plate 40 andblank bolster 45 are provided centrally with registeringopenings 46 and 48, respectively, these openings jointly forming adownwardly and outwardly enlarging through opening in which the punch Si) is arranged.

Thispunch 50 is externally shaped to correspond to th shape of the pressed piece and is shown as having a pyramidal upper portion from the lower edge of which vertical side walls extend downwardly. This punch is secured in any suitable manner (not shown) on a punch bolster S1 and this punch bolster has a lower horizontalflat face 52 adapted to be supported on the horizontal topv plate S3 of amultiple cylinder bolster 55.

Thismultiple cylinder bolster 55 is provided with a multiplicity ot vertical bores or cylinders extending therethrough, these bores orcylinders 56, as best shown in Fig. .7, being arranged in uniformly spaced relation and in uniformly spaced rows extending parallel with the four sides of themultiple cylinder bolster 55. Each of these bores orcylinders 56 is plugged at its lower end, as indicated at 58, and the lower ends of all of these bores orcylinders 56 are in communication with each other through a multiplicity ofhorizontal bores 59 provided through themultiple cylinder bloster 55 in communication with the bores orcylinders 56 and the opposite ends of each of thesehorizontal bores 59 being plugged, as indicated at 6d one end of one of these bores, however, being connected with aline 144 as set forth later in a detailed description of the hydraulic circuit. Each of these vertical bores orcylinders 56 has fitted therein a plunger indicated generally at 61, these plungers also extending throughbores 62 provided in thetop plate 53 for themultiple cylinder bolster 55, arim gasket 64 being interposed between the rim of thistop plate 53 and themultiple cylinder bolster 55 so as to provide achamber 66 for receiving any oil leaking past thepistons 61. The oil so leaking into thischamber 66 can be drained `in any suitable manner (not shown).

Fig. 4 illustrates the construction of atypical piston 61 and the manner in which it is tted within itsvertical cylinder 56 of the multiple cylinder bolster 55 and itsbore 62 in thetop plate 53. From this section it will be seen that eachpiston 61 is in the form of asolid metal cylinder 68 having a pair of annular radially outwardly openinggrooves 69 at its lower end and each receiving arubber ring 79 which is of circular form in cross section. Similarly each bore 62 of thetop plate 53 is provided with an annular groove 71 receiving arubber ring 72 which is round in cross section. Similarly, to prevent leakagepast each of theplugs 58, each of these plugs is in the form of ascrew plug 73 at its lower end and is provided with an Unthreaded cylindrical portion i4 extending upwardly into the correspondingvertical cylinder 56 and provided with a pair of radially outwardly openingannular grooves 75 each receiving arubber ring 76 which is round in cross section. Acup washer 78 is secured to the lower end of each of thepistons 61 by means of aholder 79 and a retainingscrew 80.

Therelief valve 36 is shown as controlled by a mechanism constructed as follows:

The numeral 84 represents a pair of parallel cross bars each anchored in and projecting outwardly from the punch bolster 5l to a position beyond the opposite sides ot the multiple cylinder bolster 55.' To secure such anchorage, as best illustrated in Fig. 6, each of thesebars 84 is prefereably of upwardly divcrging wedge shaped or keystone form in cross section and is fitted in a correspondingly wedge shaped groove 35 extending transversely across the bottom of the punch bolster 51. In the extreme upward position of the punch bolster 5l, the ends of thesebars 84enter slots 84a in the blank bolster 45, these slots being provided merely to provide clearance for thesebars 84.

Each'end of each of these cross bars 84 is shown as provided with adownturned end 86 to one pair of which downturned ends is pivoted, as at S7, arack 88 having outwardly facingteeth 89. Between the opposite pair of'downturned ends 86 of these cross bars 84 is pivoted, as at 87, arack 88a also having outwardly facingteeth 89a. Eachrack 88 and 88a is guided for vertical mov,.- ment in aguide 90 suitably secured to the corresponding side of the multiple cylinder bolster 55. Therack 88 is distinguished from therack 88a only in that it is longer and has an upward extension 91 which projects above thepivot 87. This upward extension 91 of therack 88, as best shown in Figs. 1, 3 or 5, is received in aguide 92 one side of which is formed to provide an upwardly and outwardly projecting arm )3V to the end of which the central part of a bell cranklever 94 is pivoted, as indicated at 95. Theupper hroizontal arm 96 of this bell crank lever engages the roller 3S of theplunger 37 of therelief valve 36. The dependingarm 97 of the bell cranklever 94 carries aroller 98 in contact with the workingface 99 of a cam plate 19t). This cam plate is suitably secured to one side of the upward extension 91 of therack 88 and its workingface 99 is formed to correspond to the shape of the part being pressed. Thus in forming a sharp corner a greater degree of back pressure is required and hence when the blank 43 engages such a sharp corner of thepunch 50 the roller 9S will encounter a salient part of the workingface 99 of the cam 100 so as to lift theplunger 38 of therelief valve 36 and thereby restrict to a greater degree the escape of fluid from thechamber 18 and build up a higher back pressure in this chamber.

It will be seen that since the bell crank lever 9d andrelief valve 36 move with the cushion holder 12 forming, with its liquid backedcushion 19. 2), the female part of the die, and that since the cam 4pla-te 161) moves with the punch 5G and its punch bolster 51, the movement of the cam plate 100 relative to the bell crank lever 9d is the same as the relative movement of the punch Si? andworkpiece 43. In other words, the cam plate Idil-has the sam-e differential movement relative to the bell crankleverv 94 as @thepunch 50 has vto the cushion holder 12, this differential movement being established by the displacement of the oil from under thepistons 61 supporting the blank bolster 45 to raise thepistons 61 supporting thepunch 50 and which relative movement, in each case, represents a differential of the movement of the lrarn 1t) and fixed platen ,11 of the press. Accordingly it will be seen that the cam 100 can be shaped to conform to thc requirementsof thepunch 50. vFor the shape of the 5punch 50 illustrated, the workingface 99 of the'cam 10d is shown vas having a leading receding face' 99a, a'n intermediatesalient face 99b, and a higher trailing salient face 99C.

A mechanism for stripping the workpiece 43 from the punch 5d is also provided, this stripping mechanism being constructed as follows:

Each of `t-he lguides 90 for theracks 88, 88a is provided with a pair ofarms 101 in which is journalled one end of a shaft 1432. Agear 103 is keyed Ito each of theseshafts 102 and the opposite end of each of these shafts is journalled in a bracket 1M. Beyond fthe bracket ldd a pinion 105 is fixed to thecorresponding shaft 102 and each of these pinions 195, `as best shown in Fig. 2, meshes with theteeth 1% of a rack 108. rlhe back of the rack 168 at the left, as viewed in Fig. 2, is arranged below its pinion 1135 and hence with its teeth 106 extending upwardly. Therack 198 at the `iight of Fig. 2 is arranged above its pinion 105 and hence with its -teeth facing downwardly. At their adjacent ends these racks are interconnected by a block 199 through suitable keys 110. The `outer end of each of these racks 10S is guided by a guide 111 suitably secured to `the multiple cylinder bolster 55` and slidingly engaging the 'back of i-ts rack 168. The adjacent ends of the racks 108 are also engaged byguides 112 which have sliding bearing surfaces in opposing relation with each other and engaging the backs of the corresponding racks 108. Ahorizontal stripper cylinder 113 is secured to ythe side of the multiple cylinder bolster 55 which 4carries theseguides 111, 112 and is arranged parallel with the racks 108 end in line with lthe block 199 connecting these racks. The stripper piston 114 (Fig. 9) within the lstripper cylinder is connected bya4 piston rod 115 with this block 109 which connects the two racks 10S. lt will therefore be seen that introduction of duid pressure into thestrippervcylinder 113 moves the connected racks 16S to the right or to the left asviewed in Fig. 2. For this purpose, as described later in detail in the description of -the hydraulic circuit, Fig. 9, the pposite ends of thestripper cylinder 113 connect with oil l-ines 13Sand 139. lnthe elevated position yof thepress ram 10, as for example in l, will be -seen that introduction `of iluid pressure through line 13S (Figs. 2 and 9) moves the piston 114 and piston rod115 in thestripper cylinder 113 to the left as viewed in Fig. 2.`

This, through the connecting block 1519, moves rthe racks 1113 to the left and rotates the lett hand pinion 165 and its shaft 162 clockwise as viewed in Fig. 2 and the right hand pinion 1115 and itsshaft 102 counterclockwise, as viewed in this same figure. Referring to Fig. l, this rotates the left hand pinion 1123 clockwise and the right hand pinion 193 counterclockwise thereby "to Vpull down the racks S8, 38a, cross bars 84, punch bolster 51 and punch Si?, thereby to strip thefinished workpiece 43 from the punch.

Particularly with a small punch t) and punch ho-lder 51 it is necessary to provide means for raising the blank bolster 45 as the ram 1d of the press rises and'thereby bring the position of the lparts to the position illustrated n in Fig. l. For this purpose fourcylinders 56a are pro vided in 4the multiple cylinder bolster 55 one at each corner thereof. Each of these corner cylinders receives acorner piston 61a. The lower end lof each of thecylinders 56a is closed by a plug 53a and eachpiston 61a extends through abore 62a in thecover plate 53. Thesecorner pistons 61a and thecylinders 56a are identical in construction Vwith theother pistons 61 and theircylinders 56 and hence the same reference numerals `have been applied and distinguished by the sutiix (1.

Referring -to the diagrammatic hydraulic circuit illustrated in Fig. 9, the numeral 120 represents a small electric motor continuously driving a high pressure pump 121 delivering oil under pressure from its outlet line 122 to la series of branches. One of -these branches, indicated at 123, contains a check valve 124 opening in the direction `6 of flow of the pumped liquid and connects with the lines or bores 33, 34 between thechamber 18 VIbehind 'the vrubber cushion and therelief Valve 36. Therelief valve 36 discharges into thereturn line 125 connecting with .the inlet of the pump 121,V this rettu'n line also connecting, through abranch 126, with a small pressurized oil supply `tank 123. A line 129 including a check valve 131i is connected across the lines `34 and 125, lthis check valve `opening toward thecushion chamber 13. Anotherbranch 131 of the pump outlet line 122 connects with arelief valve 132 dis-charging through aline 133 to thepump inlet line 125. A third branch 134 of the pump outlet line 122 connects with thereturn line 133 and contains a valve 135 which can be actuated manually or automatically.

The lower or bolster part of the unit has a separate Ahydraulic circuit including a supply line 136 from a low pressure pump (not shown) and connecting with alfour way valve 137 which can be manually moved to connect in one position the low pressure supply line 136 with aline 138 leading to one end of the stripperycylinder y113 and at the same time connects aline 139 from the opposi-te end of thisstripper cylinder 113 with an exhaust indicated by a broken oi pipe and which in another position connects bothlines 138 and 139 with the exhaust indicated by a broken oif pipe. A branch line 140 containing a check valve 141 connects with four 'branches 142 leading to thecorner cylinders 56a. This check valve 141 opens toward thecylinders 56a. Theline 140Vterminates in arelief valve 143 which discharges through an exhaust indicated by a brok-en off pipe. i

For-maintaining oil in theinterconnected cylinders 56, aline 144 connects these cylinders with the main tank, this line including a check valve 145 which opens toward thecylinders 56 and also' amanual valve 146. Abranch 148 of the line '144 leads to arelief valve 149 discharging through an exhaust indi-cated 'by a broken off pipe.

ln the operation of l'the apparatus as above described, the .ram 1o of the press is raised high enough to separate the pad or cushion holder 12 from the blank plate 4i) sufficiently far tto permit removal of the formedworkpiece Y 43 and to insert ablank workpiece 43` in therecess 42 of theblank plate 40.. v

In this fully open position of thepress ram 10 and the unit forming the subject of theV present invention, the blank bolster v45 and theblank plate 40 carried thereby are supported in the elevated position shown in Fig. 1 on the fourcorner pistons 61a (Figs. 7 and 8) by oil trapped in thecorner cylinders 56a by the check valve 141 and relief valve 143 (Fig. 9). -At this time the group ofpistons 61 supporting the punch bolster 51 arebottomed in theircylinders 56 as illustrated in Fig. l. Also sufli cient oil is maintained in thecylinders 56 to support the group ofpistons 61 carrying the blank bolster 45 in the full up position shown in Fig. 1 at this time. This oil can be replenished by opening thevalve 146.

Also in this fully open position of thepress ram 10 and rthe unit forming the subject of the present invention, the valve 13S (Fig. 9) is open and the pump 121 delivery is being recirculated throughlines 122, 134, 133, and back to its inlet. At this time thepad cavity 18 has been filled from the pressurizedoil supply tank 128 through thecheck valve 130.

Theram 10 of the press is brought down so as to bring thelower face 14 of the pad or cushion holder 12 into contact with the upper face of the outer part of theblank plate 40 and so as to bring the central raisedpart 41 of thisblank plate 40 into mating relation with the lower part of the pocket orrecess 18 of the pad or cushion holder 12 and the upper face of this raisedpart 41 into contact with vthe bottom face of therim portion 29 of the rubber pad orcushion 20. This position of the parts is illustrated in Fig. l. At this time also the upper extremity of thepunch 50 is in closely spaced relation to the blank 43 as also illustrated in Fig. 1. Following this, the valve 135 is closed to permit pressure from the pump 121 to build up in thechamber 18 behind therubber cushion 20. This pressure is determined by the setting of therelief valve 36. Thus, at `this position of the parts therelief valve 36 is held at the desired setting by virtue of theroller 98 of the bell cranklever 94 riding on the upper recedingpart 99a of the workingface 99 of the cam 100 and hence holding theplunger 37 of the relief valve in a corresponding downwardly projected position.

The continued downward movement of theram 18, forces the fourcorner pistons 61a down and these pistons force the oil from theircylinders 56a through thelines 142 and 140 and out through the relief valve 143 (Fig. 9), the check valve 141 remaining closed under such pressure. This maintains close contact between theblank plate 40 and the cushion holder 12 during the initial part of the downward movement of the ram. This continued downward movement of the ram of the press also, through the pad or cushion holder 12,blank plate 40, and blank bolster 45, causes downward movement of theseveral plungers 61 in contact with the under face of this blank bolster. This displaces liquid from the group ofcylinders 56 containing these pistons, through thebores 59, to thecylinders 58 containing the group ofpistons 61 in contact with the underside of the punch bolster 51. Accordingly the punch bolster 51 is elevated and the blank orworkpiece 43 is deformed by thepunch 50 as a function of the combined downward movement of the blank orV workpiece and the upward movement of thepunch 50. The halfway position of the parts is illustrated in Fig. 3. At this time the four way valve 137 (Fig. 9) is in neutral position in which bothlines 138 and 139 are connected to its exhaust indicated by the broken off pipe so that the piston 11d in thestripper cylinder 113` is free to move without interference, this movement of the piston 114 at this time being away from the closed end ofthestripper cylinder 113. Y v

In thev unit as illustrated the blank bolster 45 and punch bolster 51 are of such size that twenty-rive of thepistons 61 contact the punch bolster 51 and seventy-four of thesepistons 61 contact the blank bolster 45, the ratio of contact being therefore approximately three to one. Accordingly; with the example illustrated, a downward movement of'V theram 10 of one-quarter of `an inch would course an,` upward movement of the punch bolster 510i three quarters of an inch. However since the workpiece or blank 43 has moved downwardly one-quarter inch during this three-quarter inch upward movement of thepunch 50, the total etfectivevmovement of the punchV 5t) relative to theworkpiece 43 is one inch as a result of the assumed one-quarter inch downward movement of theram 10.

This ratio will change when ditierent relative sizes ofblank holsters 45 and punch holsters 51 are substituted for those illustrated, this being a feature of the invention. Thus if thepunch 50 and punch bolster 51 were smaller and the blank bolster 45 larger,fewer pistons 61 would support the punch bolster and a larger number ofpistons 61 would support the blank bolster. Accordingly the downward movement of the blank bolster supporting pisf tons 61' would displace a greater amount of liquid than in the example as illustrated and hence the punch bolster supporting 'pistons 61 would be moved upwardly at a more rapid rate. Therefore the smaller thepunch 50 and its bolster 51, the more rapid the relative movement of thepunch 50 and workpiece or blank 43 and hence the full capacity of the press can be used regardless of whether large or small pieces are being formed.

As thepunch 50 so moves upwardly relative to the workpiece or blank 43, the liquid backedrubber cushion 20, 19 causes the blank 43 to be wrapped around thispunch 50 and to take the form of the punch. To do this the blank43 and punch 58 must enter the liquid backed cushion V20, `19, as illustrated in Figs-3 and 5, and to permit this, liquid must be relieved from thecavity 18 and this relief should be controlled to provide the optimum back pressure corresponding to the work being done by the punch at any particular time. Thus as a sharp corner is produced in the blank 43 the back pressure of the liquid 19 should be higher than when a shallow deformation of the blank is being made. Since at this time, as previously explained, the valve 135 (Fig. 9) is closed, this variable back pressure is under control of therelief valve 36 and its controlling cam 108, the workingface 99 of this controlling cam being shaped to conform to the shape of theparticular punch 50 being used.

The control of thisrelief valve 36 is as follows:

The assumed one-quarter inch downward movement of theram 10 effects a similar downward movement of therelief valve 36 and its bell cranklever 94. The assumed resultant upward movement of three-quarters of an inch of the punch bolster 51 effects a corresponding upward movement of the twohorizontal bars 84 keyed to this punch bolster and projecting outwardly therefrom. This raises therack 88 so as to elevate the cam plate 100 secured to the upper end of thisrack 88 a corresponding distance. Accordingly the bell cranklever 94 andrelief valve 36 move with the holder 12 for thecushion 19, 2t) which forms the female part of the die and the cam plate moves with thepunch 50, and since the movement of thepunch 50 relative to the cushion holder 12 is a dierential of the movement of theram 10 and platen 11 of the press, the cam plate 100 has this same differential movement relative to the bell cranklever 94 andrelief valve 36.

As described, the cam plate shown is provided with an initialreceding position 99a which, through the bell cranklever 94, holds therelief valve 36 in such position that a relatively low back pressure is maintained in thecavity 18 during the initial part of the pressing stroke. At this time theworkpiece 43 is being pressed over the pyramidal top part of thepunch 50 and relatively small back pressure is required for this shallow deformation. However in forming the angular corner between the base of the pyramidal top of the punch and its side walls greater back pressure is required and at this time theroller 98 of the .bell crank lever rides upon the intermediate salient part 99h of the cam plate 100 and hence moves theplunger 37 of therelief valve 36 upwardly to establish a higher back pressure in thechamber 18. In forming the final ilange or rim (Fig. 5) on the workpiece a still higher back pressure is required and at this time theroller 98 rides up on the trailing salient 99e of the cam plate 100. This operates to elevate theplunger 37 still higher and close the relief valve still further and establish this still higher back pressure in thecavity 18. The exhaust oil from therelief valve 36 in providing this controlled back pressure in thecavity 18 returns to the pressurized oil supply tank through the lines and 126 (Fig. 9). Eachpunch 58 will, of course, have an individual cam plate 100 shaped to conform to it, the punch and cam plate shown being merely illustrative.

On the completion of the pressing stroke the parts are in the position shown in Fig. 5 and the blank 43 fully formed. Theram 10 of the press is then raised to etect its return stroke and at the same time the four way valve 137 (Fig. 9) is shifted to connect the--low pressure pump supply line 136 with. theline 138 and to connect theline 139 with the exhaust indicated by a broken oi pipe.

As theram 10 and cushion holder 12 rise, oil under pressure is therefore admitted to thecorner cylinders 56a from low pressure pump line 136, fourway valve 137,lines 138, 140 and check valve 141 andbranch lines 142 to thecorner cylinders 56a. This oil pressure in thesecorner cylinders 56a causes theplungers 61a therein to rise and since the upper ends of these corner plungers contact the under face of the blank bolster 45, this blank 9 bolster is elevated to follow the risingram 10 of the press and the cushion holder 12.

As the blank bolster 45 is so lifted by thecorner plungers 61a, thepunch 50 and punch bolster 51 is pulled down by the piston 114 in thestripper cylinder 113, this downward movement of thepunch 50 and punch bolster 51 moving downwardly theplungers 61 supporting thepunch 50 and punch bolster 51 and displacing the oil in theircylinders 56 through thebores 59 to thecylinders 56 containing theplungers 61 contacting with the blank bolster 45. Accordingly theplungers 61 under the blank bolster 45 are caused lto follow the blank bolster 45 in the upward movement caused by the introduction of oil under pressure to thecorner cylinders 56a. This movement of theplungers 61 continues until those supporting the punch bolster 51 bottom as illustrated in Fig. 1.

This pulling downward of the punch bols-ter 51 to strip the finished workpiece from the punch is effected through the four way valve 137 (Fig. 9) which, as previously explained, during the return stroke of the press and unit connects the low pressure pump line 136 with theline 138, and theline 139 with its exhaust indicated by a broken olf pipe. In this position of the fourway valve 137 oil under pressure is accordingly admitted to the dead end of thestripper cylinder 113 and the piston 114 andpiston rod 115 therein is moved to the left as viewed in Fig. 2, Through the connecting block 109 this moves the racks 108 to the left and rotates the left hand pinion 105 and itsshaft 102 clockwise as viewed in Fig. 2 and the right hand pinion 105 and itsshaft 102 counterclockwise as viewed in this same figure. Referring to Fig. 1, this rotates theleft hand pinion 103 clockwise and theright hand pinion 103 counterclockwise thereby -to pull down theracks 88, 88a, cross bars 84, punch bolster 51 and punch 50 thereby to strip thefinished workpiece 43 from the punch.

The continued elevation of theram 10 of the press and the cushion holder 12 continues until the cushion holder 12 is separated su'lciently far from the blank plate 40 -to permit removal of thefinished workpiece 43 and replacement of the blank. This completes the cycle of the press as described.

It will be noted that since the arms -84 project from opposite sides of the punch bolster 51 and are connected at opposite ends to separateracks 88, 88a which jointly connect with the stripper piston 114, the punch bolster is maintained in a horizontal position at all elevations, this being an important feature of the invention.

Such oil as leaks past thepistons 61, 61a passes to thechamber 66 and is drained. Such oil is replaced by opening the valve 146 (Fig. 9) which admits oil to thecylinders 56, 56a.

From the foregoing it will be seen that the present invention, which is capable of being in the form of a special press, is also capable of being embodied in a small unit which will fit a standard hydraulic press thereby obviating the necessity of requiring a special press for the particular type of metal forming contemplated by the invention. The invention also accomplishes the diterentl obectives set forth.

I claim:

1. Forming apparatus for interposition between the relatively movable platens of a press, comprising a cylinder bolster mounted on one of said platens and having a generally flat face opposing the other platen and a n1ultiplicity of substantially uniformly spaced liquid cylinders distributed in all directions over the central area of said generally at face of the bolster and opening toward the other platen, a plunger in each of said cylinders and having a portion projecting from the open ends thereof, a blank bolster mounted on the projecting ends of certain of said plungers and having a central opening extending therethrough in line with other of said plungers, a punch in said opening, a punch bolster carrying said punch and mounted on the projecting ends of said other Vof said plungers, a cushion holdermounted on the other of said platens in line with said blank bolster and having a cavity in line with said punch, and a resilient pad in said cavity, the bodies of liquid in said cylinders being interconnected whereby movement of said certain o1' said plungers is transmitted to said -other ot' said plungers from said blank bolster to said punch bolster whereby the selection of the relative sizes of said blank and punch holsters and the relative number of plungers contacted thereby will determine the speed and force of said punch against said resilient pad.

2. Forming apparatus as set forth in claim l wherein said cylinder bolster has another seriesof spaced cylinders opening toward said Aother platen, a piston in each of said last cylinders, and means for supplying iinid under pressure to said last cylinders independent of said liquid distributing cylinders to separate said blank bolster from said cylinder bolster.

3. Forming apparatus as set forth in claim l wherein means are provided for stripping the workpiece from the punch, comprising a piston and cylinder operatively interposed between said cylinder bolster and punch and arranged to draw said punch toward said cylinder bolster.

References Cited in the le of this patent UNITED STATES PATENTSl 1,445,358 Russell Feb. 13, 1923 1,848,173 Heymann Mar. 8, 1932 1,903,475 Rhodes Apr. 1l, 1933 1,970,134 Ferris Aug. 14, 1934 2,075,847 Hothersall Apr. 6, 1937 2,112,012 Byerlein Mar. 22, 1938 2,152,813 Moore Apr. 4, 1939 2,300,162 Maude Oct. 27, 1942 2,313,689 Waters Mar. 9, 1943 2,317,869 Walton Apr. 27, 1943 2,327,177 Cross Aug. 1.7, 1943 2,369,643 Berger Feb. 20, 1945 2,375,599 Walton May 8, 1945 2,543,498 Japikse Feb. 27, 1951 2,693,780 Winter Nov. 9, 1954

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