US1677860A

US1677860A - Assembly press

Info

Publication number: US1677860A
Application number: US85233A
Authority: US
Inventors: John P Ferris
Original assignee: Oilgear Co
Current assignee: Oilgear Co
Priority date: 1926-02-01
Filing date: 1926-02-01
Publication date: 1928-07-17
Anticipated expiration: 1945-07-17

Description

J. P. FERRIS ASSEMBLY PRESS F'iIed'Feb.

July 17, 1928.

3 sheetlgsheet 1 R O T N E V m ATTORNEY July 17, 1928.

J. P. FERRIS ASSEMBLY PRESS 5'. Feb. 1, 1926 a Sheets-Sheet 2 INVENTOR JbH/vP/i /PP/s.

ATTORNEY Jilly 17, 1928. 1,677,860

J. P. FERRIS ASSEMBLY PRESS Filed Feb. 1, 1926 3 Sheets-Sheet 3 w p 1% I; j k

45 Q /2 1 E 44 T19" 75 INVENTOR JOH/VP/Z'P/P/S BY ATTORNEY Pirated July 17,1928.

UNITED STATES 1,677,860 PATENT. OFFICE.

JOHN P. FERRIS, or 'minwanxnn, WISCONSIN, AssIeNon ro rn'n OTLGEAB confirm, or MILWAUKEE, WISCONSIN, A CORPQRATION or WISCONSIN.

ASSEMBLY rnnss.

Application filed February- This invention relates primarily to assembly presses and to hydraulic. drives therefor, although certain novel features embodied therein may be employed to advantage in machines of other types.

For purposes of illustration and explana-- be accurately spaced, but that each hub be accurately positioned with respect to the center point of the axle.

One object of the present invention is the provision of an assembly press'which will apply both hubs and accurately position each upon the axle.

' Another object is the provision of a machine so constructed as to insure the successful assembly of the parts even in the hands of unskilled labor.

The machine hereinafter specifically described includes a work clamp which accurately posit-ions and holds the axle, together with a power head for applying the assembly pressure. The clamp is first operated to apply and maintain a clamping pressure on the axle during the subsequent advance and retract-ion of the power head, and after the retraction of the head the clamp is released. The work clamp and power head in this machine are operated by separate hydraulic Another object of the present invention. is the provision of a hydraulic drive forthe rams involving novel connections for automatically effecting the operation of the rams in definite sequence.

Other objects and advantages will appear from the following description of an illustrative embodiment of the present invention.

In the drawings Figure 1 is a plan View of an assembly press constructed in accordance with the present invention.

Fig. 2 is a sectional view taken substantially along the line 2-2 of Figure 1.

Fig. 3 is a sectional view of the work clamp taken substantially along the line 33 of Figure 4.

vWith machines hereto-' atedby a ram 15.

Fig.4 is a sectional view of the clamp 1, 192a. se aino. 85,233.

taken substantially along the line of Figures 2 and 3.

Fig. 5 is a to view looking into the work carrier in the irection oflarrow A in Fig-- ure 2, and showing the work in position preparatory to an assembling operation.

Fig. 6 is a longitudinal sectional view taken substantially along the line 6-6 of Figure 5, illustrating the position of the parts at the completion of the assembly stroke. i

Fig. 7 is a diagrammatic. illustration of the hydraulic circuit employed.

The assembly press selected for illustration comprises a longitudinal base 10 having alaterally exten ded portion 10 formed integral therewith. The base 10 supports a rigid frame comprising end heads 11 and 12 rigidly fixed upon the base at the oppo; sit-e ends thereof, and connected by two heavy parallel rods 13, disposed in a plane at an angle to the horizontal. Across-head in a formof a heavy casting 14 is mounted to reciprocate along the rods 13, and is actu- The ram 15 extends through end head 11, and is connected at one end to the cross-head 14 and at the other end to a piston 16, traveling in a power cylinder 17 The power cylinder is supported by the end head 11 to which-it is rigidly connected by tension rods 18.-

The cross-head 14 carries a center element 19 constituting a continuation of the ram 15, and having reduced portion 20 shaped to snugly fit within the brake drum hub a, so as to support and accurately center the hub a in accurate alignment with the adjacent end of the axle b. The outer end face of the hub a bears against an annular shoulder 21 formed upon the element 19'so as to firmly sustain pressure required for the assembling operation. The end head 12 is provided with a center element 22 oppositely disposed with respect to the center element 19, and substantially identical in construe.- 100 tion therewith, so as to exactly center and firmly hold the other brake drum hub c,

which is, in this instance, identical with hub a.

A work carrier 23 is suspended between 10.:

the rods 13, so as to travel lengthwise thereof between the cross-head 14 and end head 12. In this instance the carrier is provided with a pair-of laterally extended supporting lugs at each side thereof, each having a 110 closeisliding fit with one of the rods 13. Provisionis made for accurately centering and firmly holding the axle within the carricr during the assembly operation. Although this may be accomplished in various ways, the mechanism about to be described has been found to be entirely successful for This mechanism lncludes an- The clamp is shown in detail in Figures 2, 3. and 4. It comprises an open ended housing in the form of a yoke, havingvertical leg portions 28 rigidly connected by an integral bridge portion 29. This housing is secured by any appropriate means, such as lag bolts 30, to a horizontal plate 31 formed as an integral part of the carrier 23. A pair of clamp shoes 32 are closely fitted within the housing between the opposed faces of the bridge portion 29 and plate 31, and between the opposed faces of the leg portions 28 so as to reciprocate in a direction parallel to the longitudinal axis of the work carrier. These shoes are connected by tension springs33 to yieldably retain them in retracted position. The adjacent ends of the shoes 32 are provided with inclined surfaces 34 adapted to engage similar inclined surfaces 35, formed upon the end of a plunger 36 projecting between the shoes and mounted for reciprocation in "the cylindrical bore 37 extending through the plate 31. The arrangementis such that as plunger '36 is forced upwardly the tapered end thereofforces the shoes 32 outwardly into'clamping engagen'ient with the internal surface of the bow (Z of the axle. Any appropriate means, such as an integral tongue 38 on the upper end of the plunger36 snugly engaged within a slot 39 formed in the under surface of bridge portion 29, may be employed for preventing the plunger 36 from turning about its axis.

In this instance the slot 39 extends the full width of the bridge'portion and constitutes a housing for a pair of clamp elements 40 resting upon the top faces of shoes 32. Each clamp element 40 is retained in position with one end projecting beyond the end 5 3 of the piston.

face of the corresponding shoe 32 by means of a bolt 41 extending loosely therethrough and anchored in the shoe. A coil spring 42 interposed between the head of the bolt 41 and the clamp element 40 yieldably retains the clamp element against the top face of.

the shoe. The arrangement is such that as connected to a piston 44 reciprocating ina cylinder45, rigidly fixcdto the bottom of the work carrier 23, by'means of tension' bolts 46.

-The piston 16 in the and the piston 44 in the auxiliary clamp operating cylinder 45, are both operated by liquid delivered from a single source. In this instance the driving liquid of both of these cylinders is supplied by a variable displacement pump 47 of the type described in power cylinder 17 the co-pending application of Walter Ferris,

Serial No. 701,356, filed March 24, 1924. It will suffice here to say that this pump is driven at constant speed by a pulley 47' mechanically connected to any appropriate power source. This'pump delivers liquid at a definite rate so long as the pressure in the hydraulic circuit fed thereby remains below a predetermined maximum limit, but upon reaching this maximum pressure the pump automatically responds to this pressure to so reduce the flow as to maintain the pressure Since the instru- 1 substantially constant. mentalities employed for effecting these functions are fully described inthe co-pending application just referred to, a descrip tion thereof at this time is deemed unnecessary for a complete understanding of the present invention.

The pump 47 is connected to themain power cylinder 17 and to the auxiliary cylinder 45 thru hydraulic connections such as will now be described, reference being made to the diagram in Figure 7. The hydraulic circuit includes

pipes

48 and 49 connected to the delivery and return sides, re-

spectively, of the pump and to a reversing valve 50 of appropriate form. The valve shown comprises a valve casing having a cylindrical bore 51 therein. A. piston valve, having three heads 52, and 54 connected by reduced portions 55 and 56, is closely fitted for lengthwise reciprocation in the bore. Pipe 48 communicates with a port 57 disposed midway of the length of the bore 51 and controlled by the intermediate head Similar ports 58 and 59 adjacent the opposite ends of the bore are controlled by the end heads 54 and 52 respectively, of the piston, and are permanently connected thru a passage 60 extending longitudinally of the valve casing. Pipe 49 is in constant communication with passage 60 and hence with both ports 58 and 59. A pipe 61 communicates at all times with the annular space surrounding the reduced portion 56 of the piston, and a pipe 62 combe hereinafter described. The arrangement is such that when the piston valve is in the upper extreme position shown in Figure 7,

liquid delivered by the pump through pipe 49 is free to pass through port 58, through the annular space surrounding the reduced portion 56 and into and through pipe 61 and liquid from pipe 62 entering the annular space surrounding the. reduced portion is free to flow through port 57 and pipe 48 to the pump. ,When the valve is shifted into the lower extreme position, liquid discharged by the pump through pipe 49 passes through passage and port 59 into the annular space surrounding the reduced portion 55 and thence into pipe 62; and liquid from pipe 61 entering the annular space surrounding portion 56 is free to pass through port 57 into and through pipe 48 back to the pump. It will thus be noted that by shifting the valve from one extreme position to the other, the flow of liquid in

pipes

61 and 62 is reversed. WVith the valve in intermediate or neutral position,

ports

57, 58 and 59 are covered by the

heads

53, 54, and 52. respectively, so-that the flow of liquid through pipe 49 is blocked, and the pressure built up in pipe 49 under such conditions automatically reduces pump displacement to zero.

The reversing valve 50 is supported upon an appropriate bracket 64 fixed to the frame of the machine, and the stem 63 thereof is operatively connected to one end of a rod 65 extending lengthwise of the machine and mounted for lengthwise reciprocation in fixed

lugs

66 and 67. The other end of the rod is connected through a link 68 wi h one end of a hand lever 69 pivotally supported intermediate its ends upon a fixed vertical pin 70. A collar 71 is fixed to the rod 65 at one side of a fork 72 projecting upwardly from the cross-head 14 and embracing the rod 65. The collar 71 is so positioned as to be engaged by the fork 72 as the cross-head 14 approaches the left hand limit of its travel to thereby automatically force the collar 71, and consequently'the rod 65 and valve stem 53, toward the left, so as to adjust the valve 50 into the neutral position and bring the cross-head 14 to rest.

Pipe 61 is connected to a branch pipe 73 leading to one end 75 of the auxiliary cylinder 45, and to a branch pipe 74 leading to one end 76-of the main power cylinder 17. Similarly pipe 62 is in open communication with a branch pipe 77 leading to the other end 78 of the auxiliary cylinder and with a. branch pipe 79 leading to the other end 80 of the main power cylinder. The two cylinders 17 and 45 are thus connected in parallel 'in'the hydraulic circuit, Any apbe provided within the

pipe lines

73 and 77 propriate form of flexible connections may in order to permit movement of the auxiliary cylinder 45 during the travel of the work carrier 23. In this instance such flexibility is provided byinserting two lengths of

pipe

81 and 82 withineach of these pipe lines, these pipe lengths being connected to each other and to the pipe-line through appropriate swivel connections .84.

As hereinabove pointed out, it is highly desirable in the machine described that the auxiliary piston'44'be first operated to apply a clamping pressure to the work and thereafter the main pressure piston 16 beoperated to effect the assembly stroke. It is also desirable that after the completion of the assembly stroke, the main piston 16 be first actuated to begin a return stroke and thatthe auxiliary piston44 be thereafter actuated to relieve-the clamping pressure, so that the work may be firmly clamped during the entire assembly stroke and thereafter released. To accomplish this, provision is made for yieldably resisting'the advance of themain piston 16 until the auxiliary piston 44 has applied the desired clamping pressure to the work and for yieldably resisting the retraction of piston 44 until the assembly stroke is completed. This is effected in this instance by inserting valves in

branch pipes

73 and 74 which serve to resist the flow in each of these pipes in one direction but permit a free flow in the opposite direction. v

The valves shown are substantially identical in construction and operation so that a description of one will suifice for both. Each lncludes a housing 85 having a cylindrical bore 86 provided at one end with a conical valve seat 87. A hollow valve 88 is yieldably maintained in closed position against seat 87 by a spring 89 interposed between the valve and a closure element 90, threaded intoone end of the housing. The hollow valve 88 is provided with a port 91 normally closed by a ball 92. The arrangement is such that liquid is always free to pass upwardly through the hollow valve lifting the ball valve 92 before it, but reverse flow is prevented by the seating of the ball 92 over the port 91. However, liquid under pressure suflicient to lift the valve 88 from its seat 87 against the pressure of the spring 89, may flow downwardly through the housing around the valve 88.

-A description of a complete operating cycle will now be given. The pump 47 is operated continuously. With the hand lever 69 in the intermediate position shown in Figure 1 the valve 50 is in neutral position and communication is blocked between

pipes

48 and 49 and

pipes

61 and 62 so that there is no pressure in the main cylinder 17 or the The operator then swings the "hand lever 69 toward the right to thereby shift the rod 65 toward the left. This causes the valve 50 to be adjusted into the position shown-in Figure 7 so as to open communication between

pipes

49 and 61. The liquid thus caused to enter pipe 61 from pipe49 flows freely through the pipe 73, up through the hollow valve 88 to'the lower end of the ,clamp cylinder 45 to force the ram 36 upwardly and thus expand the clampso as to firmly grip the axle. This action of the clamp insures an accurate centeringof'the axle within the carrier 23. Flow through pipe 74 from pipe, 61 is yieldably resisted by the spring loaded valve 88, the pressure of the spring 89 being such as to prevent such flow until the pressure in pipe 61 has increased suflieiently .to insure a good grip of the clamp 25 upon the axle. ,When such pressure has been establishedthe liquid from pipe 61 forces the valve 88 downwardly and flows around the valve into the left end of the main cylinder 17. The piston 16 and cross-head are thus advanced toward the right on an assembly stroke, and at a definite rate determined b the rate at which the pump delivers liqui through the pipe 49. During the advance of the cross- "head 14 the hub. a engages over the adjacent end of the axle, and then forces the axle and carrier 23 ahead of it until the the other end of the axle is engaged within the otherhub c. Thereafter both the crosshead 14 and carrier 23 continue to advance forcing the hubs a and 0 onto the ends of the axle until the end '93 of the carrier has struck the face 94 of the end head 12 and the face- 95 on the cross-head 14 has struck the other end 96 of the carrier. The carrier thus clamped between the cross-head 14 and end head 12 provides a positive stop for the cross-head 14 and accurately limits the ad- Vance thereof. Since the axle is accurately centered lengthwise of the carrier, the final position of each hub on the axle is accurately determined.

The instant. that the cross-head 14 is thus arrested the'flow of liquid in pipe 61 is also arrested causing a sudden building up .of pressure therein which reacts on the pump'to automatically reduce the stroke thereof substantially to zero.

The operator then swings the hand lever 69 toward the leftv to reverse the valve 50 and thus open communication between

pipes

48 and 62 and between

pipes

49 and 61. Fluid thus flows 'from pipe 62'through-p'ipe 79 to the right end of the main cylinder 17 causing the piston .16 and cross-head 14 to begin a return stroke toward the left. During this movement of the piston 16, fluid from the left end of cylinder 17 flows freely through pipe 74 andhollow valve 88 into "pipe 61 and back ,to the pump through pipe 48.

Although the rightend 78 of cylinder 45 is in open communication with pipe 62 through pipe 77, .the piston 44 is yieldably held against movement by virtue of the resistance offered by the valve against the discharge of liquid through pipe 7 3. As above pointed out the check valve 92 prevents flow downwardly through the hollow valve 88-and this valve 88 is not forced from its seat until sufiicient pressure has been established in 'pipe 62 required to start the piston 16 and cross-head 14 toward the left is less than that required to force the valve 88 from its seat. The axle is thus held by the clamp 25 as the cross-head 14 begins the return'stroke.

During the return stroke of the cross-head 14 the center element 19 withdraws from the hub a through a distance determined by the engagement of a head 97 of a rod 98 with a lug 99 of the carrier 23, the rod 98 being anchored on the cross-head and projecting loosely through the lug 99. Thereafter the carrier 23 moves'with the cross-head, .withdrawing the hub c from the center element 22. The increase in fluid pressure in pi c 62 required to continue the movement 0 the cross-head against the added resistance ofmitted to pipe 73 and is sufficient to overcome the resistance of spring 89, so that hollow valve 88 is-forced openand piston 44 is actuated to release the clamp 25.

The cross-head 14 and carrier 23 continue this'movement until they approach the limit of their return stroke, at which point the.

fork 72 on the cross-head engages the collar 71 on the controlrod 65, and adjusts the valve 50 into the intermediate position.

4 fered bythe drag of the carrier 23, is transpressure. a

frame, a pressure applying head at one end of said frame, a pressure sustaining head at the other end of said frame, a work support freely movable along said frame between said heads, and means for fixing the work in position on said support between said heads. 2. In an assembly press the combination of a pressure applying head, a pressure sustaining head, a work support freely movable in the direction of pressure between said heads, and means for hiring the work 111 position on said support between said heads.

3. In an assembly press the combinatlonof a pressure applying head, a pressure sustaining head, and means for supporting a work piece in position between said heads for movement in the direction of the applied pressure. '4. In a press for applying elements to the opposite ends of a piece of work the combination of a pressure applying head for engaging one of said elements, a pressure sustaining head for engaging the other of sald. elements, and means for supporting the work in position between said heads to receive said elements, said means perm tting movement of said work in the direction of the applied 5. In a press for applying elements to the opposite ends of a piece of work the combmation of a pressure applying head for engaging one'of said elements, a pressure sustalning head for engaging the other of said ele-.

ments, a support freely movable between said heads in the direction of the applied pressure, and means for fixing the piece of work in definite position on said support. 6. In a press for applying elements to the opposite ends of a piece ofwork the comb1- nation of a pressure applying head for engaging one of said elements, a. pressure sustaining head for engaging the other of sald elements, a support freely movable between said heads in the direction of the applied pressure, means for fixingthe piece of work in definite position on "said support, and means for limiting the assembly movement between said support and heads to determine the final position of each element on the work.

7. In a press for applying elements to the opposite ends of a piece of work the combination of a pressure applying head for engaging one of said elements, a pressure sustaining head for engaging the other of said elements, means for supporting the piece of work between said heads for movement in the direction of applied pressure, and means for limiting theassembly'movement between the work and said heads to determine the final position of each element on the work.

8. In a press for applying elements to the opposite ends of a piece of work the combination of a pair of cooperating pressure heads for engagement with said elements 5 respectively, means for supporting the piece of work between said heads, means for producing relative movement between said heads and work to assemble the elements on the work, and means for'limiti'ng such relative movement between each of'said heads position opposite ends of a plece of-work the combination of a pair of cooperating pressure heads for engagement with said elements respectively, a support for the piece of work, means for securing the work in definite position on said support, means for efi'ecting relative movementbetween said heads and support to force the elements on the work,

and means on said support cooperating with each head for positively arresting the relative movement between each head and support to definitely determine the final position of each element on the work.

11. In a hydraulic press the combination of a pressure applying head, a pressure sustaining head, a work support, means for securing the workto said support, and hydraulically actuated, means for operating said securing means and for efl'ecting relative movement between said heads in predetermined sequence. V

12. In a hydraulic press the combination of apair of cooperating pressure heads, a work support, hydraulically actuated means for securing the work to said support, by-

draulically actuated means for effecting relative movement between said heads, and means automatically operable to determine the sequence of operation of said securing and moving means.

13. In a hydraulic press the combination of a reciprocating pressure head,-hydraulically actuated means for driving said head, a work support, hydraulically actuated means for securing the work to said support. and means automatically operable to determine the sequence of operation of said securing and driving means.

14; In a hydraulic press the combination of a hydraulically actuated ram, a work support, hydraulically actuated means for securing the work to said support, a pump for delivering a driving liquid to said ram and securing means to actuate the same, and means responsive to the pressure of said clamp for operating-said member and clamp,

' driving liquid for determining the sequence of operation of said ram and securing.

means. a 7

15. In'a h draulically operated machine the combination of a, pump, a driven member, a clamp, hydraulic connections between said pump and said member and and means responsive .to the pressure in said connections for determining the se-' quence of operation of said member and clamp.

16. In a hydraulically operated machine the combinationof a pump, two hydraulically actuatedfmotors driven by liquid dis charged by said pump, and means responsive to the pressure'of the driving liquid for determining the sequence of operation of said motors.

17. In a hydraulically actuated machine the combinatlon of a pump, a plurality of motors driven by liquid dischar ed by said pum and means responsive to t e pressure of t e driving liquid for determining the sequence of operation of said motors.

18. In a hydraulically actuated machine the combination of a pump, a plurality of motors driven by liquid discharged by said pump, and yieldable means for resisting the movement of one of sa-id'motors until another of said motors has been actuated.

19. In a hydraulically ,actuated machine the combination of a pump, a plurality of. motors driven by liquid discharged by said pum and a valve for yieldably resisting the elivery of driving liquid to one of said,-

motors unt1l another of sald motors has been actuated.

20. In a hydraulically actuated machine the combination of a pump, two separate hydraulicall actuated motors connected in parallel wit said ump, and a valve interposed between sai pum and one of said motors for yieldabl resisting the delivery of driving liquid t ereto until said other motor has been actuated.

21'. In a fluid actuated machine the com-" bination of a plurality of fluid actuated motors, a fluid pressure source, and a valve I for yieldably resisting the application of fluid, pressure to, one of said motors until the other of said motors has been actuated; 22. In a fluid actuated machine the com bination of a plurality of fluid actuated motors, a fluid pressure source, and means for JOHN P. FERRIS'.

ressure responsive t