US2918272A - Hydraulic system for controlling the return movement of pressure pads in air cushionpresses - Google Patents
Hydraulic system for controlling the return movement of pressure pads in air cushionpresses Download PDFInfo
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- US2918272A US2918272A US793500A US79350059A US2918272A US 2918272 A US2918272 A US 2918272A US 793500 A US793500 A US 793500A US 79350059 A US79350059 A US 79350059A US 2918272 A US2918272 A US 2918272A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D24/00—Special deep-drawing arrangements in, or in connection with, presses
- B21D24/10—Devices controlling or operating blank holders independently, or in conjunction with dies
- B21D24/14—Devices controlling or operating blank holders independently, or in conjunction with dies pneumatically or hydraulically
Definitions
- a principal object of the invention therefore is to provide a hydraulic system fordelaying return movement of a pressure pad in a ram press having an air cushion.
- Such a press includes a reciprocable ram 10, a fixed bolster 12, and an air cushion 14 comprising an air cylinder l6 and a piston 18 arranged to react upon a pin plate 20 disposed beneath the bolster 12.
- a lower die which is mounted on the bolster 12 includes a fixed section 22 surrounded by a pressure pad 24 between which and the pin plate 20 a series of pins 26 are disposed whereby the pad 24 is supported by the pin plate 20, which in turn is supported by the piston 18 of the air cushion.
- a die 28 mounted on the ram 10 to move therewith is cooperable with the die sections 22 and 24 for shaping a flat sheet metal blank 30.
- a suitable adjustable pressure regulating valve 32 is disposed in the air pressure line 34 through which air under say, for example, I pounds per square inch, provided by air under pressure supplied through the air line 40 under the control of a suitable adjustable pressure regulating valve 42.
- One or more hydraulic cylinders 44 are mounted on I the bolster 12 around the pressure pad 24, and each includes a cylinder 46 and a piston 48 having its rod 50 slidahly extending through a bore in the bolster 12 and arranged to react on the pin plate 20.
- Each cylinder 46 is connected by a fluid pressure line indicated generally ice at 52 with the tank 36, such line including pipe 54, passages 56, 58, cylindrical bore 60, and passage 62 in the automatic valve unit 64, and conduit 66 communicating at one end with the passage 62 and at its other end with the interior of the tank 36 at the bottom thereof whereby hydraulic fluid, i.e. oil, under the pressure to which it is subjected in the tank will be supplied to each of the cylinders 46.
- the total pressure of the cylinders 46 under only the pressure to which the oil in thetank 36 is subjected is less than the pressure exerted by the air cushion 14 against the pressure pad 24.
- An air pressure operated hydraulic booster 68 is arranged and operable when energized to increase the total pressure developed by the high pressure cylinders 44 to a value in excess of the pressure exerted by the air cushion 14 on the pad 24 whereby the pressure developed by the cylinders 44 is effective to delay the return of the air cushion 14 upon the opening of the press and hence the return of the die pad 24 to its upper position. At times it is necessary to delay the return of the pad 24 or to stop the pad 24 at some position in its upward travel so as to prevent distortion of the workpiece being formed. Thus so delaying the pressure pad will cause the workpiece to cling to the die section 22 upon opening movement of the press.
- the booster 68 includes an air cylinder 70 having a piston 72 reciprocable therein, the cylinder 70 being connected by air pressure line 74 to the line 40 through which air pressure is supplied to the tank 36.
- a rotary valve'78 controls the supply of air under pressure through the line 74 to the cylinder 70 and the porting of the cylinder 70 to atmosphere.
- the booster includes a hydraulic booster cylinder having a piston 82 reciprocable therein, the piston 82 being connected by stem 84 to the piston 72 so as to move therewith.
- the piston 72 has an effective area substantially greater (say, for example, ten times) than the piston 82.
- the cylinder 80 is connected by a hydraulic fluid line indicated generally at 86 with the oil under pressure in the tank 36, such line including the conduit 66 and in the valve 64 the passages 62, 88, 90, 92 and 94, the latter of which communicates with the end of the cylinder 80.
- a check valve 96 in the line 86 permits flow of hydraulic fluid from the tank 36 under the pressure therein into the cylinder 80 but prevents return flow.
- the passage 94 communicates with one end of the bore 60.
- a valve 98 slidable in the bore 60 is biased by a spring 100 to a position to close the end of the passage 94 opposite the cylinder 80.
- the bore 60 communicates through a port 102 with a passage 104 which communicates with the passage 56.
- the air piston 72 When the booster 68 is not energized, the air piston 72 will normally be at or adjacent the bottom of the cylinder 70. However, when the valve 78 is positioned so as to supply air under pressure through the line 74 to the cylinder 70, the piston 72 will be effective to advance the piston 82 in the cylinder 80 whereby the fiuid discharged from the cylinder 80 moves the valve member 98 upwardly sufficient to cause the same to close the end of the passage 62, thereby shutting off the communication between the tank 36 and the cylinders 46, and then upon further upward movement of the valve member 98 to uncover the port 102 for the purpose of transmitting the pressure thus developed by the piston 82 to the cylinders 546. 'As previously noted, the pressure developed in the cylinders 46 is in excess of the upward thrust of the air cushion 14.
- the valve 78 includes a rotary body 110 having passages 112 and 114 therein, the body 110 having fixed to it an arm 116 havinga pin'and slot connection 118 with a link 120 which is fixed to the ram for movement therewith.
- a rotary body 110 having passages 112 and 114 therein, the body 110 having fixed to it an arm 116 havinga pin'and slot connection 118 with a link 120 which is fixed to the ram for movement therewith.
- the air pressure operated hydraulic booster 68 will'be energized so as to shift the valve member 98 to shut off the communication between the cylinders 46 and the tank 36 and then to open the communication between'the cylinder 80 and the cylinders 46, thus increasing the pressure in the cylinders 46 to a value. sufficient to counteract the air cushion 14, thus delaying return movement of the pad 24.
- the pin and slot connection 118 will shift the valve body 110 through 90 in a clockwise direction so that the passages 112 and 114 will port the air pressure line 74 to atmosphere through the atmospheric vent 122, thusdissipa'ting the pressure in the cylinder 70.
- the pressure exerted on the pistons 48 by the air cushion 14, through the piston 18, the pin plate 20 and the piston rods 50, will ddisplace hydraulic fluid from the cylinders 46 through the conduit 54, the passage 56, the passage 104, the port'102, the bore 60, and the passage 94 to the cylinder 80.
- the system provides an effective means for delaying the return movement of the pad 24 under the influence of the air cushion 14. It is contemplated that the mechanical connection between theram 10 and the valve body 110 may be temporarily bro-ken so as to permit .manual control of the valve 110 whereby the return of the "pad 24 can be manually controlled for checking purposes.
- a hydraulic system for controlling the return movement of such pad comprising a tank hav- I ing hydraulic fluid therein, a hydraulic booster cylinder, a
- a hydraulic system for controlling the return movement of such pad comprising a tank separate from the air cushion and having hydraulic fluid under pressure therein, a series of high pressure hydraulic cylinders and pistons mounted on the top side of the bolster of the press and disposed around the pressure pad and arranged to react when energized on said air cushion for counteracting the same, a hydraulic line between said tank and said high pressure hydraulic cylinders through which hydraulic fluid is supplied to said cylinders from said tank, a normally open valve in said line, an air pressure operated booster connected with said line between said valve and said high pressure hydraulic cylinders and operable when energized to react on the hydraulic fluid therein for closing said valve and increasing the pressure of the hydraulic fluid in the high pressure hydraulic cylinders to
- a hydraulic system for controlling the return movement of such pad comprising a tank having hydraulic fluid therein, an air pressure operated hydraulic booster including a cylinder, a fluid pressure line between said tank and cylinder through which hydraulic fluid from the tank is supplied to said cylinder, means to prevent return flow through said line, a source of air pressure connected to said tank above the hydraulic fluid therein, a high pressure hydraulic cylinder and piston associated with the bolster of the press and operable so as to counteract said air cushion, a hydraulic line between said tank and said high pressure hydraulic cylinder, a hydraulic fluid line between said booster hydraulic cylinder and said high pressure hydraulic cylinder, valve means in said last-mentioned line permitting fluid flow therein from said booster hydraulic cylinder to said high pressure hydraulic cylinder, said valve means including
- valve actuated by the discharge of hydraulic fluid from said booster hydraulic cylinder forms a check valve to prevent return flow of hydraulic fluid in said last-mentioned line from said high pressure hydraulic cylinder to said booster hydraulic cylinder.
- Apparatus according to claim 4 wherein said means to prevent return flow through said fluid pressure line between said tank and booster cylinder includes a check valve in said fluid pressure line.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Presses And Accessory Devices Thereof (AREA)
- Shaping Metal By Deep-Drawing, Or The Like (AREA)
Description
Dec. 22, 1959 F. M. WILLIAMSON 2,918,272
HYDRAULIC SYSTEM FOR CONTROLLING THE RETURN MOVEMENT OF PRESSURE PADS IN AIR CUSHION PRESSES Filed Feb. 16, 1959 JNVENTOR.
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f/ay/ 1447/242745102 United States Patent O HYDRAULIC SYSTEM FOR CONTROLLING THE RETURN MOVEMENT OF PRESSURE PADS IN AIR CUSHION PRESSES Floyd M. Williamson, Detroit, Mich.
Application February 16, 1959, Serial No. 793,500
6 Claims. (Cl. 267-1) This invention relates to hydraulic'systems for delaying the return movement of pressure pads in a ram press employing an air cushion. t
In such presses it is frequently desirable to delay the return movement of the pressure pad or to stop the pad at some intermediate position in its upward travel to prevent distortion of the workpiece being formed. The invention herein disclosed provides a simple and effective means for carrying out this type of operation.
A principal object of the invention therefore is to provide a hydraulic system fordelaying return movement of a pressure pad in a ram press having an air cushion.
Other and further objects of the invention will be apparent from the following description and claims and may be understood by reference to the accompanying drawing which by way of illustration shows a preferred embodiment of the invention and what I now consider to be the best mode of applying the principles thereof. Other embodiments of the invention may be used without departing from the scope of the present invention as set forth in the appended claims. The single figure of the drawing schematically illustrates a ram press with a hydraulic system embodying the invention.
Such a press includes a reciprocable ram 10, a fixed bolster 12, and an air cushion 14 comprising an air cylinder l6 and a piston 18 arranged to react upon a pin plate 20 disposed beneath the bolster 12. A lower die which is mounted on the bolster 12 includes a fixed section 22 surrounded by a pressure pad 24 between which and the pin plate 20 a series of pins 26 are disposed whereby the pad 24 is supported by the pin plate 20, which in turn is supported by the piston 18 of the air cushion. A die 28 mounted on the ram 10 to move therewith is cooperable with the die sections 22 and 24 for shaping a flat sheet metal blank 30. When the press is open the pad 24 is positioned so that its upper surface is at the same elevation as the upper flat surface of the section 22. A suitable adjustable pressure regulating valve 32 is disposed in the air pressure line 34 through which air under say, for example, I pounds per square inch, provided by air under pressure supplied through the air line 40 under the control of a suitable adjustable pressure regulating valve 42.
One or more hydraulic cylinders 44 are mounted on I the bolster 12 around the pressure pad 24, and each includes a cylinder 46 and a piston 48 having its rod 50 slidahly extending through a bore in the bolster 12 and arranged to react on the pin plate 20. Each cylinder 46 is connected by a fluid pressure line indicated generally ice at 52 with the tank 36, such line including pipe 54, passages 56, 58, cylindrical bore 60, and passage 62 in the automatic valve unit 64, and conduit 66 communicating at one end with the passage 62 and at its other end with the interior of the tank 36 at the bottom thereof whereby hydraulic fluid, i.e. oil, under the pressure to which it is subjected in the tank will be supplied to each of the cylinders 46. The total pressure of the cylinders 46 under only the pressure to which the oil in thetank 36 is subjected is less than the pressure exerted by the air cushion 14 against the pressure pad 24.
An air pressure operated hydraulic booster 68 is arranged and operable when energized to increase the total pressure developed by the high pressure cylinders 44 to a value in excess of the pressure exerted by the air cushion 14 on the pad 24 whereby the pressure developed by the cylinders 44 is effective to delay the return of the air cushion 14 upon the opening of the press and hence the return of the die pad 24 to its upper position. At times it is necessary to delay the return of the pad 24 or to stop the pad 24 at some position in its upward travel so as to prevent distortion of the workpiece being formed. Thus so delaying the pressure pad will cause the workpiece to cling to the die section 22 upon opening movement of the press.
The booster 68 includes an air cylinder 70 having a piston 72 reciprocable therein, the cylinder 70 being connected by air pressure line 74 to the line 40 through which air pressure is supplied to the tank 36. A rotary valve'78 controls the supply of air under pressure through the line 74 to the cylinder 70 and the porting of the cylinder 70 to atmosphere. The booster includes a hydraulic booster cylinder having a piston 82 reciprocable therein, the piston 82 being connected by stem 84 to the piston 72 so as to move therewith. The piston 72 has an effective area substantially greater (say, for example, ten times) than the piston 82. The cylinder 80 is connected by a hydraulic fluid line indicated generally at 86 with the oil under pressure in the tank 36, such line including the conduit 66 and in the valve 64 the passages 62, 88, 90, 92 and 94, the latter of which communicates with the end of the cylinder 80. A check valve 96 in the line 86 permits flow of hydraulic fluid from the tank 36 under the pressure therein into the cylinder 80 but prevents return flow.
The passage 94 communicates with one end of the bore 60. A valve 98 slidable in the bore 60 is biased by a spring 100 to a position to close the end of the passage 94 opposite the cylinder 80. The bore 60 communicates through a port 102 with a passage 104 which communicates with the passage 56. Thus when the valve member 98 in response to the discharge of fluid from the cylinder 80 moves against the force of the spring 100 sufficiently to uncover the port 102, fluid will flow from the cylinder 80 through the passage 94, the bore 60, the port 102, the passage 104, the passage 56, and the conduit 54 toward the cylinders 46 thereby to transmit the pressure of the fluid in the cylinder 80 to the hydraulic fluid in the cylinders 46.
When the booster 68 is not energized, the air piston 72 will normally be at or adjacent the bottom of the cylinder 70. However, when the valve 78 is positioned so as to supply air under pressure through the line 74 to the cylinder 70, the piston 72 will be effective to advance the piston 82 in the cylinder 80 whereby the fiuid discharged from the cylinder 80 moves the valve member 98 upwardly sufficient to cause the same to close the end of the passage 62, thereby shutting off the communication between the tank 36 and the cylinders 46, and then upon further upward movement of the valve member 98 to uncover the port 102 for the purpose of transmitting the pressure thus developed by the piston 82 to the cylinders 546. 'As previously noted, the pressure developed in the cylinders 46 is in excess of the upward thrust of the air cushion 14.
The valve 78 includes a rotary body 110 having passages 112 and 114 therein, the body 110 having fixed to it an arm 116 havinga pin'and slot connection 118 with a link 120 which is fixed to the ram for movement therewith. Upon the closing'of the press-the mechanical linkage between the ram 10' and the valve body 110 will rotate the latter so that the passage 112 will establish communication between the air pressure lines 40 ;and 74, thus admitting air under pressure to the cylinder 70 to advance the piston 72 thereof. 6 Since the cylinders -46 and 80 were previously in'comrnunicationwith the tank 36, the cylinders 46 and SO-will be charged with hydraulic fluid under the pressure to which they are sub- I jected by the air pressure in the tank 36. Thus when the press closes, that is, with the parts of the press ar- 1 ranged as shown in the drawing, the air pressure operated hydraulic booster 68 will'be energized so as to shift the valve member 98 to shut off the communication between the cylinders 46 and the tank 36 and then to open the communication between'the cylinder 80 and the cylinders 46, thus increasing the pressure in the cylinders 46 to a value. sufficient to counteract the air cushion 14, thus delaying return movement of the pad 24.
'As the ram moves upwardly, that is, as it retracts,
the pin and slot connection 118 will shift the valve body 110 through 90 in a clockwise direction so that the passages 112 and 114 will port the air pressure line 74 to atmosphere through the atmospheric vent 122, thusdissipa'ting the pressure in the cylinder 70. The pressure exerted on the pistons 48 by the air cushion 14, through the piston 18, the pin plate 20 and the piston rods 50, will ddisplace hydraulic fluid from the cylinders 46 through the conduit 54, the passage 56, the passage 104, the port'102, the bore 60, and the passage 94 to the cylinder 80. Since both sides of the valve member 98 will be exposed to the same pressure, the spring 100 will be free to shift the valve member 98 so as to close the port 102 and to expose the end of the passage 62, thereby permitting the return of fluid from the cylinders 46 through the fluid ipressure line 52 to the tank 36. As soon as the pressure 7 'in'the air cylinder 70 is dissipated, hydraulic fluid will flow from the tank 36 through the line 86 into the cylinder 80. Since return of the valve member 98 to its lowermost position will leave the cylinders 46 in communication with the oil in the tank 36, the cylinders 46 will always be charged with hydraulic fiuid under the pressure of the hydraulic fluid in the tank 36. The'circulation of oil obtained by reason of the operation of the booster 68 will serve to dissipate heat from the oil.
Thus the system provides an effective means for delaying the return movement of the pad 24 under the influence of the air cushion 14. It is contemplated that the mechanical connection between theram 10 and the valve body 110 may be temporarily bro-ken so as to permit .manual control of the valve 110 whereby the return of the "pad 24 can be manually controlled for checking purposes.
While I have illustrated and described a preferred embodiment of my invention, it is understood that this is capable of modification and I therefore do not wish to be limited to the precise details'set forth but desire to avail myself of such changes and alterations as fallwithin the purview of the following claims.
I "claim: v g 1. in a ram press having a fixed bolster, a movable hydraulic fluid under pressure therein, a hydraulic booster cylinder, a fluid pressure line between said tank and "cylinder through which hydraulic fluid from the tank is supplied to said cylind'er,a check'valve in said line to prevent return flow of fluid therethrough, an air cylinder having a piston therein, a piston in said hydraulic cylinder connected to said air piston so as to move therewith, a high pressure hydraulic cylinder and piston associated with the bolster of the press and arranged so as to counteract said air cushion, a hydraulic line between said tank and said high pressure hydraulic cylinder, a hydraulic fluid line between said booster hydraulic cylinder and said high pressure hydraulic cylinder, valve means in said last-mentioned line permitting fluid fiow therein from said booster hydraulic cylinder to said high pressure hydraulic cylinder, said valve means including a valve actuated by the discharge of hydraulic fluid rorn said booster hydraulic cylinder to close the hydraulic fluid line between said tank and said high pressure hydraulic cylinder whereby such discharge of hydraulic fluid increases the pressure of the hydraulic fluid in the high pressure'hydraulic cylinderto a value sufiicient to counteract said air cushion, an air pressure lineconnected to said air cylinder having a valve therein operated upon closing of the press to open such line to the flowof air under pressure to the booster air cylinder for causing the piston thereof to actuate the piston of saidhydraulic booster cylinder to discharge hydraulic fluid therefrom, said last-mentioned valve in another position thereof being adapted to port the line leading to said booster air cylinder to atmosphere upon the opening movement of the press.
2. In a ram press having a fixed bolster, a movable pressure pad arranged to be moved toward the bolster by the press ram upon the closing of the press and an -air cushion reacting on said pad to resist such movemerit and to move such pad away from the bolster upon opening of the press: a hydraulic system for controlling the return movement of such pad comprising a tank hav- I ing hydraulic fluid therein, a hydraulic booster cylinder, a
fluid pressure line between said tank and cylinder through which hydraulic fluid from the tank is supplied to said cylinder, a check valve in said line to prevent return flow of tuid therethrough, an air cylinder having a piston therein, a piston in said hydraulic cylinder smaller than said air piston and connected thereto so asto move therewith, a source of air pressure connected to said tank above the hydraulic fiuid therein, a high pressure hydraulic cylinder and piston associated with the bolster of the press and arranged when actuated so as to counteract said air cushion, a hydraulic line between said tank and said high pressure hydraulic cylinder through which hydraulic fluid is supplied to such' cylinder from said tank, a hydraulic fluid line between said booster hydraulic cylinder'and said high pressure hydraulic cylinder, valve means in said last-mentioned line permitting fluid flow therein to said high pressure hydraulic cylinder, said valve means including a valve adapted by the discharge of hydraulic-fluid'from said booster hydraulic cylinder in response to actuation of the air piston in the booster cylinder to close the hydraulic fluid line between said tank and said high pressure hydraulic cylinder whereby such discharge of hydraulic fluid increases the pressure of the hydraulic fiuid in the high pressure hydraulic cylinder to a value suflicient to counteract said air'cushion, an air pressure line between sald source and said air cylinder having a valve therein adapted in one position thereof to open such line to the flow of air under pressure to the booster air cylinder and a connection between said last-mentioned valve and a part of the press movable with the ram for operating said valve, said lastmentioned 'valve in another position thereof being adapted to port the line leading to said booster air cylinder to atmosphere upon the'opening movement of the press.
3. in a ram press having a fixed bolster, a movable pressure pad arranged'to be movedtoward the bolster by the press ram upon the closing of'the press and an air cushion reacting on'said pad toresist such movement and to move such pad away from the bolster upon opening of the press: a hydraulic system for controlling the return movement of such pad comprising a tank separate from the air cushion and having hydraulic fluid under pressure therein, a series of high pressure hydraulic cylinders and pistons mounted on the top side of the bolster of the press and disposed around the pressure pad and arranged to react when energized on said air cushion for counteracting the same, a hydraulic line between said tank and said high pressure hydraulic cylinders through which hydraulic fluid is supplied to said cylinders from said tank, a normally open valve in said line, an air pressure operated booster connected with said line between said valve and said high pressure hydraulic cylinders and operable when energized to react on the hydraulic fluid therein for closing said valve and increasing the pressure of the hydraulic fluid in the high pressure hydraulic cylinders to a value suflicient to counteract said air cushion, an air pressure line connected to said booster for energizing the same and a control valve therefor adapted upon closing of the press to open such line to the flow of air under pressure to the booster and to port said line to atmosphere upon opening of the press.
4. In a ram press having a fixed bolster, a movable pressure pad arranged to be moved toward the bolster 'by the press ram upon the closing of the press and an air cushion reacting on said pad to resist such movement and to move such pad away from the bolster upon opening of the press: a hydraulic system for controlling the return movement of such pad comprising a tank having hydraulic fluid therein, an air pressure operated hydraulic booster including a cylinder, a fluid pressure line between said tank and cylinder through which hydraulic fluid from the tank is supplied to said cylinder, means to prevent return flow through said line, a source of air pressure connected to said tank above the hydraulic fluid therein, a high pressure hydraulic cylinder and piston associated with the bolster of the press and operable so as to counteract said air cushion, a hydraulic line between said tank and said high pressure hydraulic cylinder, a hydraulic fluid line between said booster hydraulic cylinder and said high pressure hydraulic cylinder, valve means in said last-mentioned line permitting fluid flow therein from said booster hydraulic cylinder to said high pressure hydraulic cylinder, said valve means including a valve actuated by the discharge of the hydraulic fluid from said booster hydraulic cylinder to close the hydraulic fluid line between said tank and said high pressure hydraulic cylinder whereby such discharge of hydraulic fluid increases the pressure of the hydraulic fluid in the high pressure hydraulic cylinder to a value suflicient to counteract said air cushion, and a valve associated with said booster and controlled by opening and closing movement of the press for controlling the operation of said booster.
5. Apparatus according to claim 4 wherein said valve actuated by the discharge of hydraulic fluid from said booster hydraulic cylinder forms a check valve to prevent return flow of hydraulic fluid in said last-mentioned line from said high pressure hydraulic cylinder to said booster hydraulic cylinder.
6. Apparatus according to claim 4 wherein said means to prevent return flow through said fluid pressure line between said tank and booster cylinder includes a check valve in said fluid pressure line.
References Cited in the file of this patent UNITED STATES PATENTS Rode Dec. 1, 1931 McMillin et a1 July 14, 1942
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US793500A US2918272A (en) | 1959-02-16 | 1959-02-16 | Hydraulic system for controlling the return movement of pressure pads in air cushionpresses |
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Application Number | Priority Date | Filing Date | Title |
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US793500A US2918272A (en) | 1959-02-16 | 1959-02-16 | Hydraulic system for controlling the return movement of pressure pads in air cushionpresses |
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US2918272A true US2918272A (en) | 1959-12-22 |
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US793500A Expired - Lifetime US2918272A (en) | 1959-02-16 | 1959-02-16 | Hydraulic system for controlling the return movement of pressure pads in air cushionpresses |
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Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2954068A (en) * | 1959-09-16 | 1960-09-27 | Floyd M Williamson | Hydraulic cushions for die pads of ram type presses |
US3113476A (en) * | 1961-08-24 | 1963-12-10 | Gen Dynamics Corp | Impacter bounce shock eliminator |
US3163143A (en) * | 1962-04-27 | 1964-12-29 | Nat Bank Of Detroit | Hydraulic cushions for die pads of ram type presses |
US3251214A (en) * | 1963-01-09 | 1966-05-17 | Dro Engineering Company Di | Hydraulic system for dies |
US3488045A (en) * | 1968-01-26 | 1970-01-06 | Bliss Co | Hydraulic snubbing device for presses |
US3682465A (en) * | 1969-02-18 | 1972-08-08 | Haemmerle Ag Maschf | Work-table on machines for processing metal in sheet or plate form |
EP0356188A2 (en) * | 1988-08-24 | 1990-02-28 | Bernard Joseph Wallis | Die stamping system |
EP0533372A1 (en) * | 1991-09-19 | 1993-03-24 | Bernard Joseph Wallis | Gas cylinder control system |
US5966981A (en) * | 1997-12-01 | 1999-10-19 | Teledyne Industries, Inc. | Press assembly |
US20060260379A1 (en) * | 2005-05-17 | 2006-11-23 | Special Springs S.R.L. | Apparatus for locking a sheet of metal suitable to be shaped in a press |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1834111A (en) * | 1930-12-18 | 1931-12-01 | Fredrich J Rode | Metal working press |
US2289584A (en) * | 1940-03-25 | 1942-07-14 | Hydraulic Dev Corp Inc | Metal stretching press |
GB769308A (en) * | 1953-09-26 | 1957-03-06 | T And J Brettell Ltd | Improvements relating to pressure controlling or cushioning appliances |
-
1959
- 1959-02-16 US US793500A patent/US2918272A/en not_active Expired - Lifetime
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1834111A (en) * | 1930-12-18 | 1931-12-01 | Fredrich J Rode | Metal working press |
US2289584A (en) * | 1940-03-25 | 1942-07-14 | Hydraulic Dev Corp Inc | Metal stretching press |
GB769308A (en) * | 1953-09-26 | 1957-03-06 | T And J Brettell Ltd | Improvements relating to pressure controlling or cushioning appliances |
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2954068A (en) * | 1959-09-16 | 1960-09-27 | Floyd M Williamson | Hydraulic cushions for die pads of ram type presses |
US3113476A (en) * | 1961-08-24 | 1963-12-10 | Gen Dynamics Corp | Impacter bounce shock eliminator |
US3163143A (en) * | 1962-04-27 | 1964-12-29 | Nat Bank Of Detroit | Hydraulic cushions for die pads of ram type presses |
US3251214A (en) * | 1963-01-09 | 1966-05-17 | Dro Engineering Company Di | Hydraulic system for dies |
US3488045A (en) * | 1968-01-26 | 1970-01-06 | Bliss Co | Hydraulic snubbing device for presses |
US3682465A (en) * | 1969-02-18 | 1972-08-08 | Haemmerle Ag Maschf | Work-table on machines for processing metal in sheet or plate form |
EP0356188A2 (en) * | 1988-08-24 | 1990-02-28 | Bernard Joseph Wallis | Die stamping system |
EP0356188A3 (en) * | 1988-08-24 | 1990-11-28 | Bernhard Joseph Wallis | Die stamping system |
EP0533372A1 (en) * | 1991-09-19 | 1993-03-24 | Bernard Joseph Wallis | Gas cylinder control system |
US5966981A (en) * | 1997-12-01 | 1999-10-19 | Teledyne Industries, Inc. | Press assembly |
US20060260379A1 (en) * | 2005-05-17 | 2006-11-23 | Special Springs S.R.L. | Apparatus for locking a sheet of metal suitable to be shaped in a press |
US7260971B2 (en) * | 2005-05-17 | 2007-08-28 | Special Springs S.R.L. | Apparatus for locking a sheet of metal suitable to be shaped in a press |
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