US2466604A - Press reversing linkage system - Google Patents

Press reversing linkage system Download PDF

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Publication number
US2466604A
US2466604A US562218A US56221844A US2466604A US 2466604 A US2466604 A US 2466604A US 562218 A US562218 A US 562218A US 56221844 A US56221844 A US 56221844A US 2466604 A US2466604 A US 2466604A
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Prior art keywords
pump
cylinder
platen
press
piston
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US562218A
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Howard F Macmillin
George A Waldie
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HPM Development Corp
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HPM Development Corp
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B30PRESSES
    • B30BPRESSES IN GENERAL
    • B30B15/00Details of, or accessories for, presses; Auxiliary measures in connection with pressing
    • B30B15/16Control arrangements for fluid-driven presses
    • B30B15/18Control arrangements for fluid-driven presses controlling the reciprocating motion of the ram
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D3/00Electroplating: Baths therefor
    • C25D3/02Electroplating: Baths therefor from solutions
    • C25D3/34Electroplating: Baths therefor from solutions of lead
    • C25D3/36Electroplating: Baths therefor from solutions of lead characterised by the organic bath constituents used

Definitions

  • Our invention relates to hydraulic presses and controls therefor and particularly hydraulic presses utilized for the forging of metals.
  • Figure 1v is a diagrammatic View, partially in section, showing the association of the platen, pressing cylinder, main hydraulic circuit and sup plementary hydraulic circuit for the actuation of th floating fulcrum;
  • Figure 2 is a detailed View showing the fulcrum control and pump control mechanism a forward position
  • Figure 3 is a similar view showing the pump moved to a reverse position due to the action of the floating fulcrum;
  • Figure 4 is a View showing the parts in a neutral position with the floating fulcrum in its Figure- 3 position;
  • Figure 5 is a modification showing the locationof the actuating piston and cylinder upon the cylinder housing and connected to a slide which supports the bell crank linkage connected to the pump reversal mechanism;
  • Figure 6 is a diagrammatic view of the electrical circuit involved in this invention.
  • a bed upon which is mounted work piece to be forged.
  • the work piece is engaged by the platen 2 which is mounted upon one end of the piston rod 3, the upper end of which, in a piston t, engagesthe interior walls of the main cylinder 5- within which it: reciprocates.
  • Mounted upon the or the cylinder 5 is a surge tank 6.
  • Within the tank and also: mounted upon the head of the cylinder 5 is the surge valve 1 connected by a-pipe- 8 to the pipe 9 which contains a check valve lit.
  • the lower end of the pipe 9 communicates with the space H between the inner wall of the cy1-- inder 5 and the outer wall of the piston rod 3;.
  • the lower end of this cylinder 5 is sealed by the packing l2 and gland 13.
  • the pump it, a reversible pump; is provided with a servomotor control 1-5 that serves through: the piston rod to reverse the pump so that the flow to the opposite ends of the cylinder 5: will be reversed in order to reciprocate the platen
  • the pipe H is connected to one side of the pump and to the side of the cylinder 5.
  • this pipe H is a branch pipe Ha containing an adjustable pressure switch l8 which is adapted to be closed upon the accomplishment of a predetermined pressure in the line H.
  • the other side is connected by the line it to: the lower end of the cylinder 5 below the piston 6.. It will, therefore, be apparent that the direction. of fluid as supplied by the pump it will cle;ermi-ne the reciprocation and direction oi movement of the platen 2.
  • the servomotor i5 is'supplied' with pressure fluid through the pipes. 2;! 2'3 in] the usual manner.
  • the shifting piston rod it yieldingl'y operated by a spring 24% which pulls. it towards the right hand. This spring is attached to an abutment 25 on the press.
  • Linkage control for operating the press consists of a lever 25 pivoted at El upon the rod 28 and connected at its other end at 29 to a pitman it which in turn is pivoted at 31 to one arm 32 of a hell crank, the other arm of which is 3.3.
  • This bell crank is pivoted at a l. upon a bracket formed on thepress cylinder
  • the free end of the bell crank arm 33 as at 35 is adapted to engage a collar 3? that is mounted upon a shift rod 33 the upper end of which is guided in the bracket 39 on the cylinder 5 and thelower end of which passes through an ear on the platen 2.
  • the upper end of the shift rod 38 is provided with a restraining collar 4
  • the rue-- dian portion of theshift rod 38' is provided with shift'col'lar d2.
  • This collar t2 engages the bracket 48 on the platen 2 so that as the platen rises it will lift. the rod 38.
  • the lower end of the shift rod 38 is provided with a collar 43 which engages with the bell crank arm 44 on the lever 45 which constitutes the other arm of the bell crank which is pivoted at 46 on the arm 41.
  • This bell crank system is provided with a cam nose 48 for engaging with a switch member 49 for opening and closing a switch to which are connected the wires 50 and 5!.
  • Actuatz'ng system for the movable fulcrum When the pressure in the lines 11 and Na accumulates to a point where the switch 18 closes, it energizes a solenoid 52 which is connected by the Wires l9 and 20 to the switch Hi. This causes the core 53 of the solenoid to move to the left hand to shift the valve member 54 against the spring 55 in the cylinder 56. Pressure is supplied to that cylinder by the auxiliary pump 51 from the sump tank 58 through the pipe 59 to the cylinder. The pipes 60 and El are adapted to drain back the fluid from the cylinder 55 to the sump tank 58. When this shift takes place the pressure is applied through the pipe 82 to the left hand of the piston 63 which is connected to the piston rod 28.
  • This piston operates within the cylinder 64 mounted at 65 on the main pump.
  • the right hand movement of the piston 63 moves the floating fulcrum 2'! to the right hand (see Figures 3 and 4).
  • the spring 55 shifts the valve 54 to the right hand as shown in Figure 1 and the pressure through the pipe 66 will shift the pis ton 63 back to the position shown in Figure 1.
  • Bl and 68 indicate the main power lines. nected the following: the lines l9 and 2% including the switch i8 and the solenoid 52. There is also connected across these wires EST-53 the wires 50--5l which contain the switch 49, the holding relay 52a, and the holding contacts 521) and 52c, one end of the relay 52a and the solenoid 52 being interconnected at 52d.
  • the cylinder 64 is mounted in a vertical position on the side wall of the cylinder 5. Its piston rod 28 is connected at 2811 to a slide block 23b that operates on a slide 280 on the side walls of the cylinder 5.
  • a floating fulcrum for the bell crank 3233 the same result is secured as providing a floating fulcrum for the lever 26.
  • the lever 26 is provided with a fixed fulcrum through the link 26a which is mounted at 26b upon the end of the servomotor cylinder l5.
  • this invention is not limited in use to a closed circuit but may be employed in an open circuit as well by fitting the controls to a valve means operable to control the flow of fluid to both sides of a ram.
  • a cylinpiston and piston rod reversing linkage pivotally fulcrumed upon the end of said piston rod for varying the delivery of said pump
  • a reversing valve a pump and sump connected thereto, said valve being connected to opposite ends of said cylinder
  • a solenoid operably connected to said reversing valve and hydraulic means for controlling the opening and closing of the electrical circuit to energize said solenoid whereby when it is energized or deenergized said pivotal support of the linkage will be shifted and the delivery of said pump varied independently of the position of the rest of said linkage.
  • a cylinder, piston and piston rod reversing linkage pivotally fulcrumed upon the end of said piston rod for varying the delivery of said pump
  • a reversing valve pivotally fulcrumed upon the end of said piston rod for varying the delivery of said pump
  • a reversing valve a pump and sump connected thereto, said valve being connected to opposite ends of said cylinder
  • a solenoid operably connected to said reversing valve
  • hydraulic means for controlling the opening and closing of the electrical circuit to energize said solenoid whereby when it is energized or deenergized said pivotal support of the linkage will be shifted to vary the delivery of said pump
  • mechanically operated hand means adapted to mechanically shift said linkage to vary the delivery of said pump and deenergize said electrical circuit.
  • a reversible pump a servomotor movable into a first position to place said pump on forward stroke or into a second position to place said pump on reverse stroke or into a third position to place said pump in neutral
  • manual means movable into three positions for positioning said servomotor in its respective three positions
  • fluid operable means for positioning said servomotor in its second position entirely independently of the position of said manual means
  • means responsive to the positioning of said manual means in its third position for making said fluid operable means ineffective a reversible pump, a servomotor movable into a first position to place said pump on forward stroke or into a second position to place said pump on reverse stroke or into a third position to place said pump in neutral

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  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Electrochemistry (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Press Drives And Press Lines (AREA)

Description

April 5, 1949. MacMILLIN ET AL 2,466,604
PRESS REVERSING LINKAGE SYSTEM Filed Nov. 6, 1944 2 Shets-Sheet 1 INVENTOR Home E MadmLuu BY GEORGE A. WALD! T M 3/ WM ATTORNEY April 5, '1949.
H. F. Ma MlLLlN ET AL PRESS REVERSYING LINKAGE SYSTEM 2 Sheets-Sheet 2 Filed Nov. 6, 1944 I My Aim 3% NE. I. m H TMW N LLflm m xw Hi.
Y B 8 W 6 .M m 5 Patented Apr. 5, 1949 UNITED STATES PATNT OFFICE PRESS REVERSIN G LINKAGE SYSTEM Howard- F. MacMillin, Mount Gilead, and George A. Waldie, South Woodbury, Ohio, assignors to H-P-M Development Corporation, Wilmington, Del., a corporation of Delaware Application November 6, 1944, Serial No. 562,218
1 4 Claims.
Our invention relates to hydraulic presses and controls therefor and particularly hydraulic presses utilized for the forging of metals.
It is the object of our invention to provide a system, without control of the operator, of automatically withdrawing the pressing platen from the hot work piece to prevent the latter from being cooled by the conduction of heat through the platen.
It is an object of our invention to provide means of accomplishing the foregoing object such that the withdrawal of the platen does not depend upon the judgment of the operator.
It is a further object of our invention to pro vide a hydraulically actuated fulcrum for an actuating. linkage which reverses a pump connected in a closed circuit with a press platen.
It is an object to provide a supplementary hydraulic circuit for supplying fluid power to a hydraulically actuated movable fulcrum in order to bringabout reversal of the platen upon the ac-- complishment of a predetermined pressure in the main hydraulic system.
Referring to the drawings:
Figure 1v is a diagrammatic View, partially in section, showing the association of the platen, pressing cylinder, main hydraulic circuit and sup plementary hydraulic circuit for the actuation of th floating fulcrum;
Figure 2 is a detailed View showing the fulcrum control and pump control mechanism a forward position;
Figure 3 is a similar view showing the pump moved to a reverse position due to the action of the floating fulcrum;
Figure 4 is a View showing the parts in a neutral position with the floating fulcrum in its Figure- 3 position;
Figure 5 is a modification showing the locationof the actuating piston and cylinder upon the cylinder housing and connected to a slide which supports the bell crank linkage connected to the pump reversal mechanism;
Figure 6 is a diagrammatic view of the electrical circuit involved in this invention.
Referring to the drawings in detail 5 is a bed: upon which is mounted work piece to be forged. The work piece is engaged by the platen 2 which is mounted upon one end of the piston rod 3, the upper end of which, in a piston t, engagesthe interior walls of the main cylinder 5- within which it: reciprocates. Mounted upon the or the cylinder 5 is a surge tank 6. Within the tank and also: mounted upon the head of the cylinder 5 is the surge valve 1 connected by a-pipe- 8 to the pipe 9 which contains a check valve lit. The lower end of the pipe 9 communicates with the space H between the inner wall of the cy1-- inder 5 and the outer wall of the piston rod 3;. The lower end of this cylinder 5 is sealed by the packing l2 and gland 13.
Closed circuit system for main actuation The pump it, a reversible pump; is provided with a servomotor control 1-5 that serves through: the piston rod to reverse the pump so that the flow to the opposite ends of the cylinder 5: will be reversed in order to reciprocate the platen The pipe H is connected to one side of the pump and to the side of the cylinder 5. In this pipe H is a branch pipe Ha containing an adjustable pressure switch l8 which is adapted to be closed upon the accomplishment of a predetermined pressure in the line H. The wires l9 and iii-represent the opposite sides of the electrical. circuit which may be thus opened and closed according. to the pressure conditions in the closed circuit from the main pump it.
The other side is connected by the line it to: the lower end of the cylinder 5 below the piston 6.. It will, therefore, be apparent that the direction. of fluid as supplied by the pump it will cle;ermi-ne the reciprocation and direction oi movement of the platen 2. The servomotor i5 is'supplied' with pressure fluid through the pipes. 2;! 2'3 in] the usual manner. The shifting piston rod it yieldingl'y operated by a spring 24% which pulls. it towards the right hand. This spring is attached to an abutment 25 on the press.
Linkage control The: normal linkage control for operating the press consists of a lever 25 pivoted at El upon the rod 28 and connected at its other end at 29 to a pitman it which in turn is pivoted at 31 to one arm 32 of a hell crank, the other arm of which is 3.3. This bell crank is pivoted at a l. upon a bracket formed on thepress cylinder The free end of the bell crank arm 33 as at 35 is adapted to engage a collar 3? that is mounted upon a shift rod 33 the upper end of which is guided in the bracket 39 on the cylinder 5 and thelower end of which passes through an ear on the platen 2. The upper end of the shift rod 38: is provided with a restraining collar 4 The rue-- dian portion of theshift rod 38' is provided with shift'col'lar d2. This collar t2 engages the bracket 48 on the platen 2 so that as the platen rises it will lift. the rod 38. This results the collar 31 engaging the bell crank arm 33 on its head 3 moving it upwardly. This in turn moves the bell crank arm 32 to the right hand which pulls with it the pitman link 38 to the right hand and. moves the lower end of the lever 26 to the right hand and pushes the upper end to the left.
The lower end of the shift rod 38 is provided with a collar 43 which engages with the bell crank arm 44 on the lever 45 which constitutes the other arm of the bell crank which is pivoted at 46 on the arm 41. This bell crank system is provided with a cam nose 48 for engaging with a switch member 49 for opening and closing a switch to which are connected the wires 50 and 5!.
Actuatz'ng system for the movable fulcrum When the pressure in the lines 11 and Na accumulates to a point where the switch 18 closes, it energizes a solenoid 52 which is connected by the Wires l9 and 20 to the switch Hi. This causes the core 53 of the solenoid to move to the left hand to shift the valve member 54 against the spring 55 in the cylinder 56. Pressure is supplied to that cylinder by the auxiliary pump 51 from the sump tank 58 through the pipe 59 to the cylinder. The pipes 60 and El are adapted to drain back the fluid from the cylinder 55 to the sump tank 58. When this shift takes place the pressure is applied through the pipe 82 to the left hand of the piston 63 which is connected to the piston rod 28. This piston operates within the cylinder 64 mounted at 65 on the main pump. The right hand movement of the piston 63 moves the floating fulcrum 2'! to the right hand (see Figures 3 and 4). Upon the deenergization of the solenoid 52 the spring 55 shifts the valve 54 to the right hand as shown in Figure 1 and the pressure through the pipe 66 will shift the pis ton 63 back to the position shown in Figure 1.
Turning to Figure 6, Bl and 68 indicate the main power lines. nected the following: the lines l9 and 2% including the switch i8 and the solenoid 52. There is also connected across these wires EST-53 the wires 50--5l which contain the switch 49, the holding relay 52a, and the holding contacts 521) and 52c, one end of the relay 52a and the solenoid 52 being interconnected at 52d.
Referring to the modification in Figure 5 the cylinder 64 is mounted in a vertical position on the side wall of the cylinder 5. Its piston rod 28 is connected at 2811 to a slide block 23b that operates on a slide 280 on the side walls of the cylinder 5. By thus providing a floating fulcrum for the bell crank 3233 the same result is secured as providing a floating fulcrum for the lever 26. In this modification the lever 26 is provided with a fixed fulcrum through the link 26a which is mounted at 26b upon the end of the servomotor cylinder l5.
Method of operation The operator starts the press platen 2 downwardly by pulling the lever 45 to the left hand as it is viewed in Figure 1. In doing so the switch 49 is permitted to close. He has also shifted the shift rod 38 upwardly so as to bring the parts in substantially the position shown in Figure 2. The press then continues downwardly so long as the lever 45 remains shifted until the pressure accumulates in the tonnage control switch l8 sufliciently to energize the solenoid 52 through closing the circuit and thereafter the valve 54 is shifted to the left hand and the piston 63 moves to the right as in Figure 3. Spring 24 of the pump causes the piston rod [6 to move to Across these lines are conthe right hand along with the movement of the piston rod 28 with the piston 63 to the right hand, all as shown in Figure 3. This brings about a reversal of direction of the platen which then moves upwardly. As the result of its upward movement the shift rod 38 through its collar 31 engages the arm 33 of the bell crank pivoted at 34 moving it upwardly still further as shown in Figure 4, thereby bringing the press to neutral position because, by such action, the piston rod It has been moved to the left hand against the servomotor spring in the main pump 4. The press is now at rest. It is necessary for the operator to move the lever 45 to its vertical position in order to open the switch 49 and deenergize the electrical system thereby permitting the piston 63 to move back to its original position at the extreme left hand. The system is now in position for another stroke.
It will be apparent that this invention is not limited in use to a closed circuit but may be employed in an open circuit as well by fitting the controls to a valve means operable to control the flow of fluid to both sides of a ram.
It will be understood that we desire to comprehend within our invention such modifications as come within the scope of the claims and the invention.
Having thus fully described our invention what we claim as new and desire to secure by Letters Patent is:
1. In combination in a pump control, a cylinpiston and piston rod, reversing linkage pivotally fulcrumed upon the end of said piston rod for varying the delivery of said pump, a reversing valve, a pump and sump connected thereto, said valve being connected to opposite ends of said cylinder, a solenoid operably connected to said reversing valve and hydraulic means for controlling the opening and closing of the electrical circuit to energize said solenoid whereby when it is energized or deenergized said pivotal support of the linkage will be shifted and the delivery of said pump varied independently of the position of the rest of said linkage.
2. In combination in a pump control, a cylinder, piston and piston rod, reversing linkage pivotally fulcrumed upon the end of said piston rod for varying the delivery of said pump, a reversing valve, a pump and sump connected thereto, said valve being connected to opposite ends of said cylinder, a solenoid operably connected to said reversing valve, hydraulic means for controlling the opening and closing of the electrical circuit to energize said solenoid whereby when it is energized or deenergized said pivotal support of the linkage will be shifted to vary the delivery of said pump, and mechanically operated hand means adapted to mechanically shift said linkage to vary the delivery of said pump and deenergize said electrical circuit.
3. In combination, a reversible pump, a servomotor movable into a first position to place said pump on forward stroke or into a second position to place said pump on reverse stroke or into a third position to place said pump in neutral, manual means movable into three positions for positioning said servomotor in its respective three positions, fluid operable means for positioning said servomotor in its second position entirely independently of the position of said manual means, and means responsive to the positioning of said manual means in its third position for making said fluid operable means ineffective.
REFERENCES CITED The following references are of record in the file of this patent:
5 V UNITED STATES PATENTS Number Name Date 1,692,771 Ferris Nov. 20, 1928 1,711,378 Ernst Apr. 30, 1929 10 2,184,665 Ernst Dec. 26, 1939 2,246,379 Muir June 17, 1941 2,273,721 Muller Feb. 17, 19 2
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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2578546A (en) * 1948-12-28 1951-12-11 Judson L Thomson Mfg Company Riveting and like machines with pressure limiting mechanism
US2837896A (en) * 1955-04-22 1958-06-10 Northrop Aircraft Inc Hydraulic or pneumatic bi-directional impulse motor
DE970878C (en) * 1951-10-27 1958-11-06 Langenstein & Schemann A G Mas Pressurized fluid press, in particular drawing press
DE1224612B (en) * 1955-05-11 1966-09-08 Electraulic Presses Ltd Of Ele Control device for hydraulic presses
US4040255A (en) * 1975-07-29 1977-08-09 Kabushiki Kaisha Komatsu Seisakusho Control system for a hydraulically actuated device such as the vibrator motor of a self-propelled vibratory compactor

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1692771A (en) * 1924-11-08 1928-11-20 Oilgear Co Hydraulic press
US1711378A (en) * 1926-12-08 1929-04-30 Hydraulic Press Mfg Co Control mechanism for hydraulic presses
US2184665A (en) * 1937-10-21 1939-12-26 Hydraulic Press Corp Inc Self-centering servomotor
US2246379A (en) * 1938-10-20 1941-06-17 Dominion Eng Works Ltd Valve control mechanism for hydraulic presses
US2273721A (en) * 1939-10-26 1942-02-17 Hydraulic Dev Corp Inc Speed control mechanism for hydraulic presses

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1692771A (en) * 1924-11-08 1928-11-20 Oilgear Co Hydraulic press
US1711378A (en) * 1926-12-08 1929-04-30 Hydraulic Press Mfg Co Control mechanism for hydraulic presses
US2184665A (en) * 1937-10-21 1939-12-26 Hydraulic Press Corp Inc Self-centering servomotor
US2246379A (en) * 1938-10-20 1941-06-17 Dominion Eng Works Ltd Valve control mechanism for hydraulic presses
US2273721A (en) * 1939-10-26 1942-02-17 Hydraulic Dev Corp Inc Speed control mechanism for hydraulic presses

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2578546A (en) * 1948-12-28 1951-12-11 Judson L Thomson Mfg Company Riveting and like machines with pressure limiting mechanism
DE970878C (en) * 1951-10-27 1958-11-06 Langenstein & Schemann A G Mas Pressurized fluid press, in particular drawing press
US2837896A (en) * 1955-04-22 1958-06-10 Northrop Aircraft Inc Hydraulic or pneumatic bi-directional impulse motor
DE1224612B (en) * 1955-05-11 1966-09-08 Electraulic Presses Ltd Of Ele Control device for hydraulic presses
US4040255A (en) * 1975-07-29 1977-08-09 Kabushiki Kaisha Komatsu Seisakusho Control system for a hydraulically actuated device such as the vibrator motor of a self-propelled vibratory compactor

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