US2491393A - Slowdown for presses - Google Patents

Slowdown for presses Download PDF

Info

Publication number
US2491393A
US2491393A US75967147A US2491393A US 2491393 A US2491393 A US 2491393A US 75967147 A US75967147 A US 75967147A US 2491393 A US2491393 A US 2491393A
Authority
US
United States
Prior art keywords
ram
valve
pump
valve member
advancing
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
Inventor
Howard M Purcell
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
HPM Development Corp
Original Assignee
HPM Development Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by HPM Development Corp filed Critical HPM Development Corp
Priority to US75967147 priority Critical patent/US2491393A/en
Application granted granted Critical
Publication of US2491393A publication Critical patent/US2491393A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T83/00Cutting
    • Y10T83/869Means to drive or to guide tool
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T83/00Cutting
    • Y10T83/869Means to drive or to guide tool
    • Y10T83/8691Unicyclic
    • Y10T83/8693With adjustable stopping point or tool

Definitions

  • This invention relates to hydraulic circuits, and particularly to a circuit for a reciprocable ram.
  • the particular object of this invention is to 'provide a simple means for preventinga fluid operable ram from jumping ahead when the load thereon is suddenly released.
  • Still another object of this invention is to provide an actuating circuit for a hydraulic ram in which the ram can be slowed down at any point in the cycle.
  • Still another object is to provide an actuating circuit for a hydraulic ram which includes the feature of slowing down the travel of the ram at any point in its cycle and which accomplishes this by the use of a relatively simple mechanism.
  • Another object of this invention is to provide a slow down for a fluid operated ram which may be moved to operate very rapidly whereby the slow down mechanism may be employed for preventing the ram from jumping ahead when it breaks through the work being operated.
  • Figure 1 is a diagrammatic View of a hydraulic press actuating circuit including a "slow down arrangement according to this invention.
  • Figure 2 isa diagrammatic view showing this invention applied to a press operating circuit in another manner.
  • the aforementioned valve is biased toward position to connect the advancing means with the source by a spring and a fluid operable means is associated with the valve for opposing the action of the spring.
  • This uid operable means is connected with the advancing means of the ram and in response to a, predetermined pressure therein interrupts' communication between the source and the advancing means and instead connects the source with exhaust. This slows the ram down and prevents it from jumping ahead at the point of breaking through the work being done.
  • the aforementioned valve is arranged between the uid source and the reversing valve which distributes the fluid to the reciprocating ram.
  • the slow down valve is then connected by a linkage with the ram to be operated thereby in both directions of movement of the ram. This provides for a slow down on both the advancing and retracting strokes of the press ram and also may be utilized as a means for bringing the ram to a halt at the endof its retracting movement.
  • a press cylinder at I I) in which there is reciprocably mounted a press ram I2 which forms with the said cylinder the ram advancing means I4 and the ram retracting means I 6.
  • a reservoir I8 and carriad in the upper end of the cylinder is a surge valve 20.
  • the surge valve is adapted to provide free communication between the reservoir I8 and the advancing means I4 in response to a predetermined suction in the said advancing means, or to a predetermined pressure conveyed to the pilot cylinder of the valve 20 by the conduit 22 which leads to the retracting means I6.
  • a pump 2l For supplying fluid to the advancing and retracting means of the ram I2 there is a pump 2l which is preferably reversible in delivery.
  • One port of the pump 24 is connected by a conduit 26 with the retracting means I6, while the other port of the pump 24 is connected by a conduit 28 with one port of a valve 30.
  • Another port of tne valve 30 is connected by a conduit 32 with the advancing means I 4 of the ram I2.
  • the aforementioned valve 30 also includes an exhaust port which is connected by the conduit- 34 with the reservoir 36.
  • a valve member 38 which is normally urged by a spring 40 into position to close off the exhaust port of the valve and instead to interconnect the conduits 28 and 32.
  • the valve member 88 is adapted for moving upwardly in the valve 36 to interrupt communication between the conduits 28 and 32 and to connect the conduits 28 and 34. Upward movements of the valve member are accomplished by the area 42 thereon which is connected by a conduit 44 to receive pressure fluid from the conduit 32.
  • the spring 40 is abutted at its end opposite the valve member 38 by the end of a plunger 46 which, in turn, engages the lower end of a spring 48 which is suitably anchored as by the stationary abutment at 50.
  • the plunger 46 is engaged by a pivoted lever 52 which includes an arm 54 carrying a roller 5E.
  • the ram I2 has a cam 58 positioned to engage the roller 56 during the advancing movement of the said ram whereby the lever 52 is rotated counterclockwise. As will become apparent hereinafter, this slows down the travel of the ram I2.
  • check valves 68 which open from the reservoir 36 toward the respective ports of the said pump.
  • a working stroke of the ram I2 is commenced by directing the delivery of the pump 24 to the advancing means I4.
  • the pump delivers to the said advancing means atfull pressure. This pressure fluid is conducted through the valve 36 but the pressure thereof is insuillcient to lift the valve member 38 against the thrust of the spring 48.
  • the cam 58 engages the roller 56 and rotates the lever 52 counterclockwise. This moves the plunger 46 upwardly thereby completely counteracting the thrust of the spring 48 and substantially reducing the thrust of the spring 48.
  • the reduction in thrust of the spring 48 permits the pressure standing on the area 42 to raise the valve member 38 thereby to interconnect the conduit 28 with the exhaust conduit 34.
  • cam 58 could be so formed that the ram I2 would come to a complete halt if desired. This could be accomplished by substantially nullifying the eiects of both of the springs 40 and 48.
  • Embodiment of Figure 2 Lthe pump which is a one way delivery pump and the reversing valve 12 which selectively cli- .rects fluid to the advancing means I4a of the ram I2a, or to the retracting means I6a thereof.
  • a conduit 14 connects the discharge side of the pump 'I0 with the inlet of the valve 86a while a conduit I6 connects the outlet of the said valve with the inlet of the reversing valve 12.
  • the valve 38a is similarly provided with a spring inside the valve casing and the spring 48a outside the valve casing and between which there extends a lever 'I8 whose function is the same as that of the lever 52 in Figure 1.y
  • lever 88 For so moving the rod 82 there is a lever 88 positioned to be engaged by the cam 86 carried by the ram I2a so that during the advancing stroke of the said ram the lever 88 will be rotated clockwise about its pivot 92 and thus move the rod 82 downwardly and cause bypassing of at least a part of the delivery of the pump 16.
  • lever 84 pivoted at 86 and having one end positioned to be engaged by an arm carried by the ram I2a during its retracting movement, and having its other end positioned to engage the collar 84.
  • lever 94 will rotate in a clockwise direction during the retracting movement of the ram I2a and move the rod 82 downwardly thereby to counteract the eiIect of the springs on the valve 88a and bring about the bypassing to exhaust of substantially the entire discharge of the pump 18.
  • the arrangement in Figure 2 thus provides for a controlled slowdown of the ram I2a during its advancing stroke and a halting thereof during its retracting stroke and accomplishes this through the medium of one and same valve mechanism and actuating linkage therefor.
  • a reciprocable ram having advancing and retracting means; a source of pressure uid for selectively supplying said means; a valve having a first port connected with ;aid source, a. second port connected with said advancing means, and a third port connected with exhaust; a valve member in said valve movable into a first position rto interconnect said lirst and second ports, and into a second position to interconnect said rst and third ports; yielding means continuously urging said valve member toward its rst position; fluid-pressureresponsive means on said valve member connected with said second port for moving said valve member to its second position; and means operated by said ram during the advancing movement thereof for at least partially counteracting said yielding means.
  • a hydraulic system a reciprocable ram having advancing and retracting means; a source of pressure fluid for selectively supplying said means; a valve normally connecting said source with said advancing means and also having an exhaust port; a valve member in said valve movable to connect said source with said exhaust port; yielding means continuously urging said valve member toward its normal position; a fluidpressure-responsive area on said valve member connected with the ram side of said valve for moving said valve member toward its second mentioned position; and means operable during the advancing movement of said ram for at least partially counteracting the effect of said yielding means whereby said valve member moves toward said second mentioned position and brings about the bypassing oi" at least part of the delivery of said source.
  • a reciprocable ram having advancing and retracting means; a source of pressure fluid for selectively supplying said means; a valve having a first port connected with said source, a second port connected with said advancing means and a third port connected with exhaust; a valve member in said valve movable into a, first position to interconnect said rst and second ports, and into a second position to interconnect said first and third ports; yielding means continuously urging said valve member toward its rst position; iiuid operable means adapted for moving said valve member toward its second position and connected with said advancing means; cam means carried by said ram; and a lever system positioned to vary the thrust of said yielding means on said valve member and operable by said cam during the advancing movement of said ram to reduce the said thrust.
  • a reciprocable ram having advancing and retracting means; a pump for selectively supplying said means; having a first port connected with said pump, a second port connected with said advancing means, and a third port connected with exhaust; a valve member in said valve movable into a rst position to interconnect said rst and second ports, and into a second position to interconnect said first and third ports; a pair of serially arranged springs biasing said member toward its first position; fluid operable meansconnected with said advancing means for urging said member toward its second position; a lever having one end between said springs; and cam means carried by said ram and operable during the advancing movement thereof to actuate said lever for reducing the thrust of said spring means on said valve member whereby said valve member moves toward its second position at a reduced pressure and operates to slow down said ram.
  • valve a valve connected between said ram and pump vand having an exhaust port; a valve member in said valve movable to a iirst position connecting said pump with said ram and closing said exhaust port and a second position connecting said pump with said exhaust port; yielding means continuousflyfbiasing said valve member toward its rst position; fluid operable means connected to receive pressure fluid from the ram side of said valve for moving said valve member toward its second position; and means operated in both directions of movement f said ram and by said ram, for decreasing the bias of said yielding means on said valve member.
  • a reciprocable ram for supplying fluid to said ram; a reversing valve between said ram and-pump; a valve between said pump and reversing valve and having a port to exhaust; a valve member in said valve movable into a first position to close said exhaust port and into a second position to connect said exhaust port with said pump; yielding means continuously urging said valve member toward its first position; uid pressure responsive me/ans connected to receive pressure fluid from the reversing valve side of said lastnamed valve for moving said valve member from its first position toward its second position; and means operated by said ram in both directions of movement thereof for decreasing the force exerted upon said valve member by said yielding means.
  • a hydraulic system a ram; a pump; a reversing valve connecting said pump with said ram; a control valve connected between said pump and reversing valve and having an exhaust port; a valve member in said control valve having a first position wherein said exhaust port is closed and a second position wherein said pump is connected with said exhaust port; yielding means continuously urging said valve member toward itsiirst position; fluid operable means connected vwith the inlet of said reversing valve for moving said valve member toward its second position;
  • ⁇ reversing valve connecting said pump with said ram; a control valve between said pump and reversing valve and having an exhaust port; a valve member in said control valve movable into a rst position to close, said exhaust port and into a second position to connect said pump with said exhaust port; serially arranged springs biasing said valve member toward its first position; fluid operable means connected with the inlet of said reversing valve for moving said valve member toward its second position; means operated by said ram during its movement in one direction for reducing the bias of said springs on said valve member for vslowing down the said ram; and means operated by said ram in the other direction of movement for reducing the bias of said springs on said valve member for bringing said ram to a complete halt.
  • a hydraulic system a ram; a pump; a reversing valve connecting said pump with said ram; a control-.valve between said pump and reversing valve wand having an exhaust port; a valve member in said control valve having a first position wherein said exhaust port is closed and a second position wherein said exhaust port is connected with said pump; serially arranged spring means biasing said valve member toward its rst position; fluid operable means connected with the inlet of said reversing valve for urging said valve member toward its second position; a lever having its end positioned between said spring means; and cam means carried by said ram and operable in one direction of movement thereof for actuating said lever to partially counteract said spring means whereby a portion of the delivery of said pump is bypassed to exhaust and said ram slows down, and operable in the other direction of movement of said ram for substantially completely counteracting said spring means whereby substantially the entire delivery of said l.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Control Of Presses (AREA)

Description

Das. l i@ H. M. PURCELL 294%393 SLOW DOWN FOR PRESSES Filed July s, 1947 INVENTO How/mo M; Pmcfu,
Patented Dec. 13, 1949 SLOWDOWN FOR PRESSES Howard M. Purcell, Philadelphia, Pa., assigner to H-P-M Development Corporation, Wilmington, Del., a corporation of Delaware Application July 8, 1947, Serial No. 759,671
9 claims. l
This invention relates to hydraulic circuits, and particularly to a circuit for a reciprocable ram.
In many work cycles involving the use of a hydraulic press or a moving table or tool driven by a hydraulic ram, there is a tendency for the ram to jump ahead and overshoot when the load thereon is suddenly released. This occurs when a punch breaks through a work piece which is blanking out or when a cutting tool runs off the end or through the work piece which it is operating on.
The particular object of this invention is to 'provide a simple means for preventinga fluid operable ram from jumping ahead when the load thereon is suddenly released.
Still another object of this invention is to provide an actuating circuit for a hydraulic ram in which the ram can be slowed down at any point in the cycle.
Still another object is to provide an actuating circuit for a hydraulic ram which includes the feature of slowing down the travel of the ram at any point in its cycle and which accomplishes this by the use of a relatively simple mechanism.
It is also an object of this invention to provide an actuating circuit for a, reciprocable ram wherein a single valve is operable to slow down the movement of the ram in both its advancing and retracting directions.
Another object of this invention is to provide a slow down for a fluid operated ram which may be moved to operate very rapidly whereby the slow down mechanism may be employed for preventing the ram from jumping ahead when it breaks through the work being operated.
These and other objects and advantages will become more apparent upon` reference to the following description taken in connection with the accompanying drawing in which:
Figure 1 is a diagrammatic View of a hydraulic press actuating circuit including a "slow down arrangement according to this invention; and
Figure 2 isa diagrammatic view showing this invention applied to a press operating circuit in another manner.
General arrangement according to the preferred embodiment of this invention there is a valve which normally provides free communication between the said source and said advancing means.
The aforementioned valve is biased toward position to connect the advancing means with the source by a spring and a fluid operable means is associated with the valve for opposing the action of the spring. This uid operable means is connected with the advancing means of the ram and in response to a, predetermined pressure therein interrupts' communication between the source and the advancing means and instead connects the source with exhaust. This slows the ram down and prevents it from jumping ahead at the point of breaking through the work being done.
According to another modification, the aforementioned valve is arranged between the uid source and the reversing valve which distributes the fluid to the reciprocating ram. The slow down valve is then connected by a linkage with the ram to be operated thereby in both directions of movement of the ram. This provides for a slow down on both the advancing and retracting strokes of the press ram and also may be utilized as a means for bringing the ram to a halt at the endof its retracting movement.
Structural arrangement Referring to the drawing, there is shown a press cylinder at I I) in which there is reciprocably mounted a press ram I2 which forms with the said cylinder the ram advancing means I4 and the ram retracting means I 6. Mounted on top of the cylinder Ill there is a reservoir I8 and carriad in the upper end of the cylinder is a surge valve 20. The surge valve is adapted to provide free communication between the reservoir I8 and the advancing means I4 in response to a predetermined suction in the said advancing means, or to a predetermined pressure conveyed to the pilot cylinder of the valve 20 by the conduit 22 which leads to the retracting means I6.
For supplying fluid to the advancing and retracting means of the ram I2 there is a pump 2l which is preferably reversible in delivery. One port of the pump 24 is connected by a conduit 26 with the retracting means I6, while the other port of the pump 24 is connected by a conduit 28 with one port of a valve 30. Another port of tne valve 30 is connected by a conduit 32 with the advancing means I 4 of the ram I2.
The aforementioned valve 30 also includes an exhaust port which is connected by the conduit- 34 with the reservoir 36. Within the valve l0 there is a valve member 38 which is normally urged by a spring 40 into position to close off the exhaust port of the valve and instead to interconnect the conduits 28 and 32. The valve member 88 is adapted for moving upwardly in the valve 36 to interrupt communication between the conduits 28 and 32 and to connect the conduits 28 and 34. Upward movements of the valve member are accomplished by the area 42 thereon which is connected by a conduit 44 to receive pressure fluid from the conduit 32.
The spring 40 is abutted at its end opposite the valve member 38 by the end of a plunger 46 which, in turn, engages the lower end of a spring 48 which is suitably anchored as by the stationary abutment at 50.
The plunger 46 is engaged by a pivoted lever 52 which includes an arm 54 carrying a roller 5E. The ram I2 has a cam 58 positioned to engage the roller 56 during the advancing movement of the said ram whereby the lever 52 is rotated counterclockwise. As will become apparent hereinafter, this slows down the travel of the ram I2.
For supplying makeup fluid to the pump 24 in either direction of delivery thereof there may be lprovided the check valves 68 which open from the reservoir 36 toward the respective ports of the said pump.
Operation` In operation, a working stroke of the ram I2 is commenced by directing the delivery of the pump 24 to the advancing means I4. During the major part of the stroke of the ram I2, the pump delivers to the said advancing means atfull pressure. This pressure fluid is conducted through the valve 36 but the pressure thereof is insuillcient to lift the valve member 38 against the thrust of the spring 48.
After the ram has advanced into the work as, for example, when the punch 62 has reached a point where it has substantially broken through the workpiece 64, the cam 58 engages the roller 56 and rotates the lever 52 counterclockwise. This moves the plunger 46 upwardly thereby completely counteracting the thrust of the spring 48 and substantially reducing the thrust of the spring 48. The reduction in thrust of the spring 48 permits the pressure standing on the area 42 to raise the valve member 38 thereby to interconnect the conduit 28 with the exhaust conduit 34.
This diverts at least a portion of the pump delivery to exhaust and reduces the supply of fluid to the ram advancing means I4. The ram I2 therefore slows down and does not jump ahead upon iinally breaking through the workpiece 64.
It will be apparent that the cam 58 could be so formed that the ram I2 would come to a complete halt if desired. This could be accomplished by substantially nullifying the eiects of both of the springs 40 and 48.
It will also be apparent that this arrangement could be employed for slowing down the press ram immediately before it engaged the work or ior any other purpose desired.
Embodiment of Figure 2 Lthe pump which is a one way delivery pump and the reversing valve 12 which selectively cli- .rects fluid to the advancing means I4a of the ram I2a, or to the retracting means I6a thereof. A conduit 14 connects the discharge side of the pump 'I0 with the inlet of the valve 86a while a conduit I6 connects the outlet of the said valve with the inlet of the reversing valve 12.
The valve 38a is similarly provided with a spring inside the valve casing and the spring 48a outside the valve casing and between which there extends a lever 'I8 whose function is the same as that of the lever 52 in Figure 1.y
'Ihe lever 'I8 is pivoted at 80 and the end opposite its engagement with the springs of the valve 30a is connected with a rod 82 which has thereon the collars 84 and 86. It will be apparent that downward movement of the rod 82 will operate in exactly the same manner as the lever 52 in Figure l and bring about bypassing oi' the pump delivery to exhaust at a reduced pressure.
For so moving the rod 82 there is a lever 88 positioned to be engaged by the cam 86 carried by the ram I2a so that during the advancing stroke of the said ram the lever 88 will be rotated clockwise about its pivot 92 and thus move the rod 82 downwardly and cause bypassing of at least a part of the delivery of the pump 16. Similarly there is a lever 84 pivoted at 86 and having one end positioned to be engaged by an arm carried by the ram I2a during its retracting movement, and having its other end positioned to engage the collar 84. It will be apparent that the lever 94 will rotate in a clockwise direction during the retracting movement of the ram I2a and move the rod 82 downwardly thereby to counteract the eiIect of the springs on the valve 88a and bring about the bypassing to exhaust of substantially the entire discharge of the pump 18.
The arrangement in Figure 2 thus provides for a controlled slowdown of the ram I2a during its advancing stroke and a halting thereof during its retracting stroke and accomplishes this through the medium of one and same valve mechanism and actuating linkage therefor.
It will be seen from the foregoing descriptions of the modilcations of this invention shown in Figures 1 and 2 that a relatively and eifective cirthe movement of the press ram may be had without the use of an expensive variable delivery pump. Instead, either a simple reversible delivery pump or a one way pump with a reversing valve may be employed. In either case all of the desirable control features usually found in connection with pumps of infinitely variable delivery may be had by the inclusion in the circuit of the valve and operating mechanism therefor of this invention.
It will be understood that this invention is susceptible to modification in order to adopt it to different usages and conditions and, accordingly, it is desired to comprehend such modications within this invention as may fall within the scope of the appended claims.
I claim: l
l. In a hydraulic system; a reciprocable ram having advancing and retracting means; a source of pressure uid for selectively supplying said means; a valve having a first port connected with ;aid source, a. second port connected with said advancing means, and a third port connected with exhaust; a valve member in said valve movable into a first position rto interconnect said lirst and second ports, and into a second position to interconnect said rst and third ports; yielding means continuously urging said valve member toward its rst position; fluid-pressureresponsive means on said valve member connected with said second port for moving said valve member to its second position; and means operated by said ram during the advancing movement thereof for at least partially counteracting said yielding means.
2. InA a hydraulic system; a reciprocable ram having advancing and retracting means; a source of pressure fluid for selectively supplying said means; a valve normally connecting said source with said advancing means and also having an exhaust port; a valve member in said valve movable to connect said source with said exhaust port; yielding means continuously urging said valve member toward its normal position; a fluidpressure-responsive area on said valve member connected with the ram side of said valve for moving said valve member toward its second mentioned position; and means operable during the advancing movement of said ram for at least partially counteracting the effect of said yielding means whereby said valve member moves toward said second mentioned position and brings about the bypassing oi" at least part of the delivery of said source.
3. In a hydraulic system; a reciprocable ram having advancing and retracting means; a source of pressure fluid for selectively supplying said means; a valve having a first port connected with said source, a second port connected with said advancing means and a third port connected with exhaust; a valve member in said valve movable into a, first position to interconnect said rst and second ports, and into a second position to interconnect said first and third ports; yielding means continuously urging said valve member toward its rst position; iiuid operable means adapted for moving said valve member toward its second position and connected with said advancing means; cam means carried by said ram; and a lever system positioned to vary the thrust of said yielding means on said valve member and operable by said cam during the advancing movement of said ram to reduce the said thrust.
4. In a hydraulic system; a reciprocable ram having advancing and retracting means; a pump for selectively supplying said means; having a first port connected with said pump, a second port connected with said advancing means, and a third port connected with exhaust; a valve member in said valve movable into a rst position to interconnect said rst and second ports, and into a second position to interconnect said first and third ports; a pair of serially arranged springs biasing said member toward its first position; fluid operable meansconnected with said advancing means for urging said member toward its second position; a lever having one end between said springs; and cam means carried by said ram and operable during the advancing movement thereof to actuate said lever for reducing the thrust of said spring means on said valve member whereby said valve member moves toward its second position at a reduced pressure and operates to slow down said ram.
5. In a hydraulic system; a reciprocable ram; a pump for supplying actuating fluid to said ram;
a valve a valve connected between said ram and pump vand having an exhaust port; a valve member in said valve movable to a iirst position connecting said pump with said ram and closing said exhaust port and a second position connecting said pump with said exhaust port; yielding means continuousflyfbiasing said valve member toward its rst position; fluid operable means connected to receive pressure fluid from the ram side of said valve for moving said valve member toward its second position; and means operated in both directions of movement f said ram and by said ram, for decreasing the bias of said yielding means on said valve member. y
6. In a hydraulic circuit; a reciprocable ram; a pump for supplying fluid to said ram; a reversing valve between said ram and-pump; a valve between said pump and reversing valve and having a port to exhaust; a valve member in said valve movable into a first position to close said exhaust port and into a second position to connect said exhaust port with said pump; yielding means continuously urging said valve member toward its first position; uid pressure responsive me/ans connected to receive pressure fluid from the reversing valve side of said lastnamed valve for moving said valve member from its first position toward its second position; and means operated by said ram in both directions of movement thereof for decreasing the force exerted upon said valve member by said yielding means.
7. In a hydraulic system; a ram; a pump; a reversing valve connecting said pump with said ram; a control valve connected between said pump and reversing valve and having an exhaust port; a valve member in said control valve having a first position wherein said exhaust port is closed and a second position wherein said pump is connected with said exhaust port; yielding means continuously urging said valve member toward itsiirst position; fluid operable means connected vwith the inlet of said reversing valve for moving said valve member toward its second position;
and means operable by said ram in both direc-A tions of movement thereof for at least partially counteracting the thrust of said yielding means on said valve member for bypassing said pump to exhaust at a predetermined pressure.
8. In a hydraulic system; a ram; a pump; a
` reversing valve connecting said pump with said ram; a control valve between said pump and reversing valve and having an exhaust port; a valve member in said control valve movable into a rst position to close, said exhaust port and into a second position to connect said pump with said exhaust port; serially arranged springs biasing said valve member toward its first position; fluid operable means connected with the inlet of said reversing valve for moving said valve member toward its second position; means operated by said ram during its movement in one direction for reducing the bias of said springs on said valve member for vslowing down the said ram; and means operated by said ram in the other direction of movement for reducing the bias of said springs on said valve member for bringing said ram to a complete halt.
9. In a hydraulic system; a ram; a pump; a reversing valve connecting said pump with said ram; a control-.valve between said pump and reversing valve wand having an exhaust port; a valve member in said control valve having a first position wherein said exhaust port is closed and a second position wherein said exhaust port is connected with said pump; serially arranged spring means biasing said valve member toward its rst position; fluid operable means connected with the inlet of said reversing valve for urging said valve member toward its second position; a lever having its end positioned between said spring means; and cam means carried by said ram and operable in one direction of movement thereof for actuating said lever to partially counteract said spring means whereby a portion of the delivery of said pump is bypassed to exhaust and said ram slows down, and operable in the other direction of movement of said ram for substantially completely counteracting said spring means whereby substantially the entire delivery of said l.
REFERENCES CITED The following references are of record in th` lle of this patent:
UNITED STATES PATENTS Number Name Date 1,234,035 Johansen July 17, 191' 1,724,635 Bath Aug. 13, 192! 1,990,052 Sosa Feb. 5, 193! 2,218,818 Harrington Oct. 22, 1944 2,240,898 Wiedmann May 6, 1941 2,287,559 Nye June 23, 1941 2,340,524 Fischel et al. Feb. 1, 194A 2,346,026 Henricks Apr. 4, 194l
US75967147 1947-07-08 1947-07-08 Slowdown for presses Expired - Lifetime US2491393A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US75967147 US2491393A (en) 1947-07-08 1947-07-08 Slowdown for presses

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US75967147 US2491393A (en) 1947-07-08 1947-07-08 Slowdown for presses

Publications (1)

Publication Number Publication Date
US2491393A true US2491393A (en) 1949-12-13

Family

ID=25056522

Family Applications (1)

Application Number Title Priority Date Filing Date
US75967147 Expired - Lifetime US2491393A (en) 1947-07-08 1947-07-08 Slowdown for presses

Country Status (1)

Country Link
US (1) US2491393A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2641228A (en) * 1950-05-26 1953-06-09 Denison Eng Co Control valve mechanism for hydraulic motors
US2981136A (en) * 1955-04-18 1961-04-25 Koehring Co Apparatus for modulating punch and die
US3024772A (en) * 1958-09-04 1962-03-13 Sack Gmbh Maschf Control means for hydraulic presses
US3541586A (en) * 1967-06-02 1970-11-17 Stafford Tool & Die Co Ltd Cutting presses
US3720125A (en) * 1971-08-02 1973-03-13 Whitney Corp W Adjustable stripper with stroke control

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1234035A (en) * 1916-03-29 1917-07-17 Severin Johansen Pressure and valve mechanism for cotton-trampers for baling-presses.
US1724635A (en) * 1924-08-05 1929-08-13 John Bath Table driving mechanism
US1990052A (en) * 1930-12-04 1935-02-05 Cincinnati Bickford Tool Co Fluid actuated drill feed
US2218818A (en) * 1937-12-04 1940-10-22 Vickers Inc Hydraulic die spotting press
US2240898A (en) * 1937-11-06 1941-05-06 Oilgear Co Pump control
US2287559A (en) * 1938-12-17 1942-06-23 Vickers Inc Power transmission
US2340524A (en) * 1933-07-03 1944-02-01 Fischel Eduard Automatic control for aircraft and the like
US2346026A (en) * 1943-05-04 1944-04-04 Clay Bush Deep well pump jack

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1234035A (en) * 1916-03-29 1917-07-17 Severin Johansen Pressure and valve mechanism for cotton-trampers for baling-presses.
US1724635A (en) * 1924-08-05 1929-08-13 John Bath Table driving mechanism
US1990052A (en) * 1930-12-04 1935-02-05 Cincinnati Bickford Tool Co Fluid actuated drill feed
US2340524A (en) * 1933-07-03 1944-02-01 Fischel Eduard Automatic control for aircraft and the like
US2240898A (en) * 1937-11-06 1941-05-06 Oilgear Co Pump control
US2218818A (en) * 1937-12-04 1940-10-22 Vickers Inc Hydraulic die spotting press
US2287559A (en) * 1938-12-17 1942-06-23 Vickers Inc Power transmission
US2346026A (en) * 1943-05-04 1944-04-04 Clay Bush Deep well pump jack

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2641228A (en) * 1950-05-26 1953-06-09 Denison Eng Co Control valve mechanism for hydraulic motors
US2981136A (en) * 1955-04-18 1961-04-25 Koehring Co Apparatus for modulating punch and die
US3024772A (en) * 1958-09-04 1962-03-13 Sack Gmbh Maschf Control means for hydraulic presses
US3541586A (en) * 1967-06-02 1970-11-17 Stafford Tool & Die Co Ltd Cutting presses
US3720125A (en) * 1971-08-02 1973-03-13 Whitney Corp W Adjustable stripper with stroke control

Similar Documents

Publication Publication Date Title
US2241807A (en) Hydraulic press system
US2246379A (en) Valve control mechanism for hydraulic presses
US2309944A (en) Platen leveling device
US2376519A (en) Valve control for presses and the like
US2432305A (en) Hydraulic operating circuit for machine tools and the like
US2431032A (en) Flow controlling valve means for hydraulic motors
US2357508A (en) Hydraulic press
US2491393A (en) Slowdown for presses
US3033170A (en) Hydraulic ram apparatus
US2391996A (en) Control mechanism
US2280190A (en) Self-centering servomotor
US2437115A (en) Mechanically actuated hydraulic control system for pump control
US2346214A (en) Platen control device
US2260175A (en) Press with electrically controlled collapsible air link
US2363760A (en) Control system
US2410869A (en) Hydraulic system
US2325146A (en) Drawing press
US2594204A (en) Actuating means for forging presses
US2577981A (en) Hydraulic motor control
US2724287A (en) knoth
US2358650A (en) Hydraulic press
US2449400A (en) Follow-up type servomotor
US2411716A (en) Hydraulic press system
US2436986A (en) Valve arrangement for halting reversible rams to prevent overstroking thereof
US2537391A (en) Hydraulic ram device with intermittent high-pressure fluid supply