US3353396A - Swaging hammers - Google Patents

Swaging hammers Download PDF

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US3353396A
US3353396A US427867A US42786765A US3353396A US 3353396 A US3353396 A US 3353396A US 427867 A US427867 A US 427867A US 42786765 A US42786765 A US 42786765A US 3353396 A US3353396 A US 3353396A
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tup
cylinder
piston
liquid
space
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US427867A
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Brauer Willi
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Langenstein and Schemann GmbH
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Langenstein and Schemann GmbH
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21JFORGING; HAMMERING; PRESSING METAL; RIVETING; FORGE FURNACES
    • B21J7/00Hammers; Forging machines with hammers or die jaws acting by impact
    • B21J7/20Drives for hammers; Transmission means therefor
    • B21J7/22Drives for hammers; Transmission means therefor for power hammers
    • B21J7/34Drives for hammers; Transmission means therefor for power hammers operating both the hammer and the anvil, so-called counter-tup

Definitions

  • This invention relates to a swaging or back-lash hammer, the upper tup of which can be lowered by the application of an expansive or elastic fluid to a piston connected with it, and, during this lowering, raises the lower tup by means of a hydraulic clutch, the lowering of the lower tup being positive-1y effected by the action of a controllable pressure fluid upon a piston connected with it.
  • the expansive or compressible pressure medium acting upon the piston of the upper tup is compressed air or steam, the admission of which to the cylinder, and its exhausting therefrom, are controlled.
  • the pressure medium that positively lowers the lower tup is compressed air or steam, that is a compressible medium, which is likewise controlled.
  • the object of the present invention is to drive a swaging hammer of the kind set forth hydraulically instead of by means of compressed air or steam, and to do this in as simple a manner as possible.
  • the invention enables this to be done by the feature that the pressure medium acting upon the piston of the upper tup is enclosed in a closable pressure space, in such a way that it is compressed during the ascent of the upper tup, and that the pressure medium compelling the lowering of the lower tup is a liquid, preferably oil under pressure.
  • the swaging hammer merely by actuating the piston of the lower tup with liquid. This also gives rise to a simple control.
  • the possibility is also of importance that existing swaging hammers of a known kind can in a simple manner be converted to oil driving.
  • the controllable pressure medium for lowering the lower tup may be furnished by an accumulator. It is however more advantageous to have this pressure medium delivered directly by a pump, the control preferably being carried out according to the constructional example hereinafter described.
  • the pump may be controllable in such a way that it delivers pressure liquid only during the lowering of the lower tup, and that this liquid, during the ascent of the lower tup, flows away through a non-return closure member to be opened.
  • a substantially simpler control is however yielded if the annular space of the cylinder containing the piston of the lower tup is connected with a storage tank for pressure liquid by way of a non-return closure member which can be opened at will, and which can preferably be opened even while the pump is delivering, and the cross-sectional area of which is then so great that it permits at the same time the escape of the liquid compressed by the ascending lower-tup piston and the liquid passed on unaltered by the pump, without considerable rise of pressure.
  • the controlling may moreover be further simplified by providing the reflux or Withdrawal closure valve with a device which automatically closes it immediately after the execution of a blow, in dependence upon the impact of the upper tup upon the work piece.
  • the said valve is preferably constructed as a relieved sleeve valve.
  • a particularly rapid sequence of hammer blows can be 3,353,396 Patented Nov. 21, 1967 obtained if from the pressure-liquid piping connecting the pump and cylinder of the lower-tup piston, a by-pass pipe which leads into the liquid-storage tank is branched OE, and which can be throttled and shut oil by a controllable valve, and if, furthermore, in the pressure liquid pipe, between the branching point of the by-pass pipe and the cylinder, a non-return valve is provided.
  • the lower tup 1 is U-shaped, and carries, in the bottom of the U-shape, with the aid of an ordinary dovetailsnaped recess 2, the lower die or bottom swage (tool) 5.
  • guides 3 for the upper tup 4 which carries a tool 5a in a similar manner.
  • the outer sides of the U-shaped limbs in slide in guides 6 in a hammer standard 30, which is rigidly connected below with a cylinder 31 and is rigidly connected above with a cylinder 31a.
  • a piston 32 which is rigidly connected 'with the lower tup 1.
  • liquid under pressure which acts upon the lower end face of the piston 32.
  • annular space 34 which is adjacent to the rear or upper side of piston 32, there is likewise pressure liquid, which may be furnished by piping 7b, 7, 7a from a pump 8.
  • the pressure space 33 is connected by way of a pipe 35 with an annular space 36 in the cylinder 31a, so that the same pressure liquid that is located in the space 33 acts from below upon the piston 37 of the upper tup 4.
  • a pressure space 38 into which there opens a pipe 39, which can be closed by a valve 40. When the valve 40 is open, compressed air can be supplied through the pipe 39 to the space 38.
  • Means for controlling the admission of liquid under pressure to the annular space 34 and its exhaust therefrom corresponds substantially to that of German Patent No. 974,854.
  • the pump 8 may be constructed as a geared pump, and is arranged in a storage tank 9, which contains pressure liquid, oil for example, up to a level 10.
  • the pump 8 sucks in pressure liquid through a pipe 11, and impels it into the pipe 7a, to which is connected a by-pass pipe 12, which can be throttled and shut off by means of a valve 13, which is controllable at will.
  • a pressure pipe 7 is connected by way of a non-return valve 14, which is subject to the action of a spring or the like, and which opens upon a comparatively small rise of pressure in the pressure pipe 7a, and then allows the liquid under pressure to pass into the pressure piping 7, 7b.
  • a shock-absorber 15 and also a return pipe 19 of small cross-sectional area, which can be shut off by means of a by-pass valve 20 of small cross-sectional area, and which serves to let small quantities of liquid out of the annular space 34 when the distance between the tups is to be reduced.
  • a further return pipe 21 of large cross-sectional area is provided, which connects the pres sure pipe 7b with the storage tank 9, and comprises a valve 22 of large cross-sectional area, which can be opened at will, and which is so constructed that it closes automatically when the upper tup reaches the work-piece, or immediately thereafter.
  • a pipe 23 is provided, which is closed by a suction valve 24, which opens when a partial vacuum or fall of pressure occurs in the pressure pipe 7b.
  • the swaging hammer Before striking a blow, the swaging hammer is located in the open position.
  • the closure member 40 is closed, and, by the pump 8, liquid under pressure has been delivered into the annular space 34, so that the lower tup 1 is forced downwards and at the same time the upper tup 4 is pushed upwards, so that the upper-tup piston 37 has compressed the air contained in the pressure space 38.
  • the hammer is therefore ready to strike.
  • the blow is released by relieving the annular space 34 of pressure. This is effected by opening the valve 22, which can be opened at will.
  • the quantity of liquid in the annular space 34 then falls quickly into the storage tank 9, whereupon at the same time the quantity of liquid further delivered by the pump 8 passes back through the closure valve 22 and the pipe 21 into the storage tank 9.
  • the blow of the upper tup 4 is therefore effected by expansion of the pressure fluid enclosed in the pressure space 38.
  • the recoil closure valve 22 closes, in a manner which is known from German Patent No. 970,878, so that the pump 8 again builds up the full pressure in the piping 7a, 7, 7b and the annular space 34, and pushes the lower tup 1 down again, as a result of which the upper tup 4 is pushed upwards, so that the pressure fluid in the space 38 is compressed.
  • the hammer is now ready for the next blow.
  • the striking power can be regulated either by admitting or discharging air to or from the cylinder 31a, or by varying the quantity of liquid that is supplied each time to the annular space 34, because the extent of the reduction in the volume of the compression space 38 is thereby determined, that is to say, the stroke becomes shorter, and the energy of the blow becomes smaller (provided the charge in the space 38 is not altered), and the number of blows increases, which is very desirable for quick racking and rolling.
  • the pressure chamber and the compression space 38 above the piston 37 may be connected, additionally, by way of a non-return valve, which allows air from the compression space 38 above the piston 37 to flow into the pressure chamber, but not to flow back, Whilst in a manner known in itself the compression space 38 above the piston is connected with the atmosphere by way of a second non-return valve, which allows air to flow into the compression space 38, but not to flow back.
  • a forging hammer including a hammer frame, an upper tup and a lower tup arranged opposite each other, each tup being movable upwards and downwards toward 4 or away from each other, hydraulic coupling means including an upper cylinder on said frame and an upper piston connected to said upper tup by an upper piston rod forming an upper annular space below said piston about said piston rod, a lower cylinder on said frame and a lower piston connected to said lower tup by a l was piston rod, a lower annular space within said lower cylinder about said piston rod, a lower cylinder space below said lower piston within said lower cylinder, a connecting pipe between said upper annula cylinder space and said lower cylinder space, and a liquid in the two aforesaid cylinder spaces and in the connecting pipe, the space above the upper piston in said upper cylinder being filled with compressible fluid, the lower annular space within said lower cylinder above said lower piston being filled with liquid, a liquid supply and exhaust pipe connected to said lower annular space within said lower cylinder

Description

Nov. 21, 1967 w. BRAUER 'SWAGING HAMMERS Filed Jan. 25, 1965 United States Patent 3,353,396 SWAGING HAMMERS Willi Briiuer, Coburg, Germany, assignor to Langenstein & Schemann AG, Coburg, Bavaria, Germany Filed Jan. 25, 1965, Ser. No. 427,867 5 Claims. (Cl. 72-453) ABSTRACT OF THE DESCLQSURE A swaging hammer in which the hammer blow is caused by pneumatic expansion against a piston, the control and operation of the hammer being by hydraulic fluid.
This invention relates to a swaging or back-lash hammer, the upper tup of which can be lowered by the application of an expansive or elastic fluid to a piston connected with it, and, during this lowering, raises the lower tup by means of a hydraulic clutch, the lowering of the lower tup being positive-1y effected by the action of a controllable pressure fluid upon a piston connected with it. With a known swaging hammer of this kind, the expansive or compressible pressure medium acting upon the piston of the upper tup is compressed air or steam, the admission of which to the cylinder, and its exhausting therefrom, are controlled. The pressure medium that positively lowers the lower tup is compressed air or steam, that is a compressible medium, which is likewise controlled.
The object of the present invention is to drive a swaging hammer of the kind set forth hydraulically instead of by means of compressed air or steam, and to do this in as simple a manner as possible. The invention enables this to be done by the feature that the pressure medium acting upon the piston of the upper tup is enclosed in a closable pressure space, in such a way that it is compressed during the ascent of the upper tup, and that the pressure medium compelling the lowering of the lower tup is a liquid, preferably oil under pressure. In this way it is possible to operate the swaging hammer merely by actuating the piston of the lower tup with liquid. This also gives rise to a simple control. The possibility is also of importance that existing swaging hammers of a known kind can in a simple manner be converted to oil driving.
The controllable pressure medium for lowering the lower tup may be furnished by an accumulator. It is however more advantageous to have this pressure medium delivered directly by a pump, the control preferably being carried out according to the constructional example hereinafter described.
The pump may be controllable in such a way that it delivers pressure liquid only during the lowering of the lower tup, and that this liquid, during the ascent of the lower tup, flows away through a non-return closure member to be opened. A substantially simpler control is however yielded if the annular space of the cylinder containing the piston of the lower tup is connected with a storage tank for pressure liquid by way of a non-return closure member which can be opened at will, and which can preferably be opened even while the pump is delivering, and the cross-sectional area of which is then so great that it permits at the same time the escape of the liquid compressed by the ascending lower-tup piston and the liquid passed on unaltered by the pump, without considerable rise of pressure.
The controlling may moreover be further simplified by providing the reflux or Withdrawal closure valve with a device which automatically closes it immediately after the execution of a blow, in dependence upon the impact of the upper tup upon the work piece. In this case the said valve is preferably constructed as a relieved sleeve valve.
A particularly rapid sequence of hammer blows can be 3,353,396 Patented Nov. 21, 1967 obtained if from the pressure-liquid piping connecting the pump and cylinder of the lower-tup piston, a by-pass pipe which leads into the liquid-storage tank is branched OE, and which can be throttled and shut oil by a controllable valve, and if, furthermore, in the pressure liquid pipe, between the branching point of the by-pass pipe and the cylinder, a non-return valve is provided.
Further features of the invention will be gathered from the following description of one embodiment, which is diagrammatically illustrated by way of example in the accompanying drawing.
The lower tup 1 is U-shaped, and carries, in the bottom of the U-shape, with the aid of an ordinary dovetailsnaped recess 2, the lower die or bottom swage (tool) 5. In the limbs 1a of the U-shaped lower tup are provided guides 3 for the upper tup 4, which carries a tool 5a in a similar manner. The outer sides of the U-shaped limbs in slide in guides 6 in a hammer standard 30, which is rigidly connected below with a cylinder 31 and is rigidly connected above with a cylinder 31a.
In the cylinder 31 slides a piston 32, which is rigidly connected 'with the lower tup 1. In the cylinder space 33 of the cylinder 31 there is liquid under pressure, which acts upon the lower end face of the piston 32. In an annular space 34, which is adjacent to the rear or upper side of piston 32, there is likewise pressure liquid, which may be furnished by piping 7b, 7, 7a from a pump 8. The pressure space 33 is connected by way of a pipe 35 with an annular space 36 in the cylinder 31a, so that the same pressure liquid that is located in the space 33 acts from below upon the piston 37 of the upper tup 4. Above the piston 37 in the cylinder 31a there is a pressure space 38, into which there opens a pipe 39, which can be closed by a valve 40. When the valve 40 is open, compressed air can be supplied through the pipe 39 to the space 38.
Means for controlling the admission of liquid under pressure to the annular space 34 and its exhaust therefrom corresponds substantially to that of German Patent No. 974,854. The pump 8 may be constructed as a geared pump, and is arranged in a storage tank 9, which contains pressure liquid, oil for example, up to a level 10. The pump 8 sucks in pressure liquid through a pipe 11, and impels it into the pipe 7a, to which is connected a by-pass pipe 12, which can be throttled and shut off by means of a valve 13, which is controllable at will. To the delivery pipe 7a a pressure pipe 7 is connected by way of a non-return valve 14, which is subject to the action of a spring or the like, and which opens upon a comparatively small rise of pressure in the pressure pipe 7a, and then allows the liquid under pressure to pass into the pressure piping 7, 7b. To the pressure pipe 7 are connected a shock-absorber 15, and also a return pipe 19 of small cross-sectional area, which can be shut off by means of a by-pass valve 20 of small cross-sectional area, and which serves to let small quantities of liquid out of the annular space 34 when the distance between the tups is to be reduced. Moreover a further return pipe 21 of large cross-sectional area is provided, which connects the pres sure pipe 7b with the storage tank 9, and comprises a valve 22 of large cross-sectional area, which can be opened at will, and which is so constructed that it closes automatically when the upper tup reaches the work-piece, or immediately thereafter. Finally, between the pipe 7b and the storage tank 9 a pipe 23 is provided, which is closed by a suction valve 24, which opens when a partial vacuum or fall of pressure occurs in the pressure pipe 7b.
Before striking a blow, the swaging hammer is located in the open position. The closure member 40 is closed, and, by the pump 8, liquid under pressure has been delivered into the annular space 34, so that the lower tup 1 is forced downwards and at the same time the upper tup 4 is pushed upwards, so that the upper-tup piston 37 has compressed the air contained in the pressure space 38. The hammer is therefore ready to strike. The blow is released by relieving the annular space 34 of pressure. This is effected by opening the valve 22, which can be opened at will. The quantity of liquid in the annular space 34 then falls quickly into the storage tank 9, whereupon at the same time the quantity of liquid further delivered by the pump 8 passes back through the closure valve 22 and the pipe 21 into the storage tank 9. The blow of the upper tup 4 is therefore effected by expansion of the pressure fluid enclosed in the pressure space 38. As soon as the blow has been struck, the recoil closure valve 22 closes, in a manner which is known from German Patent No. 970,878, so that the pump 8 again builds up the full pressure in the piping 7a, 7, 7b and the annular space 34, and pushes the lower tup 1 down again, as a result of which the upper tup 4 is pushed upwards, so that the pressure fluid in the space 38 is compressed. The hammer is now ready for the next blow.
The striking power can be regulated either by admitting or discharging air to or from the cylinder 31a, or by varying the quantity of liquid that is supplied each time to the annular space 34, because the extent of the reduction in the volume of the compression space 38 is thereby determined, that is to say, the stroke becomes shorter, and the energy of the blow becomes smaller (provided the charge in the space 38 is not altered), and the number of blows increases, which is very desirable for quick racking and rolling.
Provision may be made for connecting the compression space 38, in a manner which is not shown but is known from German Patent No. 1,095,631, with a pressure chamber filled with gas of adjustable pressure, whereby an enlargement of the compression space is obtained, provided the connection is effected by way of a valve which is .of such large cross-sectional area of passage that the fall of pressure in the open position is only a fraction of the pressure in the pressure chamber. In order that the hammer may itself be able to establish the desired pressure in the compression space 38 and in the said pressure chamber, the pressure chamber and the compression space 38 above the piston 37 may be connected, additionally, by way of a non-return valve, which allows air from the compression space 38 above the piston 37 to flow into the pressure chamber, but not to flow back, Whilst in a manner known in itself the compression space 38 above the piston is connected with the atmosphere by way of a second non-return valve, which allows air to flow into the compression space 38, but not to flow back.
I claim:
1. A forging hammer including a hammer frame, an upper tup and a lower tup arranged opposite each other, each tup being movable upwards and downwards toward 4 or away from each other, hydraulic coupling means including an upper cylinder on said frame and an upper piston connected to said upper tup by an upper piston rod forming an upper annular space below said piston about said piston rod, a lower cylinder on said frame and a lower piston connected to said lower tup by a l wer piston rod, a lower annular space within said lower cylinder about said piston rod, a lower cylinder space below said lower piston within said lower cylinder, a connecting pipe between said upper annula cylinder space and said lower cylinder space, and a liquid in the two aforesaid cylinder spaces and in the connecting pipe, the space above the upper piston in said upper cylinder being filled with compressible fluid, the lower annular space within said lower cylinder above said lower piston being filled with liquid, a liquid supply and exhaust pipe connected to said lower annular space within said lower cylinder, pump means having a suction and discharge connected to supply liquid under pressure to said liquid supply and exhaust pipe, and controllable valve means to discharge liquid from said liquid supply and exhaust pipe.
2. The forging hammer of claim 1 in which a check valve is provided between said pump means and said liquid supply and exhaust pipe, and a bypass is provided from the pump means discharge to the pump means suction.
3. The forging hammer of claim 1 in which the lower tup is of U-shaped construction and the upper tup is arranged between the U-shaped limbs of the lower tup and is guided along the U-shaped limbs.
4. The forging hammer of claim 1 in which the lower tup is many times heavier than the upper tup, and the lower tup is of U-shaped construction and the upper tup is arranged between the U-shaped limbs of the lower tup and is guided along the U-shaped limbs.
5. The forging hammer of claim 1 in which said frame is formed with guides, said lower tup is provided with spaced upwardly extending arms engaging said guides, guide surfaces on said upwardly extending arms, and means on said upper tup engaging said guide surfaces to guide said upper tup.
References Cited UNITED STATES PATENTS 178,966 6/1876 Sellers 72453 710,286 9/1902 Loss a 72453 1,953,314 4/1934 Rode 72453 X 2,220,037 10/1940 Fitzgerald 72441 X 3,135,140 6/1964 Ottestad 72453 3,180,129 4/1965 Riemenschnieder 72-453 3,271,991 9/1966 Monahan 72-453 HARRISON L. HINSON, Primary Examiner.

Claims (1)

1. A FORGING HAMMER INCLUDING A HAMMER FRAME, AN UPPER TUP AND A LOWER TUP ARRANGED OPPOSITE EACH OTHER, EACH TUP BEING MOVABLE UPWARDS AND DOWNWARDS TOWARD OR AWAY FROM EACH OTHER, HYDRAULIC COUPLING MEANS INCLUDING AN UPPER CYLINDER ON SAID FRAME AND AN UPPER PISTON CONNECTED TO SAID UPPER TUP BY AN UPPER PISTON ROD FORMING AN UPPER ANNULAR SPACE BELOW SAID PISTON ABOUT SAID PISTON ROD, A LOWER CYLINDER ON SAID FRAME AND A LOWER PISTON CONNECTED TO SAID LOWER TUP BY A LOWER PISTON ROD, A LOWER ANNULAR SPACE WITHIN SAID LOWER CYLINDER ABOUT SAID PISTON ROD, A LOWER CYLINDER SPACE BELOW SAID LOWER PISTON WITHIN SAID LOWER CYLINDER, A CONNECTING PIPE BETWEEN SAID UPPER ANNULAR CYLINDER SPACE AND SAID LOWER CYLINDER SPACE, AND A LIQUID IN THE TWO AFORESAID CYLINDER SPACES AND IN THE CONNECTING PIPE, THE SPACE ABOVE THE UPPER PISTON IN SAID UPPER CYLINDER BEING FILLED WITH COMPRESSIBLE FLUID, THE LOWER ANNULAR SPACE WITHIN SAID LOWER CYLINDER ABOVE SAID LOWER PISTON BEING FILLED WITH LIQUID, A LIQUID SUPPLY AND EXHAUST PIPE CONNECTED TO SAID LOWER ANNULAR SPACE WITHIN SAID LOWER CYLINDER, PUMP MEANS HAVING A SUCTION AND DISCHARGE CONNECTED TO SUPPLY LIQUID UNDER PRESSURE TO SAID LIQUID SUPPLY AND EXHAUST PIPE, AND CONTROLLABLE VALVE MEANS TO DISCHARGE LIQUID FROM SAID LIQUID SUPPLY AND EXHAUST PIPE.
US427867A 1962-10-31 1965-01-25 Swaging hammers Expired - Lifetime US3353396A (en)

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Application Number Priority Date Filing Date Title
DEL43330A DE1294330B (en) 1962-10-31 1962-10-31 Counter blow hammer
US427867A US3353396A (en) 1962-10-31 1965-01-25 Swaging hammers

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Application Number Priority Date Filing Date Title
DEL43330A DE1294330B (en) 1962-10-31 1962-10-31 Counter blow hammer
US427867A US3353396A (en) 1962-10-31 1965-01-25 Swaging hammers

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3488990A (en) * 1967-02-27 1970-01-13 Boniard I Brown High energy rate forming machine
US3568592A (en) * 1968-03-18 1971-03-09 Vyzk Ustav Tvarecich Stroju Power hammer
US3683666A (en) * 1969-06-28 1972-08-15 Harald Hassel Counter-blow hammer with a hammer drive
US3707866A (en) * 1967-10-09 1973-01-02 Langenstein & Schemann Ag Machines for forming a workpiece between two ram heads
US3822579A (en) * 1972-10-24 1974-07-09 V Kononenko High-speed counterstroke hammer
US4796428A (en) * 1983-01-17 1989-01-10 Oilgear Towler, Inc. Double-acting forging hammer and method

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US178966A (en) * 1876-06-20 Improvement in machines for welding, upsetting, and shaping iron
US710286A (en) * 1902-03-07 1902-09-30 Henrik V Loss Hydraulic forging-press.
US1953314A (en) * 1930-11-17 1934-04-03 Marquette Tool & Mfg Co Forging machine
US2220037A (en) * 1939-10-11 1940-10-29 Pneumatic Drop Hammer Company Double-acting drop hammer
US3135140A (en) * 1962-04-19 1964-06-02 Us Industries Inc High-energy impact machine
US3180129A (en) * 1961-10-19 1965-04-27 Eumuco Ag Fur Maschb Top-pressure forging hammer
US3271991A (en) * 1965-10-11 1966-09-13 Int Electronic Res Corp High energy impact machine

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE570326C (en) * 1931-12-10 1933-02-15 Beche & Grohs G M B H Double hammer with hammer heads working against each other
DE974854C (en) * 1951-10-30 1961-05-18 Langenstein & Schemann A G Drop hammer
DE1095631B (en) * 1955-05-13 1960-12-22 Langenstein & Schemann Ag Hydraulically operated drop hammer
US3036538A (en) * 1958-09-24 1962-05-29 Gen Dynamics Corp Dynamic impacting machine
FR1293323A (en) * 1961-06-10 1962-05-11 Eumuco Ag Fuer Maschinenbau Pressure hammer operating from above

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US178966A (en) * 1876-06-20 Improvement in machines for welding, upsetting, and shaping iron
US710286A (en) * 1902-03-07 1902-09-30 Henrik V Loss Hydraulic forging-press.
US1953314A (en) * 1930-11-17 1934-04-03 Marquette Tool & Mfg Co Forging machine
US2220037A (en) * 1939-10-11 1940-10-29 Pneumatic Drop Hammer Company Double-acting drop hammer
US3180129A (en) * 1961-10-19 1965-04-27 Eumuco Ag Fur Maschb Top-pressure forging hammer
US3135140A (en) * 1962-04-19 1964-06-02 Us Industries Inc High-energy impact machine
US3271991A (en) * 1965-10-11 1966-09-13 Int Electronic Res Corp High energy impact machine

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3488990A (en) * 1967-02-27 1970-01-13 Boniard I Brown High energy rate forming machine
US3707866A (en) * 1967-10-09 1973-01-02 Langenstein & Schemann Ag Machines for forming a workpiece between two ram heads
US3568592A (en) * 1968-03-18 1971-03-09 Vyzk Ustav Tvarecich Stroju Power hammer
US3683666A (en) * 1969-06-28 1972-08-15 Harald Hassel Counter-blow hammer with a hammer drive
US3822579A (en) * 1972-10-24 1974-07-09 V Kononenko High-speed counterstroke hammer
US4796428A (en) * 1983-01-17 1989-01-10 Oilgear Towler, Inc. Double-acting forging hammer and method

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