EP0005634A1 - Safety devices for mechanically operated apparatus such as punch presses - Google Patents
Safety devices for mechanically operated apparatus such as punch presses Download PDFInfo
- Publication number
- EP0005634A1 EP0005634A1 EP19790300872 EP79300872A EP0005634A1 EP 0005634 A1 EP0005634 A1 EP 0005634A1 EP 19790300872 EP19790300872 EP 19790300872 EP 79300872 A EP79300872 A EP 79300872A EP 0005634 A1 EP0005634 A1 EP 0005634A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- safety device
- coupling
- coupling member
- power
- cylinder
- 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.)
- Granted
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B30—PRESSES
- B30B—PRESSES IN GENERAL
- B30B15/00—Details of, or accessories for, presses; Auxiliary measures in connection with pressing
- B30B15/28—Arrangements for preventing distortion of, or damage to, presses or parts thereof
- B30B15/288—Arrangements for preventing distortion of, or damage to, presses or parts thereof preventing over-run or reverse-run of the press shaft
Definitions
- the present invention is concerned with safety devices for mechanically-operated apparatus of the kind where an operating member is intermittently driven to perform a work operation by actuation of a clutch linking it to a drive means.
- An example is a punch press which has as immediate drive means a flywheel acting as energy-storage means.
- Such apparatus almost invariably consists of a movable member driven from a power-storage drive means, such as a motor-driven flywheel, via a clutch and brake combination that is effective to clutch together the drive means and the movable member for operation of the latter, and to brake the movement of the member when the clutch is disengaged.
- a power-storage drive means such as a motor-driven flywheel
- a clutch and brake combination that is effective to clutch together the drive means and the movable member for operation of the latter, and to brake the movement of the member when the clutch is disengaged.
- a particularly dangerous malfunction can occur if the clutch should fail to disengage upon termination of a cycle of operation, perhaps due to wear or jamming of the clutch plates, or the brake should fail to engage, since the movable member will then continue its movement with maximum momentum, at a time when the operator is not expecting such movement, and may have placed a hand or hands into the path of the member.
- coupling parts are provided in a safety device which can act so as to engage with each other.
- One is associated with the drive means such as the flywheel, and may rotate with it about the same axis, a second coupling part anchored to the body of the apparatus via an energy-absorbing device. If the parts become engaged at a time when operation of the apparatus is not intended the power from the drive means is absorbed by the energy-absorbing device and the work operation is not carried out. This allows the capacity of the energy-absorbing device to be calculated or regulated so as to be compatible with the characteristics of the apparatus. Disengagement of the parts is effected only deliberately by the operator of the machine using (for example) pre-existing spaced control buttoms.
- a disc form for this part is particularly appropriate since a discontinuity in or on it, e.g. a hook on its periphery, may engage with a catch on the other coupling part: and that other part may straddle the edge of the disc so that it is guided and supported by the wheel. It will then execute generally radial movements to allow it to engage with or go clear from the discontinuity.
- the energy absorbing device will be one which alters its length during traction exerted between the coupling parts and the body of the apparatus.
- Collapsible links may be used, but clearly are one-time only; a fluid cylinder may obviously be reusable especially if linked to a fluid reservoir so as to recycle fluid expelled on operation.
- the anchoring to the body can be carried out in such a way that the anchor becomes an abutment of last resort if the energy of the dribe should exceed the capacity of the energy-absorbing device.
- the deliberate disengagement movement of the coupling parts may be used to signal electrically that such disengagement has occurred and allow the initiation of the mechanical work operation; then it is only as a result of later malfunction either of the clutch or of the main brake of the apparatus that the safety device can be called upon to act.
- a third coupling part may be associated with the coupling part associated with the drive means.
- This third part is a unidirectional latch or non-return device acting to prevent rotation in a sense opposite to that in which the second coupling part (when engaged) would prevent rotation.
- a safety device for a punch press which device is a particularly preferred embodiment of the invention, will now be described, by way of example, with reference to the accompanying diagrammatic drawings, showing the device installed on the punch press, wherein:-
- the punch press shown in Figure 1 is of a well-known type consisting of a massive base 10 to which a vertically-extending body 12 is pivoted at 14 and clamped at 16, so that the body can be tilted back when required, e.g. to facilitate removal of parts from the die.
- the body has a horizontal platen 18 to which the lower fixed die part is fastened, while the vertically-movable upper platen 20 for the other die part is connected to the crank shaft 22 by a pitman 24 mounted on shaft 22.
- a power-storing means for driving the press include the shaft 22 and a flywheel 26 driven by any of the many known arrangements from an electric motor mounted on the press body.
- the shaft 22 is driven from the flywheel 26 via a controllable clutch 28 disposed behind the flywheel as seen in Figure 1, this clutch being usually of the so-called "part-revolution" type, which may be engaged or released during any part of a cycle. In single-cycle mode it will stay engaged for one revolution and then automatically disengage, so that it must be re-engaged for each stroke of the press.
- the safety device of the invention may also be employed with the so-called “full” revolution type of clutch which, when once engaged, cannot be released until the end of each complete cycle.
- the clutch has associated therewith a brake 30 which is released as the clutch 28 is actuated, and is re-applied as the clutch disengages so as to brake the movement of the platen 20.
- the clutch is of the air-operated type engaged by application of air under pressure and and is spring-released, and vice versa for the brake, although for example an electrically operated clutch and/or brake could be employed instead.
- Operation of the press is initiated by the operator pushing two spaced pushbuttons 32 simultaneously.
- the safety device is operative as will be described below if for any reason the clutch should fail to disengage, for example, if the clutch plates should jam or bind in their engaged position, perhaps because of wear or the presence of a solid foreign body between them, and/or the brake should fail to engage because : of some corresponding failure.
- the safety device includes a first coupling member consisting in this embodiment of a disc 34 mounted on the shaft 22 and rotatable therewith about its longitudinal axis, the disc having a radially-outwardly-extending hook portion 36.
- a second coupling member cooperating with the first member in this embodiment consists of two spaced parallel L-shaped arms 38 that embrace the disc on either side thereof and carry between them a coupling pin 40 for engagement with the hook portion 36.
- the two arms are pivoted at 42 to a frame 44 mounted on and embracing a stop bar 46 rigidly fastened to the body and extending parallel to the shaft 22, the frame being movable on this bar in the direction of the arrows 48.
- the coupling member arms 38 move by the positive action of a double-acting air motor 50 to a coupling position shown in Figures 2a and 2c, in which the pin 40 must engage the hook portion 36 as the disc 34 rotates, and are moved to a non-coupling position shown in Figure 2b by the operation of the motor 50, which is connected between the arms and the frame 44.
- the end of the frame further from the pivot 42 is formed as a hydraulic cylinder 52 in which is mounted a piston 54 that engages a flat axially-extending surface 56 on the stop bar 46.
- the interior of the cylinder 52 is connected via a one-way valve 58 to a relief valve 60, the setting of which is controllable by the operator.
- valves 58 and 60 may be replaced by a calibrated orifice.
- a suitable operating fluid such as an oil, is fed to the cylinder 52 from an air/oil tank 62 ( Figure 4), to which oil discharged from the valve 60 is returned.
- the interior of the tank 62 is pressurised by supply of air thereto through a regulator 64.
- the pressurised air from the regulator 64 is also fed'via a solenoid-operated four-way valve 66 to the cylinder of pneumatic motor 50, the air that escapes from the valve passing to atmosphere through a silencer 68.
- electric power is fed to the control circuit from a transformer 70 via panel on-off switch 72 and micro-switch 74 ( Figures 3a and 3b), the latter being mounted on the frame 12 and engagable by the cylinder 52 if the safety device becomes operative, as illustrated by Figure 3b.
- the drive motor 76 is started by closure of start switch 78 and held in operation by hold-in contacts 80 until stopped by opening of stop switch 82; in commercial practice the motor will usually be of three-phase type though a single-phase arrangement is shown for simplicity of illustration.
- the safety device is not required for continuous non-attended operation of the press, and can at such times be disabled by closing a switch 84.
- a micro-switch 86 is mounted on the frame 12, ' and is operated by a member 87 on the arms 38 the switch having a pair of contacts 86a in series with respective contacts 32a of the pushbuttons 32, and another normally-open pair 86b which are in series with contacts 32b of the pushbuttons 32 and also with the windings of solenoid valves 88 and 90 controlling respectively the clutch 28 and the brake 30.
- Another micro-switch 92 mounted on the frame 44 is operated by a member 93 on the arms 38. The function of switches 86 and 92 will be described below.
- a variable time delay relay 94 now operates closing its contacts 94b so that power is supplied to solenoid relay 66 to operate air motor 50.
- the arms now lift to the uncoupling position of Figure 2b opening switch 92 and contacts 86b, so that power is now supplied to solenoid valves 88 and 90 engaging the clutch and releasing the brake.
- the downwardly-extending portions of the L-shaped arms ensure that they will remain embracing the disc 34 in the uncoupled position.
- contact 94a of the relay open and solenoid 66 operates motor 50 to force the arms downward back to the engaging position, closing contacts 86a and switch 92, and opening contacts 86b.
- This predetermined period is such that the hook portion of disc 34 rotates beyond the position in which it can be engaged by the pin 40 when the arms return to their coupled position.
- the clutch will disengage and the brake will engage in time for the shaft 22 and disc 34 to come to rest in the position shown in Figure 2a, ready for the next cycle of operation. If however the clutch fails to disengage and/or the brake is not operative then the disc will continue its rotation with hook portion 36 and pin 40 in coupled position, so that frame 44 is pulled to the right as seen in the Figures, forcing the piston 54 into the cylinder 52 against the reaction of the stop member 46.
- the action of the piston 54, cylinder 52 and stop valve 60 (or the above-mentioned calibrated orifice) is to provide a cushioned power-absorbing, safety braking of the downwardly-moving platen 20, the hydraulic system being rated to stop the downward movement before the die parts on the respective platens come close enough to one another to injure the operator whose hands may be in the die area. This corresponds to the position in which the piston 54 reaches the end of the cylinder 52, in which case the bar 46 would provide a final positive stop.
- the hydraulic system is rated to stop the crank shaft 22 in about 30° or less of its rotation. It will be appreciated that owing to the large amount of power stored in the flywheel this may rotate through considerably more than 30° by over-running the clutch and the brake, but this is immaterial as long as the downward movement of the platen is stopped in good time.
- the movement of the frame 44 to the Figure 2c position opens switch 92 to stop the press entirely until the cause of the failure has been checked and the system reset.
- a third coupling member consisting of.a reverse stop latch 96 which is pivoted to the disc 34 about an axis 98 and is urged radially outward by a compression spring 100, the radially outermost position of the latch being determined by a pin 102 engaged in an arcuate slot 104.
- the nose 106 of the reverse stop latch faces in the opposite direction to that of the disc hook portion 36, and engagement of the latch nose 106 with the coupling pin'40 while the disc is rotating normally merely moves the latch radially inwards out of the patch of the pin and against the action of the spring 100 into a recess 108 in the disc. However, any reverse rotation of the disc after engagement of the hook portion 36 and pin 40 is prevented by engagement of the latch nose 106 and pin 40.
- Other equivalent constructions can of course be employed.
- a power-absorbing hydraulic system is in general commercial practice the most satisfactory, since it is compact and capable of immediate re-setting once the device has operated successfully, so that output can be maintained.
- An equivalent pneumatic system would require the use of a much larger cylinder 52 and piston 54, and also the use of high pressure air, owing to the much higher compressibility of air.
- the cylinder 52 and piston 54 could be replaced by a crushable power-absorbing element, as used for example in automobile steering columns; such an element must be replaced each time that the safety device is operative, but that is relatively infrequently, and such a structure is very much cheaper to manufacture than the above- described hydraulic system, so that it may be preferred in certain installations.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Control Of Presses (AREA)
- Punching Or Piercing (AREA)
Abstract
Description
- The present invention is concerned with safety devices for mechanically-operated apparatus of the kind where an operating member is intermittently driven to perform a work operation by actuation of a clutch linking it to a drive means. An example is a punch press which has as immediate drive means a flywheel acting as energy-storage means.
- There have been numerous proposals hitherto for many different kinds of safety devices for manually-operated apparatus of the kind specified, such as presses and guillotines, all with the purpose of attempting to ensure the safety of the operator. For example, it is common to provide two spaced pushbuttons that must operate simultaneously to initiate operation of the apparatus, so that the operator's handsmust be removed from the danger area for this purpose. Other proposals involve the use of guards which are interposed between the operator and the danger area while the apparatus is in operation.
- Such apparatus almost invariably consists of a movable member driven from a power-storage drive means, such as a motor-driven flywheel, via a clutch and brake combination that is effective to clutch together the drive means and the movable member for operation of the latter, and to brake the movement of the member when the clutch is disengaged. A particularly dangerous malfunction can occur if the clutch should fail to disengage upon termination of a cycle of operation, perhaps due to wear or jamming of the clutch plates, or the brake should fail to engage, since the movable member will then continue its movement with maximum momentum, at a time when the operator is not expecting such movement, and may have placed a hand or hands into the path of the member.
- It is an object of the present invention to provide a new safety device for mechanically-operated apparatus that will positively stop motion of the moving parts of the press and thus protect the operator thereof.
- It is a more specific object to provide a new safety device for mechanically-operated apparatus that is effective by absorbing the power of the moving parts of the apparatus upon malfunction that may endanger the operator.
- For these purposes coupling parts are provided in a safety device which can act so as to engage with each other. One is associated with the drive means such as the flywheel, and may rotate with it about the same axis, a second coupling part anchored to the body of the apparatus via an energy-absorbing device. If the parts become engaged at a time when operation of the apparatus is not intended the power from the drive means is absorbed by the energy-absorbing device and the work operation is not carried out. This allows the capacity of the energy-absorbing device to be calculated or regulated so as to be compatible with the characteristics of the apparatus. Disengagement of the parts is effected only deliberately by the operator of the machine using (for example) pre-existing spaced control buttoms.
- To allow one of the coupling parts to be associated with rotating drive means a disc form for this part is particularly appropriate since a discontinuity in or on it, e.g. a hook on its periphery, may engage with a catch on the other coupling part: and that other part may straddle the edge of the disc so that it is guided and supported by the wheel. It will then execute generally radial movements to allow it to engage with or go clear from the discontinuity.
- The energy absorbing device will be one which alters its length during traction exerted between the coupling parts and the body of the apparatus. Collapsible links may be used, but clearly are one-time only; a fluid cylinder may obviously be reusable especially if linked to a fluid reservoir so as to recycle fluid expelled on operation. In either case the anchoring to the body can be carried out in such a way that the anchor becomes an abutment of last resort if the energy of the dribe should exceed the capacity of the energy-absorbing device.
- Furthermore the deliberate disengagement movement of the coupling parts may be used to signal electrically that such disengagement has occurred and allow the initiation of the mechanical work operation; then it is only as a result of later malfunction either of the clutch or of the main brake of the apparatus that the safety device can be called upon to act.
- In some cases it may be that the energy transfer is so great that the apparatus will rebound and work in reverse. This would be dangerous, and to prevent it a third coupling part may be associated with the coupling part associated with the drive means. This third part is a unidirectional latch or non-return device acting to prevent rotation in a sense opposite to that in which the second coupling part (when engaged) would prevent rotation.
- A safety device for a punch press, which device is a particularly preferred embodiment of the invention, will now be described, by way of example, with reference to the accompanying diagrammatic drawings, showing the device installed on the punch press, wherein:-
- Fig.l is a general perspective view of the press with a safety device of the invention installed thereon,
- Fig.2a is a side elevation of the safety device of Fig.l, showing it in operative position ready to brake movement of the press operating member,
- Fig.2b is a similar view to Fig.2a showing the safety device in inoperative position upon initiation of an operation of the press,
- Fig.2c is a similar view to Figure 2a showing the safety device having operated successfully and braked the press operating member,
- Figs. 3a and 3b are plan views of the safety device corresponding respectively to Figs. 2a and 2c,
- FIGURE 4 is a schematic diagram of the part of the press hydraulic and pneumatic circuits pertinent ..to this invention, and
- FIGURE 5 is a schematic diagram of the part of the press electric circuit pertinent to this invention.
- The punch press shown in Figure 1 is of a well-known type consisting of a
massive base 10 to which a vertically-extendingbody 12 is pivoted at 14 and clamped at 16, so that the body can be tilted back when required, e.g. to facilitate removal of parts from the die. The body has ahorizontal platen 18 to which the lower fixed die part is fastened, while the vertically-movableupper platen 20 for the other die part is connected to thecrank shaft 22 by apitman 24 mounted onshaft 22. In this press a power-storing means for driving the press include theshaft 22 and aflywheel 26 driven by any of the many known arrangements from an electric motor mounted on the press body. Theshaft 22 is driven from theflywheel 26 via acontrollable clutch 28 disposed behind the flywheel as seen in Figure 1, this clutch being usually of the so-called "part-revolution" type, which may be engaged or released during any part of a cycle. In single-cycle mode it will stay engaged for one revolution and then automatically disengage, so that it must be re-engaged for each stroke of the press. The safety device of the invention may also be employed with the so-called "full" revolution type of clutch which, when once engaged, cannot be released until the end of each complete cycle. The clutch has associated therewith abrake 30 which is released as theclutch 28 is actuated, and is re-applied as the clutch disengages so as to brake the movement of theplaten 20. In the embodiment illustrated the clutch is of the air-operated type engaged by application of air under pressure and and is spring-released, and vice versa for the brake, although for example an electrically operated clutch and/or brake could be employed instead. - Operation of the press is initiated by the operator pushing two spaced
pushbuttons 32 simultaneously. The safety device is operative as will be described below if for any reason the clutch should fail to disengage, for example, if the clutch plates should jam or bind in their engaged position, perhaps because of wear or the presence of a solid foreign body between them, and/or the brake should fail to engage because : of some corresponding failure. - Turning now also to Figures 2 and 3, the safety device includes a first coupling member consisting in this embodiment of a
disc 34 mounted on theshaft 22 and rotatable therewith about its longitudinal axis, the disc having a radially-outwardly-extendinghook portion 36. A second coupling member cooperating with the first member in this embodiment consists of two spaced parallel L-shaped arms 38 that embrace the disc on either side thereof and carry between them acoupling pin 40 for engagement with thehook portion 36. The two arms are pivoted at 42 to aframe 44 mounted on and embracing astop bar 46 rigidly fastened to the body and extending parallel to theshaft 22, the frame being movable on this bar in the direction of thearrows 48. - The
coupling member arms 38 move by the positive action of a double-actingair motor 50 to a coupling position shown in Figures 2a and 2c, in which thepin 40 must engage thehook portion 36 as thedisc 34 rotates, and are moved to a non-coupling position shown in Figure 2b by the operation of themotor 50, which is connected between the arms and theframe 44. The end of the frame further from thepivot 42 is formed as ahydraulic cylinder 52 in which is mounted apiston 54 that engages a flat axially-extendingsurface 56 on thestop bar 46. The interior of thecylinder 52 is connected via a one-way valve 58 to arelief valve 60, the setting of which is controllable by the operator. Alternatively thevalves cylinder 52 from an air/oil tank 62 (Figure 4), to which oil discharged from thevalve 60 is returned. The interior of thetank 62 is pressurised by supply of air thereto through aregulator 64. The pressurised air from theregulator 64 is also fed'via a solenoid-operated four-way valve 66 to the cylinder ofpneumatic motor 50, the air that escapes from the valve passing to atmosphere through asilencer 68. - Referring now also to Figure 5, electric power is fed to the control circuit from a
transformer 70 via panel on-off switch 72 and micro-switch 74 (Figures 3a and 3b), the latter being mounted on theframe 12 and engagable by thecylinder 52 if the safety device becomes operative, as illustrated by Figure 3b. Thedrive motor 76 is started by closure ofstart switch 78 and held in operation by hold-incontacts 80 until stopped by opening ofstop switch 82; in commercial practice the motor will usually be of three-phase type though a single-phase arrangement is shown for simplicity of illustration. The safety device is not required for continuous non-attended operation of the press, and can at such times be disabled by closing aswitch 84. Amicro-switch 86 is mounted on theframe 12,'and is operated by amember 87 on thearms 38 the switch having a pair of contacts 86a in series with respective contacts 32a of thepushbuttons 32, and another normally-open pair 86b which are in series with contacts 32b of thepushbuttons 32 and also with the windings ofsolenoid valves 88 and 90 controlling respectively theclutch 28 and thebrake 30. Anothermicro-switch 92 mounted on theframe 44 is operated by amember 93 on thearms 38. The function ofswitches - The closing of the
pushbuttons 32 will not produce operation of the press unless thearms 38 are in the position shown in Figure 2a, whencontacts 86a and 92 are closed; when contacts 86a are closed contacts 86b are open, and vice versa. A variabletime delay relay 94 now operates closing itscontacts 94b so that power is supplied tosolenoid relay 66 to operateair motor 50. The arms now lift to the uncoupling position of Figure2b opening switch 92 and contacts 86b, so that power is now supplied tosolenoid valves 88 and 90 engaging the clutch and releasing the brake. The downwardly-extending portions of the L-shaped arms ensure that they will remain embracing thedisc 34 in the uncoupled position. After a preset time delay contact 94a of the relay open and solenoid 66 operatesmotor 50 to force the arms downward back to the engaging position, closing contacts 86a and switch 92, and opening contacts 86b. This predetermined period is such that the hook portion ofdisc 34 rotates beyond the position in which it can be engaged by thepin 40 when the arms return to their coupled position. - If the press is functioning normally the clutch will disengage and the brake will engage in time for the
shaft 22 anddisc 34 to come to rest in the position shown in Figure 2a, ready for the next cycle of operation. If however the clutch fails to disengage and/or the brake is not operative then the disc will continue its rotation withhook portion 36 andpin 40 in coupled position, so thatframe 44 is pulled to the right as seen in the Figures, forcing thepiston 54 into thecylinder 52 against the reaction of thestop member 46. The action of thepiston 54,cylinder 52 and stop valve 60 (or the above-mentioned calibrated orifice) is to provide a cushioned power-absorbing, safety braking of the downwardly-movingplaten 20, the hydraulic system being rated to stop the downward movement before the die parts on the respective platens come close enough to one another to injure the operator whose hands may be in the die area. This corresponds to the position in which thepiston 54 reaches the end of thecylinder 52, in which case thebar 46 would provide a final positive stop. - Preferably, the hydraulic system is rated to stop the
crank shaft 22 in about 30° or less of its rotation. It will be appreciated that owing to the large amount of power stored in the flywheel this may rotate through considerably more than 30° by over-running the clutch and the brake, but this is immaterial as long as the downward movement of the platen is stopped in good time. The movement of theframe 44 to the Figure 2c position opensswitch 92 to stop the press entirely until the cause of the failure has been checked and the system reset. - It may be found that, if the safety device has been applied upon failure of the press brake, there may be enough energy stored in the safety device to cause the crankshaft to reverse its rotation and the platen to reverse its movement and move downwards sufficiently to injure the operator. This possibility is prevented by the provision of a third coupling member consisting of.a
reverse stop latch 96 which is pivoted to thedisc 34 about anaxis 98 and is urged radially outward by acompression spring 100, the radially outermost position of the latch being determined by a pin 102 engaged in an arcuate slot 104. Thenose 106 of the reverse stop latch faces in the opposite direction to that of thedisc hook portion 36, and engagement of thelatch nose 106 with the coupling pin'40 while the disc is rotating normally merely moves the latch radially inwards out of the patch of the pin and against the action of thespring 100 into arecess 108 in the disc. However, any reverse rotation of the disc after engagement of thehook portion 36 andpin 40 is prevented by engagement of thelatch nose 106 andpin 40. Other equivalent constructions can of course be employed. - A power-absorbing hydraulic system is in general commercial practice the most satisfactory, since it is compact and capable of immediate re-setting once the device has operated successfully, so that output can be maintained. An equivalent pneumatic system would require the use of a much
larger cylinder 52 andpiston 54, and also the use of high pressure air, owing to the much higher compressibility of air. It is contemplated that thecylinder 52 andpiston 54 could be replaced by a crushable power-absorbing element, as used for example in automobile steering columns; such an element must be replaced each time that the safety device is operative, but that is relatively infrequently, and such a structure is very much cheaper to manufacture than the above- described hydraulic system, so that it may be preferred in certain installations.
Claims (16)
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US90844278A | 1978-05-22 | 1978-05-22 | |
US908442 | 1978-05-22 |
Publications (3)
Publication Number | Publication Date |
---|---|
EP0005634A1 true EP0005634A1 (en) | 1979-11-28 |
EP0005634B1 EP0005634B1 (en) | 1982-08-04 |
EP0005634B2 EP0005634B2 (en) | 1985-07-17 |
Family
ID=25425810
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP19790300872 Expired EP0005634B2 (en) | 1978-05-22 | 1979-05-18 | Safety devices for mechanically operated apparatus such as punch presses |
Country Status (4)
Country | Link |
---|---|
EP (1) | EP0005634B2 (en) |
JP (1) | JPS54153396A (en) |
CA (1) | CA1101782A (en) |
DE (1) | DE2963466D1 (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2188390A (en) * | 1986-03-27 | 1987-09-30 | Rhodes Joseph Ltd | Safety latch |
US20100059014A1 (en) * | 2006-12-27 | 2010-03-11 | Renault Trucks | improved internal combustion engine with bearing cap dampening |
CN103084513A (en) * | 2013-01-31 | 2013-05-08 | 佛山市盈峰粉末冶金科技有限公司 | Safety control device for punch press |
CN108223625A (en) * | 2018-01-22 | 2018-06-29 | 石家庄力神锻压机床有限公司 | A kind of brake gear of safe and intelligent press machine |
Families Citing this family (4)
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US11207794B1 (en) * | 2011-09-20 | 2021-12-28 | Dynamics Inc. | Systems and methods for trimming powered cards and devices |
CN107081808B (en) * | 2017-01-23 | 2019-01-08 | 江山市丰泽木业有限公司 | A kind of firm plate punching machine |
CN106671186B (en) * | 2017-01-23 | 2017-10-03 | 江苏威尔曼科技有限公司 | A kind of perforating device for plate punching |
CN107053327B (en) * | 2017-01-23 | 2018-12-28 | 浙江钰翔木业有限公司 | A kind of convenient and fast plate punching equipment |
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---|---|---|---|---|
BE465322A (en) * | ||||
GB1139156A (en) * | 1966-03-26 | 1969-01-08 | May Pressenbau Gmbh | Safety device for tools |
FR2003031A1 (en) * | 1968-03-01 | 1969-11-07 | Dansk Pressefabrik | |
GB1270654A (en) * | 1968-04-19 | 1972-04-12 | Broughton Engineering Ltd | Improvement relating to brakes in or for power presses and the like machines |
DE2452751A1 (en) * | 1974-11-07 | 1976-05-20 | Weingarten Ag Maschf | Additional braking device for eccentric presses - in which eccentric shaft is braked after each revolution has contact bar and disc |
DE2527716A1 (en) * | 1975-06-21 | 1976-12-30 | Edelhoff Werkzeugmasch | Eccentric press safety arresting mechanism - has rotating lug engaging with end of spring loaded piston in valve-controlled power cylinder |
DE2612599A1 (en) * | 1976-03-25 | 1977-10-06 | Werner Leinhaas | Eccentric press combined safety brake - has automatically ratcheting cam to apply brake positively after each operation cycle |
FR2343593A1 (en) * | 1976-07-30 | 1977-10-07 | Aida Eng Ltd | DEVICE TO OPPOSE A DOUBLE DESCENT OF THE SLIDER OF A PRESS |
-
1978
- 1978-06-14 CA CA305,480A patent/CA1101782A/en not_active Expired
-
1979
- 1979-05-18 EP EP19790300872 patent/EP0005634B2/en not_active Expired
- 1979-05-18 DE DE7979300872T patent/DE2963466D1/en not_active Expired
- 1979-05-22 JP JP6230579A patent/JPS54153396A/en active Pending
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
BE465322A (en) * | ||||
GB1139156A (en) * | 1966-03-26 | 1969-01-08 | May Pressenbau Gmbh | Safety device for tools |
FR2003031A1 (en) * | 1968-03-01 | 1969-11-07 | Dansk Pressefabrik | |
GB1270654A (en) * | 1968-04-19 | 1972-04-12 | Broughton Engineering Ltd | Improvement relating to brakes in or for power presses and the like machines |
DE2452751A1 (en) * | 1974-11-07 | 1976-05-20 | Weingarten Ag Maschf | Additional braking device for eccentric presses - in which eccentric shaft is braked after each revolution has contact bar and disc |
DE2527716A1 (en) * | 1975-06-21 | 1976-12-30 | Edelhoff Werkzeugmasch | Eccentric press safety arresting mechanism - has rotating lug engaging with end of spring loaded piston in valve-controlled power cylinder |
DE2612599A1 (en) * | 1976-03-25 | 1977-10-06 | Werner Leinhaas | Eccentric press combined safety brake - has automatically ratcheting cam to apply brake positively after each operation cycle |
FR2343593A1 (en) * | 1976-07-30 | 1977-10-07 | Aida Eng Ltd | DEVICE TO OPPOSE A DOUBLE DESCENT OF THE SLIDER OF A PRESS |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
GB2188390A (en) * | 1986-03-27 | 1987-09-30 | Rhodes Joseph Ltd | Safety latch |
US20100059014A1 (en) * | 2006-12-27 | 2010-03-11 | Renault Trucks | improved internal combustion engine with bearing cap dampening |
US8281762B2 (en) * | 2006-12-27 | 2012-10-09 | Renault Trucks | Internal combustion engine with bearing cap dampening |
CN103084513A (en) * | 2013-01-31 | 2013-05-08 | 佛山市盈峰粉末冶金科技有限公司 | Safety control device for punch press |
CN103084513B (en) * | 2013-01-31 | 2016-01-20 | 佛山市盈峰粉末冶金科技有限公司 | A kind of punch press safety control device |
CN108223625A (en) * | 2018-01-22 | 2018-06-29 | 石家庄力神锻压机床有限公司 | A kind of brake gear of safe and intelligent press machine |
CN108223625B (en) * | 2018-01-22 | 2023-11-24 | 石家庄力神锻压机床有限公司 | Braking device of safe intelligent punching machine |
Also Published As
Publication number | Publication date |
---|---|
EP0005634B2 (en) | 1985-07-17 |
EP0005634B1 (en) | 1982-08-04 |
DE2963466D1 (en) | 1982-09-30 |
CA1101782A (en) | 1981-05-26 |
JPS54153396A (en) | 1979-12-03 |
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