Claims
- 1. A plate reduction pressing method in which
dies with convex forming surfaces protruding towards a transfer line are brought close to the transfer line from above and below the material to be shaped, when viewed from the side of the transfer line, in synchronism with the movement of the material to be shaped, in such a manner that a portion of the forming surfaces of the material is transferred from the upstream side to the downstream side of the transfer line and the material to be shaped is reduced in the direction of the plate thickness thereof.
- 2. A plate reduction press apparatus comprising
die holders opposite each other above and below a transfer line in which a material to be shaped is transferred horizontally, dies mounted on the said die holders and comprised of convex forming surfaces protruding towards the said transfer line when viewed from the side of the transfer line, upstream eccentric shafts arranged on the side of each die holder on the opposite side from the transfer line and extending in the lateral direction of the transfer line, downstream eccentric shafts arranged on the side of each die holder on the opposite side from the transfer line in alignment with the said upstream eccentric shafts, on the downstream side of the transfer line, and comprised of eccentric portions with a different phase angle from the phase angle of the eccentric portions of the upstream eccentric shafts, upstream rods whose tips are connected to portions of the die holders, near the end of the die holders in the upstream direction of the transfer line through bearings and whose big ends are connected to the eccentric portions of the upstream eccentric shafts through bearings, downstream rods whose tips are connected to portions of the die holders, near the end of the die holders in the downstream direction of the transfer line through bearings and whose big ends are connected to the eccentric portions of the downstream eccentric shafts through bearings, and mechanisms for moving the dies backwards and forwards that reciprocate the said die holders relative to the transfer line.
- 3. The plate reduction press apparatus specified in claim 2, in which the mechanisms for moving the dies backwards and forwards are comprised of arms one end of each of which is fixed to the die holder, and guide members which are provided near the die holders and guide the other end of each of the said arms.
- 4. The plate reduction press apparatus specified in claim 2, in which the mechanisms for moving the dies backwards and forwards are comprised of actuators one end of each of which is connected to one of the die holders through a first bearing and the other end of each thereof is connected to a predetermined fixing member through a second bearing.
- 5. The plate reduction press apparatus specified in claim 2, in which
the mechanisms for moving the dies backwards and forwards are comprised of eccentric shafts for backwards and forwards movements, provided near the die holders, and rods for backward and forward movements, one end of each of the said rods being connected to one of the die holders through a first bearing and the other end thereof being connected to one of the eccentric portions of the eccentric shafts for backward and forward movements.
- 6. The plate reduction press apparatus specified in claim 2, in which
the mechanisms for moving the dies backwards and forwards are comprised of levers one end of each of which is connected to one of the die holders through a first bearing and the other end thereof is connected to a predetermined fixing member through a second bearing.
- 7. A plate reduction press apparatus comprising
dies arranged vertically opposite each other on opposite sides of a transfer line in which a material to be shaped is transferred horizontally, and moving towards and away from the transfer line in synchronism with each other, a plurality of upstream table rollers arranged on the upstream side of the dies on the transfer line in such a manner that the lower surface of the material to be shaped, which is to be inserted between the dies, can be supported substantially horizontally, a plurality of downstream up and down table rollers arranged on the downstream side of the dies on the transfer line in such a manner that the downstream up and down table rollers can be raised and lowered and can support the lower surface of the material after being shaped and fed out of the dies, and a plurality of downstream table rollers arranged on the downstream side of the downstream up and down table rollers on the transfer line in such a manner that the lower surface of the material after being shaped and fed out of the dies can be supported substantially horizontally at a height substantially the same as the height of the said upstream up and down table rollers.
- 8. A plate reduction press apparatus comprising
dies arranged vertically opposite each other on opposite sides of a transfer line in which a material to be shaped is transferred horizontally, and moving towards and away from the transfer line in synchronism with each other, a plurality of upstream up and down table rollers arranged on the upstream side of the dies on the transfer line in such a manner that the upstream up and down table rollers can be raised and lowered, and can support the lower surface of the material to be shaped, which is to be inserted between the dies, and a plurality of downstream table rollers arranged on the downstream side of the dies on the transfer line in such a manner that the lower surface of the material being shaped and fed out of the dies can be supported.
- 9. A plate reduction press apparatus comprising
dies arranged vertically opposite each other on opposite sides of a transfer line in which a material to be shaped is transferred horizontally, and moving towards and away from the transfer line in synchronism with each other, a plurality of upstream up and down table rollers arranged on the upstream side of the dies on the transfer line in such a manner that the upstream up and down table rollers can be raised and lowered, and the lower surface of the material to be shaped, which is to be inserted between the dies, can be supported, and a plurality of downstream up and down table rollers arranged on the downstream side of the dies in such a manner that the lower surface of the material being shaped and fed out of the dies can be supported.
- 10. A method of operating the plate reduction press apparatus specified in claim 7, in which
when a long material to be shaped is inserted between both dies, and reduced and formed in the direction of the plate thickness, the vertical positions of the downstream up and down table rollers near the dies are determined in such a manner that the material after being shaped and fed out of the dies is substantially horizontal, and the vertical positions of the downstream up and down table rollers on the side farther from the dies are determined in such a manner that the material being shaped gradually descends towards the downstream table rollers.
- 11. A method of operating the plate reduction press apparatus specified in claim 8, in which
when a long material to be shaped is inserted between both dies, and reduced and formed in the direction of the plate thickness, the vertical positions of the upstream up and down table rollers near the dies are determined in such a manner that the material to be shaped, which is to be inserted between the dies, is substantially horizontal.
- 12. A method of operating the plate reduction press apparatus specified in claim 2, in which
when a long material to be shaped is inserted between both dies, and reduced and formed in the direction of the plate thickness, the vertical positions of the upstream up and down table rollers near the dies and the downstream up and down table rollers from the dies are determined in such a manner that the material to be shaped, which is to be inserted between the dies, and the material after being shaped and fed out of the dies are substantially horizontal.
- 13. The method of operating the plate reduction press apparatus specified in claim 10, in which
when a long material to be shaped is not reduced or formed in the direction of the plate thickness by the dies, the positions of the upper surfaces of the downstream up and down table rollers are determined to be identical to the positions of the upper surfaces of the downstream table rollers.
- 14. A method of operating the plate reduction press apparatus specified in claim 8, in which
when a long material to be shaped is not reduced or formed in the direction of the plate thickness by the dies, the positions of the upper surfaces of the upstream up and down table rollers are determined to be identical to the positions of the upper surfaces of the downstream table rollers.
- 15. A method of operating the plate reduction press apparatus specified in claim 9, in which
when a long material to be shaped is not reduced or formed in the direction of the plate thickness by the dies, the positions of the upper surfaces of the upstream up and down table rollers and the downstream table rollers are determined to be identical to each other.
- 16. A plate thickness reduction pressing method comprising
a first plate thickness reduction sub-method; in which
a material to be shaped is transferred from the upstream side of the transfer line to the downstream side of the transfer line, upstream dies with forming surfaces facing the said material to be shaped are moved towards the material to be shaped while the upstream dies are being moved in the downstream direction of the transfer line and the upstream dies are moved away from the material being shaped while the upstream dies are being moved in the upstream direction of the transfer line, each in synchronism with the other die, the said material to be shaped is reduced and shaped in the direction of the plate thickness sequentially, and a second plate thickness reduction sub-method; in which
downstream dies with forming surfaces facing the said material being shaped are moved towards the material being shaped with a reverse phase angle to the phase angle of the said upstream dies while the downstream dies are being moved in the downstream direction of the transfer line from above and below a portion of the material, whose thickness has been reduced through the first plate thickness reduction sub-method and the downstream dies are moved away from the material being shaped while the downstream dies are being moved in the upstream direction of the transfer line, in synchronism with each other; and the said material after being shaped by the first plate reduction sub-method is further reduced and shaped in the direction of the plate thickness sequentially.
- 17. A plate reduction press apparatus comprising
upstream sliders arranged vertically opposite each other on opposite sides of a transfer line in which a material to be shaped is transferred, mechanisms for moving the upstream sliders that move the said upstream sliders towards the transfer line and move the upstream sliders away from the transfer line, upstream dies mounted on the upstream sliders in such a manner that the upstream dies can move along the transfer line, and are comprised of forming surfaces facing the transfer line, mechanisms for moving the upstream dies that move the said upstream dies backwards and forwards along the transfer line, downstream sliders located on the downstream side of the said upstream sliders on the transfer line, opposite each other on opposite sides of the transfer line, mechanisms for moving the downstream sliders that move the said downstream sliders towards the transfer line and move the downstream sliders away from the transfer line, downstream dies mounted on the downstream sliders in such a manner that the downstream dies can move along the transfer line, and are comprised of forming surfaces facing the transfer line, and mechanisms for moving the downstream dies that move the said downstream dies backwards and forwards along the transfer line.
- 18. The plate reduction press apparatus specified in claim 17, comprising
mechanisms for moving the upstream sliders comprised of upstream crank shafts arranged on the opposite side of the upstream sliders to the transfer line, and upstream rods one end of each of which is connected to an eccentric portion of one of the upstream crank shafts through a first bearing and the other end of each of which is connected to one of the upstream sliders through a second bearing, and mechanisms for moving the downstream sliders comprised of downstream crank shafts arranged on the opposite side of the downstream sliders to the transfer line, and downstream rods one end of each of which is connected to an eccentric portion of one of the downstream crank shafts through a third bearing and the other end of each of which is connected to one of the downstream sliders through a fourth bearing.
- 19. The plate reduction press apparatus specified in claim 18, comprising a synchronous drive mechanism that rotates the upstream crank shafts and the downstream crank shafts in synchronism in the same direction in such a manner that the phase angles of the eccentric portions of both upstream and downstream crank shafts maintain a difference of 180°.
- 20. The plate reduction press apparatus specified in claim 17 or 18, comprising upstream crank shafts and downstream crank shafts that are supported through bearings in such a manner that both the said crank shafts are substantially parallel to the direction orthogonal to the transfer line.
- 21. A plate reduction press apparatus comprising
a pair of dies arranged opposite each other on opposite sides of the transfer line of a material to be shaped and moved towards and away from each other in synchronism with each other, upstream side guides arranged in the close vicinity of the said dies on the upstream side in the direction of the transfer line in such a manner that the upstream side guides arc opposite each other in the lateral direction of the material to be shaped on opposite sides of the transfer line, and comprised of a first pair of side guide units that can be moved towards and away from the transfer line, and downstream side guides arranged in the close vicinity of the said dies on the downstream side in the direction of the transfer line in such a manner that the downstream side guides are opposite each other in the lateral direction of the material being shaped on opposite sides of the transfer line, and comprised of a second pair of side guide units that can be moved towards and away from the transfer line.
- 22. A plate reduction press apparatus comprising
a pair of dies arranged opposite each other on opposite sides of the transfer line of a material to be shaped and moved towards and away from each other in synchronism with each other, upstream side guides arranged in the close vicinity of the said dies on the upstream dies in the direction of the transfer line in such a manner that the upstream side guides are opposite each other in the lateral direction of the material to be shaped on opposite sides of the transfer line, and comprised of a first pair of side units that can be moved towards and away from the transfer line, upstream vertical rollers supported by the corresponding upstream side guides in such a manner that the upstream vertical rollers can contact the lateral edges of the material to be shaped, when the material passes between the said upstream side guides, downstream side guides arranged in the close vicinity of the said dies on the downstream side in the direction of the transfer line in such a manner that the downstream side guides are opposite each other in the lateral direction of the material being shaped on opposite sides of the transfer line, and comprised of a second pair of side guide units that can be moved towards and away from the transfer line, and downstream vertical rollers supported by the corresponding downstream side guides in such a manner that the downstream vertical rollers can contact the lateral edges of the material being shaped, when the material passes between the said downstream side guides.
- 23. A plate reduction press apparatus comprising
upper and lower drive shafts arranged opposite each other above and below a material to be pressed, and driven to rotate, upper and lower press frames one end of each of which engages with one of the said drive shafts in a freely slidable manner, and the other ends of which are connected together in a freely rotatable manner, a horizontal guide device that supports the connection portions of the said press frames in a manner such that they can slide in the horizontal direction, and upper and lower dies mounted at the ends of the upper and lower press frames, facing the material to be pressed, in which the upper and lower drive shafts are comprised of a pair of eccentric shafts that are located at both lateral ends with a phase angle difference between each other, and the upper and lower dies are opened and closed with a rolling movement by rotating the drive shafts, and the material to be pressed is transferred while the material is pressed with a rolling action.
- 24. The plate reduction press apparatus specified in claim 23, in which
a driving device rotates and drives the drive shafts, the rotational speed of the said driving device is variable, and the rotational speed is determined in such a manner that the speed of the dies in the direction of the transfer line during pressing is substantially equal to the speed of feeding the material to be pressed.
- 25. The plate reduction press apparatus specified in claim 23, comprising a looper device that provides a slack portion in the material to be pressed on the downstream side and holds up the material.
- 26. A plate reduction press apparatus comprising
upper and lower crank shafts arranged opposite each other above and below a material to be pressed and driven to rotate, upper and lower press frames one end of each of which engages with one of the said crank shafts in a freely slidable manner, and the other ends of which are connected in a freely rotatable manner, horizontal guide devices that support the connecting portions of the said press frames in a horizontally movable manner, and upper and lower dies mounted at the ends of the upper and lower press frames, facing the material to be pressed; in which
the crank shafts rotate to open and close the upper and lower dies, and press the material to be pressed, while the material is being transferred.
- 27. The plate reduction press apparatus specified in claim 26, comprising a driving device for rotating and driving the crank shafts, in which
the rotational speed of the said driving device is variable and determined in such a manner that the speed of the dies in the direction of the transfer line during pressing is substantially equal to the feeding speed of the material to be pressed.
- 28. The plate reduction press apparatus specified in claim 26, further comprising a looper device that provides a slack portion in the material to be pressed on the downstream side and holds up the material.
- 29. The plate reduction press apparatus specified in claim 26, further comprising height adjusting plates that are maintained between the dies and the press frames and adjust the heights of the dies.
- 30. A plate reduction pressing method in which the speed of feeding a material to be pressed is made variable with respect to the maximum speed of dies in the direction of transfer line.
- 31. The plate reduction pressing method specified in claim 30, in which the speed of feeding the material to be pressed is made variable in such a manner that at the beginning of pressing, the speed is made higher than the said maximum speed and made lower at an intermediate time in the pressing period.
- 32. A plate reduction press apparatus comprising
upper and lower eccentric drive shafts arranged opposite each other above and below a material to be pressed and driven to rotate, upper and lower synchronous eccentric shafts that rotate around the said eccentric drive shafts, upper and lower press frames one end of each of which engages with one of the said synchronous eccentric shafts in a freely slidable manner, and the other ends of which are connected together in a freely rotatable manner, and upper and lower dies mounted at ends of the upper and lower press frames, facing the material to be pressed, in which
the upper and lower dies are opened and closed by rotating the upper and lower eccentric drive shafts, and when the material to be pressed is being pressed by the dies, the synchronous eccentric shafts synchronize the speed of the press frames in the direction of transfer line with the speed of the material to be pressed in the direction of the transfer line.
- 33. A plate reduction press apparatus comprising
crank shafts arranged above and below a material to be pressed, sliders which engage with the said crank shafts in a freely slidable manner and made to move in a circular path, dies mounted on the sliders facing the said material to be pressed, and a driving device for driving and rotating the said crank shafts, in which
the said crank shafts are comprised of eccentric shafts engaged with the said sliders, and support shafts arranged at both ends of the eccentric shafts with shaft center lines eccentric to the shaft center lines of the eccentric shafts, and at least one of the support shafts is provided with a counterweight offset with an eccentric center line substantially at an angle of 180°, to the direction of the eccentricity of the said eccentric shafts.
- 34. A plate reduction press apparatus comprising
crank shafts arranged above and below a material to be pressed, upper and lower press frames one end of each of which engages with one of the crank shafts in a freely slidable manner and made to move in a circular path, and the other ends of which are connected together in a freely rotatable manner, horizontal guide devices that hold the connecting portions of the press frames in a manner such that they can move in the horizontal direction, dies mounted at ends of the said press frames facing the material to be pressed, and a driving device for driving and rotating the said crank shafts, in which
the said crank shafts are comprised of eccentric shafts engaged with the said ends of the press frames, and support shafts arranged on both sides of the eccentric shafts with shaft center lines eccentric to the shaft center lines of the eccentric shafts, and at least one of the support shafts is provided with a counterweight offset with an eccentric center line substantially at an angle of 180°, to the direction of eccentricity of the said eccentric shafts.
- 35. The plate reduction press apparatus specified in claim 33 or 34, in which
the said counterweight has a mass sufficient to store rotating energy and can also function as a flywheel.
- 36. The plate reduction press apparatus specified in claim 33 or 34 in which the inertia force due to the eccentricity of the said counterweight is determined so as to substantially cancel the inertia force produced by the said sliders or one end of the said press frames.
- 37. A plate reduction press apparatus comprising
dies arranged above and below a slab, sliders provided for each of the dies so that the dies can be moved up, down, and backwards and forwards with a swinging motion and a driving device for driving the sliders, in which
each of the said sliders is comprised of a main unit with a circular hole with its center lines in the lateral direction of the slab, and a crank with a first axis engaged with the circular hole and a second shaft with a diameter smaller than the diameter of the first shaft and a center line offset from the center line of the first shaft, and the second shaft is rotated and driven by the said driving device.
- 38. A plate reduction press apparatus comprising
a die arranged above or below a slab, a slider for moving the die up, down, and backwards and forwards, a driving device for driving the slider, and a slab supporting member arranged opposite the said die above or below the slab, in which
the said slider is comprised of a main unit with a circular hole with a center line in the lateral direction of the slab, a first shaft engaged with the circular hole, and a crank comprised of a second shaft with a diameter smaller than the diameter of the first shaft and a center line offset from the center line of the first shaft, and the second shaft is rotated and driven by the said driving device.
- 39. The plate reduction presses apparatus specified in claim 37 or 38, in which
a plurality of circular holes and a plurality of cranks arranged in the said sliders are arranged in a row in the transfer direction of the slab, and constructed in such a manner that each crank produces pressing force.
- 40. The plate reduction press apparatus specified in claim 37 or 38, in which
a plurality of circular holes and a plurality of cranks equipped in the said sliders are arranged in a row in the transfer direction of the slab, and constructed in such a manner that one crank bears the moment of the load and the other cranks produce pressing force.
- 41. The plate reduction press apparatus specified in claim 37 or 38, in which
the said slab is transferred by pinch rolls or tables, and the slab is transferred in synchronism with the forward velocity of the sliders when the slab is pressed by the sliders.
- 42. The plate reduction press apparatus specified in claim 37 or 38, in which
the distance L in which the slab is moved in a cycle comprised of a reduction pressing time period and a time period with a normal transfer speed is no greater than the length L1 of the dies in the transfer direction of the slab.
- 43. A plate reduction press apparatus comprising
a pair of dies arranged opposite each other above and below a slab, and a device that moves each of the dies backwards and forwards and in the direction of the slab with a swinging motion, and eccentric shafts rotating in the said circular holes, and each of the said eccentric shafts is comprised of a first shaft rotating in a circular hole with a center line A, and a second shaft driven to rotate around a center line B offset from the said first shaft by a distance e.
- 44. A plate reduction pressing method using
a pair of dies arranged opposite each other above and below a slab, and a device that moves each of the dies towards the slab with a swinging motion, in which
when the slab is pressed by the dies, the speed of feeding the slab is synchronized with the speed of the dies, and during the period when the slab is not being pressed and is not in contact with the dies, the slab is fed at a constant speed corresponding to a predetermined cycle speed.
- 45. A plate reduction press apparatus in which
the direction in which a material to be pressed moves after being pressed is defined to be longitudinal, and N dies each of which has the same length in the longitudinal direction are arranged and press the material with an interval of NL between each die.
- 46. The plate reduction press apparatus specified in claim 45, in which
the lateral direction is defined to be the direction orthogonal to the said longitudinal direction, and the longitudinal length of the said dies is less than the length of the dies in the lateral direction.
- 47. The plate reduction press apparatus specified in claim 45, in which the said N dies press at the same time.
- 48. The plate reduction press apparatus specified in claim 45, in which at least one of the said dies presses at a different time from the time that the other dies press.
- 49. A plate reduction pressing method in which
each of the N press machines pressing a material to be pressed with a press length L in the direction of the flow of the material to be pressed is defined by a number K, the press machines are arranged such that K=1 on the upstream side of the pressing line, and K increases sequentially to K=N in the downstream direction when N press machines are arranged in tandem, the material to be pressed is pressed sequentially from K=N to K=1, then after the material to be pressed is fed by a length NL, that is, by the total of the pressing lengths of each press machine, sequential pressing from K=N to K=1 is repeated to press the material.
- 50. A plate reduction pressing method in which
each of the N press machines pressing a material to be pressed with a press length L in the direction of the flow of the material to be pressed is defined by a number K, the press machines are arranged such that K=1 on the upstream side of the pressing line, and K increases sequentially to K=N in the downstream direction when N press machines are arranged in a tandem configuration, each press machine reduces the material by Δt, press machine K reduces the material by Δt from the thickness after it has been pressed by press machine K−1, and the material is pressed by repeatedly feeding the material by the press length L after pressing the material in sequence from press machine K=1 to press machines K=N.
- 51. A plate reduction press apparatus comprising
speed adjusting rolls arranged between a reduction press machine and a rolling mill with a space provided in which the material to be pressed can be deflected, metering instruments to measure the length passed are arranged near the said speed adjusting rolls or in the vicinity thereof, for measuring the length of the material to be pressed which has passed, and a control apparatus for controlling the operations of the said reduction press machine and adjusting both speed adjusting rolls according to the measurement of the said metering instrument for measuring the length passed.
- 52. The plate reduction press apparatus specified in claim 51, in which
the said control apparatus obtains the difference in the measured lengths passed of both metering instruments for measuring the length passed over a period of a multiple of pressing cycles of the press machine, adjusts the number of pressing cycles of the press machine or the transfer speeds of the speed adjusting rolls, or a combination thereof, and controls the pressing operations in such a manner that the difference in the lengths passed is brought to 0.
- 53. The plate reduction press apparatus specified in claim 51, in which
a deflection metering instrument is provided to measure the deflection of the material to be pressed, between the said speed adjusting rolls, and the said control apparatus controls the pressing operations according to the measurements thereof in such a manner that the deflection remains within a predetermined range.
- 54. The plate reduction press apparatus in which
an apparatus for conveying material being pressed that can be raised and lowered is arranged between the said speed adjusting rolls, and when the leading end or trailing end of the material to be pressed passes the conveyor apparatus, the material to be pressed is conveyed substantially at the same level as the transfer level of the speed adjusting rolls.
- 55. A plate reduction pressing method, in the pressing method of a crank type press machine that presses a material to be pressed while it is being transferred using upper and lower dies, in which
during the pressing period, the dies are moved at the same speed as the speed of the material to be pressed, and during the non-pressing period, the speed of feeding the material to be pressed is adjusted in such a manner that during one cycle, the material to be pressed is moved by a predetermined distance L.
- 56. A plate reduction press apparatus comprising
dies arranged above and below a material to be pressed, crank devices for pressing each of the dies, and transfer devices for transferring the material to be pressed, in which
the transfer devices move the dies and the material to be pressed at the same speed when the crank devices are pressing the material to be pressed by the dies, and when the material to be pressed is not being pressed, the transfer devices adjust the speed of feeding the material to be pressed and move the material by a predetermined distance L in a cycle of pressing operations, and the said distance L is not greater than the length L0 which is the reduction length of the dies in the direction of flow of the material to be pressed.
- 57. A plate reduction pressing method, in the pressing method of a crank type press machine that presses a material to be pressed while it is being transferred using dies from both sides in the lateral direction of the transfer line, in which
during the pressing period, the dies are moved at the same speed as the speed of the material to be pressed, and during the non-pressing period, the speed of feeding the material to be pressed is adjusted in such a manner that during one cycle, the material to be pressed is moved by a predetermined distance L.
- 58. A plate reduction press apparatus comprising
dies arranged on both sides in the lateral direction of a material to be pressed, crank devices that press each of the dies in the lateral direction, and transfer devices that transfer the material to be pressed, in which
the transfer devices move the material to be pressed at the same speed as the speed of the dies when the crank devices are pressing the material to be pressed in the lateral direction with the dies, and when the material to be pressed is not being pressed, the speed of feeding the material to be pressed is adjusted, and the material to be pressed is moved by a predetermined distance L in one cycle of pressing operations, and the said distance L is not greater than the length L0 which is the reduction length of the dies in the direction of flow of the material to be pressed.
- 59. The plate reduction press apparatus specified in claim 56 or 58, further comprising a looper that forms a loop in the material to be pressed and adjusts the length thereof, downstream of the said transfer devices.
- 60. A plate reduction pressing method, in the pressing method of a crank type press machine that presses a material to be pressed with upper and lower dies and transfers the material with pinch rolls, in which
during the pressing period, the pinch rolls rotate in such a manner that the peripheral speed of the pinch rolls is made equal to a combination of the horizontal speed of the dies and the elongation speed of the material to be pressed, added or subtracted, and transfer the material to be pressed, and when the press machine is not pressing, the speed of feeding the material to be pressed is adjusted in such a manner that during one cycle, the material to be pressed is moved by a predetermined distance L, and the pressing force of the pinch rolls during the pressing period is made smaller than the force thereof during the non-pressing period.
- 61. A plate reduction press apparatus comprising
dies arranged above and below a material to be pressed, crank devices that press each of the dies, and pinch rolls that transfer the material to be pressed, in which
when the crank devices are pressing the material to be pressed through the dies, the pinch rolls rotate in such a manner that the peripheral speed of the pinch rolls is made equal to the combination of the horizontal speed of the dies and the elongation speed of the material to be pressed, added or subtracted, and transfer the material to be pressed, and when the press machine is not pressing, the speed of feeding the material to be pressed is adjusted in such a manner that during one cycle, the material to be pressed is moved by a predetermined distance L and the distance L is not greater than the reduction length L0 of the dies in the direction of flow of the material to be pressed, and the pressing force of the pinch rolls during the pressing period is made smaller than the pressing force during the non-pressing period.
- 62. The plate thickness press apparatus specified in claim 61, in which
the pressing force of the said pinch rolls is made smaller for a predetermined time t before or after the press machine begins to press.
- 63. The plate reduction press apparatus specified in claim 61, in which
the pressing force of the said pinch rolls during the pressing period is made smaller when the pressing load becomes greater than a predetermined load.
- 64. A plate reduction press apparatus comprising
inlet transfer devices that are arranged upstream of the press machine, and transfer a material to be pressed, and can be raised and lowered, and outlet transfer devices that are arranged downstream of the press machine, and transfer the material being pressed, and can be raised and lowered, in which
the said inlet transfer devices are adjusted to transfer height according to information about the thickness of the material to be pressed, that has been input, in such a manner that the center line of the thickness of the material to be pressed agrees with the center line of the press machine, and the said outlet transfer devices are adjusted to a transfer height according to information about the thickness of the material being pressed, in such a manner that the center line of the thickness of the material agrees with the center line of the press machine.
- 65. A plate reduction press apparatus comprising
inlet transfer devices that are arranged upstream of a press machine for pressing a material to be pressed between upper and lower dies, and transfer the material to be pressed, and can be raised and lowered, and outlet transfer devices that are arranged downstream of the said press machine, and transfer the material being pressed, and can be raised and lowered, in which
when the material to be pressed is passed through the press machine without being pressed, the upper and lower dies are open, and the transfer heights of the said inlet transfer devices and the said outlet transfer devices are determined to be identical to each other and higher than the upper surface of the lower die in the open position.
- 66. A plate reduction pressing method, in the transfer method of the transfer devices that are arranged upstream and downstream of a press machine and can adjust the transfer height of a material to be pressed, where
both transfer devices can transfer the material to be pressed or being pressed while the transfer devices maintain the height of the center line of the thickness of the material to be pressed, in an unchanged manner during transfer.
- 67. A plate reduction pressing method, in the transfer method of transfer devices that are arranged upstream and downstream of a press machine and can adjust the transfer height of a material to be pressed, in which
when the material to be pressed is passed through the press machine, the press dies are opened vertically in such a manner that the material to be pressed does not contact the dies, and both transfer devices transfer the material to be pressed at the same height.
Priority Claims (17)
Number |
Date |
Country |
Kind |
8-250983 |
Sep 1997 |
JP |
|
8-277490 |
Oct 1997 |
JP |
|
8-280414 |
Oct 1997 |
JP |
|
8-288638 |
Oct 1997 |
JP |
|
8-324669 |
Nov 1997 |
JP |
|
8-332569 |
Dec 1997 |
JP |
|
8-338375 |
Dec 1997 |
JP |
|
8-338376 |
Dec 1997 |
JP |
|
9-34744 |
Feb 1998 |
JP |
|
9-37012 |
Feb 1998 |
JP |
|
9-37013 |
Feb 1998 |
JP |
|
9-42326 |
Feb 1998 |
JP |
|
9-42328 |
Feb 1998 |
JP |
|
9-166546 |
Jun 1998 |
JP |
|
9-167981 |
Jun 1998 |
JP |
|
9-167985 |
Jun 1998 |
JP |
|
PCT/JP98/04092 |
Sep 1998 |
JP |
|
Parent Case Info
[0001] This application is a division of U.S. patent application Ser. No. 09/912,505, filed Jul. 26, 2001, which in turn is a division of U.S. patent application Ser. No. 09/308,293, filed May 12, 1999, now U.S. Pat. No. 6,341,516, issued Jan. 29, 2002, the entire disclosures of which are considered to be part of the present disclosure and are specifically incorporated by reference herein.
Divisions (2)
|
Number |
Date |
Country |
Parent |
09912505 |
Jul 2001 |
US |
Child |
10105436 |
Mar 2002 |
US |
Parent |
09308293 |
May 1999 |
US |
Child |
09912505 |
Jul 2001 |
US |