JP2019037988A - Press method and press device - Google Patents

Abstract

To provide a press method hardly elongating a press device in one direction, while executing a plurality of steps; and to provide a press device.SOLUTION: In a press method for processing by sandwiching a base metal M between an upper die 13 and a lower die 14 having a plurality of processing parts 21, 31 respectively, following steps are executed in this order, namely, a first step for conveying the base metal M in a first direction A in a plurality of times, a second step for conveying the base metal M in a second direction B crossing the first direction A at least once, and a third step for conveying the base metal M in a third direction C reverse to the first direction A.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a pressing method and a pressing apparatus.

  Japanese Patent Application Laid-Open No. H10-228561 and the like disclose a progressive press device that processes a plurality of workpiece portions of the base material in a single press step while intermittently feeding the base material in the transport direction.

JP 2006-205240 A

  In patent document 1, in order to perform a some process, a base material is conveyed and processed in one direction. For this reason, the process part for performing each process must be arranged in one direction, and a press apparatus will become long in one direction. For this reason, there has been a problem that the upper die to which the processed part is attached is easily bent when pressed, and the press molding accuracy is affected.

  Accordingly, an object of the present invention is to provide a pressing method and a pressing apparatus in which a plurality of processes can be performed and the pressing apparatus is not easily elongated in one direction.

The pressing method according to the present invention includes:
A pressing method in which a base material is sandwiched between an upper mold and a lower mold each having a plurality of processed portions,
A first step of conveying the base material a plurality of times in a first direction;
A second step of conveying the base material at least once in a second direction intersecting the first direction;
A third step of transporting the base material in a third direction opposite to the first direction is performed in this order.

In the above pressing method,
The number of conveyances in the first step may be the same as the number of conveyances in the third step.

In the above pressing method,
After finishing the third step, a fourth step of conveying in a fourth direction intersecting with the third direction may be included.

The press device of the present invention is
An upper mold having a plurality of processed parts;
A lower mold having a plurality of processed parts;
A drive mechanism that relatively displaces the upper mold and the lower mold in the vertical direction;
A transport mechanism that transports the base material at least once in a second direction intersecting the first direction after transporting the base material a plurality of times in the first direction, and further transports the base material in a third direction opposite to the first direction. And have.

In the press device having the above configuration,
The number of conveyances in the first direction and the number of conveyances in the third direction may be the same.

  According to the present invention, it is possible to provide a pressing method and a pressing apparatus in which a plurality of processes can be performed and the pressing apparatus is not easily elongated in one direction.

It is a schematic side view which shows the press apparatus which concerns on this embodiment. It is a schematic plan view of the lower metal mold | die of the press apparatus which concerns on this embodiment. It is a schematic plan view of the lower metal mold | die of the press apparatus which concerns on a modification.

  Hereinafter, an example of an embodiment of a press method and a press apparatus according to the present invention will be described with reference to the drawings.

  FIG. 1 is a schematic side view showing a press apparatus 10 according to the present embodiment. As shown in FIG. 1, a press apparatus 10 used in the pressing method of the present embodiment includes an upper support base 11, a lower support base 12, an upper mold 13, a lower mold 14, a drive cylinder 15, A guide 16 and a transport mechanism 17 are included.

  The upper mold 13 is supported by the lower part of the upper support base 11, and the lower mold 14 is supported by the upper part of the lower support base 12. The upper mold 13 and the lower mold 14 are arranged at positions facing each other. The upper mold 13 has a plurality of processed parts 21, and the lower mold 14 has a plurality of processed parts 31. The processing units 21 and 31 process the base material M in contact with the base material M.

  The upper support 11 is moved up and down by the drive cylinder 15, whereby the upper mold 13 is moved closer to and away from the lower mold 14. The upper mold 13 approaching and separating from the lower mold 14 is guided by the guide 16 in the moving direction. A base material M made of a flat metal plate material is fed between the upper mold 13 and the lower mold 14.

  When the upper die 13 is lowered by the drive cylinder 15, the base material M arranged in the processing portion 31 of the lower die 14 is pressed by the processing portions 21 and 31 to perform processing such as punching, bending, and squeezing. Is called.

  FIG. 2 is a schematic plan view of the lower mold 14 of the press device 10 according to the present embodiment. The upper mold 13 has the same shape as that of the lower mold 14, and thus detailed description regarding the upper mold 13 is omitted.

  As shown in FIG. 2, the lower mold 14 has a rectangular shape extending in a first direction A and a second direction B intersecting the first direction A. In the following description, the first direction A is defined as the direction from the top to the bottom in FIG. The second direction B is defined as a direction from left to right in FIG. Further, in FIG. 2 opposite to the first direction A, a direction from the lower side to the upper side is defined as a third direction C.

  Fifteen processing parts 31 are provided in the lower mold 14. The processing units 31 are provided in four rows in the first direction A and four rows in the second direction B. In the following description, the processing part located at the Xth in the first direction A and the Yth in the second direction B is referred to as a processing part 31XY. For example, the processing part located third in the first direction A and second in the second direction B is the processing part 3132.

  The lower mold 14 is provided with a plurality of transport mechanisms 17. The transport mechanism 17 is provided in a gap between the plurality of processing units 31. The transport mechanism 17 is dimensioned so as not to contact the upper mold 13 even when the upper mold 13 is lowered.

  As shown in FIGS. 1 and 2, the transport mechanism 17 includes a rotation drive unit 25 and an arm 26 that is rotatably provided on the rotation drive unit 25. The transport mechanism 17 can grip the base material M by a gripping portion (not shown) provided at the end of the arm 26. The transport mechanism 17 transports the base material M when the arm 26 rotates as illustrated in a state where the grip portion of the arm 26 grips the base material M.

  The lower mold 14 is provided with a carry-out hole 33. In FIG. 2, the carry-out hole 33 is provided above the processing unit 3124 and to the right of the processing unit 3113. The base material M transported above the carry-out hole 33 by the transport mechanism 17 falls into the carry-out hole 33 when the gripping part releases the grip, and is taken out to the outside.

  Next, a method for pressing the base material M by the press device 10 will be described. The illustrated press apparatus 10 produces a product from the base material M through 15 press processes.

  The base material M is first transported to the processing unit 3111 and processed by the processing unit 3111 and the corresponding processing unit 21, and is transported three times along the A direction by the transport mechanism 17, and is positioned in the first row in the B direction. The parts 3121, 3131, 3141 and the corresponding processing parts 21 are sequentially processed.

  Next, the base material M processed by the processing unit 3141 and the processing unit 21 corresponding to the processing unit 3141 is transported once along the B direction intersecting the A direction by the transport mechanism 17 and moves to the processing unit 3142. The base material M is processed by the processing unit 3142 and the processing unit 21 corresponding thereto.

  Next, the base material M processed by the processing unit 3142 and the processing unit 21 corresponding to the processing unit 3142 is transported three times along the C direction opposite to the A direction by the transport mechanism 17, and the second row in the B direction. Are sequentially processed by the processing units 3132, 3122, 3112 and the processing units 21 corresponding thereto.

  Further, the base material M processed by the processing unit 3112 and the processing unit 21 corresponding to the processing unit 3112 is transported once along the B direction intersecting the A direction by the transport mechanism 17 and moves to the processing unit 3113. The base material M is processed by the processing unit 3113 and the processing unit 21 corresponding thereto.

  The base material M processed by the processing unit 3113 and the processing unit 21 corresponding thereto is transported three times along the A direction by the transport mechanism 17, and the processing units 3123, 3133, which are located in the third row in the B direction, 3143 and the corresponding processing parts 21 are sequentially processed.

  The base material M processed by the processing unit 3143 and the processing unit 21 corresponding thereto is transported once along the B direction intersecting the A direction by the transport mechanism 17 and moves to the processing unit 3144. The base material M is processed by the processing unit 3144 and the processing unit 21 corresponding thereto.

  The base material M processed by the processing unit 3144 and the processing unit 21 corresponding thereto is transported three times along the C direction opposite to the A direction by the transport mechanism 17 and is positioned in the third row in the B direction. After being sequentially processed by the processing portions 3134 and 3124 and the corresponding processing portions 21, the processing portions 3134 and 3124 are taken out from the carry-out hole 33.

  As described above, according to the pressing method and the pressing apparatus 10 according to the present embodiment, the conveyance direction is set to two directions (A, C direction, and B direction). Thereby, compared with the case where a conveyance direction is only one direction (for example, only B direction), the space required for installing a processing part does not become long only in one direction. For this reason, the press apparatus 10 does not become long only in one direction. Moreover, it can suppress that the upper metal mold | die 13 and the lower metal mold | die 14 bend in one direction, and can improve press molding precision.

  In addition, by making the lengths of the first direction A and the second direction B in the press apparatus 10 equal, an increase in the size of the apparatus can be more effectively suppressed.

  In the above embodiment, the transport mechanism 17 is provided between the upper mold 13 and the lower mold 14. However, the transport mechanism 17 may be provided outside the upper mold 13 and the lower mold 14 in plan view. Good.

  As the press device 10, the transport mechanism 17 transports the base material M a plurality of times in the first direction A and then transports the base material M at least once in the second direction B intersecting the first direction A. If it is the structure conveyed in the 3rd direction C opposite to the 1st direction A, it will not be limited to said embodiment.

  Next, a press apparatus 10A according to a modification will be described. FIG. 3 is a schematic plan view of the lower mold 14 of the press apparatus 10A according to the modification. In FIG. 3, the transport mechanism 17 is omitted.

  As shown in FIG. 3, the press device 10A according to the modified example has a total of 16 processing portions 41, four rows in the A direction and four rows in the B direction. Similar to the definition used in FIG. 2, the processing part located at the Xth in the A direction and the Yth in the B direction is referred to as a processing part 41XY. For example, the processing portion located at the second position in the A direction and the fourth position in the B direction is the processing portion 4124.

  The lower mold 14 has two processing areas PA1 and PA2 that are elongated in the B direction. Eight processing portions 41 are provided in each processing region PA1, PA2. Processing parts 4111, 4121, 4112, 4122, 4113, 4123, 4114, and 4124 are provided in the first processing area PA1. Processing portions 4131, 4141, 4132, 4142, 4133, 4143, 4134, and 4144 are provided in the second processing area PA2.

  In this modification, the base material M is simultaneously processed in each of the two processing regions PA1 and PA2. First, the base material M is conveyed to both the processing parts 4111 and 4131. The base material M conveyed to the processing unit 4111 is processed by the processing unit 4111 and the processing unit 21 corresponding thereto. At the same time, the base material M conveyed to the processing unit 4131 is processed by the processing unit 4131 and the processing unit 21 corresponding thereto.

  Thereafter, the base material M is transported once in the A direction by the transport mechanism 17 and is transported from the processing unit 4111 to the processing unit 4121, and the base material M positioned in the processing unit 4131 is transported from the processing unit 4131. It is conveyed to the processing unit 4141. Each base material M is processed by the processing unit 4121 and the processing unit 21 corresponding thereto, the processing unit 4141 and the processing unit 21 corresponding thereto.

  In the first processing area PA1, the base material M is sequentially conveyed to the processing parts 4111, 4121, 4122, 4112, 4113, 4123, 4124, 4114 and processed. In the second processing area PA2, the base material M is sequentially conveyed to the processing parts 4131, 4141, 4142, 4132, 4133, 4143, 4144, 4134 and processed.

  On the left side of the processing portion 4114 of the lower mold 14 and the left side of the processing portion 4134, an unloading table 43 is provided. The product processed by the processing section 4114 in the first processing area PA1 and the product processed by the processing section 4134 in the second processing area PA2 are each transferred to the carry-out table 43 and taken out from the carry-out table 43 to the outside.

  Also in the pressing apparatus 10A and the pressing method according to this modification, the pressing apparatus 10A that performs this pressing method does not become longer in only one direction because the conveying direction is two directions (A, C, and B directions). For this reason, it is difficult to increase the size of the press device 10A in one direction. Moreover, it can suppress that the upper metal mold | die 13 and the lower metal mold | die 14 bend in one direction, and can improve press molding precision.

Furthermore, in this modification, two base materials M can be processed simultaneously. When the transport mechanism transports the base material m times in the A direction (m is a natural number) as in this modification, at least one of the upper mold and the lower mold is (m + 1) × n in the A direction. You may be comprised so that it may have a process part (n is arbitrary natural numbers). n can be the number of base materials M to be processed simultaneously.
In the present modification, when the transport mechanism 17 transports once in the A direction, the lower mold 14 includes (1 + 1) × 2 = 4 processing portions 41 in the A direction. When n is 2 or more, a plurality of base materials M can be processed simultaneously.

  In the above description, the configuration in which the lower mold and the upper mold similarly have the processing portion has been described, but the present invention is not limited to this example. For example, when only the upper surface of the base material M is processed, the processing portion may be provided only on the upper mold as described above.

10, 10A: Pressing device, 13: Upper die, 14: Lower die, 15: Drive cylinder, 17: Conveying mechanism, 21, 31: Processing part, A: First direction, B: Second direction, C: Third direction, M: Base material

Claims (5)

A pressing method in which a base material is sandwiched between an upper mold and a lower mold each having a plurality of processed portions,
A first step of conveying the base material a plurality of times in a first direction;
A second step of conveying the base material at least once in a second direction intersecting the first direction;
The press method which performs the 3rd process which conveys the said base material to the 3rd direction opposite to said 1st direction in this order.   The pressing method according to claim 1, wherein the number of conveyances in the first step and the number of conveyances in the third step are the same.   3. The pressing method according to claim 1, further comprising a fourth step of conveying in a fourth direction intersecting with the third direction after finishing the third step. An upper mold having a plurality of processed parts;
A lower mold having a plurality of processed parts;
A drive mechanism that relatively displaces the upper mold and the lower mold in the vertical direction;
A transport mechanism that transports the base material at least once in a second direction intersecting the first direction after transporting the base material a plurality of times in the first direction, and further transports the base material in a third direction opposite to the first direction. A press device.   The pressing method according to claim 4, wherein the number of conveyances in the first direction and the number of conveyances in the third direction are the same.

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