JP5782904B2 - Pendulum gauge unit for press machine - Google Patents

Description

  The present invention relates to a pendulum gauge unit that is disposed in a press device and holds and positions a steel sheet material.

When forming a large steel plate material (material panel) such as an outer plate for automobiles in a pressing device having an upper mold movable up and down, a lower mold combined with the upper mold, and an ejector rising from the lower mold In order to prevent warping of the steel plate material, the steel plate material is held using a pendulum gauge unit.
For example, Patent Document 1 discloses a loading work positioning device that is positioned on a side of a lower mold and positions a workpiece end that is loaded onto the lower mold in a press machine. The loading workpiece positioning device includes a side gauge that is positioned by contact with an end surface of a workpiece to be loaded, a first workpiece holder that is pivotally supported so as to be rotatable in the vertical direction, and has one end pulled downward by a spring, and a first workpiece The other end of the holder is provided with a second work holder that is pivotally supported only in the upward direction. As a result, when the workpiece is carried in, the workpiece is supported and positioned accurately, and the product after processing is reliably taken out.

JP-A-8-257654

  However, in the carry-in workpiece positioning device of Patent Document 1, the first work holder is biased to the side gauge using a spring, and it is not easy to set the amount of expansion and contraction and strength of the spring. In addition, the spring may be detached from the first work holder or the side gauge, and management of the spring is not easy.

  The present invention was made in view of such a background, and without using a spring, by utilizing the balance between the gravity acting on the pendulum lever from the steel plate material and the force with which the backup lever holds the pendulum lever, The present invention has been obtained in an attempt to provide a pendulum gauge unit for a press apparatus capable of stably holding a material, lowering a steel plate material, and raising a steel plate product.

The present invention is used in a press apparatus having an upper mold movable up and down, a lower mold combined with the upper mold, and an ejector rising from the lower mold. A pendulum gauge unit configured to hold,
A gauge base having a mounting portion attached to the lower mold, a flat plate-like standing portion erected from the attachment portion, and a gauge portion that is provided on the standing portion and guides the descent of the steel sheet material;
A pendulum lever that is pivotally attached to the upright portion by a first rotation center portion, a tip holding portion projects inward from the gauge portion, and holds the steel sheet material;
A backup lever that is pivotally attached to the upright portion by a second rotation center portion, and a tip contact portion contacts the pendulum lever to hold the pendulum lever;
A backup stopper for restricting the rotation of the backup lever,
The backup lever has a weight portion for applying a force for holding the pendulum lever to the backup lever in a state where the rotation of the backup lever is regulated by the backup stopper.
The backup lever receives the force from the weight portion to hold the pendulum lever, and the gravity acting on the pendulum lever from the steel plate material is smaller than the force by which the backup lever holds the pendulum lever. The pendulum lever and the backup lever rotate by a force larger than the force with which the pendulum lever holds the steel plate material and the upper mold pushes down the steel plate material and the backup lever holds the pendulum lever. The pendulum gauge unit for a press apparatus is characterized in that the pendulum lever is configured to rotate by the force that the ejector moves and lifts the steel plate product after the press working (Claim 1).

  The above-mentioned pendulum gauge unit for the press device has a simple configuration using a gauge base, a pendulum lever, a backup lever, and a backup stopper, and the gravity acting on the pendulum lever from the steel plate material and the force that the backup lever holds the pendulum lever. The balance of the steel sheet material is used to hold the steel sheet material. In addition, the pendulum gauge unit has a structure in which the pendulum lever is held by another backup lever, so that the rotation range of the pendulum lever is expanded and the loading amount (mounting length) of the steel plate material on the pendulum lever is increased. As long as possible, the steel plate material can be retained, and the steel plate material can be lowered and the steel plate product can be raised stably.

Specifically, the pendulum gauge unit is used in the press apparatus as follows.
When holding the steel plate material above the lower mold, the steel plate material is placed on the tip holding portion of the pendulum lever. At this time, the steel plate material is held by the pendulum lever and the pendulum lever is held by the backup lever. That is, the gravity acting on the pendulum lever from the steel plate material is smaller than the force with which the backup lever holds the pendulum lever, whereby the posture of the pendulum lever is maintained and the steel plate material can be stably held. Further, the steel plate material can be positioned at a predetermined position above the lower mold by the gauge base gauge portion.
Next, the upper die is lowered, and the steel plate material placed on the pendulum lever is lowered to the lower die by the upper die. At this time, the force with which the upper mold pushes the steel plate material becomes larger than the force with which the backup lever holds the pendulum lever, and the pendulum lever and the backup lever rotate.

Next, after pressing the steel sheet material with the upper mold and the lower mold, the ejector lifts the pressed steel sheet product. Then, the steel plate product comes into contact with the pendulum lever from below, and the ejector lifts the steel plate product after press working, so that the pendulum lever rotates and the steel plate product passes through the gauge base of the gauge base and is taken out. .
As described above, in the pendulum gauge unit, the pivotable pendulum lever is held by the pivotable backup lever, so that the pivoting range of the pendulum lever can be expanded. Thereby, the length (mounting allowance) which mounts a steel plate raw material on a pendulum lever can be taken as long as possible, and the steel plate raw material can be held stably. Further, by expanding the rotation range of the pendulum lever, the steel plate product can be stably taken out from the lower mold.

  As described above, according to the pendulum gauge unit for the press device, without using a spring, by utilizing the balance between the gravity acting on the pendulum lever from the steel plate material and the force with which the backup lever holds the pendulum lever. The holding of the steel plate material, the lowering of the steel plate material and the rising of the steel plate product can be performed stably.

Cross-sectional explanatory drawing which shows the pendulum gauge unit concerning Example 1 which hold | maintains a steel plate raw material with a pendulum gauge and a backup gauge in the state seen from the side. Explanatory drawing which shows the pendulum gauge unit concerning Example 1 in the state seen from the center side of the lower mold | type. Explanatory drawing which shows the pendulum gauge unit concerning Example 1 in the state seen from the upper side of the lower mold | type. Explanatory drawing which shows the state which hold | maintains the steel plate raw material concerning Example 1 with several pendulum gauge units from the upper direction. Cross-sectional explanatory drawing which shows the pendulum gauge unit which received the force by the upper mold | type and steel plate raw material concerning Example 1, and the pendulum gauge and the backup gauge rotated from the side. Cross-sectional explanatory drawing which shows the pendulum gauge unit which shape | molded the steel plate product by the upper mold | type and the lower mold | type concerning Example 1, and the pendulum gauge and the backup gauge rotated to the original position seen from the side. Cross-sectional explanatory drawing which shows the state which looked at the pendulum gauge unit which the pendulum gauge rotated in response to the force by the ejector and steel plate product concerning Example 1 from the side. Cross-sectional explanatory drawing which shows the pendulum gauge unit concerning Example 2 which hold | maintains a steel plate raw material with a pendulum gauge and a backup gauge in the state seen from the side. Sectional explanatory drawing which shows the pendulum gauge unit which received the force by the upper mold | type and steel plate raw material concerning Example 2, and the pendulum gauge and the backup gauge rotated from the side. Cross-sectional explanatory drawing which shows the state which looked at the pendulum gauge unit which the pendulum gauge rotated in response to the force by the ejector and steel plate product concerning Example 2 from the side.

A preferred embodiment of the above-described pendulum gauge unit for a press apparatus will be described.
In the pendulum gauge unit for the press device, the pendulum lever is caused by its own weight around the first rotation center part of the center side pendulum part located on the center side of the lower mold with respect to the first rotation center part. The moment is larger than the moment due to the weight of the outer pendulum portion located outside the lower mold than the first rotation center portion around the first rotation center portion, and the backup lever includes the pendulum Positioned below the lever, the tip contact portion is configured to contact the center pendulum portion of the pendulum lever from below, and includes the tip contact portion and is more than the second rotation center portion. The moment of the center side arm portion located on the center side of the lower mold due to its own weight around the second rotation center portion is greater than that of the outer arm portion located outside the lower mold than the second rotation center portion. Second rotation Heart portion is smaller than the moment due to rotation of its own weight, the backup stopper may be disposed in a position to restrict the upward rotation of the central arm portion (claim 2).
In this case, the structure in which the pendulum lever is held from below by the backup lever can appropriately maintain the balance between the gravity acting on the pendulum lever from the steel plate material and the force by which the backup lever holds the pendulum lever.

In the pendulum lever, a moment due to its own weight around the first rotation center portion of the center-side pendulum portion located on the center side of the lower mold with respect to the first rotation center portion is the first rotation center. The outer pendulum portion located outside the lower mold is larger than the moment due to its own weight around the first rotation center portion, and the backup lever is located above the pendulum lever, A tip contact portion is configured to come into contact with the outer pendulum portion of the pendulum lever from above, and includes the tip contact portion and a center located on the center side of the lower mold with respect to the second rotation center portion. The moment due to the weight of the side arm portion around the second rotation center portion is due to the weight of the outer arm portion located outside the lower mold with respect to the second rotation center portion around the second rotation center portion. Greater than moment And Tsu, the backup stopper may be disposed in a position to restrict the downward rotation of the central arm portion (claim 3).
In this case, the structure in which the pendulum lever is held from above by the backup lever can appropriately maintain the balance between the gravity acting on the pendulum lever from the steel plate material and the force by which the backup lever holds the pendulum lever.

Hereinafter, embodiments of a pendulum gauge unit for a press apparatus will be described with reference to the drawings.
As shown in FIGS. 1 and 5, the pendulum gauge unit 1 of the present example is provided in a press device 6 having an upper die 61 that moves up and down, a lower die 62 that mates with the upper die 61, and an ejector 63 that rises from the lower die 62. The flat steel plate material 80 is held by being disposed above the lower mold 62.
The pendulum gauge unit 1 includes the following gauge base 2, pendulum lever 3, backup lever 4, and backup stopper 5.

  As shown in FIGS. 1 to 3, the gauge base 2 includes a mounting portion 21 attached to the lower mold 62, a flat plate-like standing portion 22 erected from the mounting portion 21, and a steel plate material provided on the standing portion 22. It has the gauge part 23 which guides 80 descent | fall. The pendulum lever 3 is rotatably attached to the standing portion 22 by the first rotation center portion 31, and the tip holding portion 321 protrudes inward from the gauge portion 23 to hold the steel plate material 80. Yes. The backup lever 4 is rotatably attached to the standing portion 22 by the second rotation center 41 and is configured such that the tip contact portion 421 contacts the pendulum lever 3 and holds the pendulum lever 3. The backup stopper 5 is configured to restrict its rotation when it comes into contact with the backup lever 4.

As shown in FIG. 1, the pendulum gauge unit 1 has the back lever 4 holding the pendulum lever 3, whereby the pendulum lever 3 holds the steel plate material 80, and the upper mold 61 holds the steel plate material 80 as shown in FIG. 5. The pendulum lever 3 and the backup lever 4 are rotated by the pressing force, and the pendulum lever 3 is rotated by the force by which the ejector 63 lifts the steel plate product 8 after the press work as shown in FIG.
1, FIG. 5 to FIG. 7 show the pendulum gauge unit 1 by a cross section viewed from the side. FIG. 2 shows the pendulum gauge unit 1 as viewed from the center side of the pressing device 6 (lower die 62). FIG. 3 shows the terminal gauge unit 1 as viewed from above.

Hereinafter, the pendulum gauge unit 1 for the press device 6 of this example will be described in detail with reference to FIGS.
FIG. 4 shows a state in which the steel plate material 80 is supported by the plurality of pendulum gauge units 1 as viewed from above.
As shown in the figure, the pendulum gauge unit 1 is disposed at a plurality of locations in the upper part of the lower die 62 of the pressing device 6 to perform positioning and holding the steel plate material 80. In the pressing device 6, when the steel plate material 80 is placed directly on the lower mold 62 depending on the shape of the steel plate product 8 to be formed, the bending / warping becomes large. Hold 80 once.
The pendulum gauge unit 1 is disposed in the lower mold 62 at a position where the steel plate material 80 is guided from both sides by the gauge portion 23 of the gauge base 2. The pendulum gauge unit 1 is disposed at four or more locations.

As shown in FIG. 5, the pressing device 6 forms a forming part for forming the steel plate product 8 on the upper surface 621 of the lower die 62 and the lower surface 611 of the upper die 61, and moves the upper die 61 up and down relative to the lower die 62. It is configured as follows. The press device 6 forms (presses) the steel plate product 8 by sandwiching the steel plate material 80 between the forming portion of the lower die 62 and the forming portion of the upper die 61.
An ejector 63 for lifting the steel plate product 8 after press forming is disposed at an appropriate position in the lower mold 62.

The pendulum gauge unit 1 is very easily formed by using metal parts utilizing the principle of the pendulum.
As shown in FIG. 1, the pendulum lever 3 can be freely rotated by arranging a rotation pin as the first rotation center portion 31 with respect to the bearing hole provided in the standing portion 22 of the gauge base 2. It is configured. In the pendulum lever 3, a moment due to its own weight around the first rotation center portion 31 of the center-side pendulum portion 32 located on the center side of the lower mold 62 with respect to the first rotation center portion 31 causes the first rotation center portion 31. It is larger than the moment by the dead weight around the 1st rotation center part 31 of the outer pendulum part 33 located in the outer side of the lower mold | type 62 rather than. The first rotation center portion 31 of this example is provided at the outer end portion of the pendulum lever 3, and the outer pendulum portion 33 is extremely short.

  The pendulum lever 3 is supported in the horizontal direction by receiving support from the backup lever 4 at the original position 301 on which the steel plate material 80 is placed. The pendulum lever 3 has a tip holding portion 321 protruding inward (center side of the lower die 62) from the gauge portion 23 of the gauge base 2 in a state where the pendulum lever 3 is maintained in the horizontal direction. The steel sheet material 80 whose position is guided by the gauge portion 23 is placed on the tip holding portion 321 of the pendulum lever 3 that protrudes inward from the center-side surface of the gauge portion 23.

As shown in FIGS. 1 to 3, the gauge base 2 is formed by erecting an upright portion 22 upward from a mounting portion 21 attached to the lower mold 62. The attachment portion 21 is attached to the upper portion of the lower mold 62 using screws or the like. The whole of the gauge portion 23 is formed in the vertical direction except for the upper end portion, and the upper end portion is formed to be bent obliquely outward so as to guide the steel plate material 80 to the center side of the lower mold 62. . The standing portions 22 of this example are provided as a pair on both sides of the gauge portion 23. The pair of standing portions 22 are formed in a state perpendicular to the gauge portion 23 and parallel to each other. The first rotation center portion 31 of the pendulum lever 3 and the second rotation center portion 41 of the backup lever 4 are supported by the pair of standing portions 22 in a both-side supported state.
The tip holding portion 321 of the pendulum lever 3 protrudes inward from the center side surface of the gauge portion 23 through a through hole 231 provided in the gauge portion 23.

As shown in FIG. 1, the backup lever 4 is disposed below the pendulum lever 3. The backup lever 4 is configured to be freely rotatable by arranging a rotation pin as the second rotation center portion 41 with respect to a bearing hole provided in the standing portion 22 of the gauge base 2.
In the backup lever 4, the moment due to its own weight around the second rotation center portion 41 of the center side arm portion 42 located closer to the center side of the lower mold 62 than the second rotation center portion 41 causes the second rotation center portion 41. It is smaller than the moment due to its own weight around the second rotation center portion 41 of the outer arm portion 43 positioned outside the lower mold 62.

In the backup lever 4, the tip contact portion 421 of the center side arm portion 42 is in contact with the center side pendulum portion 32 of the pendulum lever 3 from below. The center side arm part 42 is formed with the tip contact part 421 facing upward after being formed in the horizontal direction from the second rotation center part 41. The tip contact portion 421 is formed as a curved tip portion so as to stably contact the pendulum lever 3.
The outer arm portion 43 of this example includes a weight portion 44 that serves as a weight in order to generate a moment that is greater than the moment acting on the central arm portion 42 from the steel plate material 80 and the pendulum lever 3.

  As shown in FIG. 1, the backup stopper 5 is disposed at a position that restricts the upward rotation of the central arm portion 42 that receives the gravity of the outer arm portion 43. The backup stopper 5 receives the fact that when the backup lever 4 is at the original position 401, the moment due to the weight of the outer arm portion 43 is larger than the moment due to the weight of the center side arm portion 42. Is controlled so as not to rotate upward. The backup stopper 5 is constituted by a pin disposed on the attachment portion 21 of the gauge base 2.

When the steel plate material 80 is placed on the pendulum lever 3, the moment balance around the second rotation center 41 of the backup lever 4 is as follows.
As shown in FIG. 1, in the pendulum gauge unit 1, the moment due to the weight of the center side arm portion 42 and the pendulum lever 3 on which the steel plate material 80 is placed are balanced in the moment balance around the second rotation center portion 41. Compared with the sum of the moment acting on the center side arm portion 42, the moment due to the weight of the outer arm portion 43 is increased. The backup lever 4 is in a state where the center side arm portion 42 is in contact with the backup stopper 5, the tip contact portion 421 is in contact with the center side pendulum portion 32 of the pendulum lever 3 from below, and the pendulum lever 3 is moved to the original position. 301 is maintained.

  Although not shown, the gauge base 2 in any of the plurality of pendulum gauge units 1 used in the pressing device 6 is rotated by the steel plate material 80 when the steel plate material 80 is placed on the pendulum lever 3. And a switch that hits when the switch lever is rotated. In this case, it is possible to lower the upper mold 61 after confirming that the steel plate material 80 is disposed on the plurality of pendulum gauge units 1.

The pendulum gauge unit 1 is used in the press device 6 as follows.
As shown in FIGS. 1 and 4, when holding the steel plate material 80 above the lower mold 62, the steel plate material 80 is placed on the tip holding portion 321 of the pendulum lever 3 in the plurality of pendulum gauge units 1. . The weight of the steel plate material 80 is distributed and applied to the pendulum levers 3 of the plurality of pendulum gauge units 1.
In the plurality of pendulum gauge units 1, the steel plate material 80 is held by the pendulum lever 3 and the pendulum lever 3 is held by the backup lever 4. That is, the gravity acting on the plurality of pendulum levers 3 from the steel plate material 80 is smaller than the force with which each backup lever 4 holds each pendulum lever 3, so that the posture of each pendulum lever 3 is maintained at the original position 301, The steel plate material 80 can be stably held. Further, the steel plate material 80 can be positioned at a predetermined position above the lower mold 62 by the gauge portions 23 of the respective gauge bases 2.

  Next, as shown in FIG. 5, the upper die 61 is lowered, and the steel plate material 80 placed on the pendulum lever 3 in the plurality of pendulum gauge units 1 is lowered to the lower die 62 by the upper die 61. At this time, in each pendulum gauge unit 1, the force by which the upper mold 61 pushes the steel plate material 80 is larger than the force by which each backup lever 4 holds each pendulum lever 3, and each pendulum lever 3 and each backup lever 4. Rotates downward around the first rotation center portion 31 or the second rotation center portion 41.

  Then, as shown in FIG. 6, when the steel plate material 80 is lowered by the upper die 61 past the tip of the center side pendulum portion 32 of the pendulum lever 3, the pendulum lever 3 and the backup lever 4 are returned to their original positions 301 by gravity balance. , 401. When the upper die 61 is further lowered, the upper die 61 sandwiches the steel plate material 80 between the upper die 61 and the lower die 62, and the steel plate material 80 is pressed by the formed portion of the upper die 61 and the formed portion of the lower die 62. A shaped steel plate product 8 is formed.

  Next, as shown in FIG. 7, after pressing the steel plate material 80 with the upper die 61 and the lower die 62, the ejector 63 lifts the pressed steel plate product 8. Then, the steel plate product 8 comes into contact with the pendulum lever 3 from below, and the force of the ejector 63 lifting the pressed steel plate product 8 rotates the pendulum lever 3 so that the steel plate product 8 becomes the gauge of the gauge base 2. It passes through the section 23 and is taken out.

  Thus, in the pendulum gauge unit 1, the pivoting range of the pendulum lever 3 can be expanded by adopting a configuration in which the pivotable pendulum lever 3 is held by the pivotable backup lever 4. Thereby, the length (mounting allowance) L (refer FIG. 1) which mounts the steel plate raw material 80 on the pendulum lever 3 can be taken as long as possible, and the steel plate raw material 80 can be hold | maintained stably. Further, by expanding the rotation range of the pendulum lever 3, the steel plate product 8 can be stably taken out from the lower mold 62.

  According to the pendulum gauge unit 1 for the press device 6 of this example, the balance between the gravity acting on the pendulum lever 3 from the steel plate material 80 and the force with which the backup lever 4 holds the pendulum lever 3 can be achieved without using a spring. By using, the holding of the steel plate material 80, the lowering of the steel plate material 80, and the raising of the steel plate product 8 can be performed stably.

(Example 2)
In this example, the positional relationship between the pendulum lever 3 and the backup lever 4 is different from that of the first embodiment.
As shown in FIG. 8, the pendulum lever 3 of this example also has a moment due to its own weight around the first rotation center portion 31 of the center-side pendulum portion 32 located on the center side of the lower mold 62 relative to the first rotation center portion 31. However, it is larger than the moment due to the weight of the outer pendulum portion 33 located outside the lower mold 62 around the first rotation center portion 31 than the first rotation center portion 31. The pendulum lever 3 is configured to be freely rotatable by arranging a rotation pin as the first rotation center portion 31 with respect to a bearing hole provided in the standing portion 22 of the gauge base 2. The outer pendulum portion 33 of this example is formed as a portion with which the tip contact portion 421 of the backup lever 4 comes into contact.

  The backup lever 4 of this example is disposed above the pendulum lever 3, and the tip contact portion 421 is configured to contact the outer pendulum portion 33 of the pendulum lever 3 from above. The backup lever 4 is configured to be freely rotatable by arranging a rotation pin as the second rotation center portion 41 with respect to a bearing hole provided in the standing portion 22 of the gauge base 2. The backup lever 4 includes a tip contact portion 421 and a moment due to its own weight around the second rotation center portion 41 of the center side arm portion 42 located on the center side of the lower mold 62 relative to the second rotation center portion 41 is It is larger than the moment due to its own weight around the second rotation center portion 41 of the outer arm portion 43 positioned outside the lower mold 62 than the two rotation center portions 41. The center side arm portion 42 of this example has a weight portion 44 that serves as a weight in order to generate a moment larger than the moment acting on the center side arm portion 42 from the steel plate material 80 and the pendulum lever 3.

  As shown in FIG. 8, the backup stopper 5 is disposed at a position that restricts the downward rotation of the central arm portion 42. In response to the fact that the moment due to the weight of the center arm 42 is greater than the moment due to the weight of the outer arm 43, the backup stopper 5 restricts the center arm 42 from rotating downward. The backup stopper 5 is constituted by a pin disposed on the attachment portion 21 of the gauge base 2.

When the steel plate material 80 is placed on the pendulum lever 3, the moment balance around the second rotation center 41 of the backup lever 4 is as follows.
In the pendulum gauge unit 1, the moment due to the weight of the center side arm portion 42 and the pendulum lever 3 on which the steel plate material 80 is placed are moved to the center side arm portion 42 in the moment balance around the second rotation center portion 41. Compared with the sum of the acting moments, the moment due to the weight of the outer arm portion 43 is increased. The backup lever 4 is in a state in which the central arm portion 42 is in contact with the backup stopper 5, the tip contact portion 421 is in contact with the outer pendulum portion 33 of the pendulum lever 3 from above, and the pendulum lever 3 is moved to the original position 301. To maintain. Even when the steel plate material 80 is not placed on the pendulum lever 3, the pendulum lever 3 and the backup lever 4 can be balanced in the same manner as described above.

Also in this example, as shown in FIG. 9, as shown in FIG. 9, the pendulum lever 3 and the backup lever 4 are rotated by the lowering of the upper die 61, and the steel plate is interposed between the upper die 61 and the lower die 62. The steel plate product 8 is formed with the material 80 interposed therebetween. Thereafter, as shown in FIG. 10, the steel plate product 8 can be taken out from the lower mold 62 while the ejector 63 is raised and the steel plate product 8 rotates the pendulum lever 3.
Also in this example, other configurations are the same as those of the first embodiment, and the same effects as those of the first embodiment can be obtained.

DESCRIPTION OF SYMBOLS 1 Pendulum gauge unit 2 Gauge base 21 Mounting part 22 Standing part 23 Gauge part 3 Pendulum lever 31 1st rotation center part 32 Center side pendulum part 321 Tip holding part 33 Outer pendulum part 4 Backup lever 41 2nd rotation center part 42 Central side arm part 421 Tip contact part 43 Outer arm part 5 Backup stopper 6 Pressing device 61 Upper mold 62 Lower mold 63 Ejector 8 Steel plate product 80 Steel plate material

Claims (3)

Used in a press device having an upper mold movable up and down, a lower mold combined with the upper mold, and an ejector that rises from the lower mold, and is configured to hold a flat steel plate material disposed above the lower mold A pendulum gauge unit,
A gauge base having a mounting portion attached to the lower mold, a flat plate-like standing portion erected from the attachment portion, and a gauge portion that is provided on the standing portion and guides the descent of the steel sheet material;
A pendulum lever that is pivotally attached to the upright portion by a first rotation center portion, a tip holding portion projects inward from the gauge portion, and holds the steel sheet material;
A backup lever that is pivotally attached to the upright portion by a second rotation center portion, and a tip contact portion contacts the pendulum lever to hold the pendulum lever;
A backup stopper for restricting the rotation of the backup lever,
The backup lever has a weight portion for applying a force for holding the pendulum lever to the backup lever in a state where the rotation of the backup lever is regulated by the backup stopper.
The backup lever receives the force from the weight portion to hold the pendulum lever, and the gravity acting on the pendulum lever from the steel plate material is smaller than the force by which the backup lever holds the pendulum lever. The pendulum lever and the backup lever rotate by a force larger than the force with which the pendulum lever holds the steel plate material and the upper mold pushes down the steel plate material and the backup lever holds the pendulum lever. A pendulum gauge unit for a press device, wherein the pendulum lever is configured to rotate by a force that moves and the ejector lifts the pressed steel sheet product. Used in a press device having an upper mold movable up and down, a lower mold combined with the upper mold, and an ejector that rises from the lower mold, and is configured to hold a flat steel plate material disposed above the lower mold A pendulum gauge unit,
A gauge base having a mounting portion attached to the lower mold, a flat plate-like standing portion erected from the attachment portion, and a gauge portion that is provided on the standing portion and guides the descent of the steel sheet material;
A pendulum lever that is pivotally attached to the upright portion by a first rotation center portion, a tip holding portion projects inward from the gauge portion, and holds the steel sheet material;
A backup lever that is pivotally attached to the upright portion by a second rotation center portion, and a tip contact portion contacts the pendulum lever to hold the pendulum lever;
A backup stopper for restricting the rotation of the backup lever,
When the backup lever holds the pendulum lever, the pendulum lever holds the steel plate material, and the upper mold rotates the pendulum lever and the backup lever by a force pushing down the steel plate material, and the ejector Is configured to rotate the pendulum lever by the force to lift the steel plate product after pressing,
In the pendulum lever, a moment due to its own weight around the first rotation center portion of the center-side pendulum portion located closer to the center of the lower mold than the first rotation center portion is greater than the first rotation center portion. Is larger than the moment due to the weight of the outer pendulum part located outside the lower mold around the first rotation center part,
The backup lever is positioned below the pendulum lever, the tip contact portion is configured to contact the center pendulum portion of the pendulum lever from below, and includes the tip contact portion. The moment due to the self-weight around the second rotation center portion of the center side arm portion located on the center side of the lower mold with respect to the second rotation center portion is outside the lower mold than the second rotation center portion. It is smaller than the moment due to its own weight around the second rotation center part of the outer arm part located,
The pendulum gauge unit for a press apparatus, wherein the backup stopper is disposed at a position that restricts the upward rotation of the central arm portion. Used in a press device having an upper mold movable up and down, a lower mold combined with the upper mold, and an ejector that rises from the lower mold, and is configured to hold a flat steel plate material disposed above the lower mold A pendulum gauge unit,
A gauge base having a mounting portion attached to the lower mold, a flat plate-like standing portion erected from the attachment portion, and a gauge portion that is provided on the standing portion and guides the descent of the steel sheet material;
A pendulum lever that is pivotally attached to the upright portion by a first rotation center portion, a tip holding portion projects inward from the gauge portion, and holds the steel sheet material;
A backup lever that is pivotally attached to the upright portion by a second rotation center portion, and a tip contact portion contacts the pendulum lever to hold the pendulum lever;
A backup stopper for restricting the rotation of the backup lever,
When the backup lever holds the pendulum lever, the pendulum lever holds the steel plate material, and the upper mold rotates the pendulum lever and the backup lever by a force pushing down the steel plate material, and the ejector Is configured to rotate the pendulum lever by the force to lift the steel plate product after pressing,
In the pendulum lever, a moment due to its own weight around the first rotation center portion of the center-side pendulum portion located closer to the center of the lower mold than the first rotation center portion is greater than the first rotation center portion. Is larger than the moment due to the weight of the outer pendulum part located outside the lower mold around the first rotation center part,
The backup lever is positioned above the pendulum lever, the tip contact portion is configured to contact the outer pendulum portion of the pendulum lever from above, and includes the tip contact portion. A moment due to its own weight around the second rotation center portion of the center side arm portion located on the center side of the lower mold with respect to the rotation center portion is positioned outside the lower mold with respect to the second rotation center portion. A moment that is greater than the weight of the outer arm around the second rotation center,
The pendulum gauge unit for a press apparatus, wherein the backup stopper is disposed at a position that restricts downward rotation of the central arm portion.

Images