JP5759792B2 - Mold clamping device, molding machine, mold platen, mold clamping device control method, and mold platen control method - Google Patents

Description

  The present invention relates to a mold clamping device or a platen used in a molding machine such as an injection molding machine or a die casting machine, and a control method thereof.

  For example, in recent plastic lens molding, a level of accuracy that is one step higher than before is required. For example, in order to maintain the optical accuracy of the lens, the concentricity of the fixed mold and the movable mold is important. In order to satisfy these requirements, it is important to improve the precision of the mold, but it is necessary not only to devise the mold but also to improve the precision of the mold clamping device.

  In Patent Document 1, an inclination adjusting bolt 6 for adjusting the inclination of the die mounting surface of the fixed platen 1 with respect to the vertical axis is provided on the leg portion 4 for preventing the falling provided at the center bottom of the fixed platen 1. A mold clamping mechanism is disclosed. The leg portion 4 is provided on the back side (injection device side) of the fixed platen 1.

  Patent Document 2 discloses a parallelism adjusting mechanism that can correct the inclination of the moving platen 3 by moving the roller 12 provided at the lower part of the moving platen 3 back and forth by a single plate method. Yes.

  Patent Document 3 discloses a mold clamping apparatus in which a movable platen 31 is provided with an automatic alignment bearing 35 and a floating plate 81 to which the movable mold 35 is attached is attached to the movable platen 31 via the automatic alignment bearing 35. Has been.

JP 2007-253532 A JP-A-4-135705 JP 2004-243724 A

  There is a demand for further improvement in accuracy of the mold clamping device and the mold platen.

  An object of the present invention is to provide a mold clamping device, a molding machine, a mold platen, a mold clamping device control method, and a mold platen control method that can be adjusted with high accuracy.

In order to achieve the above object, a mold clamping device according to one embodiment of the present invention includes a panel member to which a mold is attached, a support member that supports the panel member, and a gap between the support member and the panel member. Provided , a drive unit capable of adjusting an inclination of the mold by moving an end portion of the panel surface member in a substantially horizontal direction, a measurement unit for detecting information on an angle of the panel surface member or the mold, And a control unit that operates the driving unit based on information from the measurement unit.

In order to achieve the above object, a method of controlling a mold clamping device according to one aspect of the present invention includes a panel member to which a mold is attached, a support member that supports the panel member, the support member, and the panel member. And a measuring unit that detects the information about the angle of the panel member or the mold by moving the end of the panel member in a substantially horizontal direction and adjusting the inclination of the mold. And controlling the drive unit based on information from the measurement unit.

  According to the present invention, the mold clamping device can be adjusted with high accuracy.

The side view which shows typically the mold clamping apparatus which concerns on the 1st Embodiment of this invention. The side view which shows the drive part which concerns on the 1st Embodiment of this invention. The side view which shows the modification of the drive part which concerns on the 1st Embodiment of this invention. The side view which shows the modification of the mold clamping apparatus which concerns on the 1st Embodiment of this invention. The side view which shows typically the mold clamping apparatus which concerns on the 2nd Embodiment of this invention. The side view which shows the drive part which concerns on the 3rd Embodiment of this invention.

  Hereinafter, embodiments will be described with reference to the drawings.

(First embodiment)
1 to 4 disclose a mold clamping device 1 according to a first embodiment of the present invention. As shown in FIG. 1, the mold clamping device 1 includes a frame 2, a fixed platen 3, and a moving platen 4. The frame 2 forms the base of the mold clamping device 1. A linear guide 5 is provided on the frame 2.

  The fixed platen 3 is an example of a first platen (first platen). A fixed mold 11 is attached to the fixed platen 3. The fixed mold 11 is an example of a first mold. The fixed platen 3 is fixed on the frame 2. The fixed platen 3 is, for example, a two-plate type platen, and includes a support member 12 (first die plate) and a plate surface member 13 (second die plate). The board member 13 is an example of a mold fixing member.

  The support member 12 is fixed on the frame 2. The support member 12 includes a first portion 14 that is substantially upright with respect to the frame 2, and a second portion 15 that protrudes from the lower end portion of the first portion 14 toward the moving plate 4. The first portion 14 has a first surface 14a that stands substantially vertically and faces the movable board 4, and a second surface 14b that is located on the opposite side of the first surface 14a. A board member 13 is attached to the first surface 14a. A part of the second portion 15 is located below the panel member 13.

  As shown in FIG. 1, the board member 13 is attached to the first portion 14 of the support member 12, and is cantilevered by the support member 12 while being floated from the frame 2. The board member 13 faces the moving board 4. The board member 13 is located above the second portion 15 of the support member 12. A space (gap) is provided between the board member 13 and the second portion 15 of the support member 12.

  In FIG. 1, the support member 12 includes a first portion 14 and a second portion 15 that are integrally formed. However, like the moving plate 4 described later, the first portion 14 and the second portion 15 are formed. You may form by the structure isolate | separated into two with the part 15. FIG. Further, the fixed platen 3 may not have the second portion 15 of the support member 12. That is, the second portion 15 may be eliminated and the drive unit 31 may be directly supported by the frame 2.

  The board surface member 13 has a first surface 13 a that faces the movable board 4, and a second surface 13 b that is located on the opposite side of the first surface 13 a and faces the support member 12. The first surface 13a is an example of a mold mounting surface. The fixed mold 11 is attached to the first surface 13 a of the board surface member 13 and faces the moving board 4.

  The movable board 4 is an example of a second template (second platen). A moving mold 21 is attached to the moving plate 4. The moving mold 21 is an example of a second mold. The movable platen 4 is placed on the linear guide 5 and can move forward and backward along the linear guide 5 in a direction approaching the fixed platen 3 and a direction away from the fixed platen 3. The movable platen 4 is moved back and forth with respect to the fixed platen 3 by, for example, a mold clamping cylinder or a toggle mechanism.

  The moving mold 21 faces the fixed mold 11. The movable mold 21 is combined with the fixed mold 11 by moving the movable platen 4 toward the fixed platen 3. By combining the movable mold 21 and the fixed mold 11, a space (cavity) corresponding to the product shape is formed between the movable mold 21 and the fixed mold 11.

  The movable platen 4 is a two-plate type platen substantially the same as the fixed platen 3 and includes a support member 22 (first die plate) and a plate surface member 23 (second die plate). The board member 23 is an example of a mold fixing member. The support member 22 includes a first member 24 and a second member 25. For convenience of explanation, the order is reversed, but the first member 24 is an example of the second portion of the support member 22. The second member 25 is an example of a first portion of the support member 22.

  As shown in FIG. 1, the first member 24 is provided along the linear guide 5 and is slidably attached to the linear guide 5. The second member 25 is placed on the first member 24 and is substantially upright with respect to the first member 24. The second member 25 has a first surface 25 a that stands substantially vertically and faces the fixed platen 3, and a second surface 25 b that is located on the opposite side of the first surface 25 a. A board member 23 is attached to the first surface 25a. A part of the first member 24 is located below the panel member 23. The first and second members 24 and 25 may be integrally formed.

  The board member 23 is attached to the second member 25 of the support member 22, and is cantilevered by the support member 22 in a state of floating from the frame 2 and the linear guide 5. The board member 23 faces the fixed board 3. The board member 23 is located above the first member 24 of the support member 22. A space (gap) is provided between the board member 23 and the first member 24 of the support member 22.

  The board surface member 23 has a first surface 23 a facing the fixed platen 3 and a second surface 23 b located on the opposite side of the first surface 23 a and facing the support member 22. The first surface 23a is an example of a mold mounting surface. The moving mold 21 is attached to the first surface 23 a of the plate surface member 23 and faces the fixed plate 3.

  As shown in FIG. 1, the mold clamping device 1 further includes a first drive unit 31, a second drive unit 32, a measurement unit 33, a control unit 34, and a setting unit 35.

  The first drive unit 31 is provided on the fixed platen 3 and is configured to be able to adjust the inclination of the fixed platen 3. The first drive unit 31 is provided, for example, below the board member 13. More specifically, the first drive unit 31 is provided between the second portion 15 of the support member 12 and the board surface member 13, and supports the board surface member 13 from below. The first drive unit 31 is an actuator that is automatically controlled by the control unit 34, for example. Moreover, the 1st drive part 31 may be provided between the flame | frame 2 and the board surface member 13, and you may make it support the board surface member 13 from the downward direction.

  FIG. 2 shows an example of the first drive unit 31. The first drive unit 31 includes a main body portion 41 (fixed portion) and a movable element 42 (movable portion) provided on the main body portion 41 and movable with respect to the main body portion 41. In the present embodiment, the main body 41 is fixed to the second portion 15 of the support member 12. The tip of the mover 42 abuts the panel member 13 from below and supports the panel member 13 from below. The mover 42 is movable in a substantially vertical direction (that is, up and down direction). For example, when the mover 42 moves toward the board surface member 13, the board surface member 13 is lifted. The first drive unit 31 in the present embodiment enables adjustment of the inclination of the fixed platen 3 by moving the mover 42 in the vertical direction from below the platen member 13. That is, the first drive unit 31 makes it possible to adjust the inclination of the fixed platen 3 by moving one end of the plate surface member 13 upward or downward.

  The first drive unit 31 may be installed upside down from the present embodiment. That is, the main body 41 may be fixed to the board member 13 and the tip of the movable element 42 may come into contact with the support member 12 from above. In this case, when the mover 42 moves toward the support member 12, the board member 13 is lifted. An example of the first drive unit 31 is a piezo-type actuator that can be remotely operated.

  As shown in FIG. 1, when the fixed mold 11 is attached to the fixed plate 3 (that is, both or one of the support member 12 and the plate surface member 13), the fixed plate 11 is moved toward the fixed mold 11 by its own weight. Tilt (see arrow A in FIG. 1). The first drive unit 31 is provided on the same side as the board member 13 with respect to the support member 12. The first drive unit 31 moves the stationary platen 3 (that is, both or one of the support member 12 and the panel surface member 13) inclined to the stationary mold 11 side by its own weight of the stationary die 11 attached to the stationary platen 3, It supports from the inclined side.

  The 2nd drive part 32 is provided in the movable board 4, and is comprised so that adjustment of the inclination of the movable board 4 is possible. The second drive unit 32 is provided below the panel member 23, for example. More specifically, the second drive unit 32 is provided between the first member 24 of the support member 22 and the board surface member 23, and supports the board surface member 23 from below. The second drive unit 32 is an actuator that is automatically controlled by the control unit 34, for example.

  The configuration of the second drive unit 32 is substantially the same as the configuration of the first drive unit 31. That is, the second drive unit 32 includes a main body 41 (fixed portion) and a movable element 42 (movable portion) that is provided on the main body 41 and is movable with respect to the main body 41. In the present embodiment, the main body 41 is fixed to the first member 24 of the support member 22. The tip of the mover 42 abuts on the board surface member 23 from below and supports the board surface member 23 from below. The mover 42 is movable in the substantially vertical direction (that is, the vertical direction) toward the board member 23. For example, when the mover 42 moves toward the board surface member 23, the board surface member 23 is lifted. The second drive unit 32 in the present embodiment makes it possible to adjust the inclination of the movable board 4 by moving the mover 42 in the vertical direction from below the board surface member 23. That is, the second drive unit 32 makes it possible to adjust the inclination of the movable panel 4 by moving one end of the panel member 23 upward or downward.

  The second drive unit 32 may be installed upside down from the present embodiment. That is, the main body 41 may be fixed to the board member 23 and the tip of the movable element 42 may come into contact with the support member 22 from above. In this case, when the mover 42 moves toward the support member 22, the board member 23 is lifted. An example of the second drive unit 32 is a piezo-type actuator that can be remotely operated.

  As shown in FIG. 1, the movable platen 4 (that is, either or both of the support member 22 and the plate surface member 23) is moved to the movable die 21 side by the weight of the movable die 21 when the movable die 21 is attached. Tilt (see arrow B in FIG. 1). The second drive unit 32 is provided on the same side as the board member 23 with respect to the support member 22. The second drive unit 32 moves the moving plate 4 (that is, either or both of the support member 22 and the plate surface member 23) inclined to the moving mold 21 side by its own weight of the moving die 21 attached to the moving plate 4. It supports from the inclined side.

  As shown in FIG. 1, the mold clamping device 1 is configured to detect information related to the angle of the fixed platen 3 (or the angle of the fixed die 11) and the angle of the movable platen 4 (or the angle of the movable die 21). Have Since “the angle of the stationary platen 3” and “the angle of the stationary mold 11” are substantially the same (substantially correspond), only the “angle of the stationary platen 3” will be described below. Although these will be described with reference to these, they may be read as “the angle of the fixed mold 11”. Similarly, since “the angle of the moving plate 4” and “the angle of the moving mold 21” are substantially the same (to substantially correspond), only the “angle of the moving plate 4” will be described below. However, these can be read as “the angle of the moving mold 21” and applied.

  In addition, the “angle of the fixed platen 3” is the angle of the platen surface member 13 in this embodiment, but the angle of the support member 12 may be used instead. Similarly, “the angle of the moving board 4” is the angle of the board member 23 in this embodiment, but the angle of the support member 22 may be used instead.

  The measuring unit 33 may measure the angle of the fixed platen 3 and the angle of the movable platen 4 directly or indirectly, or detects another element related to the movement of the fixed platen 3 and the movable platen 4 and fixes it from the elements. The angle of the board 3 and the angle of the moving board 4 may be determined (calculated).

  That is, the “information relating to the angle” is not limited to the angles of the fixed platen 3 and the movable platen 4 itself, but may be positional information of the fixed platen 3 and the movable platen 4 or movement information (angular velocity, angular acceleration, force), etc. Any information may be used as long as the control unit 34 can know the state relating to the inclination of the fixed platen 3 and the movable platen 4 based on the information.

  The measurement unit 33 includes a first measurement device 51 and a second measurement device 52. The first measuring device 51 is an angle sensor (tilt sensor) attached to the fixed platen 3 and detects information related to the angle of the fixed platen 3. More specifically, the first measuring device 51 is attached to the plate surface member 13 of the fixed platen 3 and measures the inclination of the plate surface member 13 (angle information of the plate surface member 13, that is, the inclination of the fixed mold 11). Further, the first measuring device 51 may be attached to the fixed mold 11.

  The second measuring device 52 is an angle sensor (tilt sensor) attached to the movable board 4 and detects information related to the angle of the movable board 4. More specifically, the second measuring device 52 is attached to the board member 23 of the movable board 4 and measures the inclination of the board member 23 (angle information of the board member 23, that is, the inclination of the movable mold 21). Further, the second measuring device 52 may be attached to the movable mold 21. The first and second measuring devices 51 and 52 are electrically connected to the control unit 34, respectively, and send information related to the inclinations of the fixed platen 3 and the movable platen 4 measured to the control unit 34.

  The setting unit 35 is, for example, a human machine interface (HMI). The operator can input commands relating to the operation of the first and second drive units 31 and 32 to the control unit 34 through, for example, the controller screen of the setting unit 35. An example of information that can be input through the setting unit 35 is, for example, the displacement amount of the actuators of the first and second drive units 31 and 32, the mold parallelism or the concentricity tolerance according to the product, and the like. However, it is not limited to these.

  As shown in FIG. 1, the control unit 34 is electrically connected to the first and second drive units 31 and 32. The control unit 34 sends drive signals to the first and second drive units 31 and 32 to operate the first and second drive units 31 and 32. For example, after the fixed mold 11 and the movable mold 21 are attached to the fixed platen 3 and the movable platen 4, respectively, the control unit 34, for example, the fixed platen 3 and the movable platen 4 due to the dead weight of the fixed mold 11 and the movable mold 21. Based on the information obtained from the measurement unit 33, the first and second drive units 31 and 32 are operated so as to eliminate the tilting.

  More specifically, the control unit 34 calculates the parallelism between the fixed mold 11 and the movable mold 21 from information on the inclination of the fixed platen 3 and the inclination of the movable platen 4 obtained from the measuring unit 33, for example. The control unit 34 compares the calculated parallelism with, for example, an allowable value of parallelism according to a product input in advance. The control unit 34 is configured to maintain the parallelism between the fixed mold 11 and the movable mold 21, that is, so that the parallelism between the fixed mold 11 and the movable mold 21 falls within a predetermined allowable value according to the product. The first and second drive units 31 and 32 are controlled.

  For example, the control unit 34 calculates the concentricity of the fixed mold 11 and the movable mold 21 from information on the inclination of the fixed platen 3 and the inclination of the movable platen 4 obtained from the measuring unit 33. In order to improve the accuracy of concentricity, a detector for concentricity may be provided separately. In that case, for example, the control unit 34 determines the fixed mold from the information about the inclination of the fixed platen 3 and the inclination of the movable platen 4 obtained from the measuring unit 33 and the measurement value obtained from the concentricity detector. 11 and the concentricity of the moving mold 21 are calculated. The control unit 34 compares the calculated concentricity with an allowable value of concentricity according to, for example, a product input in advance. The control unit 34 controls the first and second drive units 31 and 32 so that the concentricity of the fixed mold 11 and the movable mold 21 falls within a predetermined allowable value according to the product.

Next, an example of the operation of the mold clamping device 1 will be described.
When the fixed mold 11 is attached to the fixed platen 3, the fixed platen 3 is tilted by its own weight (see arrow A in FIG. 1). Further, when the movable mold 21 is attached to the movable board 4, the movable board 4 is tilted by its own weight (see arrow B in FIG. 1). Further, when the fixed mold 11 and the movable mold 21 are replaced with different molds having different weights, the inclinations of the fixed plate 3 and the movable plate 4 change.

  The inclinations of the fixed platen 3 and the movable platen 4 are measured by the first and second measuring devices 51 and 52. Information regarding the inclination of the fixed platen 3 and the movable platen 4 is sent from the first and second measuring devices 51 and 52 to the control unit 34. The control unit 34 operates the first and second drive units 31 and 32 based on information obtained from the first and second measurement devices 51 and 52. The first and second driving units 31 and 32 move the mover 42 in the vertical direction so as to eliminate the inclination (falling) of the fixed platen 3 and the movable platen 4 (see arrows C and D in FIG. 1). . That is, when the mold is newly installed or replaced with a heavier mold than before, the fixed plates 3 and 4 are inclined in the directions of arrows A and B, so the movable element 42 is moved upward, The board surface members 13 and 23 are lifted. On the other hand, when the mold is replaced with a lighter mold than before, the movable element 42 is moved downward to adjust the inclination of the panel members 13 and 23.

  When the mover 42 of the first and second drive units 31 and 32 moves in the vertical direction, the inclination of the fixed platen 3 and the movable platen 4 changes. The inclinations of the fixed platen 3 and the movable platen 4 after the change are measured again by the first and second measuring devices 51 and 52, and the measurement information is sent to the control unit 34. The control unit 34 drives the first and second drive units 31 and 32 again based on the remeasurement information obtained from the first and second measurement devices 51 and 52, and the fixed platen 3 and the movable platen Adjust the inclination of 4.

  More specifically, the control unit 34 determines whether the inclination of the fixed platen 3 and the inclination of the moving platen 4 or the measured values obtained from the detectors for the concentricity of the inclination of the fixed platen 3 and the inclination of the moving platen 4 are as follows: The parallelism and / or concentricity with respect to the fixed mold 11 and the movable mold 21 are calculated. The control unit 34 compares the calculated parallelism and / or concentricity with an allowable value set in advance in the control unit 34. The control unit 34 repeats the series of operations until either or both of the parallelism and concentricity calculated from the inclination of the fixed platen 3 and the inclination of the movable platen 4 are equal to or less than a predetermined allowable value. When the parallelism and / or the concentricity calculated from the inclination of the fixed platen 3 and the inclination of the movable platen 4 are equal to or less than a predetermined allowable value, the first and second drive units 31 and 32 Stop driving. Thereby, the automatic correction of the inclination of the fixed platen 3 and the movable platen 4 is performed.

  In addition, the case where the first and second driving units 31 and 32 are provided below the board surface members 13 and 23 has been described so far, but the present embodiment is not limited thereto. As shown in FIG. 4, the first drive unit 31 is, for example, above (end part) or below (end part) the first portion 14 of the support member 12, and the first surface of the board member 13 and the support member 12. It may be provided between the portion 14. For example, when the first drive unit 31 is provided between the board surface member 13 and the first portion 14 of the support member 12 below (the end portion) of the first portion 14 of the support member 12. The mover 42 of the first drive unit 31 is mounted between the panel member 13 and the first portion 14 of the support member 12 in the same manner as described above, and is substantially horizontal (the mold opening / closing direction (left-right direction)). ) Can be moved.

  When the fixed mold 11 is attached to the fixed platen 3, the inclination of the fixed platen 3 is measured by the first measuring device 51, and the measurement information is sent to the control unit 34. Based on the measurement information, the control unit 34 can move the first driving unit 31 so as to eliminate the inclination (falling) of the stationary platen 3 (particularly, to eliminate the inclination (falling) of the surface member 13 of the stationary platen 3). The child 42 is moved in the horizontal direction (mold opening / closing direction). As a result, the inclination of the fixed platen 3 (particularly the plate member 13 of the fixed platen 3) is automatically corrected. The first drive unit 31 is provided between the board surface member 13 and the first portion 14 of the support member 12, for example, above (the end portion) of the first portion 14 of the support member 12. The same applies to the case.

  Similarly, the second drive unit 32 is, for example, above (end part) or below (end part) the second member 25 of the support member 22 and the board member 23 and the second member 25 of the support member 22. As for the action, automatic correction of the inclination of the movable platen 4 (particularly the plate member 23 of the movable platen 4) is performed by performing the same operation as that of the first drive unit 31. Is done.

  In addition, the modification which arrange | positions the drive parts 31 and 32 in the substantially horizontal direction as mentioned above is applicable also to the 2nd and 3rd embodiment mentioned later, respectively.

  According to the mold clamping apparatus 1 having such a configuration, for example, the parallelism and concentricity of the molds 11 and 21 can be adjusted with high accuracy. That is, the mold clamping apparatus 1 according to the present embodiment includes mold plates 3 and 4 to which the molds 11 and 21 are attached, drive units 31 and 32 that can adjust inclinations of the mold plates 3 and 4, and mold plates 3 and 4. A measurement unit 33 that detects information on the angle of the control unit 34 and a control unit 34 that operates the drive units 31 and 32 based on the information obtained from the measurement unit 33.

  According to this configuration, the drive units 31 and 32 are operated based on the measurement information of the measurement unit 33, and the inclination (falling) of the mold plates 3 and 4 is automatically corrected, for example. That is, since adjustment is performed based on the result measured by the measurement unit 33, the parallelism and concentricity of the molds 11 and 21 can be adjusted with high accuracy. According to the said structure, compared with the case where the inclination of the template 3 and 4 is adjusted manually, the precision, such as the parallelism of the metal mold | die 11 and 21, concentricity, etc., can be improved. According to the above configuration, the parallelism and concentricity of the molds 11 and 21 can be adjusted, for example, at the nano level. Furthermore, since the inclination of the mold plates 3 and 4 is automatically adjusted by the drive units 31 and 32, for example, adjustment during operation (during molding operation) is possible.

  In the present embodiment, the stationary platen 3 to which the stationary mold 11 is attached, the movable platen 4 to which the movable die 21 is attached, the first drive unit 31 capable of adjusting the inclination of the stationary platen 3, It has the 2nd drive part 32 which can adjust inclination, the measurement part 33 which detects the information regarding the angle of the fixed board 3, and the angle of the moving board 4, and the control part 34. The control unit 34 attaches the fixed mold 11 and the movable mold 21 to the fixed platen 3 and the movable platen 4, respectively, and then the fixed platen 3 and the movable platen 4 fall down due to the weight of the fixed mold 11 and the movable mold 21. The first drive unit 31 and the second drive unit 32 are operated based on the information obtained from the measurement unit 33.

  According to such a configuration, the inclination of the movable platen 4 and the fixed platen 3 can be corrected regardless of the weight of the molds 11 and 21. Furthermore, by adjusting the inclination of both the fixed platen 3 and the movable platen 4, the parallelism and concentricity of the fixed mold 11 and the movable mold 21 can be adjusted with higher accuracy.

  Further, the present invention is not limited to one that suppresses the collapse of the mold platen due to its own weight. The present invention can also be applied to the case where the stationary mold 11 or the stationary platen 3 is inclined due to, for example, thermal expansion of the stationary mold 11 or the stationary platen 3 during the molding operation. Alternatively, automatic correction of the inclination of the fixed platen 3 can be performed. As a result, in the present embodiment, it is possible to suppress the influence due to the thermal expansion of the fixed mold 11 and the fixed platen 3 during the molding operation. Further, substantially the same effect can be expected for the movable platen 4 and the movable mold 21.

  In the present embodiment, since the drive units 31 and 32 can directly adjust the inclination of the mold mounting members (board surface members 13 and 23), for example, compared with a configuration such as that disclosed in Japanese Patent Application Laid-Open No. 2007-253532. , Easy to produce parallelism and concentricity. This also applies to the case where the first and second drive units 31 and 32 are attached between the board members 13 and 23 and the support members 12 and 22 as shown in FIG.

  In the configuration disclosed in Japanese Patent Laid-Open No. 2007-253532, the adjustment bolt 6 is provided on the back side of the fixed platen 1, but a nozzle touch mechanism is often mounted on the back side of the fixed platen 1. If ribs (legs) are provided, there is a possibility that they will get in the way. In addition, strength is required.

  On the other hand, in this embodiment, since the adjustment means is provided on the front side (die side) of the platen, the tilt adjustment device can be reduced in size. Further, since the plate surface members 13 and 23 are directly supported, there is no need to provide ribs (leg portions) on the platen.

  In the present embodiment, the fixed platen 3 has a plate surface member 13 to which the fixed mold 11 is attached. The first drive unit 31 includes a mover 42 that is movable in a substantially vertical direction, is provided below the panel surface member 13, and supports the panel surface member 13 from below. According to this configuration, the panel member 13 that is about to fall down can be pushed up (lifted) directly by the first drive unit 31 in the direction opposite to the direction of the fall, so that the fixed plate 3 Can be adjusted with higher accuracy. In the present embodiment, substantially the same effect can be expected for the movable board 4.

  In the present embodiment, the fixed platen 3 has a plate surface member 13 to which the fixed mold 11 is attached. The first drive unit 31 has a mover 42 that can move in a substantially horizontal direction, and is supported from at least either the upper or lower side of the panel member 13. According to this configuration, by automatically controlling the first drive unit 31, it is possible to prevent the board surface member 13 that is about to fall down from falling down. The inclination of the board member 13 of the board 3 can be adjusted with higher accuracy. As a result, the parallelism of the fixed mold 11 can be maintained. In the present embodiment, substantially the same effect can be expected for the movable board 4.

  In the present embodiment, the fixed platen 3 is a two-plate type having a platen surface member 13 and a support member 12 mounted on the frame 2 and supporting the platen surface member 13. Here, since the fixed platen 3 itself undergoes a certain elastic deformation due to its own weight, the fixed die 11 is not directly attached to the inclination of the support member 12 to which the fixed die 11 is not directly attached. The inclination of the board member 13 to be attached increases. In the present embodiment, since the first drive unit 31 directly supports the plate member 13 whose inclination is larger than that of the support member 12, the inclination of the fixed platen 3 can be adjusted with higher accuracy. . In the present embodiment, substantially the same effect can be expected for the movable board 4. Moreover, the space supported to the lower side of a board | plate surface member can be provided by using a 2 plate system.

  In the present embodiment, the first drive unit 31 is provided on the same side as the board member 13 with respect to the support member 12. The support member 12 is inclined toward the fixed mold 11 due to the weight of the fixed mold 11. For this reason, the 1st drive part 31 can support the stationary platen 3 from the inclination side. For this reason, the inclination of the fixed platen 3 can be adjusted with higher accuracy. In the present embodiment, substantially the same effect can be achieved with respect to the movable board 4.

  In the present embodiment, the first and second measuring devices 51 and 52 are angle sensors, respectively. According to this configuration, the measuring unit 33 that measures the tilt of the fixed platen 3 and the tilt of the movable platen 4 can have a relatively simple configuration.

  The pattern board 3 of this embodiment is provided with a board surface member 13 to which the mold 11 is attached, a support member 12 that supports the board surface member 13, and the support member 12, and a drive that can adjust the inclination of the board surface member 13. And a control unit 34 that operates the drive unit 31 based on information from the measurement unit 33. The measurement unit 33 detects information related to the inclination of the panel member 13 or the mold 11.

  Similarly, in the pattern board 4 of the present embodiment, the board surface member 23 to which the mold 21 is attached, the support member 22 that supports the board surface member 23, and the support member 22 are provided, and the inclination of the board surface member 23 can be adjusted. It has a drive unit 32, a measurement unit 33 that detects information related to the inclination of the board member 23 or the mold 21, and a control unit 34 that operates the drive unit 32 based on information from the measurement unit 33.

  According to the pattern boards 3 and 4 having such a configuration, the drive units 31 and 32 are independently operated based on the measurement information of the measurement unit 33, and the inclination (falling) of the pattern boards 3 and 4 is, for example, independent. Automatically corrected. That is, since each of the molds 3 and 4 is adjusted based on the result measured by the measuring unit 33, the parallelism of each of the molds 11 and 21 can be adjusted with high accuracy. According to the above configuration, for example, the accuracy of the parallelism of the molds 11 and 21 can be improved as compared with the case where the inclinations of the mold plates 3 and 4 are manually adjusted. According to the said structure, the parallelism of each metal mold | die 11 and 21 can be adjusted at a nano level, for example. Furthermore, since the inclination of the mold plates 3 and 4 is automatically adjusted by the drive units 31 and 32, for example, adjustment during operation (during molding operation) is possible. Further, other effects can be obtained as in the case of the mold clamping device.

  Since each of the fixed platen 3 and the movable platen 4 can be controlled so as to eliminate the inclination, for example, the parallelism of the molds 11 and 21 can be adjusted with high accuracy.

  FIG. 3 shows one modification of the first and second drive units 31 and 32. As shown in FIG. 3, the first and second drive units 31 and 32 may be jacks that support the fixed platen 3 or the movable platen 4 instead of the actuator. The jack can be automatically operated via a separate motor (not shown) based on a drive signal sent from the control unit 34 using a separate motor (not shown). That is, even in a form using a jack, adjustment during operation (during molding operation) is possible. Moreover, there are various jack driving methods such as mechanical (screw type), liquid actuated (hydraulic), and pneumatic, but the present invention is not particularly limited, and any driving method may be adopted.

  The first and second measuring devices 51 and 52 are not limited to the above-described embodiment. For example, instead of the angle sensor, a level meter, a speed sensor that can measure angular velocity, an acceleration sensor that measures angular acceleration, and force A sensor may be used. That is, the measurement unit 33 may be a measurement unit that can obtain an angle from at least one of general angle information (angle, angular velocity, acceleration, force). However, when a speed sensor, an acceleration sensor, or a force sensor is used as the first and second measuring devices 51 and 52, the information obtained from the first and second measuring devices 51 and 52 is stored in the control unit 34. The first and second drive units 31 and 32 may be driven after performing an operation such as integration in order to convert the angle information into easy-to-handle angle information.

(Second Embodiment)
Next, a mold clamping device 1 according to a second embodiment will be described with reference to FIG. In addition, the same code | symbol is attached | subjected to the structure which has the same or similar function as the structure of the said 1st Embodiment, and the description is abbreviate | omitted. The configurations other than those described below are the same as those in the first embodiment.

  The measuring unit 33 of the mold clamping device 1 according to the present embodiment has a vision sensor instead of the angle sensor. More specifically, the measurement unit 33 includes a first measurement device 51 and a second measurement device 52. The first measuring device 51 is a vision sensor (for example, a camera or a video camera) corresponding to the fixed platen 3 and detects information related to the angle of the fixed platen 3. More specifically, the first measuring device 51 photographs the state of the plate surface member 13 of the fixed platen 3 and measures the inclination of the plate surface member 13 (that is, the inclination of the fixed mold 11).

  The second measuring device 52 is a vision sensor (for example, a camera or a video camera) corresponding to the moving board 4 and detects information related to the angle of the moving board 4. More specifically, the second measuring device 52 photographs the state of the board member 23 of the movable board 4 and measures the inclination of the board member 23 (that is, the inclination of the movable mold 21). The first and second measuring devices 51 and 52 are electrically connected to the control unit 34, respectively, and send information related to the inclinations of the fixed platen 3 and the movable platen 4 measured to the control unit 34. The control unit 34 automatically corrects the inclination of the fixed platen 3 and the movable platen 4 using information obtained by the vision sensor.

  According to such a configuration, as in the first embodiment, for example, the parallelism and concentricity of the molds 11 and 21 can be adjusted with high accuracy. In the present embodiment, the first and second drive units 31 and 32 may be jacks that support the fixed platen 3 or the movable platen 4 instead of the actuator.

(Third embodiment)
Next, a mold clamping device 1 according to a third embodiment will be described with reference to FIG. In addition, the same code | symbol is attached | subjected to the structure which has the same or similar function as the structure of the said 1st Embodiment, and the description is abbreviate | omitted. The configurations other than those described below are the same as those in the first embodiment.

  As shown in FIG. 6, the first and second drive units 31 and 32 according to the present embodiment have screw-type actuators instead of piezo-type actuators. The adjustment of the displacement of the screw type actuator may be performed manually, for example, or may be automatically performed based on a signal from the control unit 34 by interlocking with a motor (not shown).

  According to such a configuration, as in the first embodiment, for example, the parallelism and concentricity of the molds 11 and 21 can be adjusted with high accuracy. Also in this embodiment, the first and second drive units 31 and 32 may be jacks that support the fixed platen 3 or the movable platen 4 instead of the actuators, and both manual and automatic operations are possible even in the case of a jack. Can be performed. Also in this embodiment, it goes without saying that a vision sensor can be adopted instead of the angle sensor as in the second embodiment.

  The mold clamping apparatus 1 according to the first to third embodiments described above can be widely used not only for injection molding machines but also for die casting machines, compression molding machines (press molding machines), transfer molding machines, and the like. .

  The configuration according to the first to third embodiments of the present invention has been described above, but the present invention is not limited to these. The components according to each embodiment can be implemented in appropriate combination. Further, the present invention can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage.

  For example, the number of actuators and jacks provided in the first and second drive units 31 and 32 may be one or more, respectively. When sufficient parallelism and concentricity can be obtained by adjusting the tilt of only one of the fixed platen 3 and the movable platen 4, the drive for adjusting the tilt of only one of the movable platen 4 and the fixed platen 3 A part may be provided. The 1st and 2nd drive parts 31 and 32 are not limited to what is provided in the lower part of the fixed board 3 and the moving board 4, You may provide in another place. The fixed platen 3 and the movable platen 4 are not limited to the two-plate type, and may be a single-plate type, respectively.

  In the case of this single plate method, for example, the molds 11 and 21 are attached to the first portion 14 of the support member 12 of the fixed platen 3 or the second member 25 of the support member 22 of the movable platen 4. . Therefore, in the case of the single plate system, the drive units 31 and 32 are supported at one end by the second portion 15 of the support member 12 of the fixed platen 3 or the first member 24 of the support member 22 of the movable platen 4. Then, the other end may be in contact with the fixed mold 11 or the movable mold 21 and the inclination of the molds 11 and 21 may be directly adjusted. From the viewpoint of mold protection, a protection member such as a plate may be attached to the molds 11 and 21, and the protection member may be in contact with the drive units 31 and 32. Conversely, a protective member such as a plate may be attached to the movable element 42 side of the drive units 31 and 32 so that the protective member abuts against the fixed mold 11 or the movable mold 21.

  The first measuring device 51 and the second measuring device 52 of the measuring unit 33 are the first member 14 of the support member 12 of the fixed platen 3 or the second member 25 of the support member 22 of the movable platen 4. Or you may comprise so that it may attach to the metal mold | die 11 and 21. FIG. That is, the mold platen 3 in the case of the single plate method includes a mold 11, a support member 12 that supports the mold 11, a drive unit 31 that can adjust the inclination of the mold 11, and the support member 12 or the mold. 11 includes a measuring unit 33 that detects information on the inclination of 11 and a control unit 34 that operates the driving unit 31 based on information from the measuring unit 33. In addition, a similar configuration is possible for the mold platen 4 in the case of the single plate system. With such a configuration, it is possible to have the same effect as the above-described mold platen in the case of the two-plate method. Further, the change in the case of the single plate described above can be adopted with respect to the first embodiment, the second embodiment, and the third embodiment shown in the case of the two plate system. Further, for a modification of the first embodiment in the case of the single plate system, for example, the first portion 14 of the support member 12 of the fixed platen 3 or the second part of the support member 22 of the movable platen 4 is used. What is necessary is just to provide a protrusion part in the member 25 of this. That is, the molds 11 and 21 may be attached to the protrusion of the first portion 14 of the support member of the fixed platen 3 or the protrusion of the second member 25 of the support member 22 of the movable platen 4. The drive units 31 and 32 are, for example, between the first portion 14 of the support member 12 of the stationary platen 3 provided by the protruding portion and the mold 11 or the second member of the support member 22 of the movable platen 4. What is necessary is just to provide between the member 25 and the metal mold | die 21. FIG. Also, in the case of the mold clamping device in the case of the single plate method, the same effect as the mold clamping device in the case of the two plate method is obtained by using the respective mold plates 3 and 4 to which the present invention is applied. Can do.

  As described above, in the mold platen and the mold clamping device in the case of the single plate method, those shown in the first embodiment, the modified example of the first embodiment, the second embodiment, and the third embodiment A similar configuration can be applied, and as a result, even in the case of the single plate method, the respective effects obtained in the case of the above-described two plate method can be obtained.

At least one of the first and second measuring devices 51 and 52 may be an angle sensor or a vision sensor, and both need not be an angle sensor or a vision sensor. The first and second measuring devices 51 and 52 may be sensors other than the angle sensor and the vision sensor, respectively. The measurement unit 33 does not require the first and second measurement devices 51 and 52 to be clearly separated, and can measure the inclination of the fixed platen 3 and the inclination of the movable platen 4 simultaneously with one measurement device. But you can. Further, in this specification, for convenience of explanation, the members on the fixed platen and the fixed mold side are the first side members, and the members on the movable platen and the movable mold side are the second side members. Is not limited to this. That is, the present invention may apply the member on the moving plate and moving mold side as the first side member, and the member on the fixed plate and fixed mold side as the second side member. That is, the movable board 4 is an example of a “first mold board”, the movable mold 21 is an example of a “first mold”, and the drive unit 32 is an example of a “first drive part”. . The fixed platen 3 is an example of a “second platen”, the fixed die 11 is an example of a “second die”, and the drive unit 31 is an example of a “second drive unit”. .
Hereinafter, the invention described in the scope of claims at the beginning of the application of the present application will be added.
[1]
A first mold plate to which a first mold is attached;
A second mold plate to which a second mold facing the first mold is attached;
A first driving unit provided on the first template and capable of adjusting an inclination of the first template;
A second driving unit provided on the second template and capable of adjusting an inclination of the second template;
A measuring unit for detecting information on the angle of the first mold plate or the first mold and the angle of the second mold plate or the second mold;
A control unit that operates the first drive unit and the second drive unit based on information from the measurement unit so as to eliminate the falling of the first template and the second template; and
A mold clamping device comprising:
[2]
In the description of [1],
The mold clamping apparatus, wherein the control unit controls the first drive unit and the second drive unit so as to maintain parallelism between the first mold and the second mold.
[3]
In the description of [1] or [2],
At least the first mold platen has a plate surface member to which the first mold is attached,
At least the first drive unit has a movable unit movable in a substantially vertical direction, is provided below the panel surface member, and moves one end of the panel surface member upward or downward. A mold clamping apparatus, wherein the inclination of the first mold platen is adjustable.
[4]
In the description of [1] or [2],
At least the first mold platen has a plate surface member to which the first mold is attached,
At least the first drive unit includes a movable unit that is movable in a substantially horizontal direction, is provided on the panel surface member, and moves at least one end of the panel surface member in a substantially horizontal direction. A mold clamping device which makes it possible to adjust the inclination of the mold platen.
[5]
In the description of [3] or [4],
It has a frame with a linear guide,
At least the first platen is a two-plate system having the board member and a support member that is placed on the frame or the linear guide and supports the board member.
At least the first drive unit is provided on the same side as the plate surface member with respect to the support member, and supports the first platen inclined to the first mold side from the inclined side. A mold clamping device.
[6]
In any one of [1] to [5],
The measurement unit includes a first measurement device that detects information about the angle of the first mold plate or the first mold, and information about the angle of the second mold plate or the second mold. And a second measuring device for detection, wherein at least one of the first measuring device and the second measuring device is an angle sensor.
[7]
In any one of [1] to [5],
The measurement unit includes a first measurement device that detects information about the angle of the first mold plate or the first mold, and information about the angle of the second mold plate or the second mold. And a second measuring device for detection, wherein at least one of the first measuring device and the second measuring device is a vision sensor.
[8]
In any one of [1] to [7],
At least one of the first drive part and the second drive part is an actuator having a movable part in contact with the first pattern board or the second pattern board. apparatus.
[9]
In any one of [1] to [7],
At least one of the first driving unit and the second driving unit is a jack that supports the first pattern board or the second pattern board.
[10]
A mold plate to which the mold can be attached;
A drive unit provided on the template and capable of adjusting the inclination of the template;
A measuring unit for detecting information on the angle of the mold plate or the mold;
A control unit for operating the drive unit based on information from the measurement unit;
A mold clamping device comprising:
[11]
[1] A molding machine comprising the mold clamping device according to any one of [10].
[12]
A panel member to which the mold is attached;
A support member for supporting the board member;
A drive unit provided on the support member and capable of adjusting the inclination of the panel member;
A measurement unit for detecting information on the angle of the support member, the board surface member or the mold;
A control unit for operating the drive unit based on information from the measurement unit;
A stencil characterized by comprising.
[13]
In the description of [12],
The drive unit has a movable unit movable in a substantially vertical direction, and is provided below the panel surface member, and moves one end of the panel surface member upward or downward to move the panel surface member. A stencil that features adjustable tilt.
[14]
In the description of [12],
The drive unit has a movable unit movable in a substantially horizontal direction, and is provided on the panel surface member, and adjusts the inclination of the panel surface member by moving at least one end of the panel surface member in a substantially horizontal direction. A stencil characterized by making it possible.
[15]
In any one of [12] to [14],
The measuring plate is an angle sensor.
[16]
In any one of [12] to [14],
The pattern board, wherein the measuring unit is a vision sensor.
[17]
A support member to which the mold is attached;
A drive unit capable of adjusting the inclination of the mold;
A measurement unit for detecting information on the angle of the support member or the mold;
A control unit for operating the drive unit based on information from the measurement unit;
A stencil characterized by comprising.
[18]
A first mold plate to which a first mold is attached;
A second mold plate to which a second mold facing the first mold is attached;
A first driving unit provided on the first template and capable of adjusting an inclination of the first template;
A second driving unit provided on the second template and capable of adjusting an inclination of the second template;
A measuring unit for detecting information on the angle of the first mold plate or the first mold and the angle of the second mold plate or the second mold;
In a mold clamping device comprising:
The first drive unit and the second drive unit are controlled based on information from the measurement unit so as to eliminate the falling of the first template and the second template. Method for controlling mold clamping device.
[19]
[18] In description,
A method for controlling a mold clamping device, comprising: controlling the first drive unit and the second drive unit so as to maintain parallelism between the first mold and the second mold.
[20]
In the description of [18] or [19],
At least the first mold platen has a plate surface member to which the first mold is attached,
At least the first drive unit has a movable unit movable in a substantially vertical direction, is provided below the panel surface member, and moves one end of the panel surface member upward or downward. A method for controlling a mold clamping device, wherein the inclination of the first mold platen is adjustable.
[21]
In the description of [18] or [19],
At least the first mold platen has a plate surface member to which the first mold is attached,
At least the first drive unit includes a movable unit that is movable in a substantially horizontal direction, is provided on the panel surface member, and moves at least one end of the panel surface member in a substantially horizontal direction. A method for controlling a mold clamping device, characterized in that the inclination of the mold platen can be adjusted.
[22]
In the description of [20] or [21],
The mold clamping device includes a frame provided with a linear guide,
At least the first platen is a two-plate system having the board member and a support member that is placed on the frame or the linear guide and supports the board member.
At least the first drive unit is provided on the same side as the plate surface member with respect to the support member, and supports the first platen inclined to the first mold side from the inclined side. A method for controlling a mold clamping device.
[23]
In any one of [18] to [22],
The measurement unit includes a first measurement device that detects information about the angle of the first mold plate or the first mold, and information about the angle of the second mold plate or the second mold. And a second measuring device for detection, wherein at least one of the first measuring device and the second measuring device is an angle sensor.
[24]
In any one of [18] to [22],
The measurement unit includes a first measurement device that detects information about the angle of the first mold plate or the first mold, and information about the angle of the second mold plate or the second mold. A mold clamping device control method, comprising: a second measuring device to detect, wherein at least one of the first measuring device and the second measuring device is a vision sensor.
[25]
In any one of [18] to [24],
At least one of the first drive part and the second drive part is an actuator having a movable part in contact with the first pattern board or the second pattern board. Control method of the device.
[26]
In any one of [18] to [24],
At least one of the first drive unit and the second drive unit is a jack that supports the first mold plate or the second mold plate.
[27]
A mold plate to which the mold can be attached;
A drive unit provided on the template and capable of adjusting the inclination of the template;
A measuring unit for detecting information on the angle of the mold plate or the mold;
In a mold clamping device comprising:
A method for controlling a mold clamping device, wherein the drive unit is operated based on information from the measurement unit.
[28]
A panel member to which the mold is attached;
A support member for supporting the board member;
A drive unit provided on the support member and capable of adjusting the inclination of the panel member;
A measurement unit for detecting information on the angle of the support member, the board surface member or the mold;
In a pattern board provided with
A method for controlling a platen, wherein the drive unit is operated based on information from the measurement unit.
[29]
[28] In description,
The drive unit has a movable unit movable in a substantially vertical direction, and is provided below the panel surface member, and moves one end of the panel surface member upward or downward to move the panel surface member. A method for controlling a platen, wherein the inclination is adjustable.
[30]
[28] In description,
The drive unit has a movable unit movable in a substantially horizontal direction, and is provided on the panel surface member, and adjusts the inclination of the panel surface member by moving at least one end of the panel surface member in a substantially horizontal direction. A method for controlling a platen characterized by being made possible.
[31]
In any one of [28] to [30],
The method for controlling a platen, wherein the measuring unit is an angle sensor.
[32]
In any one of [28] to [30],
The method for controlling a platen, wherein the measuring unit is a vision sensor.
[33]
A support member to which the mold is attached;
A drive unit capable of adjusting the inclination of the mold;
A measurement unit for detecting information on the angle of the support member or the mold;
In a pattern board provided with
A method for controlling a platen, wherein the driving unit is operated based on information from the measuring unit.

  DESCRIPTION OF SYMBOLS 1 ... Mold clamping apparatus, 2 ... Frame, 3 ... Fixed platen (1st mold platen), 4 ... Moving board (2nd mold platen), 5 ... Linear guide, 11 ... Fixed mold (1st metal mold | die) , 12 ... Support member, 13 ... Board surface member, 21 ... Moving mold (second mold), 22 ... Support member, 23 ... Board surface member, 31 ... First drive unit, 32 ... Second drive unit , 33... Measurement unit, 34... Control unit, 51... First measurement device, 52.

Claims (18)

A first board member to which the first mold is attached;
A first support member supporting the first board member;
A second panel member to which a second mold facing the first mold is attached;
A second support member that supports the second board member;
A first support member provided between the first support member and the first board member , wherein an end of the first board member is moved in a substantially horizontal direction to adjust the inclination of the first mold ; 1 drive unit;
Provided between the second support member and the second plate surface member, and is capable of adjusting an inclination of the second mold by moving an end portion of the second plate surface member in a substantially horizontal direction . Two drive units;
A measuring unit for detecting information on the angle of the first board member or the first mold and the angle of the second board member or the second mold;
A control unit that operates the first drive unit and the second drive unit based on information from the measurement unit so as to eliminate the falling of the first board surface member and the second board surface member ;
A mold clamping device comprising: In the description of claim 1,
The mold clamping apparatus, wherein the control unit controls the first drive unit and the second drive unit so as to maintain parallelism between the first mold and the second mold. In any Kano claimed in claim 1 or claim 2,
The measuring unit detects information relating to the angle of the first board member or the first mold, and information relating to the angle of the second board member or the second mold. And a second measuring device for detection, wherein at least one of the first measuring device and the second measuring device is an angle sensor. In any Kano claimed in claim 1 or claim 2,
The measuring unit detects information relating to the angle of the first board member or the first mold, and information relating to the angle of the second board member or the second mold. And a second measuring device for detection, wherein at least one of the first measuring device and the second measuring device is a vision sensor. In the description of any one of claims 1 to 4 ,
At least one of the first drive part and the second drive part is an actuator having a movable part in contact with the first board surface member or the second board surface member. apparatus. In the description of any one of claims 1 to 4 ,
At least one of said 1st drive part and said 2nd drive part is the jack which supported the said 1st board surface member or the said 2nd board surface member , The mold clamping apparatus characterized by the above-mentioned. A panel member to which the mold is attached;
A support member that supports the board member;
A drive unit that is provided between the support member and the board surface member, and is capable of adjusting the inclination of the mold by moving an end of the board surface member in a substantially horizontal direction ;
A measurement unit for detecting information on the angle of the panel member or the mold;
A control unit for operating the drive unit based on information from the measurement unit;
A mold clamping device comprising: A molding machine comprising the mold clamping device according to any one of claims 1 to 7 . A first board member to which the first mold is attached;
A first support member supporting the first board member;
A second panel member to which a second mold facing the first mold is attached;
A second support member that supports the second board member;
A first support member provided between the first support member and the first board member , wherein an end of the first board member is moved in a substantially horizontal direction to adjust the inclination of the first mold ; 1 drive unit;
Provided between the second support member and the second plate surface member, and is capable of adjusting an inclination of the second mold by moving an end portion of the second plate surface member in a substantially horizontal direction . Two drive units;
A measuring unit for detecting information on the angle of the first board member or the first mold and the angle of the second board member or the second mold;
In a mold clamping device comprising:
The first drive unit and the second drive unit are controlled based on information from the measurement unit so as to eliminate the tilting of the first board surface member and the second board surface member. Method for controlling mold clamping device. In the description of claim 9 ,
A method for controlling a mold clamping device, comprising: controlling the first drive unit and the second drive unit so as to maintain parallelism between the first mold and the second mold. In any one of Claim 9 or Claim 10 ,
The measuring unit detects information relating to the angle of the first board member or the first mold, and information relating to the angle of the second board member or the second mold. And a second measuring device for detection, wherein at least one of the first measuring device and the second measuring device is an angle sensor. In any one of Claim 9 or Claim 10 ,
The measuring unit detects information relating to the angle of the first board member or the first mold, and information relating to the angle of the second board member or the second mold. A mold clamping device control method, comprising: a second measuring device to detect, wherein at least one of the first measuring device and the second measuring device is a vision sensor. In the description of any one of claims 9 to 12 ,
At least one of the first drive part and the second drive part is an actuator having a movable part in contact with the first board surface member or the second board surface member. Control method of the device. In the description of any one of claims 9 to 12 ,
At least one of the first driving unit and the second driving unit is a jack that supports the first board surface member or the second board surface member . A panel member to which the mold is attached;
A support member that supports the board member;
A drive unit that is provided between the support member and the board surface member, and is capable of adjusting the inclination of the mold by moving an end of the board surface member in a substantially horizontal direction ;
A measurement unit for detecting information on the angle of the panel member or the mold;
In a mold clamping device comprising:
A method for controlling a mold clamping device, wherein the drive unit is operated based on information from the measurement unit. A panel member to which the mold is attached;
A support member for supporting the board member;
A drive unit that is provided between the support member and the board surface member, and is capable of adjusting the inclination of the mold by moving an end of the board surface member in a substantially horizontal direction ;
A measuring unit for detecting information about the angle of the front Symbol board member or the mold,
In a pattern board provided with
A method for controlling a platen, wherein the drive unit is operated based on information from the measurement unit. In the description of claim 16 ,
The method for controlling a platen, wherein the measuring unit is an angle sensor. In the description of claim 16 ,
The method for controlling a platen, wherein the measuring unit is a vision sensor.

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