JP6362438B2 - Resin molded product take-out machine and integrated position data setting method - Google Patents

Description

  The present invention relates to a resin molded product take-out machine equipped with a resin molded product collecting device that positions and accumulates resin molded products taken out from a resin molding machine in a pallet that is sequentially carried into the pallet by the resin molded product take-out machine. The present invention relates to an accumulation position data setting method for setting the accumulation position.

In a resin molded product take-out machine equipped with a resin molded product stacking device that stacks resin molded products in a state where they are sequentially loaded into the pallet, a chuck that holds the resin molded products corresponds to each receiving section of the pallet. Thus, automatic accumulation is enabled by controlling movement.
For this reason, in the resin molded product take-out machine, for example, Patent Document 1 (the Patent Document 1 describes each moving position when taking out the resin molded product, and does not disclose accumulation on the pallet. ), It is necessary to preliminarily set and store the chuck accumulated position data corresponding to each receiving section of the pallet. As the method for setting the chucking position data, the numerical value of the stacking position data can be directly input or the chuck can be taken out based on the positional relationship (movement amount) between the picking position of the resin molded product and the storing position of each receiving section on the pallet. It actually moves between the position and the accumulation position of each storage section and teaches and inputs the accumulation position data.

However, in the method of directly inputting the numerical value of the movement position of the chuck with respect to each receiving section in the pallet, three-dimensional data on the mold position of the resin molding machine, the mold opening width, the height of the tie bar and safety door, etc. Accurately calculate data such as 3D data related to standby position, advance position, descend position, retract position, etc. in the product take-out machine, accumulation position, accumulation height position, pallet and dimensions of each storage compartment in the resin molded product accumulation device It has to be directly input as a numerical value, which requires a high degree of skill in inputting, takes time and effort, and has a problem of poor data setting work efficiency.

Further, in the method of actually moving the chuck with respect to each receiving section of the pallet and inputting the teaching, the accumulated position data can be easily set as compared with the numerical value inputting method described above. In this case, it is necessary to input the accumulated position data while checking whether or not the chuck has moved to each position with high position accuracy, and it still takes time and effort, and the data setting work efficiency is poor. Have.

In particular, in any of the setting methods, after setting the stacking position data, the chuck is actually moved and controlled based on the set stacking position data so that the chuck has high positional accuracy with respect to each receiving section of the pallet. It is necessary to verify whether the chuck is moving and whether the chuck interferes with the mold, tie bar, safety door, resin molding machine frame, etc. of the resin molding machine. It was inevitable that the setting work took a lot of time and effort, and the setting work efficiency was extremely poor.

JP 2003-181845 A

The problem to be solved is that the setting work efficiency and the setting work efficiency are poor when setting the integrated position data of the chuck in the pallet by directly inputting numerical values or teaching. In the point.

The invention according to claim 1 is attached to the resin molding machine, and the movement of the chuck is controlled based on the movement position data so that the resin molded product in the mold is opened at either the operation side or the non-operation side of the resin molding machine. In a resin molded product take-out machine equipped with a resin molded product collecting device that accumulates in a pallet supplied to the side, at least the resin molding machine, the resin molded product take-out machine, the resin molded product collecting device, and the CAD data of the pallet are stored CAD data storage area, integrated system CAD data storage area for storing integrated system CAD data of resin molded products created by combining the respective CAD data stored in each CAD data storage area, and each movement position data of the chuck are stored Storage means having a moving position data area for storing and an integrated position data storage area for storing the integrated position data in the pallet; , CAD means for displaying CAD data respectively stored in the CAD data storage area and the integrated system CAD data storage area, and at least the resin molding machine, the resin molded product take-out machine, and the CAD of the resin molded product integration apparatus displayed on the display means resin molding machine by the operation of the data image, the apparatus for removing resin-molded product, specifies a combination portion of the resin molded article integrated device mutually combined in combination locations specified respective CAD data generating the integrated system CAD data, display The movement position data for each movement position of the chuck designated by the operation of the integrated system CAD data image is calculated based on the integration system CAD data and stored in the movement position data area. collecting about the specified integrated position by the operation of the CAD data image of the pallet Calculates and stores the integrated position data storage area on the basis of the position data to the CAD data of the pallet, and a control means for setting a moving position data and the integrated position data of the chuck by, stored in the moving position data area The main feature is that the chuck is moved based on the movement position data and the accumulated position data stored in the accumulation position data storage area, and the resin molded product is taken out from the resin molding machine and then accumulated in the pallet. .

The invention according to claim 9 is attached to the resin molding machine and controls the movement of the chuck based on the movement position data so that the resin molded product in the mold is opened at either the operation side or the non-operation side of the resin molding machine. In a resin molded product take-out machine equipped with a resin molded product stacking device that stacks in a pallet supplied to the side, step 1 . At least a resin molding machine stored in the storage means, the apparatus for removing resin-molded product, to produce an integrated system CAD data of the entire integrated system created by combining the CAD data of the resin molded article integrated device, step 2. Based on the integrated system CAD data, the moving position data for each moving position of the chuck designated by the operation of the integrated system CAD data image displayed on the display member is generated, and the moving position data is stored in the storage means. Step 3 . Step 4 is to generate accumulation position data for the accumulation position designated by the manipulation of the CAD data image of the palette displayed on the display means based on the CAD data of the palette, and store the accumulation position data in the storage means. . The above steps 1-4 are sequentially performed in which the chuck is moved based on the movement position data and the accumulation position data read from the storage means and the resin molded products are taken out from the resin molding machine and then accumulated in the pallet. Is the most important feature.

According to the present invention, the accumulated position data of the chuck in the pallet can be set easily and efficiently.

It is a schematic perspective view which shows the resin molding machine provided with the resin molded product taking-out machine and the resin molded product integration | stacking apparatus. It is a partially broken top view of FIG. It is a perspective view of the resin molded product integration | stacking apparatus. FIG. 4 is a plan view of FIG. 3. It is an electrical block diagram which shows the outline of the control means of a resin molded product taking-out machine. It is explanatory drawing which shows the movement state of a chuck | zipper. It is explanatory drawing which shows the pallet holding effect | action of the resin molded product integration | stacking apparatus. It is explanatory drawing which shows the movement state of the pallet in a resin molded product integration | stacking apparatus. It is explanatory drawing which shows the division | segmentation display state of each CAD data in a display member. It is explanatory drawing at the time of selecting a resin molding machine. It is explanatory drawing which shows the display state of the selected resin molding machine. It is explanatory drawing which shows the state which combined the resin molded product taking-out machine with the resin molding machine. It is explanatory drawing which shows the state which combined the resin molded product integration | stacking apparatus with the resin molding machine with which the resin molded product taking-out machine was combined. It is explanatory drawing which shows the display state of a palette. It is explanatory drawing which shows the designation | designated state of the accumulation position with respect to each accommodation division in a pallet. It is explanatory drawing which shows the movement state of the chuck | zipper with respect to a standby position. It is explanatory drawing which shows the movement state of the chuck | zipper with respect to a lowered position. It is explanatory drawing which shows the movement state of the chuck | zipper with respect to an advance position. It is explanatory drawing which shows the movement state of the chuck | zipper with respect to an open position. It is explanatory drawing which shows the movement state of the chuck | zipper with respect to the accumulation start position.

The chuck is moved based on the movement position data generated based on the integrated system CAD data and the integrated position data generated based on the CAD data of the pallet, and the resin molded product is taken out from the resin molding machine and then placed in the pallet. The best mode is to integrate.

Embodiments of the present invention will be described with reference to the drawings.
As shown in FIGS. 1 to 4, the resin molded product take-out machine 1 according to the present invention is fixed to the upper surface of the stationary platen 5 of the resin molding machine 3 and set to the operation side or the non-operation side of the resin molding machine 3. The resin molded product is taken out from the collected portion of the resin molded product.

The resin molding machine 3 has a known structure, and a movable platen 11 is connected to a fixed platen 5 and a tie bar 9 that is horizontally mounted on a movable platen 7 provided at a predetermined interval with respect to the fixed platen 5. 9 is supported so as to slide in the axial direction. The movable platen 11 is connected to mold clamping means 13 such as a feed screw connected to a hydraulic cylinder and an electric motor. When the movable platen 11 is moved to the fixed platen 5 side by the operation of the mold clamping unit 13. The movable mold 16 provided on the movable platen 11 is clamped to the fixed mold 15 provided on the stationary platen 5. The injection means 17 provided on the fixed platen 5 side injects the molten synthetic resin into the cavities of the movable mold 16 and the fixed mold 15 which are clamped to form a resin molded product.

The first frame 19 of the resin molded product take-out machine 1 extends in a direction orthogonal to the central axis of the resin molding machine 3 (hereinafter also referred to as the left-right direction), and the first frame 19 includes a first traveling body. 21 is supported so as to be movable in its longitudinal direction. The first traveling body 21 is provided with a second frame 23 that extends in a direction orthogonal to the left-right direction (hereinafter also referred to as the front-rear direction), and the second traveling body 25 is provided on the second frame 23. It is supported so as to be movable in the longitudinal direction.

An upper and lower frame 27 extending in the vertical direction perpendicular to the left and right direction and the front and rear direction is supported by the second frame 23 so as to be movable up and down. The lower frame 27 is held in the movable mold 16 at the lower part. A chuck 29 for holding the resin molded product and taking it out to the resin molded product accumulation portion is provided via a posture control member (not shown) that reverses the chuck 29 and controls the posture as necessary.

In the chuck 29, for example, a plurality of suction pads and a plurality of pairs of air cylinders and other holding members 29b connected to a negative pressure generating circuit (not shown) are provided on the chuck plate 29a corresponding to each product of the resin molded product. The resin molded product is held by these holding members 29b and taken out from the resin molding machine 3.

The first and second traveling bodies 21 and 25 and the upper and lower frames 27 are connected to electric motors 26, 28, and 30 such as numerically controllable servo motors, for example, and a part thereof is the first and second traveling bodies 21. A feed screw reciprocating means composed of a feed screw meshed with a nut (not shown) provided on each of 25 and the upper and lower frames 27, one of which is passed over a pair of rotating bodies connected to an electric motor, A part is reciprocated in the respective directions by belt reciprocating means constituted by belts fixed to the first and second traveling bodies 21 and 25 and the upper and lower frames 27, respectively.

  A resin molded product accumulation device 31 is disposed at the resin molded product accumulation location on the open position side of the resin molded product take-out machine 1. The main body frame 37 of the resin molded product stacking apparatus 31 has a height at which the upper end is located below the open side end of the first frame 19, and an axis parallel to the central axis of the resin molding machine 3 is provided at the lower part. A guide member 39 is provided, and the first movable body 41 is supported by the guide member 39 so as to be movable in a direction coinciding with the axis.

  A base end portion of an upper and lower frame 43 is fixed to the first movable body 41, and a guide member 45 having an axis line in the vertical direction is provided on the upper and lower frame 43. The second movable body 47 is supported on the guide member 45 so as to be movable up and down.

  The first and second movable bodies 41 and 47 are provided with moving means similar to the moving means of the first and second traveling bodies 21 and 25 and the upper and lower frames 27, respectively, and servo motors capable of numerical control thereof. These electric motors are denoted by reference numerals 42 and 48. The first and second movable bodies 41 and 47 are reciprocated in the corresponding directions as the electric motors 42 and 48 are driven.

  The second movable body 47 is provided with a square frame-like support frame 51 that is slightly larger than, for example, a pallet 49 described later and surrounds the periphery, and guide rods 53 are provided on opposite sides of the support frame 51. Each is slidably supported. A locking member 55 that can be locked to the side edge of the pallet 49 is provided at the end of each guide rod 53 located inside the support frame 51.

Each locking member 55 is connected to an operating member 57 such as an air cylinder or an electromagnetic solenoid provided on the opposite side of the support frame 51. Each locking member 55 moves in a direction approaching each other in accordance with the operation of each operating member 57 and locks to the side edge of the pallet 49 and moves away from the side edge of the pallet 49 to release the locking to the side edge of the pallet 49.

  On the carry-in side (in the illustrated example, the injection means 17 side) of the resin molded product accumulation apparatus 31, a carry-in means 59 having a conveyance path in the front-rear direction is provided by, for example, a belt conveyor, a roller conveyor, a caterpillar conveyor, or the like. The carrying-in means 59 sequentially carries empty pallets 49 for storing and collecting the resin molded products taken out from the resin molding machine 3 to the resin molded product collecting apparatus 31.

Further, on the carry-out side (in the illustrated example, the mold-clamping means 13 side) of the resin molded product collecting apparatus 31, there is a carry-out means 61 having a conveyance path in the front-rear direction such as a belt conveyor, a roller conveyor, or a caterpillar conveyor. Provided. The unloading means 61 sequentially unloads the pallet 49 in which the taken out resin molded products are accumulated in the respective storage compartments from the resin molded product accumulation device 31.

The pallet 49 has a predetermined length (height) in height, width, and height, and a plurality of receiving sections 49a are formed therein. Accordingly, the vertical and horizontal widths of the storage compartments 49 a are set corresponding to the vertical and horizontal widths of the pallet 49.

Accumulation position data for accumulating the resin molded product held by the chuck 47 of the resin molded product take-out machine 1 in each receiving section 49a of the pallet 49 in the resin molded product accumulating device 31 is as described later. It is set based on CAD data (dimension data) created when manufacturing the unloader 1, the resin molded product accumulating device 31, the pallet 49, and the like.

As shown in FIG. 5, the CPU 63 of the control means 62 in the resin molded product take-out machine 1 includes a program data storage means 65 and a work data storage means 67, and the program storage means 65 contains a resin by the resin molded product take-out machine 1. The combination of program data for executing the operation of taking out the molded product 53 and the operation of collecting the resin molded product, the resin molded product take-out machine 1, the resin molded product collecting device 31, the pallet 49, and the CAD data of the resin molded product, Various program data such as systemized program data for creating system CAD data is stored.

The work data storage means 67 includes a molding machine CAD data storage area 69, an unloader CAD data storage area 71, an integrated device CAD data storage area 73, a pallet CAD data storage area 75, and a resin product integrated system CAD data storage area 77. , A moving position data storage area 79 of the chuck 47, an installation position data storage area 81 of the resin molded product stacking device 31, an integrated position data storage area 83 of the pallet 49, and the like.

Reference numeral 84 in FIG. 5 denotes a buffer area. The buffer area 84 includes various CAD data displayed on a display member 93 described later, and a three-dimensional position designated by a pointer 93a in a CAD data image. Or memorize data.

In the molding machine CAD data storage area 69, CAD data produced when the resin molding machine 3 is produced is stored, and this CAD data includes the height of the fixed side platen 5 in the resin molding machine 1, the fixed mold 15 and the like. Necessary to calculate the movement width of the chuck 29 such as the mold opening width of the movable mold 16 relative to the fixed platen 5, the mounting position of the mold 15 relative to the fixed platen 5 and the movable platen 11, the mounting position of the tie bar 9, and the mutual interval. Contains dimension data.

That is, the CAD data is, for example, based on the central axis surface of the resin molding machine 3, the relative surface of the movable mold 16 on the fixed side platen 5, and the bottom surface of the resin molding machine 3, as the reference in the horizontal direction, the front-rear direction, and the vertical direction. It is possible to extract dimension data such as an interval and a distance (length) from the intersection.

In the take-out machine CAD data storage area 71, CAD data produced when the resin molded product take-out machine 1 is manufactured is stored, and this CAD data is the first frame for the fixed side platen 5 in the resin molded product take-out machine 1. 19, the longitudinal length of the first and second frames 19, 23, the longitudinal length of the upper and lower frames 27, and the first and second traveling bodies 21 from the base ends of the first and second frames 19, 23. , Dimensional data necessary for calculating each movement position of the chuck 29 such as an interval to 25 movement origins.

That is, the CAD data is obtained by using, for example, the bottom surface of the first frame 19 when the resin molded product take-out machine 1 is fixed to the upper surface of the stationary platen 5 as the reference surface of the vertical height and the longitudinal center of the first frame 19. The line is the reference plane in the left-right direction and the end face on the opposite side to the opening position of the first frame 19 is the reference plane in the front-rear direction, and dimension data such as the distance and distance (length) from these intersections can be extracted.

The integration device CAD data storage area 73 stores CAD data produced when the resin molded product integration device 31 is manufactured. The CAD data is stored in the front-rear direction and the left and right sides of the body frame 37 in the resin molded product integration device 31. The length of the direction, the movable width of the first movable body 41, the height of the upper and lower frames 43, the elevation width of the second movable body 47, the mounting width of the support frame 51 to the second movable body 47, and the length of each of the support frames 51 Dimension data such as size is included.

That is, the CAD data is, for example, that the bottom surface of the main body frame 37 in the resin molded product collecting apparatus 31 is used as the reference surface of the vertical height, and the longitudinal center line of the main body frame 37 is carried in the front and rear reference surfaces and the main body frame 37. With the side end face as a reference plane in the left-right direction, it is possible to extract dimension data such as the up-and-down width of the support frame 51, the forward and backward movement width, and the width from the second movable body 47 to each end of the support frame 51 from these intersections. To do.

The pallet CAD data storage area 75 stores CAD data created when the pallet 49 is manufactured. This CAD data is stored in the vertical and horizontal widths of the pallet 49 and the storage compartments 49 a provided in the pallet 49. Dimensional data such as vertical and horizontal widths of

That is, the CAD data makes it possible to extract dimension data such as the width in the left-right direction and the front-rear direction of the pallet 49 and the width in the left-right direction and the front-rear direction of the storage compartment provided therein.

In the integrated system CAD data storage area 77, the CAD data stored in the molding machine CAD data storage area 69, the unloader CAD data storage area 71, the integrated device CAD data storage area 73, and the pallet CAD data storage area 75 are stored. Consists of a resin molded product take-out machine 1 and a resin molded product stacking device 31 that are created in combination based on the set position data of the resin molded product stacking device 31 for the resin molded product 1 stored in an installation position data storage area 81 to be described later CAD data of the resin product integration system to be performed is stored.

This CAD data includes the distance from the movement origin of the chuck 29 to the standby position, the distance from the standby position (or movement origin) to the descent position, and the descent position (or movement) necessary when taking out the resin molded product from the resin molding machine 3. The distance from the origin) to the forward position, the distance from the forward position (or movement origin) to the reverse position (down position), the distance from the reverse position (or movement origin) to the ascent position (standby position), the ascent position (or movement) The distance from the origin) to the open position, the distance from the open position to each housing section 49a of the pallet 49 held on the support frame 51 of the resin molded product stacking device 31, the height of the pallet 49 held on the support frame 51, etc. Includes dimension data.

In the movement position data storage area 79, when the resin molded product is taken out from the resin molding machine 3, the chuck 29 is placed in a standby position, a lowered position, a forward position, a backward position (down position), a raised position (standby position), an open position, and the like. The movement position data for moving to each of these is stored. This movement position data is extracted from the CAD data of the resin product integration system stored in the integration system CAD data storage area 77.

In the installation position data storage area 81, position data related to the installation position of the resin molded product stacking device 31 with respect to the resin molded product take-out machine 1, more specifically, from the central axis of the resin molding machine 3 to the installation position on the operation side or the non-operation side. Data on the distance in the left-right direction, the distance in the front-rear direction from the relative surface of the movable mold 16 on the fixed platen 5 to the installation position, and the height of the installation floor are stored. With respect to the installation position data, unlike other position data, the operator can directly enter numerical values for the distance in the left-right direction and the front-rear direction with the fixed portion of the first frame 19 as the center, It is set by moving to the accumulation device 31 and inputting a teaching.

In the accumulation position data storage area 83, when the resin molded product taken out from the resin molding machine 3 is accommodated in each accommodation section 49a of the pallet 49 held by the support frame 51 of the resin molded product accumulation device 31, it is an open position. The accumulated position data of the chuck 29 with respect to the front-rear direction, the left-right direction, and the up-down direction starting from is stored. The integrated position data is extracted from the CAD data of the resin product integrated system stored in the integrated system CAD data storage area 77.

Each CAD data described above is either two-dimensional coordinate data or three-dimensional coordinate data. In the case of three-dimensional coordinate data, the scale data and the oblique eye are set to coincide with each other.

The origin of movement of the chuck 29 is the three-dimensional position data in which the center of the chuck plate 29a is close to the fixed mold 15 and is located on the left end side of the first frame 19 shown in FIG. Is stored in the movement position data storage area 79. Further, the left and right and up and down positions at the forward position are set to the same positions as the left and right and up and down positions at the lowered position.

The movement position data necessary for setting the standby position of the chuck 29 includes the distance in the left-right direction from the movement origin of the chuck 29 to the central axis of the resin molding machine 3, the fixed mold 15 of the movable mold 16 opened. This is three-dimensional position data calculated on the basis of the distance in the front-rear direction reaching the upper side and the height at which the tie bar 9 and the safety door positioned above the movable mold 16 are not interfered with. (See Figure 16)

The movement position data required to set the lowering position of the chuck 29 is obtained from the standby position or the movement origin in the product portion of the resin molded product in which each holding member 29b of the chuck 29 is held in the cavity of the movable mold 16. It is the three-dimensional position data calculated based on the distance to the opposite height, the left-right direction position and the front-rear direction position of the standby position. (See Figure 17)

The movement position data necessary for setting the advance position of the chuck 29 is that each holding member 29b of the chuck 29 protrudes from the lowered position or the origin position with respect to the parting surface of the movable mold 16 and is separated by the protrusion width of the pin. And three-dimensional position data calculated based on the position in the front-rear direction, the left-right position of the standby position, and the height position of the lowered position. (See Figure 18)

As the movement position data necessary for moving the chuck 29 to the open position, the position of the chuck 29 in the left-right direction from the standby position (upward position) or the origin position to the operation side or the non-operation side outside the resin molding machine 3, Reference numeral 29 denotes three-dimensional position data calculated based on the distance from the front-rear direction position of the standby position (upward position) toward the fixed mold 15 and the vertical position of the standby position. (See Figure 19)

As for each movement position of the chuck 29, the standby position, the lowering position, the advance position, the retreat position for extracting the resin molded product held by the chuck 29 from the movable mold 16, and the chuck 29 moves upward from the tie bar 9. However, for the convenience of explanation, it is assumed that the retracted position coincides with the lowered position and the upper position coincides with the standby position.

Further, the relationship between the opening position and the installation position of the resin molded product accumulation device 31 is such that if the installation position of the resin molded product accumulation device 31 on the operation side or the non-operation side in the resin molding machine 3 is determined, the resin molded product integration device 31 is integrated. The open position is set corresponding to the installation position of the device 31.

Drive control means 85 is connected to the CPU 63, and the first to third electric motors 26, 28, and 30 are connected to the drive control means 85. The drive control means 85 drives and controls the corresponding electric motors 26, 28, 30 based on the movement position data read from the movement position data storage area 79 to move the chuck 29 to each position.

The first to third electric motors 26, 28, and 30 are provided with position detectors (not shown) such as rotary encoders, and the drive control means 85 includes first to third electric motors 26, The first to third electric motors 26, 28, 30 are each configured to be closed-loop controlled based on the detection signals output from the respective position detectors when driving the 28, 30.

The CPU 63 is connected to a chuck drive control means 87, and the chuck drive control means 87 is an operation member such as an electromagnetic valve or electromagnetic solenoid that opens and closes a negative pressure path for operating each holding member 29 b of the chuck 29 (see FIG. Not shown) is connected. The chuck drive control means 87 operates each holding member 29b when the chuck 29 moves to the advance position between the molds 15 that have been opened, and enables the product portion of the resin molded product to be held, while moving to the open position. When the moved chuck 29 is positioned in the accommodating section 49a of the pallet 49 in the resin molded product stacking device 31, the operation of each operating member is stopped and the holding of the resin molded product held by the chuck 29 is released.

The control means 62 includes a mold opening completion signal, a protrusion start signal, a protrusion completion signal, a mold closing signal, etc. from the resin molding machine 3 and detection signals from various detectors provided in the resin molded product take-out machine 1. Is input via the input / output means 89. Further, the control means 62 outputs a removal completion signal to the resin molding machine 3 when the chuck 29 holding the resin molded product is pulled out above the tie bar 9 or the safety door of the resin molding machine 3.

A display control unit 91 is connected to the CPU 63, and a display member 93 such as an LCD is connected to the display control unit 91. The display member 93 is configured as a touch panel capable of pressing various displayed switches, buttons, keys (including cursor keys, scroll keys, etc., none shown) or an operation with a touch pen.

Then, the display control means 91 stores the CAD data stored in the display member 93 in the molding machine CAD data storage area 69, the unloader CAD data storage area 71, the integrated device CAD data storage area 73, the pallet CAD data storage area 75, etc. The system CAD data of the resin molded product integration system created by combining these CAD data based on the systemized program data and stored in the integration system CAD data storage area 77 is displayed.

In addition, a pointer 93a is displayed on the display member 93, and the pointer 93a is moved by a cursor key. The pointer 93a is a three-dimensional movement of the chuck 29 with respect to each receiving section 49a of the pallet 49 supported by the resin molded product stacking device 31 when generating the system CAD data of the resin molded product stacking system by combining the CAD data. Specify the position (accumulation position) or the three-dimensional position such as the origin position, standby position, descent position, forward position, gate cutting position, release position, etc. of the chuck 47 based on the system CAD data of the created resin molding system. Or specify.

The CPU 63 is connected to the stacking device drive control means 95. The stacking device drive control means 95 is a detector (not shown) that is output when the pallet 49 is loaded into the pallet take-out position by driving the loading means 59. ), The electric motor 42 is driven and controlled by the detection signal, and the upper and lower frames 43 are moved to the pallet take-out position. Then, the electric motor 48 is driven and controlled to lower the support frame 51 so as to surround the pallet 49. After that, the actuating member 57 is actuated to move the latching member 55 in the direction approaching each other and latched and held on the side edge facing the pallet 49.

Further, when the pallet 49 is held on the support frame 51 by the above operation, the stacking device drive control means 95 controls the drive of the electric motor 48 so that the support frame 51 has a predetermined height corresponding to the open position of the resin molded product. At the same time, the electric motor 42 is driven and controlled to move the support frame 51 toward the unloading means 61 and move to the open position of the resin molded product.

Further, when the resin molded product is accumulated in each receiving section 49a of the pallet 49 by the above operation, the accumulating device drive control means 95 drives the electric motor 42 to move the support frame 51 above the carry-out means 61. Later, the electric motor 48 is driven and controlled, and the support frame 51 is transferred to the carry-out means 61.

Further, after the above operation, the stacking device drive control means 95 returns the operating member 57 to release the locking of the locking member 55 with respect to the side edge of the pallet 49 and then controls the electric motor 48 to move backward. The frame 51 is separated from the side edge of the pallet 49.

In the above description, the control unit 62 of the resin molded product take-out machine 1 is configured to drive and control the resin molded product stacking apparatus 31. However, the control unit 62 of the resin molded product stacking apparatus 31 is different from the control unit 62. The electric motors 42 and 48 may be driven and controlled by an unillustrated) to perform the integration operation.

Further, detectors (not shown) are provided at the lowering position, the rising position, and the moving positions of the upper and lower frames 43, respectively, and are output as the supporting frames 51 and the upper and lower frames 43 move. The corresponding electric motors 42 and 48 are driven and controlled by the detection signal.

  Next, the operation of collecting resin molded products by the resin molded product take-out machine 1 will be described. As for the movement operation of the chuck 29 by the resin molded product take-out machine 1, for the sake of convenience of explanation, the chuck 29 is moved to the standby position, the lowered position, the forward position, the lowered position (retracted position), the standby position (raised position), and opened. This will be described as a basic operation of moving the position in order and taking out the resin molded product.

  First, the resin molded product take-out operation and the stacking operation of the resin molded product take-out machine 1 will be described with reference to FIG. 6. The chuck 29 of the resin molded product take-out machine 1 has a standby position read from the movement position data storage area 79. Based on the movement position data, the electric motors 26, 28, and 30 are driven and controlled, and the position of the left and right direction coinciding with the central axis in the resin molding machine 3 with respect to the movement origin set in advance in the resin molding product takeout machine 1 It stands by at the front-rear direction position approaching the parting surface of the mold 16 and the standby position above the tie bar 9.

  Note that the standby position is not limited to the above-described position, and is arbitrarily set according to the take-out form of the resin molding machine 3 and the resin molded product take-out machine 1.

On the other hand, in the resin-molded product stacking apparatus 31, the electric motor 42 is driven and controlled to move the upper and lower frames 43 to the pallet take-out position of the carrying-in means 59, and then the electric motor 48 is driven and controlled so that the support frame 51 is moved to the pallet. 49, the locking member 55 is lowered so that the locking member 55 is positioned on the opposite side edge side, and then the operating member 57 is operated to move the locking member 55 in a direction approaching each other and locked to the side edge facing the pallet 49. Hold. (See Figure 7)

After the above operation, the electric motor 48 is driven and controlled to raise the support frame 51 to a predetermined height position corresponding to the open position of the resin molded product, and the electric motor 42 is driven and controlled to control the support frame 51 and the main body frame 37. Move to a substantially middle part in the left-right direction and wait.

When the resin molding operation is completed in the standby state, the mold clamping member 13 is moved backward to open the movable mold 16 from the fixed mold 15, and a mold opening completion signal is sent from the resin molding machine 3 upon completion of the mold opening operation. Is input to the control means 62, the third electric motor 30 is driven and controlled based on the movement position data of the lowered position read from the movement position data storage area 79, and the upper and lower frames 27 are lowered to move the chuck 29. The mold 15 moves to a lowered position relative to the parting surface of the movable mold 16 between the molds 15 opened.

After the above operation, the second electric motor 28 is driven and controlled on the basis of the movement position data of the forward position read from the movement position data storage area 79, and the second traveling body 25 is opened by the chuck 29. Move to an advanced position close to 16 parting surfaces. In parallel with or after the above operation, the resin molding machine 3 operates the protruding member to project the resin molded product in the movable mold 16 toward the opposite chuck 29, and causes the chuck 29 to hold the resin molded product.

After the above operation, the second electric motor 28 is reversely driven and controlled on the basis of the movement position data of the retreat position (lowering position) read from the movement position data storage area 79, and the chuck 29 and the resin molded product are movable molds. 16, after returning to the lowered position (retracted position) extracted from inside 16, the third electric motor 30 is reversely controlled based on the movement position data of the raised position (standby position) read from the movement position data storage area 79. Then, the upper and lower frames 27 are moved upward to disengage the chuck 29 from between the molds 15 and return to the standby position.

After the above operation, the first electric motor 26 is driven and controlled based on the movement position data of the open position read from the movement position data storage area 79, and the chuck 29 which has returned to the standby position is replaced with the first running body 21. First to third electric motors based on the movement position data of the accumulation start position read from the movement position data storage area 79 after moving to the open position set on the operation side or the non-operation side outside the molding machine 3 26, 28 and 30, the required electric motor is driven and controlled to move the first traveling body 21 in the left-right direction, the second traveling body 25 in the forward direction, and the upper and lower frames 27 are lowered to move the chuck 47 to the accumulation start position. To do.

Based on the first accumulated position data read out from the accumulated position data storage area 83, drive control of necessary electric motors among the first to third electric motors 26, 28, 30 is performed, and movement to the accumulated position is awaited. In this state, the holding of the resin molded product by the holding member 29b is released, and the resin molded product is accumulated in the receiving compartment 49a.

At the time of the next integration, drive control of the necessary electric motor among the first to third electric motors 26, 28, 30 is performed based on the second and subsequent integration position data read from the integration position data storage area 83. The first traveling body 21 is moved in the left-right direction, the second traveling body 25 is moved forward, the upper and lower frames 27 are lowered, and the chuck 47 is made to be opposed to the second and subsequent receiving sections 49a in the pallet 49. The holding of the resin molded product is released, and the resin molded product is sequentially accumulated in each housing section 49a.

In addition, regarding the accommodating action of the resin molded product with respect to each accommodating section 49a of the pallet 49, the corresponding accommodating section 49a is moved by moving the chuck 29 in the left-right direction, the front-rear direction, and the up-down direction in the open position as described above. For example, the first compartment accommodating section 49a of the pallet 49 held on the support frame 51 is moved to the pallet take-out position, and the chuck 29 is controlled to move in the left-right direction and the up-down direction in this state. After the resin molded product is accommodated in each accommodation section 49a in the first row, the electric motor 42 is driven and controlled, and each accommodation section 49a in the second row and thereafter in the pallet 49 is sequentially moved to the pallet removal position. A resin molded product may be accommodated for each row.

When the resin molded product is accommodated and accumulated in each accommodating section 49a of the pallet 49 by the above action, the electric motor is driven and controlled, and the electric motor 48 is driven and controlled after the support frame 51 is moved to the unloading means 61 side. Then, the support frame 51 is lowered and the pallet 49 is transferred onto the unloading means 61. In this state, the operating member 57 is moved backward to release the locking of the locking member 55 from the side edge of the pallet 49.

In this state, the electric motor 48 is driven and controlled to raise the support frame 51 and the electric motor 420 is driven and controlled to move toward the loading means 59 so that the pallet 49 from the next position can be held and carried out. The means 61 is driven to carry out the pallet 49 in which the resin molded products are accommodated and accumulated in the respective accommodating sections 49a. (See Figure 8)

Next, the setting operation of the accumulation position data of the chuck 29 when accumulating resin molded products will be described.
First, generation of CAD data of the resin molded product take-out system including the resin molded product collecting device 31 will be described. The system is operated by pressing (touching) a mode switching button (not shown) displayed on the display member 93. Switching to the CAD data generation mode, each CAD data image stored in the display member 93 in the molding machine CAD data storage area 69, the unloader CAD data storage area 71, the integrated device CAD data storage area 73, and the pallet CAD data storage area 75, respectively. Is divided and displayed. (See Figure 9)

Next, when the CAD data image of the resin molding machine 3 is selected from among the CAD data images that are displayed in a divided manner by moving the pointer 93a with a cursor key or the like displayed on the display member 93 as shown in FIG. As shown in FIG. 3, the CAD data image of the resin molding machine 3 is displayed largely at the center of the display member 93.

The CAD data image displayed on the display member 93 is displayed so as to be switchable between a three-dimensional image and a two-dimensional image.

With respect to the CAD data image (three-dimensional image, two-dimensional image) of the resin molding machine 3 displayed in this state, the pointer 93a is moved by a cursor key or the like, and the resin molded product take-out machine 1 on the upper surface of the fixed platen 5 is operated. When a fixed position is designated, three-dimensional position data relating to the fixed position is read.

Next, when the CAD data image of the resin molded product take-out machine 1 divided and displayed by moving the pointer 93a with a cursor key or the like is selected, an image that is displayed largely at the center of the display member 93 is displayed on the resin molded product take-out machine. It is switched to one CAD data image.

And the three-dimensional position data regarding the fixed position with respect to the upper surface of the fixed side platen 5 in the CAD data of the displayed resin molded product take-out machine 1 is read. When the mode is switched to the combination mode by operating a combination key (not shown) displayed after the operation, each fixed portion of the resin molded product take-out machine 1 matches the designated portion on the upper surface of the fixed platen 5. The combined CAD data is created, and the CAD data of the combined resin molding machine 3 and resin molded product take-out machine 1 is displayed largely at the center of the display member 93. (See Figure 12)

Next, when the CAD data image of the resin molded product stacking apparatus 31 that is divided and displayed after canceling the combination mode is selected, the CAD image of the resin molded product stacking apparatus 31 is displayed large at the center of the display member 93. The CAD data image (three-dimensional image, two-dimensional image) of the resin molded product stacking device 31 displayed in this state is held by the support frame 51 moved upward by moving the pointer 93a with a cursor key or the like. A location corresponding to the first accommodation section 49a in the pallet 49 is designated, and three-dimensional position data relating to the accumulation position is read.

Next, when the mode is switched to the combination mode by operating a combination key (not shown), the resin molding stored in the installation position data storage area 81 in advance for the CAD data of the resin molding machine 3 and the resin molded product take-out machine 1 is performed. Based on the installation position data of the resin molded product stacking device 31 with respect to the machine 3, CAD data obtained by combining the CAD image data of the resin molded product stacking device 31 is created and displayed largely at the center of the display member 93. (See Figure 13)

It should be noted that the installation position data of the resin molded product accumulating device 31 stored in the installation position data storage area 81 is, for example, on the operation side or the non-operation side from the central axis of the resin molding machine 3 prior to the operation of combining the CAD data. The distance in the left-right direction to the installation position and the distance in the front-rear direction from the relative surface of the movable mold 16 of the fixed platen 5 to the installation position are set by numerical input or teaching input. Further, the above-mentioned distance in the left-right direction is set to be shorter than the distance from the center axis line to the open position side end of the first frame 19, and the distance in the front-rear direction is set to be shorter than the mold opening width between the molds. If an interval longer than the above is set, error processing (input prohibition, notification) is performed.

When the system CAD data registration key is operated in the above state, CAD data of the integrated system in which the resin molding machine 3, the resin molded product take-out machine, and the resin molded product integration device 31 are combined in the integrated system CAD data storage area 77. Remember.

In order to set each movement position of the chuck based on CAD data of the integration system in which the resin molding machine 3, the resin molded product take-out machine, and the resin molded product integration device 31 generated by the above-described operation are combined, the movement position setting is performed. When the key is operated, an integrated system CAD data image obtained by combining the resin molding machine 3, the resin molded product take-out machine, and the resin molded product integration device 31 read from the integrated system CAD data storage area 77 is displayed on the display member 93. indicate.

With respect to the CAD data image (three-dimensional image, two-dimensional image) displayed in this state, the pointer 93a is moved by a cursor key or the like, and the standby position, the lowered position, the forward position as the moving positions of the chuck 29, When the accumulation start position from the retracted position (down position), the raised position (standby position), the open position, and the open position to the center of the pallet 49 held by the support frame 51 of the resin molded product stacking apparatus 31, for example, is specified. The three-dimensional position data of each position is calculated from the CAD data of the system and stored in the movement position data storage area 79.

That is, after the standby position setting mode is selected, the standby position is based on the system CAD data image (three-dimensional image, two-dimensional image) of the integrated system displayed on the display member 93 by moving the pointer 95a with a cursor key or the like. Is specified, the 3D position data of the read standby position is compared with the 3D position data of the moving origin, and the distances from the moving origin to the standby position in the left-right direction, front-rear direction, and up-down direction are calculated, and the calculation result is waited. It is stored and set in the storage area of the standby position in the movement position data storage area 79 as the movement position data of the position. (See Figure 16)

Similarly, the descending position, the advance position, the release position, and the accumulation start position are based on the system CAD data image (three-dimensional image, two-dimensional image) displayed on the display member 93. When the accumulation start position is specified, the read three-dimensional position data of the lowered position, forward position, release position, and accumulation start position are compared with the three-dimensional position data of the immediately preceding movement position (or movement origin). The distance from the movement position (or movement origin) to the descent position, forward position, release position, and accumulation start position is calculated in the left-right direction, front-rear direction, and vertical direction, and the calculated results are the descent position, advance position, release position, and accumulation start. As the movement position data of the position, it is stored and set in the storage area of the descent position, forward position, release position, and accumulation start position in the movement position data storage area 79. (See FIGS. 17 to 20)

In order to set the accumulation position data for each storage section 49a of the pallet 49 from the accumulation start position, when the accumulation position setting key is operated, the pallet displayed after the CAD data image of the pallet 49 is largely displayed on the display member 93. When the registration key is operated after the pointer 93a is moved with respect to the 49 CAD data images by using the cursor key or the like to designate the first accommodation section 49a, from the accumulation start position based on the displayed CAD data. The accumulated position data in the left-right direction and the front-rear direction reaching the first accommodation section 49a is calculated and stored in the area corresponding to the first accommodation section 49a in the accumulation position data storage area 83.

Similarly, by sequentially designating the second and subsequent storage compartments 49 a from the CAD data image of the palette 49 displayed on the display member 93, each accumulated position data is calculated and stored in the corresponding position in the accumulated position data storage area 83. Let (See FIGS. 14 and 15)

The combination position of the resin molded product take-out machine 1, the resin molding machine 3, the resin molded product accumulating device 31, and the pallet 49 displayed on the display member 93 corresponding to the corresponding location is designated. At this time, when each moving position of the chuck 29 is designated from the displayed CAD data image of the integrated system, the CAD data image may be controlled to be enlarged and displayed by operating an enlargement key (not shown).

Further, although the accumulation start position is a position corresponding to the center of the pallet 49 held by the support frame 51, the first accommodation section 49 a in the pallet 49 held by the support frame 51 may be used. In this case, since the vertical and horizontal widths of the pallet 49 and the positions (column positions and row positions) of the storage compartments 49a to be provided are specified by the CAD data of the pallet 49, the second and subsequent storage compartments 49a The attached accumulation position data can be calculated from the distance in the left and right direction and the front and rear direction with respect to the position of the first accommodation section 49a.

In this embodiment, a system CAD data image (three-dimensional image, two-dimensional image) of an integrated system created based on the CAD data of the resin molded product take-out machine 1, the resin molding machine 3, and the resin molded product integration device 31; Based on the accumulated position data created based on the CAD data of the pallet 49, it is possible to set the movement position data and accumulated position data of the chuck 29 when the resin molded products are accumulated in the resin molded product accumulating device 31. Compared with the method of directly inputting numerical values of each moving position data and the accumulated position data as described above, and the method of actually moving the chuck 29 to each position and inputting the teaching, the setting operation of the moving position data and accumulated position data of the chuck 29 Can be simplified, and the resin molded product removal operation can be made more efficient.

The above description is based on the resin molded product take-out machine 1 that takes out only the resin molded product. However, a fourth traveling body (not shown) is connected to the second traveling body 25 on the stationary platen 5 side of the second frame 23. Is supported so as to move independently, and is supported on the fourth traveling body so that an upper and lower frame provided with a sprue chuck (not shown) on the lower side is moved up and down. It can also be implemented as a resin molded product take-out machine configured to take out the inner sprue.

  In the above description, the resin molded product take-out machine 1 has been described as a three-dimensional orthogonal structure in which the chuck 29 moves in the left-right direction, the front-rear direction, and the vertical direction to take out the resin molded product. The present invention can be implemented even with a laterally traveling resin molded product take-out machine that is attached to the operation side and that allows the chuck 29 to enter from the side of the resin molding machine 3 to take out the resin molded product.

  In the above description, the resin molding machine 3 has been described as a horizontal resin molding machine that performs resin molding by moving the movable mold 16 in the horizontal direction with respect to the fixed mold 15. It can also be implemented as a vertical resin molding machine that moves in the vertical direction and performs resin molding.

  In the resin molded product collecting apparatus 31 described above, an empty pallet 49 and a pallet 49 in which resin molded products are collected by the carrying-in means 59 and the carrying-out means 31 arranged in parallel with the central axis of the resin molding machine 3 are arranged in the center. Although it is configured to carry it by carrying it in a direction (front-rear direction) that coincides with the axis, the carrying direction (loading direction and unloading direction) of the pallet 49 by the loading means 59 and the unloading means 31 is not limited to this. The carry-in means 59 and the carry-out means 31 may be arranged in parallel so that the transport direction is the left-right direction orthogonal to the central axis.

  In the above description, the resin molded products are stacked and accumulated in the pallet 49 provided with the plurality of rows and columns of storage sections 49a. However, the resin molded products are stacked and stacked in the flat bottom pallet. Can also be implemented.

DESCRIPTION OF SYMBOLS 1 Resin molded product take-out machine 3 Resin molding machine 5 Fixed side platen 7 Movable side platen 9 Tie bar 11 Movable platen 13 Clamping means 15 Fixed mold 16 Movable mold 17 Injection means 19 First frame 21 First traveling body 23 Second Frame 25 Second traveling body 27 Upper and lower frame 29 Chuck 29a Chuck plate 29b Holding members 26, 28 and 30 Electric motor 31 Resin molded product stacking device 37 Main body frame 39 Guide member 41 First movable body 42 Electric motor 43 Upper and lower frame 45 Guide member 47 Second movable body 48 Electric motor 49 Pallet 49a Housing section 51 Support frame 53 Guide rod 55 Locking member 57 Actuating member 59 Loading means 61 Unloading means 62 Control means 63 CPU
65 Program storage means 67 Work data storage means 69 Molding machine CAD data storage area 71 Unloader CAD data storage area 73 Integrated device CAD data storage area 75 Pallet CAD data storage area 77 Integrated system CAD data storage area 79 Moving position data storage area 81 Installation position data storage area 83 Accumulated position data storage area 84 Buffer area 85 Drive control means 87 Chuck drive control means 89 Input / output means 91 Display control means 93 Display member 93a Pointer 95 Integrated device drive control means

Claims (16)

Inside the pallet attached to the resin molding machine and controlled to move the chuck based on the movement position data, and the resin molded product in the mold is supplied to either the operation side or the non-operation side of the resin molding machine In a resin molded product take-out machine equipped with a resin molded product accumulation device that accumulates in
At least a resin molding machine, a resin molding product take-out machine, a resin molding product collecting device, a CAD data storage area for storing CAD data of each pallet, and a resin molding product created by combining CAD data stored in each CAD data storage area A storage means having an integrated system CAD data storage area for storing the integrated system CAD data, a moving position data area for storing each movement position data of the chuck, and an integrated position data storage area for storing the integrated position data in the pallet;
Display means for displaying CAD data respectively stored in the CAD data storage area and the integrated system CAD data storage area;
Specify the combination of the resin molding machine, the resin molded product take-out machine, and the resin molded product stacking device by operating the CAD data image of at least the resin molding machine, resin molded product take-out machine, and resin molded product collecting device displayed on the display means. and, in combination with a combination portion which is specified respective CAD data generating the integrated system CAD data, the moving position data of the attached to each moving position of the specified chuck by manipulation of the displayed integrated system CAD data image Based on the integrated system CAD data and stored in the moving position data area, the integrated position data for the integrated position designated by the operation of the CAD data image of the palette displayed on the display means is converted into the CAD data of the palette. calculates and stores the integrated position data storage area on the basis of the movement of the chuck by And control means for setting the location data and the integrated position data,
With
Resin that accumulates in pallet after taking out resin molded product from resin molding machine by controlling movement of chuck based on movement position data stored in movement position data area and accumulation position data stored in accumulation position data storage area Mold take-out machine. 3. The resin molded product take-out according to claim 1, wherein the display means is a touch panel, and a combination position, a moving position of the chuck, and an accumulation position on the pallet can be designated by a touch operation on each CAD data image displayed and the integrated system CAD data image . Machine. 3. The display unit according to claim 1, wherein the display means displays a pointer, and moves the pointer to a predetermined location in each of the displayed CAD data image and integrated system CAD data image so that the combination location, the movement position of the chuck, A resin molded product take-out machine that allows specification of the accumulation position on the pallet. The resin molded product take-out machine according to claim 1, wherein the CAD data and the integrated system CAD data are either two-dimensional coordinate data or three-dimensional coordinate data. In Claim 1, the movement position data of the chuck is at least a standby position located above one mold side opened from the movement origin of the chuck, a lowered position relative to the mold holding the opened resin molded product, A resin molded product take-out machine set as three-dimensional position data of an advance position close to a mold for holding a resin molded product and an open position on either the operation side or the non-operation side of the resin molding machine. 6. The resin molded product take-out machine according to claim 5, wherein the accumulation position data is set as three-dimensional position data from the chuck opening position as a starting point. In Claim 1, the movement position data of the chuck is at least a standby position located above one mold side opened from the movement origin of the chuck, a lowered position relative to the mold holding the opened resin molded product, It is set as three-dimensional position data of the advance position close to the mold holding the resin molded product, the open position on either the operation side or the non-operation side of the resin molding machine, and the accumulation start position on the pallet side from the open position. Resin molded product take-out machine. 8. The resin molded product take-out machine according to claim 7, wherein the accumulation position data is set as the three-dimensional position data from the accumulation start position. Inside the pallet attached to the resin molding machine and controlled to move the chuck based on the movement position data, and the resin molded product in the mold is supplied to either the operation side or the non-operation side of the resin molding machine In a resin molded product take-out machine equipped with a resin molded product accumulation device that accumulates in
Step 1 . Generating integrated system CAD data of the entire integrated system created by combining each CAD data of at least the resin molding machine, the resin molded product take-out machine, and the resin molded product integration device stored in the storage means;
Step 2 . Based on the integrated system CAD data, the moving position data for each moving position of the chuck designated by the operation of the integrated system CAD data image displayed on the display member is generated, and the moving position data is stored in the storage means. ,
Step 3 . Generating the accumulated position data for the accumulated position designated by the manipulation of the CAD data image of the palette displayed on the display means based on the CAD data of the palette , and storing the accumulated position data in the storage means;
Step 4 . The movement of the chuck is controlled based on the movement position data and the accumulation position data read from the storage means, and the resin molded product is taken out from the resin molding machine and then accumulated in the pallet.
The integrated position data setting method for a resin molded product take-out machine, wherein the steps 1-4 are executed in order . The resin molded product take-out machine according to claim 9, wherein the display means is a touch panel, and a combination location, a moving position of the chuck, and an accumulation position on the pallet can be designated by a touch operation on the displayed CAD data image and the accumulated system CAD data image . Collection position data setting method. The display unit according to any one of claims 9 and 10, wherein the display means displays a pointer, and moves the pointer to a predetermined position of the displayed CAD data image and integrated system CAD data image to combine each CAD data , An integrated position data setting method for a resin molded product take-out machine, which enables specification of a moving position of a chuck and an integrated position in a pallet. The integrated position data setting method for a resin molded product take-out machine according to claim 9, wherein the CAD data image and the integrated system CAD data image are either two-dimensional coordinate data or three-dimensional coordinate data. The chuck movement position data according to claim 9, wherein the chuck movement position data includes at least a standby position located above one mold side opened from the movement origin of the chuck, a lowered position relative to the mold holding the opened resin molded product, An integrated position data setting method for a resin molded product take-out machine, which is set as three-dimensional position data of an advance position close to a mold for holding a resin molded product, or an open position on either the operation side or the counter-operation side of the resin molding machine. 14. The integrated position data setting method for a resin molded product take-out machine according to claim 13, wherein the integrated position data is set as three-dimensional position data starting from the chuck opening position. The chuck movement position data according to claim 9, wherein the chuck movement position data includes at least a standby position located above one mold side opened from the movement origin of the chuck, a lowered position relative to the mold holding the opened resin molded product, Resin set as three-dimensional position data of the advance position close to the mold holding the resin molded product, the open position on either the operation side or the non-operation side of the resin molding machine, and the accumulation start position on the pallet side from the open position Accumulated position data setting method for molded product take-out machine. The integrated position data setting method for a resin molded product take-out machine according to claim 15, wherein the integrated position data is set as three-dimensional position data starting from the integration start position.

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