JP2006095785A - Molding extraction machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently perform adjustment work properties by saving labor and time when the position of a chuck is adjusted and to surely perform work for adjusting the position of the chuck. <P>SOLUTION: The chuck position adjustment mechanism 49 of a molding extraction machine 27 is composed of a feed screw 55 both axis end parts of which are supported rotatably on the tip part of a movable body and which has an axis in the direction parallel to the mold mating face of a mold and a desired length and a slider 57 which is engaged with the feed screw 55 to move in the axial direction with the rotation of the feed screw 55 and fitted with the chuck 43/47. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a molded product take-out machine that takes out a molded product from a molding machine, more specifically, a chuck for holding (gripping) a molded product or a runner can be moved in at least one of a horizontal direction and a vertical direction to adjust a holding position. The present invention relates to a molded product take-out machine provided with a chuck position adjusting mechanism.

  In a molded product take-out machine equipped with a product chuck for holding a product part of a molded product and a runner chuck for holding a runner part of the molded product, generally, the product chuck is held in a mold. It is mounted so as to be located in the center of the product section. For this reason, in the center gate (direct gate) mold, the product chuck and runner chuck are almost the same, but depending on the shape and size of the molded product, the side gate structure, pinpoint Gate molds and submarine gate molds need to be used. In these molds, the runner chuck must be installed on the side of the mounting position of the product chuck. Every time the mold was changed, it was necessary to adjust the mounting position of the runner chuck. When the mounting position of the runner chuck is fixed, it is necessary to adjust the mounting position of the product chuck according to the type of mold.

Conventionally, as a chuck position adjustment mechanism that adjusts the mounting position by moving the product chuck or runner chuck in the horizontal direction, the horizontal direction parallel to the die mating surface is attached to each movable body to which each chuck is mounted. A guide rail having an engagement groove is fixed to a desired length, and a slider on which a chuck is mounted in the engagement groove of the guide rail is supported so as to slide in the longitudinal direction. On the other hand, after the slider is moved to a desired horizontal position, it can be fixed by screwing a fixing screw provided on the slider and pressing the shaft end thereof against the guide rail.

However, in the above-described chuck position adjusting mechanism, when adjusting the chuck position, first, the fixing screw must be loosened and the position adjusted, and then the fixing screw must be tightened. Has the problem of taking time. In addition, if the number of operations for adjusting the position of the chuck increases, the fixing screws and slider threads are easily broken with the press-contact of the fixing screws to the guide rail, making it impossible to fix the chuck at the desired position, and durability. The nature was bad.
JP-A

  The problem to be solved is that it takes time and labor when adjusting the chuck position, and the adjustment workability is poor. In addition, the fixing screw and the thread of the slider are easily broken with the passage of time, and the chuck cannot be fixed at a desired position when the thread is broken.

  In the chuck position adjusting mechanism according to the first aspect of the invention, both end portions of the shaft are rotatably supported at the tip end portion of the movable body, and the feed has a desired length with an axis line in a direction parallel to the die mating surface of the mold. It is characterized by comprising a screw and a slider to which the chuck is attached and meshed with the feed screw so as to move in the axial direction as the feed screw rotates.

The chuck position adjusting mechanism according to claim 6 is attached to the tip of the movable body so as to extend in a direction parallel to the die mating surface of the mold, has a C-shaped guide groove, and has a desired shape. A guide member having a length in the longitudinal direction, a slider that is engaged with the guide member and supported so as to be movable in the longitudinal direction, a chuck to which the chuck is attached, and a base end of the slider that is supported so as to rotate. Is composed of a cam member that is slightly smaller than the guide groove width and whose major axis is slightly larger than the guide groove width, and a rotation operation member that rotates the cam member.

The chuck position adjusting mechanism according to claim 8 is attached to the distal end portion of the movable body so as to extend in a direction parallel to the die mating surface of the mold, and has a guide portion having an I-shaped longitudinal section. A guide member having a length in the longitudinal direction; a slider to which a chuck is attached and supported to move by engaging with one side of the guide part; and a slider base on the opposite side of the engaging part A clamp member that is supported so as to rotate at the end and has a contact portion that can be engaged with the other side of the guide portion, and the clamp member that presses against the other surface side of the guide portion And an elastic member that enables the guide member to be clamped in cooperation with the engaging portion of the slider.

The chuck position adjusting mechanism according to claim 11 is attached to the tip of the movable body so as to extend in a direction parallel to the die mating surface of the mold, and a guide member having a desired length in the longitudinal direction, and a chuck A slider that is attached and supported so as to slide through the guide member in the longitudinal direction, a split claw member that is provided at the periphery of the guide hole of the slider through which the guide member is inserted, and a split claw member that meshes with and engages. It is characterized by comprising a nut member that expands or contracts the mutual interval of the divided claw members as the protrusion progresses.

  According to the present invention, it is possible to efficiently perform adjustment workability by avoiding labor and time when adjusting the chuck position. In addition, the chuck position adjustment operation can be performed reliably over a long period of time.

  According to the first aspect of the present invention, it is best that the slider on which the chuck is attached is engaged with the feed screw and the position of the chuck can be adjusted as the feed screw rotates. According to a fifth aspect of the present invention, it is best that the slider on which the chuck is attached is movable and fixed to the guide member by the cam member. According to a sixth aspect of the present invention, the guide member is supported by supporting the engaging portion of the slider to which the chuck is attached to the guide member so that the slider can come into contact with the guide member. It is the best mode that it is possible to fix by pinching. According to the eighth aspect of the present invention, the guide member is supported by sliding the slider to which the chuck is attached, and the split claw member provided on the slider is elastically deformed by the nut member so as to be fixed. And

The present invention will be described below with reference to the drawings showing embodiments.
1 and 2, a fixed side mounting plate 5 and a movable side mounting plate 7 which are opposed to each other at a predetermined interval are fixed to the main body 3 of the molding machine 1, and the fixed side mounting plate 5 and the movable side mounting plate 7 are fixed. The first and second movable plates 11 and 13 are supported by the tie bar 9 horizontally mounted so as to slide in the axial direction. A movable mold 15 is fixed to the first movable plate 11, and a fixed mold 17 is fixed to the second movable plate 13 opposed to the first movable plate 11. The fixed side mounting plate 5 is attached with a fixed side mold plate 16 having a runner 16a formed at a position corresponding to a gate provided in the mold according to the shape and size of the molded product.

  The first and second movable plates 11 and 13 are connected by a tension link 19, and the first movable plate 11 is moved away from the fixed side mounting plate 5 by a clamping cylinder 21 connected to the first movable plate 11. Then, the product chuck 43 described later is provided between the first movable plate 11 and the second movable plate 13 by the pulling link 19, and the runner chuck 47 described later is provided between the second movable plate 13 and the movable mold 15. Forms a gap that can enter. Needless to say, the molding machine 1 may have a two-sheet mold structure.

  An injection unit (not shown) having an axis substantially coincident with the central axis of the molding machine 1 is provided in the main body 3 on the fixed side mounting platen 5 side, and the injection unit is made of molten and pressurized synthetic resin. A molded product 25 is molded by injection into a molding space formed by the movable mold 15 and the fixed mold 17. The molded product 25 includes a runner 25a of a runner 16a for introducing a molten synthetic resin into a mold and a product portion 25b.

  A molded product take-out machine 27 is mounted on the upper surface of the fixed-side mounting board 5. The running frame 29 of the molded product take-out machine 27 extends in a direction perpendicular to the central axis of the molding machine 1, and its base is fixed to the upper surface of the fixed side mounting board 5. A first traveling body 31 is supported on the traveling frame 29 so as to move in the longitudinal direction, and the second and second frames 33 extend in the central axis direction of the molding machine 1 and are provided on the front and rear frames 33 provided on the first traveling body 31. The three traveling bodies 35 and 37 are supported so as to move. The second traveling body 35 has a first lifting body 39 having an axis in the vertical direction, and the third traveling body 37 similarly has a second lifting body 41 as a movable body having an axis in the vertical direction. It is supported to move up and down.

  The first traveling body 31, the second and third traveling bodies 35 and 37, and the first and second elevating bodies 39 and 41 are respectively associated with the drive of numerically controlled servo motors (not shown). The movement is controlled in the direction of.

  A product chuck 43 is attached to the lower part of the first elevating body 39 via, for example, a reverse posture control member 45, and adsorbs the product portion 25b of the molded product 25 or holds the clamp to hold it out of the molded product take-out machine 27. Take out. A runner chuck 47 is attached to the lower part of the second lifting body 41 via a horizontal position adjusting mechanism 49, and the runner chuck 47 clamps the runner 25 a of the molded product 25 to the outside of the molded product take-out machine 27. Take out.

  The runner chuck 47 is adjusted by a horizontal position adjusting mechanism 49 to an arbitrary position in the horizontal direction parallel to the die mating surface of the mold. The horizontal position adjusting mechanism 49 has a hanging portion 51a extending in a desired length in the horizontal direction, and both ends of which are suspended, and a holder 51 whose center is fixed to the lower portion of the second lifting body 41; Two guide shafts 53 that are horizontally mounted in parallel in the vertical direction between the hanging portions 51 a of the holder 51 and a feed that is rotatably supported by the hanging portion 51 a between the guide shafts 53. The screw 55 is configured to include a slider 57 that is supported so as to slide with respect to the guide shaft 53 and is engaged with the feed screw 55 and to which the runner chuck 47 described above is attached. The feed screw 55 is connected to an electric motor 59 provided on the holder 51 via a gear 61. By rotating the feed screw 55 forward and backward as the electric motor 59 is driven, the slider 57 and thus the runner chuck 47 are moved. Move to any position in the horizontal direction.

Next, the operation of taking out the molded product will be described.
First, the outline of taking out the molded product 25 by the molded product take-out machine 27 will be described. The first traveling body 31 is made to stand by in a state where it is moved to the fixed-side mounting board 5 side on the traveling frame 29. When the molding of the molded product 25 by the molding machine 1 is completed in this state, the mold clamping cylinder 21 is operated to move the first movable plate 11 away from the fixed mounting plate 5. Along with this movement, the second movable plate 13 connected to the first movable plate 11 via the tension link 19 is moved, and between the first movable plate 11 and the second movable plate 13 and the second movable plate 13. A gap having a width that allows the product chuck 43 and the runner chuck 47 to enter is formed between the fixed side mounting board 5 and the fixed side mounting board 5. At this time, the runner 25a and the product portion 25b of the molded product 25 are gate-cut with the movement of the second movable plate 13, and a part of the runner 25a is placed in the second movable plate 13 and the product portion 25b is moved to the movable metal. Each of the molds 15 is held.

When a mold opening completion signal is output from the molding machine 1 to the molded product take-out machine 27, the second and third traveling bodies 35 and 37 are controlled to move the product chuck 43 with the movable mold 15 and the second movable mold. The runner chuck 47 is positioned above the space between the plate 13 and the space between the second movable plate 13 and the fixed side mounting plate 5. Next, the first and second lifting and lowering bodies 39 and 41 are respectively controlled to be lowered so that the product chuck 43 is placed on the product portion 25b held in the movable mold 15, and the runner chuck 47 is placed on the second movable plate 13. Then, the product chuck 43 and the runner chuck 47 are operated to hold the runner 25a and the product portion 25b.

Next, the first and second elevating bodies 39 and 41 are lifted and the product chuck 43 holding the product portion 25b and the runner chuck 47 holding the runner 25a are extracted from between the respective molds. 1 The traveling body 31 is controlled to move, the product chuck 43 and the runner chuck 47 are moved to the molded product release position, the holding of the product portion 25b and the runner 25a is released, and the removal operation of the molded product 25 is finished.

Depending on the gate structure of the mold, the take-out position of the runner 25a is set to a position displaced in the horizontal direction from the center of the mold, so that the product chuck 43 set to be positioned at the center of the mold. On the other hand, it is necessary to adjust the position by moving the runner chuck 47 in the horizontal direction. In this case, the electric motor 59 is driven to rotate the feed screw 55, and the slider 57 to which the runner chuck 47 is attached is moved relative to the holder 51 so as to coincide with the runner 25a. (See Figure 3)

As a result, when the second elevating body 41 is controlled to move down and the runner chuck 47 enters between the molds that have been opened, the runner chuck 47 is made to be opposed to the runner 25a that is displaced in the horizontal direction from the mold center. So that it can be removed. (See Figure 4)

In this embodiment, even if the runner 25a is in a position displaced in the horizontal direction from the center of the mold due to the gate structure of the mold, the feed screw 55 is rotated to move the slider 57 in the horizontal direction. Thus, the position of the runner chuck 47 can be adjusted arbitrarily and steplessly so that the runner 25a can be held securely.

This embodiment can be modified as follows.
1. In the above description, the electric motor 59 is connected to the feed screw 55, and the feed screw 55 is rotated in a desired direction as the electric motor 59 is driven, so that the position of the slider 57 with respect to the holder 51, and hence the runner chuck 47, is arbitrary. In addition, it is configured to adjust steplessly. However, a knob is attached to one end of the feed screw 55, and the feed screw 55 is rotated by rotating the knob to adjust the position of the runner chuck 47. Also good.

2. In the above description, the backlash of the slider 57 is reduced by attaching two guide shafts 53 that are spaced apart in the vertical direction to the holder 51 and are parallel to each other and sliding the slider 57 in the axial direction. In addition, the horizontal width of the horizontal position adjusting mechanism 49 is configured to be small. However, in the present invention, one guide shaft may be used, and the two guide shafts may be spaced apart from each other at a predetermined interval. In addition, a configuration in which the axes are mutually parallel may be used.

  In FIG. 5, the horizontal position adjusting mechanism 71 of the runner chuck 47 is fixed to the lower part of the second elevating body 41, extends in the horizontal direction at a desired length, and extends in the longitudinal direction in the longitudinal orthogonal direction. Is fixed to one shaft end of a guide member 73 in which a C-shaped engagement groove 73a is formed and a shaft member 77 pivotally supported so as to rotate on an upper portion of a slider 75 to which the runner chuck 47 is attached, A cam 79 as an elliptical cam member whose minor axis is slightly smaller than the vertical width of the engaging groove 73a and whose major axis is slightly larger than the vertical width of the engaging groove 73a, and an end of the shaft member 77 protruding from the slider 75 It is comprised from rotation operation members 81, such as a fixed handle. The slider 75 to which the runner chuck 47 is attached is supported so as to be movable in the longitudinal direction in a state in which the cam 79 having a minor axis directed in the vertical direction is inserted into the engagement groove 73a and is prevented from coming off. .

In addition, the fixed state of the slider 75 with respect to the guide member 73 can be strengthened by forming a groove on the contact surface of the long diameter portion of the cam 79 in the guide member 73. Further, the same members as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

In order to adjust the position of the runner chuck 47 to a desired position of the guide member 73 by the horizontal position adjusting mechanism 71 having the above-described structure, the short diameter portion of the cam 79 is illustrated as shown in FIG. In a state where the slider 75 is movable in the engagement groove 73a in the vertical direction, the slider 75 is moved to a desired horizontal position that matches the holding position of the runner 25a. Then, as shown in FIG. 6B, the turning operation member 81 is turned at this position to turn the cam 79 so that the long diameter portion thereof is directed in the vertical direction. Along with this rotation, the long diameter portion comes into pressure contact with the upper surface and the lower surface in the engagement groove 73a to make the slider 75 immovable, thereby fixing the runner chuck 47.

In this embodiment, the slider 79 on which the runner chuck 47 is attached is moved and fixed to the guide member 73 by rotating the cam 79 to fix the runner chuck 47 in the horizontal direction. The position can be adjusted arbitrarily.

  In FIG. 7, the horizontal position adjusting mechanism 91 of the runner chuck 47 is fixed to the lower part of the second elevating body 41, extends in the horizontal direction to a desired length, and extends in the longitudinal direction on the front and rear surfaces. A guide member 93 having contact surfaces 93a and 93b and having a cross section in the longitudinal direction formed in an I shape, and a runner chuck 47 are attached to the guide member 93 in a state in which the guide member 93 can contact the one contact surface 93b. A slider 95 having an engaging portion 95a to be engaged, and a contact portion 97a supported on the upper portion of the slider 95 and capable of contacting the other contact surface 93a at one end and the other. A clamp member 97 having an operation portion 97b, an elastic member 99 such as a wire spring that constantly urges the clamp member 97 so that the contact portion 97a is pressed against the contact surface 93a, and an engagement portion 95a. And the contact portion 97a Composed of a friction member 101a · 101b attached to facing side. In addition, about the same member as Example 1, the same code | symbol is attached | subjected and detailed description is abbreviate | omitted.

In order to adjust the position of the runner chuck 47 to a desired position of the guide member 93 by the horizontal position adjusting mechanism 91 having the above-described structure, the operation member 97b is held and the clamp member 97 is elastically held as shown in FIG. By swinging against the elastic force of the member 99, the pressure contact of the contact portion 97a with respect to the contact surface 93a and the pressure contact of the engagement portion 95a with respect to the contact surface 93b are released, and the slider 95 is moved against the guide member 93. Make it movable. In this state, after the slider 95 is moved to a desired horizontal position that coincides with the position of the runner 25a, when the grip of the operating portion 97b is released at this position, the clamp member 97 is moved by the elastic force of the elastic member 99. The guide member 93 is sandwiched between the slider 95, the contact portion 97a being in pressure contact with the contact surface 93a, and the engagement portion 95a being in pressure contact with the contact surface 93b by swinging in a direction in which 97a is pressed against the contact surface 93a. Therefore, the runner chuck 47 is fixed at a desired horizontal position.

At this time, since the friction members 101a and 101b are respectively attached to the contact portion 97a that is in pressure contact with the contact surface 93a and the engagement portion 95a that is in pressure contact with the contact surface 93b, the slider 95 is fixed to the guide member 93. The runner chuck 47 can be prevented from being displaced due to the holding or moving operation of the runner 25a by the runner chuck 47.

In this embodiment, the runner chuck 47 is fixed to a desired position of the guide member 93 and is adjusted by holding the guide member 93 between the contact portion 97a of the clamp member 7 and the engaging portion 95a of the slider 95. it can.

In FIG. 9, the horizontal position adjusting mechanism 111 of the runner chuck 47 is fixed to the lower part of the second elevating body 41, and the guide member 113 extending in a desired length in the horizontal direction is attached to the runner chuck 47. A plurality of sliders 115 having a through hole 115a through which the guide member 113 is inserted, and a screw 117a formed on the outer peripheral taper surface which is provided integrally or separately around the through hole 115a of the slider 95. Each of the divided claw members 117, and a nut member 119 that is inserted through the guide member 113 and engages with a screw 117a on the outer peripheral tapered surface of each divided claw member 117 to expand and reduce the mutual interval between the divided claw members 117. The In addition, about the same member as Example 1, the same code | symbol is attached | subjected and detailed description is abbreviate | omitted.

In order to adjust the position of the runner chuck 47 to the desired position of the guide member 113 by the horizontal position adjusting mechanism 111 having the structure described above, the nut member 119 is rotated in the loosening direction as shown in FIG. The meshing of the outer peripheral taper surface of each divided claw member 117 with the screw 117a is released, and each divided claw member 117 is elastically returned in the direction in which the mutual interval increases. Accordingly, the pressure contact of each divided claw member 117 with respect to the guide member 113 is released, so that the slider 115 can be moved in the longitudinal direction with respect to the guide member 113.

In this state, after the slider 115 is moved to the desired horizontal position corresponding to the holding position of the runner 25a with respect to the guide member 113, the nut member 119 is turned in the tightening direction opposite to the above as shown in FIG. Each of the divided claw members 117 engaged with the nut member 119 is elastically deformed in a direction in which the distance between them is reduced, and is brought into pressure contact with the guide member 113 so as to be sandwiched between the slider 115 and the runner chuck 47. Is fixed at a desired horizontal position.

In this embodiment, each of the divided claw members 117 is deformed in a direction in which the mutual interval is expanded and contracted by rotating the nut member 119, so that the slider 115, and thus the runner chuck 47 is moved with respect to the guide member 113. The runner chuck 47 can be adjusted in position by being movable or fixed.

The present invention can be modified as follows.
1. In each of the above-described embodiments, the mounting position of the runner chuck 47 is arbitrarily adjusted in the horizontal direction, but the horizontal position adjustment of the first to fourth embodiments 39 is arranged below the first elevating body 39. The product chuck 43 may be attached via the mechanisms 49, 71, 91, and 111, and the position of the product chuck 43 may be arbitrarily adjusted with respect to the horizontal direction.

2. The horizontal position adjusting mechanisms 49, 71, 91, 111 of each of the above-described embodiments are configured such that the position of the runner chuck 47 can be adjusted to a desired horizontal position according to the runner 25a of the molded product 25. In the present invention, as shown in FIG. 12, the vertical axis is placed on the sliders 57, 75, 95, 115 of the horizontal position adjusting mechanisms 49, 71, 91, 111 having the horizontal axis as described above. The vertical position adjusting mechanism 121 (FIG. 12 shows a configuration in which the vertical position adjusting mechanism 49 of the same type is combined with the horizontal position adjusting mechanism 49 according to the first embodiment. (The illustration is omitted for a configuration combining a vertical position adjustment mechanism of the same type structure), and a product chuck 43 or a runner chuck 47 is attached to the slider 123. The chuck respectively the horizontal and vertical directions may be positionable to configure as desired. (Corresponding to claims 5, 7, 9, and 12)

It is a general-body perspective view of the molding machine with which the molded article extraction machine was attached. It is a perspective view which expands and shows the horizontal position adjustment mechanism of the chuck | zipper for runners. It is explanatory drawing which shows the position adjustment state of the chuck | zipper for runners. It is explanatory drawing which shows the holding | maintenance state of a product part and a runner. 6 is a perspective view of a horizontal position adjusting mechanism according to Embodiment 2. FIG. It is explanatory drawing which shows the position adjustment state of the chuck | zipper for runners. 10 is a perspective view of a horizontal position adjusting mechanism according to Embodiment 3. FIG. It is explanatory drawing which shows the position adjustment state of the chuck | zipper for runners. 10 is a perspective view of a horizontal position adjusting mechanism according to Embodiment 4. FIG. It is explanatory drawing which shows the position adjustment state of the chuck | zipper for runners. It is explanatory drawing which shows the position adjustment state of the chuck | zipper for runners. It is explanatory drawing which shows the application example of this invention.

Explanation of symbols

25 Molded product 25a Runner 25b Product part 27 Molded product take-out machine 43 Product chuck 47 which is part of chuck 49 Runner chuck 49 which is part of chuck 49 Horizontal position adjusting mechanism 51 Holder 55 Feed screw 57 Slider

Claims (12)

The movable body to which the chuck for holding the molded product is attached is controlled to move so that the chuck is positioned between the holding position where the chuck is located between the molds and the molded product release position outside the molding machine, and the molded product is taken out from the molding machine. In the molded product take-out machine, both end portions of the shaft are rotatably supported by the tip end portion of the movable body, and a feed screw having an axis in a direction parallel to the mold mating surface of the mold and having a desired length, A molded product take-out machine provided with a chuck position adjusting mechanism that is engaged with a feed screw so as to move in the axial direction along with the rotation of the feed screw and includes a slider to which a chuck is attached. The chuck position adjusting mechanism according to claim 1 is provided with a holder that is fixed to the tip of the movable body by extending to a desired length in either the horizontal direction or the vertical direction parallel to the die-mating surface of the mold. The holder is rotatably supported on the holder, and at least one guide shaft having an axis parallel to the feed screw is attached, and the slider is engaged with the feed screw and supported so as to slide on the guide shaft. Mold take-out machine. 3. A molded product take-out machine according to claim 1, wherein a rotation operation member is provided at at least one shaft end of the feed screw, and the feed screw is rotated by the rotation operation member to move the slider in the axial direction. . 3. A molded product take-out machine according to claim 1, wherein an electric motor is connected to one shaft end of the feed screw, and the slider is moved in the axial direction by a feed screw that rotates by driving and controlling the electric motor. The movable body to which the chuck for holding the molded product is attached is controlled to move so that the chuck is positioned between the holding position where the chuck is located between the molds and the molded product release position outside the molding machine, and the molded product is taken out from the molding machine. In a molded product take-out machine, a first feed screw having a desired length with both shaft end portions rotatably supported at the tip end portion of a movable body and having an axis in a horizontal direction parallel to a die mating surface of a mold And a horizontal position adjusting mechanism comprising a first slider meshed with the first feed screw so as to move in the axial direction along with the rotation of the first feed screw, and both shaft end portions on the first slider. A second feed screw that is rotatably supported and has an axis in a vertical direction parallel to the mold mating surface of the mold and has a desired length, and the second feed screw can rotate with respect to the second feed screw. Along with this, it is meshed so that it moves in the axial direction, and the chuck is attached Taking out a molded product equipped with a vertical position adjustment mechanism and a second slider being. The movable body to which the chuck for holding the molded product is attached is controlled to move so that the chuck is positioned between the holding position where the chuck is located between the molds and the molded product release position outside the molding machine, and the molded product is taken out from the molding machine. In the molded product take-out machine, it is attached to the tip of the movable body so as to extend in a direction parallel to the die-mating surface of the mold, has a C-shaped guide groove, and has a desired longitudinal length. And a guide member that engages with the guide member and is supported so as to be movable in the longitudinal direction. The slider is attached to the chuck, and is supported so as to rotate to the base end portion of the slider. A molded product take-out machine provided with a chuck position adjusting mechanism comprising a cam member that is slightly smaller and whose major axis is slightly larger than the guide groove width and a rotation operation member that rotates the cam member. The movable body to which the chuck for holding the molded product is attached is controlled to move so that the chuck is positioned between the holding position where the chuck is located between the molds and the molded product release position outside the molding machine, and the molded product is taken out from the molding machine. In the molded product take-out machine, it is attached to the tip of the movable body so as to extend in the horizontal direction parallel to the die mating surface of the mold, has a C-shaped guide groove, and has a desired longitudinal length. A first guide member, a first slider which is engaged with the first guide member and supported so as to be movable in the longitudinal direction, and is supported so as to rotate to a proximal end portion of the first slider. A horizontal position adjusting mechanism including a first cam member having a diameter slightly smaller than the guide groove width and a long diameter slightly larger than the guide groove width; and a first rotation operation member for rotating the first cam member; In the vertical direction parallel to the mold mating surface of the mold A guide groove having a C-shaped longitudinal section and having a desired longitudinal length, and a second guide member engaged with the second guide member and supported so as to be movable in the longitudinal direction. A second slider to which the chuck is attached, and a second cam member supported by the base end of the second slider so as to rotate and having a minor axis slightly smaller than the guide groove width and a major axis slightly larger than the guide groove width; A molded product take-out machine provided with a vertical position adjusting mechanism comprising a second turning operation member for turning the second cam member. The movable body to which the chuck for holding the molded product is attached is controlled to move so that the chuck is positioned between the holding position where the chuck is located between the molds and the molded product release position outside the molding machine, and the molded product is taken out from the molding machine. In the molded product take-out machine, it is attached to the tip of the movable body so as to extend in a direction parallel to the die-mating surface of the mold, and has a guide portion having an I-shaped longitudinal section, and has a desired longitudinal length. And a slider having an engaging portion supported so as to move by engaging with one side of the guide portion, and a slider base end portion on the opposite side of the engaging portion. A clamp member that is supported so as to move and has a contact portion engageable with the other side of the guide portion, and urges the clamp member so that the contact portion presses against the other surface side of the guide portion. The guide member can be clamped in cooperation with the engaging part of the slider Taking out a molded product equipped with a chuck positioning mechanism comprising a resilient member to. The movable body to which the chuck for holding the molded product is attached is controlled to move so that the chuck is positioned between the holding position where the chuck is located between the molds and the molded product release position outside the molding machine, and the molded product is taken out from the molding machine. In the molded product take-out machine, it is attached to the tip of the movable body so as to extend in the horizontal direction parallel to the die-mating surface of the mold, and has a first guide portion having an I-shaped longitudinal section, and has a desired longitudinal length. A first guide member having a length in a direction; a first slider having a first engagement portion supported so as to engage and move on one side of the first guide portion; and an engagement portion of the first slider A first clamp member having a first contact portion that is supported by the first slider base end portion on the opposite side to the first slider and that can be engaged with the other side of the first guide portion, and the first clamp member The first abutment portion is urged so as to be in pressure contact with the other surface side of the first guide portion. A horizontal position adjusting mechanism including a first elastic member that enables the first guide member to be clamped in cooperation with the first engaging portion of one slider, and a vertical position parallel to the die mating surface of the mold. A second guide member having a longitudinal section having an I-shaped longitudinal section and having a desired longitudinal length, and a chuck attached to one side of the second guide portion. A second slider having a second engagement portion supported so as to be moved by engaging with the second slider, and a second slider base end portion opposite to the second engagement portion of the second slider so as to rotate. A second clamp member supported and having a second contact portion engageable with the other side of the second guide portion; and the second clamp member, the second contact portion being the other surface of the second guide portion. The second guide member can be clamped in cooperation with the second engagement portion of the second slider by being biased so as to be pressed against the side. Taking out a molded product equipped with a vertical position adjustment mechanism and a second elastic member to. The molded product take-out machine in which a friction member is attached to the relative surfaces of the engaging portion of the guide member and the contact portion of the slider according to claim 8 or 9. The movable body to which the chuck for holding the molded product is attached is controlled to move so that the chuck is positioned between the holding position where the chuck is located between the molds and the molded product release position outside the molding machine, and the molded product is taken out from the molding machine. In the molded product take-out machine, a guide member having a desired length in the longitudinal direction and a chuck are attached to the tip of the movable body so as to extend in a direction parallel to the die mating surface of the mold. Slider supported so as to slide in the longitudinal direction through the member, split claw member provided at the periphery of the guide hole of the slider through which the guide member is inserted, meshed with the split claw member, and progress of meshing A molded product take-out machine provided with a chuck position adjusting mechanism including a nut member that enlarges or reduces the mutual interval between the divided claw members. The movable body to which the chuck for holding the molded product is attached is controlled to move so that the chuck is positioned between the holding position where the chuck is located between the molds and the molded product release position outside the molding machine, and the molded product is taken out from the molding machine. In the molded product take-out machine, a first guide member having a desired length in the longitudinal direction is attached to the distal end portion of the movable body so as to extend in a horizontal direction parallel to the die mating surface of the mold. A first slider that is supported so as to slide through the member in the longitudinal direction; a first divided claw member provided at a periphery of the guide hole of the first slider through which the first guide member is inserted; and a first divided claw A horizontal position adjusting mechanism comprising a first nut member which is meshed with the member and expands or contracts the mutual interval of the first divided claw members as the meshing progresses; and a mold mating surface of the mold on the first slider It extends in the parallel vertical direction A second guide member having a desired length in the longitudinal direction, a second slider that is inserted through the second guide member and supported so as to slide in the longitudinal direction, and the second guide member are inserted. A second split claw member provided on the periphery of the guide hole of the second slider and a second nut member that is engaged with the second divided claw member and that increases or decreases the mutual distance between the second divided claw members as the meshing progresses. Molded product unloader equipped with a vertical position adjustment mechanism.

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