KR101342889B1 - Injection molding machine for composite molded article and molding method thereof - Google Patents

Abstract

In the injection molding machine for a composite molded article provided with an intermediate mold rotated about an axis in a direction orthogonal to the mold opening and closing direction between the first half and the second half, the overall layout of the mold clamping device is achieved while the structure of the plant layout is advantageous. Shorten or simplify the structure of the intermediate mold or turntable.
Rotation about the axis A of the direction orthogonal to a mold opening-and-closing direction between the 1st half 22 with the 1st metal mold 21, and the 2nd half 24 with the 2nd metal mold 23 attached. In the mold clamping device 12 of the injection molding machine 11 for a composite molded article in which the intermediate molds 20 and 20 are formed so as to correspond to the first mold 21 and the second mold 23, the first half ( 22 or in the center of at least one half 22, 24 of the second half 24 is formed with recesses 32, 38 into which nozzles of the injection apparatuses 13, 14 installed along the mold opening and closing direction are inserted. The protrusions 30 and 31 are arranged in the recesses 32 and 38 or in the vicinity of the recesses 32 and 38.

Description

Injection molding machine for composite molded products and its molding method {INJECTION MOLDING MACHINE FOR COMPOSITE MOLDED ARTICLE AND MOLDING METHOD THEREOF}

According to the present invention, an intermediate mold rotated about an axis in a direction orthogonal to a mold opening and closing direction between a first half to which a first mold is attached and a second half to which a second mold is attached includes the first mold and An injection molding machine for a composite molded article provided corresponding to a second mold and a molding method thereof.

Between the first half to which the first mold is attached and the second half to which the second mold is attached, an intermediate mold rotated about an axis in a direction orthogonal to the mold opening and closing direction is provided in correspondence with the first mold and the second mold. As the injection molding machine for molded articles, those described in Patent Documents 1 to 3 are known. Among them, Patent Document 1 and Patent Document 2 are a rotary panel and a movable panel in which a fixed plate and an intermediate mold are rotatably arranged in sequence, and the rotary plate and the movable plate are respectively installed to be movable in a mold opening and closing direction. 3, the fixed board which rotatably provided the intermediate mold was arrange | positioned at the center, and the movable board which can move to a mold opening-closing direction is arrange | positioned at both sides. Moreover, the said patent document 2 differs in arrangement | positioning of injection apparatus, and one injection apparatus is attached in the direction orthogonal to a mold opening-and-closing direction.

In the injection molding machine for complex molding like Patent Documents 1 to 3, injection of molten resin for primary molding is performed in a cavity formed by forming one intermediate mold from a plurality of intermediate molds and a first mold. All. Then, one intermediate mold with the primary molded article is rotated, and one intermediate mold and the second mold are then molded together, and injection of molten resin for secondary molding is performed to form the composite molded article. One intermediate mold and the other intermediate mold are alternately molded with the first mold and the second mold to repeat the primary molding and the secondary molding. Therefore, one intermediate mold and the other intermediate mold each have the same cavity shape. In addition, it is necessary to rotate the intermediate mold in a state where the primary molded product is stuck to the intermediate mold side, and the intermediate mold side is less likely to be released than the first mold used for primary molding. Therefore, as disclosed in Patent Literature 1, it is common to provide an ejector device for protruding a molded article on the turntable and the intermediate mold side. However, in the case of installing the ejector device on the turntable and the middle mold side, it is necessary to install the ejector device for each middle mold, and the thickness of the portion where the turntable and the middle mold are aligned becomes large, and as a result, to secure a constant mold opening amount, It is also necessary to increase the gap at the time of mold opening between the two halves of the turntable and the intermediate half. For this reason, there has been a problem that the total length of the mold clamping device of the injection molding machine for composite molding is long. In the case of incorporating the ejector device into the turntable, it is necessary to provide piping and wiring to the actuator of the ejector device in addition to piping of the cooling medium to the intermediate mold. There was a problem that was done. Furthermore, there was a problem that ejector marks remain on the surface of the side formed by the intermediate mold of the composite molded article.

As disclosed in Patent Literature 2, when at least one of the injection apparatuses is provided in a direction perpendicular to the mold opening and closing direction, and an injection apparatus or the like is not disposed on the back side of the movable panel, an ejector device is provided on the movable panel. To protrude the secondary molded composite molded article from the movable mold side. However, in the injection molding machine for a composite molded article of Patent Document 2, since the injection device is installed in a right angle direction, there are many disadvantages in terms of the layout of the factory, or injection of the secondary molding side according to the change of the thickness of the mold to be attached. Since the apparatus needs to be moved laterally, there is a problem that a moving mechanism is required and fine adjustment of the nozzle touch position is required every time the mold is replaced.

Patent Document 1: Japanese Patent Application Laid-Open No. 4-24213 (Second column left, Fig. 1) Patent Document 2: Japanese Patent Application Laid-Open No. 3-38095 (Paper 6, right column, Fig. 1) Patent Document 3: Japanese Patent Laid-Open No. 6-254906 (claim 1, Fig. 1)

(Summary of the Invention)

(Problems to be Solved by the Invention)

Thus, the present invention provides an intermediate mold, which is rotated about an axis in a direction orthogonal to a mold opening / closing direction, between a first half to which a conventional first mold is attached and a second half to which a second mold is attached. In the injection molding machine for a composite molded product installed in correspondence with the second mold, it is advantageous in the factory layout and shortens the overall length of the mold clamping device, the structure of the intermediate mold or the turntable is simplified, and the composite An object of the present invention is to provide an injection molding machine for a composite molded article and at least one molding method thereof, which enables at least one of leaving no ejector marks on the surface formed by the intermediate mold in the molded article.

The injection molding machine for composite molded articles according to claim 1 of the present invention is an intermediate mold rotated about an axis in a direction orthogonal to the mold opening and closing direction between a first half to which the first mold is attached and a second half to which the second mold is attached. In the injection molding machine for a composite molded article provided in correspondence with the first mold and the second mold, a concave in which the nozzle of the injection apparatus provided along the mold opening and closing direction is inserted in the center of at least one half of the first half or the second half. And a protruding device is arranged in the recess or in the vicinity of the recess.

The injection molding machine for a composite molded article according to claim 2 of the present invention is a recess according to claim 1, wherein the nozzle of the injection apparatus provided in the same direction as the mold opening and closing direction is inserted in both of the first half and the second half. The protrusions are arranged in the recess or in the vicinity of the recess, respectively.

The molding method of the injection molding machine for a composite molded article according to claim 3 of the present invention is centered on an axis in a direction orthogonal to the mold opening and closing direction between a first half to which the first mold is attached and a second half to which the second mold is attached. In the molding method of the injection molding machine for a composite molded article, the intermediate mold is rotated to correspond to the first mold and the second mold, wherein the middle mold is installed along the mold opening and closing direction at the center of at least one half of the first half or the second half. And a recess into which the nozzle of the injection apparatus used in the secondary molding is inserted, and a protrusion is arranged inside the recess or in the vicinity of the recess, and the secondary molded composite molded article, the gate cutter, and the valve gate are formed. At least one of the opening and closing member of the protruding device is characterized in that the.

The molding method of the injection molding machine for a composite molded article according to claim 4 of the present invention is the nozzle of the injection apparatus provided in both the first half and the second half in the same direction as the mold opening and closing direction. A recess is formed, and protrusions are arranged in the recess or in the vicinity of the recess, and according to the molding die to be attached, the protrusions for projecting the injection device and the composite molded article used in the secondary molding are changed. It is characterized by.

In the injection molding machine for a composite molded article of the present invention, an intermediate mold rotated about an axis in a direction orthogonal to a mold opening and closing direction is formed between a first half to which a first mold is attached and a second half to which a second mold is attached. In the injection molding machine for a composite molded article provided in correspondence with a metal mold | die and a 2nd metal mold | die, the recessed part in which the nozzle of an injection apparatus is inserted in a mold opening-and-closing direction is formed in the center of at least one half of the said 1st half or the said 2nd half, Since the protruding devices are arranged around the part, the structure is advantageous in terms of factory layout, the overall length of the mold clamping device is shortened, the structure of the intermediate plate is simplified, and the intermediate mold in the composite molded product. At least one of those that do not leave ejector marks on the face being formed is possible.

BRIEF DESCRIPTION OF THE DRAWINGS The partial cross section at the time of the mold opening of the injection molding machine for composite molded articles of this embodiment.
Fig. 2 is a partial cross-sectional view showing a state in which the rotary disk and the intermediate mold are rotated from the state of Fig. 1 for the injection molding machine for the composite molded article of the present embodiment.
3 is a partial cross-sectional view showing a state in which the injection molding machine for a composite molded article of the present embodiment is closed from the state of FIG. 2 and injection is performed from the first injection device and the second injection device.
The front view of the movable panel of the mold clamping apparatus of the injection molding machine for composite molded articles of another embodiment.
5 is a longitudinal sectional view of the BB line in FIG. 4;

(Mode for carrying out the invention)

EMBODIMENT OF THE INVENTION The injection molding machine 11 for composite molded articles of embodiment of this invention is demonstrated with reference to FIG. The injection molding machine 11 for a composite molded product is an injection molding machine for molding a composite molded product using a plurality of resin materials, and includes a mold clamping device 12 and a first injection device 13 provided at both sides thereof in the same direction as the mold opening and closing direction. The basic part is constituted from the second injection device 14. In the mold clamping device 12 of the injection molding machine 11 for a composite molded article, a fixing plate 16, which is also an intermediate half in a fixed or moment-free state with respect to the base 15, is disposed at the center thereof. In addition, the fixed shaft 16 is rotatably supported by the rotating shaft 17 and the rotating disk 18 about the axis A in the direction orthogonal to the mold opening and closing direction, and is rotatably installed by the servomotor 19. have. The intermediate mold 20 having the same cavity forming surface 33 is attached to the attaching surfaces on both sides of the rotary disk 18. In the intermediate mold 20 and the turntable 18, a temperature control channel is provided, which is omitted in the schematic diagram of FIG. In the present invention, the ejector, which is a protruding device for the composite molded product P, is not provided in the intermediate mold 20. Therefore, the thickness of the intermediate mold 20 can be made thin, and piping to an ejector, etc. becomes unnecessary, so that the structure of the rotary disk 18 and its shaft support mechanism can be simplified, and the intermediate mold 20 Ejector marks are not formed in the portion to be molded.

The first movable panel 22, which is the first half, to which the first movable mold 21, which is the first mold, is attached, on both sides of the fixed plate 16 and the rotary plate 18, and the second movable, which is the second mold, The 2nd movable board 24 which is the 2nd board | substrate with which the metal mold 23 is attached is provided on the base 15 so that sliding is possible freely. And between the intermediate | middle fixed board 16 and the 1st movable board 22, the 1st type opening / closing mechanism 25 provided with a servomotor and a ball screw is attached, and the intermediate fixed board 16 and 2nd movable Between the vanes 24, a second type opening and closing mechanism 26 is attached. Accordingly, the first movable mold 21 attached to the first movable panel 22 and the second movable mold 23 attached to the second movable panel 24 are attached to the rotary disk 18 provided therebetween. The intermediate molds 20 and 20 to be attached are movable in the mold opening and closing direction. As shown in FIG. 3, the first movable mold 21 and the intermediate mold 20, the second movable mold 23 and the intermediate mold 20 are closed, and the first cavity C1 and the first movable mold 21 and the intermediate mold 20 are closed. The second cavity C2 is formed. Moreover, although the ejector 30 is provided in the 1st movable board 22 and the ejector 31 is provided in the 2nd movable board 23 in this embodiment, the ejector should just be provided in at least one half. In some cases, when molding is performed with a mold in a predetermined range, or when preparing a mold according to the injection molding machine 11 for a composite molded article, an ejector may be provided in any one half.

A mold clamping cylinder 27 is provided in each of four corners of the first movable panel 22, and a ram of the mold clamping cylinder 27 also serves as a tie bar 28. The mold clamping cylinder 27 is a two-way actuated cylinder, in which a large-area oil seal for fastening a mold is installed on the side of the tie bar 28 in the first movable panel 22, and on the opposite side of the intermediate mold (first injection). On the device side, a small-area powerful open oil chamber is installed. Moreover, the mold clamping cylinder 27 is provided with the adjustment means which is not shown in figure for correcting the position of the tie bar 28 changed by mold clamping of every cycle and strong mold opening. In addition, it is preferable that each type fastening cylinder 27 is controlled individually by the servo valve etc. which are not shown in figure. In addition, the tie bar 28 slides freely in the vicinity of the four corners of the intermediate fixing plate 16 and is also inserted in the vicinity of the four corners of the second movable panel 24. And the half nut 29 which hangs the groove-shaped locking part formed in the tie bar 28 is arrange | positioned around the part through which the tie bar 28 of the surface on the opposite side to the intermediate mold of the 2nd movable board 24 is inserted. . In addition, arrangement | positioning of a type | mold fastening cylinder etc. can consider various changes.

In this embodiment, the ejector 30, 31 which is a protrusion is provided in the 1st movable board 22 and the 2nd movable board 24 of both sides of the mold clamping apparatus 12, respectively. First, the first movable panel 22 will be described. The nozzle of the first injection apparatus 13 disposed in the same direction as the mold opening / closing direction in the center of the surface opposite to the intermediate mold of the first movable panel 22 will be described. This induced concave portion 32 to be inserted is formed. In the center of the concave portion 32, a through hole is formed toward the mold attaching surface. In addition, a hydraulic cylinder 34, which is a driving means of the ejector 30, is attached to a portion of the concave portion 32 that does not interfere with the insertion of the first injection device 13, and the rod has a first movable mold 21. The back surface of the ejector plate 35, which is an inner member, is brought into abutment. The ejector pin 36 is attached to the ejector plate 35, and the ejector pin 36 is projected from the cavity forming surface 37. Moreover, the ejector plate 35 and the ejector pin 36 can be retracted by the spring in a metal mold | die. Moreover, the ejector 30 is a position where the heat | fever discharged from the 1st injection apparatus 13 does not affect actuators, such as the hydraulic cylinder 34, and it is preferable to install in the position which does not catch molten resin away from a nozzle tip. Do. Therefore, the ejector 30 is provided in the position which becomes the side (horizontal direction side) at the time when the 1st injection apparatus 13 touches a nozzle to the 1st movable mold 21 at regular intervals.

In addition, the ejector 31 which is a protrusion device is similarly provided in the recessed part 38 also about the movable panel 24 which is a 2nd half. Specifically, the rod of the hydraulic cylinder 39 abuts against the back surface of the ejector plate 40 of the second movable mold 23, and the ejector pin 41 is projected from the cavity forming surface 42. In addition, in this embodiment, although two hydraulic cylinders 34 and 39 which are drive means are provided in the ejector 30, 31, respectively, the number is not limited, The electric motor and the ball screw mechanism may be used. Moreover, the ejector may be arrange | positioned only in a metal mold | die.

Moreover, about the injection apparatus, the 1st injection apparatus 13 is attached to the outer side of the 1st movable board 22. As shown in FIG. In this embodiment, the 1st injection apparatus 13 is for inject | pouring the 1st resin of a composite molded article, and is arrange | positioned toward the longitudinal direction in the same direction as a mold opening-closing direction. And the 1st injection apparatus 13 is moved with the mold opening-closing movement of the 1st movable panel 22, and it is possible to move back and forth with respect to the 1st movable panel 22 as well. Moreover, the 2nd injection apparatus 14 is attached to the outer side of the 2nd movable board 24. As shown in FIG. In this embodiment, the 2nd injection apparatus 14 is for inject | pouring the 2nd resin of a composite molded article, and is arrange | positioned toward the longitudinal direction in the same direction as a mold opening-closing direction. And the 2nd injection apparatus 14 is moved with the mold opening-closing movement of the 2nd movable board 24, and it is possible to move forward and backward also with respect to the 2nd movable board 24. As shown in FIG.

Then, through the through hole of the first movable panel 22, the nozzle of the first injection apparatus 13 abuts on the first movable mold 21, and through a resin passage (cold runner or hot runner) not shown. Molten resin is injected into the cavity C1. In addition, molten resin is injected into the cavity C2 through the resin passage in the same manner as for the second movable mold 23 and the second movable plate 24. In general, since the nozzle of the first injection apparatus 13 is connected to the first movable mold 21, and the nozzle of the second injection apparatus 14 is connected to the second movable mold 23, the direct gate is used. In many cases, the gate is provided on the side of the cavity forming surface 37 of the first movable mold 21 and on the side of the cavity forming surface 42 of the second movable mold 23. In addition, in the schematic diagram of FIG. 1 etc., the temperature control channel etc. which are provided in the movable molds 21 and 23 are abbreviate | omitted.

Next, the shaping | molding method of the injection molding machine 11 for composite molded products is demonstrated by FIG. In the mold clamping device 12 shown in FIG. 1, the first type opening and closing device 25 and the second type opening and closing device 26 are operated, and the fixed plate 16, the rotary plate 18, and the intermediate mold 20, 20, the first movable plate 22 to which the first movable mold 21 is attached and the second movable plate 24 to which the second movable mold 23 is attached are respectively opened to open the mold. It shows the state moved to. Then, the hydraulic cylinder 39 of the ejector 31 is operated to eject the ejector pins 41 from the cavity forming surface 42 of the second movable mold 23, whereby the molding is completed. ) Is protruded and taken out by a takeout device (not shown). When the composite molded product P protrudes, ejector marks are often left on the molding surface P3 on the second movable mold 23 side of the composite molded product P. However, since the gate marks are often formed on the side of the molding surface P3 of the composite molded product P, as described above, in the case of the direct gate, the gate marks and the ejector marks are formed on the molding surface of the same side. It is possible. Therefore, the gate mark and the ejector mark can be arrange | positioned on the back surface by making the shaping surface P3 of the composite molded product P into the back surface of a molded article.

Further, when the mold is opened, the primary molded product P1 molded in the first cavity C1 formed between the first movable mold 21 and the intermediate mold 20 is formed on the cavity forming surface of the intermediate mold 20 ( It is taken out in the state attached to 33). In addition, in the case where the mold opening in the state where the primary molded product is attached to the intermediate mold 20 is restricted by the cavity shape or the like, the ejector 30 may assist the mold release from the cavity forming surface 37. do. In other words, when the first movable mold 21 is opened or immediately before the intermediate mold 20, the primary molded product is operated by operating a force in the direction of advancing the ejector 30 at a speed close to the mold opening speed. It is easy to release P1) by attaching it to the intermediate mold 20.

After the extraction of the composite molded product P and the release of the primary molded product P1 are completed, as shown in FIG. 2, the servomotor 19 for rotating the rotary plate at the upper part of the fixed plate 16 is driven. Rotating the rotating plate 18 and the intermediate mold 20 in which the primary molded product remains and the intermediate mold 20 in which the composite molded product P does not remain are rotated 180 ° about an axis A perpendicular to the mold opening and closing direction. (Inverted), the intermediate mold 20 and the primary molded product P1 are moved to a position corresponding to the cavity forming surface 42 of the second movable mold 23. Then, when the rotation is finished, the fixing plate 16 and the rotating plate 18 are once fixed by pins (not shown). The intermediate molds 20 and 20 may be rotated only in one direction or may be reversed.

As shown in FIG. 3, when the turntable 18 and the intermediate mold 20 are completely rotated, the first mold opening and closing mechanism 25 and the second mold opening and closing mechanism 26 are operated, and the intermediate mold ( 20) and the first movable mold 21 correspond to each other, and the intermediate mold 20 and the second movable mold 23 correspond to each other to make the mold abut. From this state, the half nut 29 is fastened to the engaging portion of the tie bar 28, and the mold clamping cylinder 27 is operated to perform mold clamping. After confirming that the mold is fastened, injection is performed from the first injection device 13 to the primary cavity C1 formed between the first movable mold 21 and the intermediate mold 20 from the first injection device 13. The primary molded product P1 is molded. In the present embodiment, the primary molded product P1 is molded by injection compression molding.

Next, the secondary cavity C2 formed between the second movable mold 23 and the intermediate mold 20 (part of the walls of the secondary cavity C2 is formed by the primary molded product P1) 1 At a timing different from that of the secondary molding, injection is performed from the second injection apparatus 14, and the secondary molding portion P2 is molded. In the present embodiment, secondary molding in which the resin of the secondary molded part P2 is pasted around the primary molded product P1 is performed by general injection molding. Then, when the cooling time ends, the process shifts to mold opening and returns to the state of FIG.

In the molding method of the injection molding machine 11 for composite molded articles of the present embodiment, the projection device (ejector 31) of the second movable panel 24 having a recessed portion 38 into which a nozzle used for secondary molding is inserted. ), The composite molded product P is projected. For example, when the specifications, such as the injection quantity of the 1st injection apparatus 13 and the 2nd injection apparatus 14, differ, and the other extruded molding 14 is carried out by shaping | molding another composite molded product P, the 2nd injection apparatus 14 is carried out. ) May be injected into the second cavity C2 to perform primary molding, and may also be injected into the first cavity C1 using the first injection apparatus 13 to perform secondary molding. Even in such a case, since the ejectors 30 and 31 are provided in both the movable panels 22 and 24 (or the movable mold), the degree of freedom of molding can be improved.

Next, the injection molding machine 52 for composite molding to which the ejector 51 of another embodiment shown in FIG. 4 and FIG. 5 is attached is demonstrated. 5 is sectional drawing of the B-B line | wire in FIG. In the injection molding machine 52 for composite molding, as in the injection molding machine 11 for composite molding shown in FIG. 1 and the like, the movable panel 53 and the like are arranged on both sides of the fixed and rotating disks. In the movable plate 53, a tie bar 67 is inserted through four corners, and a concave portion 54 having a protruding shape into which a nozzle of an injection device (not shown) is inserted is formed at the center of the surface opposite to the intermediate mold. (In Fig. 5 denoted by BB line, the recess 54 is not shown, so it is indicated by a broken line.) And the center bottom surface of the recess 54 is a through hole penetrating the attachment surface of the movable mold 55. Formed. Moreover, the movable part 53 has the thick part 56 in the vicinity of the periphery of the recessed part 54, The rib 57 is formed radially toward the outer side from the thick part 56. As shown in FIG. Moreover, between the ribs 57 and the ribs 57, the cavity part 59 is formed, and the opposite side of the intermediate mold of the cavity part 59 is covered with the thin part 58. As shown in FIG. And in this embodiment, as shown in FIG. 4, the through-hole is formed in the thin part 58, and the hydraulic cylinder 60 of the ejector 51 enters into the cavity 59, respectively. And between the rods of the two hydraulic cylinders 60, the connecting plate 61 is provided in accordance with the surface on the opposite side of the intermediate mold of the movable plate 53. As shown in FIG. A hole is provided in the connecting plate 61 and is inserted through the guide 62 fixed to the movable plate 53. In addition, two rods 63 are fixed to the connecting plate 61 toward the movable mold 55. The rod 63 is inserted into a through hole provided in the mold opening / closing direction in a part of the thick portion 56 of the movable plate 53 and abuts against the back surface of the ejector plate 64 in the movable mold 55. In the ejector plate 64, a plurality of ejector rods 66 are attached to the cavity forming surface 65.

Moreover, in another embodiment, the ejector 51 is both sides of the recessed part 54 of the movable panel 53, and is not prevented when the nozzle or heating tube of the injection apparatus which is not shown in the figure passes through the recessed part 54. As shown in FIG. Each is attached to a location. When the ejector 51 is operated, the connecting plate 61, the rod 63, the ejector rod 66, and the like are moved forward by moving the rod of the hydraulic cylinder 60 in the retracting direction. Regarding the retracting of the ejector rod 66, the rod 63 and the ejector plate 64 may be connected to each other to retreat by the operation of the hydraulic cylinder 60, or may be retracted by a spring in the movable mold 55. do. Moreover, about the drive means of the ejector 51, you may use the electric motors, such as a servomotor. In addition, also about another embodiment, although the ejector 51 may be provided only in one half of the side by which secondary shaping | molding is performed, it is freedom of shaping | molding by providing the ejector 51 in the half in which the injection apparatus of both sides is outside. It is preferable at the point which improves. Moreover, the ejector 51 may be completely filled in the half of the recessed part 54 of the movable panel 53, and the rod 63 may directly protrude in the direction of the movable mold 55. As shown in FIG.

Next, an example in which a protruding device such as the ejector of the present invention is provided in the injection molding machine for a composite molded article of another embodiment will be described. Another embodiment of the injection molding machine for composite molding has a similar arrangement to Patent Literature 2, and is provided between a fixed plate, which is a first half, to which a fixed mold as a first mold is attached, and a movable plate, which is a second half to which a movable mold, which is a second mold, is attached. , The middle class is installed. A mold clamping cylinder is provided near four corners of the fixed plate, and the rod of the mold clamping cylinder is a tie bar. Each tie bar is inserted into the intermediate panel and the movable panel, respectively, and the intermediate panel and the movable panel are movable in the mold opening and closing direction with respect to the fixed panel. And the half nut which hangs on the engaging part of a tie bar is provided in the outer side of a movable panel. A rotating shaft and a rotating disk rotated about an axis perpendicular to the mold opening and closing direction are attached to the intermediate panel, and the intermediate molds are attached to the mold attaching surfaces on both sides of the rotating disk so as to correspond to the first mold and the second mold, respectively. It is.

In another embodiment of the injection molding machine for a composite molding, the first injection apparatus is provided on the outer side of the fixed plate in the same direction as the mold opening and closing direction, and the concave portion in which the nozzle of the injection device is inserted in the center of the surface opposite to the intermediate mold of the fixed plate. Formed. Moreover, the 2nd injection apparatus is provided in the same direction as the mold opening-and-closing direction also on the outer side of a movable panel, and the recessed part which inserts the nozzle of the said injection apparatus is formed in the center of the surface opposite the middle mold of a fixed panel. And the ejector which is a protrusion apparatus is arrange | positioned in the said recessed part inside or at the vicinity of a recessed part of at least one half of a fixed board and a movable board. Moreover, it is more preferable to provide an ejector in both a stationary board and a movable board.

In another embodiment, a mold opening and closing device is provided in which a middle panel (including a rotating disk or a middle mold) and a movable panel (including a movable mold) are respectively different with respect to one fixed panel (including a stationary mold). It is free to move. The type switching device may be a hydraulic cylinder or a motor. Moreover, the 2nd injection apparatus is also movable with a movable panel. In another embodiment, since the first injection apparatus on the fixed side does not need to be moved largely in accordance with mold opening and closing, a large injection apparatus can be installed, but the second injection apparatus is moved, so that a small injection apparatus may be used. In this case, if the ejector is provided on both the stationary plate and the movable plate, both the part molded from the molten resin injected from the large first injection device on the stationary side as the primary molded product or the secondary molded part can be formed. Increases the degree of freedom.

As for the intermediate mold to be attached to the injection molding machine for composite molded article of each of the above embodiments, there is no rotating plate on the side of the mold clamping device, and one intermediate block having a portion of the intermediate mold on both sides is detachably attached on the rotating shaft. You can do it. The number of intermediate molds is not limited to two but may be even numbers such as four or six. For example, in the case where the number of intermediate molds is four, when an ejector or the like is provided in a conventional intermediate mold, each is required, but in the present invention, an ejector or the like may be provided in at least one of the two halves.

In the above, although the protrusion provided in the injection molding machine for composite molded articles of each embodiment of this invention was demonstrated to the example used for an ejector, it is not limited to an ejector as long as it performs protrusion operation by moving another part to a mold opening / closing direction. . Specifically, the protruding device may be a driving device for protruding the gate cutter for cutting the gate between the cavity and the resin passage. In this case, since the primary molded product is preferably turned to the secondary molded side in the state of gate cutting, the protruding device on the primary molded side is used for protruding the gate cutter, and the protruding device on the secondary molded side by the ejector. It may be used for protruding complex molded articles. The protruding device may be used for a drive device for protruding the opening and closing member of the valve gate for opening and closing the hot runner.

11 Injection Molding Machine for Composite Moldings
12 type fastener
13 first injection device
14 2nd injection device
16 fixed board
18 turntables
20 intermediate mold
21st movable mold
23 2nd movable mold
22 first operation group
24 2nd operation group
27 type fastening cylinder
30, 31, 51 ejector
32, 38, 54 concave
36, 41 ejector pin
Axis in the direction orthogonal to the A-type opening and closing direction
C1 First Cavity
C2 2nd Cavity
P composite molding
P1 Primary Molded Product
P2 secondary forming part
P3 forming surface

Claims (4)

Between the first half to which the first mold is attached and the second half to which the second mold is attached, an intermediate mold rotated about an axis in a direction orthogonal to the mold opening and closing direction is provided corresponding to the first mold and the second mold. In the injection molding machine for a composite molded article, wherein the primary molded article is attached to the intermediate mold, the mold is released, the intermediate mold is rotated and moved, and the secondary molded part is further molded.
In the center of both the first half and the second half is formed a recess into which the nozzle of the injection apparatus installed along the mold opening and closing direction is inserted,
An injection molding machine for a composite molded article, wherein actuators, which are driving means for ejectors for protruding a composite product, are arranged in the recess or in the vicinity of the recess of at least one of the first and second panels.
2. The concave portion according to claim 1, wherein both the first half and the second half are formed with a recess into which a nozzle of an injection apparatus provided in the same direction as the mold opening and closing direction is inserted.
An injection molding machine for a composite molded article, wherein actuators, which are driving means for ejectors for protruding a composite product, are arranged in the recess or in the vicinity of the recess, respectively.
Between the first half to which the first mold is attached and the second half to which the second mold is attached, an intermediate mold rotated about an axis in a direction orthogonal to the mold opening and closing direction is provided corresponding to the first mold and the second mold. In the molding method of an injection molding machine for a composite molded article, wherein the primary molded article is attached to the intermediate mold, the mold is released, the intermediate mold is rotated and moved, and the secondary molded part is further molded.
In the center of both the first half and the second half is formed a recess into which the nozzle of the injection apparatus installed along the mold opening and closing direction is inserted,
At least one of them is a recess into which the nozzle of the injection apparatus used in the secondary molding is inserted.
Actuators which are driving means for ejectors for projecting a composite product are arranged in the recess or in the vicinity of the recess,
Method for molding an injection molding machine for a composite molded article, characterized in that the secondary molded composite molded article is projected by the ejector.
The concave portion according to claim 3, wherein both the first half and the second half are formed with a recess into which a nozzle of an injection apparatus provided in the same direction as the mold opening and closing direction is inserted.
Actuators serving as ejector driving means for projecting a composite product are arranged in the recess or in the vicinity of the recess, respectively.
A molding method of an injection molding machine for a composite molded article, according to the molding die to be attached, wherein the injection device used during the secondary molding and the ejector for protruding the composite molded article are changed.

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