JP2017148952A - Plunger type injection device having valve block provided at top of device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a plunger type injection device having a valve block connected at the top thereof, capable of minimizing the residual amount of a resin at injection, and thereby capable of preventing deterioration of a resin quality by carbonization or the like.SOLUTION: There is provided a plunger type injection device (4, 5) in which a valve block (7) is connected to the top of the plunger type injection device comprising the injection cylinders (13, 14), and plungers (16, 17) provided in the cylinders (13, 14) drivably in an axial direction. In the valve block (7), one valve (21) is provided, and the plungers (16, 17) are configured so that the tops thereof intrude into the flow channels (23, 23) in the valve block (7) at injection.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a plunger type injection device, and more specifically, a valve block including valves such as a flow path switching valve and an opening / closing valve is provided between the plunger type injection device and an injection portion such as an injection nozzle. The present invention relates to a plunger type injection device.

  The injection device can be roughly classified into an inline screw type and a plunger type. There are various types of plunger type, and there is also a plunger type injection device in which resin plasticization and injection are performed in the same device, and resin plasticization is performed in separate devices. Some plunger-type injection devices are designed to perform only injection. The former plunger-type injection device is plasticized and injected in the same device, so there is no need to receive molten resin from an external device, and a switching valve that switches the resin flow path is required. And not. However, for some purpose, for example, to prevent drooling, an open / close valve may be interposed between the injection portion such as the injection nozzle and the plunger type injection device. In the latter type of plunger type injection device, plasticizing is performed by a plasticizing device, which is another device, and a resin plasticized by this plasticizing device is metered into a plunger type injection device, and then injected. It has become. In such a plunger type injection device, the resin does not leak from the injection part such as the injection nozzle when receiving the supply of the plasticized resin in the plasticizing device at the time of measurement, and the resin flows back to the plasticizing device at the time of injection. In order to prevent this, a switching valve for switching the resin flow path is provided.

  The plunger type injection device belonging to the latter type is composed of a plasticizing device for plasticizing a resin and an injection device for injecting a resin. Hereinafter, these are collectively referred to as a plasticizing injection device. Documents 1 and 2 propose such a plasticizing injection apparatus.

Japanese Patent No. 3062629 Japanese Patent No. 2786243

  As shown in FIG. 5A, the plasticizing and injection apparatus 51 proposed in Patent Document 1 temporarily stores a molten resin and a plasticizing apparatus 52 that plasticizes or melts the resin. The accumulator device 53 and a plunger type injection device 54 for injecting molten resin are included. The plasticizing device 52 includes a heating cylinder 56 and a screw 57, and the resin supplied from the hopper 58 is melted and sent forward. The accumulator device 53 includes a cylinder 60 and a plunger 61 driven by a predetermined driving device, and the resin melted in the plasticizing device 52 is supplied to the cylinder 60. The injection device 54 includes an injection cylinder 63 and an injection plunger 64 driven by a predetermined driving device. The injection cylinder 63 is provided with a predetermined block, that is, a valve block 63a, and an injection nozzle is provided at the end of the valve block 63a. 65 is provided. The resin stored in the accumulator device 53 is supplied into the injection cylinder 63 through a flow path, and a first opening / closing valve 67 is interposed in the flow path. A second opening / closing valve 68 is interposed in the valve block 63a. In this plasticizing injection apparatus 51, the first on-off valve 67 and the second on-off valve 68 constitute a flow path switching mechanism for switching the resin flow path. When metering resin into the injection device 54, the first on-off valve 67 is opened, and the second on-off valve 68 is closed. The resin melted by the plasticizing device 52 and the resin stored by the accumulator device 53 are supplied to the injection device 54. When injecting from the injection device 54, the first on-off valve 67 is closed and the first on-off valve 68 is opened. When the injection plunger 64 is driven in the axial direction, the resin is injected from the injection nozzle 65. At this time, the injection plunger 64 remains in the injection cylinder 63. That is, the injection plunger 64 does not enter the valve block 63a. Although not described in detail because it is not directly related to the present invention, in this plasticizing injection apparatus 51, the plasticizing apparatus 52 is continuously implemented in the injection process and pressure holding process without interruption of plasticization. It has come to be.

  As shown in FIG. 5A, a plasticizing injection device 71 proposed in Patent Document 2 includes a plasticizing device 72 for plasticizing or melting a resin, and a plunger type for injecting the molten resin. The first and second injection devices 73 and 74 and a predetermined flow path switching mechanism for switching the flow path. The plasticizing device 72 includes a heating cylinder 76 and a screw 77, and melts the resin supplied from the hopper 78. The first and second injection devices include injection cylinders 80 and 81, an injection plunger. 82, 83, and the resin melted in the plasticizer 72 is weighed and injected. In the plasticizing injection apparatus 71, a flow path switching valve 85 constituting a flow path switching mechanism is provided at the tip of the plasticizing apparatus 72. Two flow paths of resin from the flow path switching valve 85, that is, first, The second resin supply channels 86 and 87 are branched and connected to the first and second injection devices 73 and 74. Depending on the switching position of the channel switching valve 85, one of the first and second resin supply channels 86, 87 communicates with the plasticizing device 72 and the other is shut off. In this plasticizing injection device 71, the resin injected from the first and second injection devices 73 and 74 is injected from the injection nozzle 91 via the first and second injection flow paths 89 and 90. However, first and second on-off valves 93 and 94 are interposed in the first and second injection flow paths 89 and 90, respectively. The flow path switching valve 85, the first and second resin supply flow paths 86 and 87, the first and second open / close valves 93 and 94, and the first and second injection flow paths 89 and 90 are made of resin. This is a flow path switching mechanism for switching the flow paths. The flow path switching mechanism is provided in a predetermined block, that is, the flow path switching block 92. Although not described in detail, by operating this flow path switching mechanism, the plasticizing device 52 can continuously plasticize the resin, and in one of the first and second injection devices 73 and 74, When the resin is weighed, it is injected from the other, and when it is injected from the other, the resin is weighed on the other side so that the metering and the injection can be performed alternately. By the way, in this plasticizing injection device 71 as well, when the first and second injection devices 73 and 74 are injected, the injection plungers 82 and 83 remain in the injection cylinders 80 and 81 and enter the flow path switching block 92. There is no.

  Both the plasticizing injection apparatus 51 described in Patent Document 1 and the plasticizing injection apparatus 71 described in Patent Document 2 can be said to be excellent because the plasticizing apparatuses 52 and 72 can continuously plasticize and inject the resin. . However, there are also problems to be solved. Specifically, when the plunger 61 and the injection plungers 82 and 83 extrude the resin at the time of injection, it can be said that there is a problem that a large amount of resin remains without being extruded. As described above, in the plasticizing injection apparatus 51 described in Patent Document 1, the plunger 61 does not enter the flow path in the valve block 63a. Also in the plasticizing injection device 71 described in Patent Document 2, the injection plungers 82 and 83 do not enter the flow path in the flow path switching block 92. Generally, the bores of the injection cylinders 63, 80, 81 are selected to have a larger diameter than the flow path in the valve block 63a, and the diameters of the plunger 61 and the injection plungers 82, 83 are also large. It cannot be said that it cannot enter into 63a or the flow path switching block 92, and it cannot be said that it cannot be structurally helped. However, the resin remains as much as these flow paths into which the plunger 61 and the injection plungers 82 and 83 cannot enter. Residual resin is exposed to high temperatures until the next injection. If it does so, resin may change and it may affect a molded article. This problem is not a problem that occurs only in the plasticizing injection devices 51 and 71 described in Patent Documents 1 and 2, but other plunger-type injection devices in which a valve is interposed between injection parts such as injection nozzles. This is a problem that generally occurs. That is, since the plunger of the injection device does not enter the valve block that houses the valve, the resin in the block stays.

  An object of the present invention is to provide a plunger type injection device that solves the above-mentioned conventional drawbacks or problems, and specifically, a valve is interposed between an injection portion such as an injection nozzle. An object of the present invention is to provide a plunger-type injection device capable of preventing the deterioration of quality such as carbonization of the resin in the plunger-type injection device, in which the residual amount of resin near the valve is as small as possible at the time of injection. Yes.

  In order to achieve the above object, the present invention is a plunger-type injection device comprising an injection cylinder and a plunger provided so as to be axially drivable within the injection cylinder. The plunger type injection device to which the block is connected is targeted. The valve block is provided with at least one valve, and the plunger is configured such that the tip of the plunger enters the flow path in the valve block at the time of injection.

That is, the invention described in claim 1 is a plunger-type injection device comprising an injection cylinder and a plunger provided so as to be axially drivable in the injection cylinder in order to achieve the above object. The injection cylinder has a valve block connected to the tip, the valve block is provided with at least one valve, and the tip of the plunger enters the flow path in the valve block at the time of injection. It is comprised as a plunger type injection device characterized by this.
According to a second aspect of the present invention, in the plunger type injection device according to the first aspect of the present invention, the injection causes the plunger to enter a position that substantially reaches a valve body that is a movable portion constituting the valve. It is configured as a plunger type injection device.
According to a third aspect of the present invention, in the plunger type injection device according to the first or second aspect, the inner diameter of the flow path in the valve block is equal to or larger than the inner diameter of the injection cylinder. Configured as a device.

  As described above, the present invention is configured as a plunger-type injection device that includes an injection cylinder and a plunger that can be driven in the axial direction within the injection cylinder. The injection cylinder has a valve block connected to the tip, and the valve block is provided with at least one valve. The plunger is configured such that the tip of the plunger enters the flow path in the valve block at the time of injection. Accordingly, since the resin in the valve block is pushed out by the amount that the tip of the plunger enters during injection, the residual amount of resin is small. That is, the amount of resin staying until the next injection is small. If it does so, alteration, such as resin being exposed to high temperature and carbonizing, can be prevented. According to another invention, at the time of injection, the plunger is configured to penetrate to a position that substantially reaches a valve body that is a movable part constituting the valve. Since the plunger penetrates to the position where it reaches the valve body, the residual amount of resin is further reduced.

It is sectional drawing which shows typically the plasticization injection apparatus provided with the 1st, 2nd plunger type injection device which concerns on embodiment of this invention, (a), (b) is the flow path switching of a valve block It is sectional drawing which shows the plasticization injection apparatus when the valve | bulb is each switched to the 1st, 2nd position. It is sectional drawing which shows typically the plunger type injection device and valve block which concern on the 2nd Embodiment of this invention, The (a) and (b) are in the position of the plunger before injection and after injection, respectively. It is sectional drawing of a plunger type injection apparatus and a valve block. It is sectional drawing which shows typically the plunger type injection apparatus and valve block which concern on the 3rd Embodiment of this invention, (a), (b) is the position of the plunger before injection and after injection, respectively. It is sectional drawing of a plunger type injection apparatus and a valve block. It is sectional drawing which shows typically the plunger type injection device and valve block which concern on the 4th Embodiment of this invention, The (a) and (b) are in the position of the plunger before injection and after injection, respectively. It is sectional drawing of a plunger type injection apparatus and a valve block. It is a figure which shows a prior art example, (a), (a) is sectional drawing which shows the plasticizing injection apparatus of patent documents 1, 2, respectively.

  Embodiments of the present invention will be described below. As shown in FIGS. 1A and 1A, the plasticizing / injecting apparatus 1 according to the present embodiment measures a plasticizing apparatus 2 that plasticizes or melts a resin, and measures the molten resin. Then, two plunger-type injection devices, i.e., first and second injection devices 4, 5 according to the present embodiment for injection, a valve block 7 for explaining the structure later, and an injection portion for injecting resin, i.e., an injection nozzle 8 It consists of and. As is well known, the plasticizing apparatus 2 is composed of a heating cylinder 10 and a screw 11 that rotates in the heating cylinder 10, and although not shown in the drawing, a heater is provided on the outer peripheral surface of the heating cylinder 10, and A hopper is provided at the rear end. Therefore, when the heating cylinder 10 is heated by the heater, the resin of the material is supplied from the hopper and the screw 11 is rotated, the resin is plasticized, that is, melted and sent to the front of the plasticizing apparatus 2. The first and second injection devices 4 and 5 include injection cylinders 13 and 14 and plungers 16 and 17 driven in the axial direction within the injection cylinders 13 and 14.

  The valve block 7 according to the present embodiment is a flow path switching mechanism that connects the plasticizing apparatus 2, the first and second injection apparatuses 4, 5 and the injection nozzle 8 and switches the flow path of the resin. In the present embodiment, the valve block 7 is formed in a substantially cubic shape. In such a valve block 7, a bore 19 is opened vertically from the upper surface of the cube. A valve body 20 which is a movable part to be described next is inserted into the bore 19, and a flow path switching valve 21 is constituted by these. By the way, the valve block 7 has a through-hole communicating with the bore 19 from the center of the four side surfaces constituting the cube. That is, the flow paths 23, 23,. The plasticizing device 2, the first and second injection devices 4, 5, and the injection nozzle 8 are connected to each of the four side surfaces of the valve block 7.

  The flow path switching valve 21 according to the present embodiment includes a bore 19 and a valve body 20, and the valve body 20 has a columnar shape and rotates within the bore 19. Two grooves having a predetermined length in the circumferential direction are formed on the outer peripheral surface of the valve body 20. These grooves are formed on the same height of the cylinder, and one groove is an arc in the range of 0 to 90 degrees when viewed from the central axis, and the other groove is in the range of 180 to 270 degrees. It is formed in the outer peripheral surface of the valve body 20 by predetermined depth so that it may become this circular arc. Such a valve body 20 is inserted into the bore 19, a first in-valve flow path 25 is formed from one groove and the bore 19, and a second in-valve flow path 26 is formed from the other groove and the bore 19. Will be composed. As described above, the valve body 20 can rotate in the bore 19, but can take two rotational positions, that is, first and second positions. When the flow path switching valve 21 takes the first position, as shown in FIG. 1A, the plasticizing device 2 and the first injection device 4 pass through the first intra-valve flow path 25. The second plasticizing device 5 and the injection nozzle 8 communicate with each other via the second in-valve channel 26. On the other hand, when the flow path switching valve 21 takes the second position, the plasticizing device 2 and the second injection device 5 pass through the first intra-valve flow path 25 as shown in FIG. The first plasticizing device 4 and the injection nozzle 8 communicate with each other via the second in-valve channel 26. Since the flow path switching valve 21 can be switched in this way, in the plasticizing / injecting apparatus 1 according to the present embodiment, the plasticizing apparatus 2 plasticizes the flow path switching valve 21 in the first position. While the resin is being metered to the first injection device 4, the second injection device 5 can drive the plunger 17 to inject the resin from the injection nozzle 8, and set the flow path switching valve 21 to the second position. In the first injection device 4, the plunger 16 can be driven to inject the resin from the injection nozzle 8 while measuring the resin to be plasticized by the plasticizer 2 to the second injection device 5. That is, plasticizing can be continuously performed in the plasticizing device 2, and metering and injection can be alternately performed by the first and second injection devices 4 and 5.

  In the present embodiment, the injection cylinders 13 and 14 of the first and second injection devices 4 and 5 have the same inner diameter as the inner diameters of the flow paths 23 and 23 in the valve block. Or it is slightly smaller than the internal diameter of the flow paths 23 and 23 in the valve block. The bores of the injection cylinders 13 and 14 and the flow passages 23 and 23 in the valve block are coaxial. These are the major features of the present embodiment. With this feature, when the plungers 16 and 17 are driven in the axial direction during injection, the plunger tip portions 28 and 29 pass smoothly through the tip portions of the injection cylinders 13 and 14 and enter the valve block 7 smoothly. be able to. In FIG. 1A, the plunger tip 29 of the second injection device 5 is shown, and in FIG. 1A, the plunger tip 28 of the first injection device 4 is shown in the flow path 23 in the valve block. A state is shown in which it has substantially penetrated into the vicinity of the valve body 20. In the present embodiment, since the plunger tip portions 28 and 29 penetrate deeply into the valve block 7 in this way at the time of injection, the residual amount of resin in the valve block 7 can be minimized. It is possible to prevent deterioration due to the resin staying for a long time.

  The present invention can be implemented by other embodiments, and FIGS. 2A and 2B show an injection device 4 ′ and a valve block 7 according to the second embodiment. ing. The plasticizer 2, the injection nozzle 8, and the like are connected to the three side surfaces of the valve block 7 as in the previous embodiment, but are omitted in the drawing. The injection device 4 'according to the second embodiment is characterized by the shape of the plunger tip 28'. That is, the shape of the tip 28 a ′ of the plunger tip 28 ′ matches the shape of the groove surface 31 of the valve body 20. In this embodiment, at the time of injection, the plunger tip 28 'can be inserted into the valve body 20 as shown in FIG. This can further reduce the amount of resin remaining in the valve block 7 at the time of injection.

  3A and 3A show an injection device 4 ″ and a valve block 7 according to the third embodiment. The plasticizer 2, the injection nozzle 8, and the like are connected to the three side surfaces of the valve block 7 as in the first embodiment, but are omitted in the figure. The injection device 4 '' according to the third embodiment has two features. The first feature is that the inner diameter of the injection cylinder 13 ″ is larger than the diameter of the flow path 23 in the valve block. Therefore, the outer diameter of the plunger tip 28 "is increased in accordance with the inner diameter of the injection cylinder 13". The second feature of this embodiment is that a protrusion 32 is provided at the tip of the plunger tip 28 ''. The protrusion 32 is formed in a cylindrical shape, and its diameter is substantially equal to the diameter of the flow path 23 in the valve block. Therefore, at the time of injection, when the plunger 16 ″ is driven as shown in FIG. 3A, the protrusion 32 of the plunger tip 28 ″ can enter the valve block flow path 23. That is, the third embodiment can also reduce the amount of resin remaining in the valve block 7 at the time of injection.

  In the first to third embodiments, the valve provided in the valve block 7 is the flow path switching valve 21 for switching the flow path, but the present invention can be implemented even with an open / close valve for opening and closing the flow path. . 4A and 4A show an injection device 4A according to a fourth embodiment in which a valve block 7A having an opening / closing valve 35 is provided at the tip. The opening / closing valve 35 includes a bore 19A opened in the valve block 7A and a valve body 20A, and a through hole 36 penetrating in the diameter direction is formed in the valve body 20A. The diameter of the through hole 36 is equal to the diameter of the flow path 23A in the valve block. When injecting in this embodiment, as shown in FIG. 4A, the opening / closing valve 35 is rotated to connect the resin flow path. The injection cylinder 13, the valve block flow passage 23A, and the through hole 36 have the same inner diameter, and are arranged coaxially at this rotational position. Therefore, when the plunger 16A is driven, the plunger tip 28A is only in the valve block flow passage 23A. In addition, the valve body 20A can penetrate smoothly. In this embodiment, there is almost no amount of resin remaining in the valve block 7A at the time of injection.

By the way, in the first to fourth embodiments, it has been described that the injection part is composed of the injection nozzle 8, but a T-die that extrudes resin in a film shape can also be adopted as the injection part. Moreover, although it has been described that only one valve 21 and 35 is provided in the valve block 7 and 7A, a plurality of valves may be provided. For example, as an example of a valve block provided with a plurality of valves, a flow path switching block such as the plasticizing injection apparatus 71 proposed in Patent Document 2 can be cited.

DESCRIPTION OF SYMBOLS 1 Plasticization injection apparatus 2 Plasticization apparatus 4 1st injection apparatus 5 2nd injection apparatus 7 Valve block 8 Injection nozzle 10 Heating cylinder 11 Screw 13, 14 Injection cylinder 16, 17 Plunger 19 Bore 20 Valve body 21 Flow path switching Valve 23 Flow path in valve block 25 First flow path in valve 26 Second flow path in valve 28, 29 Plunger tip 35 Open / close valve

Claims (3)

A plunger-type injection device comprising an injection cylinder and a plunger provided so as to be axially drivable in the injection cylinder,
A valve block is connected to the tip of the injection cylinder,
The valve block is provided with at least one valve,
The plunger-type injection device is characterized in that a tip of the plunger enters a flow path in the valve block at the time of injection.   2. The plunger-type injection device according to claim 1, wherein the plunger penetrates to a position substantially reaching a valve body that is a movable part constituting the valve at the time of injection.   The plunger injection device according to claim 1 or 2, wherein an inner diameter of a flow path in the valve block is equal to or larger than an inner diameter of the injection cylinder.

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