JPS63252705A - Molding device for double layer parison - Google Patents

Abstract

PURPOSE:To prevent generation of what is called stringing at the time of taking out of a parison, by providing in the injection nozzle a gate valve which can open or close an injection nozzle. CONSTITUTION:When a first injection device 26 is actuated, main resin is begun to be cast within a cavity 18 and an injection piston of the first injection device 26 has made a predetermined quantity of a stroke, a second injection device 34 begins an injection of intermediate layer resin 52, and a part of the main resin 50, which is not solidified, within the cavity 18 is caused to flow and an intermediate layer is formed. Then the second injection device 34 and first injection device 26 are suspended in this order. All of the resin in a passage 19 of the cavity 18 and an injection nozzle 20 is regarded as the main resin 50 as the injection of the second injection device 34 is suspended first like this. With this construction, as a gate valve 38 is kept closed at the time of taking out of a prison 54, the main resin 50 on an injection nozzle 20 side is not pulled up in a form of a stringing state.

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Industrial Application Field The present invention relates to a multilayer parison forming apparatus.

(b) Prior Art In order to improve the gas permeability or heat resistance of plastic containers such as polyester containers, those having a multilayer structure are used. For example, polyester is combined with an ethylene vinyl alcohol copolymer to improve gas permeability, and polynisdel is combined with a heat-resistant resin such as polyarylate resin. Stretch blow molding is used to produce multilayer plastic containers, which requires the production of multilayer parisons. Conventional techniques related to the production of multilayer parisons include JP-A-61-230911 and JP-A-61-37404.
Publication No. 57-128516, Japanese Patent Publication No. 1987-128516
There are those disclosed in Japanese Patent Application Laid-open No. 254325, Japanese Patent Application Laid-open No. 61-219644, Japanese Patent Publication No. 56105-1987, and the like. For example, in Japanese Patent Application Laid-open No. 61-230911,
A method for producing a multilayer parison is shown in which an annular auxiliary resin flow is formed between a solid main resin flow and an annular main resin flow, and is filled into a mold cavity from an injection nozzle. ing.

(c) Problems to be Solved by the Invention However, the conventional multilayer parison molding apparatus as described in 1- above was not equipped with a mechanism to open and close the injection nozzle, which may result in molding defects. There is a problem. That is, when taking out the parison after molding the parison, since the injection nozzle on the runner pro-ink side and the cavity side of the mold are in communication, the resin on the injection nozzle side that has not been cooled is pulled up by the parison in the form of a thread. This causes so-called stringiness. This thread-like resin adheres to the inside of the mold, causing molding defects during the next parison molding.Furthermore, thread-like parts also adhere to the parison, causing defects during stretch blow molding. There is a possibility that it will be a good product. Another problem is that after the parison is removed, the molten resin may rise from the injection nozzle side to the mold cavity side. This is because the resin is pushed up by residual pressure inside the injection device, sprue runner, etc. As described above, when the molten resin rises toward the mold cavity side, the amount of injected resin becomes inaccurately measured, and the stability of molding decreases. The present invention aims to solve the above problems.

(d) Means for Solving the Problems The present invention solves the problems listed in (1) above by providing a gate valve in the injection nozzle. That is, in the multilayer parison molding apparatus according to the present invention, a gate valve is provided in the injection nozzle that serves as an inlet for resin into the mold cavity, and the gate valve is provided with a movable valve that is movable in the axial direction. The injection nozzle is closed by bringing the tip of the rod into contact with the injection nozzle, and opened by releasing the contact.

(e) Function When molding a multi-layer parison, the gate valve is opened and molten resin is injected from multiple injection devices. A multilayer structure is formed with other resins that have passed through. After injection is completed, the gate valve is closed when the resin has cooled down to a certain extent and the flow of the resin has stopped. The parison is then further cooled and then removed from the mold. Since the gate valve is closed when the parison is taken out, so-called stringing of the resin does not occur, and the resin does not bulge due to residual pressure. As a result, a good multilayer parison molded product can be produced in a stable state.

(F) Embodiment FIG. 1 shows an embodiment of the present invention. A mold 10 and a runner block 12 are arranged in a vertically overlapping state. A movable mold 16 that can be moved up and down by a mold opening/closing cylinder 14 can be inserted into the inner diameter of the mold 10, and a cavity 18 is formed between the mold 10 and the movable mold 16 with the movable mold 16 inserted. . The lower end of the cavity 18 is a passage 19
The injection nozzle 20 of the runner block 12 is reached by this. The mold 10 has a heat medium passage 22, and the temperature can be adjusted by flowing a heat medium through this. The injection nozzle 20 communicates with a first sprue runner 24 of the runner block 12. The main resin can be injected into the first sprue runner 24 from a first injection device 26 . 1st
A movable rod 28 is provided so as to pass through the center part of the sprue runner 24, and this movable rod 28 is integrally connected to a piston 32 disposed within a cylinder 30, so that it can move up and down. be. The inner diameter portion of the hollow movable rod 28 communicates with a second sprue runner 36 , into which the intermediate layer resin can be injected from the second injection device 34 . When the tip of the movable port 28 is raised upward by -1, it can come into close contact with the injection nozzle 20 and close it. That is, the movable rod 28 constitutes a gate valve 38 that can open and close the injection nozzle 20.

FIG. 2 specifically shows the inside of the runner block 12.

The injection nozzle 20 is provided with a heat insulating material 40, and the end portion of the iJJ rotating rod 28 is in close contact with most of the passage provided therein.

The tip of the movable rod 28 is constructed by joining separate members with excellent wear resistance by welding or the like. Beaters 42, 43.4 are installed in the runner block 12.
4 and 45 are provided to maintain the temperature of the molten resin. Note that the cavity 18 as shown in FIG. 1 is provided on eight sides of one mold 10, for example, and a gate valve 38 is provided on each side, and the first sprue runner 24 and the second sprue runner The sprue runners 36 are arranged for a plurality of cavities 18 in one mold 10 as shown in FIGS. 3 and 4, respectively, and the length of the sprue runners for each cavity 18 is the same. be.

Next, the operation of this embodiment will be explained.

First, the mold opening/closing syringe 14 is activated, the movable mold 16 enters the cavity 18, and the mold is clamped.

Then, the piston 32 moves toward the center of FIG. 1, and the gate valve 38 is opened. At the same time, the first injection device 26 is activated and the main resin begins to be injected into the cavity 18.

When the injection piston of the first injection device 26 strokes a predetermined amount (at this time, the main resin 50 is injected into the cavity 18 as shown in FIG. 5), the second injection device 34 injects the intermediate layer resin. 52 is started, and as shown in FIG. 6, the unsolidified portion of the main resin 50 in the cavity 18 flows to form an intermediate layer. Next, first the second injection device 34 stops injection, and then the first injection device 26 stops.
9. Stop. By first stopping the injection of the second injection device 34 in this way, the resin in the passage 19 of the cavity 18 and the injection nozzle 20 is all made into the main resin 50, as shown in FIG. In this state, when the resin is cooled to some extent and stops flowing, the gate valve 38 is closed. Next, the parison 54 is cooled to around the drawing temperature and taken out from the mold 10 as shown in FIG. When the parison 54 is taken out, since the gate valve 38 is closed, the main resin 50 on the injection nozzle 20 side will not become stringy and be pulled up. Therefore, IL is prevented from adhering thread-like resin to the parison 54, and molding defects due to this do not occur. In addition, the filamentous resin fills the cavity 18.
This also prevents the occurrence of problems such as adhesion inside the mold and adversely affecting the next molding. Further, since the gate valve 38 is closed, the main resin does not bulge from the injection nozzle 20 toward the cavity 18, and the amount of resin in the next injection is accurately measured as specified. In addition, as shown in FIGS. 3 and 4, the sprue runners 24 and 3
Since the length of each cavity 18 is the same, each cavity 18 is filled uniformly, and a parison 54 of stable quality can be obtained.

FIG. 9 shows a second embodiment of the present invention. This second embodiment is for molding a five-layer parison. That is, in addition to the sprue runner 24 for the main resin and the sprue runner 36 for the intermediate layer resin, a sprue runner 60 for the adhesive layer resin is provided, and the adhesive layer resin is injected from the third injection device 62 into the sprue runner 60 for the adhesive layer resin. By injecting the resin, an adhesive layer is formed between the main resin and the intermediate layer resin. In this case as well, since the gate valve 38 is provided, the same effect and function as in the first embodiment described above can be achieved.
effect can be obtained.

(g) As described in detail, according to the present invention, the injection nozzle is provided with a gate valve that can be opened and closed, making it possible to prevent so-called stringing from occurring when taking out the parison. , a molded product of good quality can be molded, and the amount of resin can be measured more accurately by preventing swelling of the resin, and stable molding can be performed.

[Brief explanation of drawings]

Figure 1 is a diagram showing a multilayer parison molding apparatus according to the present invention, Figure 2 is a diagram showing details of the runner block, Figure 3 is a diagram showing the arrangement of the main resin sprue runner, and Figure 4 is a diagram showing the intermediate layer. FIG. 5, FIG. 6, FIG. 7 and FIG. 8 are diagrams showing a resin sprue runner, respectively, sequentially showing the parison molding process, and FIG. 9 is a diagram showing a second embodiment of the present invention. 10...Mold, 12...Runner block, 18.
...Cavity, 20...Injection nozzle, 24.36.
... Sprue runner, 26°34... Injection device, 2
8...Movable rod, 38...Gate valve.

Claims (1)

[Scope of Claims] 1. A mold forming a cavity, a runner block having an injection nozzle for feeding molten resin from a plurality of sprue runners into the cavity, and a plurality of runner blocks capable of injecting molten resin to each of the plurality of sprue runners. injection device;
In a multi-layer parison molding device having a runner block, the injection nozzle can be closed by bringing the tip of a movable rod movable in the axial direction into contact with the injection nozzle, and the tip of the movable rod A multi-layer parison molding apparatus, characterized in that a gate valve is provided that can open an injection nozzle by releasing contact with the gate valve. 2. The multilayer parison molding device according to claim 1, wherein the inner diameter portion of the movable rod is configured as a passage for one molten resin, and the outer periphery of the movable rod is configured as a passage for another molten resin. .