JP2016030368A - Liquid material injection apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an injection apparatus which is suitable for injection of a liquid resin material, and has a small plane area of the apparatus.SOLUTION: An injection apparatus is formed by combining a quantitative supply mechanism 40 which has a small capacity and injects a second liquid resin material 36 with an in-line type screw injection machine 20 for injecting a first liquid resin material 29; and injects only one of the first liquid resin material 29 and the second liquid resin material 36.EFFECT: A quantitative supply mechanism having a small injection quantity has a sufficiently small size, compared to an in-line type screw injection machine. As a result, a plane area of the apparatus can be remarkably reduced.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a liquid material injection apparatus for injecting a liquid resin material into a mold.

  Although the present invention is not limited to a liquid material injection apparatus used for two-color molding, the two-color molding method will be described as a conventional technique because it is easy to understand.

  Conventionally, a two-color molding method has been put to practical use. That is, a resin material of a certain color is injected by the first injection machine, and when the resin material is solidified, a resin material of another color is injected by the second injection machine. In this case, two injection machines are prepared for one mold (see, for example, Patent Document 1 (FIG. 1)).

Patent document 1 is demonstrated based on the following figure.
FIG. 9 is a diagram for explaining a basic configuration of the conventional technique. A first injection machine 103 and a second injection machine 104 are connected to one nozzle 101 via a connection holding body 102. For example, the first injection machine 103 supplies the A color resin material to the nozzle 101, and the second injection machine 104 does not inject during this period. Next, B resin material is supplied to the nozzle 101 by the second injection machine 104, and the first injection machine 103 is not injected during this period.

In general, the first injection machine 103 and the second injection machine 104 are placed on a common platform 105. The platform 105 is moved from the nozzle touch position to the nozzle standby position by the moving cylinder 106.
Since the plane area of the table 105 is large, it is difficult to densely arrange a large number of injection devices in the work place.

In addition, an index called range-ability is known for control valves and the like. This range ability is defined as the ratio between the maximum flow rate and the minimum flow rate that can be controlled, and is expressed as (maximum flow rate ÷ minimum flow rate): 1.
Range ability exists also in the injection machines 103 and 104, and it is said that it is about 5: 1 in an in-line type screw injection machine.

In recent years, in addition to a molten resin material, a liquid resin material has been injected into a mold. The liquid resin material may be rich in fluidity and can be injection-molded widely from a minute product to a large product. As a result, a large range ability exceeding 10: 1 is required.
However, the technique of Patent Document 1 has a rangeability of about 5: 1 and is not suitable for injection of a liquid resin material.

  As the molding of the liquid resin material becomes widespread, an injection device suitable for injection of the liquid resin material and having a small plane area is desired.

Japanese Patent No. 2966177

  An object of the present invention is to provide an injection device that is suitable for injection of a liquid resin material and has a small plane area.

The invention according to claim 1 is a liquid material injection device for injecting a liquid resin material into a mold,
An in-line screw injection machine that accommodates a screw in a heating cylinder so as to be rotatable and reciprocally movable, and is provided with a nozzle at the tip, and a three-way valve at the nozzle and a material inlet;
A first liquid material supply mechanism for supplying the first liquid resin material to the heating cylinder;
A quantitative supply mechanism for injecting the second liquid resin material in an amount of a fraction of the injection amount of the in-line type screw injection machine that injects the first liquid resin material by the forward action of the screw;
A material supply path that extends from the quantitative supply mechanism to the material inlet and supplies the second liquid resin material to the nozzle;
A second liquid material supply mechanism for supplying the second liquid resin material at a constant pressure to the quantitative supply mechanism,
One of the first liquid resin material and the second liquid resin material is injected into a mold.

  The invention according to claim 2 is characterized in that the first liquid resin material and the second liquid resin material are materials having different properties.

The invention according to claim 3 is a liquid material injection device for injecting a liquid resin material into a mold,
An in-line screw injection machine that accommodates a screw in a heating cylinder so as to be rotatable and reciprocally movable, and is provided with a nozzle at the tip, and a three-way valve at the nozzle and a material inlet;
A liquid material supply mechanism for supplying the liquid resin material to the heating cylinder;
A quantitative supply mechanism for injecting a liquid resin material in an amount of a fraction of the injection amount of the in-line type screw injection machine that injects the liquid resin material by the forward action of the screw;
A first material supply path that extends from the quantitative supply mechanism to the material inlet and supplies the liquid resin material to the nozzle;
An adapter is detachably provided between the heating cylinder and the nozzle, and includes a second material supply path for supplying the liquid resin material from the heating cylinder to the quantitative supply mechanism in a state where the adapter is not in communication with the nozzle. It is characterized by.

    In the invention which concerns on Claim 4, the 2nd material supply path is provided with the non-return valve which accept | permits the flow from an adapter to a fixed quantity supply mechanism, and does not allow the flow from a fixed quantity supply mechanism to an adapter, .

  The invention according to claim 5 is characterized in that the three-way valve includes a valve actuator that switches the three-way valve so that one of the first liquid resin material and the second liquid resin material or the liquid resin material is injected into the mold. To do.

  The invention according to claim 6 is characterized in that the nozzle is provided with a shut-off valve.

In the invention according to claim 1, an in-line type screw injection machine that injects the first liquid resin material and an amount of the second liquid resin material that is a fraction of the injection amount of the in-line type screw injection machine is injected. And a quantitative supply mechanism. Rangeability can be expanded with an in-line screw injection machine and a quantitative supply mechanism. In addition, the fixed quantity supply mechanism with a small injection amount is sufficiently small as compared with the in-line type screw injection machine. As a result, the plane area of the apparatus can be made much smaller than the plane area of the conventional apparatus shown in Patent Document 1.
That is, according to the present invention, an injection device suitable for injection of a liquid resin material and having a small plane area is provided.

  In the invention which concerns on Claim 2, a 1st liquid resin material and a 2nd liquid resin material are materials of a mutually different property. The first liquid resin material and the second liquid resin material may be the same material. However, if different materials are used, various molded products can be obtained, and the injection device can be effectively used.

In the invention according to claim 3, the material supply of the liquid resin material is shared by the in-line type screw injection machine. That is, it was set as the structure which can be supplied to a fixed_quantity | feed_rate supply mechanism through a direct injection | emission or a material supply path with the detachable adapter. In this case, it is not possible to inject alternately like a two-color molding machine, but the material supply path can be unified, and an optimum configuration can be selected according to the timing of material change or mold change. it can. And since an in-line type screw injection machine is shared, a liquid material injection device is small.
That is, according to the present invention, an injection device suitable for injection of a liquid resin material and having a small plane area is provided.

  In the invention which concerns on Claim 4, since the 2nd material supply path is provided with the non-return valve, there is no fear that the resin material flows backward from the fixed quantity supply mechanism to the adapter.

  According to a fifth aspect of the present invention, the three-way valve includes a valve actuator that switches the three-way valve so that one of the first liquid resin material and the second liquid resin material or the liquid resin material is injected into the mold. The three-way valve may be either manual or automatic, but an automatic valve equipped with a valve actuator can improve the efficiency of the injection work and increase productivity.

  Compared to non-liquid resin materials, liquid resin materials are likely to leak from the tip of the nozzle. Therefore, in the invention according to claim 6, the resin material is prevented from leaking by providing the nozzle with a shut-off valve.

It is a block diagram of the liquid material injection device which concerns on this invention. FIG. 2 is an enlarged view of part 2 of FIG. 1. It is an action figure of a three-way valve. It is a figure explaining range ability. It is a block diagram of another liquid material injection device. FIG. 6 is an enlarged view of 6 parts in FIG. 5. It is an effect | action figure of a shut-off valve. It is a figure which shows the form of the liquid material injection device except an adapter. It is a figure explaining the basic composition of the conventional technology.

  Embodiments of the present invention will be described below with reference to the accompanying drawings. A preferred embodiment according to claim 1 will be described with reference to FIGS. 1 to 4, and a preferred embodiment according to claim 3 will be described with reference to FIGS. 5 to 8.

  As shown in FIG. 1, the liquid material injection device 10 accommodates a screw 22 in a heating cylinder 21 so as to be rotatable and reciprocally movable, and is provided with a nozzle 23 at a tip, and a three-way valve 60 (details will be described later). And an in-line screw injector 20 having a material inlet 25. An injection cylinder 26 and a screw rotation mechanism 27 are provided at the rear of the heating cylinder 21, and a distance meter 28 is provided at the base of the screw 22.

  Further, a first liquid material supply mechanism 30 that supplies the first liquid resin material 29 to the heating cylinder 21 is provided. The first liquid material supply mechanism 30 is heated from, for example, a first container 31 that stores the first liquid resin material 29, a first pump 32 attached to the first container 31, and a discharge port of the first pump 32. The first supply path 33 extends to the base of the cylinder 21 and supplies the first liquid resin material 29 into the heating cylinder 21.

When the screw 22 is rotated in a predetermined direction by the screw rotation mechanism 27, the first liquid resin material 29 passes through the spiral groove of the screw 22, reaches the tip of the screw 22, and accumulates there. With this accumulation, the screw 22 moves (reverses) in a direction away from the nozzle 23. This movement amount (reverse travel amount) is measured by the distance meter 28. The amount of the stored first liquid resin material 29 is obtained by calculating the outer diameter of the screw 22 × the movement amount = the storage amount. When this amount reaches a predetermined value (for example, 20 cm ³ ), the rotation of the screw 22 is stopped. Next, the screw 22 is advanced by the injection cylinder 26 to inject the first liquid resin material 29 from the nozzle 23 into the mold 34.

  In addition, the liquid material injection device 10 includes a quantitative supply mechanism 40 that injects the second liquid resin material 36 in an amount (for example, ¼) of a fraction of the injection amount of the in-line type screw injection machine 20. The material supply path 41 that extends from the quantitative supply mechanism 40 to the material inlet 25 and supplies the second liquid resin material 36 to the nozzle 23, and the second liquid that supplies the constant-pressure second liquid resin material 36 to the quantitative supply mechanism 40. And a material supply mechanism 50.

  The second liquid material supply mechanism 50 includes a second container 51 that stores the second liquid resin material 36, a second pump 52 attached to the second container 51, and a second pump 52 that extends from the discharge port of the second pump 52. And a supply path 53. The second supply path 53 is provided with a pressure reducing valve 54 corresponding to a constant pressure valve.

  The fixed amount supply mechanism 40 includes a cylinder 42, a piston 43 that is accommodated in the cylinder 42 so as to be reciprocally movable, and a piston moving means 44 that moves the piston 43. The second liquid resin material 36 having a constant pressure is weighed. Since the second liquid resin material 36 is measured at a constant pressure, the measurement accuracy is remarkably increased. The measured second liquid resin material 36 is pushed by the piston 43 and supplied to the material inlet 25 via the material supply path 41.

Preferably, a check valve 55 is provided in the second supply path 53, and a check valve 56 with a spring is provided in the material supply path 41. When the check valve 55 is opened, the second liquid resin material 36 is stored in the cylinder 42. At this time, since the spring check valve 56 is closed by the biasing action of the spring, there is no fear that the second liquid resin material 36 in the cylinder 42 leaks to the nozzle 23 side.
When the piston 43 is advanced (lowered in the drawing), the check valve 55 is closed and the spring check valve 56 is opened, so that the second liquid resin material 36 is supplied to the nozzle 23.

As shown in FIG. 2, the three-way valve 60 includes a spherical main body 61, a straight main passage 62 having a hole diameter d1, and a branching at a right angle from the middle of the main passage 62, d2 being smaller than the hole diameter d1. The branch passage 63 is provided. For example, d1: d2 is 2: 1.
The valve body 61 is rotated by a valve actuator 64. In FIG. 2, the material inlet 25 is closed by a valve body 61. Since the main passage 62 is aligned in the nozzle hole 65, the first liquid resin material 29 indicated by the quantity Q is injected from the nozzle 23.

  As shown in FIG. 3, when the valve actuator 64 is rotated 90 ° clockwise by the valve actuator 64, the main passage 62 is connected to the material inlet 25 and the branch passage 63 is connected to the nozzle hole 65. The second liquid resin material 36 indicated by the quantity q flows through the half of the main passage 62 and the branch passage 63 and is injected from the nozzle 23.

In the in-line type screw injection machine 20 described in FIG. 1, the maximum injection amount is 20 cm ³ .
As shown to Fig.4 (a), it is desired to control in the 20 to 90% area | region which cut 90% or more and 20% or less which a flow tends to become unstable. Then, a preferable range ability is 4.5: 1.

In the quantitative supply mechanism 40 described in FIG. 1, the maximum value of the injection amount is 5 cm ³ .
As shown in FIG. 4 (b), it is desired to control in the region of 20 to 90% where 90% or more and 20% or less where the flow tends to become unstable are cut. Then, a preferable range ability is 4.5: 1.

As shown in FIG. 4 (c), when FIGS. 4 (a) and 4 (b) are overlapped, a liquid material injection device having a maximum injection amount of 18 cm ³ , a minimum injection amount of 1 cm ³ and a range ability of 18: 1. Is obtained.
That is, it is possible to form a small product to a large product with one liquid material injection device.

  The first liquid resin material 29 and the second liquid resin material 36 may be the same material or different materials. If different materials are used, a wider variety of molded products can be obtained, and the use of the liquid material injection device can be expanded.

  In FIG. 2, the three-way valve 60 may be manually operated, but the automatic valve including the valve actuator 64 can improve the efficiency of the injection work and increase the productivity.

  Further, as shown in FIG. 1, the in-line type screw injection machine 20 is mounted on a stand 68 that is moved back and forth by a moving cylinder 67, but the stand 68 is sufficiently narrow. And since it is small capacity | capacitance, the fixed_quantity | feed_rate supply mechanism 40 is small enough and can be mounted on the heating cylinder 21 or the injection cylinder 26, or can be mounted on the stand 68. As a result, the plane area of the liquid material injection device 10 can be made much smaller than the plane area of the conventional device.

  The first liquid material supply mechanism 30 and the second liquid material supply mechanism 50 are configured such that the liquid resin material is supplied from separate liquid resin material supply mechanisms for the main agent and the curing agent, and combined to form a liquid resin material injection device. It may be changed appropriately, such as supply.

Next, a modification of the liquid material injection device will be described.
As shown in FIG. 5, the liquid material injection device 10B accommodates a screw 22 in a heating cylinder 21 in a rotatable and reciprocating manner, a nozzle 23 at the tip, a three-way valve 60 at the nozzle 23 and a material. An inline screw injection machine 20 having an inlet 25, a liquid material supply mechanism 30B for supplying the liquid resin material 29B to the heating cylinder 21, and an inline screw injection machine for injecting the liquid resin material 29B by the forward action of the screw 22. A fixed quantity supply mechanism 40 that injects a liquid resin material 29B in a quantity that is a fraction of the injection quantity of 20, and a liquid resin material 29B that extends from the fixed quantity supply mechanism 40 to the material inlet 25 and supplies the liquid resin material 29B to the nozzle 23. 1 material supply path 69, and adapter 70 is detachably provided between heating cylinder 21 and nozzle 23. From the heating cylinder 21 in communication with and a second material supply path 71 for supplying a liquid resin material 29B to metering mechanism 40.

Preferably, the second material supply path 71 includes a check valve 72 that allows the flow from the adapter 70 to the quantitative supply mechanism 40 and does not allow the flow from the quantitative supply mechanism 40 to the adapter 70.
The first material supply path 69 is also provided with a check valve 56. Backflow from the nozzle 23 to the quantitative supply mechanism 40 and from the quantitative supply mechanism 40 to the adapter 70 can be prevented.
The other constituent elements are the same as those in FIG. 1, and detailed description thereof is omitted.

  First, the liquid resin material 29B is supplied to the heating cylinder 21 by the liquid material supply mechanism 30B. The liquid resin material 29 </ b> B is supplied to the quantitative supply mechanism 40 by the screw 22. The fixed amount supply mechanism 40 supplies a small amount of a small amount of the liquid resin material 29B to the nozzle 23 and discharges it from the nozzle 23 to the mold 34.

Next, an example of the structure of the adapter 70 will be described.
As shown in FIG. 6, the adapter 70 includes a tube portion 73, a tube-side flange 75 provided at one end of the tube portion 73 and fastened to the heating tube 21 with a screw 74, and the other end (tip) of the tube portion 73. And a nozzle side flange 77 to which the nozzle 23 is fastened with a screw 74, and an outlet 79 of the in-cylinder passage 78. A second material supply path 71 is connected to the outlet 79.

Preferably, a shutoff valve 80 is built in the tip of the nozzle 23.
As shown in FIG. 7, the shut-off valve 80 includes a pointed valve body 81, a valve cylinder 82 that accommodates the valve body 81 so as to be movable in the axial direction, and the valve body 81 toward the shut (valve closed) side. The valve spring 83 is energized. When the valve is closed, the valve element 81 hits the inner surface of the nozzle 23 at a point 84.

When the pressure of the liquid resin material 29B is low, the valve closed state is maintained by the urging force of the valve spring 83.
The valve body 81 is provided with a stepped portion 85 so that the entire valve body 82 does not enter. A force directed leftward in the drawing is applied to the stepped portion 85 by the pressure of the liquid resin material 29B. On the other hand, a rightward force is applied to the tapered surface 86 of the valve body 81 by the pressure of the liquid resin material 29B. The left and right forces are offset.

  Between the starting point 87 and the point 84 of the stepped portion, only the rightward force on the drawing is applied to the valve body 81 by the pressure of the liquid resin material 29B. The force applied between the starting point 87 and the point 84 increases in proportion to the pressure of the liquid resin material 29B. Therefore, when the pressure of the liquid resin material 29B increases and a rightward drawing force that exceeds the urging force of the valve spring 83 is generated, the valve body 81 moves and the valve is opened.

  In FIG. 5, when the supply of the quantitative supply mechanism 40 is stopped and the pressure of the liquid resin material 29 </ b> B in the nozzle 23 decreases, the shutoff valve 80 mechanically closes the nozzle 23. As a result, it is possible to reliably prevent the liquid resin material 29B from leaking from the nozzle 23.

When it is necessary to switch the supply amount of the liquid resin material 29B from a small amount to a large amount by exchanging the mold 34 or the like, the pattern change is performed in the following procedure.
In FIG. 6, the first material supply path 69 is removed from the material inlet 25, and the second material supply path 71 is removed from the outlet 79. Next, the screw 74 is loosened to separate the adapter 70 from the heating cylinder 21 and the nozzle 23. Next, the nozzle 23 is directly attached to the heating cylinder 21 with a screw 74.

  As a result, the liquid material injection device 10C having the form shown in FIG. 8 can be obtained. The three-way valve 60 is turned to bring the heating cylinder 21 and the nozzle 23 into communication. It is recommended that the material inlet 25 be plugged with a plug 88. Liquid leakage from the material inlet 25 can be prevented and intrusion of dust can be prevented. A large amount of liquid resin material can be discharged from the nozzle 23 by the liquid material injection device 10C.

  The adapter 70, the first and second material supply paths 69 and 71, and the fixed amount supply mechanism 40 are stored after cleaning, and are interposed between the heating cylinder 21 and the nozzle 23 when necessary. 5 and 8 can be easily obtained.

  That is, the material supply of the liquid resin material is shared by the in-line type screw injection machine 20. That is, it is configured such that it can be supplied directly to the fixed amount supply mechanism 40 via the injection or material supply path 71 by the detachable adapter 70. In this case, it is not possible to inject alternately like a two-color molding machine, but the material supply path can be unified, and an optimum configuration can be selected according to the timing of material change or mold change. it can. Moreover, since the storage amount of the in-line type injection machine 20 is sufficiently larger than the capacity of the quantitative supply mechanism 40, sufficient kneading is achieved via the screw 22 to stabilize the density and quality of the liquid resin material. Can do.

  The shutoff valve 80 may be applied to the liquid material supply apparatus 10 shown in FIG.

  The present invention is suitable for a liquid material injection apparatus for injecting a liquid resin material into a mold.

  DESCRIPTION OF SYMBOLS 10, 10B, 10C ... Liquid material injection apparatus, 20 ... In-line type screw injection machine, 21 ... Heating cylinder, 22 ... Screw, 23 ... Nozzle, 25 ... Material inlet, 29 ... First liquid resin material, 29B ... Liquid resin material 30 ... first liquid material supply mechanism, 30B ... liquid material supply mechanism, 34 ... mold, 36 ... second liquid resin material, 40 ... quantitative supply mechanism, 41 ... material supply path, 50 ... second liquid material supply mechanism , 60 ... three-way valve, 64 ... valve actuator, 69 ... first material supply path, 70 ... adapter, 71 ... second material supply path, 72 ... check valve, 80 ... shut-off valve.

Claims (6)

A liquid material injection device for injecting a liquid resin material into a mold,
An in-line screw injection machine that accommodates a screw in a heating cylinder so as to be rotatable and reciprocally movable, and is provided with a nozzle at the tip, and a three-way valve at the nozzle and a material inlet;
A first liquid material supply mechanism for supplying the first liquid resin material to the heating cylinder;
A quantitative supply mechanism for injecting the second liquid resin material in an amount of a fraction of the injection amount of the in-line type screw injection machine that injects the first liquid resin material by the forward action of the screw;
A material supply path that extends from the quantitative supply mechanism to the material inlet and supplies the second liquid resin material to the nozzle;
A second liquid material supply mechanism for supplying the second liquid resin material at a constant pressure to the quantitative supply mechanism,
One of said 1st liquid resin material and said 2nd liquid resin material is inject | emitted to a metal mold | die, The liquid material injection apparatus characterized by the above-mentioned.   2. The liquid material injection apparatus according to claim 1, wherein the first liquid resin material and the second liquid resin material are materials having different properties. A liquid material injection device for injecting a liquid resin material into a mold,
An in-line screw injection machine that accommodates a screw in a heating cylinder so as to be rotatable and reciprocally movable, and is provided with a nozzle at the tip, and a three-way valve at the nozzle and a material inlet;
A liquid material supply mechanism for supplying the liquid resin material to the heating cylinder;
A quantitative supply mechanism for injecting a liquid resin material in an amount of a fraction of the injection amount of the in-line type screw injection machine that injects the liquid resin material by the forward action of the screw;
A first material supply path that extends from the quantitative supply mechanism to the material inlet and supplies the liquid resin material to the nozzle;
An adapter is detachably provided between the heating cylinder and the nozzle, and includes a second material supply path for supplying the liquid resin material from the heating cylinder to the quantitative supply mechanism in a state where the adapter is not in communication with the nozzle. A liquid material injection device characterized by comprising:   The said 2nd material supply path is provided with the non-return valve which accept | permits the flow from the said adapter to the said fixed_quantity | feed_rate supply mechanism, and does not permit the flow from the said fixed_quantity | feed_rate supply mechanism to the said adapter. The liquid material injection device described.   The valve is provided with a valve actuator for switching the three-way valve so as to inject one of the first liquid resin material and the second liquid resin material or the liquid resin material into the mold. The liquid material injection device according to claim 1 or 3.   The liquid material injection device according to claim 1, wherein the nozzle is provided with a shut-off valve.

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