KR100482102B1 - resin injection molding machine - Google Patents

Abstract

The present invention relates to a resin injection molding machine, which is sequentially installed through the movable holder (8) and the movable plate (9) so as to be linearly moved along the penetrating direction. And the other end comprises an ejector rod 15 having an ejector block 16 integrally coupled with a closed space C formed therebetween when the stationary plate 3 and the movable plate 9 are joined together. In the resin injection molding machine, a coolant inlet pipe 21 and a coolant discharge pipe 22 for cooling the ejector block 16 using coolant are respectively formed in the ejector rod 15. It is installed along the longitudinal direction to cool the resin filled in the closed space (C) by using the cooling water inlet pipe (14) installed in the cooling water passage (14) and the ejector rod (15) installed on the fixed plate (3). By the It is able to maximize the effectiveness of each, so as to be a quality Chengdu This is largely the product (S) product (S) appears to be the improvement in durability and appearance to be produced.

Description

Resin injection molding machine

The present invention relates to a resin injection molding machine, and more particularly, to a resin injection molding machine in which a coolant pipe is installed in an ejector rod to increase durability of a product produced by injection molding and to improve appearance quality.

In general, plastic parts, such as a bumper of a vehicle, are produced through an injection molding machine using a resin, and the resin injection molding machine is largely as shown in FIG. 1 and a stationary molding machine 2 and a movable molding machine 2. ), A fixed plate (3) is integrally coupled to the front of the fixed molding machine (1) via a plurality of assembly bolts (3a), and a plurality of low-tight plate rod (4a) on the front of the movable molding machine (2) Combining through the lower mill plate (4a) and selectively installed to be spaced apart from the movable molding machine (2) in accordance with the operation of the lower mill plate (4a), a plurality of assembly bolts ( The movable molding machine is provided with a medium-tight plate 5 and an upper-tight plate 6 which are installed to be sequentially overlapped with each other via 5a and 6a, and a space 7 spaced apart from the front surface of the upper-tight plate 6 by a predetermined distance. A movable holder 8 coupled to the front surface of the assembly via a mounting bolt 8a; The lower part of the lower plate (4) is installed on the front surface of the (8) as a medium, and the front and rear of the lower mold plate (4) is selectively male and female combined with the front and rear of the fixed mold plate (3) It consists of a movable die plate 9 which becomes.

That is, the fixed plate (3) and the movable plate (9) are separated while being combined or spaced apart at regular intervals, each of which is selectively male and female according to the operation of the stationary molding machine (1) and the operation of the lower tight plate (4). It is configured to repeatedly perform the operation.

In addition, in the stationary molding machine 1 and the stationary plate 3, a connecting passage 11 for integrally connecting them is formed, and in the connecting passage 11, an injection nozzle 12 for injecting resin is installed. A nozzle heater 13 for preventing hardening of the resin present in the nozzle is provided around the injection nozzle 12.

When the stationary plate 3 and the movable plate 9 are integrated with each other, a sealed space C having a predetermined size is formed between the stationary plate 3 and the movable plate 9. ) Is the same as the shape of the product to be injection molded, and the closed space (C) has a structure in which the tip of the injection nozzle 12 is connected.

In addition, a plurality of cooling water passages 14 are formed in the stationary plate 3 while being spaced apart at predetermined intervals, respectively, and the cooling water passages 14 are formed to be adjacent to the sealed space C.

In addition, the ejector rod 15 having a predetermined length is installed on the upper dense plate 6, and the ejector block 16 having a predetermined size is integrally coupled to the tip of the ejector rod 15, and the ejector block is integrated. The tip of 16 has a structure that is installed to be connected to the sealed space (C).

That is, one end of the ejector rod 15 is coupled to the upper dense plate 6 by an assembly bolt 15a, and the other end is spaced between the upper dense plate 6 and the movable holder 8. Passed through the movable holder (8) and is installed to be located in the movable plate (9), the position is a position close to the sealed space (C) described above, the ejector block coupled to the tip of the ejector rod (15) It is structured to be connected to the closed space (C) through (16).

The ejector rod 15 installed as described above frictions with the movable holder 8 and the movable die 9 when the lower mill 4 is spaced apart from the movable molding machine 2 by the operation of the lower mill 4a. The linear movement of the ejector block 16 is performed by protruding to the front surface of the movable plate 9.

Hereinafter, the operation of the resin injection molding machine will be described with reference to FIGS. 1 and 2.

First, when the movable molding machine 2 is moved to the stationary molding machine 1 while the stationary plate 3 and the movable plate 9 are spaced apart from each other by a predetermined interval, the movable plate 9 and the stationary plate The front surface of (3) is combined with each other male and female, thereby forming a sealed space (C) of a certain size naturally between the fixed plate 3 and the movable plate (9).

After the molding of the stationary plate 3 and the movable plate 9 is completed, resin is injected through the injection nozzle 12, and the resin injected through the injection nozzle 12 is the sealed space C. ) Is completely filled.

Subsequently, the resin filled in the sealed space C is preheated for a predetermined time, and the shape of the resin S is made of a product S of a vehicle such as a bumper, and the shape of the product S is also made. At the same time as the product (S) is cooled by the cooling water circulating the cooling water passage 14, the work of the product is finished.

As such, after the shape of the product S is completely finished, the movable molding machine 2 moves backwardly spaced apart from the stationary molding machine 1, and thus the stationary plate 3 and the movable plate plate that have been molded together are formed. 9) are separated from each other by the retraction movement of the movable molding machine (2).

At this time, the product (S) made of a predetermined shape using the resin is in a state seated on the front of the movable plate (9), whereby the product (S) is fixed plate (3) during the retreat movement of the movable molding machine (2) It is to be moved together with the movable plate 9 while being separated from.

On the other hand, after the retraction movement of the movable molding machine 2 is finished, the lower mill 4 is separated from the front surface of the movable molding machine 2 by the operation of the lower mill plate 4a as shown in FIG. The advance operation is spaced apart at intervals, and thus the ejector rod 15 coupled to the upper dense plate 6 also moves forward in the direction penetrating the movable holder 8 and the movable die 9.

As such, when the ejector rod 15 moves forward according to the operation of the lower plate 4, the ejector block 16 coupled to the distal end of the ejector rod 15 is the front of the movable plate 9. The product (S) is finished from the movable die plate (9) and the operator removes the product (S) separated from the movable die plate (9) from the ejector block (16) by the resin injection molding machine. You will end your one-time job.

However, the conventional resin injection molding machine as described above does not distribute the cooling water passage 14 evenly including the sealed space C formed between the stationary plate 3 and the movable plate 9. When the resin filled with C) is cooled by the cooling water circulating in the cooling water passage 14, there is a problem in that a certain section of the product S contacting the ejector block 16 cannot be effectively cooled.

In addition, if the product (S) is made through the poor cooling process as described above, some sections of the product (S) that is not sufficiently cooled, the durability is weakened than the other sections where the cooling is sufficient, the overall product (S) There was also a problem that the quality of the product (S) is also reduced in appearance, resulting in a deterioration of the quality.

Accordingly, the present invention has been made to solve the above problems, by installing a coolant pipe in the ejector rod to provide a cooling effect to the ejector block is not affected by the cooling water passage, sealing between the fixed plate and the movable plate When the resin filled into the space is cooled by the coolant, it provides a resin injection molding machine that can cool the whole section of the product evenly and thereby greatly increase the durability and the appearance quality of the produced product. There is a purpose.

In order to achieve the above object, the present invention, while moving through the movable holder and the movable die in sequence to be linearly moved along the through direction, one end is installed by bolting coupling on the upper dense plate and the other end is movable with the stationary plate In the resin injection molding machine comprising an ejector rod which is integrally coupled to the ejector block connected to the sealed space formed therebetween when the template is joined to each other, the ejector rod for cooling the ejector block using a coolant Cooling water inlet pipe and the cooling water discharge pipe is characterized in that each is installed along the longitudinal direction of the ejector rod.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a longitudinal cross-sectional view for explaining the ejector rod according to the present invention, will be described with the same reference numerals to the same parts as the conventional structure.

The injection molding machine according to the present invention is integrated with a fixed molding machine 2 and a movable molding machine 2 and a plurality of assembly bolts 3a on the front surface of the fixed molding machine 1 as described above with reference to FIG. 1. The movable plate forming machine 2 is selectively coupled to the fixed mold plate 3 coupled to the front surface of the movable molding machine 2 by the operation of the lower plate loading rod 4a. Low-thickness plate 4 which is installed to be spaced apart from the middle, and a heavy-tight plate 5 and an upper-tight plate 6 which are sequentially installed on the front surface of the lower-tight plate 4 through a plurality of assembling bolts 5a and 6a. ) And a movable holder 8 having a space portion 7 spaced apart from the front surface of the upper dense plate 6 by an assembly bolt 8a on the front surface of the movable molding machine 2; The lower plate 4 is spaced apart from the movable molding machine 2 while being installed on the front surface of the movable holder 8 via the assembling bolt 9a. The front consists of a movable pattern plate 9 to be haphyeong as the male and female coupled to the front and optionally the fixed plate 3, in accordance with.

That is, the fixed plate (3) and the movable plate (9) are separated while being combined or spaced apart at regular intervals, each of which is selectively male and female according to the operation of the stationary molding machine (1) and the operation of the lower mill (4) It is configured to repeatedly perform the operation.

In addition, in the stationary molding machine 1 and the stationary plate 3, a connecting passage 11 for integrally connecting them is formed, and in the connecting passage 11, an injection nozzle 12 for injecting resin is installed. A nozzle heater 13 for preventing hardening of the resin present in the nozzle is provided around the injection nozzle 12.

When the stationary plate 3 and the movable plate 9 are integrated with each other, a sealed space C having a predetermined size is formed between the stationary plate 3 and the movable plate 9. ) Is the same as the shape of the product to be injection molded, and the closed space (C) has a structure in which the tip of the injection nozzle 12 is connected.

In addition, a plurality of cooling water passages 14 are formed in the stationary plate 3 while being spaced apart at predetermined intervals, respectively, and the cooling water passages 14 are formed to be adjacent to the sealed space C.

In addition, the ejector rod 15 having a predetermined length is installed on the upper dense plate 6, and the ejector block 16 having a predetermined size is integrally coupled to the tip of the ejector rod 15, and the ejector block is integrated. The tip of 16 has a structure that is installed to be connected to the sealed space (C).

That is, one end of the ejector rod 15 is coupled to the upper dense plate 6 by an assembly bolt 15a, and the other end is spaced between the upper dense plate 6 and the movable holder 8. Passed through the movable holder (8) and is installed to be located in the movable plate (9), the position is a position close to the sealed space (C) described above, the ejector block coupled to the tip of the ejector rod (15) It is structured to be connected to the closed space (C) through (16).

The ejector rod 15 installed as described above frictions with the movable holder 8 and the movable die 9 when the lower mill 4 is spaced apart from the movable molding machine 2 by the operation of the lower mill 4a. The linear movement of the ejector block 16 is performed by protruding to the front surface of the movable plate 9.

Meanwhile, in the ejector rod 15, a coolant inflow pipe 21 and a coolant discharge pipe 22 for cooling the ejector block 16 using the coolant as shown in FIG. 3 are respectively ejector rod 15. The structure is formed integrally along the longitudinal direction of the.

Here, the ejector rod 15 is formed integrally with the coolant inlet 15b and the coolant discharge hole 15c. The coolant inlet 15b is connected to the coolant inlet pipe 21. In addition, the cooling water discharge hole 15c has a structure connected to the cooling water discharge pipe 22.

In addition, the coolant inlet pipe 21 is installed to be wrapped by the coolant discharge pipe 22.

In addition, the cooling water flowing into the cooling water inflow pipe 21 is introduced together when the cooling water flows into the cooling water passage 14 to cool the resin filled in the sealed space C.

Therefore, the resin is filled through the injection nozzle 12 into the sealed space C naturally formed when the stationary plate 3 and the movable plate 9 are combined, and the resin filled into the sealed space C is manufactured. When the coolant flows through the coolant passage 14 to form the shape of S), when the coolant also flows into the coolant inlet pipe 21 installed in the ejector rod 15 according to the present invention, the coolant passage 14 The ejector block 16, which could not achieve the cooling effect alone, is also cooled together by the coolant inlet pipe 21 according to the present invention, thereby maximizing the cooling effect of the resin filled in the closed space (C).

As such, when the cooling effect is added to the ejector block 16 using the coolant inlet pipe 21 according to the present invention, the entire area of the sealed space C may be evenly cooled. In addition, as the durability of the product (S) produced is increased, there is an advantage that can significantly improve the quality of the product (S) seen in appearance.

As described above, according to the present invention, the resin filled in the sealed space can be cooled by using the coolant passage installed on the stationary plate and the coolant inlet pipe installed in the ejector rod, thereby maximizing the cooling effect of the resin. As a result, the durability of the product to be produced and the quality of the visible product can be greatly improved.

1 and 2 is a schematic configuration diagram for explaining a general resin injection molding machine,

3 is a longitudinal sectional view for explaining the ejector rod according to the present invention.

<Description of Symbols for Main Parts of Drawings>

1-Stationary Molding Machine 2-Movable Molding Machine

3-fixed plate 6-upper plate

8-movable holder 9-movable plate

15-ejector rod 15b-coolant inlet

15c-Coolant outlet 16-Ejector block

21-Coolant inlet pipe 22-Coolant outlet pipe

C-Enclosed Space S-Products

Claims (3)

The movable holder 8 and the movable die 9 are sequentially penetrated and positioned so as to be linearly moved along the penetrating direction, one end of which is installed by bolting on the upper dense plate 6 and the other end of the fixed die 3. In the resin injection molding machine comprising an ejector rod (15) integrally coupled to the ejector block (16) connected to the closed space (C) formed therebetween when the movable die (9) is integrated with each other, In the ejector rod 15, a coolant inlet pipe 21 and a coolant discharge pipe 22 for cooling the ejector block 16 using the coolant are installed along the longitudinal direction of the ejector rod 15, respectively. Resin injection molding machine. The resin injection molding machine as claimed in claim 1, wherein the cooling water inlet pipe (21) is installed to be wrapped by the cooling water discharge pipe (22). The resin of claim 1, wherein the cooling water flowing into the cooling water inflow pipe (21) is introduced together when the cooling water flows into the cooling water passage (14) to cool the resin filled in the closed space (C). Injection molding machine.