KR100907948B1 - Injection Molding Machine - Google Patents

Abstract

The present invention relates to an injection molding machine, according to the present invention, a lower fixing plate formed with a through hole into which a plurality of nozzles are inserted; And an insertion hole provided between the plurality of nozzles and the lower fixing plate, the nozzle head being supported to prevent the plurality of nozzles from penetrating the lower fixing plate and spreading between the manifold and the plurality of nozzles by thermal expansion. Reinforcement plate is formed; By including the above, a technique capable of preventing the occurrence of a gap between the head and the manifold of the nozzle due to the thermal deformation is disclosed.

Description

Injection molding machine

1 is a view showing a cross section of a conventional injection molding machine.

2 and 3 is a view showing a partial cross section of a conventional injection molding machine.

4 is a cross-sectional view of an injection molding machine according to an embodiment of the present invention.

5 is a perspective view showing a reinforcing plate used in the injection molding machine of the present invention.

Figure 6 is a perspective view showing another reinforcing plate used in the injection molding machine of the present invention.

Explanation of symbols on the main parts of the drawings

10; Injection molding machine 1; Nozzle locate

2; Upper fixing plate 3; Manifold

5; Nozzle pin 6; Nozzle

6a; Nozzle 6b; Nozzle head

7; Piston 20; Lower plate

21; Receptacle 22; Through hole

30,30 '; Gusset 31; parenthesis

31a; Through hole 31b; Step surface

The present invention relates to an injection molding machine, and more particularly to a technique for preventing the leakage of the molten resin.

The general injection molding machine is as described in the Republic of Korea Patent Registration No. 20-1996-0096556 (the name of the design: valve device for opening and closing the injection port of the injection nozzle of the injection molding machine, hereinafter referred to as 'prior art') .

As shown in Figures 1 to 3, the injection molding machine of the prior art is a nozzle locate 1 is installed on the upper fixing plate 2, the manifold (3) is installed below the upper fixing plate (2), The lower fixing plate 4 is provided below the manifold 3. Here, the nozzle 6 is attached to the lower fixing plate 4, and the nozzle head is caught and supported by the step surface 4a of the lower fixing plate 4.

Looking at the operation state of the conventional injection molding machine, the molten resin injected from the nozzle locator (1) meets the nozzle pin (5) through the resin flow path (P) of the manifold (3) and then through the nozzle (6) nozzle ( 6 is injected through the injection port 6a. At this time, the nozzle pin 5 opens and closes the injection port 6a of the nozzle 6 while operating in the vertical direction by the piston 7, and determines the injection amount of the molten resin.

The conventional injection molding machine is installed on the lower fixing plate 4 so that the load of the upper fixing plate 2 provided with the manifold 3 and the piston 7 is transmitted to the nozzle 6.

Here, the manifold 3 and the upper fixing plate 2 are made of metal, so that the weight is large and the load is also considerable.

However, the nozzle 6 is supported by the nozzle head 6b only through the stepped surface 4a of the lower fixing plate 4, so that the load due to thermal expansion of the manifold 3 or the upper fixing plate 2 is lowered. There is no choice but to concentrate on the step surface 4a of (4).

As time goes by, as shown in Fig. 3, the stepped surface 4a is concentrated with the load due to thermal expansion of the manifold 3 and the upper fixing plate 2, so that the stepped surface 4a is formed by the nozzle head 6b. Little by little. Accordingly, the gap h1 is formed between the manifold 3 and the nozzle 6 by the depth h2 in which the stepped surface 4a is recessed.

At this time, when the injection molding machine is operated, the molten resin leaks through the gap h1 formed between the manifold 3 and the nozzle 6.

This may cause a big disruption in the production of the product, and the production of the product may be stopped, and a defective product may be generated because the amount of molten resin injected is not constant.

In addition, the product production rate and product production rate is lowered, which is also the cause of the increase in the defective rate.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an injection molding machine which prevents the manifold and the nozzle from spreading and prevents the molten resin from leaking between the manifold and the nozzle.

The present invention includes an upper stationary plate, a piston installed on the upper stationary plate, a nozzle pin installed on the piston, a manifold installed on a lower end of the upper stationary plate, and a plurality of nozzles installed at a lower end of the manifold and formed with a nozzle head. An injection molding machine comprising: a lower fixing plate having a through hole into which the plurality of nozzles are inserted; And an insertion hole provided between the plurality of nozzles and the lower fixing plate, the nozzle head being supported to prevent the plurality of nozzles from penetrating the lower fixing plate and spreading between the manifold and the plurality of nozzles by thermal expansion. Reinforcement plate is formed; Characterized in that it comprises a.

The lower fixing plate has a receiving portion on the upper surface of the lower fixing plate so that the reinforcing plate is fixed without flow from the lower fixing plate; It is another feature that is formed.

The reinforcement plate is characterized in that the insertion hole is formed stepped so that a portion of the nozzle head is inserted so that the nozzle is firmly fixed to the reinforcement plate.

The reinforcing plate is another feature of increasing the wear resistance by surface hardening after forming the insertion hole.

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

4 to 5, the injection molding machine 10 according to an embodiment of the present invention is the upper fixing plate 2, the piston (7), the nozzle pin (5), the manifold (3), a plurality of nozzles (6), the lower fixing plate 20 and the reinforcing plate (30).

Here, the nozzle locator 1, the upper fixing plate 2, the piston 7, the nozzle pin 5, the manifold 3 and the plurality of nozzles 6 shown in FIG. The description is outlined in the description, and a detailed description thereof will be omitted.

The lower fixing plate 20 is installed under the manifold 3, and a plurality of through holes 22 into which the plurality of nozzles 6 are inserted are formed.

Here, the lower fixing plate 20 may be formed with an accommodating portion 21 into which the reinforcing plate 30 is inserted. This prevents the reinforcing plate 30 from flowing from the lower fixing plate 20.

The reinforcing plate 30 is formed such that the insertion hole 31 into which the plurality of nozzles 6 are inserted on the upper surface corresponds to the number of the nozzles 6, and is inserted into the receiving portion 21 of the lower fixing plate 20. The reinforcing plate 30 is to form the insertion hole 31 first and then to strengthen the surface through the heat treatment.

Here, the insertion hole 31 of the reinforcing plate 30 may be formed of a stepped surface 31b on which the nozzle head 6b is supported and a through hole 31a into which the body of the nozzle 6 is inserted. Accordingly, the nozzle 6 is inserted into the through hole 22 of the lower fixing plate 20 through the through hole 22 of the nozzle 6, and the nozzle head 6b is inserted into the reinforcing plate. It is supported by the step surface 31b of (30). Therefore, the nozzle head 6b is prevented from directly contacting the lower fixing plate 20 to prevent the lower fixing plate 20 from being dug due to the load due to the thermal expansion of the upper fixing plate 2 and the manifold 3. Can be.

By the role of the reinforcing plate 30 as described above can prevent the gap between the nozzle 6 and the manifold (3) to prevent the molten resin from leaking. Of course, since the reinforcing plate 30 is in contact with the lower fixing plate 20 in a large area, the pressing force applied to the lower fixing plate 20 by the reinforcing plate 30 is dispersed, so that the lower fixing plate 20 is the reinforcing plate 30. There is no worry about being defeated by.

On the other hand, although the reinforcing member (not shown) smaller than the reinforcing plate 30 may be provided for each nozzle 6, the load due to the thermal expansion of the upper fixing plate 2 and the manifold (3) by the reinforcing plate 30 In consideration of the convenience of installation and the convenience of processing, it is highly desirable to have one reinforcing plate 30 and to form a plurality of insertion holes 31 therein.

Meanwhile, the reinforcement plate 30 may be formed of a material having high wear resistance and hardness. As described above, the reinforcing plate 30 forms an insertion hole 31 in the reinforcing plate 30 and then forms an outer surface of the reinforcing plate 30. It may be provided by fabricating by surface hardening, that is, heat treatment or carburization.

Accordingly, the strength and hardness of the reinforcement plate 30 can be increased, and the reinforcement in which the nozzle head 6b receiving the load of the upper fixing plate 2, the piston 7 and the manifold 3 receives the concentrated load Digging into the stepped surface 31b of the plate 30 can be further prevented. As a result, the gap between the manifold 3 and the nozzle 6 can be further prevented, and leakage of the molten resin can be prevented more effectively.

For reference, the surface hardening treatment of the reinforcing plate 30 may be considered first, but if the surface of the reinforcing plate 30 is very hard, it is difficult to process the insertion hole 31 in consideration of the processability of the insertion hole 31. After the insertion hole 31 is formed, the reinforcing plate 30 is preferably surface hardened.

Moreover, only the insertion opening 31 part of the reinforcement board 30 can also be used by surface-hardening. Accordingly, the reinforcing plate 30 can be prevented from being deformed, and the cost for the surface hardening treatment can also be reduced.

On the other hand, the reinforcing plate 30, as shown in Figure 5, the insertion hole 31 has been described as being formed in a line, but can be used to manufacture a reinforcement plate formed with a multi-row insertion hole by those skilled in the art, As shown in the drawing, it may be used to produce a disk-shaped reinforcement plate (30 '). That is, the position of the insertion hole 31 formed in the reinforcement plate according to the form provided with the plurality of nozzles is also appropriately formed accordingly.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but the above-described embodiments are only described with reference to the preferred examples of the present invention, and thus the present invention is limited to the above embodiments. It is not to be understood that the invention is to be understood and interpreted within the scope of the appended claims and their equivalents.

As described above, the injection molding machine according to the present invention prevents the nozzle head from penetrating the lower reinforcement plate by installing a reinforcement plate between the nozzle and the lower reinforcement plate, thereby preventing the molten resin from leaking between the manifold and the nozzle. There is. Accordingly, there is an effect of improving the product production speed and lowering the product defect rate.

Claims (5)

delete delete An injection molding machine including an upper fixing plate, a piston installed on the upper fixing plate, a nozzle pin installed on the piston, a manifold installed on a lower end of the upper fixing plate, and a plurality of nozzles installed on a lower end of the manifold and having a nozzle head. In A lower fixing plate having a through hole into which the plurality of nozzles are inserted; And An insertion hole provided between the plurality of nozzles and the lower fixing plate, the nozzle head being supported to prevent the plurality of nozzles from digging into the lower fixing plate by thermal expansion and thus spreading between the manifold and the plurality of nozzles. Formed reinforcing plate; Including, The reinforcing plate is injection molding machine, characterized in that to increase the wear resistance by the surface hardening treatment after forming the insertion hole. The method of claim 3, wherein The lower fixing plate has a receiving portion on the upper surface of the lower fixing plate so that the reinforcing plate is fixed without flow from the lower fixing plate; Injection molding machine, characterized in that is formed. The method of claim 3, wherein The reinforcement plate is an injection molding machine characterized in that the insertion hole is formed stepped so that a portion of the nozzle head is fixed to the reinforcement plate.

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