KR100708996B1 - Supporting frame of injection molding machine - Google Patents

Abstract

The present invention relates to a mold and a support frame for supporting the injection portion of the injection molding machine. The support frame 50 according to the present invention includes a lower horizontal beam 51 disposed in parallel with the ground, and arranged in parallel at intervals above the lower horizontal beam 51 and on the ejection part 10 and the shape thereon. And an inclined beam 54 that is inclinedly connected at a predetermined angle θ between the lower horizontal beam 51 and the upper horizontal beam 52 on which the unit 20 is installed. According to such a support frame 50, by the force (F) of the impact force due to the collision of the movable plate 22 and the stationary plate 23 of the body portion 20 and the inertial force according to the linear movement of the movable plate 22. Since the component force acting on the inclined beam 54 has a relatively small structural strength, it is possible to reduce the vibration caused by the impact force and the inertial force.

Injection, mold, template, frame, vibration

Description

Supporting frame of injection molding machine

1 is a schematic configuration diagram of a general injection molding machine.

Figure 2 is a perspective view of a conventional support frame.

3 is a perspective view of a support frame according to the present invention.

4 is an enlarged view of a portion of FIG. 3.

<Explanation of symbols for the main parts of the drawings>

10: injection part 20: mold part

22: movable plate 23: fixed plate

50: support frame 51: lower horizontal beam

52: upper horizontal beam 54: oblique beam

The present invention relates to a support frame of an injection molding machine, and more particularly to a support frame of an injection molding machine having a high rigidity and low vibration structure.

In general, an injection molding machine heat-melts a supplied water support material in an injection part, injects it at a high pressure into a mold of a mold part, and then cools and hardens it, and then opens the mold to obtain a cured product.

As illustrated in FIG. 1, the injection molding machine includes an injection part 10 for melting a resin raw material, a mold part 20 for molding a water support material melted in the injection part 10 into a desired shape, and an injection part 10. And a support frame 30 for supporting the mold part 30.

The injection part 10 heats and melts the resin while the screw (not shown) moves linearly and rotates in the heating cylinder 11, and the melted resin is transferred into the cavity inside the mold 21 of the mold part 20. Is injected. In the injection part 10, vibration is generated by the inertia force and the repulsive force during the straight and rotational movement of the screw, and the vibration is transmitted to the mold part 20 as it is through the frame 30 to cause vibration to the entire injection molding machine. do.

In addition, the mold 21 of the mold part 20 is composed of a movable mold plate 22 and a stationary mold plate 23, and the movable mold plate 22 moves forward and backward toward the stationary plate plate 23 to perform a mold opening and closing operation. The molded article is injected, cooled and cured. Due to the inertial force caused by the movement of the movable die 22 and the impact force generated when the movable die 22 and the stationary die 23 collide with each other, a large vibration occurs in the mold 20.

Since the vibration generated in the injection part 10 and the mold part 20 is transmitted to the support frame 30 supporting them as it is, the rigidity of the support frame 30 should be increased to increase the quality of the molded product and the injection molding machine. Durability can be guaranteed.

As shown in Figure 2, the conventional support frame 30, the lower horizontal beam 31 is installed parallel to the ground, and the lower horizontal beam 31 and the parallel to the spaced apart in the vertical direction spaced apart in the injection portion It is a truss structure which consists of the upper horizontal beam 32 which supports the 10 and the shape part 20, and the several vertical beam 33 which connects vertically between the lower and upper horizontal beams 31 and 32. FIG. By the way, the main vibration source of the injection molding machine is the impact force due to the collision of the movable plate 22 and the stationary plate 23 in the mold portion 20 and the inertial force at the time of movement of the movable plate 22, the combined force of such impact force and inertia force (F) is a vector component in the same direction as the longitudinal direction of the horizontal beams 31 and 32, and acts perpendicularly to the vertical beam 33 at 90 degrees with respect to the longitudinal direction. Therefore, the vertical beam 33 causes vibration or fatigue destruction of the entire support frame 30 by the action of the impact force and the inertia force.

The present invention was developed in order to solve the above problems, by arranging some of the unit beams constituting the skeleton in the direction of action and inclined direction of the inertial and impact forces generated in the mold portion, support frame having a high rigidity, low vibration structure The purpose is to provide.

An object of the present invention as described above, in the support frame of the injection molding machine having a structure in which a plurality of beams are connected to form a skeleton so as to support a mold having a movable plate and a fixed plate, at least one of the beams is It is achieved by providing a support frame, characterized in that arranged in the direction in which the inertial force according to the linear movement of the movable die and the impact force (F) of the impact force according to the collision of the movable die and the fixed plate acts.

In one embodiment of the present invention, the beams constituting the skeleton of the support frame, the lower horizontal beam disposed in parallel with the ground, the upper parallel to the spaced space above the lower horizontal beam and the upper part is installed thereon And a horizontal beam and an inclined beam connected inclined at a predetermined angle between the lower horizontal beam and the upper horizontal beam.

Specifically, the inclined beam is preferably inclined at an angle of 60 degrees or less with respect to the horizontal beam.

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

Figure 3 is a perspective view of the support frame of the injection molding machine according to an embodiment of the present invention. As shown in Figure 3, the support frame 50 according to the present invention, the lower horizontal beam 51 is installed in parallel to the ground, the lower horizontal beam 51 and parallel to the spaced apart in the vertical direction The upper horizontal beam 52 on which the injection part 10 and the mold part 20 (refer FIG. 1) is installed, and the plurality of vertical beams 53 connecting both ends of the lower and upper horizontal beams 51 and 52. And a plurality of inclined beams 54 disposed inclined with respect to the longitudinal direction of the lower and upper horizontal beams 51 and 52 between the vertical beams 53.

As described above with reference to Figure 1, the main vibration source in the injection molding machine is the impact force due to the collision of the movable plate 22 and the stationary plate 23 in the mold portion 20, and the movement of the movable plate 22 This is the inertia force, and these forces all act in the direction parallel to the longitudinal direction of the horizontal beams (51, 52).

In the support frame 50 of the present invention, as shown in Figure 4, between the lower horizontal beam 51 and the upper horizontal beam 52, the oblique beam 54 is 90 degrees with respect to the horizontal beam 51 It is connected in an inclined state by a smaller angle θ so as to take part in the vertical load. Usually, the angle θ is preferably 60 degrees or less. When the combined force of the impact force and the inertia force by the movable plate 22 is F, the force F acts on the vertical beam 53 perpendicularly to its longitudinal direction, but on the inclined beam 54 perpendicularly to the longitudinal direction. Since the vertical component force of F · sinθ (θ ≦ 60 °) acts, as a result, the vertical component force acting on the warp beam 54 becomes smaller than the magnitude of the vertical component force (force F) acting on the vertical beam 53.

Accordingly, as in the present invention, only the both ends of the horizontal beams 51 and 52 are connected to the vertical beams 53 as in the present invention, rather than the case where the horizontal beams 51 and 52 are connected only to the vertical beams 53 as in the related art. If the inclined beam 54 is disposed between them, the rigidity against the impact force and the vibration force by the movable die 22 becomes larger than before.

In addition, due to such a structural increase in rigidity, the beams 51, 52, 53, and 54, which form the skeleton of the support frame 50, are smaller than the beams of the conventional support frame 30 (cross section, thickness). Since a small back) can be used, the weight of the support frame 50 can be reduced.

As described above, in the support frame according to the present invention, since the inclined beam connecting the upper and lower horizontal beams is inclined with respect to the direction of the impact force and the inertia force generated in the mold, the component force acting on the inclined beam is relatively small. It has a great rigidity, so that the weight of the entire support frame can be reduced. Therefore, vibration of the entire injection molding machine can be reduced, and manufacturing costs can be reduced.

In the above, certain preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. will be.

Claims (3)

A support frame of an injection molding machine having a structure in which a plurality of beams 51, 52, 53, and 54 are connected to form a skeleton so as to support the mold 20 having the movable plate 22 and the fixed plate 23 ( 50), At least one beam 54 of the beams, the inertial force of the linear movement of the movable plate 22 and the impact force (F) of the impact force due to the collision of the movable plate 22 and the stationary plate 23 acts Support frame, characterized in that arranged inclined with the direction. The method of claim 1, The beams, A lower horizontal beam 51 disposed in parallel with the ground, an upper horizontal beam 52 disposed in parallel with an interval above the lower horizontal beam 51 and on which the mold part 20 is installed; And an inclined beam (54) connected inclined at a predetermined angle (θ) between the lower horizontal beam (51) and the upper horizontal beam (52). The method of claim 2, The inclined beam (54) is a support frame, characterized in that the inclined connection with an angle (θ) of 60 degrees or less with respect to the horizontal beam (52).

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