KR101497512B1 - Injection mold parting lock - Google Patents

Abstract

The present invention relates to a parting lock for an injection mold. The parting lock temporarily fixing a movement mold to a fixation mold in order to extract an injection molded body comprises: a locking bolt which includes a first taper section slopingly extended at circumference towards an upper part from a screw part coupled to the fixation mold and a compression part in which a line section is sequentially formed; and a resin sleeve which includes a taper surface corresponding to the compression part at the inner circumference by being penetrated in a short pipe shape and is bonded and penetrated to the locking bolt. The parting lock for an injection mold couples the locking bolt to the fixation mold and gradually compresses the taper surface of the resin sleeve by the compression part as the locking bolt is tightened up so that the central circumference of the resin sleeve is expanded towards the outside. The present invention allows the circumference of the resin sleeve to be gradually expanded by applying uniform pressure in a vertical direction through the compression part according to the joint combination of the locking bolt and is able to minimize the protrusion of a head part of the locking bolt from a mold. Accordingly, the present invention increases binding force on a locking socket by the increase of a contact area, increases replacement life expectancy according to the clear expansion of the resin sleeve with relatively small clamping force as compared with an existing parting lock, allows the length of the resin sleeve to be formed to be short and is able to reduce manufacture costs.

Description

Injection mold parting lock "

[0001] The present invention relates to a parting lock for an injection mold, and more particularly to a parting lock for an injection mold, more specifically, a locking bolt having a pressing part in which a first taper section, a straight section and a second taper section are formed sequentially from a screw section to a head section, And the outer periphery of the resin sleeve is expanded as the pressing portion is pressed against the tapered surface of the resin sleeve through the resin sleeve so as to be expanded in the up and down direction through the pressing portion of the locking bolt The circumference of the resin sleeve can be gently expanded by applying a uniform pressing force and the head portion of the locking bolt can protrude at least from the mold so that the bonding force with the locking socket increases with an increase in contact area, , The resin sleeve expands remarkably with a relatively small tightening force compared to the conventional one And the length of the resin sleeve can be shortened, thereby reducing the manufacturing cost. [0002] The present invention relates to a parting lock for an injection mold.

Generally, an injection mold is a mechanical device for molding a desired injection product by filling and solidifying a molten resin in a molding space provided inside the mold and taking out the molten resin.

Such an injection mold is an injection mold in which a movable mold is opened or closed by a vertical or a left-right operation on a fixed mold to mold an injection mold, and the structural limitations of the two-stage mold method and the two- There is a mold type in which the runner and the sprue are pulled out in the open state so that the molding distortion and the deformation of the injection molding are small.

In this way, when the product is molded and taken out from the injection mold, the movable mold can be opened in two stages using a parting lock so as to prevent damage to the product, The connection is installed on the plate.

[0004] Conventionally, in accordance with the above-described structure, Japanese Patent Application Laid-Open No. 10-1213663 (an injection material take-out device of an injection mold) has been proposed. In this conventional art, a stationary mold 10 integrally fixed to an injection machine And a movable mold 20 which is coupled to a ram (not shown) of the injection molding machine so as to cooperate with the stationary mold 10 so as to be engaged with and separated from the fixed mold 10. The stationary mold 10 is provided with a take- (30) is configured so as to be operative in a state of being hermetically sealed to the outside, and the stationary die (14) is formed by being engaged with the stationary die (14) so as to have a flow gap (L) The movable mold 20 which molds with the movable mold 20 and the movable mold 20 is assembled to the movable mold holder 23 by forming the mold 22 on the front surface of the movable mold holder 23, And the movable mold plate 25, which is coupled to the ram of the injection molding machine, And the movable mold 20 draws the booklet 30 of the stationary mold 10 so that the takeout pin 31 forms the injection molded product (30) having a parting pin (35) provided with a takeout pin (31) provided inside the stationary metal mold (10) in constituting an injection mold take out device of an injection mold, A parting part 35 which is joined to at least one pair of parting locks 35 so as to be symmetrical with a center integrally joined to the booklet 30 of the stationary mold 10 is provided on the movable mold 20 which cooperates with the stationary mold 10, The connecting rod 40 constituted by the socket 45 and the blow-out block 41 is configured to flow by the separating gap H; A fitting socket 45 of the connecting rod 40 constituting the movable mold 20 is engaged with the parting lock 35 constituted on the bookbinding 30 of the stationary mold 10 to draw the bookbinding 30 to the take- ); A part of the take-out block 41 integrally joined to the connecting rod 40 and the putting socket 45 is caused to come into contact with the injection molded part 12 of the stationary mold forming plate 11; The parting lock (35) to be engaged with the bookbinding (30) is constituted by a stretchable friction member made of rubber, tofrone, synthetic resin or fiber material and is configured to expand its outer diameter by fastening the parting bolt (36) A guide hole 28 is formed through the movable mold forming plate 21, the movable mold holder 23 and the movable mold plate 25; A guide bush 50 is built in the movable mold forming plate 21 and the movable mold holder 23 of the guide hole 28. A locking protrusion 24 is formed on the outside of the guide hole 28 of the movable mold holder 23, And the connecting rod 40 is inserted from the side of the movable mold plate 25 into the guide hole 28 penetrating the movable mold forming plate 21, the movable mold holder 23 and the movable mold plate 25 The taking-out block 41 and the putting socket 45 are sequentially connected to the leading end of the connecting rod 40 so that when the movable mold 20 is coupled to the stationary mold 10, 30 to a parting lock (35).

The parting lock 35 to be engaged with the bookbinding 30 is composed of a stretchable friction member made of rubber, tofrone, synthetic resin or fiber material, (36) is formed with a head portion on one side so as to be tightened by the wrench, and a threaded portion to be screwed to the bib plate (30) is formed on the other side of the parting bolt (36) The parting lock (35) is integrally formed with a tapered part of the parting lock (35) which is in friction contact with the inside surface of the parting lock (35). The parting lock (35) A frictional contact surface is formed.

Thus, when the parting bolt 36 is assembled by tightening the bushing 30 and the tapered part is in contact with the friction surface of the parting lock 35 and is further tightened, the tapered part presses the friction surface The parting lock 35 expands.

However, there is a problem that the rejection rate of the molded product 100 which is produced due to the abrasion with the putting socket 45 due to the use of the parting lock 35 for a long period of time is increased, There is a problem that the parting bolt 36 is further tightened in order to expand the parting lock 35, thereby causing the parting lock 35 to be damaged as well as shortening the replacement life.

According to an aspect of the present invention, there is provided a method of manufacturing a tapered sleeve, the method including: forming a first tapered section, a first tapered section, a second tapered section, And the outer periphery of the resin sleeve is expanded as the pressing portion is pressed against the tapered surface of the resin sleeve, thereby uniformly applying a pressing force in the vertical direction through the pressing portion due to the fastening of the locking bolt The periphery of the resin sleeve can be gently expanded and the head portion of the locking bolt can protrude at least from the mold. As a result, the bonding force with the locking socket increases due to the increase of the contact area, The replacement life of the resin sleeve due to the remarkably expansion of the resin sleeve to a relatively small tightening force Also it increases and, at the same time, can form a reduced length of the plastic sleeve, whereby there is a purpose to provide an injection molds parting lock that can reduce the manufacturing cost.

According to an aspect of the present invention, there is provided a parting lock for temporarily fixing a movable mold from a stationary mold for extracting a double injection or an injection molding of an injection mold, wherein the parting ram is inclined from the screw part fastened to the stationary mold upward A locking bolt having a first tapered section to be extended and a pressing section in which a straight section is formed sequentially; And a resin sleeve having a tapered surface corresponding to the pressing portion and hollowed in a single pipe shape and penetratingly coupled to the locking bolt, wherein the locking bolt is fastened to the stationary mold, and the resin And the pressing portion gradually presses the tapered surface of the resin sleeve as the rolling bolt is tightened so that the central perimeter of the sleeve is expanded to the outside.

Here, a head is further provided on the upper side of the linear section of the pressing section, and a second taper section is further formed between the head section and the pressing section so that the upper circumference of the resin sleeve is further expanded.

The first tapered section of the pressing section and the tapered surface of the resin sleeve corresponding to the first taper section are formed to be convex or concave.

Finally, the locking bolt includes a fastening bolt fastened to the stationary mold; And a pressing portion having a penetrating portion at the center so as to pass through the fastening bolt in a prefabricated manner.

By providing the present invention thus constituted, the circumference of the resin sleeve can be gently expanded by exerting a uniform pressing force in the vertical direction through the pressing portion according to the locking engagement of the locking bolt, and the head portion of the locking bolt is at least As shown in Fig.

As a result, an increase in the contact area increases the coupling strength with the locking socket, increases the life span of the resin sleeve due to the relatively small tightening force compared with the conventional method, and increases the length of the resin sleeve And the manufacturing cost can be reduced.

1 is a schematic view of a conventional injection mold;
2 is a cross-sectional view of a state in which a parting lock is provided in a conventional injection mold.
3 is a cross-sectional view of a parting lock for an injection mold according to the present invention.
4 (a), 4 (b) and 4 (c) are cross-sectional views of the parting lock for an injection mold according to the present invention.
5 (a) and 5 (b) are views showing an embodiment of a parting lock for an injection mold according to the present invention.
6 is a view showing another embodiment of a parting lock for an injection mold according to the present invention.
7 (a) and 7 (b) are views showing another embodiment of a parting lock for an injection mold according to the present invention.

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

In the parting lock 300 for temporarily fixing the movable mold 220 from the stationary mold 210 to extract the injection or injection product 100 of the injection mold 200,

A locking bolt 310 having a pressing portion 315 in which a first tapered section 315a and a straight section 315b are formed sequentially from the screw section 311 to the head section 313; And a resin sleeve 320 having a tapered surface 321 which is hollow in the shape of a single pipe and penetrates through the locking bolt 310.

At this time, when the locking bolt 310 is fastened to the stationary mold 210 and the pressing portion 315 presses the tapered surface 321 of the resin sleeve 320, the outer circumference of the resin sleeve expands .

As shown in FIGS. 3 to 4, the movable mold 220 is fastened to the stationary mold 210 in correspondence with the putting socket 221 formed in the movable mold 220.

As described above, the inner peripheral surface of the parting socket 221 of the outer circumferential surface tube of the resin sleeve 320 comes into contact with each other and is tightly fitted, thereby facilitating the separation of the movable mold in two stages.

A second taper section 315c for extending the upper side of the resin sleeve 320 may be further formed between the head section 313 and the straight section 315b of the pressing section 315. [

5 to 6, the first taper section 315a of the pressing section 315 and the tapered surface 321 of the resin sleeve 320 corresponding to the first taper section 315a And may be formed in a mutually convex or concave shape.

Accordingly, the shape in which the resin sleeve 320 is inflated varies depending on the pressing position.

As shown in FIG. 7, the locking bolt 310 includes a fastening bolt 400 fastened to the stationary mold 210; And a pressurizing portion 315 having a penetrating portion 316 at the center thereof so as to be assembled and connected to the fastening bolt 400.

In addition, a seating part 324 having a groove is formed at the center of the upper side of the resin sleeve 320 so that the head 313 of the locking bolt 310 is seated.

The operation state of the present invention constructed as described above will be described below.

4A, when the locking bolt 310 is fastened to the stationary mold 210 and the first tapered section 315a of the pressing portion 315 is coupled to the tapered portion of the resin sleeve 320, The surface 321 is pressed so that the outer periphery of the middle portion of the resin sleeve 320 is expanded so as to be inserted into the fitting socket 221 by interference fit as shown in FIG.

When the circumferential surface of the resin sleeve 320 is worn out for a long period of time in the installed state in this state, the locking bolt 310 is further tightened to secure the linear portion 315b of the pressing portion 315 and the 2 tapered section 315c is inserted into the hollow portion 323 of the resin sleeve 320 to press the tapered surface 321 to expand the upper circumferential surface of the resin sleeve 320, As shown in FIG.

By providing the present invention having the above-described constitution, the circumference of the resin sleeve can be gently expanded by applying a uniform pressing force in the vertical direction through the pressing portion according to the locking engagement of the locking bolt, As a result, the life of the resin sleeve increases due to the relatively small tightening force and the manufacturing cost can be reduced.

The terms and words used in the present specification and claims should not be construed to be limited to ordinary or dictionary terms. It should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Therefore, the configurations shown in the drawings and the embodiments described herein are merely the most preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention. Therefore, It should be understood that various equivalents and modifications are possible.

100: Injection mold 200: Injection mold
210: stationary mold 220: movable mold
300: parting lock 310: locking bolt
320: resin sleeve 400: fastening bolt

Claims (4)

A locking bolt 310 having a first taper section 315a extending obliquely downward from a threaded section 311 fastened to the stationary mold 210 and a pressing section 315 formed with a linear section 315b sequentially )Wow;
And a resin sleeve 320 having a tapered surface 321 corresponding to the pressing portion 315 and hollowed in a single pipe shape and penetratingly coupled to the locking bolt 310,
The locking bolt 310 is fastened to the stationary mold 210 and the locking bolt 310 is tightened so that the central circumference of the resin sleeve 320 is expanded outward, In the parting lock for an injection mold, the tapered surface (321) of the resin sleeve (320) is gradually pressed.
A head 313 is further provided on the upper side of the straight section 315b of the pressing section 315 and an upper circumference of the resin sleeve 320 is formed between the head section 313 and the pressing section 315 And a second tapered section (315c) is further formed to expand the second tapered section (315c). The method according to claim 1,
The first taper section 315a of the pressing section 315 and the tapered surface 321 of the resin sleeve 320 corresponding to the first taper section 315a are formed to be convex or concave. Parting lock for injection mold. 3. The method according to claim 1 or 2,
The locking bolt 310 includes a fastening bolt 400 fastened to the stationary mold 210;
And a pressing portion (315) having a penetrating portion (316) at the center so as to pass through the fastening bolt (400) in a prefabricated manner. delete

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