KR101480047B1 - Cooling cap for cooling hole of mold - Google Patents

Abstract

The present invention relates to a cooling cap installed in the end of a cooling hole formed in a mold and seals the cooling hole to prevent cooling water from leaking outside and, more specifically, to a cooling cap having a watertight and easy separation function which is closely installed in the inner side of the cooling hole to secure complete water tightness and is simply separated from the cooling hole. The present invention comprises: a diameter expanding part formed on the inner surface of the end of the cooling hole to be bigger than the diameter of the cooling hole; a deformation pressing part inserted into the diameter expanding part and has a plurality of pressing protrusions and an insertion hole; and an insertion part inserted into the insertion hole of the deformation pressing part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling cap for cooling water,

The present invention relates to a cooling stopper which is inserted into an end portion of a cooling hole formed in a metal mold and has a watertightness and a separable easiness to seal the cooling water so as not to be leaked to the outside.

Generally, a mold is provided with a cooling hole (or a cooling pipe) through which cooling water for cooling the molding so as to maintain the molding shape of the molded product after molding the molding in a shape corresponding to the molding space by injecting the molding material in a molten state is provided.

A cooling stopper is installed at the end of the cooling hole to seal the cooling water passing through the inside out. The cooling stopper is screwed into the end of the cooling hole.

However, since the water-tightness is not ensured due to the clearance between the cooling holes and the threads of the cooling plug, the cooling plug having the above-mentioned shape has a limitation in that a watertight member such as a tape or an adhesive is further installed on the outer surface of the cooling plug after the installation .

In addition, since the cooling plug is inserted into the end portion of the cooling hole by a screw fastening method, there is a disadvantage that installation time is long when the number of cooling holes is large in the mold.

A body having one end fixed to the inside of the cooling hole so as to overcome the above limitations and disadvantages and a tapered hole formed at the other end inside the center, and a pressing force applied to the inside of the tapered hole of the body to apply a lateral pressure to the inside of the cooling hole The cooling stopper of Patent Document 1 including an insert which fixes the cooling stopper is disclosed.

However, the cooling stopper disclosed in Patent Document 1 has a problem in that it is difficult to separate the cooling stopper because the cooling stopper is not equipped with a separate separating means for separating the cooling hole from the mold for the purpose of washing the inside of the cooling hole or replacing it due to performance deterioration.

Korean Patent Registration No. 10-0712082, 2007.05.02.

Disclosure of the Invention The present invention has been made to solve the above-described problems, and it is an object of the present invention to provide a cooling stopper having a watertightness and a separable easiness to be easily pressurized and installed inside a cooling hole, The purpose is to provide.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood from the following description.

According to an aspect of the present invention, there is provided a cooling stopper inserted into an end of a cooling hole formed in a metal mold, wherein a diameter of the cooling stopper is larger than a diameter of the cooling hole, part; A deformed crimping portion inserted into the diameter enlarging portion and having a plurality of pressing protrusions protruding from the outer surface and closely contacting the inner surface of the diameter enlarging portion and having a diameter gradually increasing from the front end to the rear end; And a second guide surface that is inserted into the press-fit hole of the deformed and press-fit portion and has a first guide surface corresponding to the diameter of the cooling hole and a second guide surface corresponding to the diameter of the diameter enlarged portion, And a press-in portion formed between the second guide surfaces and having a plurality of press-in projections formed on an outer surface thereof to closely contact the inner surface of the press-in hole, the diameter of the press-in rod being gradually enlarged from the front end to the rear end, When the external force is applied to the rear end of the press-in portion, the press-in rod is linearly advanced by the first guide surface and the second guide surface and press-fitted into the press-in hole, The diameter of the deformed crimping portion is enlarged to water-tighten the end portion of the cooling hole, and on the rear end face of the press- A tool engagement groove formed of a screw is formed and is detachable from the cooling hole through a tool that is screwed into the tool engagement groove.

According to the present invention, the watertightness can be reliably ensured by completely sealing the end portion of the cooling hole through the deformed and compressed portion having a different degree of material and the press-in structure according to the press-in portion, And the tool engagement groove can be formed in the press-fit portion, so that the tool can be easily separated from the cooling hole.

1 is a cross-sectional view illustrating a part of a process of installing a cooling plug having watertightness and ease of separation according to a preferred embodiment of the present invention.
FIG. 2 is a sectional view showing a state of installation of a cooling stopper having watertightness and ease of separation according to a preferred embodiment of the present invention; FIG.

The cooling stopper having watertightness and ease of separation according to the present invention is one of the mold parts which is inserted into the end of a cooling hole (including a cooling pipe) provided in a mold to seal the cooling water from being leaked to the outside.

Particularly, the cooling stopper having watertightness and separability according to the present invention can ensure watertightness of the cooling hole by surely tightening the cooling hole at the time of installation, and can be easily separated from the cooling hole after installation to facilitate replacement Feature.

This feature is achieved by the provision of a press-fitting device having a diameter enlarged portion formed inside an end portion of a cooling hole, a deformed pressed portion formed with a press-in hole at the center inserted into the diameter enlarged portion, And a press-fit portion formed at the end of the tool engaging groove.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a sectional view showing a part of a process of installing a cooling stopper having watertightness and separation easiness according to a preferred embodiment of the present invention. FIG. 2 is a cross-sectional view of a cooling stopper having watertightness and separation easiness according to a preferred embodiment of the present invention. Fig.

As shown in FIG. 1, the cooling stopper having watertightness and separability according to a preferred embodiment of the present invention includes a diameter enlarging unit 100, a deformed compression bonding unit 200, and a press-in unit 300 .

First, the diameter enlarging unit 100 is configured to support the deformed press-fitting unit 200 to be fixed at a certain inner depth of the cooling hole H while guiding the deformed press-fit unit 200 to slide in the inside of the end of the cooling hole H.

The diameter enlarging unit 100 is formed so as to be larger than the diameter of the cooling hole H on the inner surface of the end of the cooling hole H formed in the metal mold M. [

The length (depth) of the diameter enlarging part 100 is longer than the length of the deformed pressure bonding part 200 so that the deformed pressure bonding part 200 is fully inserted, and the press-fitting part 300 is formed outside the end of the cooling hole H It is preferable that the press-fitting portion 300 which is press-fitted to the inside of the deformed press-fitting portion 200 is not protruded to the outside of the end of the cooling hole H so as not to protrude.

Next, the deformed and compressed portion 200 is deformed in such a manner that the diameter of the deformed portion 200 is enlarged by the pressure input of the press-fitting portion 300 which is inserted into the diameter enlarging portion 100, 100 so that the end portion of the cooling hole H is water tight.

To this end, the deformed crimping portion 200 is formed with a plurality of crimping projections 210, which are in contact with the inner surface of the enlarged diameter portion 100, on the outer surface at predetermined intervals along the longitudinal direction. In the center, a press-in hole 220 is formed through which the press-in portion 300 is gradually expanded from the front end to the rear end so as to be press-fitted.

The deformed press-fit part 200 may be formed in the press-fitting part 300 such that the press-in part 300 may be deformed by the press-in of the press-in part 300 when the press-fitting part 300 is press- It is preferable that it is made of a relatively soft material as compared with the material.

Finally, the press-fitting part 300 is press-fitted into the press-fitting hole 220 of the deformed press-fitting part 200 by the pressure externally applied thereto to enlarge the diameter of the deformed press- ) End of the watertightness.

To this end, the press-fit portion is formed such that the first guide surface 310 corresponding to the diameter of the cooling hole H and the second guide surface 320 corresponding to the diameter of the diameter enlargement portion 100 are wound around the front end and the rear end outer surface .

A plurality of press-fit projections (not shown) are inserted between the first guide surface 310 and the second guide surface 320 and press-fitted into the press-fit holes 220 of the deformed press- 331 are formed on the outer surface and the diameter of the press-in rod 330 gradually increases from the front end to the rear end.

That is, when an external force is applied to the rear end of the press-in portion 300 while the press-in portion 300 is inserted into the press-in hole 220 of the deformed press-fit portion 200 as shown in FIG. 1, The pressing protrusion 331 of the press-in rod 330 is inserted into the press-fitting hole (not shown) from the moment when the tip of the deformed press-fitting part 200 is slid inward along the inner surface of the enlarging part 100, The press-fitting rod 330 is press-fitted into the press-fitting hole 220. As a result, the press-fitting rod 330 is press-fitted into the press-fitting hole 220.

When the press-fitting part 300 is press-fitted by an external force, the press-fitting part 300 includes a first guide surface 310 and a second guide surface 310 which are in close contact with the inner surface of the cooling hole H and the inner surface of the diameter- So that the pressure input applied to the deformed and crimped portion 200 is uniformed as it is press-fitted in a straight line by the surface 320.

As the diameter of the deformed and compressed portion 200 is enlarged by the pressure applied uniformly, a plurality of compression protrusions 210 protruding from the outer surface of the deformed and compressed portion 200 strongly press the inner surface of the enlarged diameter portion 100.

2, the gap between the enlarged diameter portion 100 and the deformed crimping portion 200 is removed by the crimping protrusion 210, and a gap between the deformed crimping portion 200 and the press fitting portion 300 is pressed by the press- And the end of the cooling hole H is sealed tightly while being removed by the cap 331.

In this case, a hitting guide groove 350 having a concave shape is further formed at the center of the rear end face of the press-fitting portion 300. The impact guiding groove 350 concentrates the external force at the center of the press-fitting part 300 when the end is struck by a round fixture to apply an external force to the rear end of the press-fitting part 300.

At least one or more O-rings 360 may protrude from the outer surface of the press-in rod 330 of the press-fitting part 300. The O-ring 360 is closely attached to the inner surface of the deformed pressure bonding portion 200 to further reinforce water tightness between the deformed pressure bonding portion 200 and the press-fitting portion 300.

A tool engagement groove 340 having an inner surface formed of an amalgam is formed on a rear end surface of the press-fit portion 300. The tool engagement groove 340 is separated from the cooling hole H for the purpose of replacing the cooling plug So that the ends of the separating tool can be screwed together and separated easily.

The above-described embodiments are merely illustrative, and various modifications may be made by those skilled in the art without departing from the scope of the present invention.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also various other modified embodiments according to the technical idea of the invention described in the following claims.

100: diameter enlarging portion
200:
210:
220: indentation ball
300:
310: first guide face
320: second guide face
330:
331: indentation projection
340: Tool fastening groove
350: hitting guide groove
360: O ring
M: Mold
H: cooling hole

Claims (4)

In the cooling stopper inserted into the end of the cooling hole H formed in the mold M,
An enlarged diameter portion 100 formed on the inner surface of the end of the cooling hole H larger than the diameter of the cooling hole H;
A plurality of pressing protrusions 210 inserted into the inside of the diameter enlarging unit 100 and closely contacting the inner surface of the diameter enlarging unit 100 protrude from the outer surface and the diameter gradually increases from the front end to the rear end A deformed crimping portion (200) penetrating through the center portion (220); And
A first guide surface 310 which is inserted into the press-fitting hole 220 of the deformed press-fitting part 200 and has outer surfaces at the front end and the rear end corresponding to the diameter of the cooling hole H, And a plurality of press-in projections 331 (331) are formed between the first guide surface (310) and the second guide surface (320) so as to be in close contact with the inner surface of the press- And a press-in portion 300 formed on the outer surface of the press-in portion 300, the diameter of which is gradually increased from the front end to the rear end,
The deformed crimping portion (200)
When the external force is applied to the rear end of the press-in part 300, the first guide surface 310 and the second guide surface 320 are formed of a relatively soft material, as compared with the material of the press-in part 300, The protruding protrusion 331 is brought into close contact with the inner surface of the press-in hole 220 from the moment the tip is brought into close contact with the end of the diameter enlarging portion 100. As the press-in portion 300 is press- The diameter of the cooling hole H is enlarged to tightly seal the end of the cooling hole H,
On the rear end face of the press-in portion 300,
A tool engaging groove 340 having an inner surface formed by a female screw is formed and is detachable from the cooling hole H through a tool screwed into the tool engaging groove 340,
At the center of the rear end face of the press-in portion 300,
And a striking guide groove (350) for guiding the striking point of the striking tool, the end of which is rounded, to the center of the press-fitting part (300) so that the external force is applied to the center of the rear end of the press-fitting part (300) Cooling plug with watertightness and separability. The method according to claim 1,
The length of the diameter enlarging portion 100 is,
The press fitting portion 300 is inserted into the press fitting hole 220 and fixed to the outside of the end portion of the cooling hole H so that the deformed press fitting portion 200 is fully inserted into the press fitting hole 220, Wherein the cooling plug has a watertightness and a separating easiness. The method according to claim 1,
On the outer surface of the press-in rod 330 of the press-in portion 300,
Wherein at least one O-ring (360) is protruded and protruded so as to be in close contact with the inner surface of the deformed pressure bonding portion (200), and water tightness is formed between the deformed pressure bonding portion (200) Cooling stopper with ease. delete

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