KR19990018904U - Cooling water circulation structure of mold - Google Patents

Abstract

The present invention is a mold that is formed inside the core block and circulates the cooling water supplied from the outside to open the circulation path to cool the heat generated in the core block during the molding operation of the product in various directions to increase the cooling effect The present invention relates to a structure of a cooling water circulation path of the present invention comprises a plurality of cooling water circulation paths I, II formed from one side direction of the core block, and the induction packing inserted into the cooling water circulation path II to change the flow direction of the cooling water.

Description

Cooling water circulation structure of mold

The present invention relates to the structure of the cooling water circulation path of the mold, and in particular, the circulation path for circulating the cooling water formed inside the core block and supplied from the outside to cool the heat generated in the core block during the molding operation of the product in various directions. It relates to a cooling water circulation path structure of a mold so as to increase the cooling effect by opening.

In general, injection mold work uses core blocks of various shapes depending on the shape of the product, and heat is generated in the process of forming the product, and problems such as sintering with the product and the mold if it is not cooled Will occur.

Therefore, conventionally, in order to prevent such a problem from occurring, a circulation path is formed by using a drill inside the core block, and the cooling water supplied from the outside may be circulated in the circulation path. The structure of the cooling water circulation path formed in such a conventional core block is shown in FIG.

As shown in FIG. 1, the conventional cooling furnace circulation structure uses a drill (not shown) to form a plurality of cooling water circulation paths 2 inside the core block 1 and to circulate only in one direction. It is constructed by closing the entrance.

The conventional cooling water circulation path 2 configured as described above cools the core block 2 while circulating the inside of the core block 1 in one direction by receiving cooling water from one side.

However, since the conventional cooling water circulation path 2 is formed such that the cooling water flows in only one direction, it takes a long time for the cooling water to flow in and out again, so that the cooling water warms up inside the core block 1 so that the temperature rises. Done.

Therefore, since the cooling water cannot be quickly supplied and discharged, there is a problem in that the cooling of the core block 1 cannot be performed smoothly as it does not function as the cooling water.

In addition, when the cooling water circulation path 2 is formed in the core block 1, the drilling work is performed in various directions, so that the core block 1 has to be set in various planes in order to perform the drilling work.

Therefore, the present invention has been devised to solve the above-mentioned problems, and provides the operator with convenience by easily and conveniently drilling a core for forming a coolant circulation path in the core block, and provides the convenience of the coolant during the molding operation of the product. It is an object of the present invention to provide a cooling water circulation path structure of a mold that enables rapid circulation so that the core block can be quickly cooled.

1 is a cross-sectional view showing a conventional cooling water circulation path.

Figure 2 is a cross-sectional view showing a cooling water circulation path of the present invention.

Figure 3 is a perspective view of the main portion of the present invention.

Explanation of symbols on the main parts of the drawings

1, 10; Core block 2; Cooling water circulation

11; Cooling water circuit Ⅰ 12; Cooling water circuit Ⅱ

13; Supply port 14; outlet

20; Induction packing 21; Round bar

22; Fastening protrusions 23; Watertight turning

In order to achieve the above object, the present invention is characterized by consisting of a plurality of cooling water circulation paths I, II formed from one side direction of the core block, and induction packings inserted into the cooling water circulation path II to change the flow direction of the cooling water.

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

As shown in Figures 2 to 3, the present invention drills (not shown) from one side of the core block 10 to form a plurality of cooling water circulation path I (11).

In addition, the core block 10 is rotated 90 ° to form a cooling water circulation path II (12) crossing the cooling water circulation path 11 formed as described above.

After the cooling water circulation paths I and II (11 and 12) are formed as described above, the inlet is closed except for the cooling water supply port 13 and the discharge port 14, and the cooling water circulation path II (12) Install the induction packing 20 to change the flow direction.

The induction packing 20 forms a circular fastening protrusion 22 at one end of the round bar 21 of the metal material and a watertight protrusion 23 on the other side thereof, and the fastening protrusion 22 has a thread 24 on an outer circumference thereof. ) To be inserted into and coupled to the inlet of the cooling water circulation passage II (12), and the watertight protrusion 23 is inserted into the internal intersection of the cooling water circulation passages I and II (11 and 12) to form the cooling water circulation passage I and II. Allow to close all parts of (11, 12).

In this case, the watertight protrusions 23 may be installed by extending a plurality of the watertight protrusions 23 according to the size of the core block 10.

Looking at the state of use of the cooling water circulation paths I, II (11, 12) formed as described above are as follows.

When the coolant is introduced through the supply port 13, the coolant flows through the cooling water circulation paths I and II (11 and 12), wherein the induction packing inserted into the cooling water circulation paths I and II (11 and 12) ( The watertight protrusion 23 of 20 20 blocks the cooling water circulation passages I and II (11, 12), but allows the cooling water to flow while crossing each other in both directions.

Therefore, the cooling water introduced through the supply port 13 quickly exits through the outlet 14 while flowing in various directions, thereby increasing the cooling effect of the core block 10.

As described above, the present invention provides a convenience to the operator by providing a cooling water circulation path structure of the mold to facilitate and simplify the drilling operation for forming the cooling water circulation path in the core block, and provides the convenience of the cooling water during the molding operation of the product. It is a very useful design that allows for rapid circulation so that the core block can be cooled quickly.

Claims (2)

And a plurality of cooling water circulation paths I and II formed from one side of the core block and induction packings inserted into the cooling water circulation path II to change the flow direction of the cooling water. The method of claim 1, The induction packing is formed at one end of the round bar and is inserted into the outer side of the cooling water circulation path II of the core block and is formed on the other side of the round bar with a circular fastening protrusion having a thread formed on the outer periphery to prevent external leakage of the cooling water Cooling water circulation structure of the mold characterized in that it is inserted into the intersection of the cooling water circulation paths I, II to the watertight projection to block the flow of the cooling water.