KR100510581B1 - Cooling device for injection mold cooling - Google Patents

Abstract

The present invention relates to a cooling apparatus for injection mold cooling, to ensure that the mold cooling is appropriately made and to reduce the manufacturing cost.

According to the present invention, a mold 10 is formed to enable injection molding of a specific shape product, a heat pipe 20 having one side inserted into the mold 10 and a working fluid filled therein, and the heat pipe 20. Installed on the other side of the heat dissipation fin 30 is configured to dissipate the absorbed heat to the outside.

Description

Cooling device for injection mold cooling {COOLING DEVICE FOR INJECTION MOLD COOLING}

The present invention relates to a cooling apparatus for injection mold cooling.

As is generally known, injection molding refers to the injection of molten polymer into a cavity of a mold and then to cooling to produce a specific type of product. The quality of the product is determined by injection speed, injection pressure, melt polymer temperature, mold temperature, and the like. If the temperature of the mold is too high or low when the injection is made is the main cause of the molding failure.

In order to maintain the temperature of the mold properly, as shown in FIG. 1, a cooling water hole 3 is formed inside the mold 1 to move the cooling water into the mold 1, and the mold 1 The Nnck part of the molded part into which compressed air is introduced when a specific product is formed through) is required to uniformly cool the product through additional cooling water supply.

The cooling water hole 3 formed in the mold 1 is connected to an external cooling tower (not shown) through a connection pipe (not shown), and the cooling water is always supplied from the cooling tower to the cooling water hole 3. Cooling of (1) is performed.

As described above, the coolant hole 3 is formed into the mold 1 to properly maintain the state of the molded product during injection molding.

However, the above-described injection mold cooling device has to increase the manufacturing cost because the cooling water hole 3 is formed inside the mold 1 and a separate cooling tower is to be connected to the cooling water hole 3. There was a problem.

The object of the present invention is to provide a cooling device for cooling the injection mold to correct the above problems, so that the cooling of the mold is made appropriately and the manufacturing cost can be reduced.

In order to achieve the above object, the present invention comprises a mold, a heat pipe in which one side is inserted into the mold and a working fluid is filled therein, and a heat dissipation fin installed at the other side of the heat pipe to dissipate heat.

2 and 3, the mold 10 is formed to enable injection molding of a specific shape of the product, and the heat pipe is inserted into one side of the mold 10 and the working fluid is filled therein 20 and a heat dissipation fin 30 provided on the other side of the heat pipe 20 to radiate heat absorbed to the outside.

The heat pipe 20 has a plurality of heat pipes 20 are installed inside the mold 10 to absorb the rising heat of the mold 10, and the heat radiation fins 30 are located outside the mold 10. It is composed of a plurality of condensation unit 24 is coupled. The evaporator 22 absorbs heat quickly even when the amount of heat generated in the mold 10 is maximized, and heat exchanges with the condenser 24 by absorbing the heat (by changing the working fluid).

The condenser 24 is integrally formed with the heat dissipation fin 30 while being exposed to the outside, and the condenser 24 and the heat dissipation fin 30 are dissipated by natural convection. In the case of maximization, a fan (not shown) may be selectively installed near the heat dissipation fin 30 to force the air flow.

The heat pipe 20 installed in the mold 10 is press-fixed to form guide holes 12 in the respective portions of the mold 10 and heat pipes 20 in the guide holes 12. By inserting, the outer circumference of the heat pipe 20 and the inner circumference of the guide hole 12 are maintained in a press-contact state.

The present invention as described above is to ensure that the mold cooling is appropriately made and to reduce the production cost, and to install the heat pipe 20 into the injection mold 10 and to the outside of the mold 10 The heat radiation fins 30 are installed on the protruding heat pipes 20.

The heat pipe 20 is inserted into the guide hole 12 of the mold 10, the guide hole 12 and the heat pipe 20 is coupled in a press-contacted state to generate heat of the mold 10 At the same time, the heat generation of the heat pipe 20 is performed at the same time, and the heat reduction of the heat pipe 20 and the heat reduction of the mold 10 are simultaneously performed.

When the product is formed in the above-described state, the temperature of the mold 10 rises by a predetermined temperature or more, and the temperature of the mold 10 decreases at the same time as the temperature rises. The temperature of the mold 10 is reduced by the heat pipe 20 and the heat dissipation fins 30. When the rising heat is generated inside the mold 10, the evaporation unit 22 of the heat pipe 20 forms a mold. Absorbs the generated heat of (10), the working gas of the evaporation unit 22 absorbing the generated heat is moved to the condensation unit 24 side, the condensation unit 24 is the operating gas transferred from the evaporation unit 22 The condensation is to fluidize the working fluid, and to quickly dissipate the heat while the working fluid, the heat dissipation is effectively made by the heat dissipation fin 30, the heat dissipation is made through the mold (10) There is no defect in the product.

As described above, in the present invention, the heat pipe is installed in the mold, and the heat dissipation fin is installed at the exposed portion of the heat pipe, so that the mold cooling is appropriately performed. Therefore, the manufacturing cost can be reduced.

1 is a schematic view of a conventional one,

2 is a schematic diagram of an embodiment of the present invention;

3 is an exploded view of a state of use of the embodiment of the present invention.

<Description of the code used in the main part of the drawing>

10: mold 20: heat pipe

22: evaporator 24: condenser

30: heat sink fins

Claims (2)

The mold 10, the heat pipe 20 into which one side is inserted into the mold 10 and a working fluid is filled therein, and a heat dissipation fin 30 installed on the other side of the heat pipe 20 to dissipate heat. Cooling apparatus for injection mold cooling, characterized in that configured. The method of claim 1, Cooling apparatus for injection mold cooling, characterized in that at least one heat pipe 20 is installed.