KR20090109816A - Cooling water circulation device of die casting mold - Google Patents

Abstract

PURPOSE: A cooling water circulation device of a die casting mold is provided to reduce manufacturing cost by removing a check valve by preventing counter current of cooling water. CONSTITUTION: A cooling water circulation device of a die casting mold comprises a cooling water supply line(10), a motor pump, a solenoid valve and an air supply line(60). The cooling water supply line is connected to the cooler. The motor pump supplies the cooling water and is equipped in the cooling water supply line. The solenoid valve guides a flow channel to a mold for a die-casting and selectively opens and closes the cooling water supply line. The air supply line is connected to the cooler and removes the cooling water within the cooler through the air.

Description

Cooling water circulation device of die casting mold

The present invention relates to a coolant circulation device of a die casting mold, and more particularly, to supplying coolant after processing a fine coolant hole to core pins and insert cores, which cannot be internally cooled by a general cooling method, so as to reduce internal shrinkage and surface tearing. The present invention relates to a cooling water circulating device of a die casting mold made of a pressurization method of a motor pump to reduce leakage caused by damage to a chill layer.

In general, die casting, also called die casting, is a precision casting method in which molten metal is injected into a mold made of steel that is precisely machined to perfectly match the required casting shape. The die casting is a die casting product. do.

This die casting method has the advantage of hardly needing to be refined because the casting dimensions are accurate, and it has excellent mechanical properties and is capable of mass production. The metals used are alloys of zinc, aluminum, tin, copper, etc. The product is cast by solidifying by injecting by pneumatic pressure, hydraulic pressure, hydraulic pressure or the like using a die cast casting machine.

The mold used for the die casting is a metal mold, and is generally divided into a movable mold and a fixed mold, and as shown in FIG. 3, cooling of the mold is performed in each mold. Cooling water circulation system including a cooler (cooler) is provided.

The cooling water circulation device is a pump driving method using an air cylinder, and connects the cooling water cylinder 1 and the air cylinder 2 with the same piston rod 3, and through the difference in diameter of each cylinder (1,2) This is to amplify the pressure of the coolant above the pressure.

That is, the cooling water is supplied to the cooling water supply line when air is supplied to the piston rod side of the air cylinder 2, and the first and second check valves 4 and 6 are opened to flow into the cooling water cylinder 1.

At the same time, the air supply solenoid valve 5 is opened to pressurize the piston rod side of the air cylinder 2 and at the same time pressurize the coolant on the piston rod side of the coolant cylinder 1 to open the second check valve 6 while discharging the coolant. do.

When the coolant discharged as described above opens the coolant supply solenoid valve 7, the coolant is supplied to the core pin of the mold to cool the core pin of the die casting mold for a predetermined time.

At this time, the air supply is made through the air supply line 8 to remove the coolant in the cooler (not shown) mounted in the mold after the completion of the coolant passing.

However, in the conventional cooling water circulation device, the first and second check valves 4 and 6 connected to the cooling water cylinder 1 frequently fail due to foreign matters in the cooling water or due to constant contact with the high pressure cooling water. The leakage occurs due to the sealing wear of the piston rod mounted on the air cylinder (2), the cooling water discharge pressure is lowered, the pulsation phenomenon occurs due to the reciprocating motion of the piston rod has a problem that the cooling water discharge pressure is uneven.

Therefore, the present invention has been invented to solve the above problems, there is no backflow of the cooling water to the pump side due to the constant pressure formation of the motor pump, it is unnecessary to use the existing check valve, each of the motor pump main pump The main pump part can be used even if the main pump part breaks down, so that the auxiliary pump part can be used to maintain the process continuously.In the initial operation of the motor pump, the boosting time is required, but the accumulator is pressurized. Since it is possible to discharge the cooling water to provide a cooling water circulation device of the die casting mold that can maintain a constant pressure of the cooling water.

In order to achieve the above object, the present invention provides a coolant circulation apparatus of a die casting mold for allowing the coolant supplied from the coolant supply means to circulate through the cooler so as to cool the heat generated from the cooler formed inside the mold. A cooling water supply line 10 connected to the cooler; A motor pump 20 provided in the cooling water supply line 10 for supplying cooling water from the outside of the mold; A solenoid valve 40 which selectively opens and closes the cooling water supply line 10 to guide a flow path to a die casting mold; It characterized in that it comprises an air supply line 60 connected to the cooler to remove the coolant in the cooler through the air.

As a preferred embodiment, the motor pump 20 is characterized in that the main pump portion 21, and the auxiliary pump portion 22 that can be used in the event of a failure of the main pump portion 21 is switched.

The cooling water supply line 10 is characterized in that it further comprises a pressure reducing valve 30 for reducing the high pressure cooling water to an appropriate pressure.

In addition, the coolant supply line 10 further includes an accumulator 50 that charges the coolant therein to perform pressure compensation during the boosting time of the initial motor pump 20 to maintain a constant pressure of the coolant. It features.

The coolant supply line 10 further includes a pressure switch 70 for stopping the operation of the motor pump 20 when the detected coolant pressure is less than the set reference pressure.

As seen above, according to the cooling water circulation apparatus of the die casting mold which concerns on this invention, there exist the following effects.

1. As the pressure of the motor pump is maintained, constant pressure build-up prevents cooling water backflow to the pump side, thus reducing the cost of the conventional check valve.

2. In case of main pump failure, the auxiliary pump can be operated immediately, thus avoiding mold production interruption in case of pump failure.

3. It is easy to control the discharge cooling water capacity and pressure, and the rapid cooling effect can be achieved by using high pressure cooling water.

4. Simplification of structure makes maintenance easy in case of failure of other components.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings in detail.

1 is a circuit diagram illustrating a cooling water circulation apparatus of a die casting mold according to the present invention, and FIG. 2 is an exploded perspective view illustrating a cooler of a die casting mold in general.

The present invention has the main point to improve the compactness and weight reduction of the cooling water circulator through the deletion of the conventional configuration, and to improve the cooling effect by maintaining a constant cooling water capacity and pressure.

The cooling water circulator of the die casting mold according to the present invention includes a plurality of coolers (not shown) inside the mold for cooling the die casting mold.

The cooler is formed inside the mold and is connected to a cooling water supply line 10 and a cooling water discharge line (not shown) for supplying and discharging the cooling water, wherein the cooling water supply line 10 respectively receives the cooling water from the outside of the mold. It is connected to the water supply line for water supply from the motor pump (20).

The motor pump 20 is divided into a main pump part 21 and an auxiliary pump part 22, and when the main pump part 21 fails, the motor pump 20 is converted into an auxiliary pump part 22.

The use of the switch to the sub-pump part 22 maintains cooling of the mold continuously, thereby avoiding interruption of mold production.

In addition, a pressure reducing valve 30 is provided in the cooling water supply line 10 to reduce the high pressure cooling water flowing through the drive in the motor pump 20 to an appropriate pressure. Cooling water is discharged to the cooler for a predetermined time when the solenoid valve 40 to be selectively opened and closed is discharged to cool the die casting die.

Here, the cooler, as shown in Figure 2, the supply and discharge hoses 110 and 120 are integrally connected on the cap (100), the supply hose 110 is supplied to the first and second cooling water While passing through the pipe (200,300) is configured to cool the heat generated in the mold core, core pin or insert core in the mold, and is discharged through the discharge hose 120.

At this time, in order to generate the pressure of the motor pump 20 at the initial discharge of the cooling water to the mold, a boosting time is required. The accumulator 50 provided in the cooling water supply line 10 is The pressurized coolant is filled therein to perform pressure compensation of the coolant supply line 10 during the initial boosting time so that the pressure of the coolant is kept constant.

In addition, another function of the accumulator 50 is that, when a failure of the motor pump 20 occurs during the discharge of the coolant by the motor pump 20, the coolant therein is provided with the coolant supply line 10. There is a function to be discharged through.

In this case, the coolant stored in the accumulator 50 has one cycle of coolant stored for the coolant supply line 10, and the amount of the coolant stored in the accumulator 50 may vary depending on the capacity of the accumulator 50. have.

Meanwhile, as in the related art, after the supply of the cooling water to the cooler is completed through the cooling water supply line 10, air is supplied through the air supply line 60 to remove the cooling water in the cooler.

In addition, the coolant is supplied through the coolant supply line 10 driven by the motor pump 20. When a problem occurs during the supply of the coolant, a problem caused by the pressure switch 70 in the coolant supply line 10 occurs. When the pressure switch 70 is eliminated, the pressure switch 70 stops the operation of the motor pump 20 when the detected coolant pressure is less than the set reference pressure, that is, the factory coolant pressure (3kg / cm ² ). It is prevented in advance so as not to be developed by the failure of

Therefore, the cooling water circulator of the die casting mold according to the present invention does not generate a reverse flow phenomenon of the cooling water to the pump side due to the constant pressure formation of the motor pump 20, and thus it is unnecessary to use an existing check valve, and the motor pump 20 Each of the main pump unit 21 and the sub-pump unit 22 is divided into the main pump unit 21 can be used even if a failure of the main pump unit 22 can be used to maintain the progress of the process, the motor In the initial operation of the pump 20, it takes time to increase the pressure, but the accumulator 50 is an invention that can maintain a constant pressure of the cooling water because it can discharge the pressurized cooling water.

Although the above has been shown and described with respect to the preferred embodiments of the present invention, the present invention is not limited to the above-described embodiment, in the technical field to which the present invention pertains without departing from the spirit of the invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such changes will fall within the scope of the claims set forth.

1 is a circuit diagram showing a coolant circulation device of a die casting mold according to the present invention;

2 is an exploded perspective view showing a cooler of a general die casting mold;

3 is a circuit diagram showing a cooling water circulating device of a conventional die casting mold.

* Description of the symbols for the main parts of the drawings *

10: cooling water supply line 20: motor pump

21: main pump 22: auxiliary pump

30: pressure reducing valve 40: solenoid valve

50: accumulator 60: air supply line

70: pressure switch

Claims (5)

In the cooling water circulator of the die casting mold for allowing the cooling water supplied from the cooling water supply means to circulate through the cooler to cool the heat generated by the cooler formed inside the mold, A coolant supply line 10 connected to the cooler; A motor pump 20 provided in the cooling water supply line 10 for supplying cooling water from the outside of the mold; A solenoid valve 40 which selectively opens and closes the cooling water supply line 10 to guide a flow path to a die casting mold; And an air supply line (60) connected to the cooler so that the coolant in the cooler can be removed through the air. The method of claim 1, The motor pump 20 is the main pump unit 21, the coolant circulating device of the die casting mold, characterized in that the main pump unit 21, the auxiliary pump unit 22, which can be used in the event of a failure. The method of claim 1, The cooling water supply line 10 further includes a pressure reducing valve 30 for reducing the high pressure cooling water to an appropriate pressure. The method according to claim 1 or 3, The coolant supply line 10 further includes an accumulator 50 that charges the coolant therein to perform pressure compensation during the boosting time of the initial motor pump 20 to maintain a constant pressure of the coolant. Cooling water circulator of die casting die. The method of claim 4, wherein The cooling water supply line 10 further includes a pressure switch 70 for stopping the operation of the motor pump 20 when the detected pressure of the cooling water is lower than the set reference pressure. Device.

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