KR20140052314A - Apparatus for controlling the temperature of the mold - Google Patents

Abstract

The present invention relates to an apparatus to actively control the temperature of a mold. The apparatus to control the temperature of a mold includes: a hot water inlet guiding hot water supplied from a hot water supply unit to the mold; a cool water inlet guiding cool water supplied from a cool water supply unit to the mold; a hot water outlet guiding the hot water discharged from the mold to the hot water supply unit; a cool water outlet guiding the cool water discharged from the mold to the cool water supply unit; and a temperature control unit controlling the hot water and the cool water supplied to the mold, and the hot water and cool water discharged from the mold. By separately installing the hot water supply unit and the cool water supply unit, each control of the water supply units to supply hot water and cool water to the cooling line of the mold is possible so that the control of the temperature in the mold is no longer standardized, but active.

Description

[0001] APPARATUS FOR CONTROLLING THE TEMPERATURE OF THE MOLD [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a mold temperature adjusting apparatus, and more particularly, to a mold temperature adjusting apparatus capable of appropriately adjusting a temperature of a mold.

In a typical injection molding process, a high-temperature molten plastic resin forms the shape of a product while filling the inside of the mold. As a shape is formed, a surface defect such as a weld line or a flow mark appears.

As a method for improving appearance defects, a method of improving the appearance quality by raising the temperature of the mold is used. The method includes a method of using hot water or hot oil in the cooling line inside the mold, a method of heating by hot air, There have been various attempts such as a heating method, a high frequency induction heating method, a method of sandwiching a heat plate between a cavity and a core of the mold, a method of using a heat insulating effect by coating a super heat resistant polymer resin on the outer surface of a mold, Good results were obtained. However, the higher the mold temperature, the better the appearance, but the longer the cooling time, the lower the production efficiency of the product and the durability and the operability of the mold.

In view of the demands of the times, in the early 2000s, Japanese companies introduced the rapid heating / cooling system in Japan for the implementation of the No-Weld product, and attempted to improve the appearance of the injection molding product by controlling the mold temperature.

This technology is called Rapid Heat Cycle Molding (RHCM). When the mold is heated using the cooling line designed inside the mold, steam is used. When cooling, the temperature is controlled by using normal or cold water .

The role of the cooling line in conventional molds is to uniformly control the mold temperature to the set temperature. On the other hand, in RHCM, two temperatures of high temperature and low temperature are set. When the plastic resin is injected, it is set to a high temperature state in order to minimize the property of solidifying in contact with the mold wall surface. It is operated in such a way. That is, in the process of filling the resin, the mold temperature is controlled in such a manner that the temperature is set to be equal to or higher than the glass transition temperature (Tg) of the plastic resin, and cooling is performed based on the completion of the product shape.

However, this RHCM processing technology has an advantage that it can improve the production efficiency of the product by rapidly cooling the mold as well as improving the outer surface of the mold. However, at the time of filling the resin, the heating is fixed to the set temperature according to the predetermined resin There is a limitation in that it is inevitably operated that the temperature of the mold is completely lowered by using cooling water and cooling water.

That is, even if injection is performed by a plurality of resins having different transition temperatures for forming one product, the mold is heated again to a set temperature, and then the mold is cooled again. Therefore, there is a problem in that it is not efficient in terms of mass production for various kinds of injection molding products.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a device capable of actively controlling a temperature of a mold, not heating and cooling the mold uniformly.

According to an aspect of the present invention,

A cold water inflow path for guiding the cold water introduced from the water supply section to the mold side, a hot water outflow path for guiding the hot water outflowed from the mold side to the hot water supply section, a hot water inflow path leading to the hot water inflow path from the mold side, A temperature control means for controlling the cold water outflow path for guiding the cold water to the cold water supply portion and the hot water and cold water flowing into the mold side and the hot water and cold water flowing out from the mold side; , Wherein:

The temperature control means includes a hot water inflow valve installed on the hot water inflow path, a cold water inflow valve provided on the cold water inflow path, a hot water outflow valve installed on the hot water outflow path, And a temperature control unit controlling the inflow and outflow of hot water and cold water by controlling the cold water outflow valve, the hot water inflow valve, the cold water inflow valve, the hot water outflow valve and the cold water outflow valve,

The hot water inflow path and the cold water inflow path are connected by an inflow path. The inflow path is connected to a mold internal flow path formed inside the mold. Hot water or cold water circulating through the mold internal flow path is connected to a single outflow path And the outflow path is connected to the hot water outflow path and the cold water outflow path.

Further, a temperature sensor for measuring the temperature of hot water or cold water flowing into the inflow path may be further provided,

A hot water bypass connected to the hot water inflow path and a cold water bypass connected to the cold water inflow path by branching from the cold water inflow path.

The bifurcation point of the hot water inflow path is before the hot water inflow valve on the basis of the inflow direction and the bifurcation point of the cold water inflow path is before the cold water inflow valve on the inflow direction,

A hot water bypass valve is provided on the hot water bypass, a cold bypass valve is provided on the cold bypass, and the hot water bypass valve and the cold bypass valve are controlled by the temperature controller.

Further, the hot water inflow path further includes a hot water inflow flow sensor for measuring the amount of hot water flowing into the hot water inflow path,

Here, the hot water inflow flow rate sensor may be after the hot water inflow valve based on the inflow direction,

The cold water inflow path further includes a cold water inflow rate sensor for measuring the amount of cold water flowing into the cold inflow path,

Wherein the cold water inflow flow sensor is located after the cold water inflow valve with respect to the inflow direction,

And a flow-out flow sensor for measuring the flow-out amount is further provided on the outflow path.

According to the mold temperature adjusting apparatus of the present invention,

Since the hot water supply unit and the cold water supply unit are separately provided and can be controlled and supplied to the cooling line of the mold, temperature control of the mold is active compared to the conventional control of the mold temperature.

Therefore, it is possible to cool or heat stepwise as needed without drastically lowering the temperature at the completion of the product.

Therefore, when a plurality of resins are used in one process, it is easy to adjust the temperature accordingly, thereby contributing to mass production.

1 is a block diagram of a system to which a mold temperature control apparatus according to the present invention is applied.
2 is an enlarged view of a part of a mold temperature adjusting apparatus according to the present invention.
FIG. 3 shows an application example of the mold temperature adjusting apparatus according to the present invention.

The preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, in which the technical parts already known will be omitted or compressed for the sake of brevity.

1 and 2, a mold temperature regulating apparatus 100 according to the present invention includes a hot water inflow path 110, a cold water inflow path 120, a hot water outflow path 130, a cold water outflow path 140 An inflow path 150, an outflow path 160, and a temperature control means.

The hot water inflow path 110 is a conduit for allowing hot water to flow into the mold M from the hot water supply section H and cold water flows into the cold water inflow path 120 from the cold water supply section C, .

The hot water outflow path 130 is a conduit through which the hot water circulated through the mold M flows out to the hot water supply section H. The cold water outflow path 140 circulates cold water circulating the mold M through the cold water supply section C).

The hot water inflow path 110 and the cold water inflow path 120 are connected to one inflow path 150 and the inflow path 150 is formed inside the mold M to directly raise or lower the temperature of the mold And the hot water or cold water is supplied to the inside of the mold.

The supplied hot water or cold water is circulated through the mold inner flow path to raise or lower the temperature of the mold and the circulated hot water or cold water flows out of the mold M through the outflow path 160.

The outflow channel 160 is connected to the hot water outflow channel 130 and the cold water outflow channel 140 so that the hot water flows out to the hot water supply unit H through the hot water outflow channel 130. The cold water flows out through the cold water outflow channel 140 And then flows out to the cold water supply unit (C).

Since the mold is provided with hot water and cold water through separate supply lines, it is not necessary to uniformly control the temperature by heating the mold to a specific temperature and then rapidly cooling the mold, It is possible to proceed.

The hot water control means for controlling the hot water and the cold water through the separate supply line includes a hot water inlet valve 171, a cold water inlet valve 172, a hot water outlet valve 173, a cold water outlet valve 174, 175 and a temperature control unit 176.

The hot water inflow valve 171 is disposed on the hot water inflow path 110. The cold water inflow valve 172 is disposed on the cold water inflow path 120 and the hot water outflow valve 173 is disposed on the hot water outflow path 130, The cold water outflow valve 174 is installed on the cold water outflow path 140 and is suitably a solenoid valve that is operated electromagnetically according to the inflow of water. The temperature control unit 176 controls the inflow and outflow of hot water and cold water Is controlled.

The temperature sensor 175 measures the temperature of the hot water or the cold water flowing into the mold M so that the temperature can be checked by the administrator so that it is possible to check whether or not the incoming temperature matches the set value, . It may be separately provided in each of the hot water inflow path 110 and the cold water inflow path 120, but it is preferably provided on the inflow path 150 connected to the mold inner path.

Next, the mold temperature regulating apparatus 100 of the present invention may further include a hot water bypass 180 and a cold water bypass 190.

The hot water bypass line 180 is a bypass means for branching at a point before the hot water inflow valve 171 of the hot water inflow path 110 to be connected to the hot water outflow path 130 so that hot water can be bypassed, The bypass 190 is a bypass means for branching at a point before the cold water inflow valve 172 of the cold water inflow path 120 to be connected to the cold water outflow path 140 so that cold water can be bypassed, A hot water bypass valve 181 and a cold water bypass valve 191 are provided.

Such a detour is a means for preventing the hot water inflow path 110 and the cold water inflow path 120 from being overloaded while the hot water inflow valve 171 or the cold water inflow valve 172 is closed. The water bypassed by the hot water bypass 180 is controlled to flow through the hot water outflow path 130 by controlling the hot water bypass valve 181 and the cold water bypass valve 191 to be opened respectively in the state where the cold water inflow valve 172 is closed, And the water bypassed by the cold water bypass path 190 flows out through the cold water outflow path 140. [

3, the hot water inflow flow sensor 111 may include a hot water inflow valve 171 on the hot inflow path 110, At a later point, it is preferable that the cold water inflow flow sensor 121 is installed on the cold water inflow path 120 after the cold water inflow valve 172, and the outflow flow sensor 161 is installed on the outflow path 160.

As a result, it is possible to measure whether the amount of hot water or cold water introduced is correct or not, and it is also possible to accurately check the total amount of outflow, thereby checking whether leakage of water from the mold internal flow path does not occur, have.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Shall not be construed as being understood. Therefore, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. The present invention is not limited thereto.

100: Mold temperature control device
110: Hot water inflow path
111: Hot water flow sensor
120: Cold water inflow path
121: Cold water inflow flow sensor
130: Hot water spillway
140: cold water outflow path
150: Inflow path
160: Runway
161: Flow sensor
171: Hot water inlet valve
172: cold water inlet valve
173: Hot water outlet valve
174: Cold water outlet valve
175: Temperature sensor
176:
180: Hot water bypass
181: Hot water bypass valve
190: cold water bypass
191: Cold water bypass valve

Claims (12)

A hot water inflow path for guiding the hot water introduced from the hot water supply section to the mold side;
A cold water inflow path for guiding the cold water introduced from the cold water supply section to the mold side;
A hot water outlet path for guiding the hot water flowing out from the mold side to the hot water supply section;
A cold water outflow path for guiding the cold water flowing out from the mold side to the cold water supply section; And
Temperature control means for controlling hot water and cold water flowing into the mold side, hot water flowing out of the mold side and cold water; ≪ RTI ID = 0.0 >
Mold temperature control device.
The method according to claim 1,
Wherein the temperature control means comprises:
A hot water inflow valve installed on the hot water inflow path;
A cold water inflow valve installed on the cold water inflow path;
A hot water outflow valve installed on the hot water outflow path;
A cold water outflow valve installed on the cold water outflow passage; And
A temperature controller controlling the hot water and the cold water by controlling the hot water inlet valve, the cold water inlet valve, the hot water outlet valve, and the cold water outlet valve; ≪ RTI ID = 0.0 >
Mold temperature control device.
3. The method of claim 2,
Wherein the hot water inflow path and the cold water inflow path are connected by an inflow path,
The inflow path is connected to a mold internal flow path formed inside the mold,
Hot water or cold water circulating through the mold inner flow path flows out through one outflow path,
Wherein the outflow path is connected to the hot water outflow path and the cold water outflow path.
The method of claim 3,
A temperature sensor for measuring a temperature of hot water or cold water flowing on the inflow path; Is further provided.
Mold temperature control device.
The method of claim 3,
A hot water bypass branched from the hot water inflow path and connected to the hot water outflow path; And
A cold water bypass which is branched from the cold water inflow path and connected to the cold water outflow path; ≪ RTI ID = 0.0 >
Mold temperature control device.
6. The method of claim 5,
The bifurcation point of the hot water inflow path is before the hot water inflow valve on the basis of the inflow direction,
And the branch point of the cold water inflow path is before the cold water inflow valve based on the inflow direction.
Mold temperature control device.
The method according to claim 6,
A hot water bypass valve is provided on the hot water bypass,
A cold water bypass valve is installed on the cold water bypass,
And the hot water bypass valve and the cold water bypass valve are controlled by the temperature control unit
Mold temperature control device.
The method of claim 3,
A hot water inflow flow sensor for measuring the amount of hot water flowing into the hot water inflow path; Is further provided.
Mold temperature control device.
10. The method of claim 9,
Wherein the hot water inflow flow rate sensor is after the hot water inflow valve with respect to the inflow direction
Mold temperature control device.
10. The method of claim 9,
A cold water inflow flow sensor for measuring the amount of cold water flowing into the cold water inflow path; Is further provided.
Mold temperature control device.
11. The method of claim 10,
Wherein the cold water inflow flow rate sensor is after the cold water inflow valve based on the inflow direction.
Mold temperature control device.
12. The method of claim 11,
A flow-out flow sensor for measuring a flow outflow on the outflow path; Is further provided.
Mold temperature control device.

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