KR200337726Y1 - A temperature control apparatus - Google Patents

Abstract

The disclosed temperature control device includes a heating unit for heating a heat medium, a cooling unit for cooling the heat medium, and a heat medium moving line for connecting the units with a temperature control material to form a movement path of the heat medium, wherein the heating unit is a temperature control material. A first heating chamber into which the heat medium transferred from the first heat chamber is introduced, a heater for heating the heat medium in the first heating chamber, and a second heating chamber for storing the heated heat medium from the first heating chamber and supplying it to the temperature control material if necessary. The cooling unit includes a first cooling chamber into which the heat medium moving from the temperature control material is introduced, a cooler for cooling the heat medium in the first cooling chamber, and a cooled heat medium from the first cooling chamber. It is comprised including the 2nd cooling chamber supplied to a temperature regulation object material. According to such a configuration, since a large amount of the heat medium is stored in the heat and cold state, respectively, in the second heating chamber and the second cooling chamber, and if necessary, the heat medium is supplied to the temperature control material to perform heating and cooling, Work can be made faster, and productivity can be significantly improved, especially when applied to hot press processes that repeat heating and cooling operations.

Description

A temperature control apparatus

The present invention relates to a temperature control device, and more particularly, to a temperature control device suitable for a place where rapid heating and cooling is required, such as a hot press process.

In general, a hot press process is a process of placing a working plate between heated hot plates and thermocompressing them into a product of a desired shape. In order to repeatedly perform such a hot press operation, temperature control for heating and cooling the hot plates A device is needed.

1 shows a conventional temperature control device employed for heating and cooling the hot plate 81 in this hot press process 80. Referring to the drawings, the temperature control device is basically provided with a heating unit 10 and a cooling unit 20.

First, the heating unit 10 includes a heating chamber 11 in which fruit oil, which is an oil used as a heat medium, is accommodated, and a heater 12 installed in the heating chamber 11 to heat the fruit oil. Therefore, when the heater 12 is operated, the fruit oil in the heating chamber 11 is heated, and the heated fruit oil is supplied to the hot press process 80 along the supply line 31 to heat up the hot plate 81. After that, it returns to the heating chamber 11 along the return line 32 again.

In addition, the cooling unit 20 is configured to include a cooling chamber 21 for accommodating the fruit oil and a cooler 22 for cooling the fruit oil in the cooling chamber 21. Accordingly, when the cooler 22 is operated, the fruit oil in the cooling chamber 21 is cooled, and the cooled fruit oil is supplied to the hot press process 80 along the supply line 31 to cool the hot plate 81. After that, the return line 32 returns to the cooling chamber 21.

Then, the selection of which of the heating oil 10 and the cooling unit 20 to circulate in the hot press process is performed by the automatic temperature control valve 70. That is, the automatic temperature control valve 70 sends the fruit oil coming from the hot press process 80 to a selected one of the heating unit 10 and the cooling unit 20, thereby heating the fruit oil heated or cooled along the entire line. The proper amount of fruit oil or both is circulated.

Reference numeral 40 denotes a fruit oil expansion tank storing the expanded fruit oil during the heating process, reference numeral 50 denotes a fruit oil circulation pump, and reference numeral 60 denotes a control panel.

By the way, the heating and cooling rate of the hot plate 81 by such a temperature control device has a big influence on the productivity of the hot press process 80. That is, in the hot pressing process 80, a work plate (not shown) is placed between the heat plates 81 installed in multiple stages, and the heating oil is supplied to the heating unit 10 to heat the hot plates 81, and then pressed. After the processing is completed, the working plate is removed and the heating plates 81 are cooled by the fruit oil of the cooling unit 20 to prevent pre-deformation before the next work plate is placed. Therefore, since the heating and cooling of the hot plate 81 must be repeated periodically every time the pressing operation is performed, it is natural that the productivity of the hot press step 80 is lowered when the rate of such heating and cooling is slowed down. Therefore, in order to improve the productivity of a hot press operation, the temperature control apparatus which can speed up the heating and cooling of such a hotplate 81 is calculated | required.

The present invention was created in view of the above necessity, and an object thereof is to provide an improved temperature control device for more quickly performing heating and cooling of a temperature control target material.

1 is a view showing the configuration of a conventional temperature control device,

2 is a view showing the configuration of a temperature control device according to the present invention.

<Description of Symbols for Major Parts of Drawings>

100 ... heating unit 200 ... cooling unit

110.1st heating chamber 113 ... heater

120 ... 2nd heating chamber 210 ... 1st cooling chamber

220.2nd cooling chamber

The present invention for achieving the above object, the temperature control device including a heating unit for heating the heat medium and a cooling unit for cooling and the heat medium moving line for connecting the units with the temperature control material to form the movement path of the heat medium The heating unit may include a first heating chamber into which the heat medium moving from the temperature control material flows, a heater for heating the heat medium in the first heating chamber, and a heated heat medium from the first heating chamber. And a second heating chamber for storing and supplying the temperature control material to the temperature control material if necessary. The cooling unit includes a first cooling chamber into which a heat medium moving from the temperature control material flows, and a heat medium in the first cooling chamber. A second cooler configured to cool the cooler, and a second heat supply to store the cooled heat medium from the first cooling chamber and, if necessary, to the temperature control target material. It characterized in that it comprises for each chamber.

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

Figure 2 shows a temperature control device according to the present invention.

As shown in the present invention, the temperature control device of the present invention is basically provided with a heating unit 100 for heating oil, that is, a heating oil, and a cooling unit 200 for cooling it. The fruit oil heats or cools the hot plate 810 while circulating through a closed loop moving path including a supply line 310 and a return line 320 connected to the hot plate 810, which is a temperature control material.

Among them, the heating unit 100 includes a first heating chamber 110 in which the heater 113 is installed, and a second heating chamber 120 accommodating the first heating chamber 110. The first heating chamber 110 discharges the fruit oil into the second heating chamber 120 and the inlet port 111 through which the fruit oil returning from the hot plate 810 through the return line 320 is introduced. The port 112 is provided. Therefore, the fruit oil introduced into the first heating chamber 110 through the inlet port 111 is heated by the heater 113 and then exits to the discharge port 112 to be heated in the second heating chamber 120. Is stored as. In addition, since the body of the first heating chamber 110 is accommodated in the second heating chamber 120, the heat of the heater 113 is indirectly transmitted to the second heating chamber 120 to insulate the fruit oil. Let's go. The heat oil stored in this manner is supplied to the hot press process 800 along the supply line 310 to raise the hot plate 810 when necessary. Compared with the structure of the conventional heating unit, the conventional heating unit in the conventional heating unit 110 in which the heating oil is directly supplied to the hot press process (800), in the present invention, the first heating The fruit oil heated in the chamber 110 is stored in a warm state in the second heating chamber 120 and is then provided to the hot press process 800.

In addition, the cooling unit 200 includes a first cooling chamber 210 in which the cooler 213 is installed, and a second cooling chamber 220 accommodating the first cooling chamber 210. The first cooling chamber 210 has an inlet port 211 through which the fruit oil returning from the hot plate 810 through the return line 320 is introduced, and a discharge to release the fruit oil into the second cooling chamber 220. The port 212 is provided. Accordingly, the fruit oil introduced into the first cooling chamber 210 through the inlet port 211 is cooled by the cooler 213 and then exits to the discharge port 212 to be cooled in the second cooling chamber 220. Is stored as. In addition, since the body of the first cooling chamber 210 is accommodated in the second cooling chamber 220, cold air of the cooler 213 is indirectly transmitted to the second cooling chamber 220 to insulate the fruit oil. Let's go. Thus stored fruit oil is supplied to the hot press process 800 along the supply line 310 to cool the hot plate 810 when necessary. Compared with the structure of the conventional cooling unit, conventionally, in the first cooling chamber 210 in which the cooler 213 is built, the fruit oil is directly supplied to the hot press process 800, whereas in the present invention, the first cooling The fruit oil cooled in the chamber 210 is stored in a cold state in the larger second cooling chamber 220 and then provided to the hot press process 800.

The selection of which of the heating oil 100 and the cooling unit 200 is circulated to the hot press process 800 is performed by the automatic temperature control valve 700. That is, the automatic temperature control valve 700 sends the fruit oil coming from the hot pressing process to a selected one of the heating unit 100 and the cooling unit 200, thereby heating the fruit oil or the cooled fruit oil along the entire line or Allow the proper amount of mixing on both sides to be circulated.

Reference numeral 400 denotes a fruit oil expansion tank that collects the expanded fruit oil during the heating process, reference numeral 500 denotes a fruit oil circulation pump, reference numeral 600 denotes a control panel, and reference numerals 130 and 230 respectively indicate a liquid level gauge.

In the above configuration, when starting a hot press operation, first, the working plate is placed between the hot plates 810, and the heated fruit oil of the heating unit 100 is supplied to the hot plates 810. At this time, the fruit oil supplied is not a small amount contained only in the first heating chamber 110 as in the prior art, but a large amount of the one stored in the insulated state after heating in the second heating chamber 120 is provided. It becomes possible. When the hot plates 810 reach a desired temperature, the hot plates 810 are brought into close contact with each other to perform a pressing operation on the work plates sandwiched therebetween. Thereafter, the working plates are removed by separating the hot plates 810, and the next working plates are mounted again. At this time, when the next working plates are mounted while the hot plates 810 are heated, they are pressed. Since the working plate is more likely to be thermally deformed before proceeding, the hot plates 810 must be cooled again. To this end, the thermostatic valve 700 blocks a passage for circulating the fruit oil to the heating unit 100 and opens a passage for passing the fruit oil to the cooling unit 200. Then, the cooled fruit oil of the cooling unit 200 circulates along the supply line 310 and the return line 320 to cool the hot plates 810. In this case, as well, only a small amount of fruit oil contained in the first cooling chamber 210 is supplied, but a large amount of fruit oil stored in a cold state in the second cooling chamber 220 is provided to the hot plate 810. Rapid cooling is possible. Thereafter, when the hot plate 810 is cooled to a desired temperature, the plate to be worked next is placed between the hot plates 810 and the heating and pressing operations are repeated again as described above.

Therefore, in performing the hot press operation as described above, a large amount of fruit oil stored in the warm and cold state in the second heating chamber 120 and the second cooling chamber 220, respectively, is supplied to the hot plate 810 to adjust the temperature This makes it possible to speed up the work cycle of hot presses.

As described above, the temperature control device of the present invention stores a large amount of heat medium in a warm and cold state, respectively, and if necessary, supplies a large amount of heat medium to a temperature-controlled material to perform heating and cooling. This can be used to improve productivity, especially when used in a hot press process that repeats heating and cooling operations.

It is understood that the invention is not limited to that described above and illustrated in the drawings and that many more modifications and variations are possible within the scope of the following claims.

Claims (7)

In the temperature control device comprising a heating unit for heating the heat medium and a cooling unit for cooling and the heat medium moving line for connecting the units with the temperature control material to form a movement path of the heat medium, The heating unit is required by storing a first heating chamber into which the heat medium moving from the temperature control material flows, a heater for heating the heat medium in the first heating chamber, and a heated heat medium from the first heating chamber. A second heating chamber for supplying the temperature control target material The cooling unit may be required by storing a first cooling chamber into which the heat medium moving from the temperature regulating material flows, a cooler for cooling the heat medium in the first cooling chamber, and a cooled heat medium from the first cooling chamber. And a second cooling chamber for supplying the temperature control target material. The method of claim 1, And the first heating chamber and the first cooling chamber are respectively housed in the second heating chamber and the second cooling chamber. The method of claim 1, The heating medium moving line is a temperature control device, characterized in that consisting of a closed loop for circulating the heating unit and the cooling unit and the temperature control object. The method of claim 1, And a thermostat valve installed in the heat medium moving line to relatively adjust an amount of the heat medium moved to the heating unit and the cooling unit. The method of claim 1, And a heat medium expansion tank for receiving the heat medium expanded in said heat medium moving line. The method of claim 1, The heat medium is a temperature control device, characterized in that the oil. The method of claim 1, The temperature control device is a temperature control device, characterized in that the hot plate of the hot pressing process.