KR100934042B1 - Apparatus for controlling temperature of thermal oil - Google Patents

Abstract

PURPOSE: An apparatus for controlling the temperature of thermal oil is provided to control the temperature of hot presses more minutely using an auxiliary heater installed on each hot press. CONSTITUTION: An apparatus for controlling the temperature of thermal oil comprises a main heater(100), a plurality of hot presses, a second temperature sensor, and an auxiliary control unit. The hot presses, each of which is equipped with an auxiliary heater, are installed in parallel in the main heater. The second temperature sensor is installed on the hot presses to measure the temperature of the thermal oil discharged from the hot presses. The auxiliary control unit controls the auxiliary heaters based on the temperature measured by the second temperature sensor. An expansion tank is installed in the main heater to prevent the leakage of the thermal oil in sudden heating. The temperatures of the hot presses can be controlled separately.

Description

Heat medium oil thermostat {Apparatus for controlling temperature of thermal oil}

The present invention relates to a heat medium oil temperature control device, and more particularly, a plurality of hot presses are installed in one main heating unit in parallel, and an auxiliary heating unit is provided in each hot press to more precisely adjust the temperature within an optimum temperature range. The present invention relates to a thermal oil temperature control device capable of controlling the temperature differently as well as being possible.

In general, a hot press refers to a method or apparatus for forming a product by pressing at a constant temperature. These hot presses are used in processes that require press molding under heating conditions in the production process of printed circuit boards (PCB), fiberboard materials, high-grade building materials (seamplates, refractory bricks), and automotive steel plates. In addition to the application field, there is an increasing trend in the specialty industrial fields such as the display (LCD, PDP, etc.) industry, flexible printed circuit board molding. The hot press repeats the process of forming the product by pressurizing when the hot fluid (heat medium oil) boiled in the boiler device is transferred to the hot plate or roller of the forming apparatus and satisfies the requirements of their temperature. . When the temperature of the molding apparatus is lowered or the coolant needs to be cooled and reheated during the repeated operation of the hot press, the heater inside the boiler apparatus is operated to reheat the thermal oil.

However, in the related art, when the temperature of the hot press is lowered, or when it is necessary to cool down and reheat, it is necessary to raise the productivity to increase the required time for raising the temperature to the appropriate temperature for molding again.

In addition, in order to increase the amount of heat in addition to the conventional boiler, the appearance of the heating element and the entire boiler is large, there is a difficulty in changing the installation in a limited space.

Thus, the invention described in Patent No. 10-0728767 has been developed, further comprising an auxiliary heat exchanger for shortening the time required for raising to the appropriate temperature required for molding, the configuration is shown in Figure 1, the tank ( 20, a pumping means (10), the main heat exchanger (B), the hot plate 30, the temperature sensor which is provided inside the hot plate 30 and checks the temperature of the hot plate 30 ( 60 and bypasses the main heat exchanger (B), the auxiliary heat exchanger (A), both sides of the auxiliary heat exchanger (A), and the auxiliary heat exchanger (A) based on the signal of the temperature sensor 60. It is characterized by further comprising a control unit 50 for controlling the operation of the valves 40b, 40c, 40d provided on the line of the pipe 1, respectively.

By the way, the invention described in the registered Patent No. 10-0728767 has a problem in that the entire system is additionally installed in order to increase the production amount because only one hot press is provided in one main heater.

In addition, the problem of rapidly raising the temperature by reheating was solved, but the thermal oil expanded rapidly due to such a rapid temperature change, causing the high temperature thermal oil to leak out of the sheath heater, resulting in workers being injured. There is a safety problem.

The present invention has been made to solve the above problems, the object of the present invention is to increase the productivity by providing a plurality of hot presses in parallel in one main heating device, and also a separate auxiliary heating device for each hot press It is to provide a heat medium oil temperature control device that can be adjusted to more precisely within the optimum temperature range.

Another object of the present invention is to provide a heat medium oil temperature control device having an expansion tank in the main heating device to prevent backflow and leakage due to expansion of the heat medium oil as the temperature rises rapidly.

The present invention for solving this problem;

In the heat medium oil temperature control device, a plurality of hot presses are provided in parallel in the main heating device.

Here, the main heating device is characterized in that the expansion tank is connected to the installation to prevent the leakage of the thermal fluid during rapid heating.

On the other hand, the hot press is characterized in that each auxiliary heater is provided.

In addition, the hot press is provided with a second temperature sensor for sensing the temperature of the heat medium oil discharged from the press unit, and an auxiliary control unit for controlling the auxiliary heating device according to the temperature detected by the second temperature sensor It is characterized by.

At this time, the hot press is characterized in that the temperature can be adjusted respectively.

On the other hand, the first temperature sensor for sensing the temperature of the heat medium oil discharged from the main heating device is provided, characterized in that the control unit for controlling the main heating device by the temperature detected by the first temperature sensor do.

And, the main heater is characterized in that the sheath heater is used.

Here, the main heating device is characterized in that the heat exchanger for heat medium oil cooling is further installed.

According to the present invention having the above-described configuration, a plurality of hot presses are provided in one main heating apparatus in parallel to increase productivity, and a separate auxiliary heating apparatus is provided in each hot press to more precisely within the optimum temperature range. There is an adjustable effect.

In addition, another object of the present invention is to include an expansion tank in the main heating device to prevent the safety accident by preventing backflow and leakage due to the expansion of the thermal fluid according to the rapid temperature rise.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. The same reference numerals are used for the same elements in the drawings, and duplicate descriptions of the same elements are omitted. And, it is to be understood that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth.

Figure 2 is a system opening diagram of the heat medium oil temperature control apparatus according to the present invention, Figure 3 is a detailed view of the main heating apparatus according to the present invention, Figure 4 is a view installed a plurality of hot press according to the present invention in parallel 5 is an opening diagram provided with a heat exchanger for cooling according to another embodiment of the present invention.

The present invention relates to a heat medium oil temperature control device as shown in Figure 2, the configuration is largely composed of the main heating device 100, the circulation pump 200 and the press unit 300.

Here, as shown in Figure 3, the main heating device 100, a plurality of sheath heaters 110 are connected, so that the plurality of sheath heaters 110 are configured to connect the heat medium oil faster time The temperature can be increased.

In addition, a supply pipe 210 for supplying the heat medium oil heated from the main heating device 100 to the press unit 300 is formed, and the supply pipe 210 is provided with a first temperature sensor 120 The temperature of the heat medium oil supplied from the main heating device 100 is sensed.

At this time, the control unit 130 for controlling the main heating device 100 is provided according to the temperature detected by the first temperature sensor 120, the control unit 130 is a temperature of the detected heat medium oil than the set temperature When the temperature is lowered, the temperature is increased by operating the sheath heater 110, and when the temperature of the detected heat medium oil reaches the set temperature, the operation of the sheath heater 110 is stopped to maintain the set temperature.

On the other hand, the main heating device 100 is provided with a float switch 107, the float switch 107 detects the oil level of the heat medium oil contained in the main heating device 100 is accommodated in the main heating device 100 Ensure that the heat medium oil is in a certain amount.

The reason why the heat medium oil accommodated in the main heating device 100 is maintained in a certain amount is that the capacity of the heat medium oil decreases, so that the sheath heater 110 is exposed to the air, and the sheath heater 110 rapidly increases in temperature. Since the float switch 107, the heat medium oil capacity in the main heating apparatus 100 is always kept constant.

In addition, an expansion tank 150 connected to the oil supply pipe 157 is provided at one side of the main heating device 100, and the expansion tank 150 has a high temperature heat medium oil accommodated in the main heating device 100. Prevents accidents by preventing leakage.

Looking at the action here, the heat medium oil is increased in volume when the temperature is increased, the pressure in the main heating device 100 is increased, due to this pressure increases the heat medium oil is connected to the main heating device 100 expansion The flow back to the tank 150 to relieve the high pressure to prevent the leakage of the high temperature thermal fluid to the outside, it is possible to prevent workers from accidents burned by the high temperature thermal fluid.

On the other hand, the expansion tank 150 is always accommodated with a constant heat medium oil is installed in the oil supply pipe 157 when the heat medium oil in the main heating device 100 is reduced to a predetermined amount or less by the above-mentioned float switch 107 The oil supply valve 155 is operated to replenish the heat medium oil contained in the main heating device 100 with the heat medium oil contained in the expansion tank 150.

In addition, the supply pipe 210 is provided with a circulation pump 200 to circulate the heat medium oil between the main heating device 100 and the press unit 300 connected by the supply pipe 210 and the recovery pipe 220. The supply pipe 210 is provided with a pressure gauge 230 to measure the pressure of the heat medium oil flowing in the supply pipe 210 to maintain a predetermined level of pressure.

In addition, as shown in FIG. 4, a plurality of hot presses 310 are formed in parallel in the press unit 300, and the hot plates 320 provided in the hot press 310 maintain optimal temperatures. If not, or the temperature distribution is not uniform, defective products that do not have value as a product are not produced because they do not meet the standard properties as products.

Thus, since the hot press 310 is provided with an auxiliary heating device 330, respectively, to maintain an optimum temperature more precisely, the hot press 310 is formed by over-temperature or under-cooling of the hot plate 320 provided in the hot press 310. This prevents product defects.

In addition, the hot press 310 is provided with a separate second temperature sensor 340 and the auxiliary control unit 350 to control the auxiliary heating device 330, a plurality of hot presses provided in parallel ( Since 310 may be set to different temperatures, it is possible to mold several kinds of products at one time.

Of course, the hot press 310 can all be set to the same temperature to form the same type of products in large quantities at a time, it is also possible to increase the output.

Further, as shown in FIG. 5, a cooling heat exchanger 140 is further provided between the main heating apparatus 100 and the circulation pump 200, and the cooling heat exchanger 140 has heat during the pressing process. Cooling the temperature of the heat medium oil in the case of being generated or received heat from other heat source to excessively increase the temperature of the heat medium oil, it is possible to maintain the optimum temperature.

Referring to the operational relationship of the heat medium oil temperature control device of the present invention described above, since the main heater 100 is formed by connecting a plurality of sheath heaters 110, the portion in contact with the heat medium oil is widened in a short time The heating medium oil can be heated.

In addition, as the heat medium oil is heated, the volume expands to increase the internal pressure of the main heating device 100. At this time, the main heating device 100 and the expansion tank 150 are provided with a fuel supply valve 155. It is connected to the oil supply pipe 157 and the heat medium oil flows back toward the expansion tank 150 by the pressure inside the main heating device 100, thereby lowering the pressure, thereby preventing the high temperature heat medium oil from leaking.

In addition, a first temperature sensor 120 is provided in the supply pipe 210 connected to the main heating device 100 and according to the temperature detected by the first temperature sensor 120 of the main heating device 100. The control unit 130 for controlling the operation is provided to appropriately adjust the temperature of the heat medium oil.

In addition, the main heating device 100 is provided with a float switch 107 to keep the heat medium oil at an appropriate amount at all times to prevent the sheath heater 110 from being exposed to air to prevent the failure of the sheath heater 110.

On the other hand, the main heating device 100 and the press unit 300 is connected to the supply pipe 210 and the recovery pipe 220 and the circulation pipe 200 is provided in the supply pipe 210 to circulate the heat medium oil contained therein Let's go.

In addition, the press unit 300 is formed by connecting a plurality of hot presses 310 in parallel. The hot presses 310 are provided with auxiliary heating devices 330, respectively, which pass through the supply pipe 210. The heat is replenished by the heat cooled during the process so that the optimum temperature can be maintained more precisely.

In addition, the hot press 310 is provided with a second temperature sensor 340 and the auxiliary control unit 350 to maintain the temperature of the hot plate 320 installed in the hot press 310 at the optimum temperature.

Meanwhile, in another embodiment of the present invention, a cooling heat exchanger 140 is installed between the main heating device 100 and the circulation pump 200 to generate heat during the pressing process or to receive heat from another heat source. When the temperature of the heat medium oil is increased, it is possible to maintain the optimum temperature by lowering the temperature of the heat medium oil.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and the scope of the present invention extends to the scope of the present invention to those which are substantially equivalent to the embodiments of the present invention. Various modifications can be made by those skilled in the art without departing from the scope of the present invention.

The present invention relates to a thermal oil temperature control device, and more particularly, to install a plurality of hot presses in one main heating unit in parallel and to provide a subsidiary heating unit in each hot press to more precisely adjust the temperature within an optimal temperature range. In addition, the present invention relates to a thermal oil temperature control device capable of coping even when different temperatures are required.

1 is a system opening diagram of a conventional heat medium oil temperature control device.

2 is a system opening diagram of the heat medium oil temperature control apparatus according to the present invention.

3 is a detailed view of the main heating device according to the present invention.

4 is a diagram in which a plurality of hot presses according to the present invention are installed in parallel.

5 is an opening diagram provided with a heat exchanger for cooling according to another embodiment of the present invention.

<< Explanation of symbols for main part of drawing >>

100: main heating device

107: float switch 110: sheath heater

120: first temperature sensor 130: control unit

140: cooling heat exchanger 150: expansion tank

155: oil supply valve 157: oil supply pipe

200: circulation pump 210: supply pipe

220: recovery pipe 230: pressure gauge

300: press section 310: hot press

320: hot plate 330: auxiliary heating device

340: second temperature sensor 350: auxiliary control unit

Claims (8)

In the thermal oil temperature control device, A plurality of hot presses, each of which is provided with an auxiliary heating device in the main heating device, are provided in parallel, The hot press is provided with a second temperature sensor for sensing the temperature of the heat medium oil discharged from the hot press, the auxiliary control unit for controlling the auxiliary heating device in accordance with the temperature detected by the second temperature sensor, The main heating device is connected to the expansion tank to prevent leakage of the thermal fluid during rapid heating, The hot press is a heat medium oil temperature control device, characterized in that each temperature controllable. delete delete delete delete The method of claim 1, A first temperature sensor for sensing the temperature of the heat medium oil discharged from the main heating device is provided, Heat medium oil temperature control device characterized in that the control unit for controlling the main heating device by the temperature detected by the first temperature sensor. The method of claim 6, Heat medium oil temperature control device, characterized in that the siege heater is used for the main heating device. The method of claim 1, The heat medium oil temperature control device, characterized in that the heat exchanger for heat medium oil cooling is further connected to the main heating device.

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