KR200256615Y1 - Device for temperature control of press using thermal oil boiler - Google Patents

Abstract

The present invention relates to a temperature control apparatus of a press using a heat medium boiler, and more specifically, a high temperature and high pressure press 20 used for molding a synthetic resin product; A heat medium boiler (10) for supplying a high temperature heat medium to the press (20); In order to supply the heating medium heated by the heating medium boiler 10 to the press 20 is connected in communication with the outlet of the heating medium boiler 10 and one side of the press 20, one side adjacent to the press 20 Heat transfer pipes (100, 110) having a second temperature control valve 140 to open and close the pipe in accordance with a set temperature; The heat medium supplied to the press 20 is connected in communication with the other side of the press 20 and the inlet of the heat medium boiler 10 so as to return to the heat medium boiler 10, the press on one side adjacent to the press 20. A heat medium return pipe (120) having a first temperature control valve (130) for opening and closing the conduit for heating and cooling of (20); Primary and secondary cooling means for supplying a heat medium of room temperature and a heat medium of room temperature or less, respectively, on the heat medium conveying pipe 110 between the heat medium boiler 10 and the press 20 so as to quickly cool the press 20. ; And the heat medium boiler 10 on the heat medium conveying pipe 100 and the heat medium return pipe 120 between the heat medium boiler 10 and the press 20 so that the heat medium of the primary cooling means maintains a preset room temperature. And heating means for circulating the high temperature heat medium discharged from the primary cooling means to heat the heat medium of the primary cooling means, thereby preventing the risk of burns due to the high temperature steam discharge in advance. It relates to a temperature control apparatus of a press using a heat medium boiler that can shorten.

Description

Thermostat boiler for press using heat medium boiler {DEVICE FOR TEMPERATURE CONTROL OF PRESS USING THERMAL OIL BOILER}

The present invention relates to a temperature control apparatus of a press using a heat medium boiler, and more particularly, to heat in a short time through accurate temperature and control using a heat medium boiler, and to control the temperature of the press through the first cooling and the second cooling. The present invention relates to a temperature control apparatus of a press using a heat medium boiler that can shorten the working time while preventing burns and explosions similar to explosions caused by high temperature steam discharge by rapidly cooling below room temperature.

In general, the presses used for molding the shoe parts such as outsole, sponge, midsole, industrial rubber products, special resin products, and other synthetic resin molding containers use thermoplastic resin. Since the genuine and defective products of the product depend on the temperature change, temperature control was the most important factor.

However, conventional molds for shoe soles simply leave the heat generated during the pressurization process and wait for the natural dissipation of heat, so the cooling time is long and the working time is long. Low.

In addition, the conventional press is supplied with a heat medium using a furnace-associated boiler, the conventional furnace-related boiler is maintained at 160 to 170 ℃ at a high pressure (7K ~ 8K), the expansion coefficient is high when piping In addition, it takes a long time to rapidly cool the press to the limit of the freezing point temperature of water of 0 ° C, and foreign matters are generated in the pipe, which requires thorough management of the user.

In addition, the hot water (steam) of the furnace-associated boiler is heated to a high temperature due to the press heating, when opening the check valve for steam to use the steam in this state, the high temperature water accumulated in the tube and the heat exchanger flows out so that the user There is a problem of being burned.

The present invention was devised to solve the above problems, and the object of the present invention is to heat it quickly through accurate temperature and control using a thermal medium boiler, and to maintain the press temperature that is elevated by primary cooling at a constant temperature. Secondary cooling by rapidly cooling the temperature of the press below room temperature, prevents burns and explosion-like shocks caused by hot steam discharge, and shortens working time. To provide.

1 is a schematic diagram showing the configuration of a temperature control apparatus of a press using a thermal medium boiler according to an embodiment of the present invention

2 is a view for explaining the heating operation of the press 20 using the heat medium boiler 10 according to an embodiment of the present invention

3 is a view for explaining the primary cooling operation of the press 20 by the primary cooling service tank 30 and the primary cooling pump 40 according to an embodiment of the present invention

4 illustrates the secondary cooling operation of the press 20 by the secondary cooling service tank 50, the secondary cooling pump 60, the heat exchanger 70, and the refrigerator 80 according to the embodiment of the present invention. Drawing to

Explanation of symbols on the main parts of the drawings

10: heat medium boiler 20: press

30: primary cooling service tank 40: primary cooling pump

50: secondary cooling service tank 60: secondary cooling pump

70: heat exchanger 80: freezer

The present invention to achieve the above object is a high-temperature, high-pressure press used for molding a synthetic resin product; A heat medium boiler for supplying a high temperature heat medium to the press; A second temperature control connected to an outlet of the heat medium boiler and one side of the press to supply the heat medium heated by the heat medium boiler to a press, and to open and close the conduit according to a preset temperature on one side adjacent to the press; Heating medium conveying piping having a valve; A first temperature connected to the other side of the press and an inlet of the heat medium boiler to return the heat medium supplied to the press to the heat medium boiler, and to open and close the conduit for heating and cooling of the press on one side adjacent to the press; Heating medium return pipe having a control valve; Primary and secondary cooling means for supplying the heat medium and the heat medium below the normal temperature, respectively, on the heat medium conveying pipe between the heat medium boiler and the press to quickly cool the press; And on the heat medium conveying pipe and the heat medium return pipe between the heat medium boiler and the press, circulate the high temperature heat medium discharged from the heat medium boiler to the primary cooling means so that the heat medium of the primary cooling means maintains the preset temperature. And heating means for heating the heat medium of the primary cooling means.

At this time, the primary cooling means, the primary cooling service tank in which the heat medium at room temperature is stored; It is coupled to communicate with the outlet of the primary cooling service tank and the heat medium conveying pipe, and is provided to cool the press by supplying the heat medium at room temperature to the press, the third control valve, the primary cooling pump and 1 A primary cooling heating medium conveying pipe having a primary cooling solenoid valve sequentially; A primary cooling heat medium return pipe connected to the first temperature control valve on the heat medium return pipe, and having a third temperature control valve connected to an end thereof; And a primary cooling heat medium return pipe provided to communicate the third temperature control valve of the primary cooling heat medium return pipe with the primary cooling service tank to return the heat medium at room temperature supplied to the press to the primary cooling service tank. Characterized in that the configuration.

In addition, the secondary cooling means, the secondary cooling service tank in which the heat medium below room temperature is stored; It is coupled to communicate with the outlet of the secondary cooling service tank and the heat medium conveying pipe, the heat medium below room temperature to the press is provided to cool the press below room temperature, the secondary cooling pump, heat exchanger A secondary cooling heating medium conveying pipe having a refrigerator and a secondary cooling solenoid valve sequentially; And a secondary cooling heating medium return pipe provided to communicate the third temperature control valve on the primary cooling heating medium return pipe with the secondary cooling service tank to return the heat medium below the normal temperature supplied to the press to the secondary cooling service tank. It is characterized by consisting of;

When the one end is branched from the heat medium conveying pipe and the second temperature control valve is blocked due to cooling of the press, the other end is configured to bypass the high temperature heat medium discharged from the heat medium boiler to the heat medium boiler. A first bypass pipe coupled to communicate with the heat medium return pipe; A first pressure control valve is provided on the first bypass pipe to be opened and closed alternately with the second temperature control valve.

In addition, when one end is branched from the primary cooling heat medium conveying pipe and the primary cooling solenoid valve is shut off due to cooling of the press, the primary cooling service is discharged from the primary cooling service tank at room temperature. A second bypass pipe whose other end is connected in communication with the primary cooling heat medium return pipe so as to bypass the tank; A second pressure control valve is provided on the second bypass pipe to be opened and closed alternately with the primary cooling solenoid valve.

In addition, when the one end is branched from the secondary cooling heat medium transfer pipe and the secondary cooling solenoid valve is blocked due to the cooling of the press, the secondary medium is cooled to below the normal temperature discharged from the secondary cooling service tank. A third bypass pipe having the other end connected in communication with the secondary cooling heat medium return pipe so as to bypass the service tank; A third pressure regulating valve is provided on the third bypass pipe to be opened and closed alternately with the secondary cooling solenoid valve.

The heating means may include: a heating heater provided at one side of the primary cooling service tank and having a tube inside thereof inserted into the primary cooling service tank and settled in the heat medium; Both sides of the heating heater are connected to the heating medium conveying pipe and the heating medium return pipe, respectively, to circulate the high temperature heating medium discharged from the heating medium boiler to the heating heater tube to heat the heating medium in the primary cooling service tank. It is provided, the heating pipe is provided with a respective control valve on the pipe; preferably consists of.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. This embodiment is not intended to limit the scope of the present invention, but is presented by way of example only.

1 is a system diagram showing the configuration of a temperature control apparatus of a press using a heat medium boiler according to an embodiment of the present invention, the temperature control apparatus of the present invention is a heat medium boiler 10, press 20, the primary cooling service tank 30, a primary cooling pump 40, a secondary cooling service tank 50, a secondary cooling pump 60, a heat exchanger 70 and a refrigerator 80 are provided. Here, as is well known, the heat medium boiler 10 is briefly described, in which oil called 'heat medium' is injected into the tube, and the heat medium circulation pump is injected into the body of the boiler at a pressure of 3K to 4K to circulate the tube in the boiler. By heating a constant temperature with a burner, the boiler discharge pressure is 1.5K to 2K so that it flows in the machine direction along the pipe.

In addition, since the heat medium boiler 10 has a temperature exceeding 300 ° C., the fluid in the pipe may expand and explode. Thus, an air separation device is installed in the pipe where the heat medium oil is recovered and connected to the expansion tank. The expansion tank should be installed at least 2M higher than the main pipe, and the tank capacity should be designed and installed to the appropriate size by calculating the total amount of fruit.

In addition, the press 20 is used to mold a product such as an outsole, a sponge, a midsole, an industrial rubber product, a special resin product, and other synthetic resin molding containers such as shoe parts. It is molded and manufactured by circulation of the heat medium oil of the heat medium boiler 10.

In addition, the temperature control device of the press using the heat medium boiler of the present invention in detail, the heat medium conveying pipe 100 is connected to the outlet side of the heat medium boiler 10 in communication, the heat medium conveying pipe 100 is It is connected to one side of the press 20 via the heat medium conveying pipe 110. In addition, a heat medium return pipe 120 is connected to an inlet side of the heat medium boiler 10, and the heat medium return pipe 120 communicates with the other side of the press 20 via a first temperature control valve 130. It is connected. In addition, the heat medium transfer pipes 100 and 110 are provided with a second temperature control valve 140, one end of which is branched from the heat medium transfer pipe 100 and connected to the heat medium return pipe 120 to form a circulation path. The first bypass pipe 125 is connected in communication with each other, and the first pressure control valve 150 is installed in the first bypass pipe 125.

In addition, in order to maintain the heat medium stored at room temperature of the primary cooling service tank 30 at about 100 ° C., branched from the heat medium conveying pipe 100, the heating pipe 400 is connected in communication, and the heating pipe ( The heating pipe 410 via the first control valve 160 installed on 400 through the tube 180 and the second control valve 190 in the heating heater 170 mounted on the primary cooling service tank 30. ) Is communicatively coupled to the heat medium return pipe 120 so that the high temperature heat medium from the heat medium boiler 10 circulates.

In addition, a primary cooling heat medium conveying pipe 200 is connected to an outlet side of the primary cooling service tank 30, and the primary cooling heat medium conveying pipe 200 is connected to a primary through a third control valve 210. It is connected to the cooling heat medium conveyance piping 220. In addition, the primary cooling heat medium conveying pipe 220 is connected to the primary cooling heat medium conveying pipe 230 via the primary cooling pump 40, and the primary cooling heat medium conveying pipe 230 is primary cooling. The primary cooling heat medium conveying pipe 235 is coupled to the heat medium conveying pipe 110 via the solenoid valve 240.

In addition, a primary cooling heating medium return pipe 250 is connected to an inlet side of the primary cooling service tank 30, and branched from the primary cooling heating medium transport pipe 230 to branch the primary cooling heating medium return pipe 250. ) Is connected to the second bypass pipe 255, and the second bypass pipe 255 is provided with a second pressure regulating valve 260. In addition, a primary cooling heat medium return pipe 270 is connected to the first temperature control valve 130, and the primary cooling heat medium return pipe 270 is connected to the primary temperature via a third temperature control valve 280. It is coupled to the cooling heat medium return piping 250 in communication.

A secondary cooling heating medium conveying pipe 290 is connected to an outlet side of the secondary cooling service tank 50, and the secondary cooling heating medium conveying pipe 290 is connected to the secondary via a secondary cooling pump 60. It is connected to the cooling heat medium conveying pipe 300, The said secondary cooling heat medium conveying pipe 300 is connected to the secondary cooling heat medium conveying pipe 310 via the heat exchanger 70. As shown in FIG. A secondary cooling heat medium return pipe 330 is connected to the inlet side of the secondary cooling service tank 50. In addition, the secondary cooling heat medium conveying pipe 310 is coupled to the secondary cooling heat medium conveying pipe 315 in communication with the heat medium conveying pipe 110 via the secondary cooling solenoid valve 320. In addition, a third bypass pipe 335 is provided to branch from the secondary cooling heat medium transfer pipe 310 and to be connected to the secondary cooling heat medium return pipe 330 to form a circulation path. The bypass pipe 335 is provided with a third pressure control valve 340.

At this time, the heat exchanger 70 is provided with a refrigerator 80, the refrigerant (freon gas) cooled in the refrigerator 80 is a cooling box (not shown) of the heat exchanger 70 through the outlet of the refrigerator 80 ) Is recycled to the inlet of the refrigerator 80 via a tube (not shown) of the heat exchanger 70.

The action of the temperature control device of the press using the thermal medium boiler according to the embodiment of the present invention configured as described above is as follows.

2 is a view for explaining the heating operation of the press 20 using the heat medium boiler 10 according to an embodiment of the present invention, the pressure of 1.5K and the temperature of 230 ℃ at the outlet side of the heat medium boiler 10 The high temperature heat medium is transferred to the heat medium transfer pipe 100 to reach one side of the press 20 via the second temperature control valve 140 to heat the mold and the hot plate of the press 20. At this time, the second temperature control valve 140 maintains the temperature of the press 20 to 160 ℃ to automatically adjust the flow rate to mold the rubber. Then, the heat medium coming in through one side of the press 20 comes out to the other side of the press 20, the ON (ON) and 'OFF' in the 'C' direction of the first temperature control valve 130 (OFF) It is transferred to the heat medium return pipe 120 to circulate to the inlet side of the heat medium boiler 10.

At this time, since the primary cooling solenoid valve 240 and the secondary cooling solenoid valve 320 are blocked, the second pressure regulating valve 260 and the third pressure regulating valve 340 are turned on. The primary cooling and the secondary cooling are bypassed through the second pressure regulating valve 260 and the third pressure regulating valve 340.

3 is a view for explaining the primary cooling operation of the press 20 by the primary cooling service tank 30 and the primary cooling pump 40 according to an embodiment of the present invention, the press 20 is After the end of the heating operation at a high temperature given the appropriate temperature and pressure of the rubber to be molded, the first cooling operation is performed, the first cooling operation is the second temperature control valve 140 is gradually blocked while the primary cooling solenoid The valve 240 is opened. That is, the 'B' direction of the second temperature control valve 140 and the first temperature control valve 130 is closed, and the 'C' of the first cooling solenoid valve 240 and the first temperature control valve 130 is closed. 'C' direction of the 'direction and the third temperature control valve 280 is opened to operate. At this time, when the primary cooling heat medium oil enters the inlet side of the primary cooling service tank 30, the third control valve 210 controls the temperature of the room temperature required for the primary cooling while the primary cooling heat medium transfer pipe ( 200, 220, 230 and the primary cooling heat medium return pipe 250 are continuously circulated.

Preferably, the 'B' direction of the second temperature control valve 140 and the first temperature control valve 130 are controlled to operate together with the primary cooling solenoid valve 240 and the first temperature control valve ( The 'C' direction of 130 and the 'C' direction of the third temperature control valve 280 are controlled to operate together.

In addition, the heat medium oil of the primary cooling service tank 30 is always stored about 1/3 of the high temperature heat medium oil flowing from the outlet side of the heat medium boiler 1 by the control of the first control valve (160). Maintain constant temperature while keeping constant flow rate. That is, the temperature of the primary cooling service tank 30 is set to about 100 ℃.

And, the reason for the primary cooling is that when the heat medium oil of 230 ℃ is mixed with the heat medium oil of room temperature or less, the explosion-like shock is absorbed by each valve and the pipe, so it is dangerous for about 1 minute at 100 ℃ higher than the room temperature. Car cooling must be done. At this time, when the second temperature control valve 140 is blocked, the first pressure control valve 150 is automatically operated according to the input value of the controller (not shown) to circulate to the inlet side of the heat medium boiler 10 to be reheated. do.

At this time, since the secondary cooling solenoid valve 320 is blocked, the third pressure regulating valve 340 is turned on, and the secondary cooling is bypassed through the third pressure regulating valve 340. Will circulate.

4 illustrates the secondary cooling operation of the press 20 by the secondary cooling service tank 50, the secondary cooling pump 60, the heat exchanger 70, and the refrigerator 80 according to the embodiment of the present invention. As shown in the drawing, after the primary cooling operation is completed, the secondary cooling operation is entered. At this time, when entering the secondary cooling operation, the secondary cooling solenoid valve 320 is operated to open, and the first temperature is maintained. The 'B' direction of the control valve 130 is blocked so that the heat medium below room temperature flows in the 'C' direction, and the 'C' direction of the third temperature control valve 280 is also blocked and flows in the 'B' direction. When the primary storage in the secondary cooling service tank 50 reaches a temperature below room temperature, it is drained and transferred to the press 20 at a lower temperature through the heat exchanger 70 by the secondary cooling pump 60. .

At this time, since the second temperature regulating valve 140 and the primary cooling solenoid valve 240 are blocked, the first pressure regulating valve 150 and the second pressure regulating valve 260 are turned on. Heating and secondary cooling are bypassed through the first pressure regulating valve 150 and the second pressure regulating valve 260.

In addition, the refrigerant (freon gas) cooled in the refrigerator (80) connected to the heat exchanger (70) is injected into a cooling box (not shown) of the heat exchanger (70) through the freezer outlet side of the heat exchanger (70). Recirculation through the tube (not shown) to the inlet side of the refrigerator (80). In addition, when the temperature of the refrigerator 80 is continuously adjusted to a suitable temperature of 0 to 10 ° C., the thermal oil in the secondary cooling service tank 50 is operated by the secondary cooling pump 60. The heat medium below room temperature is circulated for about 10 minutes through the heat exchanger 70 by the press 20. And, the reason for installing the secondary cooling service tank 50 is to minimize the capacity of the refrigerator (80).

Therefore, as described above, the present invention uses a heat medium boiler to heat up quickly through accurate temperature and control, and maintains the press that has been heated by primary cooling at room temperature, while maintaining the temperature of the press by secondary cooling at room temperature. By quenching below, there is an advantage that the impact of burns and explosions due to high temperature steam discharge can be prevented and the working time can be shortened.

Claims (7)

A high temperature / high pressure press 20 used for molding a synthetic resin product; A heat medium boiler (10) for supplying a high temperature heat medium to the press (20); In order to supply the heating medium heated by the heating medium boiler 10 to the press 20 is connected in communication with the outlet of the heating medium boiler 10 and one side of the press 20, one side adjacent to the press 20 Heat transfer pipes (100, 110) having a second temperature control valve 140 to open and close the pipe in accordance with a set temperature; The heat medium supplied to the press 20 is connected in communication with the other side of the press 20 and the inlet of the heat medium boiler 10 so as to return to the heat medium boiler 10, the press on one side adjacent to the press 20. A heat medium return pipe (120) having a first temperature control valve (130) for opening and closing the conduit for heating and cooling of (20); Primary and secondary cooling means for supplying a heat medium of room temperature and a heat medium of room temperature or less, respectively, on the heat medium conveying pipe 110 between the heat medium boiler 10 and the press 20 so as to quickly cool the press 20. ; And On the heat medium conveying pipe 100 and the heat medium return pipe 120 between the heat medium boiler 10 and the press 20, the heat medium of the primary cooling means is maintained from the heat medium boiler 10 so as to maintain a predetermined temperature at room temperature. And a heating means for circulating the discharged high temperature heat medium through the primary cooling means to heat the heat medium of the primary cooling means. The method of claim 1, The primary cooling means, the primary cooling service tank 30, the heat medium is stored at room temperature; It is coupled to communicate with the outlet of the primary cooling service tank 30 on the heat medium conveying pipe 110, it is provided to cool the press 20 by supplying the heat medium at room temperature to the press 20, the pipeline Primary cooling heat transfer pipes 200, 220, 230, 235 are provided on the third control valve 210, the primary cooling pump 40 and the primary cooling solenoid valve 240 sequentially; A first cooling heat medium return pipe 270 connected to the first temperature control valve 130 on the heat medium return pipe 120, and having a third temperature control valve 280 connected to an end thereof; And The third temperature regulating valve 280 of the primary cooling heat medium return pipe 270 and the primary cooling service tank 30 communicate with each other to cool the thermal medium at room temperature supplied to the press 20. The temperature control device of the press using a heat medium boiler, characterized in that it comprises ;; primary cooling heat medium return pipe (250) provided to return to. The method of claim 1, The secondary cooling means, the secondary cooling service tank 50 in which the heat medium below room temperature is stored; It is coupled to communicate with the outlet of the secondary cooling service tank 50 on the heat medium conveying pipe 110, it is provided to cool the press 20 below room temperature by supplying the heat medium below the normal temperature to the press 20 On the conduit, the secondary cooling pump 60, the heat exchanger 70, the freezer 80 and the secondary cooling solenoid valve 320 is provided with a secondary cooling heat medium transfer pipe (290, 300, 310, 315); And The second temperature control valve 280 on the primary cooling heat medium return pipe 270 and the secondary cooling service tank 50 communicate with each other to supply a temperature medium below normal temperature supplied to the press 20 to the secondary cooling service tank ( Secondary cooling heat medium return pipe (330) provided to return to 50; temperature control apparatus of the press using a heat medium boiler comprising a. The method of claim 1, When one end is branched from the heat medium conveying pipe 100 and the second temperature control valve 140 is blocked due to cooling of the press 20, the high temperature heat medium discharged from the heat medium boiler 10 is transferred to the heat medium. A first bypass pipe 125 whose other end is connected in communication with the heat medium return pipe 120 so as to bypass the boiler 10; The temperature of the press using the heat medium boiler, characterized in that it comprises ;; the first pressure control valve 150 provided to be opened and closed alternately with the second temperature control valve 140 on the first bypass pipe 125 Regulator. The method of claim 1, When one end is branched from the primary cooling medium transfer pipe 230 and the primary cooling solenoid valve 240 is blocked due to the cooling of the press 20, the primary cooling service tank 30 is discharged from the primary cooling service tank 30. A second bypass pipe 255 whose other end is connected in communication with the primary cooling heat medium return pipe 250 to bypass a heat medium at room temperature to the primary cooling service tank 30; The temperature of the press using the heat medium boiler, characterized in that it comprises ;; a second pressure control valve 260 is provided on the second bypass pipe 255 to be opened and closed alternately with the primary cooling solenoid valve 240 Regulator. The method of claim 1, When the one end is branched from the secondary cooling heat transfer pipe 310 and the secondary cooling solenoid valve 320 is blocked due to the cooling of the press 20, the secondary cooling service tank 50 is discharged from the secondary cooling service tank 50. A third bypass pipe 335 whose other end is connected in communication with the secondary cooling heat medium return pipe 330 to bypass the heat medium below room temperature to the secondary cooling service tank 50; The temperature of the press using the heat medium boiler, characterized in that it comprises ;; a third pressure control valve 340 is provided on the third bypass pipe 335 alternately with the secondary cooling solenoid valve 320 to open and close. Regulator. The method according to claim 1 or 2, The heating means includes: a heating heater (170) provided at one side of the primary cooling service tank (30) so that the tube (180) therein is inserted into the primary cooling service tank (30) and precipitated in the heat medium; Both sides of the heating heater 170 are coupled in communication with the heating medium conveying pipe 100 and the heating medium return pipe 120, respectively, so that the high temperature heating medium discharged from the heating medium boiler 10 may be connected to a tube of the heating heater 170. 180 is provided to circulate to heat the heat medium in the primary cooling service tank (30), the heating pipe (400, 410) is provided on each of the control valves (160, 190), characterized in that it comprises a Temperature control device of press using heat medium boiler.