KR200363040Y1 - Temperature control apparatus of injection mold - Google Patents

Abstract

The present invention can supply the feed water into the heated water tank by indirect pressurization and heat the temperature of the feed water to 100 ° C or more, and at the same time, the feed water pressure is 3 to 4Kg / cm.²to By maintaining constant, the temperature of the injection mold can be maintained at a constant temperature (for example, 120 ° C), and the temperature can be precisely controlled.

Description

TEMPERATURE CONTROL APPARATUS OF INJECTION MOLD}

The present invention relates to a temperature control apparatus of an injection mold, and in particular, by supplying the feed water into the heating water tank by indirect pressurization, the temperature of the feed water can be heated to 100 ° C. or higher, and the pressure of the feed water is increased. To 4Kg / cm²to The present invention relates to a temperature control apparatus for an injection mold capable of maintaining a constant temperature of the injection mold at a constant temperature (for example, 120 ° C.) and controlling the temperature precisely.

As a temperature control apparatus for an injection mold that has been widely used in the past, it is disclosed in Korean Utility Model Publication No. 20-0279300 (registration date; June 10, 2002).

The temperature control device of the injection mold disclosed in the Korean Utility Model Registration No. 20-0279300 is heat exchanged with the temperature holding means 51 for maintaining the heat exchange medium at the set temperature as shown in Figs. Temperature control unit 50 including a pumping means 52 for circulating the medium and a connecting tube 53 connected to the pumping means 52, and a jacket of the connecting tube 53 and the injection mold 10. The connector 60 which connects 11 is provided.

As shown in FIG. 2, the connector 60 includes a jacket in which an engaging groove 61a is formed along an outer circumferential surface and a fixing member 61 having a relatively small diameter sealing portion 61b formed at an end thereof is formed on an injection mold. 11 is screwed into the injection mold 10 so as to communicate with, and the sealing portion 61b of the fixing member 61 is inserted portion of the connection member 62 fixed to communicate with the end of the connecting pipe 53 ( 62a). Here, at least one packing 63 is provided on the inner circumferential surface of the inserting portion 62a for hermetic sealing with the sealing portion 61a. The packing 63 is supported by the guide groove 63a formed in the inner circumferential surface of the insertion portion 62a of the connecting member 62.

In addition, the connection member 62 is rotatable, and a plurality of protrusions are elastically biased inwardly so as to be coupled to the coupling groove 61a on an inner circumferential surface to maintain a coupling state between the connection member 62 and the fixing member 61. It is coupled with the engaging member 64 having a 64a.

The temperature control device of the conventional injection mold configured as described above is used to maintain the heat exchange medium at a predetermined temperature by using the temperature maintaining means 51 of the temperature control unit 50 to maintain the temperature of the mold at a predetermined temperature, and then pumping. By driving the pump, which is means 52, the heat exchange medium is circulated to the jacket 11 through the connecting pipe 53 and the connector 60.

In this manner, heat exchange between the injection molded product and the mold 13 is performed at the time of molding the injection product, so that the mold can be maintained at a set temperature. On the other hand, in the case of changing the mold by changing the injection product, since the connection pipe and the mold 10 of the temperature control device 50 is connected by a connector, it is easy to separate and combine the mold 10 and the connection pipe 53. .

In other words, in order to separate the connecting pipe 53 from the mold 10, as shown in FIG. 2, the coupling member 61 is retracted from the fixing member 61 fixed to the mold 10 to be elastically biased inward. In the state where the projection 64a is separated from the coupling groove 61a, the connecting pipe 53 is separated from the mold by separating the connecting member 62 coupled with the sealing portion 61b of the fixing member 61.

In addition, in order to couple the connecting pipe 53 and the mold 10, the fixing member 61 installed in the mold 10 in a state in which the coupling member 64 is retracted with respect to the connecting member 62 of the connecting pipe 53. The sealing portion 61b is fitted to the insertion portion 62a of the connecting member 62.

At this time, since the packing 63 is provided on the inner circumferential surface of the insertion portion 62a, airtightness is maintained between the sealing portion 61b and the inner circumferential surface of the insertion portion 62a. In addition, the coupling member 64 is advanced with respect to the connection member 62 so that the projection 64a biased inwardly is engaged with the coupling groove 61a, so that the connection member 62 and the fixing member 61 are separated. Maintain the state of engagement.

However, the conventional injection mold temperature control device configured as described above is a direct water pressurization method, and when the pressure of the supply water is low, bubbles (bubbles) are generated inside the temperature control unit 50 to raise the temperature of the supply water to 100 ° C or higher. Not only does it have a problem that it can not be heated, but also because the temperature of the feed water cannot be heated above 100 ° C., the injection mold temperature cannot be heated above 100 ° C., so that an injection molded product having strong thermal characteristics cannot be manufactured. There were also various problems.

Accordingly, the present invention has been made to solve the above various problems, the object of the present invention is to supply the feed water in the heating water tank by the indirect pressurization method to heat the temperature of the feed water to 100 ℃ or more Can keep the pressure constant (3-4Kg / cm ² )

Another object of the present invention is to provide an injection mold temperature control device capable of precisely controlling the temperature.

In order to achieve the above object, the present invention is a heating water tank in which water to be heated is stored, and is opened to supply water to the system through the water supply port through the heating water tank, and is closed after sufficient water is supplied to the system. And a heater disposed in the heating water tank to heat the water stored in the heating water tank by receiving power through the first and second solenoid valves, the + power terminal and the-power terminal. A microprocessor, a cooling tube for cooling the water stored in the heating water tank to a predetermined temperature when the temperature of the water heated by the heater is higher than a predetermined temperature, and detecting the temperature of the water discharged from the cooling tube. A pressure sensor for detecting the pressure of the water discharged from the cooling pipe and outputting the pressure to the microprocessor A pressure sensor, a pump for circulating the water passing through the pressure sensor in the injection mold to maintain the temperature of the injection mold at a predetermined temperature, and then injecting the heat-exchanged water into the heating water tank, and in the cooling pipe. When the temperature of the discharged water is above a predetermined temperature, a third solenoid valve is opened to supply cooling water to the cooling pipe to lower the temperature to a predetermined temperature, and at the same time, a third solenoid valve that is blocked and water to be replenished in the system Auxiliary water tank which collects bubbles generated in the system and collects bubbles in the system, a water level detection sensor that detects the water level in the auxiliary water tank and outputs it to the microprocessor, a buzzer that outputs an alarm sound when an abnormality occurs, and the pressure A pressure gauge for displaying the pressure of the system detected by the sensor, input means for inputting a user's command, and And at the same time displays the user's command inputted by the output means, the display means, and the water pressure in the auxiliary water tank is opened when a predetermined level (3 to 4Kg / cm ²⁾ or greater indicating the command entered by the user And a plate check valve for draining the water in the auxiliary water tank to the outside through the drain port.

1 is a view schematically showing a temperature control apparatus of a conventional injection mold,

2 is an explanatory view for explaining a relationship between the temperature control unit and the mold in FIG. 1 via a connecting pipe, a coupling member, and a fixing member;

Figure 3 is a perspective view of the injection mold temperature control device according to an embodiment of the present invention from the front,

Figure 4 is a perspective view of the injection mold temperature control apparatus according to an embodiment of the present invention from the back,

5 is a structural diagram schematically showing a configuration of a temperature control apparatus of an injection mold according to an embodiment of the present invention;

Figure 6 is a cross-sectional view schematically showing the structure of a cooling tube applied to the temperature control device of the injection mold according to an embodiment of the present invention,

7 is a cross-sectional view schematically showing the structure of the plate check valve applied to the temperature control device of the injection mold according to an embodiment of the present invention,

Figure 8 is a block diagram for controlling the temperature control device of the injection mold according to an embodiment of the present invention,

FIG. 9 is an enlarged front view of the front panel of FIG. 3.

<Explanation of symbols for the main parts of the drawings>

90: front panel 92: main switch

94: key member 96: caster

97: pressure regulating valve 98: manual drain switch

99: drain pot 100: heating water tank

102: water supply port 112: the first solenoid valve

114: second solenoid valve 116: heater

116a: + power supply terminal 116b:-power supply terminal

118: microprocessor 120: temperature sensor

122: pressure sensor 123: injection mold

124: pump 126: third solenoid valve

128: auxiliary water tank 130: water level detection sensor

132: buzzer 134: pressure gauge

140: plate check valve 142: housing

142a: Compressed fluid introduction port 142b: Compressed fluid discharge port

142c: flange 144: plate member

146: coil spring 150: cooling pipe

151: hot water pipe 152: housing

152a: Hot water introduction port 152b: Cooling water discharge port

154: heat exchange pin 160: input means

161: on / off switch 162: buzzer stop switch

163: mode selection switch 164: temperature / time setting switch

165: Enter key 170: Display means

171: liquid crystal display unit

Hereinafter, the temperature control device of the injection mold according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a front view of the temperature control device of the injection mold according to an embodiment of the present invention, Figure 4 is a perspective view of the temperature control device of the injection mold according to an embodiment of the present invention from the back, Figure 5 Is a structural diagram schematically showing the configuration of a temperature control device of the injection mold according to an embodiment of the present invention, Figure 6 is a structure of a cooling tube applied to the temperature control device of the injection mold according to an embodiment of the present invention. 7 is a schematic cross-sectional view, and FIG. 7 is a cross-sectional view schematically illustrating a structure of a plate check valve applied to a temperature control apparatus of an injection mold according to an embodiment of the present invention, and FIG. 8 is an embodiment of the present invention. FIG. 9 is an enlarged front view of the front panel of FIG. 3.

3 to 9, the temperature control device of the injection mold according to an embodiment of the present invention is a heating water tank (100) in which water to be heated is stored, and the system through the heating water tank (100) The first and second solenoid valves 112 and 114 which are opened to supply water through the water supply port 102 and are closed after sufficient water is supplied to the system, the + power terminal 116a and the-power terminal 116b. A heater 116 disposed in the heating water tank 100 to heat the water stored in the heating water tank 100 by receiving power through the microprocessor 118 and the microprocessor 118 for controlling the overall operation; Cooling pipe 150 for cooling the water stored in the heating water tank 100 to a predetermined temperature when the temperature of the water heated by the heater 116 or more than a predetermined temperature, and the water discharged from the cooling pipe 150 Detects a temperature and causes the microprocessor 118 to The pressure sensor 122 that detects the pressure of the water discharged from the cooling pipe 150 and outputs the pressure to the microprocessor 118, and the water that has passed through the pressure sensor 122. The pump 124 for circulating the injection mold 123 to maintain the temperature of the injection mold 123 at a predetermined temperature (for example 120 ℃), and then press-in the heat-exchanged water into the heating water tank 100. And, when the temperature of the water discharged from the cooling tube 150 is above a predetermined predetermined temperature (120 ℃) is opened to supply the cooling water to the cooling tube 150 to lower the temperature to a predetermined temperature, and at the same time, When the temperature is closed, the third solenoid valve 126 closed, the auxiliary water tank 128 for storing the water to be replenished in the system, and collecting the bubbles generated in the system, and the water level in the auxiliary water tank 128 Detects the microprocessor 118 A water level detection sensor 130 to output, a buzzer 132 to output an alarm sound when an abnormality occurs, a pressure gauge 134 to display the pressure of the system detected by the pressure sensor 122, and a user's command An input means 160 for inputting an input, a display means 170 for displaying a command input by the user while displaying a command of the user input by the input means 160, and the auxiliary water tank 128; When the pressure of the water in the) is a predetermined level (3 ~ 4Kg / cm ² ) or more is composed of a plate check valve 140 for draining the water in the auxiliary water tank 128 to the outside through the drain port 99 have.

The second solenoid valve 114 is the auxiliary water tank 128 when the water level detected by the water level detection sensor 130 is below a predetermined level or when bubbles in the auxiliary water tank 128 fill a predetermined level or more. It is configured to be opened by the control of the microprocessor 118 to discharge the bubbles inside.

The water level detection sensor 130 is preferably using a magnetic ball valve.

As shown in FIG. 7, the plate check valve 140 has a compressed fluid introduction port 142a and a compressed fluid discharge port 142b, and a circular flange 142c protrudes inwardly on an inner circumferential surface thereof. It is disposed in contact with the flange 142c on the side of the housing 142 and the compressed fluid discharge port 142b of the housing 142 so that the pressure of the water in the auxiliary water tank 128 is at a predetermined level (3 to 4 Kg / cm ^2). And open to discharge the water introduced from the compressed fluid introduction port 142a of the housing 142 to the outside through the compressed fluid discharge port 142b and the drain port 99 of the housing 142. It is disposed between the plate member 144 and the inside of the compressed fluid discharge port 142b of the housing 142 and the plate member 144 so that the pressure of the water in the auxiliary water tank 128 is at a predetermined level (3 to 4 kg). / cm ²⁾ of the plug housing 142 to the plate member (144) when less than It is composed of a coil spring 146 for biasing the plate to be key for the support (142c).

As shown in FIG. 6, the cooling pipe 150 accommodates a portion of the hot water pipe 151 through which the water heated in the heating water tank 10 flows, and at one side of the third solenoid valve 126. The cooling water introduction port 152a for introducing the cooling water is formed in accordance with the opening of the housing 152, and the cooling water discharge port 152b for draining the cooling water to the outside is formed, and the water heated in the heating water tank 100. It is composed of a plurality of heat exchange fins 154 disposed in parallel to the outer peripheral surface of the hot water pipe 151 in the flowing housing 152 to lower the temperature of the hot water flowing through the hot water pipe 151.

As shown in FIG. 9, the input unit 160 includes an on / off switch 161 for controlling application of power when the main switch 92 is switched on, and an alarm sound is output from the buzzer 132. In this case, a buzzer stop switch 162 for stopping the operation of the buzzer 132 and a mode selection switch 163 for setting a mode for changing a set temperature, reserving a timer, and checking for an abnormal occurrence of a coolant abnormality (or heater break) A temperature / time setting switch 164 for moving the cursor, a timer 1 for displaying a cooling water supply time, a timer 2 for displaying a recognition time of the temperature sensor 120, and an air; It is composed of an enter key 165 which displays the timer 3 indicating the discharge time and inputs the temperature set by the temperature / time setting switch 164 to the microprocessor 118.

The display means 170 is a liquid crystal display unit for displaying the mode selected by the mode selection switch 163, the current coolant temperature and the temperature set by the temperature / time setting switch 164 as shown in FIG. 171, the first light emitting diode LED1 indicating the driving of the pump 124, and the opening of the third solenoid valve 126, indicating that cooling water is supplied to the cooling pipe 150. A second light emitting diode LED2, a third light emitting diode LED3 indicating that power is supplied to the heater 116, and a fourth light emitting diode indicating that the pump 124 is overloaded. LED4), a fifth light emitting diode LED5 indicating that the pressure in the system detected by the pressure sensor 122 is high pressure, and a sixth light emitting diode indicating that an alarm sound is output from the buzzer 132. It consists of (LED6).

In the figure, reference numeral 90 is a front panel, 92 is a main switch installed on the front panel 90 to control the on / off of power, 94 to control the opening and closing of the front panel 90. It is a lock member, 96 is a caster installed at the bottom to move the temperature control device of the injection mold according to an embodiment of the present invention, 97 is the pressure of the system detected by the pressure sensor 122 is excessively increased If the pressure is lowered in the case, if the system pressure is excessively lowered, it is a pressure regulating valve for raising the system pressure, 98 is a manual drain switch.

Next, the operation and effects of the temperature control device of the injection mold according to the embodiment of the present invention configured as described above will be described.

First, after switching on the main switch 92 installed in the front panel 90 and then switching on / off the switch 161 of the input means 160, the control signal output from the microprocessor 118 As the first and second solenoid valves 112 and 114 are opened, air (or air bubbles) remaining in the system is discharged to the outside through the drain port 99 and water is discharged through the water supply port 102 in the system. Water is supplied to the heating water tank 100, the cooling tube 150, the jacket (not shown) of the injection mold 123, and the auxiliary tank 128.

When water is supplied into the auxiliary tank 128, the water level detector 130 detects the water level in the auxiliary tank 128 and outputs the water level to the microprocessor 118. When the storage amount of water in the auxiliary tank 128 detected by the detection processor 130 is fully charged, the microprocessor 118 outputs a control signal to the first and second solenoid valves 112 and 114 so that the The first and second solenoid valves 112 and 114 are closed (closed) to stop the supply of water.

At this time, when the enter key 165 of the input means 160 is pressed, a timer 1 for displaying the cooling water supply time is displayed on the liquid crystal display unit 171 of the display means 170, and the enter key 165 is displayed again. When pressing, the timer 2 for displaying the recognition time of the temperature sensor 120 is displayed on the liquid crystal display unit 171 of the display means 170, and when the enter key 165 is pressed, the display means 170 is pressed. The timer 3 displaying the air discharge time is displayed on the liquid crystal display unit 171.

The time displayed on the timer 1 indicating the cooling water supply time, the timer 2 indicating the recognition time of the temperature sensor 120, and the timer 3 indicating the air discharge time are respectively left by the temperature / time setting switch 164. You can change the setting using the (LEFT) button and the RIGHT button.

Then, when the enter key 165 is pressed while the mode selection switch 163 of the input means 160 is pressed, the temperature (PV) of the current cooling water and the injection product of the liquid crystal display unit 171 of the display means 170 are displayed. The molding set temperature SV of the injection molded product is expressed, and the molding set temperature SV of the injection molded product can be set or changed by the UP button and the DOWN button of the temperature / time setting switch 164. Can be.

As described above, when bubbles (air in the system) are discharged to the outside and removed as water is supplied to the system, the + power terminal 116a and the -power source of the heater 116 are controlled by the microprocessor 118. Power is supplied to the heater 116 through the terminal 116b, and the water supplied to the heating water tank 100 starts to heat, and at the same time, power is applied to the pump 124 to pump water. Pushes water into the heating water tank 100.

Accordingly, the water heated in the heating water tank 100 is discharged through the cooling pipe 150, and the temperature of the water discharged from the cooling pipe 150 is detected by the temperature sensor 120. The pressure is input to the microprocessor 118, and the pressure is detected by the pressure sensor 122 and input to the microprocessor 118.

The temperature detected by the temperature sensor 120 is a preset temperature (eg, 120 ° C.) by the input means 160, and the pressure detected by the pressure sensor 122 is 3 to 4 Kg / cm ^2. In one case, water of a predetermined temperature discharged from the cooling tube 150 is supplied to the injection mold 123 to maintain the temperature of the injection mold 123 at a preset temperature (120 ° C.). At this time, since the pressure detected by the pressure sensor 122 is input to the microprocessor 118, the current pressure in the system is displayed on the pressure gauge 134 installed on the front panel 90.

Meanwhile, in the above description, when the temperature of the water discharged from the cooling tube 150 input to the microprocessor 118 is a preset temperature, for example, 120 ° C. or more, the control is output to the microprocessor 118. The third solenoid valve 126 is opened by a signal so that water is supplied to the cooling pipe 150 through the water supply port 102 through the cooling water introduction port 152a of the cooling pipe 150. do.

Cooling water supplied to the cooling pipe 150 is heat radiated from the heat exchange fins 154 installed in parallel to the outer circumferential surface of the hot water pipe 151 installed in the cooling pipe 150 while passing through the cooling pipe 150. Absorbs and lowers the temperature of the water discharged from the cooling pipe 150 to a predetermined temperature, for example, 120 ° C., and supplies it to the injection mold 123, and at the same time, the cooling water discharge port 152b formed in the cooling pipe 150. Cooling water heated to a predetermined degree through the discharge through the train port 99.

As water is heated in the heating water tank 100 by heat dissipation of the heater 116, bubbles generated in the system are press-fitted to the heating water tank 100 by driving of the pump 124. Is collected in the auxiliary water tank 128, and as the amount of bubbles increases, the water level detector 130 installed in the auxiliary water tank 128 is turned off, and the water level detector 130 is turned off. A signal indicating that the signal is received is input to the microprocessor 118.

Accordingly, the microprocessor 118 outputs a control signal for opening the first solenoid valve 114 to the first solenoid valve 114 to open the first solenoid valve 114 to open the auxiliary water tank ( The bubbles collected in 128 are discharged to the outside through the drain port 99.

On the other hand, when the pressure in the system detected by the pressure sensor 122 is 3 to 4Kg / cm ² , the plate member 144 of the plate check valve 140 by the pressure in the auxiliary water tank 128 Since the plate member 144 is pushed to the left side in FIG. 7 against the negative force of the coil spring 146, the plate member 144 is separated from the circular flange 142c formed on the inner circumferential surface of the housing 142. The water stored in the 128 is a through-hole formed in the center of the compressed fluid introduction port 142a of the auxiliary water tank 128, the circular flange 142c, the edge of the plate member 144 and the housing 142. It is discharged to the drain port 99 through the space between the inner circumferential surface, the coil spring 146 and the discharge port 142b of the compressed fluid to maintain the pressure in the system at 3 to 4Kg / cm ² .

In addition, when an abnormality occurs in the system when operating the temperature control apparatus of the injection mold according to an embodiment of the present invention, the buzzer 132 rings to alert that an abnormal situation occurs, and the operator stops the buzzer at this time. After switching off the switch 162 and turning off the main switch 92, the cause of the abnormal condition is checked and solved.

In the above description, the first light emitting diode LED1 of the display means 170 emits light to display the driving of the pump 124, and the second light emitting diode LED2 of the display means 170 is the first light emitting diode. 3 When the solenoid valve 126 is opened, the cooling tube 150 emits light to indicate that cooling water is being supplied, and the fourth light emitting diode LED4 of the display unit 170 supplies power to the heater 116. The light is supplied and displayed, and the fifth light emitting diode LED5 of the display means 170 emits light to display that the pressure in the system detected by the pressure sensor 122 is high pressure, and displays the display means ( The sixth light emitting diode LED6 of 170 emits light to indicate that an alarm sound is output from the buzzer 132.

Therefore, the present invention can supply the feed water into the heating water tank by indirect pressurization and heat the temperature of the feed water to 100 ° C. or more, and at the same time, the pressure of the feed water is 3 to 4 Kg / cm.²to By maintaining constant, the temperature of the injection mold can be maintained at a constant temperature (for example, 120 ° C), and the temperature can be precisely controlled.

In the above description, the setting of the temperature of the injection mold 123 to 120 ° C was described as an example, but the present invention is not limited thereto. For example, the temperature of the injection mold 123 is 95 ° C or 150 ° C. It goes without saying that it can also be set to ° C.

In the above description, although illustrated and described with reference to specific embodiments, the present invention is not limited to this, for example, by those of ordinary skill in the art without departing from the concept of the present invention Of course, the design can be changed in various ways.

As described above, according to the temperature control device of the injection mold of the present invention, a heating water tank in which water to be heated is stored, and opened to supply water to the system through the water supply port through the heating water tank, First and second solenoid valves closed after the supply is sufficiently supplied, and heaters disposed in the heating water tank to heat the water stored in the heating water tank by receiving power through a + power supply terminal and a-power supply terminal; And a microprocessor for controlling the overall operation, a cooling tube for cooling the water stored in the heating water tank to a predetermined temperature when the temperature of the water heated by the heater is higher than the predetermined temperature, and the temperature of the water discharged from the cooling tube. Detects the temperature sensor and outputs it to the microprocessor, and detects the pressure of the water discharged from the cooling pipe. A pressure sensor output to the chromo processor and water passing through the pressure sensor to the injection mold to maintain the temperature of the injection mold at a predetermined temperature, and then pressurize the heat-exchanged water into the heating water tank; And a third solenoid valve which is opened to supply cooling water to the cooling tube to lower the temperature to a predetermined temperature when the temperature of the water discharged from the cooling tube is greater than or equal to a predetermined temperature, and is closed at a predetermined temperature. An auxiliary water tank which collects bubbles to be replenished in the system and collects bubbles generated in the system, a water level detection sensor that detects the water level in the auxiliary water tank and outputs it to the microprocessor, and outputs an alarm sound when an abnormality occurs. A buzzer, a pressure gauge displaying the pressure of the system detected by the pressure sensor, and a user's command Also displays the user's command inputted by the input input means and the input means and at the same time, display means for displaying commands entered by the user, and the water pressure is a predetermined level (3 to 4Kg / cm in the secondary water tank²And a plate check valve which is opened when the water is supplied to the auxiliary water tank, and drains the water in the auxiliary water tank to the outside through the drain port. It can be heated above and at the same time the pressure of feed water is 3-4Kg / cm²to Not only can it be kept constant, the temperature of the injection mold can be maintained at a constant temperature (for example, 120 ° C.), and there is an excellent effect that the temperature can be precisely controlled.

Claims (6)

The heating water tank 100 in which water to be heated is stored, and is opened to supply water to the system through the water supply port 102 through the heating water tank 100, and is closed after sufficient water is supplied to the system. The heating water tank to heat the water stored in the heating water tank 100 by receiving power through the first and second solenoid valves 112 and 114 and the + power supply terminal 116a and the-power supply terminal 116b. The temperature of the water heated by the heater 116 to the heater 116 disposed in the 100, the microprocessor 118 for controlling the overall operation, and the water stored in the heating water tank 100 are constant temperature. In the case of abnormality, the cooling tube 150 for cooling to a predetermined temperature, the temperature sensor 120 for detecting the temperature of the water discharged from the cooling tube 150 and outputting it to the microprocessor 118, and the cooling tube 150 The microphone by detecting the pressure of the water discharged from the The pressure sensor 122 output to the processor 118 and the water passing through the pressure sensor 122 are circulated to the injection mold 123 to set a predetermined temperature (for example, the temperature of the injection mold 123). 120 ° C.), when the heat exchanged water is pumped into the heating water tank 100 and the temperature of the water discharged from the cooling pipe 150 is greater than or equal to a predetermined temperature (120 ° C.). A third solenoid valve 126 is opened to supply cooling water to the cooling pipe 150 to lower the temperature to a predetermined temperature, and the water is to be replenished in the system, and the third solenoid valve 126 is closed at a predetermined temperature. Auxiliary water tank 128 for collecting bubbles generated therein, a water level detection sensor 130 for detecting the water level in the auxiliary water tank 128 and outputting the level to the microprocessor 118; Buzzer 132 to output and the pressure sensor A pressure gauge 134 for displaying the pressure of the system detected by 122, an input means 160 for inputting a user's command, and a user's command input by the input means 160; At the same time, the display means 170 for displaying a command input by the user and when the pressure of the water in the auxiliary water tank 128 is a predetermined level (3 to 4Kg / cm ² ) or more to open the auxiliary water tank 128 The temperature control device of the injection mold, characterized in that it consists of a plate check valve 140 for draining the water inside to the outside through the drain port (99). According to claim 1, wherein the second solenoid valve 114 when the water level detected by the water level detection sensor 130 is below a certain level or when bubbles in the auxiliary water tank 128 fills a predetermined level or more Temperature control device of the injection mold, characterized in that configured to open by the control of the microprocessor (118) to discharge the bubbles in the auxiliary water tank (128) to the outside. The housing of claim 1, wherein the plate check valve 140 includes a compressed fluid introduction port 142a and a compressed fluid discharge port 142b, and a circular flange 142c protrudes inwardly on an inner circumferential surface thereof. 142 and the flange 142c on the side of the compressed fluid discharge port 142b of the housing 142 are disposed so as to contact the flange 142c so that the pressure of the water in the auxiliary water tank 128 is at a predetermined level (3 to 4 kg / cm ² ). In case of abnormality, the water is opened to discharge water introduced from the compressed fluid introduction port 142a of the housing 142 to the outside through the compressed fluid discharge port 142b and the drain port 99 of the housing 142. It is disposed between the plate member 144 and the inside of the compressed fluid discharge port 142b of the housing 142 and the plate member 144 so that the pressure of the water in the auxiliary water tank 128 is at a predetermined level (3 to 4 Kg / cm ²⁾ flange (142c) of the housing 142, the plate member 144 when less than Plate, so that the coil spring biasing the key 146 is configured to control the temperature of the injection mold, characterized in that each device. The method of claim 1, wherein the cooling pipe 150 receives a portion of the hot water pipe 151 through which the water heated in the heating water tank 10 flows, and at one side of the third solenoid valve 126 A cooling water introduction port 152a for introducing the cooling water is formed according to the opening, and a housing 152 having a cooling water discharge port 152b for draining the cooling water to the outside is formed, and the water heated in the heating water tank 100 Injection mold, characterized in that composed of a plurality of heat exchange fins 154 disposed in parallel to the outer peripheral surface of the hot water pipe 151 in the housing 152 flowing down to lower the temperature of the hot water flowing through the hot water pipe 151 Thermostat. According to claim 1, wherein the input means 160 is the on / off switch 161 for controlling the application of power when switching on the main switch 92, and when the alarm sound is output from the buzzer 132 A buzzer stop switch 162 for stopping the operation of the buzzer 132, a mode selection switch 163 for setting a mode for changing a set temperature, reserving a timer, and checking an abnormal occurrence of an abnormality of the coolant (or heater disconnection); A temperature / time setting switch 164 for moving a cursor, a timer 1 for displaying a cooling water supply time, a timer 2 for displaying a recognition time of the temperature sensor 120, and an air discharge. And an enter key 165 for displaying the timer 3 indicating the time and inputting the temperature set by the temperature / time setting switch 164 to the microprocessor 118. Of Thermostat. The liquid crystal display unit of claim 1, wherein the display means 170 displays a mode selected by the mode selection switch 163, a current coolant temperature, and a temperature set by the temperature / time setting switch 164. 171, the first light emitting diode LED1 indicating the driving of the pump 124, and the opening of the third solenoid valve 126 to indicate that cooling water is being supplied to the cooling pipe 150. A second light emitting diode LED2, a third light emitting diode LED3 indicating that power is supplied to the heater 116, and a fourth light emitting diode LED4 indicating that the pump 124 is overloaded. ), A fifth light emitting diode LED5 indicating that the pressure in the system detected by the pressure sensor 122 is high pressure, and a sixth light emitting diode indicating that an alarm sound is output from the buzzer 132. The temperature of the injection mold, characterized in that consisting of LED6) Regulator.