KR910005505Y1 - Liquid circular constant temperature controller - Google Patents

Abstract

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Description

Open liquid circulation thermostat

1 is an operation explanatory diagram when heating and constant temperature of the present invention.

2 is a diagram illustrating the operation of the present invention at the time of cooling constant temperature.

3 is a perspective view of a water level adjusting device of the present invention.

4 is an explanatory view of the level control operation.

* Explanation of symbols for main parts of the drawings

1: heating thermostat 2: cooling thermostat

3: external thermostat 4: bulkhead

5: Axis 6: Between Operation

7: between connection 8: pin

P1, P2, P3: discharge pipe B1, B2: suction pipe

P4: Connector V1, V2, V3: Valve

W: float PM: pump

H: Heating heater C: Cooling coil

S1, S2: Sensor T1, T2: Temperature Controller

Co: Freezer SN1: Solenoid

SW1, SW2, SW3: Switch

The present invention is to maintain the constant temperature by supplying the liquid from the internal thermostat and heating the liquid in order to maintain the constant temperature in the thermostat that maintains the constant temperature of the liquid for the purpose of experiment in the chemical laboratory, food laboratory, hospital, etc. The present invention relates to an open liquid circulation thermostat for the purpose of saving energy and minimizing temperature deviation by separately forming an external thermostat and maintaining a constant temperature as one pump.

In general, a constant temperature device that maintains a constant temperature by heating and cooling a liquid is a closed-type thermostat device that heats a liquid by installing a heating device such as a heater and a temperature controller in a thermostat, and conducts experiments directly as a thermostat. Open (separable) thermostats with separate external thermostats are known.

The closed type thermostat has a disadvantage that it is not easy to experiment because various heating devices are installed in the thermostat.The separate open type thermostat is effective, but it is one to transfer the liquid heated in the heating thermostat to the external thermostat. It is difficult to incubate to precise temperature due to high energy loss and large temperature deviation because the angle of the pump and another pump to suck in the heating thermostat from the external thermostat is necessary.

In addition, in the cooling and constant temperature of the liquid, the chiller that cools the liquid is continuously operated while maintaining the constant temperature as a temperature controller using a heating coil, which wastes a lot of energy and causes the machine to overload the machine as the refrigerator continues to operate. there was.

The present invention has been devised in view of such a point, and it is possible to maintain precise temperature by minimizing the temperature deviation as a single pump using an open-type thermostat that separates a heating thermostat and an external thermostat. Same as

Heating and cooling thermostats (1) and (2) and external thermostats (3) with heating heaters (H), cooling coils (CH), and temperature sensors (S1) (S2) installed at the same time are connected to suction tube (B1) and discharge tube (P1). In the case of incubating by connecting the heating thermostat (1) and the cooling thermostat (2), the partitions (4) are separated from each other and connected to the connecting pipe (P4) installed in the upper part, and one circulation outside the heating thermostat (1). A pump PM is installed to connect the discharge pipe P1 connected thereto to the heating thermostat 1 from the discharge pipe P1 installed inside the heating thermostat 1 connected to the external thermostat 3 through the interior of the heating thermostat 1. Another discharge pipe (P3) is located in communication with each other to install a valve (V1) (V2) for opening and closing it at the inlet of the branch discharge pipe (P2) (P3) while the suction pipe (B1) of the pump PM is heated The suction tube (B2) connected to the external thermostat (3) through the inside of the thermostat (1), but sucks the liquid of the heating thermostat (1) inside the heating thermostat (1) It is branched so as to communicate with the suction pipe (B1) installed in the inlet of the suction pipe (B2) and the circular valve (V3) for opening and closing the operating chamber (6) welded to the shaft (5) by welding it to the heating thermostat (1). ) Will be attached to the connecting rod (7) and the pin (8) of the float (W).

In the figure, reference numeral SN1 is a solenoid for operating the valve (V2), T1, T2 is a temperature controller, MSW is a microswitch for turning the solenoid (SN1) and the heating heater (H) on and off, SW1, SW2, SW3 is heating A switch for turning the heater H, the freezer CO, and the solenoid SN1 on and off, respectively, M is a motor and T is a thermometer.

In this way, the present invention inhales the liquid in the heating thermostat (1) and the external thermostat (3) as one pump (PM) and mixes the same to the inside of the external thermostat (3) and the heating thermostat (1) by the amount sucked. It is characterized in that the temperature in the external thermostat (3) can be kept constant by discharging the bar (PM) by operating the pump (PM) to suck the liquid in the suction pipe (B2) based on the suction of the heated liquid in the thermostat (1) In addition, the liquid in the external thermostat (3) is sucked at the same time by the suction pipe (B1) and mixed with each other and discharged through the pump (PM) in a heated state, at which time part is discharged to the external thermostat (3) through the discharge pipe (P1) In addition, some of the liquid is discharged at the same time inside the heating thermostat 1 through the discharge pipe (P2) to maintain a constant water level in the heating thermostat (1).

Herein, the ratio of the liquid amount discharged from the pump PM to the inside of the external thermostat 3 and the heating thermostat 1 is controlled by manual adjustment of the valve V1 installed in the discharge pipe P2. As the V1) is closed, the amount of liquid discharged to the external thermostat (3) increases, while the amount of liquid discharged to the thermostat (1) decreases. This will interfere with the constant temperature maintenance, but at this time, if the liquid level in the heating thermostat (1) decreases and the water level is lowered, the float (W) will go down, and the disc will be operated by the operation between the operation (7) and the connection (6). As the valve V3 is vertically erected as shown by the solid line in FIG. 4, the inlet of the suction pipe B2 is gradually blocked, so that the liquid is sucked into the suction pipe B2 by the amount of the liquid coming out of the discharge pipe P2. 1) The amount of liquid in It is to keep the water level hyeongdoen situation as described above is not generated.

On the other hand, if a lot of the liquid sucked into the discharge pipe (P2) is opened by opening the valve (V1) of the discharge pipe (P2) a lot of liquid in the heating thermostat (1), so that at this time (W) floating on the water surface is raised to operate Under the action of the liver (7) and the connecting rod (6) to cover the disk valve (V3) to open a lot of inlet, the amount of liquid coming out of the discharge pipe (P2) can be sucked into the suction pipe (B2) heating thermostat (1 ) Will keep the water level parallel to a certain height.

When the constant temperature operation of the present invention circulated as described in the heating constant temperature and cooling constant temperature described first, the temperature (W1) to operate the heating heater (H) after setting the temperature to be constant temperature as the thermometer (T1) When the valve V2 which turns on and closes the refrigerator operating switch SW2 and the discharge pipe P3 turns off the operating switch SW3, the heating heater H in the heating thermostat 1 heats and the liquid in the heating thermostat 1 is heated. When the liquid reaches the set temperature, the temperature is sensed by the temperature sensor S1 and the switch SW1 is short-circuited so that the liquid is not heated any more. When the temperature in the liquid drops, the switch SW1 is turned on again, and when the heating heater H is not operated, the temperature falls naturally rather than being heated. The temperature deviation occurs in the.

Therefore, if the amount of liquid in the external thermostat 3 is greater than that of the heating thermostat 1, the heating liquid in the heating thermostat 1 and the cooling liquid in the external thermostat 3 are mixed even if the temperature of the heating thermostat 1 is increased. Since the temperature of the external thermostat (3) rises less than the temperature rise of the heating thermostat (1), the power of the heating coil (H) stored in the heating thermostat (1) is cut off and the temperature of the external thermostat (3) decreases. Since the amount of liquid is large, the external thermostat 3 is cooled later.

Therefore, the temperature range of the external thermostat 3 becomes smaller than the temperature fluctuation range of the heating thermostat 1, so that it is possible to precisely maintain the constant temperature.

Next, when the cooling constant temperature is explained, the constant temperature is maintained by using only the freezer CO without using the heating coil H without turning on the heating coil H by turning the heating coil H on and off as in the conventional case. At this time, the temperature controller (T2) for operating the sensor (S2) is set to a temperature to be lower than the room temperature, and the temperature controller (T2) of the cooling thermostat (2) is about 3 ° to 8 ° than the temperature to be constant temperature Set at low temperature.

And since the refrigerator (CO) has a lot of pressure on the compressor when the on-off operation is frequent, the sensor (S2) uses a slow sensor, and greatly increases the temperature change of the cooling thermostat (2).

The solenoid SN1 is operated when the operating temperature SW3 of the solenoid SN1 for opening and closing the valve V2 is turned on so that the liquid temperature in the heating thermostat 1 is higher than the temperature set by the temperature controller T1. Instead of opening the discharge pipe P3 with the rise of the valve V2, the discharge pipe P2 is closed. On the contrary, when the temperature in the heating thermostat 1 is lower than the set temperature, the solenoid SN1 is demagnetized to move down the valve V2. The discharge pipe P2 is configured to block the discharge pipe P3 instead of being opened.

When the cooling constant temperature is performed in such a state, since the temperature of the heating thermostat 1 is higher than the set temperature of the temperature sensor T1, the solenoid SN1 is operated to raise the valve V2 and thus discharge pipe P2. Since the discharge pipe (P3) is opened, the liquid discharged from the pump (PM) enters the external thermostat (3) and the cooling thermostat (2) through the discharge pipe (P1) (P3), so the cooling thermostat (2) The amount of liquid increases, so that the water level becomes high. Therefore, the liquid in the cooling bath 2 cooled below the temperature set in the temperature controller T1 by the freezer CO is connected to the inside of the heating bath 1 through the connection pipe P4. Since the temperature of the heating thermostat (1) is lowered and the liquid of the heating thermostat (1) thus cooled is moved to the external thermostat (3) to cool the external thermostat (3). The temperature of the external thermostat (3) is continuously low If the temperature of the external thermostat (3) is lower than the set temperature at some point, the solenoid (SN1) is turned off to lower the valve (V2) to the original state to open the discharge pipe (P2) while blocking the discharge pipe (P3). Since the liquid of the cooling thermostat (2) is no longer passed into the heating thermostat (1) will be able to maintain the desired constant temperature.

(In this case, the cooling chamber 2 is independently turned on and off by the sensor S2.)

Therefore, it is possible to maintain a constant cooling constant temperature with a very small temperature change range in the external thermostat 3 on the same principle as the heating constant temperature.

In this way, the present invention is a single pump, when the heating constant temperature is mixed with the liquid of the heating thermostat (3) with the liquid of the heating thermostat (1), and when the cooling constant temperature is separated with the heating thermostat (1) and the partition (4) in between Since the liquid cooled from the cooling thermostat (2) is introduced into the heating thermostat (1) and circulated in a state mixed with the liquid of the heating thermostat (1), it is possible to maintain a constant temperature at a small temperature change range, so that the precise constant temperature can be maintained. And it can save energy greatly and also can form the external thermostat (3) in the shape and size desired, and also it can make the constant temperature work conveniently.

Claims (1)

The heating and cooling thermostat (1) and the external thermostat (3) installed at the same time with the heating heater (H), the cooling coil (CH), and the temperature sensor (S1) (S2) are connected to the suction pipe (B1) and the discharge pipe (P1). In the case of incubating by connecting the heating thermostat (1) and the cooling thermostat (2), the partitions (4) are separated from each other and connected to the connecting pipe (P4) installed in the upper part, and one circulation outside the heating thermostat (1). Install the pump PM and connect the discharge pipe P1 connected thereto to the external thermostat 3 through the inside of the heating thermostat 1, but the heating thermostat 1 from the discharge tube P1 installed inside the thermostat 1 Branching another discharge pipe (P2) located in the inside and the discharge pipe (P3) flowing into the inside of the cooling thermostat 2 in the lower end of the discharge pipe (P2) in communication with the branch of the discharge pipe (P2) (P3) While installing the valve (V1) (V2) for opening and closing it at the inlet, the suction pipe (B1) of the pump (PM) through the inside of the heating thermostat (1) The suction pipe B2, which is connected to the thermostatic chamber 3 and sucks the liquid of the heating thermostat 1, is branched so as to communicate with the suction tube B1 installed inside the heating thermostat 1, so that the inside of the suction tube B2 is opened. The connecting rod 7 and the pin 8 of the buoy W which caused the operation valve 6 to be bonded to the shaft 5 by welding the circular valve V3 for opening and closing the valve 5 to the shaft 5 are floated in the heating thermostat 1. Type liquid circulation thermostat which is adhered by