KR102453893B1 - correcting equipment of thermometer using a thermostat - Google Patents

Abstract

The present invention relates to a thermometer calibration apparatus using a constant-temperature bath and, more specifically, to a thermometer calibration apparatus using a constant-temperature bath which uses a constant-temperature bath and prevents a temperature sensor from directly coming in contact with fluid to prevent contamination of the temperature sensor, and maintains a constant temperature of an entire calibration vessel for calibrating a thermometer to accurately calibrate a temperature sensor to be measured even if the position of a reference temperature sensor is changed in the calibration vessel in accordance with the shape and size of the temperature sensor to be measured. To achieve the objective, the thermometer calibration apparatus using a constant-temperature bath comprises: a constant-temperature bath having fluid therein; a temperature control device provided in the constant-temperature bath to control the temperature of fluid; a calibration vessel wherein an upper portion thereof is opened to an upper portion of the constant-temperature bath and a lower portion thereof is inserted into the constant-temperature bath; and a reference thermometer receiving sensing signals of a temperature sensor to be measured and a reference temperature sensor inserted into the calibration vessel to measure temperatures.

Description

Thermometer calibration device using a thermostat

The present invention relates to a thermometer calibration apparatus using a constant temperature bath, and more particularly, not only to prevent contamination of the temperature sensor by preventing the temperature sensor from coming in direct contact with the fluid while using the constant temperature bath, but also to prevent contamination of the temperature sensor as well as the temperature of the entire calibration vessel for calibration of the thermometer. It relates to a thermometer calibration apparatus using a thermometer that can accurately calibrate even if the position of a reference temperature sensor in a calibration container is different according to the shape and size of the temperature sensor to be measured by maintaining the temperature constant.

A thermometer is a device for measuring the temperature by measuring the thermal properties of an object, in particular, by measuring the resistance change according to thermal expansion or temperature, or by measuring the amount of thermoelectric power that changes according to the temperature. Industrial fields in which the thermometer is used include a steel industry such as a coke factory and a plating factory, a power plant, a large storage facility, and the like, and the thermometer is used in various fields of industry.

When the thermometer is used in industrial equipment as described above, the industrial equipment is constantly required to display the temperature, and since defective products can be produced even with minute errors, the accurate performance of the thermometer is required. should be done

Therefore, the calibration device for the calibration of the thermometer may be largely divided into a method using a reference thermometer and a method using a fixed point.

In general, when the temperature uniformity decreases in fixed-point calibration and comparative calibration of thermometers, there is a problem in that calibration uncertainty increases.

In particular, in the case of fixed point calibration, a method of increasing the temperature uniformity by winding a number of hot wires around the fixed point cell is used to realize the fixed point cell. To perform comparative calibration, a thermometer is placed in a constant temperature bath (using fluids such as alcohol, water, oil, etc.).

On the other hand, since it is difficult to use the number of hot wires indefinitely in a multi-hot wire electric furnace for realizing such a conventional fixed point, there is a limitation in improving the temperature uniformity.

Here, looking at the existing structure of a calibration device using a constant temperature bath as an example of comparative calibration, as shown in FIG. 1 , a fluid is accommodated in the constant temperature bath 10 , and one side of the constant temperature bath 10 has a reference temperature sensor ( 21) and the temperature sensor 22 to be measured can be inserted into and removed from the inside, and a pump 40 for forced convection of the fluid is provided on one side of the inside of the constant temperature bath 10 .

However, in the case of a constant temperature bath, compared to a fixed point, the temperature uniformity is good, but there is a limitation in that the fluid is buried in the thermometer and there is an upper limit on the temperature at which the calibration is possible.

In addition, since the conventional configuration convections the internal fluid using only the pump 40, a temperature difference inevitably occurs depending on the space inside the constant temperature bath 10. In particular, the reference temperature sensor 21 and the temperature sensor to be measured Since the temperature difference occurs in the upper and lower parts of the fluid adjacent to (22), it is difficult to calibrate a temperature sensor used in a precise place.

Korean Patent Registration No. 10-1486731 (Registered on Jan. 21, 2015)

The present invention has been devised to solve the above problems, and an object of the present invention is to use a constant temperature bath to calibrate a thermometer, and to provide a calibration container to be in contact with the fluid inside the constant temperature bath, and to accommodate a temperature sensor therein. It is to provide a thermometer calibration device using a constant temperature bath that can prevent the temperature sensor from being contaminated by preventing the temperature sensor from coming in direct contact with the fluid by providing the sensor container so as to be detachably attached to the calibration container.

Another object of the present invention is to further include a constant temperature unit, wherein the constant temperature unit includes a constant temperature body formed to surround the outside of the calibration container, a pump for convection of fluid from a lower portion of the constant temperature body to an upper portion, and a lower and upper portion of the constant temperature body It consists of a temperature control unit that adjusts the convection speed according to the temperature difference between the main temperature sensor and the compensation temperature sensor provided in the thermostat to make the temperature of the lower and upper parts of the constant temperature body uniform, so that the entire temperature inside the calibration vessel can be maintained evenly. It is to provide a thermometer calibration device using a constant temperature bath capable of accurately calibrating a thermometer.

In addition, another object of the present invention is that the constant temperature unit supplies a fluid through the supply pipe to the constant temperature body covering the outside of the calibration vessel, and includes a uniformity module in which the metal ball is accommodated between the supply pipe and the constant temperature unit, An object of the present invention is to provide a thermometer calibration device capable of uniformly forming the temperature of the fluid supplied to the constant temperature unit by allowing the fluid to move through the gap.

The present invention for solving these problems;

A thermostat having a fluid therein, a temperature control device provided inside the thermostat to control the temperature of the fluid, a calibration container having an upper part open on the upper part of the thermostat tank and a lower part inserted into the thermostat tank; It characterized in that it consists of a reference temperature sensor inserted into the interior of the calibration container and a reference thermometer for measuring the temperature by receiving the detection signal of the temperature sensor to be measured.

Here, the calibration container is provided with a detachable sensor container in which the reference temperature sensor and the temperature sensor to be measured are accommodated, and the sensor container has a plurality of receiving holes in which the reference temperature sensor and the temperature sensor to be measured are inserted and supported. characterized in that

In addition, a constant temperature unit for uniformly forming a temperature of the fluid around the calibration container is further provided, the constant temperature unit is installed to cover the outside of the calibration container and moves the fluid from the lower part to the upper part of the calibration container; It characterized in that it consists of a supply pipe for supplying the fluid to the constant temperature body, and a pump installed inside the thermostat to supply the internal fluid to the supply pipe.

Here, a main temperature sensor and a compensation temperature sensor are respectively provided on the lower and upper portions of the thermostatic body, and the larger the difference between the temperature values measured by the main temperature sensor and the compensating temperature sensor outside the thermostat, the greater the difference between the main temperature sensor and the compensating temperature sensor. A constant temperature control module for controlling the pump to increase the moving speed of the moving fluid is provided.

At this time, the constant temperature control module is provided with a motor for controlling the rotation speed of the pump, the motor is provided with a shaft for rotating the pump through the constant temperature bath, the central portion of the shaft for forced convection of the fluid inside the constant temperature bath It is characterized in that the convection blade is installed.

On the other hand, a leveling module is further provided between the supply pipe and the constant temperature body, wherein the leveling module is composed of a housing, a mesh network covering the upper and lower ends of the housing, and a metal ball accommodated inside the housing. do.

In addition, an auxiliary tank in which a fluid is accommodated is further provided at an external side of the thermostat, the auxiliary tank and the thermostat are connected by a connecting pipe, and a valve is installed in the connecting pipe.

Here, the auxiliary tank accommodates the fluid at room temperature, and when the temperature of the high-temperature fluid accommodated in the thermostat is lowered or the temperature of the low-temperature fluid accommodated in the thermostat is raised, the valve is controlled to control the temperature of the sub-tank. The fluid is supplied to the thermostat, and the fluid in the thermostat is moved to the auxiliary tank.

According to the present invention of the above configuration, a thermometer is used to calibrate the thermometer, a calibration container is provided inside the thermometer to come into contact with the fluid, and a sensor container accommodating a temperature sensor therein is detachably provided in the calibration container. By doing so, it is possible to prevent the temperature sensor from being in direct contact with the fluid, thereby preventing the temperature sensor from being contaminated.

The present invention further includes a constant temperature unit, wherein the constant temperature unit includes a constant temperature body formed to surround the outside of the calibration container, a pump for convection of fluid from the lower portion of the constant temperature body to the upper portion, and the lower and upper portions of the constant temperature body It consists of a temperature control unit that adjusts the convection speed according to the temperature difference between the main temperature sensor and the compensation temperature sensor so that the temperature of the lower and upper parts of the constant temperature body is uniform. It has a rectifying effect.

In addition, the present invention provides a constant temperature unit through a supply pipe to a constant temperature body covering the outside of the calibration vessel, and by providing a homogenization module in which a metal ball is accommodated inside between the supply pipe and the constant temperature unit, the fluid flows through the gap between the metal balls There is an effect that the temperature of the fluid supplied to the constant-temperature unit can be formed uniformly as a whole by moving it.

1 is a conceptual diagram of a thermometer calibration device using a conventional thermostat.
2 is a conceptual diagram of a thermometer calibration device using a thermostat according to the present invention.
3 is a perspective view of a sensor container of a thermometer calibration device using a constant temperature bath according to the present invention.
4 is a conceptual diagram showing the flow of a fluid in the thermometer calibration device using a constant temperature bath according to the present invention.
5 is a conceptual diagram of a thermometer calibration apparatus using a constant temperature bath according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The same reference numerals are used for the same components in the drawings, and repeated descriptions of the same components are omitted. And, it should be understood that the present invention may be implemented in many different forms and is not limited to the described embodiments.

2 is a conceptual diagram of a thermometer calibration device using a thermometer according to the present invention, FIG. 3 is a perspective view of a sensor container of the thermometer calibration device using a thermostat according to the present invention, and FIG. 4 is a thermometer calibration device using a thermometer according to the present invention. is a conceptual diagram showing the flow of the fluid, and FIG. 5 is a conceptual diagram of a thermometer calibration apparatus using a thermostat according to another embodiment of the present invention.

The present invention relates to a thermometer calibration device using a thermostat, and as shown in FIGS. 2 to 4, the configuration is a thermostat 100 having a fluid therein, and the thermostat 100 is provided inside the thermostat to measure the temperature of the fluid. The temperature control device 150 to control, the calibration container 120 provided on the upper portion of the thermostat 100, and the reference temperature sensor 310 and the temperature to be measured sensor 320 inserted into the calibration container 120 It may be composed of a reference thermometer 300 that receives a detection signal from and measures the temperature.

Here, an installation hole (not shown) is formed on one upper side of the thermostat 100 to penetrate vertically, and the calibration container 120 is inserted into the installation hole, and the upper end of the calibration container 120 is outwardly formed. A flange (not shown) is formed to protrude and is fixedly coupled to the outside of the installation hole, thereby preventing the fluid contained in the thermostat 100 from leaking to the outside.

At this time, the upper part of the calibration container 120 is formed to be open so that the reference temperature sensor 310 and the temperature to be measured sensor 320 are easily inserted. By sealing using 130, it is prevented from being affected by the external environment when measuring the temperature.

Therefore, the values measured by the reference temperature sensor 310 and the temperature to be measured sensor 320 are detected by the reference thermometer 300 to calculate a temperature value, and the reference temperature sensor 310 is a sensor in a normal state. The measured value is outputted as an accurate temperature value, and the value of the thermometer (not shown) to be calibrated is corrected by comparing the value measured by the measured temperature sensor 320 with the value measured by the reference temperature sensor 310 . can do.

Therefore, in the thermometer to be calibrated, by correcting the error between the measured temperature value and the actual temperature value using the measured temperature sensor 320 , an accurate temperature value can be derived through the measured temperature sensor 320 . do.

Also, the temperature control device 150 may include a heater for heating the fluid and a cooling coil for cooling the fluid, and the temperature control device 150 can easily control the temperature of the fluid.

So, by controlling the temperature of the fluid to a temperature suitable for the section in which the measured temperature sensor 320 is used through the temperature control device 150, the error state of the measured temperature sensor 320 can be more accurately checked and corrected. be able to

In addition, the calibration container 120 may be provided with a sensor container 140 detachably, and the reference temperature sensor 310 and the temperature to be measured sensor 320 are accommodated in the sensor container 140, as shown in the figure. As shown in, it may be formed in a cylindrical shape or may be formed in a polygonal cylindrical shape.

Here, the sensor container 140 is made of aluminum, etc. having good thermal conductivity, and the receiving holes 142 into which the reference temperature sensor 310 or the temperature sensor to be measured 320 are inserted are formed at regular intervals. The diameter of the ball 142 is formed in various sizes to easily accommodate the temperature sensor 320 to be measured formed in various sizes.

Of course, the reference temperature sensor 310 and the temperature to be measured sensor 320 may be accommodated directly into the calibration container 120 without using the sensor container 140 , but the sensor container 140 has the By inserting the reference temperature sensor 310 and the temperature to be measured sensor 320 into the calibration container 120 in the inserted state, the reference temperature sensor 310 and the temperature to be measured sensor 320 are prevented from coming into contact with each other. This prevents them from interfering with each other.

In this way, by inserting the reference temperature sensor 310 and the measured temperature sensor 320 into the thermostat 100 using the calibration vessel 120 and the sensor vessel 140, the fluid contained in the thermostat 100 is By preventing the reference temperature sensor 310 and the measured temperature sensor 320 from coming into direct contact with each other, contamination of the reference temperature sensor 310 and the measured temperature sensor 320 is prevented.

That is, the fluid accommodated in the thermostat 100 may be made of silicone oil, etc., but when it comes into direct contact with the reference temperature sensor 310 and the temperature sensor 320 to be measured, it has to be removed, so it is quite cumbersome and Since it is necessary to use a separate cleaning agent, there is a problem in that the cost is also increased.

Therefore, by using the calibration container 120 and the sensor container 140 as described above, the fluid is prevented from coming into direct contact with the reference temperature sensor 310 and the measured temperature sensor 320 while using the constant temperature bath 100 . can do.

And, the thermometer calibration apparatus using the thermometer of the present invention may further include a thermostat 200 for forming a constant temperature of the fluid around the calibration vessel 120, the thermostat 200 is the thermostat ( Installed to cover the outside of the pump 220 and the supply pipe 230 connected to the pump 220 and the pump 220 installed on the inside of 100) supplying the fluid to the calibration container 120 toward the calibration container 120 and the calibration container 120. However, it may consist of a constant temperature body 210 connected to the supply pipe 230 to receive a fluid.

Here, the thermostatic body 210 may be formed in a cylindrical or polygonal shape depending on the shape of the calibration vessel 120 , and receives a fluid from the lower portion through the pump 220 and the supply pipe 230 to the upper portion. The fluid is discharged through the formed outlet 212 .

At this time, the separation space formed between the constant temperature body 210 and the calibration container 120 serves as a moving channel 214 for moving the fluid, so that the fluid supplied from the lower part of the constant temperature body 210 is transferred to the calibration container 120 . ) is moved laterally in contact with the lower portion, and after moving upward through the moving channel 214 formed on the side, it is discharged to the outside through the outlet 212 .

Therefore, the constant temperature formed so that the fluid heated or cooled to a temperature set through the temperature control device 150 directly surrounds the calibration vessel 120 without moving to another place through the pump 220 and the supply pipe 230 . By supplying to the body 210, the change in the temperature of the fluid is minimized.

On the other hand, the main temperature sensor 252 and the compensation temperature sensor 254 may be respectively installed in the lower and upper portions of the constant temperature body 210 located outside the calibration vessel 120, the main temperature sensor ( 252 may be installed to be positioned at a lower portion of the calibration body 120 , and the compensation temperature sensor 254 may be installed to be positioned at an upper portion of the calibration body 120 .
That is, as shown in FIGS. 2 and 4 , the main temperature sensor 252 and the compensation temperature sensor 254 are sequentially positioned in the constant temperature body 210 according to the direction in which the fluid flows.

Here, a constant temperature control module 250 is provided outside the constant temperature bath 100, and the constant temperature control module 250 receives the temperature value measured by the main temperature sensor 252 and the compensation temperature sensor 254 and As the difference between the two temperature values increases, the pump 220 is controlled to increase the moving speed of the fluid moving inside the constant temperature body 210 .

That is, when the temperature difference between the upper part and the lower part of the constant temperature body 210 is large, when the fluid in the lower part moves to the upper part at a high speed, the temperature difference between the upper part and the lower part can be minimized, so that the temperature difference between the upper part and the lower part can be minimized. It is possible to maintain a uniform temperature of the fluid located throughout.

Therefore, in the prior art, even if a thermostat is used, a temperature difference occurs to a certain extent depending on the position inside the thermostat, so it is difficult to make accurate fine calibration. By keeping it even, even if there is a distance between the reference temperature sensor 310 and the measured temperature sensor 320 inside the calibration container 120, the temperature change is minimized below the reference value to enable fine calibration.

In addition, a motor 260 may be installed on one side of the thermostat control module 250 , and the motor 260 rotates the pump 220 provided in the thermostat 100 to rotate the supply pipe 230 at a set speed. ) to supply the fluid.

Here, an inverter 261 is further provided between the motor 260 and the constant temperature control module 250 to control the rotation speed of the motor 260 to correspond to the signal received from the constant temperature control module 250, The motor 260 is provided with a shaft 264 passing through the thermostat 100 , and the lower end of the shaft 264 is connected to the pump 220 to control the fluid supply speed of the pump 220 . .

In this case, a convection blade 266 may be further provided at the center of the shaft 264 , and the convection blade 266 rotates the fluid accommodated in the thermostat 100 to force convection, and thus the thermostat 100 . ) to keep the internal fluid temperature uniform throughout.

In addition, the constant temperature unit 200 may further include a leveling module 240 between the supply pipe 230 and the constant temperature body 210 . The equalization module 240 includes a housing 242 having various cylindrical shapes. and a mesh network 244 covering the upper and lower ends of the housing 242 and a metal ball 246 accommodated inside the housing 242 .

Here, the metal ball 246 may be made of a metal having good thermal conductivity, such as copper, brass, nickel, aluminum, or gold.

At this time, since the fluid supplied through the supply pipe 230 moves upward through the gap of the metal ball 246, the fluid not only moves upward in a state in which the fluid is spread throughout the interior of the housing 242, but also has good thermal conductivity. The temperature of the entire metal ball 246 can be kept the same due to the nature of the metal ball made of

Therefore, the fluid that has passed through the equalization module 240 moves from the lower part of the constant temperature body 210 to the upper part while maintaining an even temperature as a whole, so that it is possible to more easily maintain a constant external temperature of the calibration container 120 . .

In another embodiment of the present invention, as shown in FIG. 5 , an auxiliary tank 400 accommodating a fluid therein may be further provided on the outer side of the thermostat 100 , and the auxiliary tank 400 and The thermostat 100 may be connected to a connection pipe 410 , and a valve 420 may be installed in the connection pipe 410 .

Here, the fluid accommodated in the auxiliary tank 400 is made of the same material as the fluid accommodated in the thermostat 100, and the thermostat 100 covers the outside with a material having good thermal insulation properties from the external environment. , since the auxiliary tank 400 does not use a separate insulating material, the fluid accommodated therein is maintained at room temperature.

At this time, a plurality of the connection pipes 410 may be installed, and they may be installed in the upper and lower portions of the auxiliary tank 400 to exchange with the fluid contained in the constant temperature bath 100 at once, and the valve 420 is a well-known Various valves can all be used, and in particular, opening and closing can be controlled automatically using an electromagnetic valve.

Therefore, since the auxiliary tank 400 accommodates the fluid at room temperature, when lowering the temperature of the high-temperature fluid accommodated in the thermostat 100 or increasing the temperature of the low-temperature fluid accommodated in the thermostat 100, By controlling the valve 420, the room temperature fluid contained in the auxiliary tank 400 is supplied to the constant temperature bath 100, and the high temperature or low temperature fluid in the constant temperature bath 100 is moved to the auxiliary tank 400 to quickly temperature can be adjusted.

In addition, the auxiliary tank 400 may further include an auxiliary temperature sensor 430 for measuring the temperature of the fluid contained therein. In consideration of the temperature of the fluid accommodated in the auxiliary tank 400 , it is determined whether to control the temperature through the temperature control device 150 or to control the temperature by exchanging the fluid with the auxiliary tank 400 .

In addition, when the temperature of the fluid accommodated in the thermostat 100 is 100° C. or higher, if a cooling coil constituting the temperature control device 150 is used, there is a problem that the cooling device may be damaged. By using the fluid at room temperature accommodated in the auxiliary tank 400, it is possible to prevent damage to the cooling device as well as to allow for more rapid cooling.

Although 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 those substantially equivalent to the embodiments of the present invention. Various modifications are possible by those of ordinary skill in the art to which the invention pertains without departing from the scope of the invention.

The present invention relates to a thermometer calibration apparatus using a constant temperature bath, and more particularly, not only to prevent contamination of the temperature sensor by preventing the temperature sensor from coming in direct contact with the fluid while using the constant temperature bath, but also to prevent contamination of the temperature sensor as well as the temperature of the entire calibration vessel for calibration of the thermometer. It relates to a thermometer calibration apparatus using a thermometer that can accurately calibrate even if the position of a reference temperature sensor in a calibration container is different according to the shape and size of the temperature sensor to be measured by maintaining the temperature constant.

100: thermostat
120: calibration vessel 130: insulation cover
140: sensor vessel 150: temperature control device
200: constant temperature unit 210: constant temperature body
220: pump 230: supply pipe
240: equalization module 250: constant temperature control module
260: motor 300: reference thermometer
310: reference temperature sensor 320: measured temperature sensor
400: auxiliary tank 410: connector
420: valve 430: auxiliary temperature sensor

Claims (8)

A constant temperature bath having a fluid therein;
a temperature control device provided inside the thermostat to control the temperature of the fluid;
The upper part is open and a flange is formed on the outer side, the calibration container is fixed to the outside of the thermostat, and the lower part is inserted into the inside of the thermostat;
The upper part is open and a flange is formed on the outside to be fixedly coupled to the outside of the installation hole formed in the constant temperature bath, and the lower part is a calibration container installed to be inserted into the interior of the constant temperature bath through the installation hole,
It consists of a reference temperature sensor inserted into the interior of the calibration container and a reference thermometer that receives a detection signal from the temperature sensor to be measured and measures the temperature,
A constant temperature unit for forming a constant temperature of the fluid around the calibration vessel is further provided, wherein the constant temperature unit is installed to cover the outside of the calibration vessel and moves the fluid from the lower part to the upper part of the calibration vessel;
a supply pipe for supplying a fluid to the constant temperature body;
It consists of a pump installed inside the thermostat to supply the fluid therein to the supply pipe,
The constant temperature body is provided with a main temperature sensor and a compensation temperature sensor, respectively, wherein the main temperature sensor and the compensation temperature sensor are sequentially located according to the direction in which the fluid flows,
On the outside of the constant temperature bath, as the difference between the temperature values measured by the main temperature sensor and the compensation temperature sensor increases, the constant temperature control module minimizes the temperature difference by controlling the pump to increase the moving speed of the fluid moving inside the constant temperature body. Thermometer calibration device using a constant temperature bath, characterized in that provided.
The method of claim 1,
The calibration container is provided with a detachable sensor container in which the reference temperature sensor and the temperature sensor to be measured are accommodated,
A thermometer calibration device using a thermostat, characterized in that the sensor container has a plurality of receiving holes into which the reference temperature sensor and the temperature sensor to be measured are inserted and supported.
delete delete The method of claim 1,
The constant temperature control module is provided with a motor for controlling the rotation speed of the pump,
The motor is provided with a shaft for rotating the pump through the constant temperature bath,
A thermometer calibration device using a thermostat, characterized in that a convection blade for forced convection of the fluid inside the thermostat is installed in the center of the shaft.
The method of claim 1,
A homogenization module is further provided between the supply pipe and the constant temperature body,
The equalization module includes a housing,
a mesh network covering the upper and lower ends of the housing;
Thermometer calibration device using a thermostat, characterized in that consisting of a metal ball accommodated inside the housing.
The method of claim 1,
An auxiliary tank for accommodating a fluid therein is further provided on one side of the outside of the thermostat,
The auxiliary tank and the thermostat are connected by a connecting pipe,
Thermometer calibration device using a constant temperature bath, characterized in that the valve is installed in the connection pipe.
8. The method of claim 7,
A fluid at room temperature is accommodated in the auxiliary tank,
When the temperature of the high-temperature fluid accommodated in the thermostat is lowered or the temperature of the low-temperature fluid accommodated in the thermostat is raised, the valve is controlled to supply the room-temperature fluid from the auxiliary tank to the thermostat, and the fluid in the thermostat A thermometer calibration device using a constant temperature bath, characterized in that it is moved to the auxiliary tank.

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