JP3660369B2 - Liquid temperature controller for temperature chamber - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to an improvement in a liquid temperature control device for a thermostat bath mainly for physics and chemistry that maintains the temperature of a liquid in a bath at a predetermined temperature.
[0002]
[Prior art]
Conventionally, in order to control the inside of a liquid tank to normal temperature and below normal temperature, a cooling device and a heating device are provided, respectively, and when heating above normal temperature, the heating device is used. It was immersed in the tank and controlled separately. For example, Japanese Patent Publication No. 54-16875 shows an example in which an electrically controlled heating element is immersed in a tank. On the other hand, Japanese Utility Model Publication No. 59-16696 discloses an example of a throw-in heat exchanger in which a tubular member containing a heater or an electric heater is immersed in a liquid tank.
Furthermore, there are some which perform cooling and warming with hot gas by switching the refrigerant flow direction of a refrigeration circuit using a compressor. (See Japanese Utility Model Publication No. 64-52545)
[0003]
[Problems to be solved by the invention]
However, in the former case of the conventional method, since the heating device and the cooling device are separate, the equipment cost becomes high and the handling becomes complicated. Furthermore, since both are controlled separately, there is a lack of control continuity, and there is a drawback that continuous control between room temperature and room temperature cannot be performed. Moreover, there is a drawback that the control accuracy is extremely poor.
[0004]
[Means for Solving the Problems]
That is, the present invention is a liquid temperature control device that adjusts the temperature of a liquid in a liquid tank by performing heat exchange through a heating unit or a cooling unit, and has heat conductivity on both sides of the thermoelectric conversion element. The liquid in the liquid tank is circulated through the liquid flow path of the heat exchanger provided with the heat radiator made of the material and the heat transfer block body provided with the liquid flow path, and the temperature of the liquid is set to a predetermined temperature. And a heat exchanger, a liquid feed pump, a control device and the like are integrally attached to the gantry, and a protruding leg is provided at a lower portion of the gantry, and the protruding leg is The present object is achieved by fastening and fixing to the upper edge of the liquid tank so that the liquid tank can be attached and detached.
Further, in a liquid temperature adjusting device that adjusts the temperature of the liquid in the liquid tank by performing heat exchange via a heating means or a cooling means, heat dissipation made of a heat-conducting material on both sides of the thermoelectric conversion element. The liquid in the liquid tank is circulated through the liquid flow path of the heat exchanger provided with the body and the heat transfer block body provided with the liquid flow path, and the temperature of the liquid is controlled to a predetermined temperature. A temperature control device, in which a heat exchanger, a liquid feed pump, a control device, etc. are integrally attached to a gantry, and a leg portion having a large diameter and a number of holes extending downward from the liquid feed pump at a lower portion of the gantry This is intended to achieve this object by enabling the mounting on the bottom of the liquid tank.
[0005]
[Action]
According to the apparatus of the present invention, the liquid in the tank sent by the liquid feed pump is heated or cooled by the thermoelectric conversion element when passing through the heat exchanger, and then returned to the liquid tank to adjust the temperature. The
Moreover, when using for another liquid tank, it is made | formed only by moving the liquid temperature control apparatus with which the heat exchanger, the cover body, etc. were integrated.
[0006]
【Example】
In the following, the present invention will be described in detail according to the embodiments shown in the drawings.
FIG. 1 shows a first embodiment according to the present invention.
Reference numeral 1 denotes a plate-shaped gantry having a leg portion 2 that can be attached to the liquid tank 8. A heat exchanger 3 provided on the gantry 1 conducts heat between a thermoelectric conversion element 4 and a heat transfer block 5 made of a heat-conducting material such as aluminum and a radiator 6 such as fins on both sides of the thermoelectric conversion element 4. As close as possible. The heat transfer block 5 is provided with a liquid flow path 9, one of which is connected to the discharge port of the liquid feed pump 7 and the other of which is opened into the liquid tank 8.
The liquid feed pump 7 is a rotary pump that fixes the electric motor 10 on the mount 1 and rotates the impeller 12 that is connected to the shaft 13 of the motor 10 and immersed in the liquid to be cooled. And the discharge port is connected with the liquid flow path 9 provided in the heat-transfer block body 5 of the said heat exchanger 3 by piping.
On the other hand, a blower fan 14 is attached to the other end of the shaft 13 of the electric motor 10, so that the outside air is blown to the radiator 6 of the heat exchanger 3 simultaneously with the rotation of the motor 10.
The control device 15 includes a controller 16 that controls a current to the thermoelectric conversion element 4 and an electric motor, a temperature sensor 17 that measures the temperature of the heat exchanger 3 or liquid, a power supply device 18, and the like.
[0007]
Next, the operation and the like of the liquid temperature adjusting device according to the first embodiment of the present invention will be described.
This apparatus fixes to the liquid tank 8 by fastening the leg part 2 of the mount frame 1 with which the heat exchanger 3 etc. were integrally attached to the edge with a screw | thread etc. FIG.
Then, the temperature-controlled liquid is sent from the liquid tank 8 to the heat exchanger 3 connected via the pipe by the liquid feed pump 7 and then returned to the liquid tank 8 and circulated. In the heat exchanger 3, the heat transfer block 5 made of a heat conductive material is cooled or heated by the thermoelectric conversion element 4, and the heat-controlled liquid is also cooled or heated by exchanging heat with this. Is done. This temperature control or switching between heating and cooling is performed while comparing the detected value of the temperature sensor 17 with the set temperature target value and performing feedback control. That is, when the detection value of the temperature sensor 17 is lower than the set temperature, the thermoelectric conversion element 4 is heated in the heating mode, and when it is higher, the direction of the current is switched to the cooling mode. Further, the strength of heating or cooling is performed by changing the magnitude of the current or the duty ratio of the pulse current. In addition, by this, the heat radiator 6 of the heat exchanger 3 is cooled or heated contrary to the heat transfer block body 5 side of the thermoelectric conversion element 4, and the outside air is sent to the heat radiator 6 by the blower fan 14, and the heat is radiated. The
According to the configuration and operation of the present embodiment, both cooling and heating can be performed with high control accuracy while having a compact configuration. Furthermore, since the gantry and the device are integrated, handling is extremely easy.
[0008]
Next, a second embodiment will be described with reference to FIG. In the second embodiment, as in the first embodiment, the entire apparatus is integrally formed with the gantry, and the heat exchanger of the liquid temperature control apparatus is immersed in the liquid to increase the heat exchange efficiency. Is. The heat exchanger immersed in the liquid includes the thermoelectric conversion element 4, the heat conduction heat exchanger 21, the heat radiation heat exchanger 22, the heat insulating material 23, and the like. The heat exchanger 21 for heat conduction is made of a thermally conductive material that has one surface in contact with the thermoelectric conversion element 4 and the other surface exposed in the liquid tank. The heat-dissipating heat exchanger 22 is made of a heat-conducting material in which one surface is in contact with the thermoelectric conversion element 4 and the other surface is covered with the heat insulating material 23 and the cooling liquid passes inside. The heat insulating material 23 covers the thermoelectric conversion element 4 and the heat exchanger 22 for heat dissipation. Reference numeral 24 denotes a radiator in which the circulating liquid for heat dissipation passes and is cooled by the blower fan 14, and forms a sealed circuit together with the heat exchanger 22 for heat dissipation. Reference numeral 25 denotes a stirrer having the same shaft as the motor 10 of the blower fan 14.
[0009]
According to the second embodiment configured as described above, the heat of the thermoelectric conversion element 4 is conducted to the liquid to be cooled via the heat exchanger 21 for heat conduction and is predetermined while being agitated by the agitator 25. Temperature is adjusted. As a result, heat generated on one surface of the thermoelectric conversion element 4 is exchanged by the heat dissipation heat exchanger 22 between the thermoelectric conversion element 4 and the cooling circulating fluid in the sealed circuit. Heat is exchanged with the sent air, and the circulating liquid is cooled or heated.
The heat exchanger portion in the liquid is liquid temperature adjusted by the thermoelectric conversion element 4 via the heat exchanger 21 that is in direct contact with the liquid, and the hot air or cold air generated during the adjustment is transferred to the radiator via the sealed circuit. 24 is released into the air.
According to the second embodiment having such a structure, since the heat exchanger is immersed in the liquid to be cooled and directly controlled in temperature, the cooling or heating efficiency and control accuracy are good. On the other hand, there may be disadvantages in terms of cost, such as a complete seal of the thermoelectric conversion element and a sealed circulating liquid circuit being required. The fan motor 10 may be integrated with the liquid feed pump 7 as well as the blower fan 14 and the agitator 25.
[0010]
Next, FIG. 3 shows a third embodiment.
In this case, the point which uses the water-cooled radiator 30 is different from the first and second embodiments. Furthermore, the point which attached the leg part 31 which drilled many holes to the base 1 lower part, and was mounted in the bottom part of the liquid tank 8 is also different. In the case of this configuration, it is not necessary to attach the liquid tank to the gantry, and movement between the plurality of tanks can be performed very easily.
[0011]
【effect】
As described above in detail, according to the present invention, since heating and cooling are performed by the thermoelectric conversion element, one apparatus is sufficient, and the entire apparatus is downsized. Also, the control can be performed continuously for both heating and cooling. Furthermore, since the heat exchanger and the lid are integrated, handling and loading / unloading to the liquid tank can be performed very easily. Further, by allowing the liquid temperature adjusting device to be attached to and detached from and placed on the liquid tank, movement between the plurality of tanks can be performed very easily.
[Brief description of the drawings]
FIG. 1 is an overall configuration diagram showing a first embodiment of an apparatus according to the present invention.
FIG. 2 is an overall configuration diagram showing a second embodiment of the apparatus according to the present invention.
FIG. 3 is an overall configuration diagram showing a third embodiment of the apparatus according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Base 2, 31 Leg part 3 Heat exchanger 4 Thermoelectric conversion element 5 Heat transfer block body 6 Radiator 7 Liquid feed pump 8 Liquid tank 10 Electric motor 12 Impeller 13 Motor shaft 14 Blower fan 15 Controller 17 Temperature sensor
21 heat exchanger for heat conduction 22 heat exchanger for heat radiation 23 heat insulating material 24 heat radiator 25 liquid tank agitator 31 water-cooled heat radiator

Claims (2)

In the liquid tank by the liquid feed pump, the liquid flow path of the heat exchanger provided with a heat radiator made of a thermally conductive material on both sides of the thermoelectric conversion element and a heat transfer block body with a liquid flow path Is a liquid temperature control device that circulates and passes the liquid and controls the temperature of the liquid to a predetermined temperature. The heat exchanger, the liquid feed pump, the control device, and the like are integrally attached to the gantry and project to the lower part of the gantry A liquid temperature control device for a thermostatic bath, wherein the leg portion is provided, the projecting leg portion is fastened and fixed to the upper end edge of the liquid bath, and the liquid bath is detachable. In the liquid tank by the liquid feed pump, the liquid flow path of the heat exchanger provided with a heat radiator made of a thermally conductive material on both sides of the thermoelectric conversion element and a heat transfer block body with a liquid flow path This is a liquid temperature control device that circulates the liquid and controls the temperature of the liquid to a predetermined temperature. A liquid temperature control device for a thermostatic bath, characterized in that a leg portion having a large diameter and a long number of holes below the liquid pump is provided and can be placed on the bottom of the liquid bath.

Images