KR101192904B1 - Apparatus for controlling constant temperature using air - Google Patents

Abstract

In the constant temperature maintaining apparatus using air according to the present invention, the container (2) is housed therein and the temperature sensor (15) is installed therein to maintain the container containing the object at a constant temperature using air. It is installed to surround the inner bath 10, the inner bath 10, the air inlet hole 12 is formed, the outer bath 20, the air flow path is formed between the inner bath, the contact with one side of the outer bath 20 A thermoelectric module unit 30 installed to heat or cool air in the external bath, and a circulation fan installed in the external bath so as to circulate cooling or heating air by the thermoelectric module unit so as to correspond to the thermoelectric module unit. 40, and a control unit for controlling the temperature of the internal bath by controlling the thermoelectric module unit 30 by using the temperature information received from the temperature sensor, and cooling or by the thermoelectric module unit 30. Air of the heated outer bath 20 is circulated by the circulation fan 40 is introduced into the bath 10 through the air inlet hole 12 to maintain a constant temperature of the container (2).

Description

Apparatus for controlling constant temperature using air}

The present invention relates to a constant temperature maintaining apparatus, and more particularly, to a constant temperature maintaining apparatus using air to keep the temperature of a container filled with a liquid chemical liquid constant using air.

The constant temperature maintaining device is a device that maintains a constant temperature of a container containing a filling therein, and maintains a temperature of a container (canister) used in a semiconductor manufacturing process, a display manufacturing process, or an LED manufacturing process, It is used to maintain a constant temperature in a container containing part or drug reagents. The constant temperature holding device of the canister in semiconductor, display manufacturing, and LED manufacturing processes is used to maintain a stable bubble reaction by keeping the temperature of the container constant, which is very important in CVD and MOCVD processes. Keeping chemicals, materials, components or reagents at a constant temperature is important in chemical analysis, development and research.

Conventional constant temperature maintenance apparatus is usually applied to a BATH structure in which the container is used in a temperature-controlled bath (BATH). In other words, the temperature of the vessel is kept constant by immersing the liquid inside the BATH and heating or cooling the liquid to change the temperature. A circulation pump is mounted inside the BATH to equalize the liquid temperature, and for cooling or heating, the refrigerated thermostat cools the liquid using a chiller and heats the liquid using a separate heater. And, the electric constant temperature device is cooled and heated using the polarity switching of the thermoelectric module.

However, the constant temperature maintaining apparatus using the existing liquid has the following problems. First, a large amount of cooling or heating heat is required because the temperature of the liquid having a high specific heat needs to be changed, which causes an increase in energy consumption. In addition, since the liquid inside the BATH must be managed at a certain level, a management problem occurs, and when the water level decreases, there is a problem that a huge cost is lost, such as a LOT FAIL problem. If the water level decreases in the semiconductor or LED manufacturing process, the container (canister) is exposed to the surface of the water, so the bubbler role can be lost by moving out of the control temperature range. Therefore, the entire lot processed in the semiconductor or LED process can be treated as FAIL. The cost is largely lost. In addition, even when using the components or chemical reagents, materials, etc. in the field of chemical analysis, if the water level inside the BATH is lowered, it is impossible to maintain a constant temperature, a loss occurs. In addition, since the temperature of the entire liquid inside the BATH needs to be changed, a problem that a long time to reach the target temperature during initial device operation occurs.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object thereof is to provide a constant temperature maintaining apparatus using air to use gas without using liquid as a temperature maintaining medium of a container.

The constant temperature maintaining apparatus using the air according to the present invention for achieving the above object is to maintain the container at a constant temperature, the container is accommodated inside, the internal bath is installed inside the temperature sensor and the air inlet hole is formed; An outer bath installed to surround the inner bath and having an air passage formed between the inner baths; A thermoelectric module unit installed to contact one side of the outer bath to heat or cool the air in the outer bath; A circulation fan installed inside the external bath so as to correspond to the thermoelectric module unit and circulating cooling or heating air by the thermoelectric module unit; And a control unit controlling the thermoelectric module unit to control the temperature of the inner bath by using the temperature information received from the temperature sensor, wherein the air of the external bath cooled or heated by the thermoelectric module unit is the circulation fan. Is circulated by the flow through the air inlet into the inner bath to maintain a constant temperature of the vessel.

The air inlet is formed to be uniformly distributed on the upper side wall of the inner bath, the thermoelectric module unit and the circulation fan is formed in the lower portion of the outer bath, the outer bath of the cooling or heating by the thermoelectric module unit Air rises by the circulation fan and flows into the internal bath through the air inlet.

The thermoelectric module unit may include a thermoelectric module that generates or absorbs heat by changing polarity; A heat exchanger having one side installed in contact with one side of the thermoelectric module, and a plurality of heat dissipation fins installed on the other side to transfer heat with air in the external bath; And a heat dissipation unit installed to be in contact with the other side of the thermoelectric module.

Meanwhile, the container constant temperature maintaining apparatus according to the embodiment of the present invention further includes a case surrounding each of the components, and a weight sensing unit capable of detecting the weight of the constant temperature maintaining apparatus is detachably installed on the bottom of the case. Do.

According to the present invention, by using air without using a liquid to maintain the temperature of the container has the following effects. First, as the capacity of the heat exchanger is reduced, power consumption is low, and since the thermoelectric element is applied without using the refrigerant gas of the refrigerator, it is eco-friendly and there is no noise and vibration. Second, since the liquid inside the bath does not need to be managed, process accidents such as a short circuit accident due to the liquid can be prevented in advance. In addition, the process delay time due to the liquid leakage problem can be reduced to increase the efficiency of the manufacturing process, which leads to a reduction in the manufacturing cost. Third, since the temperature of the gas (air) with low specific heat is changed, the waiting time until reaching the target temperature can be reduced. Finally, by applying the weight sensing unit can detect the remaining amount of the filling of the container, there is an effect that can prevent the manufacturing process accidents due to the lack of the remaining amount of the filling.

1 is a structural diagram of a constant temperature maintaining apparatus using air according to an embodiment of the present invention,
2 is a structural diagram of a constant temperature maintaining apparatus using air according to another embodiment of the present invention,
3 is a structural diagram of a container constant temperature maintaining apparatus according to another embodiment of the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing the preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, a constant temperature maintaining apparatus using air according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, the constant temperature maintaining apparatus maintains a constant temperature of the container 2 by using air. Specifically, the internal bath 10, the external bath 20, the thermoelectric module unit 30, and the circulation And a fan 40, a control unit and a weight sensing unit 50.

The term container refers to a canister (bubble) when used in a semiconductor manufacturing process, a display manufacturing process, or an LED manufacturing process, and in the case of a chemical research or a chemical research field in a chemical analysis field, Meaning, according to the present invention means a container containing the object therein, the constant temperature maintaining apparatus of the present invention by maintaining a constant temperature of the container in which the object is contained in the end to maintain a constant temperature of the object inside It means to keep.

The inner bath 10 contains a container 2 in which a liquid chemical liquid is contained. The inner bath 10 may be in the shape of a cube or a cube that is rectangular in cross section. In the case of a rectangular shape, it is preferable that the corners are rounded to achieve the purpose of the air flow path and temperature uniformity. In addition, the material is suitable for stainless steel, PVC, resin series, etc. so as not to rust. In addition, the air inlet hole 12 is uniformly distributed on the upper sidewall of the inner bath 10, so that the air outside the inner bath 10 (the air of the outer bath to be described later) uses the air inlet hole 12. Through the inner bath 10 is to be introduced. The heated or cooled air introduced through the air inlet 12 is heat-exchanged with the air on the surface of the container 2 so as to keep the temperature of the container 2 constant.

The inner bath 10 is open at the top so that the container 2 or the like can be put in and taken out, and a detachable cover is installed to block air discharge. On the other hand, the internal bath 10 is provided with a temperature sensor 15 for sensing the temperature of the air in the bath, the temperature sensor 15 transmits the temperature information of the internal bath to the controller.

The outer bath 20 is installed to surround the inner bath, and a predetermined space is formed to form an air passage between the inner bodies. The structure or material of the outer bath 20 is also similar to the inner bath 10. That is, it may be a cylindrical shape or a hexahedral shape having a rectangular cross section, and in the case of a rectangular shape, it is preferable that the corners are rounded to achieve the purpose of air flow and temperature uniformity. In addition, the material is suitable for stainless steel, PVC, resin series, etc. so as not to rust. In addition, the outer bath 20 is also provided with a removable cover at the top to have a sealed structure.

A circulation fan 40 is installed below the outer bath 20. The circulation fan 40 is installed inside the external bath 20 to correspond to the thermoelectric module unit 30 to be described later, so as to circulate cooling or heating air by the thermoelectric module unit. The air heated or cooled by the circulation fan 40 rises through the air flow path inside the outer bath 20 as a hollow arrow, and flows into the inner bath 10 through the air inlet 12.

The thermoelectric module unit 30 is installed to be in contact with one side of the outer bath 20, preferably the bottom surface, to heat or cool the air in the outer bath, specifically the thermoelectric module 32, heat exchange unit 34, the heat radiation part 36 is included. The thermoelectric module 32 is an electronic component that can perform a function as a cooling system or a heat pump. The thermoelectric module has a plurality of thermoelectric elements are arranged to absorb or radiate heat through both sides by switching the polarity of the power supplied from the power supply not shown by the control of the controller. A thermoelectric module is an electronic component that can directly convert thermal energy into electrical energy or electrical energy into thermal energy. The thermoelectric module reverses the thermoelectric direction according to the control of the polarity of the supplied power, thereby allowing the functional conversion of the cooling or heating furnace to absorb heat. Can be moved from the surface to the heat dissipation surface. In addition, precise temperature control of 0.05 ℃ is possible by controlling the supplied voltage or current, and there is no vibration part because there is no driving part to operate the device, and it is used as the thermoelectric characteristics of the thermoelectric semiconductor. It is characterized by no pollution or pollution. Detailed structure and features of the thermoelectric module are well known in the art to which the present invention pertains, and thus detailed descriptions thereof will be omitted. The heat exchange part 34 is installed so that one side is in contact with one side of the thermoelectric module 32, and the other side is installed to contact or penetrate the bottom of the external bath 20, and the external bath (surface) 20) A plurality of heat dissipation fins are installed to transfer heat with air inside. The heat dissipation part 36 is installed to contact the other side of the thermoelectric module 32. The heat dissipation unit 36 is a water-cooled type to radiate the cooling water flow. On the other hand, referring to Figure 2, according to another embodiment of the present invention, the heat dissipation unit 36 may be an air-cooled, for example, a heat dissipation fan to radiate heat using air.

The control unit controls the thermoelectric module 32 to adjust the temperature of the air inside the inner bath 10. The control unit receives the temperature information from the temperature sensor 15 inside the internal bath 10 to control the output amount of the thermoelectric module 32 to adjust the temperature of the air inside the internal bath 10, so that the container 2 has a constant temperature. To keep.

Referring to the operation of the container constant temperature maintaining apparatus according to the present invention.

The control unit which collects the temperature information inside the internal bath 10 by the temperature sensor 15 controls the output of the thermoelectric element 32 of the thermoelectric module unit 30 to maintain the desired temperature to adjust the endothermic or heat generation amount. . Due to the endothermic or heat generation of the thermoelectric element 32, the heat exchanger 34 exchanges heat with the air of the external bath 20, and thus the inside of the external bath 20 is cooled or heated. The circulation fan 40 circulates the cooled or heated air as a hollow arrow, and the cooled or heated air rises through the flow path between the inner bath 10 and the outer bath 20 and the inner bath 10. It is introduced into the inner bath 10 through the air inlet hole 12 of the), and periodically exchanges heat with the surface air of the container (2) to maintain a constant temperature of the container (2).

On the other hand, the container constant temperature holding apparatus according to an embodiment of the present invention further includes a body (1) surrounding each of the components as shown in the figure. Thus each component is installed integrally inside the body (1) it is easy to transport, storage and management.

In addition, referring to FIG. 3, a weight sensing unit 50 capable of sensing the weight of the container 2 is detachably installed at the bottom of the body 1. Strictly speaking, the weight sensing unit 50 includes a body (1) to measure the weight of the container thermostat, but other components except for the container (2) is the default value, the weight sensing unit 50 is internal It is possible to detect the weight of the container (2) in which the filling is contained. The weight sensing unit is unnecessary for the purpose of maintaining a constant temperature such as a chemical reagent or a material, and in the case of a container used as a bubbler in a semiconductor or display process, the weight sensing unit 50 is required, and thus, the weight sensing unit 50 may be detachably installed in an optional form. Conventional liquid constant temperature device was unable to measure the weight of the container due to the buoyancy of the liquid, but according to the weight sensing unit 50 according to the present invention can detect the consumption of the filling in the container (2) of the conventional LOT FAIL problem It can solve the manufacturing process accident prevention effect.

Although the preferred embodiments of the present invention have been described, the present invention is not limited to the specific embodiments described above. It will be apparent to those skilled in the art that numerous modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. And equivalents should also be considered to be within the scope of the present invention.

1. Body 2. Container
10. Internal Bath 12. Air Inlet
15. Temperature sensor 20. External bath
30. Thermoelectric Module Unit 32. Thermoelectric Module
40. Circulation Fan 50. Weight Sensing Unit

Claims (4)

In the constant temperature maintaining apparatus using air for maintaining a container at a constant temperature using air,
An internal bath in which the container is accommodated, a temperature sensor is installed therein, and an air inlet is formed;
An outer bath installed to surround the inner bath and having an air passage formed between the inner baths;
A thermoelectric module unit installed to contact one side of the outer bath to heat or cool the air in the outer bath;
A circulation fan installed inside the external bath so as to correspond to the thermoelectric module unit and circulating cooling or heating air by the thermoelectric module unit; And
It includes a control unit for controlling the temperature of the internal bath by controlling the thermoelectric module unit using the temperature information received from the temperature sensor,
The air of the external bath cooled or heated by the thermoelectric module unit is circulated by the circulation fan and flows into the inner bath through the air inlet hole to maintain a constant temperature of the vessel,
The constant temperature holding device further includes a case surrounding each of the components,
The thermostat holding device using air, characterized in that the weight sensing unit capable of detecting the weight of the thermostat holding device is detachably installed on the bottom of the case.
The method of claim 1,
The air inlet is formed to be uniformly distributed on the upper side wall of the inner bath,
The thermoelectric module unit and the circulation fan are formed below the outer bath,
Air of the external bath cooled or heated by the thermoelectric module unit is raised by the circulation fan is introduced into the inner bath through the air inlet hole, characterized in that the air temperature maintaining apparatus using air.
The method of claim 1, wherein the thermoelectric module unit,
Thermoelectric module that generates heat or endotherm by switching polarity;
A heat exchanger having one side installed in contact with one side of the thermoelectric module, and a plurality of heat dissipation fins installed on the other side to transfer heat with air in the external bath;
And a heat dissipation unit installed to be in contact with the other side of the thermoelectric module.
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