KR102292677B1 - Control method for a constant temperature and humidity chamber - Google Patents

Abstract

The present invention relates to a constant-temperature and constant-humidity chamber capable of improving the humidity control reliability, and improves the humidity control reliability by reducing the temperature change of the water supply line by using the waste heat from the vapor compression refrigerator used as a cooling source among the temperature control means. can do.
The constant temperature and humidity chamber of the present invention includes: a chamber part 111 in which the specimen 1 is located; a duct chamber 112 having a heater 121 and an evaporator 131 and communicating with the chamber part 111; a refrigerator 130 including a compressor 132 , a condenser 133 , and an expansion valve 134 together with the evaporator 131 to provide the evaporator as a cooling source by circulation of a refrigerant; a humidification tank 140 provided with a heating heater 141 to store water, and connected to the duct room 112 to supply steam into the duct room 112; The humidification tank ( 140) and includes a preheating tank 150 for delivery.

Description

Control method for a constant temperature and humidity chamber

The present invention relates to a constant temperature and humidity chamber capable of improving the reliability of humidity control and a method for controlling the same.

The constant temperature and humidity chamber is to maintain constant temperature and humidity in a certain space. It consists of a refrigerator, a heater and a humidifier, and is required for durability and thermal performance evaluation of various electrical and electronic devices such as batteries and PCBs and new materials It is used for the purpose of realizing precise temperature and humidity conditions.

1 is a block diagram of a constant temperature and humidity chamber according to the prior art.

Referring to FIG. 1 , the conventional constant temperature and humidity chamber includes a chamber unit 10 , a duct room 20 , a heater 30 , a refrigerator 40 including an evaporator 41 , and a humidification tank 50 . do.

In the chamber part 10, the specimen 1 is located, and in the duct chamber 20 adjacent to the chamber part 10, a heater 30 as a heating source and an evaporator as a cooling source are (41) is arranged.

The refrigerator 40 includes a compressor 42 , a condenser 43 , and an expansion valve 44 together with the evaporator 41 , and the evaporator 41 functions as a cooling source by circulation of the refrigerant.

The humidification tank 50 is provided with a heating heater 51 for heating the stored water, and is connected to an external water supply source by a water supply line 52 to supply water. The humidification tank 50 is connected to the duct room 20 by the duct 53 so that the steam generated in the humidification tank 50 is transferred to the duct room 20 along the duct 53 and the chamber part 10 humidity control is performed. A fan 54 or a damper may be added to the duct 53 to adjust the air volume.

In the constant temperature and humidity chamber of the prior art, the temperature of the chamber part 10 is maintained at a set temperature by the heater 30 and the evaporator 41 , and the vapor generated in the humidification tank 50 follows the duct 53 . It is supplied to the chamber unit 10 to control the set humidity.

Meanwhile, in the constant temperature and humidity chamber of the prior art, a water supply line is directly connected to the humidification tank 50 for humidity control to supply water, and thus, the water temperature of the humidification tank 50 is directly affected by the water temperature of the water supply source. For example, the temperature of the water supply source is not constant depending on the seasonal factors or the conditions of the water source, and therefore the water temperature in the humidification tank cannot be maintained constant due to the change in the water temperature of the water source, which makes it difficult to precisely control the amount of humidification. .

(Prior Document) Unexamined Patent Publication No. 2000-0018683 (published on Apr. 06, 2000)

The present invention is to improve the problems of the prior art, and to provide a constant temperature and humidity chamber and a control method therefor that can improve the humidity control reliability by recovering waste heat generated in a vapor compression refrigerator used as a cooling source in the prior art will do

To achieve this object, there is provided a constant temperature and humidity chamber according to the present invention, comprising: a chamber in which a specimen is placed; a duct room provided with a heater and an evaporator and communicating with the chamber unit; a refrigerator including a compressor, a condenser, and an expansion valve together with the evaporator to provide the evaporator as a cooling source by circulation of a refrigerant; a humidification tank provided with a heating heater for heating the stored water to supply steam into the duct room; It includes a preheating tank that heats the water supplied from the water supply line and transfers it to the humidification tank, provided with a heat exchange unit for heat exchange by refrigerant that is split at the discharge end of the compressor and merged with the evaporator. .

Preferably, it further includes a flow control valve for controlling the flow rate of the refrigerant flowing along the heat exchange unit, more preferably, further comprises a water temperature detection unit for detecting the water temperature of the humidification tank.

More preferably, the control unit further includes a control unit for controlling the opening amount of the flow control valve according to the detected temperature of the water temperature detection unit.

Next, in the control method of the constant temperature and humidity chamber according to the present invention, the control unit controls the opening degree of the flow control valve so that the change in the water temperature of the humidification tank is maintained within a set temperature range according to the detected temperature of the water temperature detection unit. characterized in that

Preferably, the control unit increases the opening amount of the flow control valve when the change in water temperature exceeds a set temperature range.

The constant temperature and humidity chamber according to the present invention includes a chamber unit in which a sample is placed, a heater and a vapor compression type refrigerator provided for temperature control of the chamber unit, and a humidification tank configured to supply steam generated by heating stored water to the chamber unit. Including a preheating tank for first heating and transferring the water supplied to the humidification tank by recovering the condensed heat generated from the refrigerator, the water temperature of the humidification tank supplied by the water supply line is maintained at a constant level to improve the reliability of humidity control There is an effect that can be done.

1 is a configuration diagram of a constant temperature and humidity chamber according to the prior art;
2 is a block diagram of a constant temperature and humidity chamber according to an embodiment of the present invention;
3 is a flowchart showing a water temperature control method of a humidification tank of a constant temperature and humidity chamber according to an embodiment of the present invention.

Specific structural or functional descriptions presented in the embodiments of the present invention are only exemplified for the purpose of describing embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms. In addition, it should not be construed as being limited to the embodiments described herein, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a constant temperature and humidity chamber according to an embodiment of the present invention.

Referring to FIG. 2, the constant temperature and humidity chamber of this embodiment includes a chamber part 111, a duct room 112, a heater 121, a vapor compression type refrigerator 130, a humidification tank 140, and a preheating tank ( 150).

In the chamber unit 111 , the specimen 1 is located, or in the duct chamber 112 adjacent to the chamber unit 111 , a heater 121 as a heating source and an evaporator 131 as a cooling source are provided. The heater 121 may be provided by a well-known electric heater, but is not limited thereto, and various well-known means that can be used as a heating source may be used.

In the present embodiment, the chamber part 111 and the duct room 112 are shown to be composed of one chamber 110 partitioned by a partition wall 110a partially opened. have. The chamber unit 111 may be provided with an openable and openable door.

The refrigerator 130 includes a compressor 132 , a condenser 133 , and an expansion valve 134 together with the evaporator 131 , and the evaporator 131 acts as a cooling source by circulation of the refrigerant.

The evaporator 131 cools the liquid refrigerant while evaporating under low temperature and low pressure by absorbing heat from the surroundings, and the compressor 132 sucks the evaporated refrigerant vapor and compresses it to discharge high temperature and high pressure gas. Next, the high-temperature and high-pressure refrigerant vapor is cooled in the condenser 133 and liquefied, and the liquefied refrigerant passes through the expansion valve 134 while the pressure and temperature drop, enters the evaporator 131 and evaporates, thereby circulating the refrigerant. .

The humidification tank 140 is provided with a heating heater 141 such as an electric heater for heating the stored water, and is a steam type humidification device for heating water to generate water vapor. The humidification tank 140 is connected to the duct room 112 by the duct 143, and the steam generated in the humidification tank 140 is transferred to the duct room 143 along the duct 143, and Humidity control is done. A fan 144 for inducing the flow of air is provided in the duct room 112 , and air circulation between the chamber part 111 and the duct room 112 is made by driving the fan 144 . Meanwhile, a separate damper for controlling the air volume may be added to the duct 143 .

The preheating tank 150 is provided with a heat exchange unit 151 therein, and the water supplied by the water supply line 152 is stored primarily and is heated by the heat exchange unit 151 and then transferred to the humidification tank 140 . do.

The heat exchange unit 151 is connected to a refrigerant line branched from the compressor 132 and a refrigerant line joined to the evaporator 131 , and heat exchanges with water by high-temperature and high-pressure refrigerant gas discharged from the compressor 132 to heat water. do.

Preferably, the preheating tank 150 further includes a temperature sensor 153 for detecting the water temperature, and the detected temperature of the temperature sensor 153 is transmitted to the controller 210 .

Preferably, it further comprises a flow control valve 160 for controlling the flow rate of the refrigerant flowing along the heat exchange unit 151, this flow control valve 160 is an electronic type that can control the opening degree by an external control signal. It may be provided by a valve, and more preferably, by an expansion device capable of sufficiently reducing the pressure of the refrigerant to a low pressure before introduction into the evaporator 131 .

The control unit 210 receives the detection signal of the temperature sensor 153 and controls the opening degree of the flow control valve 160 according to the water temperature of the preheating tank 150, for example, the control unit 210 controls the preheating tank ( When the water temperature of 150) is low, the refrigerant flow rate is increased, and when the temperature is high, the opening degree of the flow control valve 160 is adjusted to reduce the refrigerant flow rate, thereby maintaining the water temperature of the humidification tank 140 constant.

Meanwhile, in this embodiment, the temperature sensor 153 is exemplified as being provided in the preheating tank 150 , but a temperature sensor is provided in the humidification tank 140 to detect the water temperature of the humidification tank to control the flow rate control valve 160 . may be made

Reference numerals S1 and S2 are a temperature sensor and a humidity sensor, respectively, and control the driving of the heating heater 141 together with the heater 121 and the refrigerator 130 to detect the temperature and humidity inside the chamber to maintain the set temperature and humidity. do.

3 is a flowchart illustrating a method for controlling a water temperature of a humidification tank of a constant temperature and humidity chamber according to an embodiment of the present invention.

As illustrated in FIG. 3 , the control unit 210 receives the detected water temperature T1 of the humidification tank 140 (S10), compares the detected water temperature T1 with the set water temperature T0, and the difference is within the set temperature range It is determined (S21) whether it is within (δ), and it is determined (S22) whether the temperature difference T0-T1 is negative or positive. Next, when the detected water temperature T1 is out of the set temperature range δ, the flow rate of the flow control valve 160 to increase or decrease the flow rate of the refrigerant flowing through the heat exchange unit 151 depending on whether the temperature difference is negative or positive. The opening degree is controlled (S31) (S32).

Therefore, even if the water temperature change in the water supply line 152 occurs rapidly, the water stored in the humidification tank 140 always maintains a constant water temperature, thereby increasing the humidity control reliability.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

111: chamber part 112: duct room
121: heater 130: freezer
131: evaporator 132: compressor
133: condenser 134: expansion valve
140: humidification tank 141: heating heater
150: preheating tank 153: temperature sensor
160: flow control valve 210: control unit

Claims (6)

A chamber part in which the specimen is placed, a heater and an evaporator are provided, and a duct chamber communicating with the chamber part, and a compressor, a condenser, and an expansion valve together with the evaporator to provide the evaporator as a cooling source by circulation of refrigerant A refrigerator and a heating heater are provided to store water, and a humidification tank connected to the duct room to supply steam into the duct room, and a refrigerant that is classified at the discharge end of the compressor and joined to the evaporator. A preheating tank having a heat exchange unit configured as described above to heat water supplied from the water supply line and transferring it to the humidification tank, a flow control valve for controlling a flow rate of a refrigerant flowing along the heat exchanging unit, and detecting the water temperature of the preheating tank A control method of a constant temperature and humidity chamber comprising: a constant temperature and humidity chamber further comprising a temperature sensor for
The control unit controls the amount of opening of the flow control valve so that the change in the water temperature of the preheating tank is maintained within a set temperature range according to the detected temperature of the temperature sensor, but when the water temperature change exceeds the set temperature range, the flow rate control A control method of a constant temperature and humidity chamber, characterized in that increasing the opening degree of the valve.
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