KR100854127B1 - Heat-load testing apparatus of refrigerator - Google Patents

Abstract

An apparatus for testing heat load of a chiller-heater is provided to obtain the optimum efficiency according to the performance based on the type of refrigerant and the amount of supplied refrigerant. An apparatus for testing heat load of a chiller-heater comprises a condenser(3) connected with a chiller-heater(4). A first heater(2) is connected with the condenser. A pyrostat(1) is connected with the first heater and includes a second heater(11) and a condensing unit(35). A circulation pump(12) is provided in the pyrostat to supply water in the pyrostat to the chiller-heater. The first heater includes a boiler(16) and a boiler controller, wherein the controller includes a cooling and heating selection valve and cooling and heating setting units which set the cooling and heating temperature. The condenser, the first heater and the pyrostat are installed on a bottom panel having wheels.

Description

[0001] Heat-load testing apparatus of refrigerator [0002]

The present invention relates to a load handling apparatus for an absorption type cooling / heating apparatus or a cold / hot water supply apparatus, and more particularly, to a thermal load experiment apparatus that can be used for absorption type cold /

2. Description of the Related Art [0002] In general, an air conditioner and a heating device can be used in various buildings, homes, and the like, and include an air conditioner installed in a room and an outdoor unit installed outdoors.

The present invention has developed a device capable of testing the performance of a cooling / heating apparatus and the like

For example, it is possible to test how the efficiency of cooling and heating varies according to the degree of selection of the refrigerant or the amount of refrigerant used, thereby developing a cooling / heating unit having high efficiency, and also a cooling / The present invention has an object of providing a load testing apparatus

For example, if water at a temperature of 14 degrees Celsius is recovered at a temperature of 7 degrees Celsius when it is introduced into a cooling / heating apparatus in an experimental apparatus (load device) and recovered, the temperature is taken away from the cooling / Cooling is performed on the side corresponding to the indoor space.

Conversely, for example, when water of 50 degrees Celsius is introduced from a load device into a cooling / heating device and then recovered to a load device, if the water is recovered at a temperature of 57 degrees Celsius, it is heated and recovered in a cooling / heating device.

A material called "lithium bromide" is used as one of the materials used to lower the temperature of a circulating medium (eg, water) used in an air conditioner. This material can change from liquid to vapor at 4 degrees Celsius under vacuum. Therefore, it easily changes from a liquefied material under a vacuum in a predetermined closed space to water vapor, thereby depriving the temperature of water, which is circulating water flowing through the closed space, to lower the temperature of water in the piping. This lithium bromide solution repeats the phase change of the water vapor and the liquid phase to perform heat radiation or endothermic action of the cooling and heating apparatus

The object of the present invention is to develop a load device capable of testing the performance of cooling and heating in the room, the cooling and heating efficiency, and the like

The load experiment apparatus developed in the present invention can be used for experimental purposes, that is, for educational purposes of cooling and heating performance experiments and laboratory exercises, and can be used as an experimental equipment for improving the cooling and heating performance by using the same.

In order to accomplish the object of the present invention, the main configuration of the present invention comprises a condenser (3) connected to the cooling / heating unit (4) and a heating / cooling unit A heater 2 connected to the condenser 3 and a thermostat 1 connected to the heater 2 and including a heater 11 and a condensing unit 35, And a circulation pump 12 built in the heating unit 1 for sending water in the thermostat 1 to the cooling and heating unit 4. The heater 2 includes a boiler 16 and a controller The controller 41 includes a cooling and heating selector valve 17 and cooling and heating setting units 19 and 20 for adjusting the cooling and heating temperatures. The heater 2 and the thermostat 1 are installed on a bottom panel 45 equipped with a wheel 46. The condenser 3 and the heating / (4) are connected and disconnected by a connection pipe (47). When the apparatus is in the cooling mode, when the temperature is lowered to the set temperature in the thermostat The condensing unit 35 in the thermostat 1 is stopped and the temperature is excessively lowered through the built-in heater 11 and the boiler 16 when the cooling set temperature is reached And conversely, when the temperature rises above the set temperature, the heater 11 and the boiler 16 are stopped and the condensing unit 35 is configured to operate; Conversely, in the heating mode, when the heat radiation and the heat absorption through the outdoor unit 14 and the condensing unit 35 of the thermostat 1 are unduly lowered below the set temperature, the function of the condensing unit 35 in the thermostat 1 is stopped And the heater 11 is operated to raise the temperature in the thermostat 1. When the predetermined heating set temperature is reached, the heater 11 is stopped and the condensing unit 35 and the outdoor unit The condensing unit 35 is stopped and the heat 11 is operated so that the temperature of the condensing unit 35 is controlled to be lower than a predetermined temperature in the thermostat 1, And a constant temperature is maintained. [0002]

According to the present invention described above, for example, when a cooling operation is desired, the temperature of the circulating water of the circulating medium (for example, water) in the piping passing through the cooling / heating unit 4 is absorbed by the action of the lithium bromide, . At this time, the outflow temperature (the outflow temperature display unit 104 in Fig. 3) of the circulating water entering the cooling / heating unit 4 through the incoming temperature (the incoming temperature display unit 103 in Fig. 3) and the cooling / By measuring the flow rate, the total heat exchange amount in the cooling / heating unit 4 can be calculated. (Flow meters can be measured by installing a flow meter in a circulating water pipe, but these techniques are common and are not described in detail)
At this time, it is possible to compare the difference in the degree of heat exchange depending on what type of refrigerant is used under the same conditions, the concentration of the refrigerant, and to what degree the refrigerant is injected. In the same experiment as above, it is possible to find out the performance depending on the type of refrigerant and the optimum efficiency according to the amount of refrigerant, and the data for the education, investigation, performance improvement and development of the difference in performance depending on the concentration of the refrigerant Can be utilized. Also, the performance of the heating and cooling, the cooling and heating efficiency, and the like can be experimented

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Also, according to the present invention, there is an advantage of being movable and simple equipment, and it is particularly suitable to be used as an educational device of an experimental exercise.

The overall system of the present invention includes a fan coil unit (outdoor unit), a heater, for example, a gas instantaneous water heater, a thermostat (thermostat), a heater and a cooling /

When the total heat load of the cooling and heating system is considered as 100% when the absorption type cooling and heating system is switched to cooling and heating, 80% of the heat is absorbed / dissipated through the heat exchange between the air and the heat absorption (fan coil unit: outdoor unit) % Is subjected to heat treatment with a heater and a condensing unit of a thermostat and a condenser. In the absorption type cooling and heating apparatus, heat exchange is generally performed at a constant temperature. In the case of the present invention, for example, the temperature difference of the inlet and outlet water is designed to be 7 degrees Celsius. The amount of heat treatment (control temperature) can be controlled through the control panel, and the total heat exchange amount can be calculated by measuring the temperature and flow rate of the input / output water. In the present invention, the performance of the refrigerant can be tested by adjusting the concentration of lithium bromide (LiBr), which is a refrigerant liquid used.

Hereinafter, an apparatus according to the present invention will be described in detail with reference to the accompanying drawings, in addition to the above-mentioned problem solving means,

1 is a configuration diagram of an apparatus for an apparatus according to the present invention, and FIG. 2 is an explanatory diagram of an operation principle

An outline of the present invention will now be described with reference to FIG. 2

Figure 2 is a systematic illustration of a device according to the invention

As shown in the drawings, the load device according to the present invention includes a thermostat 1, a heater 2 connected to the thermostat 1, a condenser 3 connected to the heater 2, (4) are connected. The cooling / heating unit 4 is connected to a separate outdoor unit 14

When the indoor temperature is to be increased, that is, when heating is to be performed, the temperature of the condenser 3 is increased through heat exchange, and when the temperature of heat rise by the condenser 3 is insufficient, , The temperature is raised by heating in the boiler. Then, it enters the thermostat (1).

A heater 11 is built in the thermostat 1 to adjust the final temperature to a desired temperature. An internal circulation pump 12 is built in the thermostat 1 to raise the temperature to a certain final target temperature by heating by the heater 11 and circulating operation by the circulation pump 12. This heated circulating refrigerant (for example, water or the like) is then sent to the cooling / heating unit 4. In the cooling / heating unit 4, a pump is incorporated to suck the temperature-controlled refrigerant of the thermostat 1, that is, water, through the action of the pump. Then, in the air conditioner (4), the heat is taken again and circulated to the condenser (3). The air conditioner 4 installed in the indoor space is connected to the outdoor unit 14 to perform the heat exchange operation in the air conditioner 4.

On the other hand, when the temperature sensor is built in the cooling / heating unit 4 and the temperature falls to a predetermined temperature, the circulating water is supplied to the condenser 3 and the circulating water heated by the thermostat 1 is sucked. When the above-mentioned cooling / heating unit 4 is used for air conditioning in summer, that is, it is installed in order to lower the room temperature,

Figure 3 shows the heater 2

The heater (2) is provided with a controller (41) at the front and a boiler (16) for heating at the rear. On the front surface of the controller 41, devices for various controls are configured. As shown in the figure, the cooling / heating selector valve 17 is configured to rotate to the left in the case of cooling and to the right in the case of heating. And a lamp 18 for indicating whether it is cooling or heating is constituted at the upper part thereof. The right side is the heating and the left side is the cooling.

The cooling setting unit 19 (corresponding to the cooling temperature control in the case of the thermostat in this case) and the heating setting unit 20 (corresponding to the heating temperature control in the case of the thermostat in this case) constitute the desired cooling or heating temperature So that it is possible to adjust and display the cooling and heating temperature. Below this, the set temperature display device 101 of the gas hot water boiler 16 is formed, and on the right side thereof, the room temperature display device 102 is formed. An inlet temperature display unit 103 is formed in the upper part of the refrigerator unit 4 as a load unit and an outflow temperature display unit 104 is formed on the right side thereof to exit from the cooling and heating unit 4.

On the other hand, in the cooling mode, the operation of the thermostat 1 is examined

In the cooling mode, the temperature of the thermostat 1 is lowered to a set temperature at room temperature. If the temperature is excessively lowered, the boiler 16, which is a gas water heater, operates to maintain a constant temperature. When the cooling set temperature is reached, the condensing unit 35 in the thermostat 1 is stopped and prevented from being excessively lowered in temperature through the built-in heater 11 and the boiler 16. [ Conversely, when the temperature rises above the set temperature, the heater 11 and the boiler 16 are stopped and the condensing unit 35 is operated. In this way always a constant temperature

Conversely, the operation of the thermostat 1 in the heating mode will be described

The temperature is lowered when heat radiation and heat absorption through the outdoor unit 14 and the condensing unit 35 of the thermostat 1 are large. Then, in order to raise the temperature to a predetermined desired temperature, the function of the condensing unit 35 in the thermostat 1 is stopped and the heater 11 is operated to raise the temperature in the thermostat 1. When the predetermined heating set temperature is reached, the heater 11 is stopped and adjusted to maintain a constant temperature through heat exchange between the condensing unit 35 and the outdoor unit 14 connected to the condensing unit 35 and operating. Conversely, when the temperature is lower than the set temperature, the condensing unit 35 is stopped and the heat 11 is activated. In this way, a predetermined desired constant temperature is maintained in the thermostat 1.

Figure 4 shows the configuration inside the thermostat 1 for reference

As shown in the drawing, the heater 11 and the condensing unit 35 are alternately built in the inside with partition walls partitioned from each other

In the apparatus according to the present invention, for example, when the heating is set, the inflow temperature of the water entering the thermostat 1 is set to 50 degrees Celsius and the outflow temperature is set to be 57 degrees Celsius. On the other hand, The water temperature was 7 degrees Celsius and the temperature was 14 degrees Celsius. Then, in the air conditioner (4), the incoming and outgoing temperatures will be opposite.

Fig. 1 shows an overall configuration of an apparatus according to the present invention

2 is a schematic diagram for explaining the system of the present invention

3 is a view for explaining a configuration for a heater

4 is a view for explaining the configuration of the thermostat 1;

Claims (5)

In constructing the thermal load experiment apparatus of the cooling / heating unit 4 having the outdoor unit 14, A condenser 3 connected to the cooling / heating unit 4, A heater 2 connected to the condenser 3, A thermostat 1 connected to the heater 2 and including a heater 11 and a condensing unit 35, And a circulation pump (12) built in the thermostat (1) for sending the water in the thermostat (1) to the cooling / heating device (4) The method according to claim 1, The heater 2 includes a boiler 16 and a controller 41 for controlling the boiler 16. The controller 41 is provided with a cooling and heating selection valve 17 and a cooling and heating setting unit 19 , 20) for heating and cooling the heating and cooling apparatus The method according to claim 1, Characterized in that the condenser (3), the heater (2) and the thermostat (1) are installed on a bottom panel (45) equipped with a wheel (46) The method according to claim 1, The condenser (3) and the cooling / heating unit (4) are connected and disassembled by a connection pipe (47) The method according to claim 1, When the apparatus is in the cooling mode, the boiler 16 is operated to maintain a constant temperature when the temperature is lowered to the set temperature in the thermostat 1, The unit 35 is stopped and operates to prevent excessive temperature drop through the built-in heater 11 and the boiler 16. Conversely, when the temperature rises above the set temperature, the heater 11 and the boiler 16 are stopped And the condensing unit (35) is configured to operate; Conversely, in the heating mode, when the heat radiation and the heat absorption through the outdoor unit 14 and the condensing unit 35 of the thermostat 1 are unduly lowered below the set temperature, the function of the condensing unit 35 in the thermostat 1 is stopped And the heater 11 is operated to raise the temperature in the thermostat 1. When the predetermined heating set temperature is reached, the heater 11 is stopped and the condensing unit 35 and the outdoor unit The condensing unit 35 is stopped and the heat 11 is operated so that the temperature of the condensing unit 35 is controlled to be lower than a predetermined temperature in the thermostat 1, And the temperature is maintained at a constant temperature.

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