KR100565124B1 - seperator structure for diffusion-absorption refrigerator - Google Patents

Abstract

The present invention relates to a gas-liquid separation type rectifier structure for a diffusion type absorption refrigerator having a cooling means consisting of a bubble pump, a condenser, an evaporator, an absorber, a solution tank, the structure, one end of which is connected to the solution tank via a heat exchanger The bubble pump of a single tube flowing a mixture of refrigerant and water supplied by the bubble pump, the other end of the bubble pump is built in communication with the gas-liquid separation rectifier directly connected to the condenser, one end is embedded in the gas-liquid separation rectifier Positioned lower than the tip of the bubble pump is built in the gas-liquid separation rectifier and the other end is a return tube connected to the heat exchanger, the body is mounted on the inner side of the gas-liquid separation rectifier and the body of the body so that the bubble pump penetrates An opening formed in the site and dispersed in the body And a baffle plate comprising a formed small diameter passageway. According to the above configuration of the present invention, the mixture of the refrigerant and water generated by the bubble pump of the diffusion type absorption refrigerator easily separates the gas and the liquid to introduce only the pure gas refrigerant into the condenser and the liquid water is installed separately By introducing into the return tube, the gas-liquid separation effect is not only increased, but the nutrient solution pipe, which is a bubble pump of the refrigerator, is composed of a bubble pump, which is a single tube, and the heater is installed at the bottom of the pump, so that the heat generated from the heater is directly heated to the pump. The effect of preventing heat loss is generated.

Absorption Refrigerator, Condenser, Evaporator, Bubble Pump, Gas-Liquid Rectifier, Return Tube

Description

Separator structure for diffusion-absorption refrigerator             

1 is a schematic perspective view of an absorption refrigerator equipped with a gas-liquid separated rectifier structure according to an embodiment of the present invention.

2 and 3 are schematic cross-sectional views of the absorption refrigerator according to FIG. 1.

4 is a schematic configuration diagram of a gas-liquid separated rectifier structure of the absorption refrigerator according to FIG. 1;

* Description of the symbols for the main parts of the drawings *

100: absorption refrigerator, 10: gas-liquid separator (seperator),

12: bubble pump, 14: heater,

16: return tube, 18: heat exchanger,

20: solution tank, 22: absorber,

24: evaporator, 26: condenser,

30: baffle plate, 32: baffle plate body,

36: solution passage

The present invention relates to a diffusion type absorption refrigerator, and in detail, a mixture of refrigerant and water generated by the bubble pump of the ammonia-water diffusion type absorption refrigerator is easily separated from gas and liquid, and only a pure gas refrigerant is introduced into the condenser. It relates to a gas-liquid separated rectifier structure for a diffusion type absorption refrigerator by introducing a liquid water is introduced into the return tube is mounted separately.

In general, the refrigerator is an apparatus configured to maintain the inside of the food below a predetermined temperature in order to keep the food fresh, there is an electric refrigerator, a gas refrigerator, an ice refrigerator, an electronic refrigerator, etc. according to the cooling method, in the present invention The refrigerator is a diffusion absorbing refrigerator that operates the cooling device by the combustion of gas.

The operation of the diffusion absorption type refrigerator is roughly shown that the refrigerant of ammonia and water generated in the bubble pump of the nutrient solution tube by the operation of the heater are separated from the gas-liquid separation rectifier, and the refrigerant of the separated gas condenses and condenses as it passes through the condenser. The refrigerant is introduced into the solution tank through the evaporator and the absorber, and the introduced refrigerant is mixed with the water separated in the gas-liquid separation rectifier and passed through to the bubble pump.

However, in the diffusion type absorption refrigerator according to the related art, bubbles are generated according to the operation of the heater mounted on the nutrient solution tube of the bubble pump. Since the nutrient solution tube is a double tube, the heat of the heater is the center of the nutrient solution tube. Not only does it take a significant amount of time to transfer, but a lot of heat is lost.

In addition, the refrigerant of pure gas separated through the gas-liquid separation type rectifier separating the mixture of the refrigerant and water raised by the operation of the bubble pump should be introduced into the condenser, but the refrigerant containing water is not completely separated from the gas and liquid. There is a problem that the cooling efficiency is lowered to flow into the condenser.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to easily separate the gas and liquid by the mixture of the refrigerant and water generated by the bubble pump of the ammonia-water diffusion absorption refrigerator It is to provide a gas-liquid separation rectifier structure for the diffusion type absorption refrigerator by introducing only the refrigerant, which is pure gas into the condenser, and the liquid water is introduced into the return tube that is separately installed.

Another object of the present invention is to configure the nutrient solution pipe, which is a bubble pump of the diffusion type absorption refrigerator as a bubble pump of a single pipe to install a heater in the lower part of the pump to directly heat the heat generated from the heater to prevent heat loss The present invention provides a gas-liquid separation rectifier structure for a diffusion absorption refrigerator.

This object is achieved by the present invention, and according to one aspect of the present invention, a diffusion type absorption refrigerator having a cooling means consisting of a bubble pump, a condenser, an evaporator, an absorber, and a solution tank has one end connected to the solution tank via a heat exchanger. Connected to the bubble pump of a single tube flowing a mixture of refrigerant and water supplied by the bubble pump, the other end of the bubble pump is built in communication with the gas-liquid separation type rectifier directly connected to the condenser, one end to the gas-liquid separation type rectifier It is located lower than the front end of the built-in bubble pump built-in to the gas-liquid separation rectifier and the other end is connected to the heat exchanger, the body is mounted on the inner side of the gas-liquid separation rectifier and the bubble pump penetrates the side An opening formed at a predetermined portion of the body and distributed to the body Interference comprising a diluent solution of the small-diameter passage is characterized in that it comprises panreul.

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At this time, the baffle plate may be mounted on the inner surface of the gas-liquid separation rectifier spaced apart by a predetermined distance from the front end of the bubble pump.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and like reference numerals designate like parts throughout the drawings.

1 is a schematic perspective view of an absorption refrigerator equipped with a gas-liquid separation rectifier structure according to an embodiment of the present invention, FIGS. 2 and 3 are schematic cross-sectional views of the absorption refrigerator according to FIG. 1, and FIG. A schematic configuration diagram of a gas-liquid separated rectifier structure of an absorption refrigerator according to the present invention.

As shown in the figure, the diffusion type absorption refrigerator shown at 100 is a solution storage tank 20 for storing ammonia and water which are refrigerants, and a bubble for generating steam by heating a solution supplied from the tank 20. The pump 12, the gas liquid gas-liquid separation rectifier 10 which introduces only gaseous ammonia from the bubble pump 12 into the condenser 26, and an evaporator in which the ammonia passed through the condenser 26 flows in and evaporates it ( 24) and an absorber 22 for absorbing refrigerant vapor evaporated through the evaporator 24 and sending the refrigerant vapor to the solution storage tank 20.

The heat exchanger 18 is mounted at a predetermined portion connected to the bubble pump in the solution tank 20, and one end thereof is connected to the solution tank 20 via the heat exchanger 18 and the bubble pump is connected to the bubble pump. A bubble pump 12, which is a single tube through which a mixture of refrigerant and water supplied by 12 flows, is provided.

The gas-liquid separation type rectifier 10 has a front end portion of the bubble pump 12 embedded therein and is directly connected to the condenser 26.

One end is embedded in the gas-liquid separation rectifier 10, but is embedded in the gas-liquid separation rectifier 10 so that the lower end is positioned lower than the tip of the bubble pump 12, and the other end is a return tube connected to the heat exchanger 18 ( 16) is provided.

And, as shown in Figure 2, the gas-liquid separation rectifier 10 is equipped with a disc-shaped obstruction plate 30, the obstruction plate 30 has a side portion is mounted on the inner side of the gas-liquid separation rectifier 10 The body 32 is formed, an opening 34 formed in a predetermined portion of the body 32 so that the bubble pump 12 penetrates, and the dilute solution passage 36 having a small diameter formed by being dispersed in the body 32. It is configured to include.

Therefore, the liquid water during the movement of the refrigerator is introduced into the condenser 26 by the impact, so that only the refrigerant, which is pure gas, is introduced into the condenser 26.

In addition, as shown in FIG. 3, those skilled in the art will readily appreciate that the baffle plate 30 may be mounted on the inner side of the gas-liquid separator rectifier 10 by a predetermined distance from the tip of the bubble pump 12. You will know.

Referring to the operation according to the configuration of the present invention as shown in the bubble pump 12 by the heat generated from the heater 14 mounted on the lower portion of the bubble pump 12 is directly transmitted to the bubble pump 12 In operation, the mixture of refrigerant and water is transferred to the gas-liquid separation rectifier 10.

At this time, in the gas-liquid separation type rectifier 10, the gaseous refrigerant that is elevated and flowed in is directly introduced into the condenser 26, and the water in the liquid state is transferred to the heat exchanger through the return tube 16 by the load. Inflow of the gas and the liquid is easily and completely made, and the following operation is described above and thus will be omitted.

According to the configuration and method as described above of the present invention, a mixture of refrigerant and water generated by the bubble pump of the diffusion absorption refrigerator is easily separated from gas and liquid, and only the refrigerant, which is pure gas, is introduced into the condenser and the liquid water is The gas-liquid separation effect is increased by flowing into the return tube which is mounted separately. In addition, since the nutrient solution pipe that is the bubble pump of the diffusion absorption refrigerator is composed of a bubble pump that is a single pipe, and the heater is mounted on the lower part of the pump, the heat generated from the heater is directly heated to the pump, thereby preventing heat loss.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

Claims (3)

delete In the diffusion type absorption refrigerator having a cooling means consisting of a bubble pump, a condenser, an evaporator, an absorber, a solution tank, A single tube bubble pump having one end connected to the solution tank via a heat exchanger and flowing a mixture of refrigerant and water supplied by the bubble pump; A gas-liquid separation type rectifier which is built in communication with the other end of the bubble pump and directly connected to the condenser; A return tube having one end lower than the front end of the bubble pump built into the gas-liquid separation rectifier, the return tube being built into the gas-liquid separation rectifier and the other end connected to the heat exchanger; The side portion includes a baffle plate including a body mounted on the inner surface of the gas-liquid separation rectifier, an opening formed in a predetermined portion of the body so that the bubble pump penetrates, and a small diameter rare solution passage formed in the body. A gas-liquid separation type rectifier structure for a diffusion absorption type refrigerator. The gas-liquid separated rectifier structure according to claim 2, wherein the baffle plate is mounted on the inner side of the gas-liquid separated rectifier and spaced apart from the tip of the bubble pump by a predetermined distance.

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