KR200154868Y1 - Self parting device of absorption type cooler - Google Patents

Abstract

The present invention relates to an automatic refrigerating device for absorption liquid gas freezer, and more particularly, in the fluid flow of the downfall of the liquid solution from the low pressure regenerator of the freezer to the low temperature heat exchanger, the gas is separated from the liquid and the gas is returned to the low pressure regenerator. It is a simple automatic separation device, which allows the sending of only pure liquid solution to the low temperature heat exchanger.

In the conventional fluid flow of the concentrate downcomer 14 from the low pressure regenerator 16 of the conventional absorption chiller to the low temperature heat exchanger 12,

It is an absorption chiller gas liquid automatic separation device consisting of mounting the gas-liquid separator 10, which is an automatic separation device, in the middle of the agricultural liquid down pipe (14).

Description

Absorption Chiller Gas Liquid Automatic Separator

The present invention relates to an automatic refrigerating device for absorption liquid gas freezer, and more particularly, in the fluid flow of the downfall of the liquid solution from the low pressure regenerator of the freezer to the low temperature heat exchanger, the gas is separated from the liquid and the gas is returned to the low pressure regenerator. It is a simple automatic separation device, which has a structure that allows it to be sent to the low temperature heat exchanger.

Generally, the principle of absorption type air conditioner is to use heat as the main energy, and the physical properties of the absorbing solution have a water vapor pressure of 5 mmHg at 40 ° C for a 62 wt% aqueous lithium bromide solution.

The structure of the absorption type air conditioner as described above can separate the low temperature body and the high temperature body and the low temperature body is composed of an evaporator, an absorber, a low temperature regenerator, a solution heat exchanger, a solution and a refrigerant pump, and a bleeding device. Can be divided into single type and twin type.

The body of the high temperature section is composed of a high temperature regenerator and a combustion device for burning gas, and in addition to these main appliances, a capacity control device, a supplementary device, a control panel and necessary instruments are attached.

In the evaporator, cold water flows into the heat transfer plate, and refrigerant is dispersed outside the tube to form cold water due to evaporation of the refrigerant.

In general air conditioning, the cold water outlet temperature is usually 7 ° C. In this case, the pressure in the evaporator is about 6-7 mmHg abs and the refrigerant evaporation temperature is 4-5.

In the absorber, the cooling water flows through the tube and cools the solution scattered on the outer surface of the tube, thereby lowering the partial pressure of the vapor of the solution and hopping the refrigerant vapor from the evaporator.

The higher the concentration of the solution and the lower the temperature, the greater the absorption capacity, but concern about the crystal of the solution.

In addition, the high temperature regenerator is provided with a combustion chamber having a furnace tube structure, and regenerates the concentrated liquid by burning and heating the ash containing the solution heat exchanger with a burner.

Absorption solution in the high temperature regenerator is the liquid temperature rises up to 150 ~ 160 ℃ (pressure 550 ~ 710mmHg) to generate the refrigerant vapor, the concentration increases to 61.5% of the intermediate solution concentration.

In addition, in the low temperature regenerator, the intermediate temperature solution first concentrated in the high temperature regenerator is concentrated and regenerated by regenerating the refrigerant vapor generated in the high temperature regenerator as a heat source to generate the refrigerant vapor, and then to produce a concentrated solution.

In the tube, the refrigerant vapor from the high temperature regenerator flows, and the intermediate concentration liquid flowing from the high temperature regenerator through the inter-thermal heat exchanger is deposited outside the tube.

The refrigerant condensed in the tube enters the condenser by the pressure difference.

In the condenser, the refrigerant vapor generated in the low temperature regenerator is cooled by condensation by cold water flowing through the tube, condensed, and becomes a refrigerant liquid. The refrigerant liquid condensed in the low temperature regenerator tube and enters the condenser in the condenser.

In addition, there are two functions of the solution heat exchanger, the low temperature heat exchanger and the high temperature heat exchanger. In an absorption solution cycle circuit in which an absorber circulates a high temperature regenerator and a low temperature regenerator, the thermal efficiency is improved and fuel consumption is reduced.

The ash solution from the absorber to the hot regenerator is low in liquid temperature, but is sent to the hot regenerator with the concentrated solution and the intermediate concentration solution from the low and high temperature regenerator heated through the heat exchanger during the solution heat exchanger. will be.

In the solution heat exchanger of the ash solution, the amount of solution thinning (fuel consumption) in the high temperature regenerator is reduced as much as the temperature rise is large.

The conventional structure of the absorption chiller described above is equipped with a connection pipe connecting the agricultural liquid down pipe from the low temperature regenerator to the fuselage side of the low temperature heat exchanger. The structure and performance of the absorption chiller is caused by shrinkage of the connection pipe during operation of the freezer. Not only does it provide a cause of fatal damage, but also a lot of noise occurs.

The present invention was devised to solve the above problems, and by attaching a gas-liquid separator that can eliminate the water stratification phenomenon of the connecting pipe and reduce the noise of the freezer to reduce the water shock by attaching to the down pipe of the agricultural liquid, of course the freezer We want to improve the level of.

1 is an overall configuration diagram showing the installation state of the gas-liquid separator of the present invention.

Figure 2 is a front view of the present invention gas-liquid separator.

3 is a plan view of the gas-liquid separator of the present invention.

* Explanation of symbols for main parts of the drawings

10: gas-liquid separator 12: low temperature heat exchanger

14: agricultural liquid down pipe 16: low pressure regenerator

Referring to the configuration and operation of the present invention in detail based on the accompanying drawings as follows.

Figure 1 shows the overall configuration showing the installation state of the gas-liquid separator of the present invention, Figure 2 shows a front view of the gas-liquid separator of the present invention, Figure 3 shows a plan view of the gas-liquid separator of the present invention.

In the conventional fluid flow of the concentrate down pipe 14, which is connected from the low pressure regenerator 16 of the conventional hop-type refrigerator to the low temperature heat exchanger 12,

It is comprised by attaching the gas-liquid separator 10 which is an automatic separation apparatus in the middle part of the concentrate drop pipe | tube 14.

The operation of the present invention configured as described above is as follows.

In the fluid flow from the low pressure regenerator 16 of the freezer to the low temperature heat exchanger 12, the gas and liquid are separated and the gas is sent back to the low pressure regenerator, and only the pure liquid solution is transferred to the low temperature heat exchanger. The gas-liquid separator 10, which allows access to 12), is mounted in the concentrate down pipe 14.

As described above, the liquid is separated from the gas and the liquid is sent to the low temperature heat exchanger l2, and the gas is sent to the low pressure regenerator to prevent the water shock phenomenon of the connection pipe during the operation of the freezer.

In addition, the structure as described above will be able to reduce the noise of the agricultural liquid down pipe 14 will be able to extend the horizontal of the freezer.

In addition, the gas-liquid separator 10 is able to automatically separate the liquid and gas so that the person does not have to separate the gas and liquid separately to provide convenience.

Therefore, the present invention is a very useful design that can separate the liquid and gas with an automatic separation device to provide convenience to the operator, thereby extending the life of the refrigerator and removing noise.

Claims (1)

In the conventional fluid flow of the concentrate downcomer 14 from the low pressure regenerator 16 of the conventional absorption chiller to the low temperature heat exchanger 12, Absorption chiller gas liquid automatic separation device, characterized in that the middle portion of the agricultural liquid down pipe (14) comprises a gas-liquid separator (10) which is an automatic separation device.