KR0146842B1 - Absorption type airconditioner - Google Patents

Abstract

The present invention relates to an absorption type air conditioner for outputting cooling and heating using a lithium bromide aqueous solution, and particularly, a generator for separating a rare solution into a refrigerant vapor and a concentrated solution, a condenser for condensing the refrigerant vapor separated from the generator, and the condenser. In the absorption type air-conditioner consisting of an evaporator for evaporating the refrigerant condensed in the output air-cooling, the absorber is filled with the agricultural solution separated from the generator, the absorber is connected to the solution pipe for guiding the flow of the agricultural liquid separated from the generator, An air pump means mounted to the refrigerant vapor pipe that directs the flow of the refrigerant vapor evaporated in the evaporator to bubble the refrigerant vapor evaporated in the evaporator so as to directly contact the concentrate filled with the absorber to generate a rare solution. And the absorber vapor bubbled by the air pump means. It relates to an absorption type air-conditioner consisting of the injection means fixed to the end of the refrigerant steam pipe so as to be injected from the inside of the refrigerant vapor filled bubbler refrigerant to the absorber filled with the agricultural solution to the absorber and bubbled refrigerant vapor Direct contact with the agricultural solution to create a rare solution to improve the absorption efficiency to improve the cooling and heating efficiency, and at the same time to remove the cooling water piping of the absorber to compact the size and to supply a high-temperature rare solution to the generator There is an effect that can reduce the consumption of.

Description

Absorption air conditioner

1 is a block diagram schematically showing the configuration of an absorption type air conditioner applied to the example of the example.

2 is a block diagram showing the configuration of an absorption type air conditioner applied to the present invention.

* Explanation of symbols for main parts of the drawings

10: generator 12: steam piping

20: condenser 23: refrigerant liquid piping

30: evaporator 34: refrigerant steam piping

40: absorber 41: solution piping

50: heat exchanger 60: indoor

70: cooling means 80: injection means

90: air pump means

The present invention relates to an absorption type air conditioner that outputs cooling and heating using a lithium bromide solution, and in particular, an absorber is filled with a concentrated solution and supplied with a concentrated solution, and the bubbled refrigerant vapor is supplied to a bubbled refrigerant bubbler. Absorption air conditioner that improves absorption efficiency by allowing absorbed refrigerant vapor to be directly absorbed into agricultural liquids, while supplying high temperature rare solution to generators to save energy, compact system, and improve heating and cooling efficiency. It is about.

In general, various types of absorption type air conditioners for generating an output of air conditioning by using lithium bromide aqueous solution have been proposed in various forms.

An example of such a conventional absorption type air conditioner is Japanese Unexamined Patent Application No. 63-11570, filed with a utility model application dated April 4, 1988 in Japan.

As shown in FIG. 1, conventional Japanese laboratory No. 63-11570 separates a high temperature regenerator 1 'for heating a rare solution from a refrigerant vapor and an intermediate concentrate in the high temperature regenerator 1'. A low temperature regenerator (3 ') and a low temperature regenerator (3') which are heated by refrigerant vapor in the separator (2 ') after the temperature drop of the intermediate concentrate separated from the separator (2'). The condenser 4 'for condensing the refrigerant at 3'), the evaporator 5 'for evaporating the liquid refrigerant condensed at the condenser 4', and the refrigerant evaporated at the evaporator 5 '. In an absorption chamber air conditioner having an absorber 6 'that absorbs the concentrated solution in the regenerator 3', the condenser 4 'is connected through an orifice 21' and condensed in the condenser 4 '. A refrigerant cooling chamber 16 'for further cooling the cooled refrigerant by the refrigerant, and a refrigerant supply from the refrigerant cooling chamber 16' to the evaporator 5 '. 19 ', the solenoid valve 18' connected to the pipe 19 'and closed at operation stop, and connected to the refrigerant cooling chamber 16' and introduced into the refrigerant cooling chamber 16 '. And a communicating tube 20 'which communicates with the upper portion of the refrigerant storage chamber 15' and the evaporator 5 '.

The absorber 6 'of the conventional absorption type air conditioner is a concentrated solution separated from the separator 2', and the refrigerant vapor evaporated in the evaporator 5 'is absorbed to generate a rare solution.

In addition, the absorber 6 'is provided with a pipe 11' through which cooling water flows, and the heat of absorption generated when a rare solution is generated is dissipated by the cooling water.

That is, in the absorber 6 'of the conventional absorption type air conditioner, the agricultural liquid dispersed in the agricultural liquid dispersing means A disposed inside the absorber 6' flows down, and the evaporator 5 flows into the flowing liquid. The refrigerant vapor evaporated at ') is absorbed to generate a rare solution, and the heat of absorption generated when the rare solution is generated is radiated to the outside by the cooling water flowing through the pipe 11' disposed in the absorber 6 '. It became.

As described above, the conventional absorber 6 'has a low absorption efficiency because the concentrated liquid flows into the absorber 6' and the refrigerant vapor is absorbed into the concentrated solution so that the rare liquid is not produced more efficiently. There was a problem that this is lowered.

In addition, the structure of the absorber 6 'is provided with a pipe 11' through which a coolant flows to dissipate the heat of absorption generated when a rare solution is generated. There was this.

In addition, since the rare solution supplied to the high temperature regenerator 1 'is a low temperature cooled by the coolant flowing through the pipe 11', the energy required for the high temperature regenerator 1 'is excessively consumed. there was.

In other words, the conventional absorption air conditioner generates a rare solution as the agricultural solution flows down from the absorber, so that the absorption efficiency is lowered, thereby lowering the cooling and heating efficiency, and at the same time, the low temperature rare solution is supplied to the generator to consume excessive energy. There are several problems, such as complexity and the size of the system.

The present invention has been made in view of the above-described problems, and an object of the present invention is to provide a concentrated solution to the absorber and supply the bubbled refrigerant vapor to the absorber filled with the concentrated solution. By making the rare solution by directly contacting the solution, the absorption efficiency is improved to improve the cooling and heating efficiency, and at the same time, the cooling water pipe of the absorber is removed to make the size compact and the high temperature rare solution is supplied to the generator to consume energy. It is to provide an absorbent air conditioner that can reduce the cost.

In order to achieve the above object, the absorption type air conditioner according to the present invention includes a generator for separating a rare solution into a refrigerant vapor and a concentrated solution, a condenser for condensing the refrigerant vapor separated from the generator, and a refrigerant condensed in the condenser. An absorption type air conditioner configured to output cooling and heating by an evaporator, wherein the absorber is filled with the agricultural solution separated from the generator and connected with a solution pipe for guiding the flow of the agricultural liquid separated from the generator, and the agricultural liquid filled with the absorber. A refrigerant vapor vaporized in the evaporator so as to be in direct contact with the bubbling solution to bubble the refrigerant vapor evaporated in the evaporator and bubble the refrigerant vapor evaporated in the evaporator and guide the flow of the refrigerant vapor evaporated in the evaporator. Mounted air pump means and refrigerant vapor bubbled by the air pump means Characterized in that to the injection in the interior of the absorber consisting of the injection it means secured to the end portion of the refrigerant vapor pipe.

According to the absorption type air conditioner according to the present invention, the absorption efficiency is improved, the energy consumption is reduced, and the size of the system is compact.

Hereinafter, an embodiment of an absorption type air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram showing the configuration of an absorption type air conditioner applied to the present invention.

In Fig. 3, reference numeral 10 denotes a generator, in which the rare solution supplied from the absorber described later is separated into a concentrated solution and a refrigerant vapor by a heat source such as a burner means (not shown).

Further, reference numeral 20 denotes a condenser for condensing the refrigerant vapor separated from the generator 10, and reference numeral 30 denotes an evaporator for evaporating the refrigerant liquid condensed in the condenser 20.

In addition, (40) is an absorber filled with a concentrated solution to produce a rare solution by allowing the vaporized refrigerant vapor evaporated in the evaporator 30 to be in direct contact with the concentrated solution separated from the generator 10, therein, The concentrated solution separated from the generator 10 is filled.

In addition, the lower end of the absorber 40 is connected to the end of the solution pipe 14 for guiding the flow of the concentrated solution separated from the generator 10, the upper part of the absorber 40 in the absorber 40 A rare solution pipe 41 for guiding the flow of the rare solution is connected so that the generated rare solution is supplied to the generator 10, and the rare solution generated in the absorber 40 is connected to the rare solution pipe 41. A pump means 49 for generating power to be supplied to the generator 10 is mounted.

In addition, between the absorber 40 and the evaporator 30, the refrigerant vapor pipe 34 for guiding the flow of the refrigerant vapor so that the refrigerant vapor evaporated from the evaporator 30 is supplied to the absorber 40 is provided. Excreted.

In addition, the refrigerant vapor pipe 34 is equipped with an air pump means 90 which is guided to the refrigerant vapor pipe 34 and pressurizes the refrigerant vapor so as to bubble the refrigerant vapor supplied to the absorber 40. .

In addition, one end of the refrigerant steam pipe (34) equipped with the air pump means (90) is embedded in the absorber (40), the end of the steam pipe (34) embedded in the absorber (40) The injection means 80 for injecting the bubbled refrigerant vapor so that the bubbled refrigerant vapor is injected into the absorber 40 filled with the concentrated solution.

On the other hand, in the solution pipe 14 and the rare solution pipe 41 disposed between the absorber 40 and the generator 10, the heat exchanger 50 so that the temperature of the concentrated solution and the temperature of the rare solution are exchanged. Is excreted.

In addition, the solution pipe 14 is equipped with cooling means 70 for lowering the temperature of the concentrated solution passed through the heat exchanger 50 so that the refrigerant vapor in the absorber 40 is more efficiently absorbed into the concentrated solution. have.

On the other hand, between the generator 20 and the condenser 20, a steam pipe 12 for guiding the flow of the refrigerant steam so that the refrigerant vapor generated in the generator 10 is supplied to the condenser 20 is disposed And a refrigerant liquid pipe 23 for guiding the flow of the refrigerant liquid condensed in the condenser 20 is disposed between the condenser 20 and the evaporator 30, and the refrigerant liquid pipe 23 has a high pressure. An expansion valve 1 for converting the refrigerant liquid into the refrigerant liquid of low pressure is provided.

In the evaporator 30, a cold water pipe 63 through which cold water flows is disposed. The cold water pipe 63 includes an indoor unit 60 that outputs cooling and a circulation pump 32 that generates power to circulate cold water. Excreted.

Next, the effect of the absorption type air conditioner according to the present invention configured as described above will be described.

First, when the system is operated, the rare solution supplied to the generator 10 is heated by a heat source of burner means (not shown) to separate the rare solution into refrigerant vapor and concentrated solution.

In addition, the refrigerant vapor separated from the generator 10 is guided to the steam pipe 12 and supplied to the condenser 20, the refrigerant vapor supplied to the condenser 20 is condensed and converted into a refrigerant liquid Guided to the refrigerant liquid pipe 23 is supplied to the evaporator (30).

At this time, the coolant liquid guided to the coolant liquid pipe 23 is converted to low pressure by the expansion valve 1 and then supplied to the evaporator 30.

In addition, the coolant liquid supplied to the evaporator 30 is deprived of the heat of the cold water flowing through the cold water pipe 63 disposed in the evaporator 30 is evaporated to be converted into the refrigerant steam, the cold water pipe 63 Cold water deprived of heat while flowing inside is supplied to the indoor unit 60 to generate an output of cooling or heating.

In addition, the refrigerant vapor evaporated from the evaporator 30 is guided to the refrigerant vapor pipe 34 to be supplied to the absorber 40.

At this time, the refrigerant vapor supplied to the absorber 40 is bubbled by being pressurized by the air pump means 90 mounted on the refrigerant vapor pipe 34, and the bubbled refrigerant vapor is bubbled to the refrigerant vapor pipe 34. By the injection means 80 mounted at the end of the) is to be injected in the absorber 40.

On the other hand, the concentrated solution separated from the generator 10 is guided to the solution pipe 14 and passes through the heat exchanger 50, the concentrated solution passing through the heat exchanger 50 is the rare solution pipe 41 It is guided to) and heat exchanged with the rare solution supplied to the generator 10 to take away the temperature, thereby primarily entering a low temperature state.

In addition, the concentrated solution guided to the steam pipe 14 through the heat exchanger 50 and supplied to the absorber 40 is secondary by the cooling means 70 mounted on the solution pipe 14. Cooled to a lower temperature and supplied to the absorber 40.

That is, the concentrated solution separated from the generator 10 is cooled by the heat exchanger 50 and the cooling means 70 to become a concentrated solution in a lower temperature state and is supplied to the absorber 40.

In addition, the lower temperature concentrated solution supplied to the absorber 40 is filled inside the absorber 40.

At this time, the bubbled refrigerant vapor which is guided to the steam pipe 34 and injected by the injection means 80 is in direct contact with the concentrated solution to generate a rare solution.

In addition, the rare solution generated by the absorber 40 includes the heat of absorption, thereby increasing the temperature and decreasing the density to rise to the top.

In addition, the rare solution floating upward in the absorber 40 is guided to the rare solution pipe 41 to be supplied to the generator 10.

At this time, the rare solution supplied to the generator 10 has a higher temperature by including heat of absorption.

That is, the absorbent 40 generates a high temperature rare solution, and the high temperature rare solution generated in the absorber 40 is heat-exchanged in the heat exchanger 50 mounted on the rare solution pipe 41. It is supplied to the generator (10).

Thus, the generator 10 is supplied with a rare solution having a higher temperature than before, so that even if the heat source of the burner is reduced, the rare solution is easily and smoothly separated into the concentrated solution and the refrigerant vapor.

That is, the high heat rare solution is supplied to the generator 10 to reduce the heat source to save energy.

As described above, according to the absorption type air conditioner according to the present invention, the absorber is filled with the concentrated solution and the bubbled refrigerant vapor is supplied to the absorber filled with the concentrated solution so that the bubbled refrigerant vapor is in direct contact with the concentrated solution to generate the rare solution. By improving the absorption efficiency, the cooling and heating efficiency can be improved, and the cooling water pipe of the absorber can be removed to make the size compact and the high temperature rare liquid can be supplied to the generator to reduce the energy consumption. It is.

Claims (3)

A generator for separating a rare solution into a refrigerant vapor and a concentrated solution, a condenser for condensing the refrigerant vapor separated from the generator, and an evaporator for evaporating the refrigerant condensed in the condenser in the absorption air conditioner for outputting heating and cooling, the generator The absorber is filled with the concentrated solution separated from and the solution piping for guiding the flow of the separated solution from the generator is connected, and the evaporator is evaporated in the evaporator to directly contact the concentrated solution filled with the absorber to form a rare solution. Air pump means mounted to the refrigerant vapor pipe for guiding the flow of the refrigerant vapor evaporated by the evaporator, and the refrigerant vapor bubbled by the air pump means to be injected into the absorber. Suction means characterized in that the injection means fixed to the end of the refrigerant steam pipe Formula air conditioner. According to claim 1, wherein the lower end of the absorber is connected to the end of the solution pipe for guiding the flow of the concentrated solution separated from the generator, the upper portion of the absorber so that the rare solution generated in the absorber is supplied to the generator Absorption type air-conditioner characterized in that the rare solution pipe for guiding the flow of the rare solution is connected. The absorption type air conditioner according to claim 1, wherein the solution pipe is equipped with cooling means for lowering the temperature of the concentrated solution passing through the heat exchanger so that the refrigerant vapor is absorbed more efficiently into the concentrated solution from the absorber.