KR0136210Y1 - Absorptive type airconditioner - Google Patents

Abstract

The present invention relates to an absorption type heating and cooling method for outputting cooling and heating using a lithium bromide solution, in particular, a generator 10 for separating a rare solution into a refrigerant vapor and a concentrated solution, and in the generator 10 The condenser 20 for condensing the separated refrigerant vapor, the evaporator 30 for evaporating the refrigerant liquid condensed in the condenser 20, and the refrigerant vapor evaporated by the evaporator 30 in the generator 10 In the absorption type air-conditioner which is composed of the absorber 40 to be absorbed by the separated agricultural solution to generate a rare solution, and outputs cooling and heating, only the pure refrigerant vapor that does not contain a solution in the refrigerant vapor separated from the generator (10) The filter means 100 for filtering the solution to be supplied to the condenser 20 is piped to the absorption air-conditioner mounted on the steam pipe 12 disposed between the condenser 10 and the evaporator 20. Pure refrigerant vapor circulates the system by the filter means installed in the steam pipe, so that the condensation efficiency of the condenser is improved, the evaporation efficiency of the evaporator is improved, the damping efficiency of the absorber is improved, and the cooling and heating efficiency can be further improved. There is an effect that can be stabilized more.

Description

Absorption air conditioner

1 is an internal structure diagram schematically showing an internal structure of a generator of an absorption type air conditioner applied to a conventional example.

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

Figure 3a is an internal structure schematically showing the internal structure of the steam pipe applied to the present invention.

3B is a cross-sectional view of the A-A portion of FIG. 3A.

FIG. 3C is a cross-sectional view of the portion B-B of FIG. 3A cut out; FIG.

* Explanation of symbols for main parts of the drawings

10: generator 20: condenser

30 evaporator 40 absorber

50: heat exchanger 100: filter means

101: trimming plate 102: resistance member

The present invention relates to an absorption type air conditioner that outputs cooling and heating by using lithium bromide solution. In particular, only a pure refrigerant containing no solution in the refrigerant vapor separated from the generator circulates the system to improve cooling and heating efficiency. The present invention relates to an absorption type air conditioner capable of improving the stability of a system at the same time.

In general, absorption type air conditioners for outputting heating and cooling using lithium bromide solution (Lithium Bromide Solution) has been proposed in various forms.

In such a conventional absorption type air conditioner, the absorption type air conditioner that separates the rare solution into the agricultural solution and the refrigerant vapor is filed with a Japanese patent filed on December 20, 1989 by the Japanese company, Sanyo Electronics Co., Ltd. Japanese Patent Application Laid-open No. 3-191268, published on 21st.

The absorption type air conditioner according to Japanese Patent Application Laid-open No. 3-191268 is arranged horizontally in the cylinder 1 'as shown in FIG. 1, and has a cylinder 7' having a liquid chamber on the outside thereof, and a cylinder. In a generator having a combustion device 13 'facing into a furnace 7' disposed at 1 ', it is arranged generally horizontally in the furnace 7' and opens at the combustion device 13 'side. A furnace 10 'is provided, and the absorbing part 18' of thermal stress is formed in the side plate 10A 'of this furnace 10', and the bottom plate 10B 'of the furnace 10'. It is characterized in that the absorption portion 15 'of the thermal stress is formed on the circumference.

In the conventional absorption type air conditioner generator, the combustion flame generated by the combustion device 13 'ends the combustion in the furnace 10', and the combustion gas is the furnace cylinder as shown by the arrow direction shown in FIG. It enters the flue 11 'through the opening 10a' of (10 ').

In addition, the combustion gas passing through the flue 11 'passes between the fins 12', and the heat of the combustion gas is collected at each fin 12 'and the furnace 7', and 200 The exhaust gas flows into the combustion gas chamber 14 'as an exhaust gas of ˜250 ° C. and flows out.

Meanwhile, the rare solution introduced into the absorbent liquid inlet chamber 2 'is heated by the furnace barrel 7' while passing through the solution flow passage 8 'outside the furnace barrel 7', so that the rare solution is converted into refrigerant vapor and concentrated solution. Are separated.

The refrigerant vapor separated from the rare solution is guided to the vapor outlet 5 'of the vapor outlet chamber 3B' and supplied to the condenser, and the concentrated solution is guided to the absorbent outlet 6 'and supplied to the absorber.

At this time, the refrigerant vapor guided to the steam outlet 5 'of the steam outlet chamber 3B' and supplied to the condenser includes a part of the concentrated solution.

In addition, since the process of separating the rare solution into the concentrated solution and the refrigerant vapor in the generator is performed by a very intense boiling phenomenon, some of the concentrated solution is guided to the steam outlet 5 'of the steam outlet chamber 3B' and condenser. Was supplied.

In other words, the generator of the conventional absorption air-cooler has a portion of the solution in the refrigerant vapor separated from the generator to be circulated throughout the system, thereby lowering the condensation efficiency of the condenser, increasing the evaporator pressure of the evaporator, thereby lowering the evaporator efficiency. The cooling and heating efficiency was lowered.

In addition, since some of the solution is contained in the refrigerant to circulate the system, the purity of the refrigerant is lowered, thereby lowering the stability of the system.

That is, the conventional absorption air conditioner generator has a number of problems, such as the refrigerant vapor contains a portion of the solution to reduce the cooling and heating efficiency and at the same time reduce the stability 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 refrigerant refrigerant containing no solution in a refrigerant vapor which is separated from a generator and circulates in a system, thereby improving cooling and heating efficiency and An object of the present invention is to provide a generator of an absorption type air conditioner that can further improve stability.

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 cold steam and a concentrated solution, a condenser for condensing refrigerant vapor separated from the generator, and a refrigerant liquid condensed in the condenser. An evaporator for evaporating and an absorption type air conditioner for outputting cooling and heating, comprising an absorber for generating a rare solution by allowing the refrigerant vapor evaporated by the evaporator to be absorbed by the concentrated solution separated from the generator, wherein the refrigerant vapor separated from the generator Filter means for filtering the solution so that only the pure refrigerant vapor containing no solution is supplied to the condenser, characterized in that the steam pipe disposed between the condenser and the evaporator.

According to the absorption type air conditioner according to the present invention, the concentrated liquid contained in the refrigerant vapor separated from the generator is filtered by the filter means, so that the condenser is supplied with only pure refrigerant vapor containing no solution to improve the condensation efficiency of the condenser. At the same time, the evaporation efficiency of the evaporator is further improved, thereby improving the heating and cooling efficiency.

In addition, since the solution is not contained in the circulating refrigerant, the system can be more stabilized.

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.

Figure 2 is a schematic diagram showing the configuration of the absorption type air conditioner applied to the present invention, Figure 3a is an internal structure schematically showing the internal structure of the steam pipes applied to the present invention, Figure 3b AA of Figure 3a Sectional notch | section is cut | disconnected, FIG. 3C is sectional view which cut | disconnected part BB of FIG. 3A.

In FIG. 2 and 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 of a burner means (not shown).

In addition, 20 is a condenser for condensing the refrigerant vapor separated in the generator 10, 30 is an evaporator for evaporating the refrigerant liquid condensed in the condenser 20, 40 is the evaporator 30 The refrigerant vapor evaporated at) is absorbed into the concentrated solution separated by the generator 10 to generate a rare solution.

In addition, between the generator 10 and the condenser 20, a steam pipe 12 for guiding the flow of the refrigerant vapor so as to supply the refrigerant vapor separated from the generator 10 to the condenser 20 is disposed. have.

In addition, inside the steam pipe 12, the filter means for filtering the concentrated solution in order to prevent the concentrated solution contained in the refrigerant vapor separated from the generator 10 to the condenser 20 is provided It is installed.

That is, the filter means 100 is a plurality of trimming plate 101 fixed in a conical shape so that the steam flow path (2) is formed inside the steam pipe 12, as shown in FIG. The front surface of the trimming plate 101 consists of a resistance member 102 arranged to separate the concentrated solution and the refrigerant vapor to filter the concentrated solution.

To explain this slightly, the refrigerant vapor containing the concentrated solution supplied from the generator 10 hits the resistance member 102 of the filter means 100, and contains the concentrated solution hitting the resistance member 102. The refrigerant vapor is separated into the refrigerant vapor and the concentrated solution by the density difference (ie, the momentum difference) between the refrigerant vapor and the concentrated solution, and the separated refrigerant vapor is separated into the plurality of trimming plates 101 of the filter means 100. It is guided to the steam pipe 12 through the steam flow path (2) formed by the supplied to the condenser 20, the agricultural solution is supplied to the generator 10 by riding on the wall surface of the steam pipe 12 The condenser 20 is to be supplied with pure refrigerant vapor containing no concentrated solution.

In addition, the steam pipe 12, the heat insulating material 122 is wrapped around the outer periphery of the inner pipe 121 penetrated inside.

On the other hand, between the condenser 20 and the evaporator 30, the refrigerant liquid pipe 23 for guiding the flow of the refrigerant liquid so that the refrigerant liquid condensed in the condenser 20 is supplied to the evaporator 30 is disposed The refrigerant liquid piping 23 is equipped with an expansion valve 24 for converting the refrigerant liquid to low pressure.

In addition, between the evaporator 30 and the absorber 40 is provided with a steam 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. have.

In addition, between the absorber 40 and the evaporator 10, the rare solution pipe 41 for guiding the flow of the rare solution so that the rare solution generated in the absorber 40 is supplied to the generator 10 and The agricultural liquid pipe 14 for guiding the flow of the agricultural liquid so that the agricultural liquid separated from the generator 10 is supplied to the absorber 40, and the agricultural liquid flowing into the agricultural liquid piping 14 and the The heat exchanger 50 which heat-exchanges the rare solution which flows into the rare solution piping 41 is arrange | positioned.

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 refrigerant vapor is absorbed into the concentrated solution by the absorber 40 and converted into the rare solution. The rare solution converted by the absorber 40 is guided to the rare solution tube 41 to generate the generator ( 10).

In addition, the rare solution supplied to the generator 10 is heated by a heat source of a burner means (not shown) to separate the solid solution and the refrigerant vapor.

At this time, in the generator 10, the boiling solution is generated very violently by separating the concentrated solution and the refrigerant vapor in a vacuum state.

In addition, since the boiling phenomenon occurs very violently in the generator 10, some of the concentrated solution is contained in the refrigerant vapor.

In addition, the refrigerant vapor containing a portion of the concentrated solution in the generator 10 is guided to the steam pipe 12 to be supplied to the condenser 20.

At this time, the refrigerant vapor containing the concentrated solution supplied to the condenser 20 is separated into the concentrated solution and the refrigerant vapor by the filter means 100 disposed in the steam pipe 12 so that the pure refrigerant vapor is the steam pipe. Guided to (12) is supplied to the condenser 20, the agricultural liquid is supplied to the generator 10 on the inner wall surface of the steam pipe (12).

That is, the refrigerant vapor containing the concentrated solution supplied from the generator 10 hits the resistance member 102 of the filter means 100, and the refrigerant vapor containing the concentrated solution hit the resistance member 102. Is separated into the refrigerant vapor and the concentrated solution by the density difference (that is, the momentum difference) between the refrigerant vapor and the concentrated solution, the separated refrigerant vapor is steam formed by a plurality of trimming plate 101 of the filter means (100) Guided to the steam pipe 12 through the flow path (2) is supplied to the condenser 20, the agricultural solution is supplied to the generator 10 by riding the wall surface of the steam pipe 12, the condenser ( 20) pure refrigerant vapor containing no concentrate is supplied.

In addition, the pure refrigerant vapor supplied to the condenser 20 is condensed and converted into a refrigerant liquid, and the refrigerant liquid converted by the condenser 20 is evaporated in the evaporator 30, and then the rare solution in the absorber 40. Is converted into, and the rare solution converted in the absorber 40 is supplied to the generator 10 through the rare solution tube 41 and circulated.

At this time, the condenser 20 is condensed more efficiently by supplying the pure refrigerant vapor, the evaporator 30 is improved evaporation efficiency, the absorption efficiency is more improved in the absorber 40.

That is, the pure refrigerant vapor separated from the generator 10 can be circulated, thereby improving the cooling and heating efficiency, and at the same time, stabilizing the system.

As described above, according to the absorption type air conditioner according to the present invention, the pure refrigerant vapor circulates the system by the filter means disposed in the steam pipe, thereby improving the condensation efficiency of the condenser, the evaporation efficiency of the evaporator, and the absorption efficiency of the absorber. There is a very practical effect that can improve the cooling and heating efficiency, and at the same time make the system more stable.

Claims (3)

A generator 10 separating the rare solution into a refrigerant vapor and a concentrated solution, a condenser 20 connected through a steam pipe 12 to condense and receive the refrigerant vapor separated from the generator 10, and the condenser ( An evaporator 30 for evaporating the refrigerant liquid condensed in 20, and an absorber 40 for generating a rare solution by allowing the refrigerant vapor evaporated in the evaporator 30 to be absorbed by the concentrated solution separated from the generator 10. In the absorption type air conditioner that outputs air conditioning, A plurality of trimming plates 101 fixed to the inner wall of the steam pipe 12 to guide the refrigerant vapor separated from the generator 10 to the condenser 20; Filter means disposed on the front of the trimming plate 101 is made of a resistance member 102 for filtering the agricultural liquid contained in the refrigerant vapor supplied to the condenser 20 along the steam pipe 12 from the generator 10 Absorption air conditioner, characterized in that it comprises (100). According to claim 1, The plurality of trimming plate 101 is arranged in a conical shape at regular intervals along the inner circumferential surface of the steam pipe 12, characterized in that the steam flow path (2) formed between them Absorption air conditioner. The method of claim 1, wherein the filter means 100 is an absorption type air conditioner, characterized in that separated by the refrigerant vapor and the concentrated solution by the density difference (that is, the momentum difference) between the refrigerant vapor and the concentrated solution.