KR0131384Y1 - Small type absorptive cooling/heating water supplier - Google Patents

Abstract

The present invention relates to a cold and hot water heater for both air conditioning and heating, and particularly, a plate-type heat exchange component having excellent heat transfer efficiency is installed in the condenser, evaporator, and absorber constituting the cold / hot water heater system for both air conditioning and heating. The present invention relates to an improved small-absorption air-conditioner combined use hot and cold water heater, comprising: a regeneration (10) for generating steam, a separator (12) for separating vapor and liquid generated in the regenerator, and a refrigerant condensed from the steam separated in the separator. A condenser 14 and an evaporator 16 for generating cold or cold water by the refrigerant generated from the condenser, and a heat exchanger for returning the working fluid generated in the evaporator to a regenerator by performing heat exchange with the liquid separated from the separator. In the cooling and heating combined use hot and cold water heater (18), the condenser 14 and the evaporator 16 and The absorber 17 forms convex concave and convex portions 21b, 21c, 22b, and 22c corresponding to the two plates 21 and 22 to form a space A in cross section and at the same time the plate 21, 22, the flanges 21a and 22a which are in close contact with each other at both ends thereof are formed, and the heat exchange parts 20 joined by mutual welding are in close contact with each other in pairs and are installed in parallel.

Description

Small absorption type air conditioner

1 is a schematic configuration diagram of a conventional cold and hot water heater.

2 is a partially broken perspective view of a heat exchanging part applied to an embodiment of the present invention.

3 is a schematic perspective view of a condenser and a hot water supply device according to an embodiment of the present invention.

4 is a schematic perspective view of an evaporator and an absorber according to an embodiment of the present invention.

5 is an enlarged perspective view of an uneven portion in which heat exchange parts are formed according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

14 condenser 16 evaporator

17: absorber 20, 20-1, 20-2, 20-3: heat exchange parts

21, 22: plate 21a, 22a: flange portion

21b, 21c, 22b, 22c: Uneven portion 100: Condenser main body

101, 102: cooling water box 110: hot water supply device

111, 112: hot water box 200: main evaporator and absorber

211: refrigerant tray 220: diaphragm

232: Agricultural Solution Tray

The present invention relates to a cold and hot water heater for both heating and cooling. Especially, a plate-type heat exchanger having excellent heat transfer efficiency is installed in the condenser, evaporator and absorber constituting the cooling / cooling water heater system for both heating and cooling. The present invention relates to an improved compact absorption air-conditioning combined cold / hot water machine.

Conventional air-conditioning combined hot and cold water heaters, as shown in FIG. 1, re-heater 10 that generates steam by heating a working fluid by a heat source, and a separator 12 that separates liquid and vapor from water vapor generated from the regenerator 10. A condenser 14 for condensing water vapor passing through the pipe P1 via air or cooling water with air or cooling water, and an evaporator 16 generating cold water or cold air by evaporation of the refrigerant condensed from the condenser 14, The absorber 17 which absorbs water vapor in the form of mist generated by the evaporation of water, which is a refrigerant of the evaporator 16, and the high temperature from the separator 12 through the solution collected through the pipe P2 from the evaporator 16 It consists of a heat exchanger 18 that exchanges heat with the working oil and returns it to the regenerator 10.

In the conventional air-conditioning / cold water heater configured as described above, heat exchange parts for passing the working fluid through the condenser 14, the evaporator 16, and the absorber 17 are made of a straight tube, an S-shaped curved tube, or a coil tube. .

When using these tubes, the total volume must be increased to increase the unit heat transfer area per fluid bottle and volume, which contributes to the weight of the entire system.

In addition, the use of the S-type or coil-type pipe has a disadvantage in that the manufacturing cost increases due to the labor maneuver due to bending, automation is difficult to be made, it is not suitable for mass production.

Therefore, the present invention is to solve the general problems of the prior art as described above, by installing a heat exchanger parts that are simply manufactured in a plate shape on the condenser, evaporator and absorber to achieve miniaturization, light weight and cost reduction combined cold and hot water heater The purpose is to provide.

Another object of the present invention is to install a hot water supply device having excellent hot water supply efficiency in the condenser to be quickly supplied with hot water.

Specific means of the present invention for achieving the above object is a regenerator for generating water vapor, a separator for separating the vapor and liquid generated in the regenerator, a condenser for generating a refrigerant condensed from the steam separated in the separator; And an evaporator for generating cold or cold water by the refrigerant generated from the condenser, and a heat exchanger for cooling and cooling, wherein the working fluid generated in the evaporator is absorbed by the liquid separated in the separator and returned to the regenerator. In the evaporator and the absorber, the convex concave and convex portions corresponding to the two sheets are formed to form a space in the cross section, and at the same time, a flange portion which is in close contact with each other on the opposite ends of the plate is formed to form a heat exchanger component joined by mutual welding. In close contact with each other in a pair of a plurality of sheets characterized in that the parallel installation.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 shows an installation state of a plurality of heat exchanging parts 20 installed in the condenser 14. The heat exchanging parts 20 are provided in pairs of two metal plates vertically and in parallel in a pair.

That is, FIG. 2 shows a state in which three heat exchange parts 20 are installed, wherein the first pair of plates 21 and 22, the second pair of plates 23 and 24, and the third pair of plates ( 25 and 26 are installed adjacent to each other.

First, the first pair of plates 21 and 22 are made of thin metal and are formed by press working, respectively, and the flange portions 21a and 22a are formed on the upper and lower portions thereof. Between the plurality of concave recesses 21b and 22b and the second pair of plates 23 and 24 adjacent thereto to generate a flow resistance of the working fluid to increase the efficiency of heat exchange and to have a space A. The convex convex parts 21c and 22c which contact | abut with a side plate, and mutually maintain a space | interval and form the space B are formed mutually correspond.

In the plates 21 and 22, the upper and lower edges of the flange portions 21a and 22a are welded to each other, and are coupled to each other in a pair to form a space A therebetween.

Next, the second and third pairs of plates 23, 24 and 25 and 26 have the same configuration as that of the first pair of plates 21 and 22, and the flanges 23a and 24a and 25a and 26a, respectively. The recesses 23b, 24b, 25b, 26b and the convex portions 23c, 24c, 25c, and 26c are formed to correspond to each other therebetween.

The plurality of heat exchanging parts 20 configured as described above are arranged in parallel to the condenser main body 100 in parallel as shown in FIG. 3, and these heat exchanging parts 20 are inlet and outlet communicating with each space A. Cooling water and inlet and outlet cooling water tanks 101 and 102 are provided on the side, respectively.

That is, the cooling water is supplied from the cooling water container 101 on the inlet side and absorbs the heat of the water vapor introduced into the evaporator main body 100 through each space A of the heat exchange parts 20, while the other outlet cooling water container ( 102 is to be collected and discharged.

On the other hand, the hot water supply apparatus 110 may be configured to one side of the condenser main body 100, which includes a plurality of heat exchange parts 20-1 having the same configuration as the heat exchanger part 20 to one side of the condenser main body 100. The inlet and outlet hot water supply tanks 111 and 112 which are installed in parallel and are collected by distributing cold water to the front and rear of the heat exchange part 20-1 are collected.

As such, the steam introduced into the condenser body 100 of the condenser 14 through the separator of the cold and hot water is filled in the space B formed between the heat exchange parts 20.

At this time, the high-temperature steam comes into contact with the outer surface of each heat exchange part 20, and further, the heat transfer area enlarged by the recesses 23b, 24b, 25b, and 26b and the convex parts 23c, 24c, 25c, and 26c of FIG. The heat of steam is absorbed by the cooling water flowing to the other cooling water tank 102 through the one cooling water tank 101, and the steam quickly condenses.

At the same time, the steam is also filled between the heat exchange parts 20-1, and at this time, the cooling water flowing to the outlet water supply tank 112 through each space A 'through the inlet water supply tank 111 is heated to a high temperature. The heat of steam is transferred, and furthermore, the cooling water passing through the heat exchange part 20-1 due to the recesses 23b, 24b, 25b and 26b and the convex parts 23c, 24c, 25c and 26c is quickly changed to hot water at a predetermined temperature. By flowing, it can be used for hot water supply.

In this case, the heat exchange parts 20 and 20-1 are not only installed perpendicular to the condenser body 100 but may be arranged horizontally in some cases.

The shapes of the recessed portions 23b, 24b, 25b, and 26b and the convex portions 23c, 24c, 25c, and 26c are not limited to the protruding circle, but may be configured as irregularities as shown in FIG. 5 in some cases. It may be.

Next, the heat exchange part 20 shows a state in which the evaporator and the absorber are installed as shown in FIG.

That is, a plurality of heat exchanging parts 20-2 are installed in parallel to the lower side of the refrigerant tray 210 having the nozzle 211 and are installed at one side in the evaporator and the absorber main body 200.

On the other side of the evaporator and the absorber main body 200, the absorber 17 is disposed with the partition wall 220 open in a predetermined amount downward to prevent a pressure falling due to the mist generated by the evaporation. .

That is, inside the absorber 17, the heat exchange part 20-3 is provided below the agricultural liquid tray 232 provided above and provided with the nozzle 231. As shown in FIG.

Inlet and outlet collection vessels (not shown) are disposed in front and rear of each of the heat exchange parts 20-2 and 20-3.

By such a configuration, the coolant gathered from the nozzle 211 to the coolant tray 210 gradually drops downward through the plurality of nozzles 211 and vaporizes while flowing down the outer surfaces of the respective heat exchange parts 20-2. do.

At this time, the heat required for vaporization absorbs or releases latent heat from the supply water flowing in the space A in each heat exchange part 20-2, so that the supply water passing through the inside of the heat exchange part 20-2 is cold water for cooling or It will be changed to hot water for heating.

At this time, when the fluid flowing in the heat exchange part 20-2 is air, cold air is generated.

On the other hand, the mist generated while the refrigerant evaporates is moved to the absorber 17 side, in which case the agricultural liquid falling from the agricultural liquid tray 232 through the nozzle 231 flows down the heat exchanger parts 20-3 and concentrated. The temperature of the solution is exchanged with the cooling water to lower the internal ambient temperature so that the fog in the evaporator and absorber body 200 moves to the absorber 17 through the bottom of the partition wall 220.

Of course, the recesses 23b, 24b, 25b, and 26b and the convex parts 23c, 24c, 25c, and 26c of FIG. 2 formed in the heat exchange parts 20-2 and 20-3 in the action of the evaporator and the absorber 17 as described above. ), Heat exchange is carried out with more heat transfer area, and the coolant flowing down flows slowly while receiving more resistance than before due to the recesses 23b, 24b, 25b, and 26b and the convexities 23c, 24c, 25c, and 26c. Therefore, heat transfer is improved compared to the related art.

Of course, the shapes of the recessed portions 23b, 24b, 25b, 26b and the convex portions 23c, 24c, 25c, 26c formed in the evaporator or the absorber may be formed in a wave shape.

Thus, since the heat exchange parts 20, 20-1, 20-2, and 20-3 form a large heat transfer area in a plate shape, the heat exchange parts 20, 20-1, 20-2, and 20-3 can be installed in a small quantity, thereby reducing the weight of the device.

In addition, it is easier to manufacture than conventional curved tube such as round tube or S tube, and mass production is possible with the effect of cost reduction.

As described above, according to the present invention, a convex, hot water supply device, an evaporator, When applied to the absorber it can be miniaturized and lightweight, and there is an advantage that can maximize the efficiency.

Claims (6)

A regenerator (10) for generating steam, a separator (12) for separating vapor and liquid generated in the regenerator, a condenser (14) for producing refrigerant condensed from the steam separated in the separator, and a generation from this condenser An evaporator 16 and an absorber 17 which generate cold or cold / hot water by the used refrigerant, and a heat exchanger 18 for returning the working fluid generated by the evaporator and the absorber to a regenerator by performing heat exchange with the liquid separated from the separator. In the cooling and heating combined use hot and cold water heater, the condenser 14, the evaporator 16 and the absorber 17, the convex concave-convex portions (21b, 21c, 22b, 22c) corresponding to each of the two plates (21, 22) To form a space (A) in the cross-section and at the same time to form a flange portion (21a, 22a) in close contact with each of the opposite ends of the plate (21, 22) to form a heat-exchange component (20) joined by mutual welding In close contact with multiple pairs Small absorption type cooling and heating combined cold or hot water generating machine, characterized in that parallel to be installed. The small absorption type air-conditioning combined hot and cold water heater according to claim 1, wherein the uneven parts (21b, 21c, 22b, 22c) are formed in a wave shape. The heat exchange component according to claim 1, wherein the condenser 14 has cooling water inlet and outlet cooling water tanks 101 and 102 at one side and the other side of the condenser main body 100, and communicates with each of the cooling water tanks 101 and 102. Small absorption type air-conditioning combined hot and cold water heater, characterized in that (20) is arranged in a plurality of vertical or horizontal arrangement. According to claim 3, Small absorption type air-conditioning combined heating and hot water heater characterized in that a plurality of heat exchange parts for hot water supply (20-1) through the cooling water is installed on one side of the condenser main body (100) horizontally or vertically. The method of claim 1, wherein the evaporator 16 is installed in parallel to the plurality of heat exchange parts 20-2 in close contact below the refrigerant tray 211 installed upward on one side in the evaporator and the absorber main body 200. Small absorption type air-conditioning combined use hot and cold water heater. According to claim 5, A plurality of heat exchange parts 20 to the lower side of the agricultural liquid tray 232 is installed at the top to enable the absorption of mist generated in the evaporator with the partition wall 220 between the other side in the evaporator body 200. -3) Small absorption type air-conditioning combined cold and hot water heater, characterized in that installed in close contact in parallel.