KR100858777B1 - Apparatus for supplying warm water during cooling mode or operation stop in absorption water cooler and heater - Google Patents

Abstract

A device for supplying hot water during a cooling mode or when in pause of an absorption cooling/heating device is provided to supply hot water when the absorption cooling/heating device is in halt by heating an inside of a hot water heat exchanged with a small burner. A device for supplying hot water during a cooling mode or when in pause of an absorption cooling/heating device comprises an absorption liquid bypass pipe(210), a hot water heat exchanger(220), and a small burner(230). The absorption liquid bypass pipe draws some of absorption liquid from a high temperature regenerator and bypasses to the high temperature regenerator. The absorption liquid is usually heated by a heat source in the high temperature regenerator and is sent to a low temperature regenerator. The hot water heat exchanger, integrally formed with an expansion tank(224) to be connected with a hot water inlet(221), a hot water outlet(222), and a hot water passage(223), is installed in the middle of the absorption liquid bypass pipe, transfers heat of the hot water to the absorption liquid flowing in the absorption liquid bypass pipe and discharges the water that has been heat-exchanged to the hot water outlet. The small burner heats an inside of the hot water heat exchanger.

Description

Hot water supply device for cooling or resting of absorption chiller {APPARATUS FOR SUPPLYING WARM WATER DURING COOLING MODE OR OPERATION STOP IN ABSORPTION WATER COOLER AND HEATER}

1 is a configuration diagram showing an example of a conventional absorption chiller.

Figure 2 is a partial configuration of the absorption type hot and cold water heater is applied according to the present invention.

3 is an overall configuration diagram of the absorption type hot and cold water heater is applied according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: high temperature regenerator 101: heat source

110: low temperature regenerator 120: condenser

130: evaporator 140: absorber

150: low temperature heat exchanger 160: high temperature heat exchanger

200: hot water supply device 210: intermediate absorption liquid bypass pipe

220: hot water supply heat exchanger 221: hot water supply inlet pipe

222: hot water supply outlet pipe 223: hot water supply flow path

224: expansion tank 230: small burner

The present invention relates to a hot water supply device for cooling or resting an absorption cold / hot water machine, and in particular, the medium-temperature absorbent liquid generated in a high temperature regenerator that maintains the highest temperature when the cooling mode is operated is heat-exchanged with the hot water in a hot water heat exchanger or By heating with a small burner, the present invention relates to an apparatus for cooling or stopping an absorption cold / hot water heater capable of supplying hot hot water of hot water not only during the cooling mode operation but also during the rest period in which the absorption chiller is stopped.

In general, the absorption chiller, as shown in FIG. 1, the high temperature regenerator 10, the low temperature regenerator 20, the condenser 30, the evaporator 40, the absorber 50, the low temperature heat exchanger 60, and the high temperature. It comprises a heat exchanger (70).

In the case of the absorption chiller, the high temperature regenerator 10 is heated by a heat source 11 such as a burner to generate a refrigerant gas, and the refrigerant gas is supplied to the low temperature regenerator 20, and the condenser 30 is passed through the absorber 50. It condenses by heat exchange with the cooling water passing through), and supplies it to the evaporator 40. The cooling water passing through the condenser 30 may be exchanged with hot water to be discharged into hot water and discharged, for example, to be used for heating.

The condensation refrigerant supplied from the condenser 30 to the evaporator 40 is supplied to the evaporator 40 and evaporated by heat exchange with cold water flowing in the evaporator 40, and the refrigerant gas evaporated is a low temperature regenerator 20. It is absorbed by the high concentration concentrated absorbent liquid supplied to the absorber 50 through the low temperature heat exchanger 60 from the side, and is made into a thin absorbent liquid absorbed liquid and collected in the rare absorbent liquid receiver 51. The liquid refrigerant contained in the refrigerant gas is collected in the refrigerant liquid receiver 41 under the evaporator 40. In this process, the cold water supplied to the evaporator 40 side is cooled and discharged by heat exchange with a refrigerant, and thus may be utilized, for example, for cooling.

On the other hand, the rare water absorbing liquid collected in the rare water absorbing liquid receiver 51 passes through the low temperature heat exchanger 60 and the high temperature heat exchanger 70 in turn, and passes through the low temperature heat exchanger 60 from the low temperature regenerator 20 side. The heat absorbing liquid supplied to the absorber 50 and the intermediate absorbing liquid of intermediate concentration supplied to the low temperature regenerator 20 side from the high temperature regenerator 10 side via the high temperature heat exchanger 70 are sequentially heat exchanged, and then the high temperature regenerator ( It is supplied to 10) and heated by a heat source, whereby it is converted into refrigerant gas again.

Reference numeral 80 denotes a heating valve for selectively supplying condensation refrigerant to the evaporator 40 from the condenser 30 side, and reference numeral 81 denotes a lower portion of the absorber 50 in the refrigerant liquid receiver 41 below the evaporator 40. A heating valve for selectively supplying refrigerant to the rare water absorbing liquid receiver 51, and reference numeral 82 denotes heating for selectively supplying refrigerant gas to the absorber 50 in a pipe connecting the high temperature regenerator 10 and the low temperature regenerator 20. Valve. Reference numeral 83 is provided in the connecting tube 85 connecting the high temperature regenerator 10 side and the high temperature heat exchanger 70 and the connecting tube 84 connecting the rare water absorbing liquid receiver 51, from the high temperature regenerator 10. A heating valve for selectively supplying the intermediate absorbent liquid to the rare absorbent liquid receiver 50 is shown.

In addition, reference numeral 90 is a refrigerant pump installed in the bypass pipe 86 for spraying the refrigerant in a spray type from the refrigerant liquid receiver 41 under the evaporator 40 to the evaporator 40 again and selectively pumping the refrigerant. , Reference numeral 91 denotes a rare absorbent pump installed in a pipe connecting the rare absorbent receiver 51 and the low temperature heat exchanger 60 under the absorber 50 to selectively pump the rare absorbent liquid, and reference numeral 92 denotes a low temperature regenerator ( 20 shows a concentrated absorbent liquid pump installed in the connection pipe 87 connecting the low temperature heat exchanger 60 and selectively pumping the concentrated absorbent liquid.

By the way, in the above-mentioned conventional absorption type cold and hot water machine, when operating the cooling mode, in order to obtain hot water supply hot water, it is possible to consider using the cooling water passing through the absorber 50 and the condenser 30, in this case In addition, the cooling load is not only large, it is difficult to obtain the hot water of the hot water of the desired temperature, the problem is difficult when the hot water load is large. In addition, there is a problem in that the hot water supply of hot water can not be supplied during the pause period of the operation of the absorption chiller.

The present invention has been made in consideration of the above-mentioned conventional problems, and heat exchanges the low-temperature hot water with the low-temperature hot water in the hot water heat exchanger for the high temperature intermediate absorption liquid generated in the high temperature regenerator that maintains the highest temperature during the cooling mode operation. It is an object of the present invention to provide a hot water supply device for cooling or resting an absorption cold / hot water heater that can supply hot water of hot water not only during the operation of the cooling mode but also during the rest period in which the absorption chiller is stopped.

In order to achieve the above object, the present invention is installed in the high temperature regenerator of the absorption type cold and hot water machine having a high temperature regenerator, a low temperature regenerator, a condenser, an evaporator, an absorber, a low temperature heat exchanger, and a high temperature heat exchanger, A cooling or hot water supply device of an absorption type cold water heater configured to supply hot water supply hot water at the same time or hot water supply at rest, comprising: an intermediate absorbent liquid that is heated from the high temperature regenerator to a heat source and is sent to the low temperature regenerator through the high temperature heat exchanger. An intermediate absorbent liquid bypass pipe which draws a part from the high temperature regenerator and bypasses the high temperature regenerator; A hot water supply inlet tube, a hot water supply outlet tube, and an expansion tank integrally installed to communicate with the internal water supply flow passage, and are installed in the middle of the intermediate water absorption bypass pipe, and are supplied to the interior through the hot water supply inlet pipe. A hot water heat exchanger for exchanging water with the intermediate water absorbing liquid flowing through the intermediate water absorbing liquid bypass pipe to make hot water of hot water and discharging the water through the hot water outlet pipe; And, a small burner for heating the inside of the hot water heat exchanger; characterized in that it comprises a.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

2 shows a partial configuration of the absorption type hot and cold water heater to which the hot water supply device according to the present invention is applied, and FIG. 3 shows the overall configuration of the absorption type hot and cold water heater to which the hot water supply device according to the present invention is applied.

Absorption chiller is applied to the hot water supply device of the present invention, as shown in Figure 3, the high temperature regenerator 100, the low temperature regenerator 110, the condenser 120, the evaporator 130, the absorber 140 And a low temperature heat exchanger (150) and a high temperature heat exchanger (160).

The high temperature regenerator 100 heats the diluted water absorbing liquid supplied to a heat source 101 such as a burner to generate a high temperature and high pressure refrigerant gas, and discharges the refrigerant gas through the outlet 102. At this time, although not shown here, by heat-exchanging the exhaust gas generated from the heat source 101 with the rare absorbing liquid supplied to the high temperature regenerator 100, the waste heat can be recycled to increase thermal efficiency.

The low temperature regenerator 110 receives the refrigerant gas from the high temperature regenerator 100 through the refrigerant gas outlet 102, and is discharged from the high temperature regenerator 100 to be discharged from the high temperature regenerator 100. The intermediate absorbent of medium concentration is exchanged with the rare absorbent to be sent to the refrigerant, and the refrigerant is regenerated at low temperature to produce a high concentration of the absorbent.

The condenser 120, the refrigerant gas supplied from the low temperature regenerator 110, the heat exchanger with the cooling water passing through the condenser 120 through the absorber 140 to make a condensation refrigerant to supply to the evaporator 130, The cooling water is discharged into hot water by heat exchange, and the hot water can be utilized for heating, for example.

The evaporator 130 has a function of evaporating the condensation refrigerant supplied from the condenser 120 by heat exchange with cold water passing through the evaporator 130. In this process, the cold water supplied to the evaporator 130 is cooled and discharged by heat exchange with the refrigerant gas to be evaporated. The discharged cold water may be utilized for cooling, for example. In addition, the liquid refrigerant contained in the refrigerant gas on the evaporator 130 side is collected in the refrigerant liquid receiver 131 under the evaporator 130.

The absorber 140 is installed on one side of the evaporator 130 or installed on both sides of the evaporator 130, and the absorber 140 passes through the low temperature heat exchanger 150 from the low temperature regenerator 110. The refrigerant gas evaporated by the evaporator 130 is absorbed into the concentrated concentration absorbing liquid supplied to the c), making the diluted absorbing liquid a thinner concentration, and exchanging the cooling water sent to the condenser 120. A rare water absorbing liquid receiver 141 is installed below the absorber 140, and the rare water absorbing liquid is collected therein.

The low temperature heat exchanger 150 has a function of exchanging the rare absorbent liquid discharged from the rare absorbent liquid receiver 141 by exchanging heat with the concentrated absorbent liquid supplied from the low temperature regenerator 110 to the absorber 140.

The high temperature heat exchanger 160 heat-exchanges the intermediate absorbent liquid of intermediate concentration supplied from the high temperature regenerator 100 side to the low temperature regenerator 110 side by heat-exchanging the rare absorbent liquid discharged from the low temperature heat exchanger 150. ) Will be supplied.

On the other hand, in order to selectively supply the refrigerant from the condenser 120 to the upper part of the evaporator 130, a pipe for connecting the condenser 120 and the upper part of the evaporator 130 is installed, the pipe for selectively opening and closing the flow path Heating valve 170 is installed. In addition, in order to selectively supply the refrigerant collected in the coolant receiver 131 under the evaporator 130 to the rare water receiver 141 under the absorber 140, the coolant receiver 131 and the rare absorbent liquid receiver. A pipe for connecting the teeth 141 to each other is provided, and a heating valve 171 for selectively opening and closing the flow path is provided in the pipe.

In addition, in order to selectively supply the refrigerant gas discharged from the high temperature regenerator 100 to the rare water receiving receiver 141, a pipe connecting the high temperature regenerator 100 and the low temperature regenerator 110 and the absorber 140 are connected to each other. Connecting pipe 184 is provided, the heating pipe 172 for selectively opening and closing the flow path is installed in the connecting pipe 184. In addition, the high temperature regenerator 100 (specifically, the high temperature regenerator 100 and the high temperature heat exchanger 160 are connected in order to selectively supply the intermediate absorbent liquid discharged from the high temperature regenerator 100 to the rare water absorbing liquid receiver 141). The connecting pipe 174 is connected to the pipe 185) side and the rare water absorbing liquid receiving 141, and the heating pipe 173 for selectively opening and closing the flow path is installed at the connecting pipe 174.

In addition, in order to bypass the refrigerant collected in the coolant receiver 131 under the evaporator 130 and supply it to the upper part of the evaporator 130 again, the coolant receiver 131 is connected to the upper part of the evaporator 130. The bypass pipe 186 is installed, and the bypass pipe 186 is installed with a refrigerant pump 180 for selectively pumping the refrigerant collected in the refrigerant liquid receiver 131 to supply the upper portion of the evaporator 130. do.

In addition, the pipe 142 connecting the rare water absorbing receiver 141 and the low temperature heat exchanger 150 in the lower part of the absorber 140 has the rare absorbent liquid collected in the rare water absorbing receiver 141 as the low temperature heat exchanger 150. A rare water absorbing pump 181 for pumping selectively is installed.

In addition, the connection pipe 183 connecting the low temperature regenerator 110 and the low temperature heat exchanger 150 to supply the concentrated absorbent liquid from the low temperature regenerator 110 to the absorber 140 via the low temperature heat exchanger 150. ) Is provided with a concentrated absorption liquid pump 182 for selectively pumping the concentrated absorption liquid.

The hot water supply device 200 according to the present invention, by bypassing a portion of the intermediate absorption liquid heated to a high temperature from the high temperature regenerator 100 side to the heat source 101 at the time of cooling mode operation, by heat exchange with the low temperature hot water supply, hot water It can be supplied.

That is, the hot water supply apparatus 200 according to the present invention includes an intermediate absorbent liquid bypass pipe 210 and a hot water supply heat exchanger 220.

The high temperature regenerator 100 is supplied with a rare absorption liquid from the high temperature heat exchanger 160 and heated to the heat source 101. The refrigerant gas gasified by the heating of the heat source 101 is cooled through the refrigerant gas outlet 102. It is supplied to 110, and the remaining rare absorbent liquid is heated to change its concentration to an intermediate absorbent liquid. The heated intermediate absorbent liquid is heat-exchanged with the rare absorbent liquid supplied to the high temperature regenerator 100 while passing through the high temperature heat exchanger 160 and then supplied to the low temperature regenerator 110 side.

In the high temperature regenerator 100 having the function as described above, the intermediate absorbent liquid bypass pipe 210 draws a part of the intermediate absorbent liquid heated in the high temperature regenerator 100 to the outside of the high temperature regenerator 100. And to bypass the high temperature regenerator 100 again.

In addition, the hot water supply heat exchanger 220, the hot water supply heat exchanger 220 is installed in the middle of the intermediate absorption liquid bypass pipe 210, the hot water supply water inlet pipe 221 for supplying hot water to the interior And a hot water supply outlet pipe 222 for discharging the hot water from the inside thereof. In addition, the hot water supply heat exchanger 220 includes an expansion tank 224 installed to communicate with the hot water flow passage 223 therein.

Therefore, in the hot water supply heat exchanger 220, the hot absorbent liquid flowing in the intermediate absorbent liquid bypass pipe 210 and the hot water absorbent pipe 221 are supplied to the inside to expand with the hot water supply flow path 223. As the low-temperature hot water flowing through the tank 224 is heat-exchanged with each other, the hot water is heated by the intermediate absorption liquid to be changed into hot hot water of hot water, and the hot hot water is discharged through the hot water hot water outlet pipe 222, Hot water can be supplied to the desired place to be utilized.

In addition, a small burner 230 for heating the inside of the hot water supply heat exchanger 220 is further installed. Therefore, when it is impossible to supply hot water of hot water supply, or when hot water of hot water is to be supplied during the rest period when the absorption chiller is stopped, the small burner 230 is operated to supply the hot water heat exchanger 220. By heating the inside of it, hot water supply hot water can be supplied even at the time of cooling or rest.

Next, the operation of the hot water supply device during cooling or resting of the absorption type cold and hot water heater according to the present invention configured as described above will be described.

When the rare absorbent liquid supplied from the high temperature heat exchanger 160 to the high temperature regenerator 100 is heated by the operation of the heat source 101, a high temperature and high pressure refrigerant gas is generated, and the refrigerant gas passes through the refrigerant gas outlet 102. The discharge is supplied to the condenser 120 through the low temperature regenerator 110. In addition, as the refrigerant gas is discharged, the rare absorbent liquid which is not gasified is changed from the high temperature regenerator 100 to the intermediate absorbent liquid having a medium concentration, and the intermediate absorbent liquid is supplied to the high temperature regenerator 100 while passing through the high temperature heat exchanger 160. Heat exchanged with the absorbent liquid and supplied to the low temperature regenerator 110.

The refrigerant supplied to the condenser 120 is condensed by heat exchange with cooling water supplied to the condenser 120 via the absorber 140. In this process, the cooling water is heated and discharged into hot water.

The condensation refrigerant condensed by the condenser 120 is supplied to the evaporator 130 to be converted into a refrigerant gas while being evaporated by heat exchange with cold water passing through the evaporator 130, and the cold water is cooled and discharged. This condensation refrigerant supply process may be made by the pressure difference between the condenser 120 side and the evaporator 130 side.

The refrigerant gas evaporated from the evaporator 130 is exchanged with the rare absorbent liquid supplied to the high temperature heat exchanger 160 through the low temperature heat exchanger 150 from the low temperature regenerator 110 and supplied to the absorber 140. The absorbed liquid is absorbed into the concentrated absorbent liquid and converted into the diluted absorbent liquid, and the rare absorbent liquid is collected in the rare absorbent liquid receiver 141 under the absorber 140. The rare absorbent liquid collected in the rare absorbent liquid receiving unit 141 is supplied to the low temperature heat exchanger 150, thereby exchanging heat with the concentrated absorbent liquid supplied from the low temperature regenerator 110 to the low temperature heat exchanger 150 as described above. The high temperature regenerator 100 is supplied to the high temperature regenerator 100.

According to the operation mode of cooling or heating, when the heating valve 170 is opened, the condensation refrigerant is supplied from the condenser 120 to the upper part of the evaporator 130. When the heating valve 172 is opened, the refrigerant gas discharged from the high temperature regenerator 100 is supplied to the absorber 140. When the concentrated absorption liquid pump 182 is driven, the concentrated absorption liquid is supplied to the absorber 140 from the low temperature regenerator 110 through the low temperature heat exchanger 150. When the heating valve 173 is opened, the intermediate absorbent liquid is supplied to the rare absorbent receiver 141 from the high temperature regenerator 100 side, and is thus evaporated in the absorbent liquids supplied to the absorber 140 or the rare absorbent receiver 141. The refrigerant gas is absorbed into the rare absorbent liquid.

Meanwhile, the liquid refrigerant collected in the refrigerant gas is collected in the refrigerant liquid receiver 131 under the evaporator 130. The refrigerant collected in the refrigerant liquid receiver 131 is rare when the heating valve 171 is opened. It is supplied to the absorption liquid receiver 141, and is also bypassed from the refrigerant liquid receiver 131 to the upper portion of the absorber 140 through the bypass pipe 186 according to the driving of the refrigerant pump 180.

The rare water absorbed by the rare water absorbing receiver 141 is sequentially passed through the low temperature heat exchanger 150 and the high temperature heat exchanger 160. That is, the rare absorbent liquid is heat-exchanged in the low temperature heat exchanger 150 and the concentrated absorbent liquid supplied from the low temperature regenerator 110 to the absorber 140 when the concentrated absorbent liquid pump 182 is driven. The rare absorbent liquid discharged from the heat exchanger is heat-exchanged with the intermediate absorbent liquid supplied from the high temperature regenerator 100 side to the low temperature regenerator 110 side, and then supplied to the high temperature regenerator 100.

On the other hand, by supplying cold water to the evaporator 130, and cooled by heat exchange to discharge, when operating the cooling mode to utilize the cooled cold water for cooling, in the present invention, hot water supply hot water can be supplied at the same time.

That is, when the low-temperature hot water is supplied to the hot water supply heat exchanger 220 through the hot water inlet pipe 221, a part of the intermediate absorbent liquid heated in the high temperature regenerator 100 flows along the intermediate absorbent liquid bypass pipe 210. The low temperature hot water flowing in the hot water flow passage 223 and the expansion tank 224 in the hot water heat exchanger 220 exchanges heat with each other. Therefore, the intermediate absorbent liquid is returned to the high temperature regenerator 100 in a low temperature state with the temperature deprived, and the hot water is heated to be changed into hot water of hot water and discharged through the hot water supply outlet pipe 222, so that the hot water is hot. Hot water can be supplied and used to the desired place.

And, if it is not possible to supply the hot water of the hot water supply desired, or if you want to supply hot water of hot water during the rest period when the operation of the absorption type cold water heater, the hot water supply heat exchanger 220 through the hot water supply inlet pipe 221 When the low-temperature hot water supply is supplied to the inside of the hot water supply unit and the inside of the hot water heat exchanger 220 is operated by operating the small burner 230, since the hot hot water supply water may be discharged through the hot water supply outlet pipe 222, High temperature hot water supply can be supplied even during cooling or rest.

According to the hot water supply device during cooling or resting of the absorption type cold and hot water heater according to the present invention configured as described above, the high temperature intermediate absorbent liquid and the hot water heat exchanger 220 are drawn out from the high temperature regenerator 100 and bypassed when the cooling mode is in operation. Since the low-temperature hot water supplies are heat-exchanged with each other, the hot water supply water can be heated to be discharged into hot water hot water, and the cooling and hot water supply can be used simultaneously.

In addition, by using a high temperature intermediate absorbent liquid generated in the high temperature regenerator 100 that maintains the highest temperature to generate a high temperature hot water supply hot water, it is possible to increase the thermal efficiency, does not cause cooling load, high hot water load Even in this case, hot water of hot water of a desired temperature can be obtained.

In addition, when the hot water supply of the desired hot water cannot be supplied or during the rest period during which the absorption cold / hot water heater is stopped, the small burner 230 is operated to heat the inside of the hot water supply heat exchanger 220, thereby heating the hot water supply of hot water. As it can supply, it is convenient for use.

In addition, since the cooling mode does not need to be operated, only the small burner 230 can be operated to supply hot water and hot water supply during the rest period of stopping the operation of the absorption type cold water heater. It can be obtained, and the function of the absorption chiller can be expanded.

Claims (1)

Among the high temperature regenerator 100, the low temperature regenerator 110, the condenser 120, the evaporator 130, the absorber 140, the low temperature heat exchanger 150, and the high temperature heat exchanger 160, the high temperature It is installed in the regenerator, the hot water supply device for cooling or resting of the absorption type cold and hot water heater to supply hot water hot water at the same time when operating the cooling mode or at rest, An intermediate absorbent liquid bypass pipe 210 which draws a part of the intermediate absorbent liquid from the high temperature regenerator and is heated to a heat source and passes through the high temperature heat exchanger to the low temperature regenerator and bypasses the high temperature regenerator; It is provided with an expansion tank 224 integrally installed to communicate with the hot water supply inlet pipe 221, the hot water supply outlet pipe 222 and the internal hot water supply flow path 223, and is installed in the middle of the intermediate absorption liquid bypass pipe, A hot water supply heat exchanger (220) configured to heat the hot water supplied through the hot water inlet pipe with the intermediate water flowing through the intermediate water absorbing bypass pipe to make hot water of hot water and discharge the water through the hot water outlet pipe; And Small-sized burner 230 for heating the inside of the hot water supply heat exchanger;

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