KR20070014725A - Liquid distributor for absorption chiller and absorption chiller using the same - Google Patents

Abstract

A liquid distributor for an absorption chiller and an absorption chiller having the same are provided to stably secure a flow rate of a liquid supplied to heating pipes even when a flow rate of the liquid supplied from a liquid inlet pipe to distribution trays is irregularly changed. A liquid distributor for an absorption chiller includes distribution trays(301) for primarily storing a liquid supplied from a liquid inlet pipe. Dispersion plates(302) are provided at an inner lower end of the distribution trays and formed with distribution holes(303) with a uniform interval in the longitudinal direction of the distribution trays. Front end elements(310) have predetermined storing spaces respectively for storing the liquid transmitted through the distribution holes and supplying the liquid to outer surfaces of heating pipes(210).

Description

Liquid distributor for absorption chiller and absorption chiller using the same}

1 is a schematic configuration diagram of an absorption type refrigerator according to the prior art.

2 is a perspective view of a liquid dispensing apparatus according to the prior art.

3 is a perspective view of a liquid dispensing device of the absorption chiller according to the present invention.

4 is a cross-sectional view taken along line AA ′ of FIG. 3.

5 is a perspective view of the absorption chiller according to the present invention.

Description of the main parts of the drawing

300: liquid dispensing device 301: distribution tray

302: dispersion plate 303: distribution hole

304: cover plate 310: tip member

311: guide member 312: liquid supply tray

312: liquid supply hole 210: heat transfer tube

500: liquid introduction tube

The present invention relates to a liquid distribution device and an absorption refrigerator of the absorption chiller, and more particularly, a liquid distribution device of an absorption chiller capable of maximizing heat exchange efficiency by supplying a liquid such as a refrigerant liquid and an absorption liquid uniformly on an outer surface of a heat transfer tube. And absorption chillers.

Absorption chiller is a chiller that uses the liquid solubility of the refrigerant vapor varies depending on the temperature, pressure, water is used as the refrigerant, and lithium embrittlement (LiBr) and the like as the absorption solution for recovering the evaporated refrigerant.

Looking at the structure of a conventional absorption chiller as follows. 1 is a schematic configuration diagram of an absorption type refrigerator according to the prior art. As shown in FIG. 1, the absorption chiller according to the related art includes a high temperature regenerator 103 for heating and concentrating an absorption solution by using an external heat source, and forming a falling film of the absorption solution in addition to the heat transfer tube in the high temperature regenerator 103. The low temperature regenerator 102 for heating and condensing the generated refrigerant vapor with the thermal energy, and the refrigerant vapor generated in the low temperature regenerator 102 condensed in the tube of the low temperature regenerator 102 generated by the high temperature regenerator 103. The condenser 101 mixed with the refrigerant liquid, the evaporator 107 for forming a falling liquid film of the refrigerant liquid outside the pipe and evaporating it to cool the cooling water in the pipe, and the refrigerant vapor generated in the evaporator 107 by the falling liquid film of the absorbing solution. Absorbent 106 absorbs and maintains the inside of the vessel at a low pressure to promote evaporation, and sensible heat from the absorbent solution circulating from the hot and cold regenerator 102 to the absorber 106 It consists of the low temperature and high temperature heat exchanger 104 (105) which collect | recovers and saves energy, the piping which connects them, the refrigerant pump 108, and the solution pump 109.

In the above configuration, the evaporator 107 is provided with a plurality of heat transfer tubes, that is, a heat transfer tube group. The refrigerant liquid is supplied on the outer surface of the heat transfer tube and the cold water inside the heat transfer tube is cooled by the latent heat of evaporation of the refrigerant liquid. On the other hand, the coolant liquid is supplied through a predetermined liquid introduction pipe 110, a liquid distribution device 200 is provided between the liquid introduction pipe 110 and the heat transfer pipe as shown in FIG. The refrigerant liquid supplied from 110 serves to distribute on the outer surface of the heat transfer tube.

Similarly, in the above configuration, the absorber 106 is provided with a group of heat pipes through which cooling water flows, and the absorption liquid is supplied on the outer surface of the heat pipe and the refrigerant vapor evaporated in the evaporator 107 is supplied through the liquid introduction pipe. Absorbed in the absorbent liquid. A liquid distribution device is provided between the liquid introduction tube and the heat transfer tube to serve to distribute the absorption liquid supplied from the liquid introduction tube on the outer surface of the heat transfer tube.

In order to maximize the efficiency of the heat exchange proceeding in the evaporator 107 and the absorber 106, a liquid such as a refrigerant liquid and an absorption liquid should be uniformly supplied on the outer surface of the heat transfer tube. That is, a uniform liquid supply of the liquid distribution device for supplying liquid directly on the outer surface of the heat pipe is required. However, since the liquid dispensing apparatus according to the prior art has a structure in which the liquid falls directly from the distribution plate 202 of the distribution tray 201 to the heat transfer pipe 210, a constant liquid when the liquid flow rate of the liquid introduction pipe 110 is changed. It is difficult to maintain the distribution density and there is a problem in that the refrigerant liquid is unnecessarily lost because the uniform liquid distribution is not made over the entire heat pipe.

The present invention has been made to solve the above problems, and provides a liquid distribution device and an absorption freezer of the absorption chiller that can maximize the heat exchange efficiency by supplying a liquid, such as refrigerant liquid, absorbent liquid uniformly on the outer surface of the heat transfer tube. Its purpose is to.

Liquid dispensing device of the absorption type refrigerator according to the present invention for achieving the above object is disposed between the liquid inlet tube and the heat transfer tube group to supply the liquid on the outer surface of the heat transfer tube liquid distribution apparatus. The dispensing tray is configured to primarily store liquid supplied from the liquid introduction pipe, and a dispensing hole provided at an inner lower end of the dispensing tray and formed at regular intervals in a length direction of the dispensing tray. And a front end member having a predetermined storage space to store the liquid transferred from the distribution hole of the distribution plate and finally supplying the liquid on the outer surface of the heat transfer tube. do.

Preferably, the tip member includes a guide member for guiding a liquid falling through the distribution hole of the distribution plate, and a liquid that is provided at one end of the guide member and flows along the guide member, and finally the outer surface of the heat transfer tube. And a liquid supply tray which serves to supply liquid to the phase.

Preferably, the liquid supply tray has a predetermined internal space to store the liquid flowing along the guide member, the lower portion of the liquid supply tray is repeatedly supplied at a predetermined interval in the longitudinal direction of the distribution tray The ball is formed.

Preferably, the liquid distribution device is arranged in the longitudinal direction of the heat transfer tube.

Absorption freezer according to the present invention is a liquid introduction tube; Heat pipe group; A liquid distribution device disposed between the liquid introduction pipe and the heat transfer pipe group; An absorption chiller comprising: a liquid dispensing apparatus comprising: a dispensing tray serving to primarily store liquid supplied from the liquid inlet tube; And a distribution plate having distribution holes formed at regular intervals, and having a predetermined storage space to store the liquid transferred from the distribution holes of the distribution plate and finally supply the refrigerant liquid on the outer surface of the heat transfer tube. It characterized in that it comprises a tip member to perform.

Preferably, the liquid dispensing device is disposed in a direction perpendicular to the longitudinal direction of the liquid introduction pipe.

According to a feature of the invention, the lower end of the distribution tray is provided with a tip member consisting of a guide member and a liquid supply tray and a plurality of liquid supply holes formed in the lower portion of the liquid supply tray and finally the liquid on the outer surface of the heat transfer tube Even when the flow rate of the liquid supplied from the liquid introduction pipe to the distribution tray is changed irregularly with the supply, the flow rate of the liquid supplied on the heat transfer pipe can be stably ensured.

Hereinafter, with reference to the drawings will be described in detail the liquid distribution device and the absorption chiller of the absorption chiller according to the present invention. Figure 3 is a perspective view of the liquid distribution device of the absorption chiller according to the present invention, Figure 4 is a cross-sectional view taken along the line AA 'of Figure 3, Figure 5 is a perspective view of the absorption chiller according to the present invention.

First, the liquid dispensing apparatus according to the present invention is applied to an evaporator, an absorber and the like of an absorption chiller. Specifically, the liquid introduction tube (320 of FIG. 5) and the heat transfer tube group (210 of FIG. 3) provided in the evaporator and the absorber are disposed between the liquid such as the refrigerant liquid and the absorption liquid supplied from the liquid introduction tube. It serves to uniformly supply the heat transfer pipe group.

The liquid dispensing apparatus 300 according to the present invention is largely composed of a combination of a distribution tray 301, a dispersion plate 302, and a tip member 310 as shown in FIGS. 3 and 4. The distribution tray 301 may be implemented in various shapes, but for example, may be implemented in a rectangular parallelepiped shape and serves to primarily store liquid supplied from the liquid introduction pipe. Both ends of the distribution tray 301 are provided with a cover plate 304 which prevents the liquid in the space inside the distribution tray 301 from leaking out and fixes the distribution tray 301 to a predetermined mechanism. The distribution plate 302 is provided at the lower end of the distribution tray 301 and the distribution hole 303 is formed at regular intervals in the longitudinal direction of the distribution plate 302. The liquid in the distribution tray 301 is supplied to the tip member 310 through the distribution hole 303. The tip member 310 is a key feature of the present invention to prevent liquid from falling directly from the dispersion plate 302 onto the outer surface of the heat pipe 210 and to uniformly distribute the liquid on the heat pipe 210 outer surface. It serves to supply.

Specifically, the tip member 310 is provided with a guide member 311 for guiding a liquid falling through the distribution hole 303 of the distribution plate 302 and one end of the guide member 311. It is composed of a liquid supply tray 312 that stores the liquid flowing along the 311 and finally serves to supply the liquid on the outer surface of the heat transfer pipe (210).

The guide member 311 is composed of a flat plate inclined by a predetermined angle in order to smoothly flow the liquid falling from the distribution hole 303 by the natural fall into the liquid supply tray 312, the liquid supply tray 312 ) Has a predetermined internal space to store the liquid flowing along the guide member 311 and the liquid repeatedly in the lower portion of the liquid supply tray 312 at regular intervals in the longitudinal direction of the distribution tray 301 The supply hole 312a is formed. The liquid is finally supplied to the outer surface of the heat transfer pipe 210 through the liquid supply hole 312a.

As a predetermined amount or more of the liquid is stored in the liquid supply tray 312, even if the flow rate of the liquid supplied from the liquid introduction pipe 500 to the distribution tray 301 is changed irregularly, the heat transfer pipe 210 may be disposed on the heat transfer pipe 210. The flow rate of the liquid supplied can be reliably ensured.

The liquid dispensing apparatus according to the present invention having the above configuration is provided at a position spaced apart from the heat transfer tube 210 by a predetermined distance upwards, and as the plurality of heat transfer tubes 210 are disposed, the liquid dispensing apparatus also includes a plurality of liquid dispensing devices. It can be configured as. In addition, the liquid distribution device is disposed in the longitudinal direction of the heat pipe 210, the center between the liquid distribution devices to supply a uniform refrigerant on the outer surface of the heat pipe 210 is on the center line of the heat pipe (210). It is preferably located at.

Absorption freezer according to the present invention includes a liquid introducing pipe 320, a liquid distribution device 300, a heat transfer pipe 210 as shown in FIG.

The liquid dispensing device 300 is preferably disposed in a direction perpendicular to the longitudinal direction of the liquid introduction pipe (500). The liquid dispensing device 300 is disposed in a direction perpendicular to the longitudinal direction of the liquid introduction pipe 500 to facilitate the distribution of the liquid, simplify the configuration of the distribution pipe by simplifying the piping structure, absorption chiller capacity Deformation is easy according to.

The liquid distribution device of the absorption chiller according to the present invention has the following effects.

The liquid inlet tube is provided with a tip member composed of a guide member and a liquid supply tray at a lower portion of the distribution tray and finally supplied with a liquid on the outer surface of the heat transfer tube through a plurality of liquid supply holes formed at the lower portion of the liquid supply tray. Even when the flow rate of the liquid supplied to the distribution tray fluctuates irregularly, the flow rate of the liquid supplied on the heat transfer tube can be stably ensured.

That is, even when the operating load of the absorption chiller is changed, the liquid such as the refrigerant liquid, the absorption liquid, and the like can be uniformly supplied to the heat transfer tube even when the rotation speed of the refrigerant pump or the flow rate control.

Claims (6)

In the liquid distribution device of the absorption chiller disposed between the liquid introduction tube and the heat transfer tube group, and serves to supply the liquid on the outer surface of the heat transfer tube, A distribution tray configured to primarily store liquid supplied from the liquid introduction pipe; A distribution plate provided at an inner lower end of the distribution tray and having distribution holes formed at regular intervals in a length direction of the distribution tray; And a front end member having a predetermined storage space for storing the liquid received from the distribution hole of the distribution plate and finally supplying the liquid on the outer surface of the heat transfer tube. Dispensing device. The method of claim 1, wherein the tip member, A guide member for guiding the liquid falling through the distribution hole of the dispersion plate; And a liquid supply tray provided at one end of the guide member to store the liquid flowing along the guide member and finally supplying the liquid on the outer surface of the heat transfer tube. The liquid supply tray of claim 2, wherein the liquid supply tray has a predetermined internal space to store liquid flowing along the guide member, and the lower portion of the liquid supply tray is repeatedly spaced at regular intervals in a length direction of the distribution tray. Liquid dispensing device of the absorption chiller, characterized in that the liquid supply hole is formed. The liquid dispensing apparatus according to claim 1, wherein the liquid dispensing apparatus is disposed in the longitudinal direction of the heat transfer tube. Liquid introduction tube; Heat pipe group; A liquid distribution device disposed between the liquid introduction pipe and the heat transfer pipe group; In the absorption chiller comprising a liquid distribution device, A distribution tray configured to primarily store liquid supplied from the liquid introduction pipe; A distribution plate provided at an inner lower end of the distribution tray and having distribution holes formed at regular intervals in a length direction of the distribution tray; And a front end member having a predetermined storage space for storing the liquid delivered from the distribution hole of the distribution plate and finally supplying the coolant liquid on the outer surface of the heat transfer tube. 6. The absorption chiller of claim 5, wherein the liquid dispensing device is disposed in a direction perpendicular to the longitudinal direction of the liquid introduction pipe.

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