CN106152595A - Efficiently suction-type lithium bromide multifunctional cold and hot water unit - Google Patents

Abstract

The present invention relates to a kind of efficiently suction-type lithium bromide multifunctional cold and hot water unit, including the first casing and the second casing, be provided with the first heat exchanging chamber and the second heat exchanging chamber in the first casing, in the second casing, be provided with the 3rd heat exchanging chamber and the 4th heat exchanging chamber；The first heat exchanger tube it is provided with in first heat exchanging chamber, its top is provided with the first sprinkling case, being provided with the second heat exchanger tube in second heat exchanging chamber, its top is provided with the second sprinkling case, is provided with and multiple crosses its 3rd interior heat exchanger tube in the 3rd heat exchanging chamber, its top is provided with the 3rd sprinkling case, being provided with the 4th heat exchanger tube in 4th heat exchanging chamber, its top is provided with the 4th sprinkling case, is connected by pipeline between the first heat exchanger tube and the 4th heat exchanger tube, second heat exchanger tube is connected with heating equipment, and the 3rd heat exchanger tube is connected with refrigeration plant.The present invention has refrigeration and the function heated, and in refrigeration mode, heat source temperature is reduced to 65 DEG C, uses common thermal source to meet, and such as regular solar or heating boiler waste heat etc., thermal source cost is substantially reduced, applied widely.

Description

Efficiently suction-type lithium bromide multifunctional cold and hot water unit

Technical field

The present invention relates to heat-exchange apparatus field, be specifically related to a kind of efficient bromine that there is refrigeration and heat one Change lithium-absorbing formula multifunctional cold and hot water unit.

Background technology

Lithium-bromide absorption-type refrigerating machine is with lithium-bromide solution as absorbent, with water as cold-producing medium, utilizes water to exist At about 7 DEG C i.e. evaporation endothermic to reach the purpose of refrigeration under fine vacuum.For making process of refrigerastion energy successively Go on, the water as refrigerant steam after evaporation is brominated lithium solution and is absorbed, and solution is thinning, this process Absorber occurs, then with heat energy as power, makes its moisture content separate solution heating, and Solution thickens, and this process is carried out in generator.The steam obtained in generator coagulates within the condenser Form water, deliver to again vaporizer evaporates after throttling.So circulation reaches the purpose of continuous cooling.

Heat source temperature is low represents desirable heat rating extensively, and tradition lithium bromide refrigerator needs subsistence level more than 80 DEG C Thermal source, only steam or boiler etc. could meet, and simultaneously when the situation of appearance leakage, human body can be caused height Temperature is scalded.

Summary of the invention

It is an object of the invention to provide a kind of efficiently suction-type lithium bromide multifunctional cold and hot water unit, similar type Start-up temperature higher (80 DEG C or higher), floor space is big and heats the problem that leaving water temperature is low, meets The demand of the domestic water of user's cooling in summer and winter heating.

It is an object of the invention to be achieved through the following technical solutions:

A kind of efficiently suction-type lithium bromide multifunctional cold and hot water unit, including the first casing and the second casing, institute State in the first casing and be divided into the first heat exchanging chamber and the second heat exchanging chamber by being provided with the first thermal insulation layer, described It is divided into the 3rd heat exchanging chamber and the 4th heat exchanging chamber by being provided with the second thermal insulation layer in second casing.

It is provided with in described first heat exchanging chamber and multiple crosses its first interior heat exchanger tube, the top of described first heat exchanger tube Portion is provided with the first sprinkling case, and the position of the described first corresponding described first heat exchanger tube in bottom spraying case is provided with spills Fluid apertures, described first spray case built with lithium bromide liquid spray from spilling fluid apertures, enter with the first heat exchanger tube Row heat exchange.

It is provided with in described second heat exchanging chamber and multiple crosses its second interior heat exchanger tube, the top of described second heat exchanger tube Portion is provided with the second sprinkling case, and the position of the described second corresponding described second heat exchanger tube in bottom spraying case is provided with spills Fluid apertures, described second spray case built with lithium bromide liquid spray from spilling fluid apertures, enter with the second heat exchanger tube Row heat exchange.

Multiple its 3rd interior heat exchanger tube that crosses, the top of described 3rd heat exchanger tube it is provided with in described 3rd heat exchanging chamber Portion is provided with the 3rd sprinkling case, and the position of the described 3rd corresponding described 3rd heat exchanger tube in bottom spraying case is provided with spills Fluid apertures, the described 3rd spray case built with lithium bromide liquid spray from spilling fluid apertures, enter with the 3rd heat exchanger tube Row heat exchange.

Multiple its 4th interior heat exchanger tube that crosses, the top of described 4th heat exchanger tube it is provided with in described 4th heat exchanging chamber Portion is provided with the 4th sprinkling case, and the position of the described 4th corresponding described 4th heat exchanger tube in bottom spraying case is provided with spills Fluid apertures, the described 4th spray case built with lithium bromide liquid spray from spilling fluid apertures, enter with the 4th heat exchanger tube Row heat exchange.

Connected by pipeline between described first heat exchanger tube and the 3rd heat exchanger tube, described second heat exchanger tube and heating Equipment connect, for for heating equipment provide hot water, state the 4th heat exchanger tube and be connected with refrigeration plant, be used for be Refrigeration plant provides cold water.

Described first inlet spraying case connects the 4th heat exchanging chamber by pipeline, and described second sprays entering of case Liquid mouth connects the first heat exchanging chamber by pipeline, and the described 3rd inlet spraying case connects second by pipeline and changes Hot chamber, the described 4th inlet spraying case connects the 3rd heat exchanging chamber by pipeline, forms lithium bromide liquid and follow Loop back path.

Further, described first sprinkling case, the second sprinkling case, the 3rd sprinkling case and the 4th spray case and are Bottom is the body structure of plane, and its side sidewall is provided with inlet.

Further, described first heat exchanger tube and the second heat exchanger tube are all horizontally set in the first casing.

Further, described 3rd heat exchanger tube and the 4th heat exchanger tube are all horizontally set in the second casing.

Further, described first heat exchanger tube is that matrix is uniformly distributed, and is equipped with the first reserving liquid tank at its two ends, Wherein being provided with dividing plate in the first reserving liquid tank of side, the both sides that described first reserving liquid tank is in dividing plate set respectively There are inlet and liquid outlet, form U-shaped loop or S-shaped loop, for increasing by the first heat exchanger tube The contact area of recirculated water and lithium bromide liquid, thus increase heat transfer effect.

Further, described second heat exchanger tube is that matrix is uniformly distributed, and is equipped with the second reserving liquid tank at its two ends, Wherein being provided with dividing plate in the second reserving liquid tank of side, the both sides that described second reserving liquid tank is in dividing plate set respectively There are inlet and liquid outlet, form U-shaped loop or S-shaped loop, for increasing by the second heat exchanger tube The contact area of recirculated water and lithium bromide liquid, thus increase heat transfer effect.

Further, described 3rd heat exchanger tube is that matrix is uniformly distributed, and is equipped with the 3rd reserving liquid tank at its two ends, Wherein being provided with dividing plate in the 3rd reserving liquid tank of side, the both sides that described 3rd reserving liquid tank is in dividing plate set respectively There are inlet and liquid outlet, form U-shaped loop or S-shaped loop, for increasing by the 3rd heat exchanger tube The contact area of recirculated water and lithium bromide liquid, thus increase heat transfer effect.

Further, described 4th heat exchanger tube is that matrix is uniformly distributed, and is equipped with the 4th reserving liquid tank at its two ends, Wherein being provided with dividing plate in the 4th reserving liquid tank of side, the both sides that described 4th reserving liquid tank is in dividing plate set respectively There are inlet and liquid outlet, form U-shaped loop or S-shaped loop, for increasing by the 4th heat exchanger tube The contact area of recirculated water and lithium bromide liquid, thus increase heat transfer effect.

Further, the structure of described first casing and the second casing is identical, and the bottom of described first casing is solid Surely connecting the second casing, the bottom of described second casing is provided with underframe.

Further, described lithium bromide liquid circulating apparatus provides liquid circulation power by liquid pump, described Liquid pump is arranged on the bottom of described second casing, and this liquid pump is acid-proof liquid pump.

The invention have the benefit that the function that the present invention has refrigeration and heats, thermal source temperature in refrigeration mode Degree is reduced to 65 DEG C, uses common thermal source to meet, such as regular solar or heating boiler waste heat etc., heat Source cost is substantially reduced, applied widely；Integral device is compact to design, and floor space is only 1.5 square meters, Empty mass is 1012KG, it is simple to mobile and installation, meets user's cooling in summer and winter heating carries simultaneously Demand for domestic water.

Accompanying drawing explanation

Below according to accompanying drawing, the present invention is described in further detail.

Fig. 1 is the positive TV structure of efficient suction-type lithium bromide multifunctional cold and hot water unit described in the embodiment of the present invention Figure；

Fig. 2 be in Fig. 1 A-A to sectional structure chart；

Fig. 3 is that in Fig. 1, B arrow in structure chart, figure is the flow direction of recirculated water.

In figure:

1, the first casing；

2, the first heat exchanging chamber；3, the first heat exchanger tube；4, the first storage tank；5, first sprays case；

6, the second heat exchanging chamber；7, the second heat exchanger tube；8, the second storage tank；9, second sprays case；

10, the second casing；

11, the 3rd heat exchanging chamber；12, the 3rd heat exchanger tube；13, the 3rd storage tank；14, the 3rd sprays case；

15, the 4th heat exchanging chamber；16, the 4th heat exchanger tube；17, the 4th storage tank；18, the 4th sprays case；

19, underframe；20, liquid pump；21, heating equipment；22, refrigeration plant；23, the first thermal insulation layer； 24, the second thermal insulation layer.

Detailed description of the invention

As it is shown in figure 1, a kind of efficiently suction-type lithium bromide multifunctional cold and hot water machine described in the embodiment of the present invention Group, including the first casing 1 and the second casing 10, the structure phase of described first casing 1 and the second casing 10 With, the bottom of described first casing 1 is fixing connects the second casing 10, and the bottom of described second casing 10 is provided with Underframe 19.

As Figure 2-3, it is divided into first by being provided with the first thermal insulation layer 23 in described first casing 1 Heat exchanging chamber 2 and the second heat exchanging chamber 6, be vacuum chamber in described first heat exchanging chamber 2 and the second heat exchanging chamber 6, Some the first heat exchanger tubes 3 crossing described first heat exchanging chamber 2 it are provided with in described first heat exchanging chamber 2, described One heat exchanger tube 3 is uniformly distributed in 6x32, and the two ends of described first heat exchanger tube 3 are equipped with the first storage tank 4, Wherein it is provided with dividing plate in the first storage tank 4 of side, this first storage tank 4 is positioned at the both sides of described dividing plate Being respectively equipped with water inlet and outlet, the first storage tank 4 is connected with the first heat exchanger tube 3, makes described first The both sides at dividing plate divided equally by heat exchanger tube 3, form U-shaped water route, described first heat exchanger tube 3 be arranged over the One sprays case 5, and described first sprinkling case 5 is body structure, and its side is provided with water inlet, corresponding bottom it The place of described first heat exchanger tube 3 is provided with spills fluid apertures, and described first sprays the lithium bromide liquid in case 5 from spilling Fluid apertures sprays, and carries out heat exchange with the recirculated water of circulation in the first heat exchanger tube 3, and the first heat exchanger tube 3 is also simultaneously Separate lithium bromide liquid and recirculated water.

Some the second heat exchanger tubes 7 crossing described second heat exchanging chamber 6, institute it is provided with in described second heat exchanging chamber 6 Stating the second heat exchanger tube 7 to be uniformly distributed in 6x12, the two ends of described second heat exchanger tube 7 are equipped with the second storage tank 8, wherein it is provided with dividing plate in the second storage tank 8 of side, this second storage tank 8 is positioned at the two of described dividing plate Side is respectively equipped with water inlet and outlet, and the second storage tank 8 is connected with the second heat exchanger tube 7, makes described The both sides at dividing plate divided equally by two heat exchanger tubes 7, form U-shaped water route, being arranged over of described second heat exchanger tube 7 Second sprays case 9, and described second sprinkling case 9 is body structure, and its side is provided with water inlet, right bottom it The place of described second heat exchanger tube 7 should be provided with and spills fluid apertures, described second spray lithium bromide liquid in case 9 from Spill fluid apertures to spray, carry out heat exchange, simultaneously the second heat exchanger tube 7 with the recirculated water of circulation in the second heat exchanger tube 7 Also lithium bromide liquid and recirculated water are separated.

Some the 3rd heat exchanger tubes 12 crossing described 3rd heat exchanging chamber 11 it are provided with in described 3rd heat exchanging chamber 11, Described 3rd heat exchanger tube 12 is uniformly distributed in 6x32, and the two ends of described 3rd heat exchanger tube 12 are equipped with the 3rd storage Water tank 13, is wherein provided with dividing plate in the 3rd storage tank 13 of side, the 3rd storage tank 13 is positioned at described Dividing plate be respectively provided on two sides with water inlet and outlet, the 3rd storage tank 13 is connected with the 3rd heat exchanger tube 12, Make described 3rd heat exchanger tube 12 divide the both sides at dividing plate equally, form U-shaped water route, described 3rd heat exchanger tube 12 Be arranged over the 3rd sprinkling case 14, described 3rd spray case 14 be body structure, its side is provided with into water Mouthful, bottom it, the place of corresponding described 3rd heat exchanger tube 12 is provided with and spills fluid apertures, and the described 3rd sprays in case 14 Lithium bromide liquid spray from spilling fluid apertures, carry out heat exchange with the recirculated water of circulation in the 3rd heat exchanger tube 12, with Time the 3rd heat exchanger tube 12 also separate lithium bromide liquid and recirculated water.

Some the 4th heat exchanger tubes 16 crossing described 4th heat exchanging chamber 15 it are provided with in described 4th heat exchanging chamber 15, Described 4th heat exchanger tube 16 is uniformly distributed in 6x12, and the two ends of described 4th heat exchanger tube 16 are equipped with the 4th storage Water tank 17, is wherein provided with dividing plate in the 4th storage tank 17 of side, the 4th storage tank 17 is positioned at described Dividing plate be respectively provided on two sides with water inlet and outlet, the 4th storage tank 17 is connected with the 4th heat exchanger tube 16, Make described 4th heat exchanger tube 16 divide the both sides at dividing plate equally, form U-shaped water route, described 4th heat exchanger tube 16 Be arranged over the 4th sprinkling case 18, described 4th spray case 18 be body structure, its side is provided with into water Mouthful, bottom it, the place of corresponding described 4th heat exchanger tube 16 is provided with and spills fluid apertures, and the described 4th sprays in case 18 Lithium bromide liquid spray from spilling fluid apertures, carry out heat exchange with the recirculated water of circulation in the 4th heat exchanger tube 16, with Time the 4th heat exchanger tube 16 also separate lithium bromide liquid and recirculated water.

Described first heat exchanger tube 3 is connected by pipeline between the 4th heat exchanger tube 16, described second heat exchanger tube 7 It is connected with heating equipment 21, for providing hot water for heating equipment 21, states the 3rd heat exchanger tube 12 and set with refrigeration Standby 22 connect, for providing cold water for refrigeration plant 22.

Described first inlet spraying case 5 connects the 4th heat exchanging chamber 15 by pipeline, and described second sprays case The inlet of 9 connects the first heat exchanging chamber 2 by pipeline, and the described 3rd inlet spraying case 14 passes through pipeline Connecting the second heat exchanging chamber 6, the described 4th inlet spraying case 18 connects the 3rd heat exchanging chamber 11 by pipeline, Form lithium bromide liquid circulation loop.

Refrigeration mode operation principle:

Time specifically used, the recirculated water through solar energy heating enters into the first heat exchanging chamber from the first heat exchanger tube 3 In 2, the lithium bromide liquid sprayed from the first sprinkling case 5 carries out heat exchange with recirculated water, then changes first Assembling in hot chamber 2, the circulating water temperature in the first heat exchanger tube 3 is flowed in the 4th heat exchanger tube 16 after reducing.

Absorb the lithium bromide liquid after temperature to be come in the second sprinkling case 9 by pipeline, spray from water sprayering hole, Carry out heat exchange with the second heat exchanger tube 7, make the temperature of the recirculated water in the second heat exchanger tube 7 raise, the second heat exchange Pipe 7 is connected with heating system.

Lithium bromide liquid after cooling is entered in the 3rd sprinkling case 14 by pipeline, sprays from water sprayering hole, Carrying out heat exchange with the 3rd heat exchanger tube 12, make the temperature of the recirculated water in the 3rd heat exchanger tube 12 reduce, the 3rd changes Heat pipe 12 is connected with refrigeration system.

Absorb the lithium bromide liquid after temperature to be come in the 4th sprinkling case 18 by pipeline, spray from water sprayering hole Go out, carry out heat exchange with the 4th heat exchanger tube 16, make the temperature of the recirculated water in the 4th heat exchanger tube 16 raise, temperature Recirculated water after degree raises enters in the first heat exchanger tube 3 after the 4th heat exchanger tube 16 flows out, and forms circulation.

The present invention is not limited to above-mentioned preferred forms, and anyone can draw it under the enlightenment of the present invention His various forms of products, no matter but in its shape or structure, make any change, every have and the application Technical scheme as same or like, within all falling within protection scope of the present invention.

Claims (10)

1. an efficient suction-type lithium bromide multifunctional cold and hot water unit, it is characterised in that: bag Include the first casing and the second casing, by being provided with the first thermal insulation layer by its point in described first casing It is divided into the first heat exchanging chamber and the second heat exchanging chamber, by being provided with the second thermal insulation layer in described second casing It is divided into the 3rd heat exchanging chamber and the 4th heat exchanging chamber；

Being provided with multiple its first interior heat exchanger tube that crosses in described first heat exchanging chamber, described first changes The top of heat pipe is provided with the first sprinkling case, and the described first bottom corresponding described first spraying case is changed The position of heat pipe is provided with spills fluid apertures；

Being provided with multiple its second interior heat exchanger tube that crosses in described second heat exchanging chamber, described second changes The top of heat pipe is provided with the second sprinkling case, and the described second bottom corresponding described second spraying case is changed The position of heat pipe is provided with spills fluid apertures；

Being provided with multiple its 3rd interior heat exchanger tube that crosses in described 3rd heat exchanging chamber, the described 3rd changes The top of heat pipe is provided with the 3rd sprinkling case, and the described 3rd bottom the corresponding described 3rd spraying case is changed The position of heat pipe is provided with spills fluid apertures；

Being provided with multiple its 4th interior heat exchanger tube that crosses in described 4th heat exchanging chamber, the described 4th changes The top of heat pipe is provided with the 4th sprinkling case, and the described 4th bottom the corresponding described 4th spraying case is changed The position of heat pipe is provided with spills fluid apertures；

Connected by pipeline between described first heat exchanger tube and the 4th heat exchanger tube, described second heat exchange Pipe is connected with heating equipment, for providing hot water for heating equipment, states the 3rd heat exchanger tube and refrigeration Equipment connects, for providing cold water for refrigeration plant；

Described first inlet spraying case connects the 4th heat exchanging chamber, described second spray by pipeline The inlet spilling case connects the first heat exchanging chamber by pipeline, and the described 3rd inlet spraying case leads to Piping connects the second heat exchanging chamber, and the described 4th inlet spraying case connects the 3rd by pipeline Heat exchanging chamber, forms lithium bromide liquid circulation loop.

Multifunctional cold and hot water unit the most according to claim 1, it is characterised in that: institute It is flat for stating the first sprinkling case, the second sprinkling case, the 3rd sprinkling case and the 4th sprinkling case and being bottom The body structure in face, its side sidewall is provided with inlet.

Multifunctional cold and hot water unit the most according to claim 1, it is characterised in that: institute State the first heat exchanger tube and the second heat exchanger tube is all horizontally set in the first casing.

Multifunctional cold and hot water unit the most according to claim 1, it is characterised in that: institute State the 3rd heat exchanger tube and the 4th heat exchanger tube is all horizontally set in the second casing.

Multifunctional cold and hot water unit the most according to claim 1, it is characterised in that: institute Stating the first heat exchanger tube is that matrix is uniformly distributed, and is equipped with the first reserving liquid tank, Qi Zhongyi at its two ends It is provided with dividing plate in first reserving liquid tank of side, described first reserving liquid tank is in the both sides of dividing plate respectively It is provided with inlet and liquid outlet.

Multifunctional cold and hot water unit the most according to claim 1, it is characterised in that: institute Stating the second heat exchanger tube is that matrix is uniformly distributed, and is equipped with the second reserving liquid tank, Qi Zhongyi at its two ends It is provided with dividing plate in second reserving liquid tank of side, described second reserving liquid tank is in the both sides of dividing plate respectively It is provided with inlet and liquid outlet.

Multifunctional cold and hot water unit the most according to claim 1, it is characterised in that: institute Stating the 3rd heat exchanger tube is that matrix is uniformly distributed, and is equipped with the 3rd reserving liquid tank, Qi Zhongyi at its two ends It is provided with dividing plate in 3rd reserving liquid tank of side, described 3rd reserving liquid tank is in the both sides of dividing plate respectively It is provided with inlet and liquid outlet.

Multifunctional cold and hot water unit the most according to claim 1, it is characterised in that: institute Stating the 4th heat exchanger tube is that matrix is uniformly distributed, and is equipped with the 4th reserving liquid tank, Qi Zhongyi at its two ends It is provided with dividing plate in 4th reserving liquid tank of side, described 4th reserving liquid tank is in the both sides of dividing plate respectively It is provided with inlet and liquid outlet.

Multifunctional cold and hot water unit the most according to claim 1, it is characterised in that: institute The structure stating the first casing and the second casing is identical, and connection is fixed in the bottom of described first casing Two casings, the bottom of described second casing is provided with underframe.

Multifunctional cold and hot water unit the most according to claim 1, it is characterised in that: institute Stating lithium bromide liquid circulating apparatus and provide liquid circulation power by liquid pump, described liquid pump sets Put the bottom at described second casing.