CN110411077A - Evaporating type condensing mechanism and vaporation-type water cooler - Google Patents

Abstract

The present invention relates to a kind of evaporating type condensing mechanism and vaporation-type water coolers, evaporating type condensing mechanism, including condensation, evaporative condenser, water mist sprinkling component and blower, the water mist sprinkling component, which is used to spray water mist for the evaporative condenser, forms moisture film, the blower provides wind-force, for increasing the air circulation of moisture film heat transfer space on the evaporative condenser, the condensation is plate structure, the condensation laterally blocks the leeward side in the evaporative condenser, the refrigerant exit of the condensation is connected to the refrigerant inlet of the evaporative condenser.The condensation integrates water mist and blocks with heat exchange function, the improving heat exchanging efficiency in the case where ensureing the evaporating type condensing mechanism overall dimensions.

Description

Evaporating type condensing mechanism and vaporation-type water cooler

Technical field

The present invention relates to air-conditioning field of heat exchange, more particularly to a kind of evaporating type condensing mechanism and vaporation-type water cooler.

Background technique

Vaporation-type water cooler can not install cooling tower and to the higher neck of requirements of installation space because of its versatility It is used widely in domain.By will be formed on the heat exchanger tube of water mist sprinkling to evaporative condenser in general vaporation-type water cooler Moisture film, using during water film evaporation latent heat heat exchange and sensible heat transfer, the heat in heat exchanger tube is taken away.And in order to increase Heat transfer effect can also further add axial flow blower and wind deflector in evaporative condenser, accelerate water film evaporation efficiency, simultaneously Axial flow blower is avoided directly to siphon away water mist.But with the further development of air conditioning field, how to ensure whole knot The heat exchange efficiency that vaporation-type water cooler is further promoted in the case where structure size is particularly important.

Summary of the invention

Based on this, it is necessary to a kind of evaporating type condensing mechanism and vaporation-type water cooler are provided, to ensure overall structure Improving heat exchanging efficiency in the case where size.

A kind of evaporating type condensing mechanism, including condensation, evaporative condenser, water mist sprinkling component and blower, it is described Water mist sprinkling component, which is used to spray water mist for the evaporative condenser, forms moisture film, and the blower provides wind-force, for increasing The air circulation of moisture film heat transfer space on the evaporative condenser, the condensation are plate structure, the condensation group Part laterally blocks the leeward side in the evaporative condenser, the refrigerant exit of the condensation and the evaporative condenser Refrigerant inlet connection.

Above scheme provides a kind of evaporating type condensing mechanism, and plate knot is arranged in the leeward side of the evaporative condenser The condensation of structure, so that the condensation can in refrigeration after the blower and water mist sprinkling component start Water mist is blocked, water mist is avoided directly to be blown away by the wind-force that the blower provides.Exactly because the condensation It needs directly to block water mist, so that the air-flow for flowing through the condensation is the air-flow of moist low temperature, it is damp here The air-flow of wet low temperature can exchange heat with the refrigerant in the condensation.So that refrigerant is cold into the vaporation-type It is first pre-chilled in the condensation before condenser, and water mist is directly blocked based on the condensation, and it is described The gas flow temperature that refrigerant in condensation exchanges heat is lower, and heat exchange efficiency is higher, to further promote institute on the whole State the heat exchange efficiency of evaporating type condensing mechanism.The condensation integrate water mist block with heat exchange function, described in guarantee Improving heat exchanging efficiency in the case where evaporating type condensing mechanism overall dimensions.

The condensation includes heat exchanger tube and multiple fins, the refrigerant of the heat exchanger tube in one of the embodiments, Outlet is connected to the refrigerant inlet of the evaporative condenser, and the heat exchanger tube is repeatedly bent, and multiple fins are arranged in institute It states and forms heat exchanger plates on heat exchanger tube, the heat exchanger plates laterally block the leeward side in the evaporative condenser.

The blower is axial flow blower, the air inlet of the axial flow blower and the evaporation in one of the embodiments, Moisture film heat transfer space on formula condenser is opposite, and the condensation is blocked in the axial flow blower and the evaporative condenser Between, the exhausting direction of the axial flow blower is the direction far from the condensation.

The refrigerant inlet of the refrigerant exit of the condensation and the evaporative condenser in one of the embodiments, Between be communicated with refrigerant pipe, the refrigerant pipe is equipped with high-voltage switch gear.

The refrigerant pipe is equipped with check valve in one of the embodiments, so that the refrigerant in the refrigerant pipe can only Enough refrigerant inlets that the evaporative condenser is flowed to by the refrigerant exit of the condensation.

The pipe number of the exhaust air inlet pipeline section of the evaporative condenser and the vaporation-type are cold in one of the embodiments, The pipe number of the saturated gas circulation pipeline section of condenser is equal；

The pipe number of the saturated liquid circulation pipeline section of the evaporative condenser is the saturation of the evaporative condenser Gas circulate section pipe number half to 2/3rds；

The pipe number of the saturated liquid circulation pipeline section of the evaporative condenser is equal with the supercooling pipe number of pipeline section.

The single loop pipe number of inlet pipe section is 1 in the evaporative condenser in one of the embodiments, single module pipe number It is 69 for 23 and pipeline quantity；

Single return pipe number of exhaust air inlet pipeline section and saturated gas the circulation pipeline section of the evaporative condenser is 28, single module Pipe number is 644 and pipeline quantity is 1932；

The saturated liquid circulation pipeline section of the evaporative condenser and the single loop pipe number that pipeline section is subcooled are 18, single module pipe Number is 414 and pipeline quantity is 1242；

The single loop pipe number of the outlet pipe section of the evaporative condenser is 1, and single module pipe number is 23 and pipeline quantity It is 69.

The water mist sprinkling component includes the spray head being sequentially communicated, water pump, water tank and catchments in one of the embodiments, The heat exchanger tube of disk, the spray head and the evaporative condenser is correspondingly arranged, for the heat exchanger tube to the evaporative condenser It sprays water mist and forms moisture film, the water-collecting tray is located at the lower section of the evaporative condenser, passes through heat exchange from described for containing The ponding dripped on evaporative condenser.

A kind of vaporation-type water cooler, including above-mentioned evaporating type condensing mechanism.

Above scheme provides a kind of vaporation-type water cooler, by being arranged above-mentioned in the vaporation-type water cooler One evaporating type condensing mechanism as described in the examples, so that the condensation described in process of refrigerastion can be directly to the water mist The water mist of spray assemblies sprinkling is blocked, and is avoided water mist from directly being blown away by the wind-force that the blower provides, is led to not in institute The case where stating and form moisture film on evaporative condenser, influencing heat transfer effect generation.And based on the condensation directly to water Mist is blocked, so that the low temperature and moisture air-flow by the condensation can carry out height with the refrigerant in the condensation The heat exchange of effect.So that refrigerant is first pre-chilled in the condensation before entering evaporative condenser, heat exchange effect is improved Fruit.The condensation integrate water mist block with heat exchange function, ensureing evaporating type condensing mechanism overall dimensions In the case of improving heat exchanging efficiency.

The vaporation-type water cooler further includes compressor, evaporator and electric expansion valve in one of the embodiments, The first refrigerant pipe, the evaporation are communicated with when refrigeration between the exhaust outlet of the compressor and the refrigerant inlet of the condensation The second refrigerant pipe is communicated between the refrigerant exit of formula condenser and the refrigerant inlet of the evaporator, the electric expansion valve is set It sets on second refrigerant pipe, third refrigerant is equipped between the refrigerant exit of the evaporator and the inlet of the compressor Pipe.

Detailed description of the invention

Fig. 1 is the system diagram of vaporation-type water cooler described in the present embodiment.

Description of symbols:

10, vaporation-type water cooler；11, compressor；12, evaporator；13, electric expansion valve；14, the first refrigerant pipe；15, Second refrigerant pipe；16, third refrigerant pipe；17, evaporating type condensing mechanism；171, condensation；172, evaporative condenser；173, Water mist sprinkling component；1731, spray head；1732, water pump；1733, water tank；1734, water-collecting tray；174, blower；175, refrigerant pipe； 1751, high-voltage switch gear.

Specific embodiment

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, with reference to the accompanying drawing to the present invention Specific embodiment be described in detail.Many details are explained in the following description in order to fully understand this hair It is bright.But the invention can be embodied in many other ways as described herein, those skilled in the art can be not Similar improvement is done in the case where violating intension of the present invention, therefore the present invention is not limited to the specific embodiments disclosed below.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Each technical characteristic of embodiment described above can carry out arbitrarily Combination, for simplicity of description, it is not all possible to each technical characteristic in above-described embodiment combination be all described, so And as long as there is no contradiction in the combination of these technical features, it all should be considered as described in this specification.

As shown in Figure 1, providing a kind of evaporating type condensing mechanism 17 in one embodiment, including condensation 171, steaming Hairdo condenser 172, water mist sprinkling component 173 and blower 174.

The water mist sprinkling component 173, which is used to spray water mist for the evaporative condenser 172, forms moisture film, the blower 174 provide wind-force, for increasing the air circulation of moisture film heat transfer space on the evaporative condenser 172.So that the steaming The heat exchange efficiency of hairdo condenser 172 improves.

The condensation 171 is plate structure, and the condensation 171 is laterally blocked in the evaporative condenser 172 leeward side.When the blower 174 provides wind-force, the condensation 171 can be to the water mist sprinkling component 173 The water mist of sprinkling is blocked, and water mist is avoided directly to be blown away by the wind-force that the blower 174 provides.

Exactly because the condensation 171 needs directly to block water mist, so that flowing through described cold The air-flow of solidifying component 171 is the air-flow of moist low temperature, here the air-flow of moist low temperature can with it is cold in the condensation 171 Matchmaker exchanges heat.

The refrigerant exit of the condensation 171 is connected to the refrigerant inlet of the evaporative condenser 172.So that Refrigerant is first pre-chilled in the condensation 171 before entering the evaporative condenser 172, and based on described cold Solidifying component 171 directly blocks water mist, and the gas flow temperature to exchange heat with the refrigerant in the condensation 171 is lower, heat exchange Efficiency is higher, to further promote the heat exchange efficiency of the evaporating type condensing mechanism 17 on the whole.The condensation 171 Integrate water mist to block with heat exchange function, the promotion heat exchange effect in the case where ensureing the evaporating type condensing mechanism overall dimensions Rate.

Specifically, the blower 174 can be axial flow blower, realize air circulation by exhausting.Or the blower 174 It may be other forms, as long as being capable of providing wind-force, so that the sky on the evaporative condenser 172 in moisture film heat transfer space Air-flow general character increase.

Specifically, the condensation 171 can be air cooling fin, using fin intensive in the air cooling fin to water Mist is blocked, and the air of low temperature and moisture is exchanged heat with the refrigerant in air cooling fin.

For example, in one embodiment, when the condensation 171 is air cooling fin, the condensation 171 includes changing Heat pipe and multiple fins, the refrigerant exit of the heat exchanger tube is connected to the refrigerant inlet of the evaporative condenser 172, described to change Heat pipe is repeatedly bent, and multiple fin settings form heat exchanger plates on the heat exchanger tube, and the heat exchanger plates are laterally blocked in institute State the leeward side of evaporative condenser 172.

When blower 174 starts, it can be played positioned at the heat exchanger plates of 172 leeward side of evaporative condenser and block water mist Purpose, ensure that water energy that the water mist sprinkling component 173 sprays enough is dropped on the evaporative condenser 172 and form water Film promotes the promotion of heat transfer effect.And the heat exchanger plates are when blocking water mist, the air-flow of low temperature and moisture passes through the wing Piece exchanges heat with the refrigerant in the heat exchanger tube, plays precooling effect.

Further specifically, in one embodiment, as shown in Figure 1, when the blower 174 is axial flow blower 174, institute The air inlet for stating axial flow blower 174 is opposite with the moisture film heat transfer space on the evaporative condenser 172.The condensation 171 block between the axial flow blower 174 and the evaporative condenser 172, and the exhausting direction of the axial flow blower 174 is Direction far from the condensation 171.It, can be by water mist to close to the condensation when the axial flow blower 174 running 171 direction is twitched, and the condensation 171 exchanges heat with low temperature and moisture air while blocking to water mist, reaches To the effect being pre-chilled with the refrigerant for entering the evaporative condenser 172.

When the condensation 171 is the air cooling fin, the air cooling fin block the axial flow blower 174 with Between the evaporative condenser 172, the exhausting direction of the axial flow blower 174 is the direction far from the air cooling fin.

Further, in one embodiment, as shown in Figure 1, the refrigerant exit of the condensation 171 and the evaporation Refrigerant pipe 175 is communicated between the refrigerant inlet of formula condenser 172, the refrigerant pipe 175 is equipped with high-voltage switch gear 1751.

When pressure is not in default allowed band in the refrigerant pipe 175, the high-voltage switch gear 1751 is opened, and is entered Alarm and protection state.Ensure that the evaporative condenser 172 can work in reliable pressure limit, to ensure the steaming The heat exchange efficiency of hairdo condenser 172.

When the condensation 171 is the air cooling fin, the refrigerant pipe 175 is connected to changing in the air cooling fin Between the refrigerant exit of heat pipe and the refrigerant inlet of the evaporative condenser 172.

Further, in one embodiment, the refrigerant pipe 175 is equipped with check valve, so that in the refrigerant pipe 175 Refrigerant be merely able to flow to the refrigerant inlet of the evaporative condenser 172 by the refrigerant exit of the condensation 171.Effectively It avoids because of the case where refrigerant flow rate is limited coolant backflow in the evaporative condenser 172 generation.Improve the evaporating type condensing 17 reliability of operation of mechanism.

Further, in one embodiment, the evaporative condenser 172 is the heat exchange being made of three single modules Device, so that overall heat exchange effect is more excellent.

Specifically, in one embodiment, the pipe number of the exhaust air inlet pipeline section of the evaporative condenser 172 and the steaming The pipe number of the saturated gas circulation pipeline section of hairdo condenser 172 is equal.Based on refrigerant before entering the exhaust air inlet pipeline section It to be pre-chilled by the condensation 171, therefore can satisfying with described by the pipe number setting of the exhaust air inlet pipeline section It is equal with gas circulation section pipe number.

When refrigerant becomes liquid after saturated gas circulation pipeline section heat exchange, to reach heat transfer effect for saturated liquid The pipe number of circulation pipeline section is set as the half of the saturated gas circulation section pipe number of the evaporative condenser 172 to three / bis-.

And the pipe number phase of the pipe number of the supercooling pipeline section of the evaporative condenser 172 and saturated liquid circulation pipeline section Deng.

Specifically, in order to enable the flow velocity of refrigerant maintains 0.05m/s~0.1m/s in saturated liquid circulation pipeline section Between, 18 are set by the pipe number of saturated liquid circulation pipeline section.

For example, in one embodiment, the single loop pipe number of inlet pipe section is 1 in the evaporative condenser 172, single module Pipe number is 23 and pipeline quantity is 69；

Single return pipe number of exhaust air inlet pipeline section and saturated gas the circulation pipeline section of the evaporative condenser 172 is 28, single Module tubes number is 644 and pipeline quantity is 1932；

The saturated liquid circulation pipeline section of the evaporative condenser 172 and the single loop pipe number that pipeline section is subcooled are 18, single mode Block pipe number is 414 and pipeline quantity is 1242；

The single loop pipe number of the outlet pipe section of the evaporative condenser 172 is 1, and single module pipe number is 23 and pipeline number Amount is 69.

So that the flow velocity of the inlet pipe section maintains 7m/s~10m/s, it is vented air inlet pipeline section and saturated gas circulation The flow velocity of pipeline section maintains 0.5m/s~1m/s, so that condensing pressure and flow velocity are kept in OK range.

Further, in one embodiment, as shown in Figure 1, the water mist sprinkling component 173 includes the spray being sequentially communicated First 1731, water pump 1732, water tank 1733 and water-collecting tray 1734, the heat exchange of the spray head 1731 and the evaporative condenser 172 Pipe is correspondingly arranged, for forming moisture film, the water-collecting tray 1734 to the heat exchanger tube of the evaporative condenser 172 sprinkling water mist In the lower section of the evaporative condenser 172, for containing the product passing through heat exchange and dripping from the evaporative condenser 172 Water.

The water collected in the water-collecting tray 1734 is stored in the water tank 1733, will under the action of water pump 1732 Hydraulic pressure in the water tank 1733 enters the spray head 1731, realizes water circulation.

In one embodiment, as shown in Figure 1, when the blower 174 is axial flow blower, the condensation 171 is wind When cold fin, the air cooling fin is blocked between the spray head 1731 and the axial flow blower 174.

Further, as shown in Figure 1, providing a kind of vaporation-type water cooler 10 in another embodiment, including it is upper The evaporating type condensing mechanism 17 stated.

By the way that any of the above-described evaporating type condensing mechanism as described in the examples is arranged in the vaporation-type water cooler 10 17, so that the condensation 171 described in process of refrigerastion can directly carry out the water mist of the water mist sprinkling component 173 sprinkling It blocks, water mist is avoided directly to be blown away by the wind-force that the blower 174 provides, lead to not on the evaporative condenser 172 The case where forming moisture film, influencing heat transfer effect generation.And directly water mist is blocked based on the condensation 171, from And the low temperature and moisture air-flow Jing Guo the condensation 171 can efficiently be changed with the refrigerant in the condensation 171 Heat.So that refrigerant is first pre-chilled in the condensation 171 before entering evaporative condenser 172, heat exchange effect is improved Fruit.The condensation 171 integrate water mist block with heat exchange function, ensure evaporating type condensing mechanism overall dimensions In the case where improving heat exchanging efficiency.

Specifically, in one embodiment, as shown in Figure 1, the vaporation-type water cooler 10 further includes compressor 11, steams Send out device 12 and electric expansion valve 13.When refrigeration the refrigerant inlet of the exhaust outlet of the compressor 11 and the condensation 171 it Between be communicated with the first refrigerant pipe 14, the refrigerant inlet of the refrigerant exit of the evaporative condenser 172 and the evaporator 12 it Between be communicated with the second refrigerant pipe 15, the electric expansion valve 13 is arranged on second refrigerant pipe 15, the evaporator 12 Third refrigerant pipe 16 is equipped between refrigerant exit and the inlet of the compressor 11.

When refrigeration, the high temperature refrigerant that the compressor 11 is discharged is after 17 heat release of evaporating type condensing mechanism, into one Step reaches the evaporator 12 after the electric expansion valve 13 throttling, is evaporated the process of heat absorption.When the condensation group When part 171 is the air cooling fin, first refrigerant pipe 14 connection the heat exchanger tube of the air cooling fin refrigerant inlet with Between the exhaust outlet of the compressor 11.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of evaporating type condensing mechanism, which is characterized in that including condensation, evaporative condenser, water mist sprinkling component and Blower, the water mist sprinkling component, which is used to spray water mist for the evaporative condenser, forms moisture film, and the blower provides wind-force, For increasing the air circulation of moisture film heat transfer space on the evaporative condenser, the condensation is plate structure, institute It states condensation and laterally blocks leeward side in the evaporative condenser, the refrigerant exit of the condensation and the evaporation The refrigerant inlet of formula condenser is connected to.

2. evaporating type condensing mechanism according to claim 1, which is characterized in that the condensation includes heat exchanger tube and more A fin, the refrigerant exit of the heat exchanger tube are connected to the refrigerant inlet of the evaporative condenser, and the heat exchanger tube is repeatedly curved Folding, multiple fin settings form heat exchanger plates on the heat exchanger tube, and the heat exchanger plates laterally block cold in the vaporation-type The leeward side of condenser.

3. evaporating type condensing mechanism according to claim 1, which is characterized in that the blower is axial flow blower, the axis The air inlet of flow fan is opposite with the moisture film heat transfer space on the evaporative condenser, and the condensation is blocked in the axis Between flow fan and the evaporative condenser, the exhausting direction of the axial flow blower is the direction far from the condensation.

4. evaporating type condensing mechanism according to claim 1, which is characterized in that the refrigerant exit of the condensation and institute It states and is communicated with refrigerant pipe between the refrigerant inlet of evaporative condenser, the refrigerant pipe is equipped with high-voltage switch gear.

5. evaporating type condensing mechanism according to claim 4, which is characterized in that the refrigerant pipe is equipped with check valve, makes The refrigerant obtained in the refrigerant pipe is merely able to flow to the refrigerant of the evaporative condenser by the refrigerant exit of the condensation Entrance.

6. evaporating type condensing mechanism according to claim 1, which is characterized in that the exhaust air inlet of the evaporative condenser The pipe number of pipeline section is equal with the saturated gas of the evaporative condenser circulation pipe number of pipeline section；

The pipe number of the saturated liquid circulation pipeline section of the evaporative condenser is the saturated gas of the evaporative condenser Circulate section pipe number half to 2/3rds；

The pipe number of the saturated liquid circulation pipeline section of the evaporative condenser is equal with the supercooling pipe number of pipeline section.

7. evaporating type condensing mechanism according to claim 6, which is characterized in that inlet pipe section in the evaporative condenser Single loop pipe number is 1, and single module pipe number is 23 and pipeline quantity is 69；

Single return pipe number of exhaust air inlet pipeline section and saturated gas the circulation pipeline section of the evaporative condenser is 28, single module pipe number It is 1932 for 644 and pipeline quantity；

The saturated liquid circulation pipeline section of the evaporative condenser and the single loop pipe number of supercooling pipeline section are 18, and single module pipe number is 414 and pipeline quantity be 1242；

The single loop pipe number of the outlet pipe section of the evaporative condenser is 1, and single module pipe number is 23 and pipeline quantity is 69.

8. evaporating type condensing mechanism according to any one of claims 1 to 7, which is characterized in that the water mist sprinkling component Including spray head, water pump, water tank and the water-collecting tray being sequentially communicated, the spray head is corresponding with the heat exchanger tube of the evaporative condenser to be set It sets, for forming moisture film to the heat exchanger tube of evaporative condenser sprinkling water mist, it is cold that the water-collecting tray is located at the vaporation-type The lower section of condenser, for containing the ponding for passing through heat exchange and dripping from the evaporative condenser.

9. a kind of vaporation-type water cooler, which is characterized in that including the described in any item evaporating type condensing machines of claim 1 to 8 Structure.

10. vaporation-type water cooler according to claim 9, which is characterized in that further include compressor, evaporator and electronics Expansion valve, when refrigeration the compressor exhaust outlet and the condensation refrigerant inlet between be communicated with the first refrigerant pipe, The second refrigerant pipe, the electronics are communicated between the refrigerant exit of the evaporative condenser and the refrigerant inlet of the evaporator Expansion valve is arranged on second refrigerant pipe, is equipped between the refrigerant exit of the evaporator and the inlet of the compressor Third refrigerant pipe.