CN105953629A - Heat exchanger - Google Patents

Abstract

The invention provides a heat exchanger. The heat exchanger includes a housing; two water chambers are arranged in the housing; the two water chamber are provided with a water inlet and a water outlet respectively, and the two water chambers communicate with each other through a plurality of heat exchanging tubes arranged in the housing; the upper part of the housing is provided with a first nozzle for allowing the liquid refrigerant to enter the housing and cooling heat exchanging tubes, and a second nozzle for allowing a gaseous refrigerant to enter the housing; and the lower part of the housing is provided with a third nozzle for allowing the liquid refrigerant to flow out from the housing. Through the first nozzle and the second nozzle formed in the upper part of the housing and the third nozzle formed in the lower part of the housing, the refrigerant can flow between the first nozzle and the second nozzle to perform cooling, or the refrigerant can flow between the second nozzle and the third nozzle to perform heating; and the working efficiency is high, the amount of the desired refrigerant is less during working, the refrigerant can evaporate completely in the heat exchanger, and then a zero liquid level can be achieved; and electricity consumption is less when the same quantity of cool or heat is made.

Description

Heat exchanger

Technical field

The present invention relates to the heat exchanger used in a kind of large-size air conditioning equipment.

Background technology

In air conditioner industry, full liquid vaporizer, dry evaporator are still widely used in large-scale cold water In unit and source pump.For there being the unit of changes in temperature demand, needs can either make vaporizer, again can Enough make the heat exchanger of condenser, and existing full liquid vaporizer, dry evaporator are difficulty with two devices and close One.Therefore, large-scale air-conditioning equipment must simultaneously have vaporizer and condenser, and this causes air-conditioning to set Standby cost is high, and structure is complicated.And, existing vaporizer inner refrigerant consumption is more, and cold-producing medium is only Can partly be evaporated, most cold-producing medium exists with liquid in vaporizer, and this causes steaming Send out device power consumption higher, improve use cost and maintenance cost.

It is only used for strengthening the reason of the background to the present invention in information above-mentioned disclosed in described background section Solving, therefore it can include not constituting the letter to prior art known to persons of ordinary skill in the art Breath.

Summary of the invention

It is an object of the invention to overcome above-mentioned the deficiencies in the prior art, it is provided that one can be used for freezing, Can be used for again heating, and the heat exchanger of refrigerant charge can be reduced.

Additional aspect and the advantage of the present invention will be set forth in part in the description, and partly will It is apparent from from describe, or can the acquistion by the practice of the present invention.

According to an aspect of the present invention, a kind of heat exchanger, including housing, in described housing, it is provided with two Hydroecium, two described hydroeciums are respectively equipped with water inlet and outlet, and, two described hydroeciums pass through The multiple heat exchanger tubes being arranged in housing are connected, and described housing upper is provided with and can enter for liquid refrigerant Enter in housing with the first interface of cooling heat transferring pipe and the of described housing can be passed in and out for gaseous refrigerant Two interfaces, described lower housing portion is provided with the 3rd interface that can flow out in housing for liquid refrigerant.

According to an embodiment of the present invention, described first interface connects has and is positioned at above described heat exchanger tube Liquid homogenizer.

According to an embodiment of the present invention, described liquid homogenizer include multiple from top to bottom interval arrange and The liquid-distributing plate being the level of state that area increases successively and be positioned at above described liquid-distributing plate and can be to The feed tube of liquid-distributing plate supply liquid refrigerant, described liquid-distributing plate is provided with multiple through perforation.

According to an embodiment of the present invention, described housing is horizontal cylinder type, and described hydroecium sets respectively Put the two ends at housing.

According to an embodiment of the present invention, multiple described heat exchanger tubes are parallel to each other and arrange in the height direction It is classified as multiple rows of, the heat exchanger tube interlaced arrangement of adjacent two rows.

According to an embodiment of the present invention, described second seam is provided with and is positioned at enclosure interior can Stop that drop enters the liquid-blocking device of this second interface.

According to an embodiment of the present invention, described liquid-blocking device includes being enclosed in around described second interface And the overhead gage of the annular of bottom opening and be fixed on the drainage screen of bottom opening of overhead gage, described Overhead gage top is fixedly connected on inner walls, and described overhead gage sidewall is provided with what multiple supply stream passed through Perforate.

According to an embodiment of the present invention, the bottom of described housing is provided with and is enclosed in described 3rd interface week The lower baffle plate enclosed, described lower baffle plate top is provided with drainage screen, and the sidewall of described lower baffle plate is provided with multiple The perforate passed through for liquid refrigerant.

According to an embodiment of the present invention, for exchanging the support that heat pipe is supported in described housing Plate, described heat exchanger tube passes described gripper shoe.

As shown from the above technical solution, advantages of the present invention and having the active effect that

Present invention heat exchanger, arranges first interface and the second interface by housing upper, and at the bottom of housing Portion arranges the 3rd interface, it is possible to make cold-producing medium flow between first interface and the second interface and carry out Refrigeration, or make cold-producing medium flow between the second interface and the 3rd interface and heat, work effect Rate is high, and the refrigeration dosage needed during work is few, and cold-producing medium can evaporate in heat exchanger completely, can To realize zero liquid level, when producing equal cold or heat, power consumption is few.

Accompanying drawing explanation

Its example embodiment is described in detail, above and other feature of the present invention and excellent by referring to accompanying drawing Point will be apparent from.

Fig. 1 is the schematic diagram of the heat exchanger of an embodiment of the present invention；

Fig. 2 is the cross-sectional schematic of A-A along Fig. 1；

Fig. 3 is the schematic diagram of the liquid-blocking device in an embodiment of the present invention；

Fig. 4 is the top view of Fig. 3；

Fig. 5 is the schematic diagram of the liquid homogenizer of an embodiment of the present invention；

Fig. 6 is the left view of Fig. 5；

Fig. 7 is lower baffle plate and the schematic diagram of drainage screen of an embodiment of the present invention；

Fig. 8 is the top view of Fig. 7.

In figure: 1, outlet；2, the second interface；3, liquid-blocking device；31, overhead gage；32, mistake Filter screen；33, perforate；4, first interface；5, housing；6, gripper shoe；7, heat exchanger tube；8, enter The mouth of a river；91, lower baffle plate；92, drainage screen；93, perforate；10, the 3rd interface；11, the first hydroecium； 12, the second hydroecium；13, liquid homogenizer；131, liquid-distributing plate；132, feed tube；133, shell.

Detailed description of the invention

It is described more fully with example embodiment referring now to accompanying drawing.But, example embodiment can Implement in a variety of forms, and be not understood as limited to embodiment set forth herein；On the contrary, it is provided that this A little embodiments make the present invention will fully and completely, and the design of example embodiment are passed on all sidedly To those skilled in the art.Reference identical in figure represents same or similar structure, thus will Omit their detailed description.

As shown in Figures 1 to 8, present embodiment discloses a kind of heat exchanger, and this heat exchanger is mainly used in In large-scale air-conditioning equipment, can either be used for freezing, can be used in again heating.The heat exchange of present embodiment Device includes a housing 5, is provided with two hydroeciums in housing 5, and two hydroeciums are by being arranged in housing 5 Multiple heat exchanger tubes 7 be connected.Housing 5 is additionally provided with first interface the 4, second interface 2 and 3rd interface 10.

In the present embodiment, housing 5 is shaped as horizontal cylinder type, and two hydroeciums are respectively the first water Room 11 and the second hydroecium 12, the two hydroecium is separately positioned on the two ends of housing 5, but, the present invention In housing 5 be limited the most successively, the most in other embodiments, housing 5 is the most vertical, One hydroecium 11 and the second hydroecium 12 are presented and are divided into configuration state.First hydroecium the 11, second hydroecium 12 with And the refrigerating mediums such as water that can circulate between heat exchanger tube 7.

First interface 4 and the second interface 2 are arranged on the top of housing 5.Wherein, first interface 4 can Enter in housing 5 for liquid refrigerant.Cold-producing medium used in the present embodiment can be freon, But it is not limited.Second interface 2 can pass in and out this housing 5 for gaseous refrigerant.3rd interface 10 Being arranged on the bottom of housing 5, the 3rd interface 10 is available for liquid refrigerant and flows out in housing 5.

The heat exchanger of present embodiment uses as vaporizer when being used for freezing, and the 3rd interface 10 can It is closed.It is internal that the cold-producing medium of the liquid after throttling enters into housing 5 from first interface 4, this Becoming gaseous state after heat in a little refrigerant suction heat exchanger tubes 7, the temperature of the water in heat exchanger tube 7 declines, The cold-producing medium of gaseous state is then drawn out of from the second interface 2 and is then sent through compressor.In the process, it is passed through The amount of the cold-producing medium in housing 5 is fewer, it is possible to realize the evaporation of full cold-producing medium so that basic in housing 5 On can keep zero liquid level, the most do not only reached refrigeration, also substantially reduces cold-producing medium Usage amount.

The heat exchanger of present embodiment is when being used for heating as condenser use, and first interface 4 may be at Closed mode, now, from the cold-producing medium of the gaseous state of the High Temperature High Pressure of compressor discharge from the second interface 2 Entering in housing 5, then, cold-producing medium heat release becomes liquid, and the water flow through in heat exchanger tube 7 is then inhaled The thermal temperature receiving cold-producing medium raises.The cold-producing medium of liquid is dropped in the bottom of housing 5, then connects from the 3rd Mouth 10 flows away.In the process, also essentially without retaining the cold-producing medium of liquid in housing 5, institute The amount of the cold-producing medium needed is the most considerably less, while reaching efficiently to heat, also substantially reduces refrigeration The usage amount of agent.

The heat exchanger of present embodiment, can be not only used for refrigeration, can be used for again heating, it is thus possible to simplify sky The structure of tune equipment, it is not necessary to extra vaporizer or condenser, has been greatly reduced cost, and, The amount of the cold-producing medium required for the heat exchanger of present embodiment is fewer, it is possible to reduce working service further Cost, and can effectively reduce volume, there is higher economic benefit.

Seeing shown in Fig. 1, Fig. 2, Fig. 5 and Fig. 6, in present embodiment, first interface 4 connects to be had It is positioned at the liquid homogenizer 13 above heat exchanger tube 7.This liquid homogenizer 13 enables to cold-producing medium from first interface 4 When flowing to heat exchanger tube 7, cold-producing medium is evenly distributed out so that cold-producing medium is dropped in the most equably and changes On heat pipe 7, so, additionally it is possible to slow down cold-producing medium drippage time speed so that cold-producing medium with Heat exchanger tube 7 can extensively contact, and further increasing the heat exchange efficiency of this heat exchanger, it is possible to effectively drop Low energy expenditure.This liquid homogenizer 13 includes feed tube 132 and multiple liquid-distributing plate 131, feed tube 132 Being connected on a shell 133, the top of this shell 133 and bottom are opening, and from top to The level cross-sectionn of bottom becomes larger.Liquid-distributing plate 131 is also secured at the inside of shell 133, feed tube 132 center positions being arranged on shell 133 top, in order to make the cold-producing medium can be to both sides Uniform Flow. In present embodiment, liquid-distributing plate 131 quantity is set to 3, but is not limited.These 3 liquid-distributing plates are certainly Above it is disposed in shell 133 lowerly, and the area of 3 liquid-distributing plates increases and successively in level State.Multiple through perforation it is provided with on these liquid-distributing plates.Cold-producing medium falls from feed tube 132 After, sequentially pass through the perforation on three liquid-distributing plates 131, then can be dropped in the heat exchanger tube of lower section equably On 7.

Multiple heat exchanger tubes 7 in present embodiment, in the state being parallel to each other, see Fig. 2, multiple heat exchange Pipe is arranged as multiple rows of in the height direction, and, the heat exchanger tube of adjacent two rows is interlaced arrangement.By this The arrangement of sample so that the cold-producing medium flow down above liquid homogenizer 13 can be with more heat exchanger tube 7 Contact, considerably improve the area that heat exchanger tube 7 directly contacts with cold-producing medium, improve heat exchange efficiency. It is also provided with exchanging the gripper shoe 6 that heat pipe 7 is supported in housing 5, gripper shoe 6 is offered Hole corresponding and equal-sized with heat exchanger tube 7 position, heat exchanger tube 7 passes this gripper shoe from this some holes. By arranging gripper shoe 6, the medium position that can effectively exchange heat pipe 7 is supported, it is to avoid heat exchange The insecure problem of connection that pipe 7 is caused by gravity-bending, and also the intensity of housing 5 can be improved, The wall thickness of housing 5 can be reduced.

See Fig. 1, Fig. 3 and Fig. 4, at the second interface 2, be provided with that to be positioned at housing 5 internal and can Stop that drop enters the liquid-blocking device 3 of this second interface 2.This liquid-blocking device 3 is available for the cold-producing medium of gaseous state Pass, but the cold-producing medium of drop state then can be stopped by this liquid-blocking device 3, and second cannot be arrived and connect Mouth 2.Owing to this second interface 2 is usually, the cold-producing medium of gaseous state is carried to compressor, and liquid refrigeration The properly functioning of compressor can be adversely affected by agent, thus, this liquid-blocking device 3 can ensure that compression Machine is the most properly functioning.

In the present embodiment, liquid-blocking device 3 includes being enclosed in around the second interface 2 and bottom opening The overhead gage 31 of annular and be fixed on the drainage screen 32 of bottom opening of overhead gage 31.This overhead gage 31 tops are fixedly connected on the inwall of housing 5, and are provided with multiple air-flow that is available on the sidewall of overhead gage and lead to The perforate 33 crossed.The cold-producing medium of gaseous state can be freely in or out through drainage screen 32 and perforate 33, but It is that the cold-producing medium of liquid level then can be collected in liquid-blocking device 3, then drops down downwards from drainage screen 32. This liquid-blocking device 3 is owing to being provided with multiple perforate 33, additionally it is possible to make air-flow through this liquid-blocking device 3 Time flow velocity slow, and the comparison flowed is steady, the beneficially reliability service of compressor, and can carry The efficiency of high heat exchange.It should be pointed out that, the structure of liquid-blocking device 3 is not limiting as, as long as can stop Drop enters into the second interface 2, and allows to make gas refrigerant enter the second interface 2.

See Fig. 1, Fig. 2, Fig. 7 and Fig. 8, in the heat exchanger of present embodiment, the bottom of housing 5 It is provided with the lower baffle plate 91 being enclosed in around the 3rd interface 10, the top of lower baffle plate 91 is provided with drainage screen 92, the sidewall of lower baffle plate 91 is provided with multiple perforate 93 passed through for liquid refrigerant.This lower baffle plate Enter in the 3rd interface 10 to the 91 cold-producing medium uniform and stable enabling to liquid, and can stop different Thing.

In summary, the heat exchanger of the present invention, it is possible to realize refrigeration and the function heated, furthermore, it is desirable to Cold-producing medium few, work efficiency is high, producing equal cold or heat time institute consuming electric power also can reduce.

More than it is particularly shown and described the illustrative embodiments of the present invention.It should be understood that the present invention It is not limited to disclosed embodiment, on the contrary, it is intended to contain the essence being included in claims Various amendments in god and scope and equivalent arrangements.

Claims (9)

1. a heat exchanger, including housing, it is characterised in that be provided with two hydroeciums in described housing, Water inlet and outlet it is respectively equipped with on two described hydroeciums, and, two described hydroeciums are by being arranged at Multiple heat exchanger tubes in housing are connected, and described housing upper is provided with and can enter housing for liquid refrigerant In with the first interface of cooling heat transferring pipe and the second interface that described housing can be passed in and out for gaseous refrigerant, Described lower housing portion is provided with the 3rd interface that can flow out in housing for liquid refrigerant.

Heat exchanger the most according to claim 1, it is characterised in that described first interface connects to be had It is positioned at the liquid homogenizer above described heat exchanger tube.

Heat exchanger the most according to claim 2, it is characterised in that described liquid homogenizer includes multiple Interval is arranged and the liquid-distributing plate being the level of state that increases successively of area and be positioned at described from top to bottom Above liquid-distributing plate and can to liquid-distributing plate supply liquid refrigerant feed tube, described liquid-distributing plate is provided with Multiple through perforation.

Heat exchanger the most according to claim 1, it is characterised in that described housing is horizontal circle Cartridge type, described hydroecium is separately positioned on the two ends of housing.

Heat exchanger the most according to claim 4, it is characterised in that multiple described heat exchanger tubes are mutual Parallel and be arranged as multiple rows of in the height direction, the heat exchanger tube interlaced arrangement of adjacent two rows.

Heat exchanger the most according to claim 1, it is characterised in that described second seam is arranged Have and be positioned at enclosure interior and can stop that drop enters the liquid-blocking device of this second interface.

Heat exchanger the most according to claim 6, it is characterised in that described liquid-blocking device includes enclosing Be combined in around described second interface and bottom opening annular overhead gage and be fixed on overhead gage The drainage screen of bottom opening, described overhead gage top is fixedly connected on inner walls, described overhead gage sidewall It is provided with the perforate that multiple supply stream passes through.

Heat exchanger the most according to claim 1, it is characterised in that the bottom of described housing is provided with Enclosing the lower baffle plate around described 3rd interface, described lower baffle plate top is provided with drainage screen, and described under The sidewall of baffle plate is provided with multiple perforate passed through for liquid refrigerant.

Heat exchanger the most according to claim 1, it is characterised in that be used for exchanging in described housing The gripper shoe that heat pipe is supported, described heat exchanger tube passes described gripper shoe.