CN208901508U - Convection current radiation recombination heat-exchange system and heat exchange equipment - Google Patents
Convection current radiation recombination heat-exchange system and heat exchange equipment Download PDFInfo
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- CN208901508U CN208901508U CN201821610924.3U CN201821610924U CN208901508U CN 208901508 U CN208901508 U CN 208901508U CN 201821610924 U CN201821610924 U CN 201821610924U CN 208901508 U CN208901508 U CN 208901508U
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Abstract
The utility model provides convection current radiation recombination heat-exchange system and heat exchange equipment, is related to heat pump air conditioner technical field.Including indoor heat exchanger, the indoor heat exchanger includes First Heat Exchanger and the second heat exchanger, and the First Heat Exchanger is connected in parallel with second heat exchanger;The First Heat Exchanger is convection recuperator or radiation recuperator, and second heat exchanger is radiation recuperator or convection recuperator;It is opened or closed by controlling the First Heat Exchanger and/or second heat exchanger to adjust room temperature.Setting double heat exchanger is freezed or is heated to air-conditioning, and the convection recuperator and the radiation recuperator of setting are used cooperatively, and guarantee the refrigeration or heating effect of air-conditioning.It can select individually to open the radiation recuperator according to actual needs simultaneously, to reduce the blowing feeling in use process under the premise of realizing refrigeration or heating, improve using the comfort in air-conditioning process.
Description
Technical field
The utility model relates to heat pump air conditioner technical fields, in particular to a kind of convection current radiation recombination heat-exchange system
And heat exchange equipment.
Background technique
The heat exchange equipments such as air-conditioning are the essential equipment such as the temperature and humidity for adjusting room air, but existing air conditioner exists
Heat convection mode is all made of in refrigeration or heating operations to carry out, and blower is set at convection recuperator, air is driven by blower
Movement carries out heat convection, achievees the purpose that freeze to room or heat.Although aforesaid way can be realized fast-refrigerating or system
Heat, but air-conditioning blowing feeling is strong, and is easy to appear refrigeration or heats too fast problem, causes user experience comfort poor.
Utility model content
To solve the problems, such as that air-conditioning blowing feeling is strong in the prior art, comfort is poor, the main purpose of the utility model exists
In the convection current radiation recombination heat-exchange system and heat exchange equipment for providing a kind of reduction air-conditioning blowing feeling, improving comfort.
In a first aspect, the utility model embodiment provides a kind of convection current radiation recombination heat-exchange system, including indoor heat exchange
Device, the indoor heat exchanger include First Heat Exchanger and the second heat exchanger, and the First Heat Exchanger and second heat exchanger are simultaneously
Connection connection;The First Heat Exchanger is convection recuperator or radiation recuperator, and second heat exchanger is radiation recuperator or right
Flow heat exchanger;It is opened or closed by controlling the First Heat Exchanger and/or second heat exchanger to adjust Indoor Temperature
Degree.
Further, in one preferred embodiment of the utility model, the first electricity is provided on the First Heat Exchanger
Sub- expansion valve is provided with the second electric expansion valve on second heat exchanger;By controlling first electronic expansion valve controls
The First Heat Exchanger opens or closes, by the opening for controlling the second heat exchanger described in second electronic expansion valve controls
Or it closes.
It further, further include fluid reservoir, the fluid reservoir is provided in one preferred embodiment of the utility model
Air inlet, inlet, the first liquid outlet and the second liquid outlet;The connection of the first end of the air inlet and four-way valve, the feed liquor
Mouth with outdoor inlet tube for connecting, and first liquid outlet is connect with the first end of the indoor heat exchanger, and described second goes out
Liquid mouth with gas-liquid separator for connecting.
Further, it in one preferred embodiment of the utility model, is set between the air inlet and the four-way valve
It is equipped with intake solenoid valve, is provided with capillary between the intake solenoid valve and the air inlet.
Further, in one preferred embodiment of the utility model, the inlet passes through the outdoor inlet tube
It is connect with outdoor heat exchanger, is provided with liquid inlet electromagnetic valve between the inlet and the outdoor inlet tube;The feed liquor electromagnetism
Third electric expansion valve is provided between valve and the outdoor heat exchanger.
Further, in one preferred embodiment of the utility model, first liquid outlet and the indoor heat exchange
It is provided with the first draining solenoid valve between device, it is single that first is provided between first draining solenoid valve and the indoor heat exchanger
To valve;Connection valve is provided between first liquid outlet and first draining solenoid valve.
Further, in one preferred embodiment of the utility model, second liquid outlet and the gas-liquid separation
It is provided with the second draining solenoid valve between device, it is single that second is provided between second draining solenoid valve and the gas-liquid separator
To valve.
Further, in one preferred embodiment of the utility model, the second end of the indoor heat exchanger passes through institute
The first end for stating four-way valve and outdoor heat exchanger connects, and the second end of the outdoor heat exchanger passes through the outdoor inlet tube and institute
The first end for stating indoor heat exchanger connects and composes circuit;Gas cut-off is provided between the indoor heat exchanger and the four-way valve
Valve.
Second aspect, the utility model embodiment provide a kind of heat exchange equipment, including heat exchange described in any of the above embodiments
System.
Double heat exchanger is arranged in a kind of convection current radiation recombination heat-exchange system and heat exchange equipment provided by the embodiment of the utility model
Freezed to air-conditioning or heated, the convection recuperator and the radiation recuperator of setting are used cooperatively, and guarantee air-conditioning
Refrigeration or heating effect.It can select individually to open the radiation recuperator according to actual needs simultaneously, to realize refrigeration
Or the blowing feeling under the premise of heating in reduction use process, it improves using the comfort in air-conditioning process.
Detailed description of the invention
It, below will be to required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment
The attached drawing used is briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore not
It should be considered as the restriction to range, for those of ordinary skill in the art, without creative efforts,
It can also be obtained according to these attached drawings other relevant attached drawings.
Fig. 1 is the heat-exchange system cooling condition circulation schematic diagram that an embodiment of the present invention provides;
Fig. 2 is the heat-exchange system heating condition circulation schematic diagram that an embodiment of the present invention provides;
Fig. 3 is the four-way valve structural schematic diagram that an embodiment of the present invention provides.
Appended drawing reference:
1- First Heat Exchanger the first electric expansion valve of 11-
2- the second heat exchanger the second electric expansion valve of 21-
3- fluid reservoir 31- air inlet 32- inlet 33- the first liquid outlet the second liquid outlet of 34-
301- intake solenoid valve 302- capillary 303- liquid inlet electromagnetic valve
304- the first draining solenoid valve the first check valve of 305-
306- the second draining solenoid valve 307- second one-way valve
309 gas shut-off valve 310- liquid shut-off valve of 308- connection valve
4- gas-liquid separator 5- compressor
The 4th end 6- four-way valve D- first end S- second end E- third end C-
7- outdoor heat exchanger 71- third electric expansion valve
Specific embodiment
It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the application embodiment
Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by
Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also
To obtain other relevant attached drawings according to these attached drawings.
Fig. 1 is to recycle schematic diagram schematic diagram, Fig. 2 according to the heat-exchange system cooling condition shown in an embodiment of the present invention
It is that schematic diagram is recycled according to the heat-exchange system heating condition shown in an embodiment of the present invention, Fig. 3 is that the utility model one is real
The four-way valve structural schematic diagram of example offer is provided.The convection current radiation recombination heat-exchange system provided in the present embodiment, including major cycle are returned
Indoor heat exchanger, four-way valve 6, outdoor heat exchanger 7, compressor 5, gas-liquid separator 4 and fluid reservoir are arranged on main circulation loop for road
3.Fluid reservoir 3 and compressor 5 are connected with the first end D of four-way valve 6 respectively, the second end S phase of gas-liquid separator 4 and four-way valve 6
Even, indoor heat exchanger is connected with the third end E of four-way valve 6, and outdoor heat exchanger 7 is connected with the 4th end C of four-way valve 6.
Wherein, the convection current radiation recombination heat-exchange system that an embodiment of the present invention provides, it is as shown in Figure 1 to Figure 2, indoor
Heat exchanger includes First Heat Exchanger 1 and the second heat exchanger 2, and the First Heat Exchanger 1 is connected in parallel with second heat exchanger 2;
The First Heat Exchanger 1 is convection recuperator or radiation recuperator, and second heat exchanger 2 is radiation recuperator or heat convection
Device;It is opened or closed by controlling the First Heat Exchanger 1 and/or second heat exchanger 2 to adjust room temperature.It is right
Blowing feeling is strong in stream heat exchanger heat transfer process, and comfort is poor, and radiation recuperator, convection current radiation recuperator is arranged in the present embodiment
Compound mode promotes the comfort in heat-exchange system refrigeration or heating operations.
In the present embodiment, it is provided with the first electric expansion valve 11 on the First Heat Exchanger 1, on second heat exchanger 2
It is provided with the second electric expansion valve 21;The opening of the First Heat Exchanger 1 is controlled by controlling first electric expansion valve 11
Or close, opening or closing for second heat exchanger 2 is controlled by controlling second electric expansion valve 21.
To adjust convenient for cold medium flux, the heat-exchange system that an embodiment of the present invention provides, the fluid reservoir 3 is provided with
Air inlet 31, inlet 32, the first liquid outlet 33 and the second liquid outlet 34;The first end of the air inlet 31 and four-way valve 6 connects
It connects, the inlet 32 with outdoor inlet tube for connecting, the first end of first liquid outlet 33 and the indoor heat exchanger
Connection, second liquid outlet 34 with gas-liquid separator 4 for connecting.It is arranged between the air inlet 31 and the four-way valve 6
There is intake solenoid valve 301, is provided with capillary 302 between the intake solenoid valve 301 and the air inlet 31.Intake solenoid valve
301 can be using a small amount of high pressure gas that compressor is discharged as motive force, to come into fluid reservoir 3 to 3 two sides of fluid reservoir
Drain controls to adjust.
In the present embodiment, the inlet 32 is connected to by the outdoor inlet tube with outdoor heat exchanger 7, passes through inlet
32 store the extra refrigerant of system to fluid reservoir 3.By being arranged between the inlet 32 and the outdoor inlet tube
Liquid inlet electromagnetic valve 303 chooses whether to open the circuit of coolant adding;The liquid inlet electromagnetic valve 303 and the outdoor heat exchanger 7 it
Between be provided with third electric expansion valve 71.
In the present embodiment, the first draining solenoid valve is provided between first liquid outlet 33 and the indoor heat exchanger
304, the first check valve 305 is provided between first draining solenoid valve 304 and the indoor heat exchanger;Described first goes out liquid
Connection valve 308 is provided between mouth 33 and first draining solenoid valve 304.The setting of first draining solenoid valve 304 is convenient for storage
Flow container 3 is that indoor heat exchanger supplements liquid refrigerants, and the cold medium flux for being easy to implement indoor heat exchanger is adjusted.
It is provided with the second draining solenoid valve 306 between second liquid outlet 34 and the gas-liquid separator 4, described second
Second one-way valve 307 is provided between draining solenoid valve 306 and the gas-liquid separator 4.Second draining solenoid valve 306 is convenient for storage
Flow container 3 is that gas-liquid separator 4 or compressor 5 supplement gaseous coolant, flows into gas by the second draining solenoid valve 306 of fluid reservoir 3
Liquid/gas separator 4, when compressor 5 is run, gas-liquid separator 4 will form a low-pressure side operating condition, the liquid that supplement can be made
The flash distillation of state refrigerant is gaseous coolant, therefore final supplement for gas-liquid separator 4 is gaseous coolant.
It is arranged by above-mentioned valve, adjusts control convenient for 3 flow of fluid reservoir:
When system refrigerant circulation is excessive, liquid inlet electromagnetic valve 303 is opened, reduces the aperture of third electric expansion valve 71,
Guarantee that refrigerant may flow into fluid reservoir 3 under enough pressure differences, simultaneously closes off the first draining solenoid valve 304, the second draining solenoid valve
306 and intake solenoid valve 301;
When system refrigerant circulation is too small, liquid inlet electromagnetic valve 303 and the second draining solenoid valve 306 are closed, opens simultaneously 304
First draining solenoid valve opens intake solenoid valve 301, guarantees that high pressure gas pushes the liquid in fluid reservoir 3 to flow into system circulation
Circuit, i.e. indoor heat exchanger electric expansion valve side increase liquid refrigerants.Alternatively, opening intake solenoid valve 301, the first drain is closed
Solenoid valve 304, so that the liquid in fluid reservoir 3 flows into gas-liquid separator 4, flash distillation forms gaseous coolant and follows to increase under low pressure
Circular rector;
If fluid reservoir 3 and gas-liquid separator 4 or indoor heat exchanger have certain high drop, it may not be necessary to open air inlet
Liquid in fluid reservoir 3 is directly flowed into gas-liquid separator 4 or indoor heat exchanger using gravity factor, in this way by solenoid valve 301
It is synchronous to increase refrigerant circulation.
The collocation capillary 302 of intake solenoid valve 301 is to prevent pressure difference excessive for the pressure appropriate for reducing high pressure gas
So that 3 drain of fluid reservoir is excessive, compressor 5 is caused to operate with liquid.
Further, in one preferred embodiment of the utility model, the second end of the indoor heat exchanger passes through institute
It states four-way valve 6 to connect with the first end of outdoor heat exchanger 7, the second end of the outdoor heat exchanger 7 passes through the outdoor inlet tube
Circuit is connected and composed with the first end of the indoor heat exchanger;
Gas shut-off valve 309 is provided between the indoor heat exchanger and the four-way valve 6.Third expansion valve and indoor heat exchange
Liquid shut-off valve 310 is provided between device, liquid outlet is connected between the third expansion valve and the liquid shut-off valve 310.This Shen
It please takes more valves to be arranged at fluid reservoir 3, other than facilitating and adjusting refrigerant, further comprises following circuit:
For four-way valve, four interfaces, that is, first end D, second end S, third end E and the 4th end C, such as Fig. 3 institute
To show, the second end of indoor heat exchanger is connect with the third end E of four-way valve 6, and the of the first end of outdoor heat exchanger 7 and four-way valve 6
Four end C connections, 5 exhaust outlet of compressor are connect with the first end D of four-way valve 6, the upper end import of gas-liquid separator 4 and four-way valve 6
Second end S connection, the second end of outdoor heat exchanger 7 passes through the outdoor inlet tube and the first end of the indoor heat exchanger connects
It connects and constitutes circuit.
Under the premise of not considering 3 fluid infusion of fluid reservoir, refrigerant flow process is as follows:
Cooling condition: the refrigerant in indoor two heat exchangers passes through the first electric expansion valve 11, the second electric expansion valve 21
Become low-temp low-pressure liquid refrigerants after throttling, becomes low-temp low-pressure cold media gas in absorption chamber after heat, then ended by gas
Valve 309 enters end E mouthfuls of four-way valve third, at this time third end E mouthfuls and second end S mouthfuls conducting, hence into gas-liquid separator 4 and pressure
Contracting machine 5, the high temperature and pressure exhaust of compressor 5 enter D mouthfuls of first end of four-way valve 6, pass through the 4th end communicated with D mouthfuls of first end
It C mouthfuls, flows into outdoor heat exchanger 7 and is condensed into high temperature high pressure liquid, the first end of indoor heat exchanger is flowed back to finally by liquid pipe, realize
Circulation.
Heating condition: it is cold that the refrigerant in outdoor heat exchanger 7 becomes low-temp low-pressure liquid after the throttling of electric expansion valve 71
Matchmaker becomes low-temp low-pressure cold media gas after the outer heat of absorption chamber, subsequently enters end C mouthful of four-way valve the 4th, at this time the 4th end C mouthfuls with
S mouthfuls of second end conductings, hence into gas-liquid separator 4 and compressor 5, the high temperature and pressure exhaust of compressor 5 enters four-way valve 6
D mouthfuls of first end, by with D mouthfuls of first end E mouthfuls of the third ends communicated, flow into indoor heat exchanger, be condensed into high temperature high pressure liquid, most
The second end of outdoor heat exchanger 7 is flowed back to by liquid pipe afterwards, realizes circulation.
Consider 3 coolant adding of fluid reservoir when, no matter cooling condition or heating condition, refrigerant path is consistent.Storage
3 pressure process of flow container is to draw a branch from D mouthfuls of first end of four-way valve always, guarantees that a small amount of high pressure refrigerant enters air inlet electromagnetism
Valve 301, hence into fluid reservoir 3;For 3 two sides drain of fluid reservoir, and by the first draining solenoid valve 304 or
The second draining solenoid valve of person 306 separately flows into indoor heat exchanger or gas-liquid separator 4.
Another embodiment of the utility model provides a kind of heat exchange equipment, including heat-exchange system described in any of the above embodiments.
Another embodiment of the utility model provides a kind of control method of heat exchange equipment, includes the following steps:
After controlling heat exchange equipment booting, target temperature value T2 is set;
After running preset time, acquisition heat exchange equipment ambient temperature value T1 in the room;
The ambient temperature value T1 is compared with set temperature value T2, obtains temperature difference △ T, according to the temperature difference △ T
It determines and opens or closes the First Heat Exchanger 1 or second heat exchanger 2 or the First Heat Exchanger 1 and second heat exchange
Device 2.In the present embodiment, further comprise the steps of:
Heat exchange equipment actual operating efficiency value is calculated according to the temperature difference △ T, if the actual operating efficiency value is lower than
Default operational efficiency value, then control the First Heat Exchanger 1 and second heat exchanger 2 open simultaneously;
Heat exchange equipment actual operating efficiency value is calculated according to the temperature difference △ T, if the actual operating efficiency value is higher than
Default operational efficiency value, then control the First Heat Exchanger 1 or second heat exchanger 2 is individually opened.
The workload of First Heat Exchanger 1, the second heat exchanger 2 is measured by the temperature difference, specifically, first in the present embodiment
Heat exchanger 1 is convection recuperator, and the second heat exchanger 2 is radiation recuperator.
When temperature difference △ T is greater than 5 DEG C, office work load is larger, controls First Heat Exchanger 1 and the second heat exchanger 2 simultaneously
It opens, effectively refrigeration or heating.As temperature difference △ T is decreased within 5 DEG C (comprising 5 DEG C), office work load reduction can be opened only
It opens radiation recuperator or guarantees indoor convection recuperator Blowing stopper operation while opening radiation recuperator, pass through spoke in this way
It penetrates heat exchange and guarantees the operation of heat exchange equipment, and reduce blowing feeling, promote comfort.
When temperature difference △ T is less than or equal to 5 DEG C, indoor load is smaller, can individually open indoor heat convection according to actual needs
Radiation recuperator in independent opening chamber may be selected when user is more demanding to comfort in device or indoor radiation recuperator.
When user has higher requirements to quick heating, refrigeration, convection recuperator can be individually opened, forced-convection heat transfer is passed through
Guarantee is rapidly heated or cools down.
In control method provided in this embodiment, further comprises the steps of: and determine that first electronics is swollen according to the temperature difference △ T
The aperture of swollen valve 11 and second electric expansion valve 21.By adjusting the first electric expansion valve 11 and the second electric expansion valve 21
Aperture adjusts the cold medium flux of First Heat Exchanger 1 and the second heat exchanger 2, and then realizes the capacity adjustment and energy of two indoor heat exchangers
Effect is adjusted.
Convection recuperator compares radiation recuperator, and heat transfer coefficient is big, and heat exchange efficiency is high, therefore under identical operating condition, heats rank
The condensation temperature of section convection recuperator is lower than the condensation temperature of radiation recuperator, and the evaporating temperature of cooling stages convection recuperator is high
In the evaporating temperature of radiation recuperator.Therefore, under identical condensing pressure or evaporating pressure, heating stage cold media gas can not be high
Effect condensation, can not guarantee sufficient degree of supercooling, cooling stages refrigerant liquid can not high-efficiency evaporating, heat exchange amount greatly reduces, institute
Should determine cold medium flux according to the ability that radiation recuperator can carry, that is, guarantee for the heat exchange of radiation heat transfer system
Under the premise of radiation heat transfer system is adequately condensed or evaporated, the refrigerant circulation of radiating system is suitably turned down.
When indoor convection recuperator and indoor radiation recuperator isolated operation, to prevent cooling condition loss of refrigeration capacity, heating
Operating condition thermal loss closes electric expansion valve corresponding to the indoor heat exchanger not run.
When indoor convection recuperator is run, when monitoring heating condensation temperature lower than 45 DEG C, refrigeration evaporator temperature is lower than 10
DEG C when, increase the first electric expansion valve 11 aperture, adjust convection recuperator cold medium flux increase, guarantee heating condition 5-7
DEG C degree of supercooling, 1-3 DEG C of cooling condition of the degree of superheat;Otherwise reduces the aperture of the first electric expansion valve 11, adjust heat convection
The cold medium flux of device reduces, and guarantees the suitable evaporating pressure of indoor heat exchanger and condensing pressure with this.Indoor radiation recuperator fortune
When row, it is lower than 2 DEG C, when refrigeration evaporator temperature is lower than 7 DEG C when monitoring that heating condensation temperature is higher than 50 DEG C or heats degree of supercooling,
Reduce the aperture of the second electric expansion valve 21, and then reduce the refrigerant circulation of radiation recuperator, guarantees that the refrigerant of small flow can
Adequately to utilize radiation recuperator condensation phase transformation and evaporative phase-change, to improve system energy efficiency.The above-mentioned evaporating temperature referred to
Or condensation temperature, it can detect evaporating pressure and condensing pressure by the pressure sensor being arranged on refrigerant pipeline, then into
Evaporating temperature and condensation temperature is calculated according to physical parameter in one step.
When indoor convection recuperator and indoor radiation recuperator are run simultaneously, under identical coolant quantity, indoor convection recuperator
Exchange capability of heat be substantially better than radiation recuperator, and efficiency is higher, therefore when two heat exchangers are run simultaneously, flow adjusting seems more
Exacerbation is wanted.The load proportion determination of two heat exchangers can determine by the cold medium flux of inflow heat exchanger and inlet and outlet enthalpy,
But if the cooling condition degree of superheat, heating condition degree of supercooling and two heat exchangers electricity can also be passed through without corresponding flow sensor
Sub- expansion valve opening carrys out approximate judgement.
When the load that two indoor heat exchangers undertake respectively accounts for 50%, corresponding first electric expansion valve of indoor convection recuperator
11 aperture should be lower than the aperture of corresponding second electric expansion valve 21 of radiation recuperator, and simultaneously should be according to radiation recuperator
Degree of supercooling and the refrigeration degree of superheat are heated to adjust, when degree of supercooling is lower than 3 DEG C, the aperture of the second electric expansion valve 21, mistake should be turned down
When cold degree is higher than 8 DEG C, the aperture of the second electric expansion valve of Ying Zeng great 21.
When the load accounting that indoor convection recuperator undertakes is greater than 70%, the load accounting that radiation recuperator undertakes is lower than
When 30%, system energy efficiency can be played to best, and corresponding second electric expansion valve 21 of radiation recuperator can be turned down at this time, be protected
Demonstrate,proving a small amount of gaseous coolant heating stage sufficiently condenses, and liquid refrigerants cooling stages sufficiently evaporate, and can reduce radiating system in this way
Condensation temperature, improve evaporating temperature, and corresponding first electric expansion valve 11 of convection recuperator can tune up, pass through force it is empty
Flow of air guarantees that the heat exchange of more coolant quantities, final lifting system convection current radiate efficiency.
In other embodiments, phase change device can be visualized for heat-exchange system addition to guarantee that cold medium flux is adjusted accurate
Control.The electronic valve that the embodiment of the present application refers to can be electrically connected with the integrated circuit board of the heat exchange equipments such as air-conditioning, be convenient for
It realizes and automatically controls.
In the description of the present invention, it should be understood that term " on ", "lower", "vertical", "horizontal", "top",
The orientation or positional relationship of the instructions such as "bottom", "inner", "outside", " clockwise ", " counterclockwise " be orientation based on the figure or
Corresponding orientation when positional relationship namely air-conditioning normal mounting.It is merely for convenience of describing the present invention and simplifying the description, and
It is not that the equipment of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore
It should not be understood as limiting the present invention.
In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance
Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include one or more of the features.The meaning of " plurality " is two or two in the description of the present invention,
More than, unless otherwise specifically defined.
In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " Gu
It is fixed " etc. terms shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral;It can be
Mechanical connection, is also possible to be electrically connected;It can be directly connected, two can also be can be indirectly connected through an intermediary
The interaction relationship of connection or two elements inside element.It for the ordinary skill in the art, can basis
Concrete condition understands the concrete meaning of above-mentioned term in the present invention.
Above description is merely a prefered embodiment of the utility model, is not intended to limit the utility model, for
For those skilled in the art, various modifications and changes may be made to the present invention.All spirit and original in the utility model
Within then, any modification, equivalent replacement, improvement and so on be should be included within the scope of protection of this utility model.
Claims (9)
1. a kind of convection current radiation recombination heat-exchange system, which is characterized in that including indoor heat exchanger, the indoor heat exchanger includes the
One heat exchanger (1) and the second heat exchanger (2), the First Heat Exchanger (1) are connected in parallel with second heat exchanger (2);It is described
First Heat Exchanger (1) is convection recuperator or radiation recuperator, and second heat exchanger (2) is radiation recuperator or heat convection
Device;It is opened or closed by controlling the First Heat Exchanger (1) and/or second heat exchanger (2) to adjust Indoor Temperature
Degree.
2. heat-exchange system according to claim 1, which is characterized in that be provided with the first electricity on the First Heat Exchanger (1)
Sub- expansion valve (11) is provided with the second electric expansion valve (21) on second heat exchanger (2);By controlling first electronics
Expansion valve (11) controls opening or closing for First Heat Exchanger (1), is controlled by controlling second electric expansion valve (21)
Make opening or closing for the second heat exchanger (2).
3. heat-exchange system according to claim 1, which is characterized in that further include fluid reservoir (3), the fluid reservoir (3) sets
It is equipped with air inlet (31), inlet (32), the first liquid outlet (33) and the second liquid outlet (34);The air inlet (31) and four-way
The first end of valve (6) connects, the inlet (32) for being connect with outdoor inlet tube, first liquid outlet (33) with it is described
The first end of indoor heat exchanger connects, and second liquid outlet (34) with gas-liquid separator (4) for connecting.
4. heat-exchange system according to claim 3, which is characterized in that the air inlet (31) and the four-way valve (6) it
Between be provided with intake solenoid valve (301), be provided with capillary between the intake solenoid valve (301) and the air inlet (31)
(302)。
5. heat-exchange system according to claim 3, which is characterized in that the inlet (32) passes through the outdoor inlet tube
It is connect with outdoor heat exchanger (7), is provided with liquid inlet electromagnetic valve (303) between the inlet (32) and the outdoor inlet tube;
Third electric expansion valve (71) are provided between the liquid inlet electromagnetic valve (303) and the outdoor heat exchanger (7).
6. heat-exchange system according to claim 3, which is characterized in that first liquid outlet (33) and the indoor heat exchange
It is provided between device the first draining solenoid valve (304), is set between first draining solenoid valve (304) and the indoor heat exchanger
It is equipped with the first check valve (305);It is provided with and connect between first liquid outlet (33) and first draining solenoid valve (304)
Valve (308).
7. heat-exchange system according to claim 3, which is characterized in that second liquid outlet (34) and the gas-liquid separation
It is provided between device (4) the second draining solenoid valve (306), second draining solenoid valve (306) and the gas-liquid separator (4)
Between be provided with second one-way valve (307).
8. heat-exchange system according to claim 3, which is characterized in that the second end of the indoor heat exchanger passes through described four
Port valve (6) is connect with the first end of outdoor heat exchanger (7), and the second end of the outdoor heat exchanger (7) passes through the outdoor feed liquor
The first end of pipe and the indoor heat exchanger connects and composes circuit;It is arranged between the indoor heat exchanger and the four-way valve (6)
There are gas shut-off valve (309).
9. a kind of heat exchange equipment, which is characterized in that including the described in any item heat-exchange systems of claim 1-8.
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CN201821610924.3U CN208901508U (en) | 2018-09-29 | 2018-09-29 | Convection current radiation recombination heat-exchange system and heat exchange equipment |
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CN201821610924.3U CN208901508U (en) | 2018-09-29 | 2018-09-29 | Convection current radiation recombination heat-exchange system and heat exchange equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109210630A (en) * | 2018-09-29 | 2019-01-15 | 珠海格力电器股份有限公司 | Convection current radiation recombination heat-exchange system, heat exchange equipment and control method |
CN115264620A (en) * | 2022-07-19 | 2022-11-01 | 青岛海信日立空调系统有限公司 | Multi-split air conditioning system |
-
2018
- 2018-09-29 CN CN201821610924.3U patent/CN208901508U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109210630A (en) * | 2018-09-29 | 2019-01-15 | 珠海格力电器股份有限公司 | Convection current radiation recombination heat-exchange system, heat exchange equipment and control method |
CN115264620A (en) * | 2022-07-19 | 2022-11-01 | 青岛海信日立空调系统有限公司 | Multi-split air conditioning system |
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