CN203964187U - The multi-connected air conditioner device of cooling and warming simultaneously - Google Patents

The multi-connected air conditioner device of cooling and warming simultaneously Download PDF

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Publication number
CN203964187U
CN203964187U CN201420413098.9U CN201420413098U CN203964187U CN 203964187 U CN203964187 U CN 203964187U CN 201420413098 U CN201420413098 U CN 201420413098U CN 203964187 U CN203964187 U CN 203964187U
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China
Prior art keywords
indoor
heat exchanger
warming
cooling
air
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Expired - Fee Related
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CN201420413098.9U
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Chinese (zh)
Inventor
袁瑞芝
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SHENZHEN WOSEN AIR-CONDITIONING TECHNOLOGY Co Ltd
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SHENZHEN WOSEN AIR-CONDITIONING TECHNOLOGY Co Ltd
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Abstract

The utility model relates to air-conditioner technical field, a kind of multi-connected air conditioner device of cooling and warming is simultaneously disclosed, comprise an off-premises station and at least two indoor sets, described off-premises station comprises frequency-changeable compressor, outdoor heat exchanger and control valve, described indoor set comprises indoor heat exchanger and humidifying component, the outdoor heat exchanger of described off-premises station is connected with the indoor heat exchanger of described indoor set respectively by flow division control device, described flow division control device comprises gas-liquid separator and flow controller, described gas-liquid separator is connected with the indoor heat exchanger of many indoor sets by multiple triple valves respectively, between the air inlet pipe of described compressor and escape pipe, the pipeline section of check valve is equipped with in interconnection.The utility model realized household not between chummery and office space zones of different cooling and warming carry out simultaneously, and can realize that the multiple rooms of household and working environment temperature, humidity, oxygen content are constant, the control of air purity.

Description

The multi-connected air conditioner device of cooling and warming simultaneously
Technical field
The utility model relates to air-conditioner technical field, particularly a kind of multi-connected air conditioner device of cooling and warming simultaneously.
Background technology
The variable-frequency multi-connection type air regulator that the multiple rooms of existing household and working environment are used, substantially all just freeze or heat, can not between chummery cooling and warming carry out simultaneously, and be all that temperature regulates, can not regulate live needed humidity, oxygen content, air purity of people.Using when air-conditioning, along with humidity declines, oxygen content declines, people can feel to be dried, unhappy, uncomfortable, unnaturally.In the time that running refrigerating dehumidifies, along with humidity declines, room temperature is corresponding decline also, can make people feel cold, and the speed that especially dehumidifies in the time of low temperature dehumidification is slow, even can not dehumidify; Humidifier humidification speed in the time of low-temperature humidifying is slow, even can not humidification.
Utility model content
The utility model is in order to solve the problems of the technologies described above, and a kind of multi-connected air conditioner device of cooling and warming is simultaneously provided, realized household not between chummery and office space zones of different cooling and warming carry out simultaneously, and realize the permanent clean function of the permanent oxygen of constant temperature and humidity.
To achieve these goals, the utility model provides following technical scheme:
A kind of multi-connected air conditioner device of cooling and warming simultaneously, comprise an off-premises station and at least two indoor sets, it is characterized in that, described off-premises station comprises frequency-changeable compressor, outdoor heat exchanger and control valve, described indoor set comprises indoor heat exchanger and humidifying component, the outdoor heat exchanger of described off-premises station is connected with the indoor heat exchanger of described indoor set respectively by flow division control device, described flow division control device comprises gas-liquid separator and flow controller, described gas-liquid separator is connected with the indoor heat exchanger of many indoor sets by multiple triple valves respectively, between the air inlet pipe of described compressor and escape pipe, the pipeline section of check valve is equipped with in interconnection.
Further, described flow division control device also connects dehydrating unit by triple valve, and described dehydrating unit comprises dehumidifying flow controller, dehumidifying magnetic valve, and described dehydrating unit is connected with described indoor heat exchanger.
Further, described indoor set also configures the new blower fan of persevering oxygen, and the new blower fan of described permanent oxygen comprises blower fan, heat exchanger and air cleaning unit, and described blower fan is positioned at the front-end and back-end of described heat exchanger.
Further, described humidifying component is arranged on indoor fan one side of described indoor set, and described humidifying component comprises humidifier, adds wet blower, water compensating valve, adds the front of wet blower described in described humidifier is arranged on.
Further, described humidifier is far infrared humidifier or water heater.
Further, described air cleaning unit is made up of HEPA high efficiency particulate air, electrostatic precipitator, activated carbon, ion generator and catalyst filter screen.
Further, described indoor set also comprises heating element heater.
Further, described control valve is heating power expansion valve or electric expansion valve.
Further, described dehumidifying flow controller is capillary, heating power expansion valve or electric expansion valve.
The beneficial effects of the utility model are:
Realized household not between chummery and office space zones of different cooling and warming carry out simultaneously, and can realize that the multiple rooms of household and working environment temperature, humidity, oxygen content are constant, the air regulator of air purity.Solve the existing variable-frequency multi-connection type air regulator simultaneously cooling and warming that is in operation, and overcome that existing air regulator is in operation that air humidity is uncontrollable, oxygen content declines, air is unholiness and room temperature declines when dehumidifying defect, and improve low temperature dehumidification and low-temperature humidifying speed, the air regulator that air themperature under the residing work of people and living environment, humidity, oxygen content, air purity are carried out to comprehensive adjusting, really reaches the function of constant temperature dehumidification, constant temperature humidification.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the utility model humidifying component structural representation;
Fig. 3 is the utility model ventilation air interchange system structural representation.
In figure: 1 is frequency-changeable compressor, 2 is cross valve, 3 is outdoor heat exchanger, 4 is check valve, 5 is check valve, 6 is check valve, 7 is check valve, 8 is three-way diverter valve, 9 is flow division control device, 10 is gas-liquid separator, 11 is throttling arrangement, 12 is throttling arrangement, 13 is three-way diverter valve, 14 is humidifying component, 15 is indoor heat exchanger, 16 is throttling arrangement, 17 is dehumidifying magnetic valve, 18 is dehumidifying throttling arrangement, 19 for adding wet blower, 20 is far infrared humidifier, 21 is moisturizing magnetic valve or motor-driven valve, 22 is water source, 23 is blower fan, 24 is heat exchanger, 25 is blower fan, 26 is air cleaning unit, 27 is air cleaning unit.
Detailed description of the invention
Below in conjunction with accompanying drawing to the utility model simultaneously the detailed description of the invention of the multi-connected air conditioner device of cooling and warming elaborate.
Cooling and warming variable-frequency multi-connection type air regulator comprises cooling and warming variable-frequency multi-connection type constant temperature and humidity system, humidifying component and ventilation air interchange system simultaneously simultaneously.Realize the permanent net work energy of the permanent oxygen of constant temperature and humidity by humidifying component, ventilation air interchange system etc.
Referring to accompanying drawing 1, cooling and warming variable-frequency multi-connection type constant temperature and humidity system comprises an off-premises station, flow division control device and at least two indoor sets simultaneously, and off-premises station comprises frequency-changeable compressor 1, cross valve 2, outdoor heat exchanger 3, check valve 4,5 and three-way diverter valve 8; Flow division control device 9 comprises gas-liquid separator 10, throttling arrangement 11,12, three-way diverter valve 13; Indoor set comprises indoor heat exchanger 15, branch road throttling arrangement 16, dehumidifying throttling arrangement 18, dehumidifying magnetic valve 17 and indoor fan.Four ports of cross valve 2 are connected with one end of flow division control device 9 with the blast pipe of frequency-changeable compressor 1, the air intake duct of frequency-changeable compressor 1, one end of outdoor heat exchanger 3 respectively, the indoor heat exchanger 15 of each indoor set is divided into upper and lower two halves, one end of indoor heat exchanger 15 the first half is connected with one end of flow division control device 9 by branch road throttling arrangement 16 respectively, the other end is connected with dehumidifying magnetic valve 17 with dehumidifying throttling arrangement 18, and indoor heat exchanger 15 the latter halfs are connected with dehumidifying magnetic valve 17 with dehumidifying throttling arrangement 18.The other end of flow division control device 9 is connected with the other end of outdoor heat exchanger 3.Each indoor set humidifying component 14 is arranged on indoor fan one side, humidifying component 14 by far infrared humidifier 20, add wet blower 19, water compensating valve 21 forms.
Referring to accompanying drawing 3, ventilation air interchange system is made up of heat exchanger 24, blower fan 23,25, air cleaning unit 26,27.Blower fan 23,25 is positioned at the front and back end of heat exchanger 24, carries out respectively blowdown wind and inletting fresh air.Air cleaning unit 27,28 can be made up of HEPA high efficiency particulate air, electrostatic precipitator, activated carbon, ion generator and catalyst filter screen.Heat exchanger can be total-heat exchanger, can be also sensible heat exchanger.
Throttling arrangement can be capillary, heating power expansion valve or electric expansion valve.
Referring to accompanying drawing 2, humidifying component can arrange water tank water source 22, and water heater part also can be set.Moisturizing can adopt straight water supplementing method, also can adopt circular water replenishing mode.When direct subsidy water, directly mended to water tank through magnetic valve or motor-driven valve 21 by source water.
Operation principle of the present utility model is as follows:
While being main body referring to accompanying drawing 1 refrigeration: cold-producing medium is by the gas of compressor 1 boil down to HTHP, through cross valve 2, deliver to outdoor heat exchanger 3, it is cooling after outdoor heat exchanger carries out exchange heat, become the gas-liquid mixture of high pressure, then pass through check valve 4, deliver to the gas-liquid separator 10 in flow division control device 9, the liquid of high pressure is by lower branch road, through throttling arrangement 11, now throttling arrangement 11 standard-sized sheets, throttling arrangement 12 cuts out, deliver to the indoor set of each refrigeration, then pass through each indoor set branch road throttling arrangement 16, become the gas-liquid mixture of low-temp low-pressure, again by each indoor set indoor heat exchanger 15, the magnetic valve 17 that now dehumidifies is opened, indoor heat exchanger by exchange heat in room air to cold-producing medium, indoor air temperature reduces, give indoor refrigeration.Cold-producing medium becomes the gas of low-temp low-pressure after each indoor set indoor heat exchanger heat exchange, delivers to the three-way diverter valve 13 in flow division control device 9, the gas of gas-liquid separator 10 mesohighs is by upper branch road, through three-way diverter valve, deliver to the indoor set heating individually, again by indoor set indoor heat exchanger, it is cooling after indoor heat exchanger carries out exchange heat, indoor air is warmed and produces and heats, the magnetic valve that now dehumidifies is opened, cooled cold-producing medium becomes gas-liquid mixture or the liquid of high pressure, then pass through indoor set branch road throttling arrangement, now branch road throttling arrangement standard-sized sheet, deliver to 9 times branch roads of flow division control device, deliver to together the indoor set of each refrigeration, after the throttling of branch road throttling arrangement, by becoming the gas of low-temp low-pressure after indoor heat exchanger heat exchange, the gas of each indoor set low-temp low-pressure converges to flow division control device 9 house stewards, through three-way diverter valve 8 and check valve 5, by cross valve, then is sucked by compressor, then by the gas that turns HTHP after compressor compresses, completes kind of refrigeration cycle.In this circulation, high-pressure gas refrigerant is after the indoor set circulation heating individually, and the liquid refrigerant that becomes high pressure is supplied with the indoor set of refrigeration.
While heating as main body: cold-producing medium is by the gas of compressor 1 boil down to HTHP, through cross valve 2, through check valve 6, deliver to the gas-liquid separator 10 in flow division control device 9, the gas of high pressure is by upper branch road, now throttling arrangement 11 cuts out, through three-way diverter valve 13, deliver to the indoor heat exchanger 15 that each heats indoor set, cooling after indoor heat exchanger carries out exchange heat, indoor air is warmed and produces and heats, and the magnetic valve 17 that now dehumidifies is opened.Cooled cold-producing medium becomes gas-liquid mixture or the liquid of high pressure, then pass through each indoor set branch road throttling arrangement 16, now branch road throttling arrangement 16 standard-sized sheets, through flow division control device 9, a cold-producing medium part is delivered to the indoor set of indivedual refrigeration, then pass through indoor set branch road throttling arrangement, become the gas-liquid mixture of low-temp low-pressure, pass through again indoor heat exchanger, the magnetic valve that now dehumidifies is opened, indoor heat exchanger is by exchange heat in room air to cold-producing medium, and indoor air temperature reduces, and gives indoor refrigeration; Another part cold-producing medium, through throttling arrangement 12, becomes the gas-liquid mixture of low-temp low-pressure; Two parts cold-producing medium converges to flow division control device 9 house stewards, and through three-way diverter valve 8 and check valve 7, then by outdoor heat exchanger 3, cold-producing medium exchange heat is arrived outdoor air by outdoor heat exchanger.Cold-producing medium becomes the gas of low-temp low-pressure after outdoor heat exchanger heat exchange, then by cross valve, is sucked, then by the gas that turns HTHP after compressor compresses, complete and heat circulation by compressor.In this circulation, supply with the indoor sets of indivedual refrigeration from the indoor set that heats high pressure liquid refrigerant out.
When constant temperature dehumidification: cold-producing medium is by the gas of compressor 1 boil down to HTHP, through cross valve 2, deliver to outdoor heat exchanger 3, it is cooling after outdoor heat exchanger carries out exchange heat, become the gas-liquid mixture of high pressure, then pass through check valve 4, deliver to the gas-liquid separator 10 in flow division control device 9, the liquid of high pressure is by lower branch road, through throttling arrangement 11, now throttling arrangement 11 standard-sized sheets, deliver to each indoor set, then pass through each indoor set branch road throttling arrangement 16, now branch road throttling arrangement 16 standard-sized sheets, deliver to indoor heat exchanger 15 heat exchange of each indoor set, heat up to room air in indoor heat exchanger 15 the first half, cold-producing medium becomes gas liquid mixture or the liquid of high pressure and delivers to dehumidifying throttling arrangement 9, become the gas-liquid mixture of low-temp low-pressure, deliver to again indoor heat exchanger 15 the latter halfs, the magnetic valve 8 that now dehumidifies cuts out, room air exchange heat is arrived cold-producing medium by indoor heat exchanger, because indoor heat exchanger temperature is low, the indoor air humidity supersaturation of flowing through and produce condensation, condensed water is discharged, thereby give indoor air dehumidification, in dehumidification process, indoor heat exchanger the latter half and indoor heat exchanger the first half are given respectively indoor refrigeration and are heated, thereby reach the object of constant temperature dehumidification.Cold-producing medium becomes the gas of low-temp low-pressure after the indoor heat exchanger of each indoor set, converges to flow division control device 9 house stewards, through three-way diverter valve 8 and check valve 5, pass through cross valve, sucked by compressor again, then by the gas that turns HTHP after compressor compresses, complete constant temperature dehumidification circulation.
Referring to accompanying drawing 2, when constant temperature humidification: cold-producing medium, by the gas of compressor 1 boil down to HTHP, through cross valve 2, is delivered to outdoor heat exchanger 3, it is cooling after outdoor heat exchanger carries out exchange heat, become the gas-liquid mixture of high pressure, then pass through check valve 4, deliver to the gas-liquid separator 10 in flow division control device 9, the liquid of high pressure is by lower branch road, through throttling arrangement 11, now throttling arrangement 11 standard-sized sheets, deliver to each indoor set.Humidifying component 14 is worked, and far infrared humidifier 20 makes water surface under infrared ray action, produce heat and then rapid evaporation by infrared emanation, indoor to indoor humidification thereby warm moist air is sent to.Cold-producing medium is through each indoor set branch road throttling arrangement 16, become the gas-liquid mixture of low-temp low-pressure, again by the indoor heat exchanger 15 of each indoor set, the magnetic valve 8 that now dehumidifies is opened, indoor heat exchanger by exchange heat in room air to cold-producing medium, in humidification, indoor heat exchanger and humidifying component are given respectively indoor refrigeration and are heated, thereby reach the object of constant temperature humidification.Cold-producing medium becomes the gas of low-temp low-pressure after the indoor heat exchanger heat exchange of each room, converges to flow division control device 9 house stewards, through three-way diverter valve 8 and check valve 5, pass through cross valve, sucked by compressor again, then by the gas that turns HTHP after compressor compresses, complete the circulation of constant temperature humidification.
Referring to accompanying drawing 3, the new blower fan operation principle of permanent oxygen: when inspection raises (or oxygen concentration decline) or IAQ pollutes and exceeds standard or when PM2.5 exceeds standard to CO2 concentration in room air, automatically open the new blower fan work of permanent oxygen, indoor dirty wind is through purifier 26, carry out heat exchange by heat exchanger 24 again, sent by blower fan 25; Outdoor fresh air is by after air cleaning unit 27, undertaken after heat exchange by heat exchanger 24 again, deliver to indoor by blower fan 23, the new wind or the dirty wind that enter new blower fan all pass through Air purification, reach indoor air purification, effectively remove the pernicious gases such as PM2.5, formaldehyde, the indoor new wind of dirty wind outside discharge chamber and inspiration carries out full heat or Exchange of apparent heat, reach the order of heat recovery, due to lasting inletting fresh air, by the air exchange of outdoor constant oxygen to indoor, thereby reach the object of indoor permanent oxygen.
Humidifying component work: by adding that wet blower 19 is blown or air-breathing, air stream is through far infrared humidifier 20, the water 22 that water charging system is used humidification is directly mended humidifier water tank by moisturizing magnetic valve or motor-driven valve 21, far infrared humidifier makes water surface under infrared ray action, produce heat and then rapid evaporation by infrared emanation, moisture is evaporated in air-flow, thereby warm moist air is sent to the indoor function reaching to indoor humidification.
The implementation of this utility model can have following improvement mode:
Cancel far infrared humidifier, replaced by water heater part, the effect of heating water is equal to far infrared humidifier, and far infrared humidifier plays equalized temperature effect in constant temperature humidification.
Air cleaning unit be except being arranged in ventilation air interchange system, also can be arranged in each indoor set of cooling and warming variable-frequency multi-connection type constant temperature and humidity system simultaneously, plays equally the effect purifying the air of a room.
The above is only preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, do not departing under the prerequisite of the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (9)

1. the multi-connected air conditioner device of cooling and warming simultaneously, comprise an off-premises station and at least two indoor sets, it is characterized in that: described off-premises station comprises frequency-changeable compressor, outdoor heat exchanger and control valve, described indoor set comprises indoor heat exchanger and humidifying component, the outdoor heat exchanger of described off-premises station is connected with the indoor heat exchanger of described indoor set respectively by flow division control device, described flow division control device comprises gas-liquid separator and flow controller, described gas-liquid separator is connected with the indoor heat exchanger of many indoor sets by multiple triple valves respectively, between the air inlet pipe of described compressor and escape pipe, the pipeline section of check valve is equipped with in interconnection.
2. the multi-connected air conditioner device of cooling and warming simultaneously according to claim 1, it is characterized in that: described flow division control device also connects dehydrating unit by triple valve, described dehydrating unit comprises dehumidifying flow controller, dehumidifying magnetic valve, and described dehydrating unit is connected with described indoor heat exchanger.
3. the multi-connected air conditioner device of cooling and warming simultaneously according to claim 1, it is characterized in that: described indoor set also configures the new blower fan of persevering oxygen, the new blower fan of described permanent oxygen comprises blower fan, heat exchanger and air cleaning unit, and described blower fan is positioned at the front-end and back-end of described heat exchanger.
4. the multi-connected air conditioner device of cooling and warming simultaneously according to claim 1, it is characterized in that: described humidifying component is arranged on indoor fan one side of described indoor set, described humidifying component comprises humidifier, adds wet blower, water compensating valve, adds the front of wet blower described in described humidifier is arranged on.
5. the multi-connected air conditioner device of cooling and warming simultaneously according to claim 4, is characterized in that: described humidifier is far infrared humidifier or water heater.
6. the multi-connected air conditioner device of cooling and warming simultaneously according to claim 3, is characterized in that: described air cleaning unit is made up of HEPA high efficiency particulate air, electrostatic precipitator, activated carbon, ion generator and catalyst filter screen.
7. according to the multi-connected air conditioner device of cooling and warming simultaneously described in any one in claim 1 to 5, it is characterized in that: described indoor set also comprises heating element heater.
8. according to the multi-connected air conditioner device of cooling and warming simultaneously described in any one in claim 1 to 5, it is characterized in that: described control valve is heating power expansion valve or electric expansion valve.
9. the multi-connected air conditioner device of cooling and warming simultaneously according to claim 2, is characterized in that: described dehumidifying flow controller is capillary, heating power expansion valve or electric expansion valve.
CN201420413098.9U 2014-07-21 2014-07-21 The multi-connected air conditioner device of cooling and warming simultaneously Expired - Fee Related CN203964187U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108758960A (en) * 2018-03-21 2018-11-06 青岛海信日立空调系统有限公司 Timesharing dehumanization method and device, the computer storage media of multi-line system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108758960A (en) * 2018-03-21 2018-11-06 青岛海信日立空调系统有限公司 Timesharing dehumanization method and device, the computer storage media of multi-line system

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CF01 Termination of patent right due to non-payment of annual fee
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Granted publication date: 20141126

Termination date: 20160721