CN105423470B - Multi-use architecture one heating-cooling device - Google Patents
Multi-use architecture one heating-cooling device Download PDFInfo
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- CN105423470B CN105423470B CN201511013061.2A CN201511013061A CN105423470B CN 105423470 B CN105423470 B CN 105423470B CN 201511013061 A CN201511013061 A CN 201511013061A CN 105423470 B CN105423470 B CN 105423470B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F5/00—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater
- F24F5/0007—Air-conditioning systems or apparatus not covered by F24F1/00 or F24F3/00, e.g. using solar heat or combined with household units such as an oven or water heater cooling apparatus specially adapted for use in air-conditioning
- F24F5/001—Compression cycle type
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B29/00—Combined heating and refrigeration systems, e.g. operating alternately or simultaneously
- F25B29/003—Combined heating and refrigeration systems, e.g. operating alternately or simultaneously of the compression type system
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2221/00—Details or features not otherwise provided for
- F24F2221/50—HVAC for high buildings, e.g. thermal or pressure differences
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- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
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- Life Sciences & Earth Sciences (AREA)
- Sustainable Development (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Steam Or Hot-Water Central Heating Systems (AREA)
- Other Air-Conditioning Systems (AREA)
Abstract
The invention belongs to build HVAC device field more particularly to a kind of multi-use architecture one heating-cooling device, including heat pump air conditioner unit (1), indoor scattered warm component (2) and indoor unit (3);The indoor temperature component (2) that dissipates is concatenated with indoor unit (3);The main hydraulic pipe transmission port of the heat pump air conditioner unit (1) connects with the transmission port of indoor unit (3);The steam pipe transmission port that heat pump air conditioner unit (1) refrigerant is fed back connects with the indoor transmission port for dissipating warm component (2);In the indoor port for dissipating warm component (2) and pick a group protection element (4);The heat pump air conditioner unit (1) uses heat pump unit, air-conditioner set, determines frequency unit, frequency converter sets or multistage frequency conversion unit.The present invention dissipates the efficiency height that temperature area is big, and scattered temperature uniformly, consumes energy low, is not easy to condense, and freezes and heats.
Description
Technical field
The invention belongs to build HVAC device field more particularly to a kind of multi-use architecture one heating-cooling device.
Background technique
Air-conditioning, that is, air conditioning (air conditioner), refers to manually means, empty to environment in building or structures
The process that the parameters such as temperature, humidity, cleanliness, the speed of gas are adjusted and control.Currently, domestic air conditioning is substantially use
The outer interior machine mode of machine-mainly transmits the heat or cooling capacity that outer machine provides by interior machine with blower, not only poor thermal efficiency, Er Qieleng
(heat) wind directly blows, and effect is low, and body-sensing is also very uncomfortable.
Existing building accumulation energy air conditioner is that metal capillary is buried to apply in ground or metope, ground, metope in refrigeration
Moisture condensation can be generated and pollute indoor environment.Due to bury deposited metal capillary be it is fixed, refrigerant phase transformation can not variable adjustment, shadow
It rings air-conditioner set and works normally (high temperature or liquid machine).
Summary of the invention
It is big the present invention is directed to provide a kind of temperature area that dissipates in place of overcome the deficiencies in the prior art, it dissipates temperature uniformly, consumes energy low,
It is not easy to condense, the high multi-use architecture one heating-cooling device of Energy Efficiency Ratio.
In order to solve the above technical problems, the invention is realized in this way.
Multi-use architecture one heating-cooling device, it includes heat pump air conditioner unit, indoor scattered warm component and indoor unit;The room
Interior scattered temperature component is concatenated with indoor unit;The transmission port phase of the main hydraulic pipe transmission port of the heat pump air conditioner unit and indoor unit
It connects;The steam pipe transmission port that the heat pump air conditioner unit refrigerant is fed back connects with the indoor transmission port for dissipating warm component.
As a preferred embodiment, the present invention is in the indoor port for dissipating warm component and group protection element that picks.
Further, heat pump air conditioner unit of the present invention can be used heat pump unit, air-conditioner set, determine frequency unit, frequency conversion
Unit or multistage frequency conversion unit.
Another implementation mode of multi-use architecture one heating-cooling device, including heat pump air conditioner unit, it is indoor dissipate warm component,
Indoor unit, generator protection element, the first control valve and the second control valve;The main hydraulic pipe transmission port of the heat pump air conditioner unit point
Do not connect with the transmission port of indoor unit and the first control valve;Another transmission port of the indoor unit respectively with the second control valve
And the transmission port of generator protection element connects;Another transmission port of the generator protection element dissipates warm component with interior respectively
And the steam pipe transmission port that heat pump air conditioner unit refrigerant is fed back connects;Another transmission port of first control valve is respectively with
Two control valves and the indoor another transmission port for dissipating warm component connect.
As a preferred embodiment, multiple groups parallel-connection structure can be used in the indoor temperature component that dissipates of the present invention;The indoor unit
Multiple groups parallel-connection structure can be used.
The indoor port assembly for dissipating warm component includes dissipating warm liquid pipe branch pipe, dissipating warm liquid pipe distributor, dissipate warm steam pipe
Branch pipe and scattered warm steam pipe distributor;The transmission port of the scattered temperature liquid pipe branch pipe connects the transmission end for dissipating warm liquid pipe distributor
Mouthful;The transmission port of the scattered temperature steam pipe branch pipe connects the transmission port for dissipating warm steam pipe distributor.
The port assembly of the indoor unit includes multi-functional liquid pipe branch pipe, multi-functional liquid pipe distributor, multi-functional steam pipe
Branch pipe and multi-functional steam pipe distributor;The transmission port of the multi-functional liquid pipe branch pipe connects the biography of multi-functional liquid pipe distributor
Defeated port;The transmission port of the multi-functional steam pipe branch pipe connects the transmission port of multi-functional steam pipe distributor.
Further, the present invention the indoor unit both ends and connect ceiling radiating subassembly.
Further, the present invention can also concatenate ceiling radiating subassembly in the port of the indoor unit.
Further, ceiling of the present invention, which dissipates warm component, can be used multiple groups parallel-connection structure.
Another implementation mode of multi-use architecture one heating-cooling device, including heat pump air conditioner unit, interior change warm component,
Indoor unit, generator protection component, third control valve, the 4th control valve, the 5th control valve, the 6th control valve, the 7th control valve,
Eight control valves, water change warm component, warm component and throttle part are changed in outdoor.
The main hydraulic pipe transmission port of the heat pump air conditioner unit changes the transmission of warm component with third control valve and outdoor respectively
Port connects;The outdoor changes another transmission port of warm component and connects with the transmission port of the 7th control valve;7th control
Another transmission port of valve connects with the transmission port of the 5th control valve and throttle part respectively;Another biography of the throttle part
Defeated port connects with the transmission port of the 6th control valve and the 8th control valve respectively;The transmission port of 8th control valve and room
The transmission port of interior machine connects;Another transmission port of the indoor unit changes warm component and generator protection component simultaneously with interior respectively
Transmission port after connecing connects;The interior change warm component and generator protection component and connect after another transmission port respectively with
The steam pipe transmission port that four control valves and heat pump air conditioner unit are fed back connects;Another transmission port of the third control valve is distinguished
The transmission port for changing warm component and the 4th control valve with water connects;The water changes another transmission port of warm component to be controlled with the 5th respectively
The transmission port of valve processed and the 6th control valve connects.
As a preferred embodiment, heat pump air conditioner unit of the present invention can be used heat pump unit, air-conditioner set, determine frequency machine
Group, frequency converter sets or multistage frequency conversion unit.
The present invention dissipates the efficiency height that temperature area is big, and scattered temperature uniformly, consumes energy low, is not easy to condense, and freezes and heats.Room of the present invention
Interior machine and it is indoor dissipate warm component and use series connection mode, when refrigeration, refrigerant first passes through indoor unit and is tentatively evaporated cold scattering, removes
It is wet, the effect of the further evaporating completely cold scattering of warm component is dissipated using interior, improves heat pump air conditioner unit, solve simultaneously
The problem of temperature component easily condenses is dissipated when refrigeration in room.Indoor unit and indoor scattered warm component existence function variable relation, can be according to reality
Border needs to design.The present invention is by using generator protection element, when the refrigerant temperature that heat pump air conditioner unit is fed back is excessively high (overload)
When, generator protection element automatically turns on, to guarantee that heat pump air conditioner unit works well.
Detailed description of the invention
Present invention will be further explained below with reference to the attached drawings and specific embodiments.Protection scope of the present invention not only office
It is limited to the statement of following content.
Fig. 1 is the first implementation mode functional block diagram of the present invention.
Fig. 2 is the functional block diagram that the present invention is added after generator protection element.
Fig. 3 is second of the present invention functional block diagram implemented after mode addition control valve.
Fig. 4 is that the present invention is based on the preferred embodiment functional block diagrams that second is implemented mode.
Fig. 5 is that the present invention is based on the preferred embodiment functional block diagrams that second is implemented mode.
Fig. 6 is that the present invention is based on the preferred embodiment functional block diagrams that second is implemented mode.
Fig. 7 is the third implementation mode functional block diagram of the present invention.
In figure: 1, heat pump air conditioner unit;2, indoor to dissipate warm component;3, indoor unit;4, generator protection element;5, the first control
Valve;6, the second control valve;7, multi-functional liquid pipe branch pipe;701, multi-functional liquid pipe distributor;8, multi-functional steam pipe branch pipe;
801, multi-functional steam pipe distributor;9, warm liquid pipe branch pipe is dissipated;901, warm liquid pipe distributor is dissipated;10, warm steam pipe branch pipe is dissipated;
1001, warm steam pipe distributor is dissipated;11, ceiling radiating subassembly;13, warm component is changed;14, warm component is changed in outdoor;15, throttle part;
16, third control valve;17, the 4th control valve;18, the 5th control valve;19, the 6th control valve;20, the 7th control valve;21, the 8th
Control valve.
Specific embodiment
As shown in Figures 1 and 2, implement mode, multi-use architecture one heating-cooling device of the present invention, including heat as the first
Pump air-conditioner set 1, indoor scattered warm component 2 and indoor unit 3;The indoor temperature component 2 that dissipates is concatenated with indoor unit 3;The heat pump is empty
The main hydraulic pipe transmission port of unit 1 is adjusted to connect with the transmission port of indoor unit 3;The vapour that 1 refrigerant of heat pump air conditioner unit is fed back
Pipe transmission port dissipates warm 2 transmission port of component with interior and connects.
Shown in Figure 2, the present invention is in the indoor port for dissipating warm component 2 and group protection element 4 that picks.
Heat pump air conditioner unit 1 of the present invention can select one and use heat pump unit, air-conditioner set, determine frequency unit, frequency converter sets
Or multistage frequency conversion unit.
Shown in Figure 3, as second of implementation mode, multi-use architecture one heating-cooling device of the present invention includes heat pump sky
Adjust unit 1, indoor scattered warm component 2, indoor unit 3, generator protection element 4, the first control valve 5 and the second control valve 6;The heat pump
The main hydraulic pipe transmission port of air-conditioner set 1 connects with the transmission port of indoor unit 3 and the first control valve 5 respectively;The indoor unit 3
Another transmission port connect respectively with the transmission port of the second control valve 6 and generator protection element 4;The generator protection element
4 another transmission port connects with the indoor steam pipe transmission port for dissipating warm component 2 and 1 refrigerant of heat pump air conditioner unit feedback respectively;
Another transmission port of first control valve 5 dissipates another transmission port phase of warm component 2 with the second control valve 6 and interior respectively
It connects.
Shown in Figure 4, the indoor temperature component 2 that dissipates of the present invention uses multiple groups parallel-connection structure;The indoor unit 3 is using more
Group parallel-connection structure.
The indoor port assembly for dissipating warm component 2 includes dissipating warm liquid pipe branch pipe 9, dissipating warm liquid pipe distributor 901, dissipate temperature
Steam pipe branch pipe 10 and scattered warm steam pipe distributor 1001;The transmission port of the scattered temperature liquid pipe branch pipe 9, which connects, dissipates warm liquid pipe distribution
The transmission port of device 901;The transmission port of the scattered temperature steam pipe branch pipe 10 connects the transmission port for dissipating warm steam pipe distributor 1001;
The port assembly of the indoor unit 3 includes multi-functional liquid pipe branch pipe 7, multi-functional liquid pipe distributor 701, multi-functional
Steam pipe branch pipe 8 and multi-functional steam pipe distributor 801;The transmission port of the multi-functional liquid pipe branch pipe 7 connects multi-functional liquid pipe
The transmission port of distributor 701;The transmission port of the multi-functional steam pipe branch pipe 8 connects the biography of multi-functional steam pipe distributor 801
Defeated port.
It is shown in Figure 5, the present invention the indoor unit 3 both ends and connect ceiling radiating subassembly 11.
It is shown in Figure 6, ceiling radiating subassembly 11 is concatenated in the port of the indoor unit 3.
Ceiling of the present invention, which dissipates warm component 11, can also be used multiple groups parallel-connection structure.
It is shown in Figure 7, implement mode as the third, multi-use architecture one heating-cooling device of the present invention includes heat pump sky
Unit 1, interior is adjusted to change warm component 2, indoor unit 3, generator protection component 4, third control valve 16, the control of the 4th control valve the 17, the 5th
Valve 18 processed, the 6th control valve 19, the 7th control valve 20, the 8th control valve 21, change warm component 13, warm component 14 is changed in outdoor and throttling
Component 15.
The main hydraulic pipe transmission port of the heat pump air conditioner unit 1 changes warm component 14 with third control valve 16 and outdoor respectively
Transmission port connects;The outdoor changes another transmission port of warm component 14 and connects with the transmission port of the 7th control valve 11;It is described
Another transmission port of 7th control valve 11 connects with the transmission port of the 5th control valve 18 and throttle part 15 respectively;The section
Another transmission port of stream unit 15 connects with the transmission port of the 6th control valve 10 and the 8th control valve 12 respectively;Described 8th
The transmission port of control valve 12 connects with the transmission port of indoor unit 3;Another transmission port of the indoor unit 3 respectively with interior
Transmission port after changing warm component 2 and generator protection component 4 and connecing connects;Warm component 2 and generator protection component 4 are changed in the interior
And the steam pipe transmission port that another transmission port after connecing is fed back with the 4th control valve 17 and heat pump air conditioner unit 1 respectively connects;
Another transmission port of the third control valve 16 changes warm component 13 with water respectively and the transmission port of the 4th control valve 17 connects;
Another transmission port of warm component 13 of changing connects with the transmission port of the 5th control valve 18 and the 6th control valve 19 respectively.
Heat pump air conditioner unit 1 of the present invention can equally use heat pump unit, air-conditioner set, determine frequency unit, frequency changer
Group or multistage frequency conversion unit.
It is of the present invention to change warm component 13 and warm component be changed or warm component is changed in superconduction using water.
In the specific implementation, following design can be used in the present invention.
It is shown in Figure 1, implement mode as the first, multi-use architecture one heating-cooling device of the present invention is designed in structure
It is upper to dissipate warm component 2 and indoor unit 3 including heat pump air conditioner unit 1, interior;The main hydraulic pipe transmission port of the heat pump air conditioner unit 1
Connect with the transmission port of indoor unit 3;The transmission port of the indoor unit 3 connects with the indoor transmission port for dissipating warm component 2;Room
The transmission port of interior scattered temperature component 2 connects with the steam pipe transmission port that 1 refrigerant of heat pump air conditioner unit is fed back.
Indoor unit of the present invention 3 with it is indoor to dissipate warm component 2 be to be connected in series, refrigerant first passes through the just stepping of indoor unit 3 when refrigeration
Row evaporation cold scattering, dehumidifying improve heat pump air conditioner unit 1 using the indoor further evaporating completely cold scattering for dissipating warm component 2
Effect, while solving the problems, such as that dissipating temperature component when refrigeration in room easily condenses.2 existence function of indoor unit 3 and indoor scattered warm component
Variable relation can design according to actual needs.
Shown in Figure 2, multi-use architecture one heating-cooling device of the present invention includes heat pump air conditioner unit 1, indoor scattered warm group
Part 2, indoor unit 3 and generator protection element 4;The main hydraulic pipe transmission port of the heat pump air conditioner unit 1 and the transmission end of indoor unit 3
Mouth connects;The transmission port of the indoor unit 3 connects with the indoor transmission port for dissipating warm component 2 and generator protection element 4 respectively;
Interior dissipates the steam pipe that warm component 2 is fed back with another transmission port of generator protection element 4 and 1 refrigerant of heat pump air conditioner unit respectively and passes
Defeated port connects.
Generator protection element 4 of the present invention is when the refrigerant temperature that heat pump air conditioner unit 1 is fed back excessively high (overload), unit
Protection element 4 automatically turns on, and guarantees that heat pump air conditioner unit 1 works well.When the unit in string (simultaneously) through transport row is arranged in the present invention
Control turns off or on protection element 4 as needed.
Shown in Figure 3, as second of implementation mode, multi-use architecture one heating-cooling device of the present invention includes heat pump sky
Adjust unit 1, indoor scattered warm component 2, indoor unit 3, generator protection element 4, the first control valve 5 and the second control valve 6;The heat pump
The main hydraulic pipe transmission port of air-conditioner set 1 connects with the transmission port of indoor unit 3 and the first control valve 5 respectively;Indoor unit 3 it is another
One transmission port connects with the transmission port of the second control valve 6 and generator protection element 4 respectively;Generator protection element 4 it is another
Transmission port connects with the indoor steam pipe transmission port for dissipating warm component 2 and 1 refrigerant of heat pump air conditioner unit feedback respectively;First control
Another transmission port of valve 5 connects with the second control valve 6 and the indoor transmission port for dissipating warm component 2 respectively.
The present invention can realize indoor scattered warm component 2 and 3 company of series connection of indoor unit by the first control valve 5 and the second control valve 6
It connects, can also realize and be connected in parallel.When series connected mode is freezed in setting, the second control valve 6 is opened, the first control valve 5 and machine
Group protection element 4 is closed, and the refrigerant that heat pump air conditioner unit 1 exports is returned through indoor unit 3, the second control valve 6 and indoor scattered warm component 2
In the defeated steam pipe transmission port to heat pump air conditioner unit 1;When setting refrigeration is connected in parallel mode, the second control valve 6 is closed, and first
Control valve 5 and generator protection element 4 are opened, and the refrigerant that heat pump air conditioner unit 1 exports is all the way through indoor unit 3 and generator protection element
4 feed back in the steam pipe transmission port of heat pump air conditioner unit 1;Another way is fed back to through the first control valve 5 and the indoor temperature component 2 that dissipates
In 1 steam pipe transmission port of heat pump air conditioner unit.
Shown in Figure 4, multi-use architecture one heating-cooling device of the present invention includes heat pump air conditioner unit 1, indoor scattered warm group
Part 2, indoor unit 3, generator protection element 4, the first control valve 5, the second control valve 6, multi-functional liquid pipe branch pipe 7;Multifunctional solution
Pipe distributor 701, multi-functional steam pipe distributor 801, dissipates warm liquid pipe branch pipe 9, dissipates warm liquid pipe point multi-functional steam pipe branch pipe 8
Device 901 is sent out, warm steam pipe branch pipe 10 is dissipated, dissipates warm steam pipe distributor 1001;The main hydraulic pipe transmission port of the heat pump air conditioner unit 1
Connect respectively with the transmission port of multi-functional liquid pipe branch pipe 7 and the first control valve 5;Multi-functional 7 transmission port of liquid pipe branch pipe
Connect respectively with the transmission port of multi-functional liquid pipe distributor 701;The transmission port of multi-functional liquid pipe distributor 701 respectively with it is more
The transmission port of function steam pipe distributor 801 connects;The transmission port of multi-functional steam pipe distributor 801 respectively with multi-functional steam pipe
The transmission port of branch pipe 8 connects;The transmission port of multi-functional steam pipe branch pipe 8 and the second control valve 6 and generator protection element 4
Transmission port connect;Another transmission port of generator protection element 4 respectively with scattered temperature steam pipe branch pipe 10 and heat-pump air-conditioner
The steam pipe transmission port that 1 refrigerant of group is fed back connects;Another transmission port of first control valve 5 respectively with the second control valve 6 and dissipate
The transmission port of warm liquid pipe branch pipe 9 connects;Dissipate the transmission port of temperature liquid pipe branch pipe 9 respectively with scattered temperature liquid pipe distributor 901
Transmission port connect;The transmission port for dissipating temperature liquid pipe distributor 901 connects with the indoor transmission port for dissipating warm component 2;It is indoor
Another transmission port for dissipating temperature component 2 connects with the transmission port of scattered temperature steam pipe distributor 1001 respectively;Dissipate temperature steam pipe distributor
1001 another transmission port connects with warm 10 transmission port of steam pipe branch pipe is dissipated;Dissipate another transmission port of temperature steam pipe branch pipe 10
The steam pipe transmission port fed back respectively with generator protection element 4 and 1 refrigerant of heat pump air conditioner unit connects.
2 multiple groups serial or parallel connection of indoor unit 3 of the present invention and indoor scattered warm component, realizes a heat pump air conditioner unit 1 simultaneously
Drive the operation that warm component 2 is dissipated in multiple groups indoor unit 3 and multiple groups room.
It is shown in Figure 5, multi-use architecture one heating-cooling device of the present invention, including heat pump air conditioner unit 1, indoor scattered warm group
Part 2, indoor unit 3, generator protection element 4, the first control valve 5, the second control valve 6, multi-functional liquid pipe branch pipe 7, multifunctional solution
Pipe distributor 701, multi-functional steam pipe distributor 801, dissipates warm liquid pipe branch pipe 9, dissipates warm liquid pipe point multi-functional steam pipe branch pipe 8
It sends out device 901, scattered warm steam pipe branch pipe 10, scattered warm steam pipe distributor 1001, ceiling and dissipates temperature component 11;The heat pump air conditioner unit 1
Main hydraulic pipe transmission port the transmission port of warm component 11 and multi-functional liquid pipe branch pipe 7 is dissipated with the first control valve 5, ceiling respectively
Connect;Multi-functional 7 transmission port of liquid pipe branch pipe connects with the transmission port of multi-functional liquid pipe distributor 701 respectively;It is multi-functional
The transmission port of liquid pipe distributor 701 connects with the transmission port of multi-functional steam pipe distributor 801 respectively;Multi-functional steam pipe distribution
The transmission port of device 801 connects with the transmission port of multi-functional steam pipe branch pipe 8 respectively;The transmission of multi-functional steam pipe branch pipe 8
Port dissipates another transmission port of warm component 11, another transmission port of the second control valve 6 and generator protection element 4 with ceiling respectively
Transmission port connects;Another transmission port of first control valve 5 with the second control valve 6 and dissipates the biography of warm liquid pipe branch pipe 9 respectively
Defeated port connects;The transmission port for dissipating temperature liquid pipe branch pipe 9 connects with the transmission port of scattered temperature liquid pipe distributor 901 respectively;It dissipates
The transmission port of warm liquid pipe distributor 901 connects with the indoor transmission port for dissipating warm component 2;Interior dissipates another biography of warm component 2
Defeated port connects with the transmission port of scattered temperature steam pipe distributor 1001 respectively;Dissipate another transmission port of temperature steam pipe distributor 1001
Connect with the transmission port of scattered temperature steam pipe branch pipe 10;Dissipate another transmission port of temperature steam pipe branch pipe 10 respectively with generator protection
The steam pipe transmission port that element 4 and 1 refrigerant of heat pump air conditioner unit are fed back connects.
The present invention can be achieved interior and dissipate the scattered warm component 11 of warm component 2, ceiling and the series connection of 3 multiple groups of indoor unit or multiple groups simultaneously
Connection connection realizes a heat pump air conditioner unit 1 while multiple groups indoor unit 3, multiple groups ceiling being driven to dissipate in warm component 11 and multiple groups room
Dissipate the operation of temperature component 2.
It is shown in Figure 6, multi-use architecture one heating-cooling device of the present invention, including heat pump air conditioner unit 1, indoor scattered warm group
Part 2, indoor unit 3, generator protection element 4, the first control valve 5, the second control valve 6, multi-functional liquid pipe branch pipe 7, multifunctional solution
Pipe distributor 701, multi-functional steam pipe distributor 801, dissipates warm liquid pipe branch pipe 9, dissipates warm liquid pipe point multi-functional steam pipe branch pipe 8
It sends out device 901, scattered warm steam pipe branch pipe 10, scattered warm steam pipe distributor 1001, ceiling and dissipates temperature component 11;The heat pump air conditioner unit 1
Main hydraulic pipe transmission port connect respectively with the transmission port of multi-functional liquid pipe branch pipe 7 and the first control valve 5;Multi-functional liquid pipe
7 transmission port of branch pipe connects with the transmission port of multi-functional liquid pipe distributor 701 respectively;Multi-functional liquid pipe distributor 701
Transmission port connects with the transmission port of multi-functional steam pipe distributor 801 respectively;The transmission port of multi-functional steam pipe distributor 801
Connect respectively with the transmission port of multi-functional steam pipe branch pipe 8;The transmission port and ceiling of multi-functional steam pipe branch pipe 8 dissipate warm group
The transmission port of part 11 connects;Ceiling dissipate the transmission port of warm component 11 respectively with the second control valve 6 and generator protection element 4
Transmission port connects;Another transmission port of first control valve 5 with the second control valve 6 and dissipates the biography of warm liquid pipe branch pipe 9 respectively
Defeated port connects;The transmission port for dissipating temperature liquid pipe branch pipe 9 connects with the transmission port of scattered temperature liquid pipe distributor 901 respectively;It dissipates
The transmission port of warm liquid pipe distributor 901 connects with the indoor transmission port for dissipating warm component 2;Interior dissipates another biography of warm component 2
Defeated port connects with the transmission port of scattered temperature steam pipe distributor 1001 respectively;Dissipate another transmission port of temperature steam pipe distributor 1001
Connect with the transmission port of scattered temperature steam pipe branch pipe 10;Dissipate another transmission port and generator protection element of temperature steam pipe branch pipe 10
4 and 1 refrigerant of heat pump air conditioner unit feed back steam pipe transmission port connect.
The present invention can be achieved interior and dissipate the scattered warm component 11 of warm component 2, ceiling and the series connection of 3 multiple groups of indoor unit or multiple groups simultaneously
Connection connection realizes a heat pump air conditioner unit 1 while scattered temperature component 2, multiple groups ceiling in multiple groups indoor unit 3 and multiple groups room being driven to dissipate
The operation of warm component 11.
It is shown in Figure 7, implement mode as the third, multi-use architecture one heating-cooling device of the present invention also has heat pump
Hot water function, it includes that warm component 2, indoor unit 3, generator protection component 4, third control valve are changed in heat pump air conditioner unit 1, interior
16, the 4th control valve 17, the 5th control valve 18, the 6th control valve 19, the 7th control valve 20, the 8th control valve 21, change warm component
13, warm component 14, throttle part 15 are changed in outdoor;1 transmission port of heat pump air conditioner unit respectively with third control valve 16 and room
The transmission port for changing warm component 14 outside connects;The transmission port of warm component 14 and the transmission end of the 7th control valve 20 are changed in the outdoor
Mouth connects;The transmission port of the 7th control valve 20 transmission port phase with the 5th control valve 18 and throttle part 15 respectively
It connects;The transmission port of the throttle part 15 connects with the transmission port of the 6th control valve 19 and the 8th control valve 21 respectively;Institute
The transmission port for stating the 8th control valve 21 connects with the transmission port of indoor unit 3;The transmission port of the indoor unit 3 respectively with room
The transmission port for inside changing warm component 2 and generator protection component 4 connects;Interior change another transmission port of warm component 2 respectively with unit
The steam pipe transmission port that another transmission port of guard block 4 and the 4th control valve 17, heat pump air conditioner unit 1 are fed back connects;It is described
The transmission port of third control valve 16 connects with the transmission port for changing warm component 13 and the 4th control valve 17 respectively;4th control
The transmission port of valve 17 processed changes another transmission port of warm component 2 and another transmission port of generator protection component 4, heat with interior respectively
The steam pipe transmission port that pump air-conditioner set 1 is fed back connects;It is described change another transmission port of warm component 13 respectively with and connect the 5th
The transmission port of control valve 18 and the 6th control valve 19 connects;The transmission port of 5th control valve 18 is controlled with the 7th respectively
The transmission port of valve 20 and throttle part 15 connects;The transmission port of 6th control valve 19 is another with throttle part 15 respectively
One transmission port and the transmission port of the 8th control valve 21 connect.
When refrigeration mode is separately provided, third control valve 16, the 4th control valve 17, the control of the 5th control valve the 18, the 6th
Valve 19 is closed, and the 7th control valve 20, the 8th control valve 21 are opened, and the refrigerant that heat pump air conditioner unit 1 exports changes warm component through outdoor
14, the 7th control valve 20, throttle part 15, the 8th control valve 21, indoor unit 3, interior change warm component 2 and feed back to heat-pump air-conditioner
In 1 compressor of group.
While setting refrigeration when hot water model, the 4th control valve 17, the 6th control valve 19, the 7th control valve 20 are closed
It closes, third control valve 16, the 5th control valve 18, the 7th control valve 21 are opened, and the refrigerant that heat pump air conditioner unit 1 exports is through third control
Valve 16 processed, change warm component 13, warm component 2 is changed in the 5th control valve 18, throttle part 15, the 8th control valve 21, indoor unit 3, interior
It feeds back in 1 compressor of heat pump air conditioner unit.
When heating mode is separately provided, third control valve 16, the 4th control valve 17, the control of the 5th control valve the 18, the 6th
Valve 19 close, the 7th control valve 20, the 8th control valve 21 open, heat pump air conditioner unit 1 export refrigerant through the 8th control valve 21,
Throttle part 15, the 7th control valve 20, outdoor are changed warm component 14 and are fed back in 1 compressor of heat pump air conditioner unit.
When independent hot water model is arranged, third control valve 16, the 5th control valve 18, the 8th control valve 21 are closed, the
Four control valves 17, the 6th control valve 19, the 7th control valve 20 are opened, and the refrigerant that heat pump air conditioner unit 1 exports is through the 4th control valve
17, water changes warm component 13, the 6th control valve 19, throttle part 15, the 7th control valve 20, outdoor change warm component 14 and feed back to heat pump
In 1 compressor of air-conditioner set.
Heat pump air conditioner unit 1 of the present invention can be used heat pump unit, air-conditioner set, determine frequency unit, frequency converter sets or more
Grade frequency converter sets.Heat pump air conditioner unit is applicable to any energy such as power supply, light source, water source, Di Yuan, magnetic source, photoelectricity magnetic source.
According to actually involving a need to, the present invention, which changes warm component, can be used that water changes warm component or warm component is changed in superconduction.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field
For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair
Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.
Claims (2)
1. multi-use architecture one heating-cooling device, which is characterized in that including heat pump air conditioner unit (1), it is indoor dissipate warm component (2),
Indoor unit (3), generator protection element (4), the first control valve (5) and the second control valve (6);The heat pump air conditioner unit (1)
Main hydraulic pipe transmission port connects with the transmission port of indoor unit (3) and the first control valve (5) respectively;The indoor unit (3) it is another
One transmission port connects with the transmission port of the second control valve (6) and generator protection element (4) respectively;The generator protection element
(4) the steam pipe transmission port that another transmission port is fed back with indoor scattered warm component (2) and heat pump air conditioner unit (1) refrigerant respectively
Connect;Another transmission port of first control valve (5) dissipates the another of warm component (2) with the second control valve (6) and interior respectively
One transmission port connects;The indoor temperature component (2) that dissipates uses multiple groups parallel-connection structure;The indoor unit (3) is in parallel using multiple groups
Structure;The indoor port assembly for dissipating warm component (2) include dissipate warm liquid pipe branch pipe (9), dissipate warm liquid pipe distributor (901),
It dissipates temperature steam pipe branch pipe (10) and dissipates warm steam pipe distributor (1001);The transmission port of the scattered temperature liquid pipe branch pipe (9) connects scattered
The transmission port of warm liquid pipe distributor (901);The transmission port of the scattered temperature steam pipe branch pipe (10), which connects, dissipates warm steam pipe distributor
(1001) transmission port;The port assembly of the indoor unit (3) includes multi-functional liquid pipe branch pipe (7), multi-functional liquid pipe point
Send out device (701), multi-functional steam pipe branch pipe (8) and multi-functional steam pipe distributor (801);The multi-functional liquid pipe branch pipe (7)
Transmission port connect the transmission port of multi-functional liquid pipe distributor (701);The transmission port of the multi-functional steam pipe branch pipe (8)
Connect the transmission port of multi-functional steam pipe distributor (801);The indoor unit (3) both ends and connect or concatenate ceiling radiating subassembly
(11);The ceiling dissipates warm component (11) and uses multiple groups parallel-connection structure.
2. multi-use architecture one heating-cooling device, which is characterized in that including heat pump air conditioner unit (1), interior change warm component (2),
Indoor unit (3), generator protection component (4), third control valve (16), the 4th control valve (17), the 5th control valve (18), the 6th control
Valve (19) processed, the 7th control valve (20), the 8th control valve (21), change warm component (13), warm component (14) and throttle are changed in outdoor
Part (15);The main hydraulic pipe transmission port of the heat pump air conditioner unit (1) changes warm component with third control valve (16) and outdoor respectively
(14) transmission port connects;The transmission port of warm component (14) another transmission port Yu the 7th control valve (11) is changed in the outdoor
Connect;The transmission with the 5th control valve (18) and throttle part (15) respectively of another transmission port of 7th control valve (11)
Port connects;Another transmission port of the throttle part (15) respectively with the 6th control valve (10) and the 8th control valve (12)
Transmission port connects;The transmission port of 8th control valve (12) connects with the transmission port of indoor unit (3);The indoor unit
(3) transmission port after another transmission port is changed warm component (2) and generator protection component (4) respectively and connect with interior connects;
The interior change warm component (2) and generator protection component (4) and connect after another transmission port respectively with the 4th control valve (17)
And the steam pipe transmission port that heat pump air conditioner unit (1) is fed back connects;Another transmission port of the third control valve (16) is distinguished
The transmission port for changing warm component (13) and the 4th control valve (17) with water connects;It is described to change warm component (13) another transmission port point
Do not connect with the transmission port of the 5th control valve (18) and the 6th control valve (19);The heat pump air conditioner unit (1) uses heat pump
Unit, air-conditioner set determine frequency unit, frequency converter sets or multistage frequency conversion unit.
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CN105423470B true CN105423470B (en) | 2019-07-12 |
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CN106524369A (en) * | 2017-01-06 | 2017-03-22 | 沈阳市通浩科技有限公司 | Multifunctional building cold and heat energy-saving device based on binary operational mode |
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