CN204478582U - Intelligent environment control system - Google Patents
Intelligent environment control system Download PDFInfo
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- CN204478582U CN204478582U CN201520146453.5U CN201520146453U CN204478582U CN 204478582 U CN204478582 U CN 204478582U CN 201520146453 U CN201520146453 U CN 201520146453U CN 204478582 U CN204478582 U CN 204478582U
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- return
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- magnetic valve
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Abstract
The utility model relates to Intelligent environment control system, comprise compressor, expansion valve, cross valve, indoor loop, outdoor loop and hot-water return, compressor is provided with the first output duct and the first input pipe, first input, output duct is communicated with cross valve respectively, output duct is provided with the first magnetic valve, expansion valve has the second input pipe and the second output duct, second input, the first return duct and the second return duct is arranged in parallel between the second output duct, first return duct is provided with the second magnetic valve, second return duct is provided with the 3rd magnetic valve, the cross valve of connection respectively in indoor loop and the first return duct, outdoor loop connects cross valve and the second return duct respectively, one end of hot-water return is in parallel with the first output duct, the other end of hot-water return and first, second return duct is in parallel, heat exchanger is provided with in hot-water return, the 4th magnetic valve is provided with between heat exchanger and compressor.The utility model fully can use the energy, reaches energy-saving and emission-reduction.
Description
Technical field
The utility model relates to Intelligent environment control system.
Background technology
At present, mainly rely on air-conditioning system to the adjustment of indoor environment temperature, air-conditioning system can provide cold air or hot gas, but when air-conditioning system provides cold air, its hot gas produced in heat exchanging process is all discharged, and causes the waste of heat energy.Meanwhile, user needs to install other device to provide hot water.Therefore, integrated environment control system is more complicated, installs difficulty, and takies large quantity space, too increase the cost of user, do not meet energy-saving and emission-reduction and low-carbon (LC) an aim in life.
Utility model content
The utility model is in order to solve the problem of prior art, and provide easy for installation, cost is lower, the Intelligent environment control system that capacity usage ratio is higher.
Concrete technical scheme is as follows: Intelligent environment control system, it comprises compressor, expansion valve, cross valve, indoor loop, outdoor loop and hot-water return, described compressor is provided with the first output duct and the first input pipe, described first input, first output duct is communicated with the distinct interface of cross valve respectively, and output duct is provided with the first magnetic valve, described expansion valve has the second input pipe and the second output duct, the first return duct and the second return duct is arranged in parallel between the second input pipe and the second output duct, described first return duct is provided with the second magnetic valve, second return duct is provided with the 3rd magnetic valve, the two ends in described indoor loop connect cross valve and the first return duct respectively, the two ends in described outdoor loop connect cross valve and the second return duct respectively, one end of described hot-water return is in parallel with the first output duct, the other end of hot-water return and first, second return duct is in parallel, heat exchanger is provided with in hot-water return, the 4th magnetic valve is provided with between heat exchanger and compressor.
It is below attached technical scheme of the present utility model.
Preferably, first, second return duct two ends described are respectively equipped with check-valves.
Preferably, the deferent segment of described heat exchanger is provided with check-valves.
Preferably, described indoor loop and outdoor loop are equipped with comb district and fan.
Technique effect of the present utility model: Intelligent environment control system of the present utility model fully can use the energy, reach the object of energy-saving and emission-reduction, make its can according to user need select cold air supply, Central Heating Providing, hot water supply, the supply of cold air hot water and radiator hot-water supply, meet the different demands of people; Meanwhile, significantly can reduce acquisition cost, save space.
Accompanying drawing explanation
Fig. 1 is the Organization Chart of the Intelligent environment control system of the utility model embodiment.
Schematic diagram when Fig. 2 is the Intelligent environment control system supply cold air of the utility model embodiment.
Schematic diagram when Fig. 3 is the Intelligent environment control system supply heating installation of the utility model embodiment.
Schematic diagram when Fig. 4 is the Intelligent environment control system hot-water supply of the utility model embodiment.
Fig. 5 is the Intelligent environment control system of the utility model embodiment schematic diagram when simultaneously supplying cold air and hot water.
Fig. 6 is the Intelligent environment control system of the utility model embodiment schematic diagram when simultaneously supplying heating installation and hot water.
Detailed description of the invention
Below in conjunction with accompanying drawing, the utility model is described further.
As shown in Figure 1, the Intelligent environment control system of the present embodiment comprises compressor 10, expansion valve 20, cross valve 30, indoor loop 40, outdoor loop 50 and hot-water return 60, the Intelligent environment control system of the present embodiment can carry out cold air supply, Central Heating Providing, hot water supply, hot and cold water supply and radiator hot-water supply etc. respectively.Described compressor 10 is provided with the first output duct 11 and the first input pipe 15, first output duct 11 is connected with the distinct interface of cross valve 30 respectively with the first input pipe 15.Described first output duct 11 is provided with the first magnetic valve 12, and whether the refrigerant that selective property manipulation compressor 10 exports flows through described cross valve 30.Described expansion valve 20 has the second input pipe 21 and is parallel with the first return duct 23 and the second return duct 25 between the second output duct 22, second input pipe 21 and the second output duct 22.Described first return duct 23 two ends are respectively equipped with the first check-valves 231, thus avoid the refrigerant of the second input pipe 21 without expansion valve 20 by the first return duct 23 adverse current to the second output duct 22.Described second return duct 25 two ends are respectively equipped with the second check-valves 251, thus avoid the refrigerant of the second input pipe 21 without expansion valve 20 by the second return duct 25 adverse current to the second output duct 22, and the first return duct 23 is provided with the second magnetic valve 24, thus whether control refrigerant flows into expansion valve 20 via the first return duct 23.Described second return duct 25 is provided with the 3rd magnetic valve 26, thus whether control refrigerant flows into expansion valve 20 via the second return duct 25.The two ends in described indoor loop 40 connect cross valve 30 and the first return duct 23 respectively, and indoor loop 40 has comb district 41 and fan 42, the cold air that comb district 41 produces by fan 42 or heating installation blowout, thus realize the object controlling indoor changes in temperature.The two ends in described outdoor loop 50 are connected with cross valve 30 and the second return duct 25 respectively, and outdoor loop 50 has comb district 51 and fan 52, the cold air that comb district 51 produces by fan 52 or heating installation blowout, thus realize the object controlling indoor changes in temperature.One end of described hot-water return 60 is in parallel with the first output duct 11 of compressor 10, and the other end of hot-water return 60 is in parallel with first, second return duct 23,25 and second input pipe 21 of expansion valve 20.Described hot-water return 60 stage casing has heat exchanger 61, and when making cold water flow through this heat exchanger 61, can reach heats up forms hot water.Being provided with the 4th magnetic valve 62 between described heat exchanger 61 and compressor 10, whether flowing through hot-water return 60 for controlling refrigerant.The deferent segment of described heat exchanger 61 is provided with check-valves 63, to avoid refrigerant adverse current.
As shown in Figure 2, when needs supply cold air, close the second magnetic valve 24 of the 4th magnetic valve 62 of hot-water return 60 and the first return duct 23 of expansion valve 20, and open the first magnetic valve 12 and the 3rd magnetic valve 26, control cross valve 30 simultaneously and connect the first output duct 11 of compressor 10 and outdoor loop 50, cross valve 30 synchronously connects the first input pipe 15 of indoor loop 40 and compressor 10.After compressor 10 starts, high temperature refrigerant after compression flows to outdoor loop 50 through the first output duct 11, and after fan 52 through comb district 51 dispels the heat, refrigerant temperature is made to decline, and flow in expansion valve 20 via the second return duct 25 and the second input pipe 21 further, make refrigerant form low-pressure low-temperature shape further, after refrigerant enters indoor loop 40, utilize fan 42 to be blown out by cold air, make indoor environment obtain cold air.Further, the refrigerant after intensification flows to the first input pipe 15 through cross valve 30, gets back to compressor 10 thus recycles.
As shown in Figure 3, when needs supply heating installation, close the 4th magnetic valve 62 and the 3rd magnetic valve 26, open the first magnetic valve 12 and the second magnetic valve 24, control cross valve 30 simultaneously and connect the first output duct 11 and indoor loop 40, connect outdoor loop 50 and the first input pipe 15.When after startup compressor 10, refrigerant is according to the flowing of direction shown in Fig. 3 arrow, and high temperature refrigerant flows to indoor loop 40 through the first output duct 11, is blown out by fan 42.Refrigerant after cooling flows into expansion valve 20 through the first return duct 23 and the second input pipe 21, then enters outdoor loop 50, then flows to the first input pipe 15 of compressor 10.
As shown in Figure 4, when needs hot water is for seasonable, close the first magnetic valve 12, second magnetic valve 24 and the 3rd magnetic valve 26, open the 4th magnetic valve 62, control cross valve 30 and connect outdoor loop 50 and the first input pipe 15.After compressor 10 starts, as shown by the arrows in Figure 4, high temperature refrigerant flows to hot-water return 60, and carries out heat exchange with heat exchanger 61, makes cold water heating water, reaches the object of hot-water supply.
As shown in Figure 5, when needs cold air and hot water synchronously supply seasonable, close the second magnetic valve 24, and open the first magnetic valve 12, the 3rd magnetic valve 26 and the 4th magnetic valve 62, control cross valve 30 simultaneously and connect the first output duct 11 and outdoor loop 50, connect indoor loop 40 and the first input pipe 15.After compressor 10 starts, refrigerant can circulate according to Fig. 2 mode, and refrigerant synchronously can produce hot water circuit according to the mode of Fig. 4 simultaneously.Therefore, hot water supply can synchronously be obtained.
As shown in Figure 6, when needs heating installation and hot water synchronously supply seasonable, first close the 3rd magnetic valve 24, open the first magnetic valve the 12, three magnetic valve 24 and the 4th magnetic valve 62.Control cross valve 30 and connect outdoor loop 50 and the first input pipe 15.After compressor 10 starts, the mode that refrigerant produces heating installation according to Fig. 3 circulates.Meanwhile, the mode that refrigerant synchronously can produce hot water according to Fig. 4 circulates.
The Intelligent environment control system of the present embodiment fully can use the energy, reach the object of energy-saving and emission-reduction, make its can according to user need select cold air supply, Central Heating Providing, hot water supply, the supply of cold air hot water and radiator hot-water supply, meet the different demands of people; Meanwhile, significantly can reduce acquisition cost, save space.It is to be noted; above-mentioned preferred embodiment is only and technical conceive of the present utility model and feature is described; its object is to person skilled in the art can be understood content of the present utility model and implement according to this, protection domain of the present utility model can not be limited with this.All equivalences done according to the utility model Spirit Essence change or modify, and all should be encompassed within protection domain of the present utility model.
Claims (4)
1. Intelligent environment control system, it is characterized in that: it comprises compressor, expansion valve, cross valve, indoor loop, outdoor loop and hot-water return, described compressor is provided with the first output duct and the first input pipe, described first input, first output duct is communicated with the distinct interface of cross valve respectively, and output duct is provided with the first magnetic valve, described expansion valve has the second input pipe and the second output duct, the first return duct and the second return duct is arranged in parallel between the second input pipe and the second output duct, described first return duct is provided with the second magnetic valve, second return duct is provided with the 3rd magnetic valve, the two ends in described indoor loop connect cross valve and the first return duct respectively, the two ends in described outdoor loop connect cross valve and the second return duct respectively, one end of described hot-water return is in parallel with the first output duct, the other end of hot-water return and first, second return duct is in parallel, heat exchanger is provided with in hot-water return, the 4th magnetic valve is provided with between heat exchanger and compressor.
2. Intelligent environment control system as claimed in claim 1, is characterized in that: first, second return duct two ends described are respectively equipped with check-valves.
3. Intelligent environment control system as claimed in claim 2, is characterized in that: the deferent segment of described heat exchanger is provided with check-valves.
4. Intelligent environment control system as claimed in claim 3, is characterized in that: described indoor loop and outdoor loop are equipped with comb district and fan.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520146453.5U CN204478582U (en) | 2015-03-16 | 2015-03-16 | Intelligent environment control system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520146453.5U CN204478582U (en) | 2015-03-16 | 2015-03-16 | Intelligent environment control system |
Publications (1)
Publication Number | Publication Date |
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CN204478582U true CN204478582U (en) | 2015-07-15 |
Family
ID=53634369
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201520146453.5U Expired - Fee Related CN204478582U (en) | 2015-03-16 | 2015-03-16 | Intelligent environment control system |
Country Status (1)
Country | Link |
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CN (1) | CN204478582U (en) |
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2015
- 2015-03-16 CN CN201520146453.5U patent/CN204478582U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150715 Termination date: 20190316 |