CN207123041U - A kind of flow type air conditioner energy conservation control system - Google Patents
A kind of flow type air conditioner energy conservation control system Download PDFInfo
- Publication number
- CN207123041U CN207123041U CN201720959094.4U CN201720959094U CN207123041U CN 207123041 U CN207123041 U CN 207123041U CN 201720959094 U CN201720959094 U CN 201720959094U CN 207123041 U CN207123041 U CN 207123041U
- Authority
- CN
- China
- Prior art keywords
- heat pump
- air
- ground
- main frame
- source heat
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Air Conditioning Control Device (AREA)
Abstract
It the utility model is related to a kind of flow type air conditioner energy conservation control system, including air conditioner load, remote controllers, air-cooled heat pump main frame, ground-source heat pump host, water inlet pipe, return pipe, return pipe connects with air-cooled heat pump main frame water inlet and ground-source heat pump host water inlet, water inlet pipe is exported with ground-source heat pump host and air-cooled heat pump main frame outlet, return pipe is provided with air-cooled water pump with air-cooled heat pump main frame connectivity part, return pipe is provided with water source pump with ground-source heat pump host connectivity part, ground-source heat pump host exports and the outlet of air-cooled heat pump main frame connects with water inlet pipe, return pipe is provided with electromagnetic flowmeter, air-cooled heat pump main frame is provided with air-cooled heat pump host computer control panel, ground-source heat pump host is provided with ground-source heat pump host control panel.The utility model is passed to remote controllers, remote controllers control air-cooled heat pump main frame and ground-source heat pump host start and stop by electromagnetic flowmeter measure loop flow and then by data, realizes effective utilization of the energy, intelligent scheduling, good energy saving property.
Description
Technical field
Air-conditioner control system is the utility model is related to, more particularly to a kind of flow type air conditioner energy conservation control system.
Background technology
At present there is ground-source heat pump host and air-cooled heat pump main frame present situation used in parallel in residential central air conditioning host computer system,
When identical is freezed with heating fan-out capability, earth source heat pump power consumption is much smaller than air-cooled heat pump, so preferentially using earth source heat pump
Refrigeration and heating, ground-source heat pump host is only opened when indoor changes in temperature load is relatively low, disable air-cooled heat pump main frame, but client
It is difficult to judge indoor load situation, can not judges individually to open the opportunity of earth source heat pump, when need to only open earth source heat pump
Earth source heat pump and air-cooled heat pump are opened simultaneously, unnecessary power consumption, especially source air-cooled heat pump two-in-one main machine can be caused
Remote control have urgent demand.
Utility model content
In view of the shortcomings of the prior art, the purpose of this utility model is to provide a kind of flow type air conditioner energy conservation control system.
Technical scheme is used by the utility model solves its technical problem:A kind of flow type air conditioner energy saving control system
System, including air conditioner load, remote controllers, air-cooled heat pump main frame, ground-source heat pump host, the air conditioner load water inlet end are communicated with
Water inlet pipe, the air conditioner load water side are communicated with return pipe, the return pipe and the air-cooled heat pump main frame water inlet and
Ground-source heat pump host water inlet connects, and the water inlet pipe is exported with ground-source heat pump host and air-cooled heat pump main frame outlet,
The return pipe is provided with air-cooled water pump with the air-cooled heat pump main frame connectivity part, and the return pipe connects with the ground-source heat pump host
Logical place is provided with water source pump, and the ground-source heat pump host outlet and the outlet of air-cooled heat pump main frame connect with the water inlet pipe, institute
State return pipe and be provided with electromagnetic flowmeter, the air-cooled heat pump main frame is provided with air-cooled heat pump host computer control panel, described ground source
Heat pump main frame is provided with ground-source heat pump host control panel, the remote controllers respectively with the air-cooled heat pump host computer control face
Plate, the ground-source heat pump host control panel and electromagnetic flowmeter communication connection.
Remote controllers, remote control are passed to and then by data by electromagnetic flowmeter measure loop flow in above-mentioned design
Device controls air-cooled heat pump main frame and ground-source heat pump host start and stop, realizes effective utilization of the energy, intelligent scheduling, good energy saving property.
As the further improvement of the design, differential-pressure bypass valve is communicated between the water inlet pipe and the return pipe, just
In adjustment circuit pressure, the too high damage of circuit pressure is prevented.
As the further improvement of the design, the differential-pressure bypass valve is self-operated type differential-pressure bypass valve, is automatically adjusted, without
External force controls.
As the further improvement of the design, the electromagnetic flowmeter is arranged between differential-pressure bypass valve and air conditioner load
On return pipe, detection is more accurate, prevents influence of the unlatching of differential-pressure bypass valve to electromagnetic flowmeter testing result, can be effective
Sense the change of air conditioner load water-carrying capacity and then judge the change of air conditioner load.
As the further improvement of the design, the remote controllers are programmable controller, in the remote controllers
There is the analog signalses for receiving electromagnetic flowmeter and output to open for the built-in flow curve for reference, the remote controllers
Function of the pass amount signal to the air-cooled heat pump host computer control panel and the ground-source heat pump host control panel.Remote controllers
Compared according to electromagnetic flowmeter input signal and default flow curve, so as to air-cooled heat pump host computer control panel and described
The function operation signal of source heat pump main frame control panel, start and stop can be adjusted according to pre-programmed curve, good energy saving performance, preset difference
Flow curve adapt to the work of varying environment.
The beneficial effects of the utility model are:The utility model is incited somebody to action by electromagnetic flowmeter measure loop changes in flow rate
Data are passed to remote controllers, remote controllers control air-cooled heat pump main frame and ground-source heat pump host start and stop, and that realizes the energy has
Effect utilizes, intelligent scheduling, good energy saving property.
Brief description of the drawings
The utility model is further illustrated with reference to the accompanying drawings and examples.
Fig. 1 is total system schematic diagram of the present utility model.
1. remote controllers in figure, 2. electromagnetic flowmeters, 3. air-cooled heat pump host computer control panels, 4. ground-source heat pump hosts
Control panel, 5. differential-pressure bypass valves, 6. air conditioner loads, 7. air-cooled water pumps, 8. water source pumps, 9. air-cooled heat pump main frames, 10. ground
Source heat pump main frame, 11. water inlet pipes, 12. return pipes.
Embodiment
Describe the utility model in detail below in conjunction with accompanying drawing and specific embodiment, illustrative examples therein with
And explanation is only used for explaining the utility model, but it is not intended as to restriction of the present utility model.
Embodiment:A kind of flow type air conditioner energy conservation control system, including air conditioner load 6, remote controllers 1, air-cooled heat pump
Main frame 9, ground-source heat pump host 10, the water inlet end of air conditioner load 6 are communicated with water inlet pipe 11, and the water side of air conditioner load 6 connects
Return pipe 12 is connected with, the return pipe 12 connects with the water inlet of air-cooled heat pump main frame 9 and the water inlet of ground-source heat pump host 10
Logical, the water inlet pipe 11 is exported with ground-source heat pump host 10 and the outlet of air-cooled heat pump main frame 9, the return pipe 12 and institute
State the connectivity part of air-cooled heat pump main frame 9 and be provided with air-cooled water pump 7, the return pipe 12 is provided with the connectivity part of ground-source heat pump host 10
Water source pump 8, the ground-source heat pump host 10 exports and the outlet of air-cooled heat pump main frame 9 connects with the water inlet pipe 11, described
Return pipe 12 is provided with electromagnetic flowmeter 2, and the air-cooled heat pump main frame 9 is provided with air-cooled heat pump host computer control panel 3, describedly
Source heat pump main frame 10 is provided with ground-source heat pump host control panel 4, the remote controllers 1 respectively with the air-cooled heat pump main frame
Control panel 3, the ground-source heat pump host control panel 4 and electromagnetic flowmeter 2 communicate to connect.
Remote controllers 1 are passed to and then by data by the measure loop flow of electromagnetic flowmeter 2 in above-mentioned design, long-range control
Device 1 processed controls air-cooled heat pump main frame 9 and the start and stop of ground-source heat pump host 10, realizes effective utilization of the energy, intelligent scheduling, energy saving
It is good.
As the further improvement of the design, differential-pressure bypass valve is communicated between the water inlet pipe 11 and the return pipe 12
5, circuit pressure is conveniently adjusted, prevents the too high damage of circuit pressure, aperture is automatically adjusted to control master according to air conditioner load change
The bypass water-carrying capacity of machine.
As the further improvement of the design, the differential-pressure bypass valve 5 is self-operated type differential-pressure bypass valve or integration type pressure
Poor by-passing valve, is automatically adjusted, and is controlled without external force.
As the further improvement of the design, the electromagnetic flowmeter 2 be arranged on differential-pressure bypass valve 5 and air conditioner load 6 it
Between return pipe 12 on, detection it is more accurate, prevent influence of the unlatching of differential-pressure bypass valve 5 to the testing result of electromagnetic flowmeter 2,
Changing to judge the change of air conditioner load for air conditioner load loop water-carrying capacity can accurately be detected.
As the further improvement of the design, the remote controllers are programmable controller, in the remote controllers
There is the analog signalses for receiving electromagnetic flowmeter and output to open for the built-in flow curve for reference, the remote controllers
Function of the pass amount signal to the air-cooled heat pump host computer control panel and the ground-source heat pump host control panel.Remote controllers
Compared according to electromagnetic flowmeter input signal and default flow curve, so as to air-cooled heat pump host computer control panel and described
The function operation signal of source heat pump main frame control panel, start and stop can be adjusted according to pre-programmed curve, good energy saving performance, preset difference
Flow curve adapt to the work of varying environment.
In use, for example subscriber's main station system installation ground-source heat pump host 10 and air-cooled heat pump main frame 9 it is used in parallel or
When ground source air-cooled heat pump two-in-one main machine is installed, in refrigeration and Heating Season, it can select to open on remote controllers 1 manually
Ground-source heat pump host 10 and air-cooled heat pump main frame 9, it is also an option that automatic mode, main frame air-conditioning backwater is arranged under automatic mode
Electromagnetic flowmeter 2 on supervisor detects flow, and feeds back on remote controllers 1, and remote controllers 1 are sentenced according to changes in flow rate
Disconnected end load change, and output switch amount signal performs switch motion to main frame, main frame, such as circling water flow rate diminishes, and judges
End load diminishes, then exports off signal to air-cooled heat pump main frame 9, only run ground-source heat pump host 10.It is on the contrary then open wind
Cold-heat pump main frame 9, air-cooled heat pump main frame 9 and ground-source heat pump host 10 work simultaneously supplies changes in temperature load.
Embodiment of the present utility model is the foregoing is only, not thereby limits the scope of the claims of the present utility model, it is every
The equivalent structure or equivalent flow conversion made using the utility model specification and accompanying drawing content, or be directly or indirectly used in
Other related technical areas, similarly it is included in scope of patent protection of the present utility model.
Claims (5)
1. a kind of flow type air conditioner energy conservation control system, it is characterised in that including air conditioner load, remote controllers, air-cooled heat pump
Main frame, ground-source heat pump host, the air conditioner load water inlet end are communicated with water inlet pipe, and the air conditioner load water side is communicated with backwater
Pipe, the return pipe connects with the air-cooled heat pump main frame water inlet and ground-source heat pump host water inlet, the water inlet pipe and
Ground-source heat pump host is exported and air-cooled heat pump main frame outlet, the return pipe are set with the air-cooled heat pump main frame connectivity part
There is air-cooled water pump, the return pipe is provided with water source pump with the ground-source heat pump host connectivity part, and the ground-source heat pump host goes out
Mouth and the outlet of air-cooled heat pump main frame connect with the water inlet pipe, and the return pipe is provided with electromagnetic flowmeter, the air-cooled heat
Pump main frame is provided with air-cooled heat pump host computer control panel, and the ground-source heat pump host is provided with ground-source heat pump host control panel,
The remote controllers respectively with the air-cooled heat pump host computer control panel, the ground-source heat pump host control panel and electromagnetism
Flowmeter communicates to connect.
2. a kind of flow type air conditioner energy conservation control system according to claim 1, it is characterized in that, the water inlet pipe with it is described
Differential-pressure bypass valve is communicated between return pipe.
3. a kind of flow type air conditioner energy conservation control system according to claim 2, it is characterized in that, the differential-pressure bypass valve is
Self-operated type differential-pressure bypass valve.
4. a kind of flow type air conditioner energy conservation control system according to claim 3, it is characterized in that, the electromagnetic flowmeter is set
Put on the return pipe between differential-pressure bypass valve and air conditioner load.
5. a kind of flow type air conditioner energy conservation control system according to claim 2, it is characterized in that, the remote controllers are
Programmable controller, the built-in flow curve for being used for reference in the remote controllers, the remote controllers, which have, receives electricity
The analog signalses and output switch amount signal of magnetic flowmeter give the air-cooled heat pump host computer control panel and the ground source heat
The function of pump host computer control panel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720959094.4U CN207123041U (en) | 2017-08-03 | 2017-08-03 | A kind of flow type air conditioner energy conservation control system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720959094.4U CN207123041U (en) | 2017-08-03 | 2017-08-03 | A kind of flow type air conditioner energy conservation control system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207123041U true CN207123041U (en) | 2018-03-20 |
Family
ID=61613448
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720959094.4U Active CN207123041U (en) | 2017-08-03 | 2017-08-03 | A kind of flow type air conditioner energy conservation control system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207123041U (en) |
-
2017
- 2017-08-03 CN CN201720959094.4U patent/CN207123041U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN201348340Y (en) | Speed regulating device and air conditioner system utilizing same | |
CN103134232A (en) | Air-source water heater with cooling, heating and clothes drying functions | |
CN201779747U (en) | Zoning and temperature system of gas-heating water heater | |
CN2929539Y (en) | Controller for boiler heating system | |
CN203203292U (en) | Cold-warm clothes-drying air-energy water heater | |
CN103776135B (en) | Can the central controlled air-conditioning ground heating system of locellus timesharing | |
CN203687253U (en) | Multi-cold-and-heat-sources sharing energy-conservation HVAC system | |
CN210373657U (en) | Intelligent building water mixing heat supply unit | |
CN207123041U (en) | A kind of flow type air conditioner energy conservation control system | |
CN207123038U (en) | A kind of differential pressure type air conditioner energy conservation control system | |
CN208687874U (en) | Air-cooled heat pump central air conditioner system | |
CN201069292Y (en) | Self-adapted heat recycling unit | |
CN203657118U (en) | System using natural cold and heat source for cool and heat supply | |
CN201062898Y (en) | Waste heat recovery that is hot-patching water circulation type attached heat pump device | |
CN104848317A (en) | Intelligent heating plate type heat exchanger unit | |
CN201954709U (en) | Host energy saving device for central air-conditioning centralized control system | |
CN205641393U (en) | Central air conditioning's refrigerated water frequency conversion control system | |
CN204963105U (en) | Invariable system of air conditioner water system flow | |
CN204460538U (en) | A kind of intelligent cold-warm water air-conditioning | |
CN203704240U (en) | Fixed frequency and variable air volume fresh air system | |
CN202769879U (en) | Intelligent control system for central air conditioner | |
CN202853054U (en) | Air conditioner cabinet energy conservation control device for central air conditioner and based on internet of things | |
CN206875631U (en) | One kind is based on architecture-integral and the agricultural changes in temperature radiation air-conditioner of multi-energy complementation | |
CN207778796U (en) | A kind of hot-water heating system using air-source | |
CN218269293U (en) | Novel air conditioning system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |