CN108106054A

CN108106054A - A kind of net for air-source heat pump units using energy-saving defrosting device

Info

Publication number: CN108106054A
Application number: CN201711350976.1A
Authority: CN
Inventors: 侯建军; 刘军
Original assignee: DALIAN SHENGDING INDUSTRY EQUIPMENT Co Ltd
Current assignee: DALIAN SHENGDING INDUSTRY EQUIPMENT Co Ltd
Priority date: 2017-12-15
Filing date: 2017-12-15
Publication date: 2018-06-01

Abstract

The invention discloses a kind of net for air-source heat pump units using energy-saving defrosting device, including：Photovoltaic electric storage device, inverter, intelligent controller, air source heat pump and water tank；The photovoltaic electric storage device, including solar cell array, confluence control cabinet, power storage module, the confluence control cabinet is connected respectively with solar cell array, inverter, and the inverter is also connected with power storage module；The air source heat pump, including wind turbine, evaporator, defrosting refrigerant pipe, gas-liquid separator, expansion valve, device for drying and filtering, liquid reservoir, compressor, defrosting electric heater, condenser, multiple rows of defrosting refrigerant pipe is placed in evaporator.The application is neither interrupted heat pump and is normally heated, and does not consume local power grid electric energy, but consumes continuous heating when photovoltaic electric energy solves the problem of defrost so as to solve energy saving defrost and defrost.

Description

A kind of net for air-source heat pump units using energy-saving defrosting device

Technical field

The present invention relates to net for air-source heat pump units fields, and in particular to a kind of air source heat pump using energy-saving defrosting device Unit.

Background technology

In recent years, air source heat pump technology is using more and more extensive, and especially northern heating technology barrier is captured, this Originally the heating equipment that should not be widely applied in the north, obtains universal favor unexpectedly, in the case where northern coal changes TV university background, Market is using like a raging fire；But conventional air source heat pump is at -5 DEG C to 5 DEG C that there are energy consumption problems：It is heated in defrost temporary When stop, switching to consume power grid electric energy defrost；Low-temperature heating problem still in many failures of machine set system emerged in operation or increases Add energy consumption, cause not energy saving link, especially defrost consumption has largely absorbed air heat energy, interrupts or shunted heating effect Can, heat pump COP values are reduced, affect unit efficiency.

The content of the invention

In order to solve above-mentioned problems of the prior art, the present invention provides a kind of air using energy-saving defrosting device Source heat pump unit is neither interrupted heat pump and is normally heated, and do not consume local power grid electric energy, but consumes photovoltaic electric energy and solve defrost Problem, continuous heating during so as to solve the problems, such as energy saving defrost and defrost.

To achieve the above object, the application the technical solution adopted is that：A kind of air-source heat using energy-saving defrosting device Pump assembly, including：Photovoltaic electric storage device, inverter, intelligent controller, air source heat pump and water tank；The photovoltaic electric storage device, Including solar cell array, confluence control cabinet, power storage module, the confluence control cabinet respectively with solar cell array, inverse Become device to be connected, the inverter is also connected with power storage module；The air source heat pump, including wind turbine, evaporator, defrosting refrigerant Pipe, gas-liquid separator, expansion valve, device for drying and filtering, liquid reservoir, compressor, defrosting electric heater, condenser, multiple rows of defrosting are cold Matchmaker's pipe is placed in evaporator, wherein the white refrigerant pipe of an exclusion is connected with defrosting electric heater, the defrosting electric heater and electric power storage Module is connected, and the wind turbine is arranged on evaporator one side, and the input terminal of the evaporator passes through expansion valve, device for drying and filtering, storage Liquid device is connected with the output terminal of condenser, and the output terminal of the evaporator passes through the defeated of gas-liquid separator, compressor and condenser Enter end to be connected, another input terminal of the condenser is pumped by inflow temperature sensor, system circulation to be connected with water tank, described cold Another output terminal of condenser is connected by leaving water temperature sensors with water tank；The intelligent controller respectively with solar cell side Battle array, wind turbine, inverter, compressor, defrosting electric heater, power storage module, inflow temperature sensor, go out water temperature at confluence control cabinet Spend sensor, system circulation pump electrical connection.

Preferably, frost sensor is equipped with by the defrosting refrigerant pipe, which is connected with intelligent controller.

Preferably, defrosting medium circulation pump, the defrosting medium are equipped between the defrosting refrigerant pipe and defrosting electric heater Circulating pump is connected with intelligent controller.

Preferably, 5 are equipped in evaporator and excludes white refrigerant pipe, wherein 4 rows absorb heat to heat from air, wherein Coolant media built in 1 row, the exclusion frost refrigerant pipe form circulating-heating defrosting system with photovoltaic electric storage device.

Preferably, the input terminal of condenser is equipped with ice-forming processes outside pipes sensor, and the output terminal of condenser goes out equipped with refrigerant Mouth temperature sensor, the ice-forming processes outside pipes sensor, outlet refrigerant temperature sensor are connected with intelligent controller.

Preferably, water tank temperature sensor is equipped in the water tank, which is connected with intelligent controller.

Preferably, high water tank sensor is equipped in the water tank, which is connected with intelligent controller.

The present invention due to using the technology described above, can obtain following technique effect：The application neither interrupts heat pump Normal heating, and local power grid electric energy is not consumed, but consume photovoltaic electric energy and solve the problems, such as defrost, so as to solve energy saving defrost With the COP values that air source heat pump the problem of continuous heating, is improved during defrost, the use of air source heat pump continuous heating is also improved Convenience.

Description of the drawings

The present invention 1 width of shared attached drawing：

Fig. 1 is the structural diagram of the present invention；

Number explanation in figure：1st, air source heat pump；2nd, wind turbine；3rd, evaporator；4th, defrost refrigerant pipe；5th, frost sensor； 6th, inverter；7th, expansion valve；8th, gas-liquid separator；9th, device for drying and filtering；10th, liquid reservoir；11st, outlet refrigerant temperature sensor； 12nd, compressor；13rd, the medium circulation that defrosts pump；14th, ice-forming processes outside pipes sensor；15th, defrost electric heater；16th, inflow temperature Sensor；17th, condenser；18th, power storage module；19th, leaving water temperature sensors；20th, system circulation pumps；21st, water tank；22nd, water tank Temperature sensor；23rd, high water tank sensor；24th, solar cell array；25th, converge control cabinet；26th, intelligent controller.

Specific embodiment

It is right in the following with reference to the drawings and specific embodiments in order to make the object, technical solutions and advantages of the present invention clearer The present invention is described in detail.

Embodiment 1

As shown in Figure 1, the present embodiment provides a kind of net for air-source heat pump units using energy-saving defrosting device, including：Photovoltaic Electric storage device, inverter, intelligent controller, air source heat pump and water tank；The photovoltaic electric storage device, including solar cell side Battle array, confluence control cabinet, power storage module, the confluence control cabinet are connected respectively with solar cell array, inverter, the inversion Device is also connected with power storage module；The air source heat pump, including wind turbine, evaporator, defrosting refrigerant pipe, gas-liquid separator, expansion Valve, device for drying and filtering, liquid reservoir, compressor, defrosting electric heater, condenser, defrosting refrigerant pipe side is equipped with frost sensor, more It excludes white refrigerant pipe to be placed in evaporator, wherein the white refrigerant pipe of an exclusion passes through defrost medium circulation pump and the electric heater phase that defrosts Even, the defrosting electric heater is connected with power storage module, and the wind turbine is arranged on evaporator one side, the input terminal of the evaporator It is connected by expansion valve, device for drying and filtering, liquid reservoir with the output terminal of condenser, the output terminal of the evaporator passes through gas-liquid point It is connected from device, compressor with the input terminal of condenser, another input terminal of the condenser passes through inflow temperature sensor, system Circulating pump is connected with water tank, and another output terminal of the condenser is connected by leaving water temperature sensors with water tank；The intelligence Controller respectively with solar cell array, wind turbine, confluence control cabinet, inverter, compressor, defrosting electric heater, electric power storage mould Block, inflow temperature sensor, frost sensor, defrosting medium circulation pump, leaving water temperature sensors, system circulation pump electrical connection.

Preferably, water tank temperature sensor, high water tank sensor, the water tank temperature sensing are equipped in the water tank Device, high water tank sensor are connected with intelligent controller.

5 row's refrigerant pipes are shared in the application evaporator, wherein 4 rows absorb enough heats to heat from air, the 5th row Coolant media is inside set, circulating-heating defrosting system is formed with photovoltaic electric storage device, is opened automatically according to environment temperature and frosting situation It moves and heat medium is controlled to carry out energy saving defrost；It neither interrupts heat pump normally to heat, and does not consume local power grid electric energy, but disappear Continuous heating when volt electric energy solves the problem of defrost so as to solve energy saving defrost and defrost is depleted, improves air-source The COP values of heat pump also improve the convenience that air source heat pump continuous heating uses.

The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto, Any one skilled in the art in the technical scope of present disclosure, technique according to the invention scheme and its Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims

1. a kind of net for air-source heat pump units using energy-saving defrosting device, which is characterized in that including：Photovoltaic electric storage device, inversion Device, intelligent controller, air source heat pump and water tank；The photovoltaic electric storage device, including solar cell array, confluence control Case, power storage module, it is described confluence control cabinet be connected respectively with solar cell array, inverter, the inverter also with electric power storage Module is connected；The air source heat pump, including wind turbine, evaporator, defrosting refrigerant pipe, gas-liquid separator, expansion valve, dry filter Device, liquid reservoir, compressor, defrosting electric heater, condenser, multiple rows of defrosting refrigerant pipe is placed in evaporator, wherein one excludes frost Refrigerant pipe is connected with defrosting electric heater, and the defrosting electric heater is connected with power storage module, and the wind turbine is arranged on evaporator One side, the input terminal of the evaporator is connected by expansion valve, device for drying and filtering, liquid reservoir with the output terminal of condenser, described The output terminal of evaporator is connected by gas-liquid separator, compressor with the input terminal of condenser, another input of the condenser End is connected by inflow temperature sensor, system circulation pump with water tank, and another output terminal of the condenser passes through leaving water temperature Sensor is connected with water tank；The intelligent controller respectively with solar cell array, wind turbine, confluence control cabinet, inverter, pressure Contracting machine, defrosting electric heater, power storage module, inflow temperature sensor, leaving water temperature sensors, system circulation pump electrical connection.

2. a kind of net for air-source heat pump units using energy-saving defrosting device according to claim 1, which is characterized in that described to remove Frost sensor is equipped with by white refrigerant pipe, which is connected with intelligent controller.

A kind of 3. net for air-source heat pump units using energy-saving defrosting device according to claim 1 or claim 2, which is characterized in that institute It states and defrosting medium circulation pump, defrosting medium circulation pump and intelligent controller is equipped between defrosting refrigerant pipe and defrosting electric heater It is connected.

A kind of 4. net for air-source heat pump units using energy-saving defrosting device according to claim 3, which is characterized in that evaporator In be equipped with 5 and exclude white refrigerant pipes, wherein 4 rows absorb heat to heat from air, wherein coolant media built in 1 row, the row The refrigerant pipe that defrosts forms circulating-heating defrosting system with photovoltaic electric storage device.

A kind of 5. net for air-source heat pump units using energy-saving defrosting device according to claim 1, which is characterized in that condenser Input terminal be equipped with ice-forming processes outside pipes sensor, the output terminal of condenser is equipped with outlet refrigerant temperature sensor, the refrigerant Inlet temperature sensor, outlet refrigerant temperature sensor are connected with intelligent controller.

A kind of 6. net for air-source heat pump units using energy-saving defrosting device according to claim 1, which is characterized in that the water Water tank temperature sensor is equipped in case, which is connected with intelligent controller.

7. according to a kind of net for air-source heat pump units using energy-saving defrosting device of claim 1 or 6, which is characterized in that institute It states and high water tank sensor is equipped in water tank, which is connected with intelligent controller.