CN204285699U - The engineering air conditioning apparatus of one kind of multiple energy energy supplies - Google Patents

Abstract

The utility model discloses the engineering air conditioning apparatus of one kind of multiple energy energy supplies, comprise photovoltaic power supply unit, wind power generation unit, electricity accumulating unit, solar energy heating unit, underground heat heat collection unit, refrigeration unit, heating unit, heating unit and control unit, photovoltaic power supply unit and wind power generation unit are all connected on electricity accumulating unit, electricity accumulating unit connects refrigeration unit and heating unit by control unit, and solar energy heating unit is connected heating unit with underground heat heat collection unit.The utility model air conditioning apparatus adopts various energy resources to carry out central energy supply, effectively make use of the multiple kinds of energy such as solar energy and wind energy, and apparatus structure is simple, the ability of collection is directly carried out heat exchange, substantially increase the utilization rate of energy, realize quick energy supply, greatly reduce the consumption to civil power, solve winter and summer electric energy problem in short supply, energy-conserving and environment-protective.

Description

The engineering air conditioning apparatus of one kind of multiple energy energy supplies

Technical field

The utility model relates to HVAC technical field, the engineering air conditioning apparatus of specifically one kind of multiple energy energy supplies.

Background technology

Along with the shortage of mouth benefit and the aggravation of environmental pollution states of the energy, energy-conserving and environment-protective become oneself to be the new pillar industry of China's economic development.At present, about building heating energy consumption accounts for the half of building energy consumption, building energy consumption is the important component part of entire society's energy consumption link, and energy consumption is huge.The building that the northern area of China is provided with heating also mainly concentrates on city, the sun-dried mud brick local-style dwelling houses of vast rural area generally adopts the bio-fuels such as burning straw to build the mode of heated kang as warming installation, and rural local-style dwelling houses newly-built in a large number and local-style dwelling houses indoor, a lot of small towns can only adopt the heating of burning coal, even do not have heating facility, winter, indoor environment was severe.Heating equipment not only consumes the fossil energies such as a large amount of coal, natural gas, fuel oil every year, and can produce serious environmental pollution and the concentrated excessive problem of discharge.Therefore development building energy conservation and the economy and environment of new forms of energy to China have vital effect.

Current building HVAC generally adopts civil power and coal to heat, and therefore energy consumption uses huge, not only serious environment pollution, and makes electric power supply growing tension.There is the heating energy-saving devices such as many solar water heating systems and earth-source hot-pump system in the market.But these heating energy-saving apparatus structures are complicated, and need repeatedly to carry out heat exchange, therefore Energy harvesting is not high, and does not have comprehensive building HVAC feeding mechanism, makes the energy of occurring in nature not play one's part to the full.Therefore must improve existing air conditioning apparatus, utilize more green energy resource, to alleviate the pressure of the energy resource supply of the mankind.

Utility model content

The purpose of this utility model is to provide a kind of structure simple and the engineering air conditioning apparatus of the various energy resources energy supply of energy-conserving and environment-protective, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme:

The engineering air conditioning apparatus of one kind of multiple energy energy supplies, comprise photovoltaic power supply unit, wind power generation unit, electricity accumulating unit, solar energy heating unit, underground heat heat collection unit, refrigeration unit, heating unit, heating unit and control unit, described photovoltaic power supply unit and wind power generation unit are all connected on electricity accumulating unit, described electricity accumulating unit connects refrigeration unit and heating unit by control unit, and described solar energy heating unit is connected heating unit with underground heat heat collection unit;

Described photovoltaic power supply unit comprises multiple photovoltaic electroplax and DC controller, and described photovoltaic electroplax is connected with direct-flow inverter by DC controller;

Described electricity accumulating unit comprises multiple batteries, and described batteries connects photovoltaic electroplax, and each batteries is connected with 3 ~ 5 photovoltaic electroplaxs;

Described wind power generation unit comprises pivoting leaf oar, generator and AC inverter, described pivoting leaf oar is arranged on generator top, described generator connects batteries and AC inverter respectively by alternating-current controller, and each batteries correspondence connects a generator, and described AC inverter is connected with voltage-stablizer;

Described solar energy heating unit comprises solar thermal collector and heat collection water tank, is connected with thermal-arrest circulating pump between described solar thermal collector and heat collection water tank, and described heat collection water tank is connected with multiple baffle-box, and described baffle-box is connected with small pump;

Described underground heat heat collection unit comprises underground heat thermal-collecting tube and underground heat heat exchanger tube, and described underground heat thermal-collecting tube is buried in underground, and described underground heat thermal-collecting tube connects underground heat heat exchanger tube by thermal cycle pump, and described underground heat heat exchanger tube is arranged in heat collection water tank;

Described control unit comprises controller and gauge tap, and described controller connects batteries by gauge tap;

Described refrigeration unit comprises compression refigerating machine and cold air path, and described compression refigerating machine connects direct-flow inverter and gauge tap respectively, described compression refigerating machine connects multiple cold air path be distributed in room;

Described heating unit comprises xeothermic device, heater and enters heat-exchanger pump, described heater is all connected on the controller with xeothermic device, described heater is all connected AC inverter by voltage-stablizer with xeothermic device, described heater is arranged in heating water tank, the temperature sensor be connected with controller is provided with in described heating water tank, described heating water tank is connected with multiple hot water to be in charge of, in described xeothermic device, is provided with air-heater;

Described heating unit comprises heat-exchanging water tank, heat radiation water cushion and cooling water tank, described heat-exchanging water tank is connected with heat collection water tank, the first heat exchange coil is provided with in described heat-exchanging water tank, described first heat exchange coil is connected with multiple heat radiation water cushion, the second heat exchange coil is also provided with in described heat-exchanging water tank, described second heat exchange coil is connected with multiple cooling water tank, described cooling water tank is arranged in thermal-arrest bellows, the two ends of described thermal-arrest bellows are respectively equipped with filter screen and axle blower fan, and described heat-exchanging water tank enters pump by hot water and connects heating water tank.

As further program of the utility model: described batteries is composed in series successively by multiple battery.

As further program of the utility model: the water inlet of described cooling water tank and heat radiation water cushion and delivery port are all provided with control valve, described cooling water tank and heat radiation water cushion are equipped with the capillary network that internal diameter is 2 ~ 4mm.

As further program of the utility model: described underground heat heat exchanger tube, the first heat exchange coil and the second heat exchange coil are all provided with control valve.

As the utility model further scheme: described heat radiation water cushion is the hot water bed mattress, hot water foot pad, hot water seat cushion or the hot water back cushion that adopt pressure-resistant material to make.

Compared with prior art, the beneficial effects of the utility model are: the utility model air conditioning apparatus adopts various energy resources energy supply, utilize the energy in reality to carry out central energy supply to rooms of buildings, effectively make use of the multiple kinds of energy such as solar energy and wind energy, and apparatus structure is simple, the ability of collection is directly carried out heat exchange, substantially increase the utilization rate of energy, realize quick energy supply, greatly reduce the consumption to civil power, solve winter and summer electric energy problem in short supply, energy-conserving and environment-protective.

Accompanying drawing explanation

Fig. 1 is the connection diagram of the engineering air conditioning apparatus of various energy resources energy supply.

Fig. 2 is the structural representation of the engineering air conditioning apparatus of various energy resources energy supply.

In figure: 101-photovoltaic electroplax; 102-DC controller; 103-batteries; 104-gauge tap; 105-direct-flow inverter; 201-pivoting leaf oar; 202-generator; 203-alternating-current controller; 204-AC inverter; 205-voltage-stablizer; 301-small pump; 302-baffle-box; 303-solar thermal collector; 304-thermal-arrest circulating pump; 305-heat collection water tank; 401-underground heat thermal-collecting tube; 402-thermal cycle pump; 403-underground heat heat exchanger tube; 501-compression refigerating machine; 502-cold air path; 601-heat-exchanging water tank; 602-first heat exchange coil; 603-second heat exchange coil; 604-axle blower fan; 605-dispels the heat water cushion; 606-cooling water tank; 607-thermal-arrest bellows; 608-filter screen; 701-controller; 702-temperature sensor; The xeothermic device of 801-; 802-air-heater; 901-heating water tank; 902-heater; 903-hot water is in charge of; 904-hot water enters pump.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1 ~ 2, in the utility model embodiment, the engineering air conditioning apparatus of one kind of multiple energy energy supplies, comprise photovoltaic power supply unit, wind power generation unit, electricity accumulating unit, solar energy heating unit, underground heat heat collection unit, refrigeration unit, heating unit, heating unit and control unit, photovoltaic power supply unit and wind power generation unit are all connected on electricity accumulating unit, electricity accumulating unit connects refrigeration unit and heating unit by control unit, and solar energy heating unit is connected heating unit with underground heat heat collection unit.

Photovoltaic power supply unit comprises multiple photovoltaic electroplax 101 and DC controller 102, and photovoltaic electroplax 101 is connected with direct-flow inverter 105 by DC controller 102; Electricity accumulating unit comprises multiple batteries 103, batteries 103 is composed in series successively by multiple battery, batteries 103 connects photovoltaic electroplax 101, and 103 groups, each battery is connected with 3 ~ 5 photovoltaic electroplaxs 101, photovoltaic electroplax 101 is just to sunlight collecting solar energy, be stored in batteries 103 through DC controller 102 by the DC current changed into and store, the electric energy that photovoltaic electroplax 101 produces simultaneously also can directly utilize.

Wind power generation unit comprises pivoting leaf oar 201, generator 202 and AC inverter 204, pivoting leaf oar 201 is arranged on generator 202 top, generator 202 connects batteries 103 and AC inverter 204 respectively by alternating-current controller 203, and each batteries 103 correspondence connects a generator 202, AC inverter 204 is connected with voltage-stablizer 205, under the drive of pivoting leaf oar 201 in wind, drive electrical generators 202 generates electricity, and is stored in batteries 103 or after voltage stabilizing by the alternating current of generation directly utilizes through the effect of alternating-current controller 203.

Solar energy heating unit comprises solar thermal collector 303 and heat collection water tank 305, thermal-arrest circulating pump 304 is connected with between solar thermal collector 303 and heat collection water tank 305, heat collection water tank 305 is connected with multiple baffle-box 302, baffle-box 302 is connected with small pump 301, the thermal energy storage of collection recycles by solar thermal collector 303 in water, and by small pump 301 and baffle-box 302 to moisturizing in heat collection water tank 305, with the living needs of satisfied reality.Underground heat heat collection unit comprises underground heat thermal-collecting tube 401 and underground heat heat exchanger tube 403, underground heat thermal-collecting tube 401 is buried in underground, underground heat thermal-collecting tube 401 is gathered underground heat and is then mounted on underground heat heat exchanger tube 403 in heat collection water tank 305 by thermal cycle pump 402, underground heat heat exchanger tube 403 is provided with control valve, by heat delivery to the Living Water in heat collection water tank 305, water in underground heat thermal-collecting tube 401 and underground heat heat exchanger tube 403 is that sealing and circulating uses, and therefore can not pollute the water in heat collection water tank 305.

Control unit comprises controller 701 and gauge tap 104, and controller 701 connects batteries 103 by gauge tap 104; Refrigeration unit comprises compression refigerating machine 501 and cold air path 502, compression refigerating machine 501 connects DC inversion 105 and gauge tap 104 respectively, compression refigerating machine 501 is powered by batteries 103, compression refigerating machine 501 connects multiple cold air path 502 be distributed in room, the cold air that compression refigerating machine 501 produces is transported in each room by cold air path 502, by the control of controller 701 and gauge tap 104, the working time of compression refigerating machine 501 can be controlled.

Heating unit comprises xeothermic device 801, heater 902 and enter heat-exchanger pump 904, heater 902 and xeothermic device 801 are all connected on controller 701, heater 902 is all connected AC inverter 204 by voltage-stablizer 205 with xeothermic device 801, heater 902 is arranged in heating water tank 901, the temperature sensor 702 be connected with controller 701 is provided with in heating water tank 901, by the control of controller 701, for heater 902 and xeothermic device 801 provide electric energy after the electric energy voltage stabilizing that photovoltaic electroplax 101 and wind power generation unit are produced, set the heating-up temperature in heating water tank 901, when the control reached just by controller 701 after setting value of the water temperature in heating water tank 901 stops heating automatically, the hot water amount that winter needs is very large, directly can connect household electricity, when batteries 103, the electric energy that photovoltaic power supply unit and wind power generation unit produce can not maintain normal heat energy for seasonable, just powered by civil power, heating water tank 901 is connected with multiple hot water and is in charge of 903, thus provide hot water for each room is concentrated, be provided with air-heater 802 in xeothermic device 801, the heat energy that xeothermic device 801 produces is dredged, for each room provides heat energy by air-heater 802.

Heating unit comprises heat-exchanging water tank 601, heat radiation water cushion 605 and cooling water tank 606, heat-exchanging water tank 601 is connected with heat collection water tank 305, the first heat exchange coil 602 is provided with in heat-exchanging water tank 601, first heat exchange coil 602 is provided with control valve, the cold water of the first heat exchange coil 602 carries out heat exchange by the water in cold-water return pump and heat-exchanging water tank 601, then the multiple heat radiation water cushions 605 connected on the first heat exchange coil 602 carry out supplementary hot water, heat radiation water cushion 605 is the hot water bed mattress adopting pressure-resistant material to make, hot water foot pad, hot water seat cushion or hot water back cushion, heat radiation water cushion 605 is also provided with the capillary network that internal diameter is 3mm, the water inlet of each heat radiation water cushion 605 and delivery port are all provided with control valve, therefore can be directly that equipment in room carries out heat supply at any time by heat radiation water cushion 605, to ensure the heat energy supply of heat radiation water cushion 605.

The second heat exchange coil 603 is also provided with in heat-exchanging water tank 601, cold water in second heat exchange coil 603 carries out heat exchange by the hot water in cold-water return pump and heat-exchanging water tank 601, then the multiple cooling water tanks 606 the second heat exchange coil 603 connected are provided hot water and are dispelled the heat by capillary network, and the first heat exchange coil 602 and the second heat exchange coil 603 are all provided with control valve, the water inlet of cooling water tank 606 and delivery port are also provided with control valve, cooling water tank 606 is arranged in thermal-arrest bellows 607, the two ends of thermal-arrest bellows 607 are respectively equipped with filter screen 608 and axle blower fan 604, for carrying out central heating in each room after air filtration also being heated by the effect of axle blower fan 604, heat-exchanging water tank 601 enters pump 904 by hot water and connects heating water tank 901, thus provides the hot water of uniform temperature for heating water tank 901, and then heats, and adds the operating efficiency of heater, and also improves the utilization rate of energy.

During summer, the control valve on the first heat exchange coil 602 and the second heat exchange coil 603 is controlled by controller 701, cooling water tank 606 and heat radiation water cushion 605 are quit work, the heat energy of solar energy heating unit and the collection of underground heat heat collection unit is stored, for heating water tank provides energy, greatly reduce the power consumption in summer.Carry out utilizing and storing by the electric energy of photovoltaic power supply unit and wind power generation unit collection simultaneously, for compression refigerating machine provides sufficient electric energy, ensure the regular supply of cold air in room in summer, simultaneously compression refigerating machine also connects civil power, prevents the electric energy of TRT and storage not enough and affects the normal operation of device.

During winter, start cooling water tank 606 to work with heat radiation water cushion 605, for each room centralizedly supply heat energy, eliminate the heating equipment that each room is independent, simultaneously close compressor refrigeration machine 501, thus provide more electric energy for heating water tank 901, and the equipment of heating unit is simple, by pipeline and heat collection water tank 305 direct heat transfer, no longer needs to carry out repeatedly heat exchange, therefore the utilization rate of energy is substantially increased, energy-conserving and environment-protective.

Claims (5)

1. the engineering air conditioning apparatus of one kind of multiple energy energy supplies, comprise photovoltaic power supply unit, wind power generation unit, electricity accumulating unit, solar energy heating unit, underground heat heat collection unit, refrigeration unit, heating unit, heating unit and control unit, it is characterized in that, described photovoltaic power supply unit and wind power generation unit are all connected on electricity accumulating unit, described electricity accumulating unit connects refrigeration unit and heating unit by control unit, and described solar energy heating unit is connected heating unit with underground heat heat collection unit;

Described photovoltaic power supply unit comprises multiple photovoltaic electroplax and DC controller, and described photovoltaic electroplax is connected with direct-flow inverter by DC controller;

Described electricity accumulating unit comprises multiple batteries, and described batteries connects photovoltaic electroplax, and each batteries is connected with 3 ~ 5 photovoltaic electroplaxs;

Described wind power generation unit comprises pivoting leaf oar, generator and AC inverter, described pivoting leaf oar is arranged on generator top, described generator connects batteries and AC inverter respectively by alternating-current controller, and each batteries correspondence connects a generator, and described AC inverter is connected with voltage-stablizer;

Described solar energy heating unit comprises solar thermal collector and heat collection water tank, is connected with thermal-arrest circulating pump between described solar thermal collector and heat collection water tank, and described heat collection water tank is connected with multiple baffle-box, and described baffle-box is connected with small pump;

Described underground heat heat collection unit comprises underground heat thermal-collecting tube and underground heat heat exchanger tube, and described underground heat thermal-collecting tube is buried in underground, and described underground heat thermal-collecting tube connects underground heat heat exchanger tube by thermal cycle pump, and described underground heat heat exchanger tube is arranged in heat collection water tank;

Described control unit comprises controller and gauge tap, and described controller connects batteries by gauge tap;

Described refrigeration unit comprises compression refigerating machine and cold air path, and described compression refigerating machine connects direct-flow inverter and gauge tap respectively, described compression refigerating machine connects multiple cold air path be distributed in room;

Described heating unit comprises xeothermic device, heater and enters heat-exchanger pump, described heater is all connected on the controller with xeothermic device, described heater is all connected AC inverter by voltage-stablizer with xeothermic device, described heater is arranged in heating water tank, the temperature sensor be connected with controller is provided with in described heating water tank, described heating water tank is connected with multiple hot water to be in charge of, in described xeothermic device, is provided with air-heater;

Described heating unit comprises heat-exchanging water tank, heat radiation water cushion and cooling water tank, described heat-exchanging water tank is connected with heat collection water tank, the first heat exchange coil is provided with in described heat-exchanging water tank, described first heat exchange coil is connected with multiple heat radiation water cushion, the second heat exchange coil is also provided with in described heat-exchanging water tank, described second heat exchange coil is connected with multiple cooling water tank, described cooling water tank is arranged in thermal-arrest bellows, the two ends of described thermal-arrest bellows are respectively equipped with filter screen and axle blower fan, and described heat-exchanging water tank enters pump by hot water and connects heating water tank.

2. the engineering air conditioning apparatus of various energy resources energy supply according to claim 1, is characterized in that, described batteries is composed in series successively by multiple battery.

3. the engineering air conditioning apparatus of various energy resources energy supply according to claim 2, it is characterized in that, the water inlet of described cooling water tank and heat radiation water cushion and delivery port are all provided with control valve, described cooling water tank and heat radiation water cushion are equipped with the capillary network that internal diameter is 2 ~ 4mm.

4. the engineering air conditioning apparatus of various energy resources energy supply according to claim 3, is characterized in that, described underground heat heat exchanger tube, the first heat exchange coil and the second heat exchange coil are all provided with control valve.

5. the engineering air conditioning apparatus of the various energy resources energy supply according to claim 1 or 3, is characterized in that, described heat radiation water cushion is the hot water bed mattress, hot water foot pad, hot water seat cushion or the hot water back cushion that adopt pressure-resistant material to make.