CN204084964U - The integrated evaporative condenser of wind light mutual complementing power generation - Google Patents

Abstract

The integrated evaporative condenser of wind light mutual complementing power generation disclosed in the utility model, include evaporative condenser and wind-light complementing power generation device, the outer setting of evaporative condenser has unit power-supply controller of electric, and unit power-supply controller of electric is connected with evaporative condenser, wind-light complementing power generation device respectively.The integrated evaporative condenser of the utility model wind light mutual complementing power generation, adopts integrated design, eliminates computer room construction, saves land used and investment; And water distribution direction and airflow direction adopt following current form, good effect of heat exchange in condenser shell; Unit adopts wind light mutual complementing power generation technology to power, and the wind energy of occurring in nature, solar energy is converted to required electric energy through certain technology, provides unit water pump and blower fan electricity consumption, have efficient, energy-conservation advantage.

Description

The integrated evaporative condenser of wind light mutual complementing power generation

Technical field

The utility model belongs to air conditioner technical field, is specifically related to a kind of integrated evaporative condenser of wind light mutual complementing power generation.

Background technology

Evaporative condenser, due to its water saving, economize on electricity, environmental protection and efficient feature, is widely used in all kinds of building such as civilian, industrial.Evaporative condenser eliminates cooling water system, can using water wisely.Due to the appearance of the problems such as China's water resource anxiety and energy crisis, people more and more pay attention to water-saving and environmental protection, facilitate the research of evaporative condenser to a great extent.

In traditional evaporative condenser, each component spread is arranged, has the defect that floor space is larger.Evaporative condenser, throttling arrangement, compressor and evaporimeter are all arranged in a closed housing, there is feature that is easy for installation and flexible arrangement.Integrated evaporative condenser of the present utility model avoids computer room construction, saves land used and investment.In addition, wind light mutual complementing power generation technology is joined together with integrated evaporative condenser unit, just can make full use of outdoor electric energy and wind power generation is that water pump and blower fan are powered, environmental protection more, efficient.

Utility model content

The purpose of this utility model is the integrated evaporative condenser providing a kind of wind light mutual complementing power generation, not only solve the shortcoming that in existing evaporative condenser, each component spread is arranged and floor space is large, and outdoor electric energy can be made full use of and wind power generation is that condenser is powered.

The technical solution adopted in the utility model is, the integrated evaporative condenser of wind light mutual complementing power generation, include evaporative condenser and wind-light complementing power generation device, the outer setting of evaporative condenser has unit power-supply controller of electric, and unit power-supply controller of electric is connected with evaporative condenser, wind-light complementing power generation device respectively.

Feature of the present utility model is also:

Unit power-supply controller of electric is connected with accessory power supply.

Evaporative condenser, include condenser shell, enter rear flow direction by new wind in condenser shell and be disposed with vaporization type condensing system, mechanical refrigeration system and suction type fan, vaporization type condensing system is connected with mechanical refrigeration system, condenser shell roof corresponding above vaporization type condensing system is provided with air inlet, the condenser shell sidewall that suction type fan is corresponding is provided with exhaust outlet.

Roughing efficiency air filter is provided with between the top of vaporization type condensing system and air inlet.

Vaporization type condensing system, include refrigerant heat exchanger coil pipe, multiple nozzle is provided with above refrigerant heat exchanger coil pipe, the below of refrigerant heat exchanger coil pipe is provided with header tank, header tank is connected with multiple nozzle by feed pipe, feed pipe is provided with water circulating pump, and water circulating pump is connected with unit power-supply controller of electric by wire; Form air channel between refrigerant heat exchanger coil pipe and header tank, between side, air channel and mechanical refrigeration system, be provided with water fender; Refrigerant heat exchanger coil pipe is connected with mechanical refrigeration system.

Mechanical refrigeration system, includes throttling arrangement, and throttling arrangement is connected with evaporimeter, compressor successively by water pipe; Throttling arrangement is connected with the water side of refrigerant heat exchanger coil pipe, and compressor is connected with the water inlet end of refrigerant heat exchanger coil pipe.

Evaporimeter is connected to chilled water feed pipe and chilled water return pipe.

Wind-light complementing power generation device, includes wind power generation windmill, and wind power generation windmill is connected with solar panel, wind light mutual complementing power storage controller respectively by wire.

Wind power generation windmill, includes vertical axis, and the upper end of vertical axis is connected with generator by rotating shaft, and the two ends that generator is relative are respectively arranged with windmill impeller, tail vane, and motor is connected with wind/light complementation controller by power line, and power line is arranged in vertical axis.

Wind light mutual complementing power storage controller, includes wind/light complementation controller, and wind/light complementation controller is connected with batteries, inverter successively by wire; Inverter is connected with unit power-supply controller of electric by wire; Batteries is composed in series successively by multiple battery.

The beneficial effects of the utility model are:

1. the integrated evaporative condenser of the utility model wind light mutual complementing power generation adopts integrated design, and all parts are all arranged in closed condenser shell, easy for installation, flexible arrangement, and eliminate computer room construction, saves land used and investment.

2. in the integrated evaporative condenser of the utility model wind light mutual complementing power generation, water distribution direction and airflow direction adopt following current form, easilier form uniform moisture film, good effect of heat exchange on heat exchange coil surface.

3. the integrated evaporative condenser of the utility model wind light mutual complementing power generation, wind light mutual complementing power generation technology is adopted to power, the wind energy of occurring in nature, solar energy are converted to required electric energy through certain technology, for feed pump and blower fan electricity consumption, there is feature that is renewable, energy-conservation and environmental protection.

4. the integrated evaporative condenser of the utility model wind light mutual complementing power generation, is provided with accessory power supply on unit power-supply controller of electric side, when batteries electricity is not enough, can drive the operation of suction type fan and water circulating pump with accessory power supply.

Accompanying drawing explanation

Fig. 1 is the structural representation of the integrated evaporative condenser unit of the utility model wind light mutual complementing power generation.

In figure, 1. air inlet, 2. roughing efficiency air filter, 3. nozzle, 4. refrigerant heat exchanger coil pipe, 5. header tank, 6. water fender, 7. water circulating pump, 8. throttling arrangement, 9. evaporimeter, 10. compressor, 11. suction type fans, 12. exhaust outlets, 13. windmill impellers, 14. generators, 15. tail vanes, 16. rotating shafts, 17. vertical axises, 18. solar panels, 19. wind/light complementation controllers, 20. batteries, 21. inverters, 22. unit power-supply controller of electric, 23. chilled water feed pipes, 24. chilled water return pipes.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail.

The integrated evaporative condenser of the utility model wind light mutual complementing power generation, its structure as shown in Figure 1, include evaporative condenser and wind-light complementing power generation device, the outer setting of evaporative condenser has unit power-supply controller of electric 22, and unit power-supply controller of electric 22 is connected with evaporative condenser, wind-light complementing power generation device respectively.

Unit power-supply controller of electric 22 is connected with accessory power supply; Unit power-supply controller of electric 22 is arranged at the top of evaporative condenser.

Evaporative condenser, include condenser shell, enter rear flow direction by new wind in condenser shell and be disposed with vaporization type condensing system, mechanical refrigeration system and suction type fan 11, vaporization type condensing system is connected with mechanical refrigeration system, condenser shell roof corresponding above vaporization type condensing system is provided with air inlet 1, between the top of vaporization type condensing system and air inlet 1, is provided with roughing efficiency air filter 2; The condenser shell sidewall of suction type fan 11 correspondence is provided with exhaust outlet 12.

Vaporization type condensing system, include refrigerant heat exchanger coil pipe 4, multiple nozzle 3 is provided with above refrigerant heat exchanger coil pipe 4, the below of refrigerant heat exchanger coil pipe 4 is provided with header tank 5, header tank 5 is connected with multiple nozzle 3 by feed pipe, feed pipe is provided with water circulating pump 7, water circulating pump 7 is connected with unit power-supply controller of electric 22 by wire; Air channel is formed between refrigerant heat exchanger coil pipe 4 and header tank 5; Water fender 6 is provided with between side, air channel and mechanical refrigeration system; Refrigerant heat exchanger coil pipe 4 is connected with mechanical refrigeration system.

Mechanical refrigeration system, includes throttling arrangement 8, and throttling arrangement 8 is connected with evaporimeter 9 and compressor 10 in turn by water pipe; Throttling arrangement 8 is connected with the water side of refrigerant heat exchanger coil pipe 4, and compressor 10 is connected with the water inlet end of refrigerant heat exchanger coil pipe 4; Evaporimeter 9 is connected to chilled water feed pipe 23 and chilled water return pipe 24.

Wind-light complementing power generation device, includes wind power generation windmill, and wind power generation windmill is connected with solar panel 18, wind light mutual complementing power storage controller respectively by wire.

Wind power generation windmill, include vertical axis 17, the upper end of vertical axis 17 is connected with generator 14 by rotating shaft 16, the two ends that generator 14 is relative are respectively arranged with windmill impeller 13, tail vane 15, generator 14 is connected with the wind/light complementation controller 19 in wind light mutual complementing power storage controller by power line, and power line is arranged in vertical axis 17.

Wind light mutual complementing power storage controller, includes wind/light complementation controller 19, and wind/light complementation controller 19 is connected with batteries, inverter 21 successively by wire, and inverter 21 is connected with unit power-supply controller of electric 22 by wire.Batteries is composed in series successively by multiple battery 20.

The integrated evaporative condenser of the utility model wind light mutual complementing power generation, its course of work is as follows:

(1) air system:

Outdoor air enters in machine unit shell by air inlet 1, after roughing efficiency air filter 2 purification filtering, enter evaporative condenser, carries out hot and humid area with the recirculated water of refrigerant heat exchanger coil pipe 4 outer surface, the refrigerant vapour in cooling refrigeration agent heat exchange coil 4; The recirculated water that outdoor air and nozzle 3 spray adopts the form of following current, at refrigerant heat exchanger coil pipe 4 profile uniformly moisture film, the water film evaporation outside refrigerant heat exchanger coil pipe 4 is made under the effect of suction type fan 11, take away the condenser heat of cold-producing medium, discharge finally by water fender 6, suction type fan 11 and exhaust outlet 12.

(2) refrigerant heat exchanger coil pipe circulation:

Recirculated water in header tank 5 pressurizes through water circulating pump 7 and promotes, the surface of refrigerant heat exchanger coil pipe 4 is sprayed again, with top-down outdoor air hot and humid area, after the refrigerant vapour in cooling refrigeration agent heat exchange coil 4 through nozzle 3, fall back in header tank 5, so circulate.

(3) wind and solar hybrid generating system:

The electric energy required for integrated evaporative condenser of the utility model wind light mutual complementing power generation is after the wind energy of outdoor is rotated be together in series with solar panel 18 by the windmill impeller 13 of wind power generation windmill, generated electricity by speed increaser drive electrical generators 14, formed electric current laggard enter wind/light complementation controller 19, enter batteries, by inverter 21, electric current is converted to the alternating current that can meet this unit and use again, is then connected with unit power-supply controller of electric 22; Unit power-supply controller of electric 22 is connected with suction type fan 11 with water circulating pump 7 respectively; Accessory power supply is set on unit power-supply controller of electric 22 side, accessory power supply can be opened when meteorological condition is not enough and power.

The integrated evaporative condenser of the utility model wind light mutual complementing power generation, adopts integrated design, eliminates computer room construction, saves land used and investment; And water distribution direction and airflow direction adopt following current form, good effect of heat exchange in condenser shell; Unit adopts wind light mutual complementing power generation technology to power, and the wind energy of occurring in nature, solar energy is converted to required electric energy through certain technology, provides unit water pump and blower fan electricity consumption, have efficient, energy-conservation advantage.

Claims (10)

1. the integrated evaporative condenser of wind light mutual complementing power generation, it is characterized in that, include evaporative condenser and wind-light complementing power generation device, the outer setting of described evaporative condenser has unit power-supply controller of electric (22), and described unit power-supply controller of electric (22) is connected with evaporative condenser, wind-light complementing power generation device respectively.

2. integrated evaporative condenser according to claim 1, is characterized in that, described unit power-supply controller of electric (22) is connected with accessory power supply.

3. integrated evaporative condenser according to claim 1, it is characterized in that, described evaporative condenser, include condenser shell, enter rear flow direction by new wind in condenser shell and be disposed with vaporization type condensing system, mechanical refrigeration system and suction type fan (11), described vaporization type condensing system is connected with mechanical refrigeration system, condenser shell roof corresponding above described vaporization type condensing system is provided with air inlet (1), the condenser shell sidewall that described suction type fan (11) is corresponding is provided with exhaust outlet (12).

4. integrated evaporative condenser according to claim 3, is characterized in that, is provided with roughing efficiency air filter (2) between the top of described vaporization type condensing system and air inlet (1).

5. the integrated evaporative condenser according to claim 3 or 4, it is characterized in that, described vaporization type condensing system, include refrigerant heat exchanger coil pipe (4), described refrigerant heat exchanger coil pipe (4) top is provided with multiple nozzle (3), the below of described refrigerant heat exchanger coil pipe (4) is provided with header tank (5), described header tank (5) is connected with multiple nozzle (3) by feed pipe, described feed pipe is provided with water circulating pump (7), described water circulating pump (7) is connected with unit power-supply controller of electric (22) by wire,

Form air channel between described refrigerant heat exchanger coil pipe (4) and header tank (5), between side, described air channel and mechanical refrigeration system, be provided with water fender (6);

Described refrigerant heat exchanger coil pipe (4) is connected with mechanical refrigeration system.

6. integrated evaporative condenser according to claim 5, it is characterized in that, described mechanical refrigeration system, includes throttling arrangement (8), and described throttling arrangement (8) is connected with evaporimeter (9), compressor (10) successively by water pipe;

Described throttling arrangement (8) is connected with the water side of refrigerant heat exchanger coil pipe (4), and described compressor (10) is connected with the water inlet end of refrigerant heat exchanger coil pipe (4).

7. integrated evaporative condenser according to claim 6, is characterized in that, described evaporimeter (9) is connected to chilled water feed pipe (23) and chilled water return pipe (24).

8. integrated evaporative condenser according to claim 1, it is characterized in that, described wind-light complementing power generation device, includes wind power generation windmill, and described wind power generation windmill is connected with solar panel (18), wind light mutual complementing power storage controller respectively by wire.

9. integrated evaporative condenser according to claim 8, it is characterized in that, described wind power generation windmill, include vertical axis (17), the upper end of described vertical axis (17) is connected with generator (14) by rotating shaft (16), the two ends that described generator (14) is relative are respectively arranged with windmill impeller (13), tail vane (15), described motor (14) is connected with wind/light complementation controller (19) by power line, and described power line is arranged in vertical axis (17).

10. integrated evaporative condenser according to claim 8 or claim 9, it is characterized in that, described wind light mutual complementing power storage controller, include wind/light complementation controller (19), described wind/light complementation controller (19) is connected with batteries, inverter (21) successively by wire;

Described inverter (21) is connected with unit power-supply controller of electric (22) by wire;

Described batteries is composed in series successively by multiple battery (20).