CN203928233U - The low energy consumption evaporative cooling handpiece Water Chilling Units that adopts wind light mutual complementing to drive - Google Patents

Abstract

The low energy consumption evaporative cooling handpiece Water Chilling Units that the disclosed employing wind light mutual complementing of the utility model drives, include machine unit shell, on machine unit shell one sidewall, be provided with tapering type air inlet, in machine unit shell, enter rear flow direction by air and be disposed with filter, tube type indirect evaporative cooler and direct evaporative cooler, the top of tube type indirect evaporative cooler and direct evaporative cooler is disposed with water fender, electronic air grille and support, on support, be provided with blower fan, on the roof of the machine unit shell that blower fan is corresponding, be provided with exhaust outlet, exhaust outlet place is connected with exhaust duct, the roof inner side of machine unit shell is provided with inverter, the roof arranged outside of machine unit shell has solar panels.The low energy consumption evaporative cooling handpiece Water Chilling Units that the utility model adopts wind light mutual complementing to drive, without outside electric weight, makes full use of reproducible clean energy resource generating, reaches the object that reduces temperature.

Description

The low energy consumption evaporative cooling handpiece Water Chilling Units that adopts wind light mutual complementing to drive

Technical field

The utility model belongs to operation of air conditioning systems technical field, relates to a kind of low energy consumption evaporative cooling handpiece Water Chilling Units that adopts wind light mutual complementing to drive, and is specifically related to the evaporative cooling handpiece Water Chilling Units that a kind of evaporative cooling is combined with wind energy, solar electrical energy generation.

Background technology

Along with the fast development of China's economy, the utilization that exceeds the quata of the energy, makes AND ENERGY RESOURCES CONSUMPTION IN CHINA day by day serious.Wherein, building energy consumption proportion is about three one-tenth, is about more than fifty percent and HVAC energy consumption accounts for building energy consumption.Along with the fast development of China's industrialization and urbanization, this ratio is also in continuous rising.In visible building energy conservation, effective measures are exactly heat-air conditioner energy-saving, and it is to the huge contribution of having built a resource-conserving society.

Evaporative cooling handpiece Water Chilling Units and wind energy, solar electrical energy generation are combined, and at unit air inlet with unit top arranges respectively wind-driven generator and solar panels carry out cogeneration, institute's generated energy is supplied with the blower and water pump of unit, without outside electric weight, take full advantage of reproducible clean energy resource, really accomplished energy-conserving and environment-protective.

Utility model content

The purpose of this utility model is to provide a kind of low energy consumption evaporative cooling handpiece Water Chilling Units that adopts wind light mutual complementing to drive, and without outside electric weight, makes full use of reproducible clean energy resource generating, reaches the object that reduces temperature.

The technical scheme that the utility model adopts is, the low energy consumption evaporative cooling handpiece Water Chilling Units that adopts wind light mutual complementing to drive, include machine unit shell, on machine unit shell one sidewall, be provided with tapering type air inlet, in machine unit shell, enter rear flow direction by air and be disposed with filter, tube type indirect evaporative cooler and direct evaporative cooler, the top of tube type indirect evaporative cooler and direct evaporative cooler is disposed with water fender, electronic air grille and support, on support, be provided with blower fan, on the roof of the machine unit shell that blower fan is corresponding, be provided with exhaust outlet, exhaust outlet place is connected with exhaust duct, the roof inner side of machine unit shell is provided with inverter, the roof arranged outside of machine unit shell has solar panels.

Feature of the present utility model is also:

The arranged outside of tapering type air inlet has wind-driven generator.

Tube type indirect evaporative cooler, includes set of heat exchange tubes, and the top of set of heat exchange tubes is provided with water-locator b, the below of set of heat exchange tubes is provided with water tank b, in water tank b, be provided with water pump b, water pump b is connected with water-locator b by water pipe, between set of heat exchange tubes and water tank b, forms secondary air channel;

Direct evaporative cooler, includes filler, and the top of filler is provided with water-locator a, and the below of filler is provided with water tank a, and water tank a is connected with water pump a, fan coil, surface cooler and water-locator a successively by feed pipe; Between filler and water tank a, form one time wind passage;

Solar panels are connected with inverter by wire respectively with wind-driven generator, and inverter is connected with blower fan, water pump b and water pump a successively by wire.

Set of heat exchange tubes is made up of many horizontally disposed heat exchanger tubes.

The bottom of filler is inclined-plane, and the angle of this inclined-plane and horizontal plane is acute angle.

Water-locator a and water-locator b are nozzle.

Solar panels are inclined to set, and the top of solar panels and the mouth of pipe of ajutage join.

Solar panels are provided with two, and two solar panels are symmetricly set in the both sides of exhaust duct.

The beneficial effects of the utility model are:

A. low energy consumption evaporative cooling handpiece Water Chilling Units of the present utility model is that evaporative cooling handpiece Water Chilling Units and wind energy, solar electrical energy generation are combined, realize unit integrated, easy operating uses, take full advantage of clean regenerative resource simultaneously, wind energy and solar electrical energy generation are directly supplied with the blower and water pump in unit after inverter is processed, without outside electric weight, energy-conserving and environment-protective are really accomplished.

B. low energy consumption evaporative cooling handpiece Water Chilling Units of the present utility model adopts tapering type air inlet, at tapering type air inlet, place arranges wind-driven generator, make full use of tapering type air inlet place air-flow and carry out wind-power electricity generation, and wind-driven generator and tapering type air inlet can play the effect that regulates unit air intake air-flow, make unit under Different climate condition, meet the required wind speed requirement of wind-power electricity generation, ensure that evaporative cooling handpiece Water Chilling Units can produce the high temperature cold water amount meeting the demands simultaneously.

C. in low energy consumption evaporative cooling handpiece Water Chilling Units of the present utility model, wind and Secondary Air share a blower fan, have reduced the investment of equipment, also adopt electronic air grille to regulate wind and Secondary Air ratio.

D. low energy consumption evaporative cooling handpiece Water Chilling Units of the present utility model makes full use of the exhaust air with lower temperature of unit; exhaust air with lower temperature can reduce the surface temperature of solar panels; form one deck shielding gas flow on solar panels surface simultaneously, prevent solar panels superficial dust, improve solar panels generating efficiency.

E. above low energy consumption evaporative cooling handpiece Water Chilling Units of the present utility model, arrange bidirectional solar plate, make full use of space and arrange solar panels generatings, and can avoid sunlight to being exposed to the sun of unit, can improve to a certain extent unit and produce the efficiency of cold water.

F. low energy consumption evaporative cooling handpiece Water Chilling Units of the present utility model, high temperature cold water enters new wind outside surface cooler fore-cooling room after fan coil heat exchange, has realized the cascade utilization of the energy, has avoided the waste of the energy.

Brief description of the drawings

The structural representation of Fig. 1 the utility model low energy consumption evaporative cooling handpiece Water Chilling Units.

In figure, 1. tapering type air inlet, 2. machine unit shell, 3. inverter, 4. exhaust duct, 5 solar panels, 6. blower fan, 7. support, 8. electronic air grille, 9. water fender, 10. water-locator a, 11. fillers, 12. water tank a, 13. surface coolers, 14. fan coils, 15. water pump a, 16. water tank b, 17. set of heat exchange tubes, 18. water pump b, 19. filters, 20. wind-driven generators, 21. water-locator b.

Detailed description of the invention

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

The low energy consumption evaporative cooling handpiece Water Chilling Units that the utility model adopts wind light mutual complementing to drive, its structure as shown in Figure 1, include machine unit shell 2, on machine unit shell 2 one sidewalls, be provided with tapering type air inlet 1, in machine unit shell 2, enter rear flow direction by air and be disposed with filter 19, tube type indirect evaporative cooler and direct evaporative cooler, the top of tube type indirect evaporative cooler and direct evaporative cooler is disposed with water fender 9, electronic air grille 8 and support 7, on support 7, be provided with blower fan 6, on the roof of the machine unit shell 2 of blower fan 6 correspondences, be provided with exhaust outlet, exhaust outlet place is connected with exhaust duct 4, the roof inner side of machine unit shell 2 is provided with inverter 3, the roof arranged outside of machine unit shell 2 has solar panels 5.

Tapering type air inlet 1 reduces successively by air-flow direction bore, and the arranged outside of tapering type air inlet 1 has wind-driven generator 20.

Tube type indirect evaporative cooler, includes set of heat exchange tubes 17, and the top of set of heat exchange tubes 17 is provided with water-locator b21, and the below of set of heat exchange tubes 17 is provided with water tank b16, is provided with water pump b18 in water tank b16, and water pump b18 is connected with water-locator b21 by water pipe; Between set of heat exchange tubes 17 and water tank b16, form secondary air channel.

Set of heat exchange tubes 17 is made up of many horizontally disposed heat exchanger tubes.Water-locator b21 is nozzle.

Direct evaporative cooler, includes filler 11, and the top of filler 11 is provided with water-locator a10, and the below of filler 11 is provided with water tank a12, and water tank a12 is connected with water pump a15, fan coil 14, surface cooler 13 and water-locator a10 successively by feed pipe; Between filler 11 and water tank a12, form one time wind passage.

The bottom of filler 11 is inclined-plane, and the angle of this inclined-plane and horizontal plane formation is acute angle.Water-locator a10 is nozzle.

Solar panels 5 are connected with the inverter 3 in machine unit shell 2 by wire respectively with wind-driven generator 20, and inverter 3 is connected with blower fan 6, water pump b18 and water pump a15 successively by wire.

What solar panels 5 tilted is fixed on the roof of machine unit shell 2, and the mouth of pipe of the other end of solar panels 5 and ajutage 4 joins.Solar panels 5 are arranged in the space that makes full use of machine unit shell 2 tops, can avoid sunlight to being exposed to the sun of machine unit shell, and can improve to a certain extent unit and produce the efficiency of cold water.

The effect of each parts in the low energy consumption evaporative cooling handpiece Water Chilling Units that the utility model employing wind light mutual complementing drives:

Adopt tapering type air inlet 1, and at tapering type air inlet 1 place, wind-driven generator 20 is set, the air-flow that makes full use of tapering type air inlet 1 place carries out wind-power electricity generation, regulates the intake of unit simultaneously; Wind-driven generator 20 and tapering type air inlet 1 can play and regulate unit air intake airflow function, make unit under Different climate condition, produce the high temperature cold water amount meeting the demands.

Machine unit shell 2 is interior arranges a blower fan 6, and the interior wind of machine unit shell 2 and Secondary Air share a blower fan 6, adopts electronic air grille 8 to regulate wind and Secondary Air ratio, has reduced the investment of equipment.

The top that is arranged at machine unit shell 2 that solar panels 5 are tilted, and the mouth of pipe of the top of solar panels 5 and exhaust duct 4 joins.The headroom that makes full use of machine unit shell 2 is arranged generating, can avoid sunlight to being exposed to the sun of machine unit shell 2, and can improve to a certain extent unit and produce the efficiency of cold water; In addition, utilize Unit Low air draft to lower the temperature to the surface of solar panels 5, prevent the superficial dust of solar panels 5, improved generating efficiency.

Solar panels 5 are provided with two, and the both sides that are arranged at exhaust duct 4 of two solar panels 5 symmetries.

High temperature cold water enters new wind outside surface cooler 13 fore-cooling rooms after fan coil 14 heat exchange, has realized the cascade utilization of the energy, has avoided the waste of the energy.

The course of work of the low energy consumption evaporative cooling handpiece Water Chilling Units that the utility model employing wind light mutual complementing drives is as follows:

A. primary air system: outdoor air is after wind-driven generator 20, the filter 19 being entered in machine unit shell 2 by tapering type air inlet 1 filters, the air part being filtered enters in the set of heat exchange tubes 17 of tube type indirect evaporative cooler, set of heat exchange tubes 17 is made up of many heat exchanger tubes, outside every heat exchanger tube, auxiliary air and trickle carry out the wet exchange of heat, take away primary air heat in heat exchanger tube, the interior primary airs of heat exchanger tube etc. are but clammy, then filler 11 places that enter in direct evaporative cooler carry out equal-enthalpy humidifying cooling, regulated again the ratio of wind and Secondary Air by electronic air grille 8, through water fender 9, blower fan 6 is by a wind, the mist of Secondary Air is sent to solar panels 5 surfaces by exhaust duct 4, can not only reduce the surface temperature of solar panels 5, also prevent solar panels 5 superficial dusts, improve generating efficiency.

B. secondary air system: outdoor air is after wind-driven generator 20, the filter 19 being entered in machine unit shell 2 by tapering type air inlet 1 filters, the air part being filtered enters the secondary air channel in tube type indirect evaporative cooler, carry out the wet exchange of heat with the water at low temperature of primary air and spray, auxiliary air is cooling by humidification, auxiliary air after heat exchange completes mixes with primary air, is sent to the surface of solar panels 5 through water fender 9 by blower fan 6 through exhaust duct 4.

C. circulation: be provided with two water tanks in machine unit shell 2, be respectively water tank a12, water tank b16, water tank a12 is connected with water pump a15, in water tank b16, be provided with water pump b18, water pump b18 delivers to low-temperature circulating water the top of set of heat exchange tubes 17, through water-locator b21 water distribution, falls uniformly in set of heat exchange tubes 17, the recirculated water of spray and auxiliary air carry out the wet exchange of heat and take away primary air heat in pipe, finally drop in the cyclic water tank b16 of bottom.

D. high temperature cold water system: high temperature cold water enters new wind outside surface cooler 13 fore-cooling rooms after fan coil 14 heat exchange, then sprayed on the filler 11 of direct evaporative cooler by water-locator a10, in tube type indirect evaporative cooler, the fully wet exchange of heat of the primary air of set of heat exchange tubes 17 equal-enthalpy humidifying coolings and shower water, produces the high temperature cold water of approaching outdoor air dew-point temperature.

E. power system: the wind-driven generator 20 that is arranged on tapering type air inlet 1 place on machine unit shell 2 generates electricity jointly with the solar panels 5 that are arranged on machine unit shell 2 tops, supplies with blower fan 6, water pump a15 and water pump b18 in machine unit shell 2.

The low energy consumption evaporative cooling handpiece Water Chilling Units that the utility model adopts wind light mutual complementing to drive, evaporative cooling handpiece Water Chilling Units and wind energy, solar electrical energy generation are combined, at the tapering type air inlet 1 of unit with wind-driven generator 20 is set respectively above unit and solar panels 5 carry out cogeneration, institute's generated energy is supplied with blower fan 6, water pump a15 and the water pump b18 in machine unit shell, do not need outside electric weight, take full advantage of reproducible clean energy resource; In addition, exhaust air with lower temperature reduces the surface temperature of solar panels 5, improves its generating efficiency, and the cold water of producing enters new wind outside surface cooler 13 fore-cooling rooms after fan coil 14, has realized the cascade utilization of the energy, has really accomplished energy-conserving and environment-protective.

Claims (8)

1. the low energy consumption evaporative cooling handpiece Water Chilling Units that adopts wind light mutual complementing to drive, it is characterized in that, include machine unit shell (2), on described machine unit shell (2) one sidewalls, be provided with tapering type air inlet (1), in described machine unit shell (2), enter rear flow direction by air and be disposed with filter (19), tube type indirect evaporative cooler and direct evaporative cooler, the top of described tube type indirect evaporative cooler and direct evaporative cooler is disposed with water fender (9), electronic air grille (8) and support (7), on described support (7), be provided with blower fan (6), on the roof of the machine unit shell (2) that described blower fan (6) is corresponding, be provided with exhaust outlet, described exhaust outlet place is connected with exhaust duct (4), the roof inner side of described machine unit shell (2) is provided with inverter (3), the roof arranged outside of described machine unit shell (2) has solar panels (5).

2. low energy consumption evaporative cooling handpiece Water Chilling Units according to claim 1, is characterized in that, the arranged outside of described tapering type air inlet (1) has wind-driven generator (20).

3. low energy consumption evaporative cooling handpiece Water Chilling Units according to claim 1, it is characterized in that, described tube type indirect evaporative cooler, include set of heat exchange tubes (17), the top of described set of heat exchange tubes (17) is provided with water-locator b (21), the below of described set of heat exchange tubes (17) is provided with water tank b (16), in described water tank b (16), be provided with water pump b (18), described water pump b (18) is connected with water-locator b (21) by water pipe, between described set of heat exchange tubes (17) and water tank b (16), forms secondary air channel;

Described direct evaporative cooler, include filler (11), the top of described filler (11) is provided with water-locator a (10), the below of described filler (11) is provided with water tank a (12), and described water tank a (12) is connected with water pump a (15), fan coil (14), surface cooler (13) and water-locator a (10) successively by feed pipe; Between described filler (11) and water tank a (12), form wind passage one time;

Described solar panels (5) are connected with inverter (3) by wire respectively with wind-driven generator (20), and described inverter (3) is connected with blower fan (6), water pump b (18) and water pump a (15) successively by wire.

4. low energy consumption evaporative cooling handpiece Water Chilling Units according to claim 3, is characterized in that, described set of heat exchange tubes (17) is made up of many horizontally disposed heat exchanger tubes.

5. low energy consumption evaporative cooling handpiece Water Chilling Units according to claim 3, is characterized in that, the bottom of described filler (11) is inclined-plane, and the angle of this inclined-plane and horizontal plane is acute angle.

6. low energy consumption evaporative cooling handpiece Water Chilling Units according to claim 3, is characterized in that, described water-locator a (10) and water-locator b (21) are nozzle.

7. low energy consumption evaporative cooling handpiece Water Chilling Units according to claim 1, is characterized in that, described solar panels (5) are inclined to set, and the mouth of pipe of the top of described solar panels (5) and exhaust duct (4) joins.

8. according to the low energy consumption evaporative cooling handpiece Water Chilling Units described in claim 1 or 7, it is characterized in that, described solar panels (5) are provided with two, and two solar panels (5) are symmetricly set in the both sides of exhaust duct (4).