CN206572675U - Photovoltaic driving coil pipe dew point indirectly with direct evaporating-cooling combined air conditioner - Google Patents

Abstract

Disclosed in the utility model photovoltaic drive coil pipe dew point indirectly with direct evaporating-cooling combined air conditioner, including machine unit shell, there is air inlet b on the wall of machine unit shell side, inner-cooled coil pipe indirect evaporation cooler, cross flow dew point indirect evaporative cooler and filler tower evaporation are sequentially provided with by air-flow direction cool down water-cooling device in machine unit shell, have above inner-cooled coil pipe indirect evaporation cooler on corresponding machine unit shell roof above exhaust outlet a, filler tower evaporation cooling water-cooling device has exhaust outlet b on corresponding machine unit shell roof；Also include the photovoltaic solar electric power system being arranged on machine unit shell roof, photovoltaic solar electric power system is connected with inner-cooled coil pipe indirect evaporation cooler, cross flow dew point indirect evaporative cooler and filler tower evaporation cooling water-cooling device respectively.The utility model coil pipe dew point is combined handpiece Water Chilling Units with direct evaporating-cooling indirectly can reduce the leaving water temperature of evaporation cooling handpiece Water Chilling Units, moreover it is possible to which auxiliary is driven with photovoltaic.

Description

Photovoltaic driving coil pipe-dew point indirectly with direct evaporating-cooling combined air conditioner

Technical field

The utility model belongs to air conditioner technical field, and in particular to a kind of coil pipe-dew point of photovoltaic driving indirectly with Direct evaporating-cooling combined air conditioner.

Background technology

Evaporative Cooling Air Conditioning technology is, using water as cooling medium, to be steamed using regenerative resource " dry air energy " by moisture Absorption refrigeration is sent out, is directly or indirectly contacted with water due to being air, the cold wind cleaned or high temperature cold water can be produced.

Although Arid Area has wet-bulb depression big, there is " dry air energy " plentiful natural advantage, but existing steaming But handpiece Water Chilling Units of feeling cold are difficult to the cold water for producing lower temperature, and size is larger, and practical application is also somewhat limited, unit knot Structure needs Optimal improvements, and performance has much room for improvement.

Utility model content

The purpose of this utility model is that provide a kind of coil pipe-dew point of photovoltaic driving is combined with direct evaporating-cooling indirectly Air-conditioning, can effectively reduce the leaving water temperature of evaporation cooling handpiece Water Chilling Units, while auxiliary is driven with photovoltaic, make full use of renewable energy Solar energy makes unit more energy efficient.

The utility model is the technical scheme adopted is that coil pipe-dew point of photovoltaic driving is indirectly multiple with direct evaporating-cooling Air-conditioning is closed, includes and air inlet b is provided with machine unit shell, the side wall of machine unit shell, after entering in machine unit shell by air It is tower that flow direction is disposed with inner-cooled coil pipe indirect evaporation cooler, cross flow dew point indirect evaporative cooler and filler Above evaporation cooling water-cooling device, inner-cooled coil pipe indirect evaporation cooler exhaust outlet is provided with corresponding machine unit shell roof Above a, filler tower evaporation cooling water-cooling device exhaust outlet b is provided with corresponding machine unit shell roof；Air inlet a, air draft Air-valve is provided with mouth a and exhaust outlet b；Also include the photovoltaic solar electric power system being arranged on machine unit shell roof, Photovoltaic solar electric power system is respectively with inner-cooled coil pipe indirect evaporation cooler, cross flow dew point indirect evaporative cooler and filling out Expect tower evaporation cooling water-cooling device connection.

The characteristics of the utility model, also resides in：

Photovoltaic solar electric power system is mainly made up of the solar energy photovoltaic panel and battery linked together；Solar energy Volt plate is inclined to set；Battery is steamed indirectly by wire with inner-cooled coil pipe indirect evaporation cooler, cross flow dew point respectively Send out cooler and filler tower evaporation cooling water-cooling device connection.

Inner-cooled coil pipe indirect evaporation cooler, includes material filling type evaporation cooling unit set up and down and coil pipe is high Warm surface cooler, and coil pipe high temperature surface cooler is close to air inlet b settings；Material filling type evaporate cooling unit and coil pipe high temperature surface cooler it Between pass through water pipe group constitute circulation loop.

Air cleaner is provided between air inlet b and coil pipe high temperature surface cooler.

Air cleaner is thick effect-middle effect composite air filtering device.

Material filling type evaporates cooling unit, includes layer-stepping filler unit A, layer-stepping filler unit A top is set successively Water-locator a, water fender a and exhaust blower a are equipped with, and coil pipe high temperature surface cooler is connected by first circulation water pipe with water-locator a, point Water storage box a is provided with below laminar filler unit A, and coil pipe high temperature surface cooler is connected by second circulation water pipe and water storage box a Connect, water pump a, water filter a are respectively arranged with second circulation water pipe；Space between layer-stepping filler unit A and water storage box a Formed on air flow channel, the corresponding machine unit shell side wall of air flow channel and be provided with air inlet a.

Layer-stepping filler unit A is made up of filler b set up and down, filler a, and is formed between filler b and filler a Interval；Thick effect-middle effect composite air filtering device is provided with air inlet a.

Cross flow dew point indirect evaporative cooler, includes dew point indirect evaporative cooling core body, dew point indirect evaporative cooling It is provided with above core body above water-locator b, water-locator b and forms air channel between machine unit shell roof, dew point indirect evaporative is cold But water storage box b is provided with below core body, water-locator b is connected by feed pipe with water storage box b, and is set respectively on feed pipe There are water pump b, water filter b.

Filler tower evaporation cools down water-cooling device, includes layer-stepping filler unit B, and layer-stepping filler unit B by Filler c, filler d setting up and down is constituted, and forms between filler c and filler d auxiliary air runner, auxiliary air runner with Air channel connection in cross flow dew point indirect evaporative cooler, and connectivity part is provided with air-valve；Layer-stepping filler unit B's is upper Side is disposed with water-locator c, water fender b and exhaust blower b, and water-locator c is connected with high temperature cold water return pipe；Layer-stepping filler list Water storage box c, water storage box c connection high temperature cold water pipes, the shape between layer-stepping filler unit B and water storage box c are provided with below first B Into primary air runner.

Regulating valve is provided with high temperature cold water return pipe；High temperature cold water circulating pump is provided with high temperature cold water pipe.

The beneficial effects of the utility model are：

(1) coil pipe-dew point of the present utility model indirectly with direct evaporating-cooling combined air conditioner, by coil pipe pyrometric scale device with point Laminar filler is combined, and is constituted inner-cooled coil pipe indirect evaporation cooler, for the air intake of precooling dew point indirect evaporative cooler, is carried The leaving air temp of high dew point efficiency, further reduction dew point indirect evaporative cooler；In addition, using layer-stepping filler, being conducive to Improve evaporative cooling efficiency.

(2) coil pipe-dew point of the present utility model indirectly with direct evaporating-cooling combined air conditioner, will successively pass through inner-cooled disk " dry and cold " air-flow and distributary of pipe indirect evaporation cooler and the lower temperature after the processing of cross flow dew point indirect evaporative cooler The auxiliary air layering that the temperature of formula dew point indirect evaporative cooler discharge is relatively low is supplied to filler tower evaporation to cool down cold water dress Put, give full play to the potentiality of evaporation cooling technique, improve the water outlet of energy ecology, effectively reduction evaporation cooling handpiece Water Chilling Units Temperature.

(3) coil pipe-dew point of the present utility model indirectly with direct evaporating-cooling combined air conditioner, inner-cooled coil pipe is steamed indirectly Hair cooler, cross flow dew point indirect evaporative cooler with filler tower evaporation cooling water-cooling device be combined, while aid in Photovoltaic drives, and makes full use of regenerative resource-solar energy so that unit is more saved.

Brief description of the drawings

Fig. 1 is the utility model coil pipe-structural representation of dew point indirectly with direct evaporating-cooling combined air conditioner.

In figure, 1. water storage box a, 2. air inlet a, 3. filler a, 4. filler b, 5. water-locator a, 6. water fender a, 7. exhaust outlets A, 8. exhaust blower a, 9. water-locator b, 10. batteries, 11. solar energy photovoltaic panels, 12. air channels, 13. exhaust outlet b, 14. exhaust blowers B, 15. water fender b, 16. water-locator c, 17. filler c, 18. filler d, 19. air inlet b, 20. air cleaners, 21. water filtrations Device a, 22. water pump a, 23. coil pipe high temperature surface coolers, 24. dew point indirect evaporative cooling core bodies, 25. water storage box b, 26. water pump b, 27. water filter b, 28. high temperature cold water circulating pumps, 29. water storage box c, 30. high temperature cold water return pipes, 31. regulating valves, 32. high temperature Cold water pipe, 33. first circulation water pipes, 34. second circulation water pipes, 35. feed pipes.

Embodiment

The utility model is described in detail with reference to the accompanying drawings and detailed description.

The utility model photovoltaic driving coil pipe-dew point indirectly with direct evaporating-cooling combined air conditioner, its structure such as Fig. 1 institutes Show, include and air inlet b19 is provided with machine unit shell, the side wall of machine unit shell, flowed after entering in machine unit shell by air Dynamic direction is disposed with inner-cooled coil pipe indirect evaporation cooler, cross flow dew point indirect evaporative cooler and the tower steaming of filler Felt cold but water-cooling device, and exhaust outlet is provided with corresponding machine unit shell roof above inner-cooled coil pipe indirect evaporation cooler Above a7, filler tower evaporation cooling water-cooling device exhaust outlet b13 is provided with corresponding machine unit shell roof；Also include and set The photovoltaic solar electric power system being placed on machine unit shell roof, photovoltaic solar electric power system is indirect with inner-cooled coil pipe respectively Devaporizer, cross flow dew point indirect evaporative cooler and filler tower evaporation cooling water-cooling device connection.

Air-valve is provided with exhaust outlet a7 and exhaust outlet b13.

Photovoltaic solar electric power system, as shown in figure 1, main solar energy photovoltaic panel 11 and battery by linking together 10 are constituted, and solar energy photovoltaic panel 11 is inclined to set；Battery 10 is cold by wire and inner-cooled coil pipe indirect evaporation respectively But device, cross flow dew point indirect evaporative cooler and filler tower evaporation cooling water-cooling device connection.

Inner-cooled coil pipe indirect evaporation cooler, as shown in figure 1, it is single to include material filling type evaporation cooling set up and down Member and coil pipe high temperature surface cooler 23, and coil pipe high temperature surface cooler 23 is close to air inlet b19 settings；Material filling type evaporate cooling unit with Circulation loop is constituted by water pipe group between coil pipe high temperature surface cooler 23.

Air cleaner 20 is provided between air inlet b19 and coil pipe high temperature surface cooler 23.

Air-valve is provided with air inlet b19.

Air cleaner 20 is thick effect-middle effect composite air filtering device.

Material filling type evaporates cooling unit, as shown in figure 1, include layer-stepping filler unit A, layer-stepping filler unit A's Water-locator a5, water fender a6 and exhaust blower a8 have been sequentially arranged above, and coil pipe high temperature surface cooler 23 passes through first circulation water pipe 33 are connected with water-locator a5, and water storage box a1 is provided with below layer-stepping filler unit A, and coil pipe high temperature surface cooler 23 passes through Two-cycle pipe 34 is connected with water storage box a1, and water pump a22, water filter a21 are respectively arranged with second circulation water pipe 34；Layering Space between formula filler unit A and water storage box a1 is formed to be set on air flow channel, the corresponding machine unit shell side wall of the air flow channel It is equipped with air inlet a2.

Layer-stepping filler unit A is made up of filler b4 set up and down, filler a3, and between filler b4 and filler a3 Form interval.

Water pump a22 is located in water storage box a1, is immersible pump.

It is provided with water storage box a1 on ball-cock assembly, water storage box a1 and is also respectively provided with discharge outlet, water supplement port.

Thick effect-middle effect composite air filtering device is provided with air inlet a2.

Cross flow dew point indirect evaporative cooler, as shown in figure 1, including dew point indirect evaporative cooling core body 24, dew point The top of indirect evaporating-cooling core body 24 is provided with above water-locator b9, water-locator b9 and forms air channel between machine unit shell roof 12, the lower section of dew point indirect evaporative cooling core body 24 is provided with water storage box b25, and water-locator b9 passes through feed pipe 35 and water storage box B25 connections, and it is respectively arranged with feed pipe 35 water pump b26, water filter b27.

Water pump b26 is located in water storage box b25, is immersible pump.

It is provided with water storage box b25 on ball-cock assembly, water storage box b25 and is also respectively provided with discharge outlet, water supplement port.

Filler tower evaporation cools down water-cooling device, as shown in figure 1, include layer-stepping filler unit B, and layer-stepping filler Unit B is made up of filler c17 set up and down, filler d18, and forms secondary air streams between filler c17 and filler d18 Road, the auxiliary air runner is connected with the air channel 12 in cross flow dew point indirect evaporative cooler, and connectivity part is provided with wind Valve, (cross flow dew point indirect evaporative cooler is discharged auxiliary air and entered in auxiliary air runner, and air-valve is used for Secondary Air Air quantity is adjusted)；Layer-stepping filler unit B's has been sequentially arranged above water-locator c16, water fender b15 and exhaust blower b14, Water-locator c16 is connected with high temperature cold water return pipe 30；Water storage box c29, water storage box are provided with below layer-stepping filler unit B C29 connection high temperature cold waters pipe 32, forms primary air runner between layer-stepping filler unit B and water storage box c29.

Regulating valve 31 is provided with high temperature cold water return pipe 30.

High temperature cold water circulating pump 28 is provided with high temperature cold water pipe 32.

It is provided with water storage box c29 on ball-cock assembly, water storage box c29 and is also respectively provided with discharge outlet, water supplement port.

The utility model photovoltaic driving coil pipe-dew point indirectly with direct evaporating-cooling combined air conditioner, by inner-cooled coil pipe Indirect evaporation cooler, cross flow dew point indirect evaporative cooler and filler tower evaporation cooling water-cooling device are combined, its work It is as process：

By priority after inner-cooled coil pipe indirect evaporation cooler and the processing of cross flow dew point indirect evaporative cooler The auxiliary air layering that the temperature of " dry and cold " air-flow and cross flow the dew point indirect evaporative cooler discharge of lower temperature is relatively low is carried Filler tower evaporation cooling water-cooling device is supplied, the potentiality of evaporation cooling technique is given full play to, improves energy ecology, effectively Reduce the leaving water temperature that filler tower evaporation cools down water-cooling device.In addition, also by photovoltaic solar electric power system process auxiliary drive, Regenerative resource-solar energy can be made full use of so that photovoltaic coil pipe-dew point of the present invention is combined cold water with direct evaporating-cooling indirectly Unit is more saved.

Claims (10)

1. photovoltaic driving coil pipe-dew point indirectly with direct evaporating-cooling combined air conditioner, it is characterised in that include unit shell It is provided with body, the side wall of the machine unit shell in air inlet b (19), the machine unit shell and enters rear flow direction by air It is disposed with inner-cooled coil pipe indirect evaporation cooler, cross flow dew point indirect evaporative cooler and filler tower evaporation cooling Above water-cooling device, the inner-cooled coil pipe indirect evaporation cooler exhaust outlet a is provided with corresponding machine unit shell roof (7), it is provided with exhaust outlet b (13) on corresponding machine unit shell roof above the filler tower evaporation cooling water-cooling device；

Air-valve is provided with the air inlet a (19), exhaust outlet a (7) and exhaust outlet b (13)；

Also include the photovoltaic solar electric power system being arranged on machine unit shell roof, the photovoltaic solar electric power system point Not with inner-cooled coil pipe indirect evaporation cooler, cross flow dew point indirect evaporative cooler and filler tower evaporation cooling cold water dress Put connection.

2. coil pipe-dew point of photovoltaic according to claim 1 driving indirectly with direct evaporating-cooling combined air conditioner, its feature It is, the main solar energy photovoltaic panel (11) and battery (10) structure by linking together of the photovoltaic solar electric power system Into；

The solar energy photovoltaic panel (11) is inclined to set；

The battery (10) is cold by wire and inner-cooled coil pipe indirect evaporation cooler, cross flow dew point indirect evaporative respectively But device and filler tower evaporation cooling water-cooling device connection.

3. coil pipe-dew point of photovoltaic according to claim 1 or 2 driving indirectly with direct evaporating-cooling combined air conditioner, its Be characterised by, the inner-cooled coil pipe indirect evaporation cooler, include material filling type set up and down evaporation cooling unit and Coil pipe high temperature surface cooler (23), and the coil pipe high temperature surface cooler (23) is close to air inlet b (19) settings；

Circulation loop is constituted by water pipe group between the material filling type evaporation cooling unit and coil pipe high temperature surface cooler (23).

4. coil pipe-dew point of photovoltaic according to claim 3 driving indirectly with direct evaporating-cooling combined air conditioner, its feature It is, air cleaner (20) is provided between the air inlet b (19) and coil pipe high temperature surface cooler (23).

5. coil pipe-dew point of photovoltaic according to claim 4 driving indirectly with direct evaporating-cooling combined air conditioner, its feature It is, the air cleaner (20) is thick effect-middle effect composite air filtering device.

6. coil pipe-dew point of photovoltaic according to claim 3 driving indirectly with direct evaporating-cooling combined air conditioner, its feature Be, the material filling type evaporates cooling unit, include layer-stepping filler unit A, layer-stepping filler unit A top according to It is secondary to be provided with water-locator a (5), water fender a (6) and exhaust blower a (8), and the coil pipe high temperature surface cooler (23) follows by first Ring water pipe (33) is connected with water-locator a (5), and water storage box a (1), and the disk are provided with below the layer-stepping filler unit A Pipe high temperature surface cooler (23) is connected by second circulation water pipe (34) with water storage box a (1), is divided on the second circulation water pipe (34) Water pump a (22), water filter a (21) are not provided with；

Space between the layer-stepping filler unit A and water storage box a (1) forms air flow channel, and the air flow channel is corresponding Air inlet a (2) is provided with the wall of machine unit shell side.

7. coil pipe-dew point of photovoltaic according to claim 6 driving indirectly with direct evaporating-cooling combined air conditioner, its feature It is, the layer-stepping filler unit A is made up of filler b (4) set up and down, filler a (3), and in the filler b (4) Interval is formed between filler a (3)；

Thick effect-middle effect composite air filtering device is provided with the air inlet a (2).

8. coil pipe-dew point of photovoltaic according to claim 1 or 2 driving indirectly with direct evaporating-cooling combined air conditioner, its It is characterised by that the cross flow dew point indirect evaporative cooler includes dew point indirect evaporative cooling core body (24), the dew point Be provided with water-locator b (9) above indirect evaporating-cooling core body (24), above the water-locator b (9) with machine unit shell roof it Between form air channel (12), be provided with water storage box b (25), the water-locator below the dew point indirect evaporative cooling core body (24) B (9) is connected by feed pipe (35) with water storage box b (25), and be respectively arranged with the feed pipe (35) water pump b (26), Water filter b (27).

9. coil pipe-dew point of photovoltaic according to claim 1 or 2 driving indirectly with direct evaporating-cooling combined air conditioner, its It is characterised by, the filler tower evaporation cools down water-cooling device, includes layer-stepping filler unit B, and the layer-stepping filler Unit B is made up of filler c (17) set up and down, filler d (18), and the shape between the filler c (17) and filler d (18) Into auxiliary air runner, the auxiliary air runner is connected with the air channel (12) in cross flow dew point indirect evaporative cooler, and Connectivity part is provided with air-valve；

The layer-stepping filler unit B's has been sequentially arranged above water-locator c (16), water fender b (15) and exhaust blower b (14), The water-locator c (16) is connected with high temperature cold water return pipe (30)；

Water storage box c (29) is provided with below the layer-stepping filler unit B, the water storage box c (29) connects high temperature cold water pipe (32) primary air runner, is formed between the layer-stepping filler unit B and water storage box c (29).

10. coil pipe-dew point of photovoltaic according to claim 9 driving indirectly with direct evaporating-cooling combined air conditioner, it is special Levy and be, regulating valve (31) is provided with the high temperature cold water return pipe (30)；

High temperature cold water circulating pump (28) is provided with the high temperature cold water pipe (32).