CN209101589U - Solar energy system dry cooler - Google Patents

Abstract

The utility model relates to a kind of solar energy system dry coolers, including casing, at least two blowers are equipped in casing side by side, it is equipped with partition between adjacent blower, is transversely provided with heat exchange coil below blower, heat exchange coil is connect with circulating water pipe component, heat exchange coil includes several heat exchanger tubes being equidistantly obliquely installed, heat exchanger tube, which plugs, to be fixed on radiating fin, and several radiating fins are equally distributed in casing, and one end of casing is equipped with weather shield.The utility model structure is simple, good heat dissipation effect, long service life.

Description

Solar energy system dry cooler

Technical field

The utility model relates to cooler technical fields, more particularly to a kind of solar energy system dry cooler.

Background technique

Its leaving water temperature is generally acted at 60 DEG C solar energy system at work, can be to pipe if temperature is excessively high in pipeline Road damages, and influences the service life of pipeline, therefore, dry cooler is generally arranged, and set start-up temperature, reaches setting When temperature, dry cooler work reduces temperature in pipeline, to realize the protection to pipeline.

Existing dry cooler has the disadvantage that (1) structure is complicated, and cooling effect is poor；(2) phase between adjacent blower It is intercommunicated, it be easy to cause the wind direction between blower to conflict with each other and air leakage phenomena, influences outlet air efficiency；(3) there is no wader It sets, be easy to cause danger of hazardous electrical discharges.

Utility model content

It is simple, good cooling results that the technical problem to be solved by the present invention is to provide a kind of structures, with long service life Solar energy system dry cooler.

A kind of solar energy system dry cooler of the utility model, including casing are equipped at least side by side in the casing Two blowers are equipped with partition between the adjacent blower, are transversely provided with heat exchange coil, the heat exchange coil below the blower It is connect with circulating water pipe component, the heat exchange coil includes several heat exchanger tubes being equidistantly obliquely installed, and the heat exchanger tube plugs solid It is scheduled on radiating fin, several radiating fins are equally distributed in casing, and one end of the casing is equipped with weather shield；

The circulating water pipe component includes water inlet pipe, outlet pipe, and the water inlet pipe includes the first vertical tube, the first transverse tube, institute The one end for stating the first vertical tube is equipped with water supply connector, and the other end of first vertical tube is connect with the first transverse tube, first transverse tube On be equidistantly equipped with several inlet openings, the input end of the heat exchanger tube connect with inlet opening, and the outlet pipe includes the second vertical tube, the One end of two transverse tubes, second vertical tube is equipped with water outlet connector, and the other end of second vertical tube is connect with the second transverse tube, described Several apopores are equidistantly equipped on second transverse tube, the outlet end of the heat exchanger tube is connect with apopore.

Preferably, the lower part of first transverse tube is equipped with drain valve, and the top of second transverse tube is equipped with vent valve.

It is preferably in any of the above-described scheme, is equipped with temperature sensitive probe in the water inlet pipe, outlet pipe.

Be preferably in any of the above-described scheme, the top of the top of the weather shield and casing in the same horizontal line, institute The outside for stating weather shield is to tilt down inclined-plane.

It is preferably in any of the above-described scheme, each corner of the casing lower part is equipped with mounting rack.

It is preferably in any of the above-described scheme, the end of the casing is equipped with electric box, and the electric box setting is being kept off the rain The lower section of plate, the blower are electrically connected by conducting wire with electric box.

It is preferably in any of the above-described scheme, the heat exchanger tube is U-shaped coiled pipe.

Compared with prior art, advantages and beneficial effects possessed by the utility model are as follows:

(1) it is separated between adjacent blower by using partition, forms relatively independent air-out passage, each blower is in work As when be independent of each other, avoid the wind direction between adjacent blower from interfering with each other, guarantee outlet air efficiency, rapid heat dissipation；Meanwhile partition is set Setting has the function of deflector, and wind is uniformly guided to outside casing, improves radiating efficiency, can quickly reduce the temperature in pipeline Degree, good cooling results.

(2) heat exchanger tube is longitudinally equidistantly obliquely installed, and be capable of increasing vane in air-supply passage makes around the moving area of heat exchanger tube Wind uniformly, it is gentle contacted with heat exchanger tube, to increase heat exchange area, to improve heat exchange efficiency, good cooling results, heat dissipation Fastly.

(3) weather shield has rainproof effect, prevents rainwater drop from splashing on electric box, causes danger of hazardous electrical discharges.Below with reference to attached Figure is described further the solar energy system of the utility model with dry cooler.

Detailed description of the invention

Fig. 1 is the main view of the utility model solar energy system dry cooler；

Fig. 2 is the top view of the utility model solar energy system dry cooler；

Fig. 3 is the side view of the utility model solar energy system dry cooler；

Fig. 4 is the structure chart of heat exchanger tube in the utility model solar energy system dry cooler；

Wherein: 1, casing；2, blower；3, partition；4, heat exchanger tube；5, water inlet pipe；51, water supply connector；52, the first vertical tube； 53, the first transverse tube；54, inlet opening；6, outlet pipe；61, water outlet connector；62, the second vertical tube；63, the second transverse tube；64, apopore； 7, weather shield；8, mounting rack；9, drain valve；10, vent valve；11, electric box；12, radiating fin.

Specific embodiment

As Figure 1-Figure 4, a kind of solar energy system dry cooler of the utility model, including casing 1, in casing 1 It is equipped at least two blowers 2 side by side, the number of blower 2 is determined according to required refrigeration air quantity, and in the present embodiment, blower 2 is equipped with two It is a.

Partition 3 is equipped between adjacent blower 2, the lower section of blower 2 is transversely provided with heat exchange coil, heat exchange coil and circulating water pipe One end of component connects, and the other end of circulating water pipe component is connect with solar energy system pipeline.The bottom of casing 1 is air inlet, machine The top of shell 1 is air outlet, forms supply air duct in casing 1, outdoor wind is delivered to casing 1 under the cyclonic action of blower 2 Interior, the water in solar energy system pipeline is delivered in heat exchange coil through circulating water pipe component, in outdoor wind and heat exchange coil Water carries out heat exchange, and wind is discharged through air outlet, the effect for reducing water temperature in solar energy system pipeline is achieved in, to solar energy System pipeline has protective effect, guarantees the normal work of solar energy system, extends the service life of pipeline.

It is separated between adjacent blower 2 by using partition 3, forms relatively independent air-out passage, each blower 2 is in work As when be independent of each other, avoid the wind direction between adjacent blower 2 from interfering with each other, guarantee outlet air efficiency, rapid heat dissipation；Meanwhile partition 3 Setting has the function of deflector, and wind is uniformly guided to outside casing 1, improves radiating efficiency, can quickly reduce in pipeline Temperature, good cooling results.Heat exchange coil includes several heat exchanger tubes 4 being equidistantly obliquely installed, and heat exchanger tube 4 is U-shaped coiled pipe, is changed Heat pipe 4, which plugs, to be fixed on radiating fin, and several radiating fins are placed equidistant in casing 1.The longitudinal equidistant inclination of heat exchanger tube 4 is set Set, be capable of increasing in air-supply passage vane around the moving area of heat exchanger tube 4, make wind uniformly, it is gentle contacted with heat exchanger tube 4, with Increase heat exchange area, to improve heat exchange efficiency, improves refrigeration effect；The setting of radiating fin is for accelerating heat exchange Efficiency, rapid heat dissipation.

One end of casing 1 is equipped with weather shield 7, and the top of circulating water pipe component, the top of weather shield 7 is arranged in weather shield 7 In the same horizontal line with the top of casing 1, the outside of weather shield 7 is to tilt down inclined-plane.Weather shield 7 has rainproof effect, It prevents rainwater drop from splashing on electric box, causes danger of hazardous electrical discharges.

Circulating water pipe component includes water inlet pipe 5, outlet pipe 6, and water inlet pipe 5 includes the first vertical tube 52, the first transverse tube 53, and first One end of vertical tube 52 is equipped with water supply connector 51, and the other end of the first vertical tube 52 is connect with the first transverse tube 53, on the first transverse tube 53 etc. It is connect away from the input end for being equipped with several inlet openings 54, heat exchanger tube 4 with inlet opening 54, outlet pipe 6 includes that the second vertical tube 62, second is horizontal One end of pipe 63, the second vertical tube 62 is equipped with water outlet connector 61, and the other end of the second vertical tube 62 is connect with the second transverse tube 63, and second is horizontal Several apopores 64 are equidistantly equipped on pipe 63, the outlet end of heat exchanger tube 4 is connect with apopore 64.Water in solar energy system pipeline It is delivered to water inlet pipe 5 through water supply connector 51, moisture is flow in each heat exchanger tube 4 by water inlet pipe 5 by inlet opening 54, heat exchanger tube 4 In water in air-supply passage wind carry out heat exchange, the water after heat exchange is successively back to water outlet through heat exchanger tube 4, apopore 64 Pipe 6 drains into solar energy system pipeline through water outlet connector 61, thus completes a cyclic process, realizes to solar energy system pipe The cooling of water in road.

Further, the lower part of the first transverse tube 53 is equipped with drain valve 9, when dry cooler does not enable, for emptying circulation Water in conduit assembly.The top of second transverse tube 63 is equipped with vent valve 10, for the pressure in balanced recycle conduit assembly.

Further, water inlet pipe 5, be equipped with temperature sensitive probe in outlet pipe 6, the temperature for water in real-time monitoring circulating water pipe Degree, to ensure the cooling of water in solar energy system pipeline.

Further, each corner of 1 lower part of casing is equipped with mounting rack 8, installs convenient for dry cooler.

Further, the end of casing 1 is equipped with electric box 11, and the lower section of weather shield 7 is arranged in electric box 11, and blower 2 is logical Conducting wire is crossed to be electrically connected with electric box 11.

Further, casing 1 is made with radiating fin 12 of aluminium sheet material, and circulation water assembly and heat exchange coil use copper Tubing matter is made, corrosion-resistant.

Embodiment described above is only that preferred embodiments of the present invention are described, not practical to this Novel range is defined, and under the premise of not departing from the spirit of the design of the utility model, those of ordinary skill in the art are to this The various changes and improvements that the technical solution of utility model is made should all fall into the protection that the utility model claims book determines In range.

Claims (7)

1. a kind of solar energy system dry cooler, it is characterised in that: including casing, be equipped at least two in the casing side by side A blower is equipped with partition between the adjacent blower, is transversely provided with heat exchange coil below the blower, the heat exchange coil with The connection of circulating water pipe component, the heat exchange coil includes several heat exchanger tubes being equidistantly obliquely installed, and the heat exchanger tube plugs fixation On radiating fin, several radiating fins are equally distributed in casing, and one end of the casing is equipped with weather shield；

The circulating water pipe component includes water inlet pipe, outlet pipe, and the water inlet pipe includes the first vertical tube, the first transverse tube, and described the One end of one vertical tube is equipped with water supply connector, and the other end of first vertical tube is connect with the first transverse tube, on first transverse tube etc. It is connect away from the input end for being equipped with several inlet openings, the heat exchanger tube with inlet opening, the outlet pipe includes the second vertical tube, the second cross One end of pipe, second vertical tube is equipped with water outlet connector, and the other end of second vertical tube is connect with the second transverse tube, and described second Several apopores are equidistantly equipped on transverse tube, the outlet end of the heat exchanger tube is connect with apopore.

2. solar energy system dry cooler according to claim 1, it is characterised in that: the lower part of first transverse tube Equipped with drain valve, the top of second transverse tube is equipped with vent valve.

3. solar energy system dry cooler according to claim 1, it is characterised in that: the water inlet pipe, outlet pipe Inside it is equipped with temperature sensitive probe.

4. solar energy system dry cooler according to claim 1, it is characterised in that: the top of the weather shield with In the same horizontal line, the outside of the weather shield is to tilt down inclined-plane at the top of casing.

5. solar energy system dry cooler according to claim 1, it is characterised in that: respectively turn the casing lower part Mounting rack is equipped at angle.

6. solar energy system dry cooler according to claim 1, it is characterised in that: the end of the casing is equipped with The lower section of weather shield is arranged in electric box, the electric box, and the blower is electrically connected by conducting wire with electric box.

7. solar energy system dry cooler according to claim 1, it is characterised in that: the heat exchanger tube is U-shaped snake Shape pipe.