CN206821473U - Photovoltaic townhouse canopy cooling system - Google Patents

Abstract

The utility model purpose is the system that can be cooled to the photovoltaic module on photovoltaic townhouse canopy, that is, provides a kind of photovoltaic townhouse canopy cooling system.Including greenhouse steelframe, radiating circulator, circulating water pipe, temperature sensor, heat collector, photovoltaic module, control system, greenhouse steelframe Chaoyang is fixedly connected with photovoltaic module at the top of side, the back side of photovoltaic module is provided with temperature sensor and heat collector, circulating water pipe one end connection heat collector other end connection radiating circulator, temperature sensor, radiating circulator are connected with control system respectively.Cooling system reduces the temperature of photovoltaic module in canopy, improves the generated output of townhouse canopy photovoltaic module so that the more former canopy of generated energy has certain lifting, gene-ration revenue lifting.

Description

Photovoltaic townhouse canopy cooling system

Technical field

Agricultural greenhouse equipment technical field is the utility model is related to, specifically a kind of photovoltaic townhouse canopy cooling system.

Background technology

Currently, we have turned to green, efficient and energy-conserving and environment-protective to agriculture requirement from pursuit quantity and yield. Traditional agriculture operating mode is far from the needs for meeting era development.Agricultural demand industrialization, Green Development, it be unable to do without new The injection of fresh, vibrant capital.It can be said that the combination of photovoltaic and agricultural, is to speed up a big opportunity of green agriculture high-efficient development.

Photovoltaic agricultural greenhouse is currently in the booming stage, but photovoltaic and the case that agricultural is really combined are simultaneously few See, it is that agricultural greenhouse combines with photovoltaic surface power station " forcing " that we, which see current so-called photovoltaic agricultural, and photovoltaic does not have Substantial change is brought to agricultural production.It is not to piece together and should complement each other really to combine, fusion photovoltaic green-house knot Structure feature and the growth characteristics of crops, with reference to mechanization production, make agricultural production more intelligent, photovoltaic is not to producing and using Ground brings burden, mutually opposes that the growth of crop provides more preferable condition, temperature humidity, ventilation, controls irradiation, exactly because light It is more preferable to lie prostrate other industries relative with agriculture compatibility, realizes the effect of 1+1 >=2.

Planted under photovoltaic townhouse canopy canopy, ceiling arrangement battery component generates electricity, due to the negative temperature characteristic of photovoltaic module, temperature Higher, generated energy is lower, therefore, in order to ensure townhouse canopy inner assembly generated energy, it is necessary to which the temperature of control assembly is relatively low at one In the range of, that is, environment temperature will be also controlled in certain temperature in townhouse canopy, but current photovoltaic townhouse canopy does not possess The ability of photovoltaic module temperature can be adjusted.

The content of the invention

The utility model purpose is the system that can be cooled to the photovoltaic module on photovoltaic townhouse canopy, that is, provides one Kind photovoltaic townhouse canopy cooling system.

In order to achieve the above object, the utility model adopts the following technical scheme that：A kind of photovoltaic townhouse canopy cooling system, bag Include greenhouse steelframe, radiating circulator, circulating water pipe, temperature sensor, heat collector, photovoltaic module, control system, greenhouse steelframe court Photovoltaic module is fixedly connected with the top of positive side, the back side of photovoltaic module is provided with temperature sensor and heat collector, circulating water pipe One end connection heat collector other end connection radiating circulator, temperature sensor, radiating circulator are connected with control system respectively.

The heat collector includes the materials such as vacuum tube, quartzy sandpipe, stainless steel, copper pipe, aluminium alloy and is made.

Heat collector is not directly contacted with component, and its temperature 10-20 degree lower than assembly temperature, it is provided with 1- between component 2mm gap.

Radiating circulator one end is connected with heat collector, and its body is provided with radiating module, and described radiating module includes dissipating Backing radiating, evaporative heat loss, fan radiating, natural air cooled etc..

Whole system gathers photovoltaic component back plate temperature by heat collector, raises water temperature in thermal-collecting tube, when temperature raises To temperature sensor setting threshold values when, start radiating circulator.The water of high-temperature is delivered to by radiating by circulating water pipe Module, temperature is reduced using radiating module, the water of low temperature is delivered to module backside by radiating circulator by circulating water pipe Heat collector.Repeat the process of heating-radiating-heating-radiating, the high temperature of module backside is reduced.

The utility model is applied to glass greenhouse, and its photovoltaic module is arranged on the top of glass greenhouse, the inner side of glass, drop Warm system reduces the temperature of photovoltaic module in canopy, compared to the greenhouse of no cooling system, improves townhouse canopy photovoltaic module Generated output so that the more former canopy of generated energy has certain lifting, gene-ration revenue lifting, and the earning rate in overall power station is also accordingly lifted, Module backside temperature can be reduced to 10-20 °, system benefit lifting about 0.13%.

Mechanization, technicalization are also a big advantage of new canopy type, whole system automatic operating, when photovoltaic module back side temperature After degree rise to a certain extent, automated system operation, without manual intervention.

Brief description of the drawings

Fig. 1 the utility model overall structure cross section structure diagrams；

Fig. 2 is heat collector and photovoltaic module structure schematic diagram in Fig. 1.

In figure：1 greenhouse steelframe；2 radiating circulators；3 circulating water pipes；4 temperature sensors；5 heat collectors；6 photovoltaic modulies.

Embodiment

The utility model will be further described below in conjunction with the accompanying drawings.

A kind of photovoltaic townhouse canopy cooling system, including greenhouse steelframe 1, radiating circulator 2, circulating water pipe 3, temperature sensor 4th, heat collector 5, photovoltaic module 6, control system, greenhouse steelframe 1 are fixedly connected with photovoltaic module 6, photovoltaic at the top of the side of Chaoyang The back side of component 6 is provided with temperature sensor 4 and heat collector 5, and connection heat collector 5 other end connection radiating of the one end of circulating water pipe 3 follows Ring device 2, temperature sensor 4, radiating circulator 2 are connected with control system respectively.

The heat collector 5 includes the materials such as vacuum tube, quartzy sandpipe, stainless steel, copper pipe, aluminium alloy and is made.

Heat collector 5 is not directly contacted with photovoltaic module 6, the temperature of heat collector 5 10-20 degree lower than the temperature of photovoltaic module 6, thermal-arrest 1-2mm gap is left between device 5 and photovoltaic module 6.

Radiating one end of circulator 2 is connected with heat collector 5 by circulating water pipe 3,

Radiating circulator 2 is provided with radiating module, and described radiating module dissipates including fin radiating, evaporative heat loss, blower fan It is hot, natural air cooled.

Whole system gathers the backboard temperature of photovoltaic module 6 by heat collector 5, raises water temperature in heat collector 5, when temperature liter When the threshold values that up to temperature sensor 4 is set, start radiating circulator 2.The water of high-temperature is delivered to by circulating water pipe 3 Radiating module, temperature is reduced using radiating module, the water of low temperature is delivered to group by radiating circulator 2 by circulating water pipe 3 The heat collector 2 at the part back side.Repeat the process of heating-radiating-heating-radiating, the high temperature of module backside is reduced.

The utility model is applied to glass greenhouse, and its photovoltaic module is arranged on the top of glass greenhouse, the inner side of glass, drop Warm system reduces the temperature of photovoltaic module in canopy, compared to the greenhouse of no cooling system, improves townhouse canopy photovoltaic module Generated output so that the more former canopy of generated energy has certain lifting, gene-ration revenue lifting, and the earning rate in overall power station is also accordingly lifted, Module backside temperature can be reduced to 10-20 °, system benefit lifting about 0.13%.

Claims (4)

1. a kind of photovoltaic townhouse canopy cooling system, including greenhouse steelframe (1), it is characterised in that：Also include radiating circulator (2), Circulating water pipe (3), temperature sensor (4), heat collector (5), photovoltaic module (6), control system, greenhouse steelframe (1) Chaoyang side Top be fixedly connected with photovoltaic module (6), the back side of photovoltaic module (6) is provided with temperature sensor (4) and heat collector (5), followed Ring water pipe (3) one end connection heat collector (5) other end connection radiating circulator (2), temperature sensor (4), radiating circulator (2) It is connected respectively with control system.

2. photovoltaic townhouse canopy cooling system according to claim 1, it is characterised in that：Heat collector (5) and photovoltaic module (6) It is not directly contacted with, 1-2mm gap is left between heat collector (5) and photovoltaic module (6), heat collector (5) temperature compares photovoltaic module (6) the low 10-20 degree of temperature.

3. photovoltaic townhouse canopy cooling system according to claim 1, it is characterised in that：Radiate circulator (2) one end and collection Hot device (5) is connected by circulating water pipe (3).

4. photovoltaic townhouse canopy cooling system according to claim 1, it is characterised in that：The circulator (2) that radiates is provided with radiating Module.