CN204728589U - A kind of photovoltaic agricultural greenhouse snow removal system - Google Patents

Abstract

The utility model discloses a kind of snow removal system, belongs to photovoltaic art.Described agricultural greenhouse sunny side supports and supports lower than the back, the photovoltaic module being positioned at photovoltaic agricultural greenhouse top forms a downward-sloping inclined-plane, this system is provided with horizontal gas main along its length on photovoltaic agricultural greenhouse, horizontal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the longitudinal flexible pipe one end arranged along photovoltaic agricultural greenhouse inclined plane, other one end shutoff of longitudinal flexible pipe, longitudinal flexible pipe both sides are provided with gas outlet at regular intervals.This snow removal system can not cause any damage of photovoltaic module, can the generating of recovery component at short notice, can avoid the unsafe factor existed in artificial snow removing, improve the generated energy in winter.

Description

A kind of photovoltaic agricultural greenhouse snow removal system

Technical field

The utility model relates to a kind of snow removal system, and particularly a kind of photovoltaic agricultural greenhouse snow removal system, belongs to technical field of photovoltaic power generation.

Background technology

Namely photovoltaic agricultural greenhouse is a kind of green energy resource with the feature of environmental protection, reduce to pollute, the TRT of the novel sustainable development of environment protection, be both, again new growth engines is brought to agricultural production, development photovoltaic agricultural greenhouse develops as key project by country, all give with support to the industry of development photovoltaic green-house and subsidize, in order to obtain maximum generated energy, photovoltaic agricultural greenhouse is made as from the inclined plane north orientation south orientation according to the optimum embedding angle degree of photovoltaic module, but, in the north of China, winter is once snow, the cell panel on photovoltaic agricultural greenhouse will be covered, cell panel is difficult to see sunshine within a period of time, substantially the generating of solar panel can be stopped, and large accumulated snow also can cause booth stress load to increase, photovoltaic agricultural greenhouse is damaged, how to remove the accumulated snow be gathered on cell panel fast, up to the present, still not good solution, some of current appearance technical schemes given by automatic snow cleaner are also the frame for movement of installing bulky complex at booth top, this mode is not only invested greatly, install complicated, and in the process of clearing the snow, also easily cause the destruction of photovoltaic electrification component, affect the generating of whole photovoltaic array, so basic all utilizations are manually cleared up at present, labor cleaning one is that efficiency is low, time is long, two is the increases along with labor wage, cost of labor is more and more expensive, also have in artificial scale removal process, due to solar panel smooth surface, easily cause the accidents such as tumble injury, in scale removal process, artificial trampling cell panel can bring certain stress, the problems such as the destruction of assembly can be caused, how the snow removing of high efficiency, low cost be in photovoltaic green-house operation one expect the problem solved.

Summary of the invention

For the accumulated snow impact generating on photovoltaic agricultural greenhouse cell panel, artificial snow removing spended time is long, and has the problem of certain risk, and the utility model provides a kind of photovoltaic agricultural greenhouse snow removal system, its objective is to accelerate snow removing speed, reducing snow removing and bringing cost.

For realizing the purpose of this utility model, the technical solution adopted in the utility model is: a kind of photovoltaic agricultural greenhouse snow removal system, described agricultural greenhouse sunny side supports and supports lower than the back, the photovoltaic module being positioned at photovoltaic agricultural greenhouse top forms a downward-sloping inclined-plane, photovoltaic agricultural greenhouse is provided with horizontal gas main along its length, horizontal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the longitudinal flexible pipe one end arranged along photovoltaic agricultural greenhouse inclined plane, other one end shutoff of longitudinal flexible pipe, longitudinal flexible pipe both sides are provided with gas outlet at regular intervals, further, described horizontal gas main is arranged on photovoltaic agricultural greenhouse inclined-plane bottommost length direction, horizontal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the longitudinal flexible pipe arranged along photovoltaic agricultural greenhouse inclined plane, longitudinal flexible pipe position and photovoltaic component frame or edge to generate electricity the position consistency of blind area, longitudinal flexible pipe width is positioned within the overall width of two adjacent photovoltaic component frame overall widths or two adjacent photovoltaic module edge generating blind areas, further, longitudinal gas main is also provided with along photovoltaic agricultural greenhouse inclined plane, longitudinal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the horizontal flexible pipe one end arranged along photovoltaic agricultural greenhouse inclined plane, other one end shutoff of horizontal flexible pipe, horizontal flexible pipe both sides are provided with gas outlet at regular intervals, further, described longitudinal gas main is arranged on the most limit of photovoltaic agricultural greenhouse bevel direction, horizontal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the horizontal flexible pipe arranged along photovoltaic agricultural greenhouse inclined plane, horizontal flexible pipe position and photovoltaic component frame or edge to generate electricity the position consistency of blind area, horizontal flexible pipe width is positioned within the overall width of two adjacent photovoltaic component frame overall widths or two adjacent photovoltaic module edge generating blind areas, further, the gas outlet of described longitudinal flexible pipe is provided with tubular rivet, tubular rivet inner circumferential is equipped with elastic rubber tube, elastic rubber tube both ends diameter is greater than mid diameter, one end is positioned at inside flexible pipe, Expansion bar is equipped with in the middle of elastic rubber tube, elastic rubber tube periphery is provided with multiple inlet opening, multiple inlet opening communicates with Expansion bar, be positioned in the India rubber tube end circumference inside flexible pipe and be provided with air vent, the gas outlet of described horizontal flexible pipe is provided with tubular rivet, tubular rivet inner circumferential is equipped with elastic rubber tube, elastic rubber tube both ends diameter is greater than mid diameter, one end is positioned at inside flexible pipe, Expansion bar is equipped with in the middle of elastic rubber tube, elastic rubber tube periphery is provided with multiple inlet opening, multiple inlet opening communicates with Expansion bar, be positioned in the India rubber tube end circumference inside flexible pipe and be provided with air vent

The positive beneficial effect that the utility model has is: the utility model cost is low, install simple, the utility model is by longitudinal or/and horizontally set flexible pipe at photovoltaic cell component, flexible pipe is arranged hollow rivet, elastic rubber tube is worn in hollow rivet, can when snowy, hot gas is blown into horizontal and longitudinal flexible pipe by gas main, hot gas first can from the low side side blow gas on photovoltaic agricultural greenhouse inclined plane, because vertical and horizontal flexible pipe is positioned at photovoltaic module surface, covered the most beneath by crushing by snow, first be filled with water so the gas of blowout will contact photovoltaic module surface coverage snow melt, the water self that photovoltaic module melts can play the effect of lubricating fluid, because photovoltaic green-house end face is downward-sloping, the snow deposit covering photovoltaic surface can slide from booth top under the lubrication of photovoltaic module surface water, realize the efficient snow removing of photovoltaic module, because gas is from bottom to top, therefore, it is possible to from bottom to top melt accumulated snow, when accumulated snow melts below, top-down accumulated snow can be slided, the speed melted can be accelerated, by arranging horizontal flexible pipe on component framework or support, snow removing can be accelerated, can utilize horizontal flexible pipe that inlet opening is set by the periphery at elastic rubber tube, can, from inlet opening water inlet after snow melt becomes water, Expansion bar be expanded, by large for India rubber tube stay, with tubular rivet inner circumferential close contact, thus the venthole of shutoff elastic rubber tube periphery, the gas be blown into after the snow melt of bottom, booth top bevel, can be progressively directed to the eminence of longitudinal flexible pipe by this.When after the moisture evaporation drying in Expansion bar, shrink under the elastic force effect of rubber tube, return to the situation before Expansion bar expansion.Because native system makes the landing of snow nature by melting snow deposit bottommost, need not resemble artificial or machinery clears the snow time need to remove the accumulated snow of all volumes, so utilize this snow removal system to be melted by the accumulated snow on photovoltaic module in the short period of time, native system can not cause any damage of photovoltaic module, can the generating of recovery component at short notice, the unsafe factor existed in artificial snow removing can be avoided, improve the generated energy in winter.

Accompanying drawing explanation

Fig. 1 overall structure schematic diagram of the present utility model.

The structural representation at the hollow rivet place of Fig. 2 gas outlet.

The longitudinal profile structural representation of Fig. 3 elastic rubber tube.

Detailed description of the invention

In order to explain enforcement of the present utility model more fully, provide embodiment of the present utility model.These embodiments are only the elaborations to this device, do not limit scope of the present utility model.

Gas main in the utility model can select metal or macromolecule tubing, and flexible pipe of the present utility model can be nylon tube or fire main, and the Expansion bar in the utility model is the Expandable strip of water-swellable, and what can accommodate in market buys.

Be described with regard to the technical solution of the utility model referring to Fig. 1-Fig. 3, wherein, 1: booth sunny side support, 2: photovoltaic module, 3: photovoltaic component frame, 4: horizontal gas main, 5: longitudinal flexible pipe, 6: longitudinal gas main, 7: booth back support, 8: horizontal flexible pipe, 31: elastic rubber tube, 22: hollow rivet, 23: Expansion bar, 24: venthole, 24a: end venthole, 25a: medial end, 25b: outboard end, 30: inlet opening.

Concrete technical scheme of the present utility model is a kind of photovoltaic agricultural greenhouse snow removal system, wherein, Fig. 1 overall structure schematic diagram of the present utility model, in Fig. 1, between booth sunny side supports 1 and the booth back supports 7, the large ceiling of photovoltaic module is installed, 2 are depicted as a photovoltaic module, 3 frames being depicted as photovoltaic module, horizontal gas main 4 is arranged on photovoltaic agricultural greenhouse inclined-plane bottommost length direction, namely sunny side supports on 1, the setting of horizontal gas main should not cause shade on the electrification component of booth, horizontal gas main 4 offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the longitudinal flexible pipe arranged along photovoltaic agricultural greenhouse inclined plane, 5 are depicted as one of them longitudinal flexible pipe, the position of longitudinal flexible pipe and photovoltaic component frame, when adopting Rimless photovoltaic module, the edge encapsulation of photovoltaic module is formed with generating blind area, longitudinal flexible pipe width is positioned within the overall width of two adjacent photovoltaic component frame overall widths or two adjacent photovoltaic module edge generating blind areas, longitudinal gas main 6 is also provided with along photovoltaic agricultural greenhouse inclined plane, longitudinal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the horizontal flexible pipe one end arranged along photovoltaic agricultural greenhouse inclined plane, 6 are depicted as one of them horizontal flexible pipe, the same with longitudinal flexible pipe, other one end shutoff of horizontal flexible pipe, horizontal flexible pipe both sides are provided with gas outlet at regular intervals, longitudinal gas main is arranged on the most limit of photovoltaic agricultural greenhouse bevel direction, the gas outlet of horizontal flexible pipe and longitudinal flexible pipe is provided with tubular rivet 22, tubular rivet inner circumferential is equipped with elastic rubber tube 31, elastic rubber tube 31 both ends diameter is greater than mid diameter, one end of elastic rubber tube is positioned at inside flexible pipe, Expansion bar is equipped with in the middle of elastic rubber tube, elastic rubber tube 31 periphery is provided with multiple inlet opening, multiple inlet opening communicates with Expansion bar 23, be positioned in the India rubber tube end circumference inside flexible pipe and be provided with air vent.Fig. 2 is the structural representation at the hollow rivet place of gas outlet, and Fig. 3 is the longitudinal profile structural representation of elastic rubber tube.The gas outlet of described flexible pipe is provided with tubular rivet 22, tubular rivet 22 inner circumferential is equipped with elastic rubber tube 3, elastic rubber tube both ends diameter is greater than mid diameter, one end of elastic rubber tube 3 is positioned at inside flexible pipe 2, that is the diameter of the two ends medial end 25a and outboard end 25b of elastic rubber tube 3 is greater than the diameter in the middle of elastic rubber tube 31, give vent to anger to not affect, medial end 25a circumference along elastic rubber tube 31 is provided with multiple end venthole 24a, hot gas can eat air blowing from end venthole 24a, until rubber bar 23 expansion blockage venthole 24 position.In the middle of elastic rubber tube 3, be equipped with Expansion bar 23, elastic rubber tube 3 periphery is provided with multiple inlet opening 30, and multiple inlet opening 30 communicates with Expansion bar 23, and the India rubber tube end be positioned at inside flexible pipe 2 is provided with air vent 24a.The hot gas passing into the total gas of gas main in the utility model or have a uniform temperature can adopt mobile heating or heat exchange aerating apparatus to complete, mobile heating or heat exchange aerating apparatus move operation at each photovoltaic agricultural greenhouse, can effectively reduce the snow removal system cost of investment of single booth.

After detailed description embodiment of the present utility model, the personage being familiar with this technology can be well understood to, do not departing under above-mentioned claim and spirit and can carry out various change and amendment, all above embodiment is done according to technical spirit of the present utility model any simple modification, equivalent variations and modification, all belong to the scope of technical solutions of the utility model, and the utility model is not also limited to the embodiment of example in manual.

Claims (6)

1. a photovoltaic agricultural greenhouse snow removal system, described agricultural greenhouse sunny side supports and supports lower than the back, the photovoltaic module being positioned at photovoltaic agricultural greenhouse top forms a downward-sloping inclined-plane, it is characterized in that: on photovoltaic agricultural greenhouse, be provided with horizontal gas main along its length, horizontal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the longitudinal flexible pipe one end arranged along photovoltaic agricultural greenhouse inclined plane, other one end shutoff of longitudinal flexible pipe, longitudinal flexible pipe both sides are provided with gas outlet at regular intervals.

2. a kind of photovoltaic agricultural greenhouse snow removal system according to claim 1, it is characterized in that: described horizontal gas main is arranged on photovoltaic agricultural greenhouse inclined-plane bottommost length direction, horizontal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the longitudinal flexible pipe arranged along photovoltaic agricultural greenhouse inclined plane, longitudinal flexible pipe position and photovoltaic component frame or edge to generate electricity the position consistency of blind area, longitudinal flexible pipe width is positioned within the overall width of two adjacent photovoltaic component frame overall widths or two adjacent photovoltaic module edge generating blind areas.

3. a kind of photovoltaic agricultural greenhouse snow removal system according to claim 1, it is characterized in that: be also provided with longitudinal gas main along photovoltaic agricultural greenhouse inclined plane, longitudinal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the horizontal flexible pipe one end arranged along photovoltaic agricultural greenhouse inclined plane, other one end shutoff of horizontal flexible pipe, horizontal flexible pipe both sides are provided with gas outlet at regular intervals.

4. a kind of photovoltaic agricultural greenhouse snow removal system according to claim 3, it is characterized in that: described longitudinal gas main is arranged on the most limit of photovoltaic agricultural greenhouse bevel direction, horizontal gas main offers multiple connector of giving vent to anger, multiple connector of giving vent to anger is connected with the horizontal flexible pipe arranged along photovoltaic agricultural greenhouse inclined plane, horizontal flexible pipe position and photovoltaic component frame or edge to generate electricity the position consistency of blind area, horizontal flexible pipe width be positioned at two adjacent photovoltaic component frame overall widths or two adjacent photovoltaic module edge generate electricity blind area overall width within.

5. a kind of photovoltaic agricultural greenhouse snow removal system according to claim 1, it is characterized in that: the gas outlet of described longitudinal flexible pipe is provided with tubular rivet, tubular rivet inner circumferential is equipped with elastic rubber tube, elastic rubber tube both ends diameter is greater than mid diameter, elastic rubber tube one end is positioned at inside flexible pipe, Expansion bar is equipped with in the middle of elastic rubber tube, elastic rubber tube periphery is provided with multiple inlet opening, multiple inlet opening communicates with Expansion bar, is positioned in the India rubber tube end circumference inside flexible pipe and is provided with air vent.

6. a kind of photovoltaic agricultural greenhouse snow removal system according to claim 3, it is characterized in that: the gas outlet of described horizontal flexible pipe is provided with tubular rivet, tubular rivet inner circumferential is equipped with elastic rubber tube, elastic rubber tube both ends diameter is greater than mid diameter, elastic rubber tube one end is positioned at inside flexible pipe, Expansion bar is equipped with in the middle of elastic rubber tube, elastic rubber tube periphery is provided with multiple inlet opening, multiple inlet opening communicates with Expansion bar, is positioned in the India rubber tube end circumference inside flexible pipe and is provided with air vent.