CN102544193B - The installation method of solar module - Google Patents

The installation method of solar module Download PDF

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Publication number
CN102544193B
CN102544193B CN201010604188.2A CN201010604188A CN102544193B CN 102544193 B CN102544193 B CN 102544193B CN 201010604188 A CN201010604188 A CN 201010604188A CN 102544193 B CN102544193 B CN 102544193B
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China
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solar module
glass fiber
fiber composite
composite cloth
polymer glass
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CN201010604188.2A
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Chinese (zh)
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CN102544193A (en
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沙嫣
沙晓林
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沙嫣
沙晓林
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy
    • Y02P70/521

Abstract

The invention provides a kind of installation method of solar module, solar module is arranged on one deck high polymer glass fiber composite cloth by the method, then is arranged on fixing body by this high polymer glass fiber composite cloth.This method is installed simple, reduces installation cost.

Description

The installation method of solar module

Technical field

The present invention relates to area of solar cell, particularly relate to a kind of installation method of solar module.

Background technology

Solar energy is more and more valued by the people as a kind of energy of clean environment firendly, and solar cell power generation technology also obtains fast development.

How making solar cell be applied more easily is the problem that the producer is considering always.And alleviate the weight of solar module, be a kind of very important approach making it be used widely.Applicant is at number of patent application: apply for a kind of lightweight in the Chinese patent of 200910046537.0, single-glass hull cell that cost is low.Thus greatly reduce the weight of solar module.

Present most solar module is all carry out support film battery to gather light by support, and support not only increases cost and mounting cost.And total weight when adding the application of solar module, thus the load-bearing of solar module fixing body is had high requirements.Therefore, for roof, the relatively weak fixing body of these load-bearing of ceiling can not be suitable for.

How abandoning support, solar module is better applied in roof, ceiling, building facade, or directly applied on the ground by solar module, is a problem needing to solve

Summary of the invention

For the problems referred to above, the invention provides a kind of installation method of solar module, this installation method solves has abandoned mounting bracket, alleviates the load-bearing of fixing body, reduces installation cost and expense.

The present invention is achieved in that

An installation method for solar module, comprises the following steps:

(1) one deck high polymer glass fiber composite cloth is bonded at the shady face of solar module, form the solar module with high polymer glass fiber composite cloth, wherein, solar module connect the sensitive surface that electric box is positioned at solar module, the high polymer layer of described high polymer glass fiber composite cloth and the shady face of solar module bonding, the edge of described high polymer glass fiber composite cloth is all greater than the edge of solar module;

(2) solar module with high polymer glass fiber composite cloth obtained by step (1) is pasted onto on fixing body, wherein, upward, the glass layer of high polymer glass fiber composite cloth and fixing body bond the sensitive surface of solar module;

(3) jointing edge that adjacent two panels has the solar module of high polymer glass fiber composite cloth is sealed.

In step (2), comprise the following steps:

(2a) in the vertical direction, adopt the mode be set with up and down, the lower limb with the high polymer glass fiber composite cloth of the solar module of high polymer glass fiber composite cloth being positioned at top is pressed on the lower limb with the high polymer glass fiber composite cloth of the solar module of high polymer glass fiber composite cloth being positioned at below;

(2b), in horizontal direction, left and right two panels had the solar module laid parallel of high polymer glass fiber composite cloth.

Further, the lower limb of described high polymer glass fiber composite cloth is simple high polymer layer.

Said method, also comprises:

(4) have high polymer glass fiber composite cloth solar module jointing edge place high polymer glass fiber composite cloth on, press press strip selectively, press strip intersects mutually, form grid, wherein, each grid comprises the solar module that at least one has high polymer glass fiber composite cloth;

(5) four of each grid angles are fixed on fixing body.

In said method, described solar module comprises crystal silicon battery, and backboard is the double glazing hull cell of glass, and backboard is the single-glass hull cell of resin.

Described terminal box is rectangle structure, and is arranged on the edge of the solar module with high polymer glass fiber composite cloth.

Present invention also offers the installation method of another kind of solar module, comprise the following steps:

(1) on the high polymer layer of high polymer glass fiber composite cloth, paste some installing racks, the arrangement of installing rack and spacing are determined by the number and specification needing solar module to be installed;

(2) at least one piece of solar module is arranged on described installing rack;

(3) according to the concrete shape of fixing body, determine to need to use the block number being provided with the high polymer glass fiber composite cloth of solar module, and each piece of high polymer glass fiber composite cloth is installed the sheet number of solar module;

(4) high polymer glass fiber composite cloth each piece being provided with solar module is pasted onto on fixing body, wherein, upward, the glass layer of high polymer glass fiber composite cloth and fixing body bond the sensitive surface of solar module;

(5) adjacent two pieces of jointing edges being provided with the high polymer glass fiber composite cloth of solar module are sealed.

Said method, also comprises:

(6) at the jointing edge place of high polymer glass fiber composite cloth being provided with solar module, press press strip selectively, press strip intersects mutually, form grid, wherein, each grid comprises the high polymer glass fiber composite cloth that at least one piece is provided with solar module;

(7) four of each grid angles are fixed on the upper of fixing body.

Further, described solar module comprises crystal silicon battery, and backboard is the double glazing hull cell of glass, and backboard is the single-glass hull cell of resin.

Described terminal box is rectangle structure, and is arranged on the edge of solar module.

Described installing rack comprises pad and briquetting, described pad has certain thickness and certain bond area, described pad is pasted onto on the high polymer layer of high polymer glass fiber composite cloth, described briquetting is screwed on pad, described briquetting has the opening of adjustable size, to be embedded wherein at the edge of solar module and to fix.

Alternatively, described installing rack comprises briquetting and one from bottom to top through the countersunk head screw of briquetting, the head of described countersunk head screw and the bottom surface of briquetting form a plane, the high polymer layer of this plane and high polymer glass fiber composite cloth is pasted together, described fixing body also comprises a bolt matched with countersunk head screw to regulate the size of briquetting opening, so that install solar module.

Alternatively, described installing rack comprises pad and briquetting, described pad is the hollow-core construction of "Ji" type, it comprises the hollow body of certain height that arches upward and has the adhesion side of certain area, described adhesion side is pasted onto on the high polymer layer of high polymer glass fiber composite cloth, described briquetting is screwed on the hollow body of pad, and described briquetting has the opening of adjustable size, to be embedded wherein at the edge of solar module and to fix.

Beneficial effect of the present invention is: adopt non-stent mounting means, greatly reduce the requirement to fixing body weight capacity, thus expand the range of application of solar cell; Introduce flexible, flexible composite material, both facilitated installation, alleviated weight, fixing body can be made again to be incubated, waterproof simultaneously, and fire prevention is anti-aging; This method can according to the shape of fixing body, and on-site specific environment carrys out the optimal mounting means of unrestricted choice, facilitates application, and installation process is convenient and simple simultaneously, reduces installation cost and expense.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the solar module with high polymer glass fiber composite cloth;

Fig. 2 is that two panels has the schematic diagram that the solar module vertical direction of high polymer glass fiber composite cloth superposes;

Fig. 3 is the schematic diagram after installing according to the solar module installation method of embodiment one;

Fig. 4 is the schematic diagram be arranged on by some solar modules on one piece of high polymer glass fiber composite cloth;

Fig. 5 is the first execution mode of installed part;

Fig. 6 is the second execution mode of installed part;

Fig. 7 is the third execution mode of installed part.

Embodiment

The present invention can be described in further details by following embodiment, shown in Fig. 1-Fig. 7.

Embodiment one:

An installation method for solar module, comprises the following steps:

(1) one deck high polymer glass fiber composite cloth 20 is bonded at the shady face of solar module 10, form the solar module 30 with high polymer glass fiber composite cloth, as shown in Figure 1, wherein, solar module 10 connect the sensitive surface that electric box 11 is positioned at solar module 10, the high polymer layer 21 of described high polymer glass fiber composite cloth 20 is bonding with the shady face of solar module 10, and the edge of described high polymer glass fiber composite cloth 20 is all greater than the edge of solar components 10;

(2) solar module 30 with high polymer glass fiber composite cloth obtained by step (1) is pasted onto on fixing body, wherein, upward, glass layer 22 and the fixing body of high polymer glass fiber composite cloth 20 bond the sensitive surface of solar module 10;

(3) jointing edge that adjacent two panels has the solar module 30 of high polymer glass fiber composite cloth is sealed.

In step (1), fixing body can be ground, roof, ceiling, or building facade etc. needs the place being applied to solar cell.

Described solar module 10 can be crystal silicon battery, also can be hull cell.Further, the double glazing hull cell of both can be backboard be glass also can be backboard is the single-glass hull cell of resin.

Described high polymer glass fiber composite cloth 20 is flexible, flexible, and should possess the function of anti-aging, waterproof, fire prevention, insulation, meets the requirement using more than 20 years out of doors.In the present embodiment, employing be that layer of PVC adds glass layer, EVA layer can certainly be adopted to add other satisfactory composite materials such as glass layer.

Preferably, described in connect electric box 11 for strip, be arranged on the edge of the solar module 30 with high polymer glass fiber composite cloth.

It is pointed out that for solar module 10 to be the situation of hull cell, in order to prevent short circuit, after needing to remove the conductive layer in hull cell, Cai drawn by wire.

The mode of bonding can, being apply one deck EVA or other cohesive materials between the shady face and the high polymer layer 21 of high polymer glass fiber composite cloth 20 of solar module 10, by the method for heated lamination, make the two be bonded together.Also the high polymer layer 21 of the shady face of solar module 10 and high polymer glass fiber composite cloth 20 directly can be bonded together by adhesive.

Preferably, removed by the glass layer 22 of the lower edge of high polymer glass fiber composite cloth 20, namely the lower limb of high polymer glass fiber composite cloth 20 is simple high polymer layer 22, as shown in Fig. 1, Fig. 2.

In step (2), comprise the following steps:

(2a) in the vertical direction, adopt the mode be set with up and down, the lower limb of the high polymer glass fiber composite cloth 20 being positioned at the solar module 30 with high polymer glass fiber composite cloth of top is pressed on the lower limb of the high polymer glass fiber composite cloth 20 of the solar module 30 with high polymer glass fiber composite cloth being positioned at below, as shown in Figure 2;

Adopt the mode of upper slice pressure sheet, make the gap at jointing edge place be down, thus rainwater or snow-broth can not be leaked have in the seam of solar module 30 of high polymer glass fiber composite cloth in two panels.

(2b), in horizontal direction, left and right two panels had solar module 30 laid parallel of high polymer glass fiber composite cloth.

In horizontal direction, employing level is put, and avoids the ponding problem that rugged seam place may be brought, seals jointing edge simultaneously, serve the effect of leakproof.

In step (3), adopt plastic welding gun sealing jointing edge.For the solar module 30 with high polymer glass fiber composite cloth being positioned at fixing body edge or ridge, fixing body edge or ridge can be wrapped by the part that its high polymer glass fiber composite cloth 20 is greater than solar module 10, then seal jointing edge with plastic welding gun.

Further, above-mentioned installation method also comprises:

(4) have high polymer glass fiber composite cloth solar module 30 jointing edge place high polymer glass fiber composite cloth 20 on, press press strip 40 selectively, press strip intersects mutually, form grid 50, wherein, each grid 50 comprises the solar module 30 that at least one has high polymer glass fiber composite cloth.As shown in Figure 3.

The array of the solar module 30 with high polymer glass fiber composite cloth of elaborating compresses grid, reinforcement effect can be played further.

The material of press strip 40 and the size of grid 50 can be determined according to the on-site specific environment of fixing body.Such as at blast, the place that crushing by snow is less, the press strip 40 of the aluminium matter that employing material is lighter or veneer material, and the density of grid 50 does not need too large yet.And at blast, the place that crushing by snow is larger, then adopt the press strip 40 of the iron and steel material quality that quality is larger, and the density of grid 50 is relatively larger.

It is pointed out that the size of each grid 50 might not be identical, can determine according to the concrete shape of fixing body, combine local crushing by snow simultaneously, weather environments such as blast and setting flexibly.

Further, above-mentioned installation method also comprises:

(5) four angles 51 of each grid 50 are fixed on fixing body.

Only four angles 51 of fixed mesh 50 can be avoided beating too much hole on fixing body, decrease the probability leaked.The solar module 30 with high polymer glass fiber composite cloth can be securely fixed on fixing body again simultaneously, moreover, be also convenient to install.

Here by screw or other modes, four angles 51 of each grid 50 can be fixed on fixing body, and carry out water-proofing treatment at the screw terminal position of screw.Can cover at screw terminal position or paste waterproof, fireproof material (as PVC), also can seal by plastic welding gun the object reaching waterproof.

Embodiment two:

An installation method for solar module, comprises the following steps:

(1) on the high polymer layer 21 of high polymer glass fiber composite cloth 20, paste some installing racks 70, the arrangement of installing rack 70 and spacing are determined by the number and specification needing solar module 10 to be installed;

(2) at least one piece of solar module 10 is arranged on described installing rack 70, as shown in Figure 4;

The number that solar module 10 is installed, determines according to the on-site specific environment of fixing body.At blast, the place that crushing by snow is less, a slice high polymer glass fiber composite cloth 20 can be installed several solar modules 10 more, otherwise, at blast, the place that crushing by snow is larger, a slice high polymer glass fiber composite cloth 20 should install several solar modules 10 less.

(3) according to the concrete shape of fixing body, determine to need to use the block number being provided with the high polymer glass fiber composite cloth 20 of solar module 10, and each piece of high polymer glass fiber composite cloth 20 is installed the sheet number of solar module 10;

(4) high polymer glass fiber composite cloth 20 each piece being provided with solar module 10 is pasted onto on fixing body, wherein, upward, glass layer 22 and the fixing body of high polymer glass fiber composite cloth 20 bond the sensitive surface of solar module 10;

(5) adjacent two pieces of jointing edges being provided with the high polymer glass fiber composite cloth 20 of solar module 10 are sealed.

In order to further reinforcing, the corner that every block is provided with the high polymer glass fiber composite cloth 20 of solar module 10 can be screwed.

For the high polymer glass fiber composite cloth 20 being provided with solar module 10 being positioned at fixing body edge or ridge, fixing body edge or ridge can be wrapped by the part that its high polymer glass fiber composite cloth 20 is greater than solar module 10, then seal jointing edge with plastic welding gun.

In step (1), described solar module 10 can be crystal silicon battery, also can be hull cell.Further, the double glazing hull cell of both can be backboard be glass also can be backboard is the single-glass hull cell of resin.

Described high polymer glass fiber composite cloth 20 is flexible, flexible, and should possess the function of anti-aging, waterproof, fire prevention, insulation, meets the requirement using more than 20 years out of doors.In the present embodiment, employing be that layer of PVC adds glass layer, EVA layer can certainly be adopted to add other satisfactory composite materials such as glass layer.

Preferably, described in connect electric box 11 for strip, be positioned at the edge of solar module 10.

It is pointed out that for solar module 10 to be the situation of hull cell, in order to prevent short circuit, after needing to remove the conductive layer in hull cell, Cai drawn by wire.

The mode of bonding can, being apply one deck EVA or other cohesive materials between the shady face and the high polymer layer 21 of high polymer glass fiber composite cloth 20 of solar module 10, by the method for heated lamination, make the two be bonded together.Also the high polymer layer 21 of the shady face of solar module 10 and high polymer glass fiber composite cloth 20 directly can be bonded together by adhesive.

As shown in Figure 5, described installing rack 70 comprises pad 71 and briquetting 72, described pad 71 is pasted onto on the high polymer layer 21 of high polymer glass fiber composite cloth 20, described briquetting 72 is fixed on pad 71 by screw 73, the opening of described briquetting 72 is adjustable, to be embedded wherein at the edge of solar module 10 and to fix.

Described pad 71 has certain thickness and certain bond area.The area of bonding is larger, then firmness is higher.Having certain thickness is then be convenient to install screw with fixing briquetting 72, simultaneously, pad 71 has certain thickness, can make there is certain distance between briquetting 72 mounted thereto and high polymer glass fiber composite cloth 20, namely the solar module 10 be arranged in briquetting 72 is made to have certain distance with high polymer glass fiber composite cloth 20, thus the heat radiation function that can acquire a certain degree.

Alternatively, as shown in Figure 6, described installing rack 70A comprises briquetting 72A and from bottom to top through the countersunk head screw 73A of briquetting 72A, the head of described countersunk head screw 73A and the bottom surface of briquetting 72A form a plane, and the high polymer layer 21 of this plane and high polymer glass fiber composite cloth 20 is pasted together.Described fixing body 70A also comprises a bolt 74A matched with countersunk head screw 73A to regulate the size of briquetting 72A opening, so that install solar module 10.

Alternatively, as shown in Figure 7, described installing rack 70B comprises a pad 71B and briquetting 72B, described pad 71B is the hollow-core construction of "Ji" type, comprise the hollow body 711B of certain height that arches upward, with the adhesion side 712B with certain area, described adhesion side 712B is pasted onto on the high polymer layer 21 of high polymer glass fiber composite cloth 20, described briquetting 72B is fixed on the hollow body 711B of pad 71B by screw 73B, the openings of sizes of described briquetting 72B is adjustable, to be embedded wherein at the edge of solar module 10 and to fix.

Aforesaid way is owing to have employed the structure of ducted body, pad 71B is made to be easier to have certain height, thus make the solar module 10 be arranged in briquetting 72B have larger distance with high polymer glass fiber composite cloth 20, reach better heat radiation function.

In practice, adopt which kind of execution mode, and in embodiment, the size of the adhesive surface that pad 71 and high polymer glass fiber composite cloth 20 bond, determines according to the on-site specific environment of fixing body.At blast, the place that crushing by snow is less, the adhesive surface bonded with high polymer glass fiber composite cloth 20 can be less, otherwise at blast, the place that crushing by snow is larger, the adhesive surface bonded with high polymer glass fiber composite cloth 20 should be larger.

In actual applications, the selection of pad 71 height, can determine according to the watt level of the on-site specific environment of fixing body and solar module 10.Less for sunshine, the situation that power is little, can select the pad 71 with lower height; And sufficient for sunshine, high-power situation, then should select the pad 71 with high height, is beneficial to heat radiation.

Further, above-mentioned installation method also comprises:

(6) at the jointing edge place of high polymer glass fiber composite cloth 20 being provided with solar module 10, press press strip 40 selectively, press strip intersects mutually, form grid 50, wherein, each grid 50 comprises the high polymer glass fiber composite cloth 20 that at least one piece is provided with solar module 10.

The array of the high polymer glass fiber composite cloth 20 being provided with solar module 10 of elaborating compresses grid, reinforcement effect can be played further.

The material of press strip 40 and the size of grid 50 can be determined according to the on-site specific environment of fixing body.Such as at blast, the place that crushing by snow is less, the press strip 40 of the aluminium matter that employing material is lighter or veneer material, and the density of grid 50 does not need too large yet.And at blast, the place that crushing by snow is larger, then adopt the press strip 40 of the iron and steel material quality that quality is larger, and the density of grid 50 is relatively larger.

It is pointed out that the size of each grid 50 might not be identical, can determine according to the concrete shape of fixing body, combine local crushing by snow simultaneously, weather environments such as blast and setting flexibly.

Further, above-mentioned installation method also comprises:

(7) four angles 51 of each grid 50 are fixed on fixing body.

Only four angles 51 of fixed mesh 50 can be avoided beating too much hole on fixing body, decrease the probability leaked.The high polymer glass fiber composite cloth 20 being provided with solar module 10 can be securely fixed on fixing body again simultaneously, moreover, be also convenient to install.

Here by screw or other modes, four angles 51 of each grid 50 can be fixed on fixing body, and carry out water-proofing treatment at the screw terminal position of screw.Can cover at screw terminal position or paste waterproof, fireproof material (as PVC), also can seal by plastic welding gun the object reaching waterproof.

Should be appreciated that the present invention can realize in other forms when not departing from its spirit and central feature.Therefore embodiment here and concrete execution mode are not schematically restricted, and the present invention is not limited in detailed description given here.

Claims (6)

1. an installation method for solar module, comprises the following steps:
(1) one deck high polymer glass fiber composite cloth is bonded at the shady face of solar module, form the solar module with high polymer glass fiber composite cloth, wherein, solar module connect the sensitive surface that electric box is positioned at solar module, the high polymer layer of described high polymer glass fiber composite cloth and the shady face of solar module bonding, the edge of described high polymer glass fiber composite cloth is all greater than the edge of solar module;
(2) solar module with high polymer glass fiber composite cloth obtained by step (1) is pasted onto on fixing body, wherein, upward, the glass layer of high polymer glass fiber composite cloth and fixing body bond the sensitive surface of solar module;
(3) seal the jointing edge that adjacent two panels has the solar module of high polymer glass fiber composite cloth, wherein, described jointing edge adopts plastic welding gun sealing; For the solar module with high polymer glass fiber composite cloth being positioned at fixing body edge, fixing body edge is wrapped by the part that its high polymer glass fiber composite cloth is greater than solar module, then seals jointing edge with plastic welding gun;
(4) have high polymer glass fiber composite cloth solar module jointing edge place high polymer glass fiber composite cloth on, press press strip selectively, press strip intersects mutually, form grid, wherein, each grid comprises the solar module that at least one has high polymer glass fiber composite cloth;
(5) four of each grid angles are fixed on fixing body;
In step (2), comprise the following steps:
(2a) in the vertical direction, adopt the mode be set with up and down, the lower limb with the high polymer glass fiber composite cloth of the solar module of high polymer glass fiber composite cloth being positioned at top is pressed on the top edge with the high polymer glass fiber composite cloth of the solar module of high polymer glass fiber composite cloth being positioned at below; The lower limb of described high polymer glass fiber composite cloth is simple high polymer layer;
(2b), in horizontal direction, left and right two panels had the solar module laid parallel of high polymer glass fiber composite cloth.
2. the method for claim 1, described solar module comprises crystal silicon battery, and backboard is the double glazing hull cell of glass, and backboard is the single-glass hull cell of resin.
3. method as claimed in claim 2, the described electric box that connects is rectangle structure, and is arranged on the edge of the solar module with high polymer glass fiber composite cloth.
4. an installation method for solar module, comprises the following steps:
(1) on the high polymer layer of high polymer glass fiber composite cloth, paste some installing racks, the arrangement of described installing rack and spacing are determined by the number and specification needing solar module to be installed;
(2) at least one piece of solar module is arranged on described installing rack;
(3) according to the concrete shape of fixing body, determine to need to use the block number being provided with the high polymer glass fiber composite cloth of solar module, and each piece of high polymer glass fiber composite cloth is installed the sheet number of solar module;
(4) high polymer glass fiber composite cloth each piece being provided with solar module is pasted onto on fixing body, wherein, upward, the glass layer of high polymer glass fiber composite cloth and fixing body bond the sensitive surface of solar module;
(5) seal adjacent two pieces of jointing edges being provided with the high polymer glass fiber composite cloth of solar module, wherein, described jointing edge adopts plastic welding gun sealing; For the solar module with high polymer glass fiber composite cloth being positioned at fixing body edge, fixing body edge is wrapped by the part that its high polymer glass fiber composite cloth is greater than solar module, then seals jointing edge with plastic welding gun;
(6) at the jointing edge place of high polymer glass fiber composite cloth being provided with solar module, press press strip selectively, press strip intersects mutually, form grid, wherein, each grid comprises the high polymer glass fiber composite cloth that at least one piece is provided with solar module;
(7) four of each grid angles are fixed on the upper of fixing body;
Wherein, described installing rack comprises pad and briquetting, described pad has certain thickness and certain bond area, described pad is pasted onto on the high polymer layer of high polymer glass fiber composite cloth, described briquetting is screwed on pad, described briquetting has the opening of adjustable size, to be embedded wherein at the edge of solar module and to fix;
Or, described installing rack comprises briquetting and one from bottom to top through the countersunk head screw of briquetting, the head of described countersunk head screw and the bottom surface of briquetting form a plane, the high polymer layer of this plane and high polymer glass fiber composite cloth is pasted together, described fixing body also comprises a bolt matched with countersunk head screw to regulate the size of briquetting opening, so that install solar module;
Or, described installing rack comprises pad and briquetting, described pad is the hollow-core construction of "Ji" type, it comprises the hollow body of certain height that arches upward and has the adhesion side of certain area, described adhesion side is pasted onto on the high polymer layer of high polymer glass fiber composite cloth, described briquetting is screwed on the hollow body of pad, and described briquetting has the opening of adjustable size, to be embedded wherein at the edge of solar module and to fix.
5. method as claimed in claim 4, described solar module comprises crystal silicon battery, and backboard is the double glazing hull cell of glass, and backboard is the single-glass hull cell of resin.
6. method as claimed in claim 5, the described electric box that connects is rectangle structure, and is arranged on the edge of solar module.
CN201010604188.2A 2010-12-21 2010-12-21 The installation method of solar module CN102544193B (en)

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