CN207743912U - A kind of installation component for generating electricity on two sides photovoltaic module - Google Patents

Abstract

The utility model is related to a kind of installation components for generating electricity on two sides photovoltaic module, including hook, bottom girder and tensile member, one end of hook is connected on bottom girder, and the other end is connected on roof, one end of tensile member is connected on bottom girder, and double-side assembly is mounted on by briquetting and tensile member on roof；Bottom girder provides mounting surface for double-side assembly, links up with for overall structure to be connect with roofing.Advantage is：The utility model is by raising every row's double-side assembly relative to the height of roof mounting surface and inclination angle to realize that the stairstepping of double-side assembly array is arranged, the roof of module backside is injected in down suction between making light pass through component front and rear row, utilize the diffusing reflection of roofing, module backside light is set to generate electricity, to improve the generated energy and generating efficiency of system；The installation component can make the uniform light power generation of the double-side assembly back side and pull open front and rear row spacing and cause the increases of the materials such as purlin, effectively promote the utilization rate of roofing, increase the installed capacity of system.

Description

A kind of installation component for generating electricity on two sides photovoltaic module

Technical field

The utility model is related to a kind of installation components for generating electricity on two sides photovoltaic module.

Background technology

Solar cell module is the novel energy of a kind of cleaning, environmental protection, as the world for environment and reproducible wants It asks, new energy demand is continuously increased, and cleaning, environmentally friendly new energy increasingly show consequence.Especially traditional energy Source is by exhausted today, and for solar energy as a kind of important novel energy, development potentiality is huge.Solar cell module can It is widely used in the practical field such as illumination, heating, also can be used as electric energy storage, conversion, belong to cleaning, the environment-friendly novel energy.

Solar energy can be converted into electric energy by photovoltaic module, and environmental pollution will not be caused in power generation process, be one The environmentally protective production of energy device of kind.

Ensure that photovoltaic module steadily generates electricity outdoors, photovoltaic module need to be installed and be integrated into photovoltaic system.Conventional Photovoltaic module mostly uses nut or briquetting, is fixed in stent system；Common stent system, including cross-brace beam And longitudinal support beam, and the two interconnection, photovoltaic module is mostly supported with cross web form.If generating electricity on two sides photovoltaic module with This mode is installed, and after installation, the back side is inevitably blocked by rack beam or longeron, can so lead to its back side Generating efficiency is impacted.

Photovoltaic generating system is installed on the roofing of inclined color steel tile or tile roof, general component can be laid with along slope, If double-side assembly is installed in this way, module backside is unable to get suitable solar radiation, to which the back side can not light Power generation.For make module backside light generate electricity, generally require and component raised 0.3 meter or more, and need to pull open spacing between front and rear row, It improves materials and installation cost, waste valuable Roof Resources, and module backside in uniform light is also difficult to Ensure.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of for generating electricity on two sides photovoltaic module Installation component.

A kind of installation component for generating electricity on two sides photovoltaic module of the utility model, technical solution are：

A kind of installation component for generating electricity on two sides photovoltaic module, it is characterised in that：Including hook, bottom girder and stretch structure One end of part, the hook is connected on the bottom girder, and one end of the tensile member is connected on the bottom girder, double-side assembly Mounted on the other end of the tensile member；The bottom girder is used to provide a mounting surface for the double-side assembly, and the hook is used In overall structure is connected to position to be installed.

Wherein, the tensile member includes bottom girder installation section, support section, front-seat component installation section and heel row component Installation section；The bottom girder installation section is arranged in the bottom of the tensile member, is used to support the tensile member；After described The side at the top of the tensile member is arranged in row's component installation section, and the front row component installation section is arranged in the stretching The other side of the component close to bottom.

Wherein, the tensile member further includes strut, and the support section is obliquely arranged, and the strut is used to support The support section being obliquely installed.

Wherein, it is 50-100mm along the distance between installation section and the bottom girder after the component.

Wherein, the width of the front-seat component installation section and/or heel row component installation section is 50-70mm.

Wherein, the length of the support section meets following relationship：

B=(c+2d) × tan α+a；

Wherein：B is the length of support section, and c is the width of double-side assembly, and d is the width of component installation section, and α is group Angle between part and mounting surface (roofing), a be component after along the distance between installation section and bottom girder.

Wherein, it is bolted between the hook and roofing and between the hook and bottom girder.

Wherein, the hook includes the first hook and the second hook, passes through spiral shell between first hook and the second hook It tethers and connects.

Wherein, the installation component further includes briquetting connector, the front row component installation section and/or the heel row group Part installation section is connected the double-side assembly by the briquetting connector.

Wherein, the front-seat component installation section and/or heel row component installation section and the briquetting connector, double It is attached by bolt between the component of face.

The implementation of the utility model includes following technique effect：

The installation component for generating electricity on two sides photovoltaic module of the utility model by raise every row's double-side assembly relative to The height of roof mounting surface and inclination angle are to realize that the stairstepping of double-side assembly array is arranged, before so that sunray is passed through double-side assembly The roof of module backside is injected in down suction between heel row, using the diffusing reflection of roofing, module backside light is made to generate electricity, from And improve the generated energy and generating efficiency of system；And the installation component can raise the relative altitude of component, can make two-sided Module backside uniform light power generation, but need not pull open inter-module away from and cause the increases of the materials such as purlin, so as to effective Ground promotes the utilization rate of roofing, increases the installed capacity of system.

Description of the drawings

Fig. 1 is a kind of installation component structural schematic diagram for generating electricity on two sides photovoltaic module of the utility model.

Fig. 2 is that a kind of structure of the tensile member of installation component for generating electricity on two sides photovoltaic module of the utility model is shown It is intended to.

Specific implementation mode

The utility model is described in detail below in conjunction with embodiment and attached drawing, it should be pointed out that described Embodiment be intended merely to facilitate the understanding to the utility model, and do not play any restriction effect to it.

It is shown in Figure 1, a kind of installation component for generating electricity on two sides photovoltaic module provided in this embodiment, including hook 1, one end of bottom girder 2 and tensile member 3, the hook 1 is connected on the bottom girder 2, and the other end of the hook 1 is connected to room On top, one end of the tensile member 3 is connected on the bottom girder 2, and double-side assembly 4 is mounted on room by the tensile member 3 On top；The bottom girder 2 is used to provide mounting surface for the double-side assembly 4, and the hook 1 is used for overall structure and position to be installed It sets and is attached.The installation component for generating electricity on two sides photovoltaic module of the present embodiment is opposite by raising every row's double-side assembly 4 In the height of roof mounting surface and inclination angle to realize that the stairstepping of double-side assembly array is arranged, sunray is made to pass through double-side assembly The roof of module backside is injected in down suction between front and rear row, using the diffusing reflection of roofing, module backside light is made to generate electricity, To improve the generated energy and generating efficiency of system；And the installation component can make the uniform light power generation in the double-side assembly back side, Need not pull open again inter-module away from and cause the increases of the materials such as purlin, so as to effectively promote the utilization rate of roofing, increase The installed capacity of adding system.

Preferably, the tensile member 3 includes bottom girder installation section 31, support section 32, heel row component installation section 34 With front-seat component installation section 33；The bottom girder installation section 31 is arranged in the bottom of the tensile member 3, is used to support described Tensile member 3；The side at 3 top of the tensile member, the front row component peace is arranged in heel row component installation section 34 The other side in the tensile member 3 close to bottom is arranged in dress part 33.The present embodiment on tensile member 3 by being arranged heel row Component installation section 34 and front-seat component installation section 33, and by the setting of heel row component installation section 34 at 3 top of tensile member Side, and the other side in tensile member 3 close to bottom is arranged in front-seat component installation section 33, to make the present embodiment Double-side assembly can utilize the gradient of existing roofing to form stepped arrangement, the double-side assembly between making sunray pass through front and rear row Between down suction inject module backside roof, and using roofing diffusing reflection, make module backside light generate electricity.

Preferably, as shown in Fig. 2, the tensile member 3 further includes strut 35, and the support section 32 is obliquely set It sets, the strut 35 is used to support the support section 32 being obliquely installed.The present embodiment by by the support section 32 obliquely Setting, and by the way that strut 35 is arranged on tensile member 3, to support the support section 32 being obliquely installed, to increase installation The stability of component is waved when avoiding generating electricity on two sides component because by external force such as wind-force, improves generating efficiency, ensure that The safety used.

Preferably, the distance between heel row component installation section 33 and the bottom girder 2 are 50-100mm.More preferably Ground, the distance between heel row component installation section 33 and the bottom girder 2 75mm.

Preferably, the width of heel row component installation section 34 and/or the front-seat component installation section 33 is 50- 70mm.It is highly preferred that the width of heel row component installation section 34 and/or the front-seat component installation section 33 is 60mm. Preferably, the width ratio of heel row component installation section 34 and the front-seat component installation section 33 can be 0.5：5.

As shown in Fig. 2, the length of the support section 3 meets following relationship：

B=(c+2d) × tan α+a；

Wherein：B is the length of support section 3, and c is the width of double-side assembly 4, and d is heel row component installation section 34 with before The width of component installation section 33 is arranged, α is the angle between front-seat component installation section 33 and bottom girder installation section, and a is component Afterwards along the distance between installation section 33 and the bottom girder 2.

Specifically, the width c of double-side assembly 4 is 992mm, the width d of component installation section 34 and component installation section 33 It is 60mm, the angle α between component installation section 33 and horizontal plane is 10 °, front-seat component installation section 33 and the bottom girder 2 The distance between a be 75mm, then the length of support section 3 be 271mm.

As shown in Figure 1, passing through bolt between the hook 1 and roofing and between the hook 1 and the bottom girder 2 Connection.The present embodiment will be linked up with by using bolt and is attached with bottom girder with roofing and hook, in order to double-side assembly Disassembly and installation, consequently facilitating the repair and cleaning of double-side assembly.

As shown in Figure 1, the hook 1 includes the first hook 11 and the second hook 12, first hook 11 and second is hung It is bolted between hook 12.The present embodiment is set as the first hook 11 and second hook 12 by that will link up with, and makes first It is bolted between hook 11 and the second hook 12, in order to adjust the height of hook, further to adjust installation component Height, so as to which double-side assembly to be installed on to the roofing of any gradient by installation component provided in this embodiment.

Preferably, the installation component further includes component briquetting connector 5, heel row component installation section 34 and/or The front row component installation section 33 is connected the double-side assembly 4 by the briquetting connector 5.The present embodiment passes through rear Setting briquetting connector 5 between component installation section 34 and/or front-seat component installation section 33 is arranged, to ensure 4 energy of double-side assembly It is stably installed in support member 3.It is furthermore preferred that heel row component installation section 34 and/or the front-seat component installation It is attached by bolt between part 33 and the connector 5, double-side assembly 4, convenient for fine tuning component installation error.This implementation Example passes through heel row component installation section 34 and/or the front-seat component installation section 33 and the briquetting connector 5, double-side assembly The disassembly and installation in double-side assembly is coupled for by bolt between 4, consequently facilitating the repair and cleaning of double-side assembly.

Finally it should be noted that above example is only to illustrate the technical solution of the utility model, rather than to this reality With the limitation of novel protected range, although being explained in detail to the utility model with reference to preferred embodiment, this field it is general Lead to it will be appreciated by the skilled person that can be modified or replaced equivalently to the technical solution of the utility model, without departing from this The spirit and scope of utility model technical solution.

Claims (10)

1. a kind of installation component for generating electricity on two sides photovoltaic module, it is characterised in that：Including hook, bottom girder and tensile member, One end of the hook is connected on the bottom girder, and one end of the tensile member is connected on the bottom girder, double-side assembly peace Mounted in the other end of the tensile member；The bottom girder is used to provide mounting surface for the double-side assembly, and the hook is used for will Overall structure is connected to position to be installed.

2. a kind of installation component for generating electricity on two sides photovoltaic module according to claim 1, it is characterised in that：The drawing It includes bottom girder installation section, support section, front-seat component installation section and heel row component installation section to stretch component；The bottom girder peace Dress part is arranged in the bottom of the tensile member, is used to support the tensile member；Heel row component installation section is arranged Side at the top of the tensile member, the front row component installation section are arranged in the tensile member close to the another of bottom Side.

3. a kind of installation component for generating electricity on two sides photovoltaic module according to claim 2, it is characterised in that：The drawing It further includes strut to stretch component, and the support section is obliquely arranged, and the strut is used to support the support section being obliquely installed.

4. a kind of installation component for generating electricity on two sides photovoltaic module according to claim 2 or 3, it is characterised in that：Institute It is 50-100mm to state after front-seat component along the distance between installation section and the bottom girder.

5. a kind of installation component for generating electricity on two sides photovoltaic module according to claim 2 or 3, it is characterised in that：Institute The width for stating front-seat component installation section and/or heel row component installation section is 50-70mm.

6. a kind of installation component for generating electricity on two sides photovoltaic module according to claim 4, it is characterised in that：The branch The length of support part point meets following relationship：

B=(c+2d) × tan α+a；

Wherein：B be support section length, c be double-side assembly width, d be component installation section width, α be component with Angle between bottom girder, a be component after along the distance between installation section and bottom girder.

7. a kind of installation component for generating electricity on two sides photovoltaic module according to claim 2 or 3, it is characterised in that：Institute It states between hook and position to be installed and is bolted between the hook and bottom girder.

8. a kind of installation component for generating electricity on two sides photovoltaic module according to claim 7, it is characterised in that：The extension Hook includes the first hook and the second hook, is bolted between first hook and the second hook.

9. a kind of installation component for generating electricity on two sides photovoltaic module according to claim 2 or 3, it is characterised in that：Institute It further includes briquetting connector to state installation component, and the front row component installation section and/or heel row component installation section pass through The briquetting connector connects the double-side assembly.

10. a kind of installation component for generating electricity on two sides photovoltaic module according to claim 9, it is characterised in that：It is described Pass through spiral shell between front-seat component installation section and/or heel row component installation section and the briquetting connector, double-side assembly Bolt is attached.