CN204928679U - Supporting structure and mounting system - Google Patents

Abstract

The utility model relates to a supporting structure and mounting system, include: two longitudinal rails and the n type structure that transverse guide constitutes, the longitudinal rail has the recess, be provided with in the recess and stop the structure. The utility model also discloses a supporting structure, include: two longitudinal rails and the n type structure that transverse guide constitutes, the longitudinal rail has the recess, be provided with in the recess and stop the structure. The utility model discloses a supporting structure and mounting system can improve the installation effectiveness when inclined plane installation photovoltaic module, reduce the installation jobs risk.

Description

Supporting structure and mounting system

Technical field

The utility model relates to a kind of supporting structure, particularly relates to a kind of supporting structure for inclined-plane installation photovoltaic component.The utility model also relates to a kind of mounting system for inclined-plane installation photovoltaic component.

Background technology

Single solar cell directly can not do power supply and use.Make power supply some cell series and parallels to be connected and be tightly packaged into assembly.Photovoltaic module (being also solar panel) is the core in solar power system, is also most important part in solar power system.Its effect converts solar energy into electrical energy, or be sent in storage battery and store, or promote loaded work piece.

At present at inclined plane installation photovoltaic components such as roofs, briquetting is usually adopted to install or guide rails assembling.When adopting briquetting mode installation photovoltaic component, usually start to install from inclined plane least significant end, the installation exercise time is long, and efficiency is low; And install and need personnel to exist in inclined-plane operation, there is certain installation risk; Installation process is unavoidably trampled above assembly, easily damages assembly; When adopting guide rail mode installation photovoltaic component, guide rail, without deceleration device, still needs artificial in inclined plane operation, there is certain installation risk; Installation process is unavoidably trampled above assembly, easily damages assembly; Installation effectiveness is still waited to improve.

Utility model content

The technical problems to be solved in the utility model is to provide one can improve installation effectiveness, reduces the supporting structure for inclined-plane installation photovoltaic component of installation exercise risk.The utility model additionally provides a kind of mounting system for inclined-plane installation photovoltaic component.

For solving the problems of the technologies described above, the supporting structure that the utility model provides comprises: the N-shaped structure that two longitudinal rails 2 and a cross slide way 1 form, described longitudinal rail has groove, barrier structure is provided with in described groove, described barrier structure comprises: at least one damping spring resiliency supported one baffle plate, this baffle plate side is provided with multiple damping ball.

The described supporting structure of further optimization, described cross slide way has groove, is provided with bolster in described groove.

The described supporting structure of further optimization, described bolster is cushion pad.

The described supporting structure of further optimization, described two longitudinal rails are set parallel to each other, and described cross slide way is arranged perpendicular to described longitudinal rail.

A kind of mounting system that the utility model also provides comprises the m type structure of many longitudinal rails and a cross slide way formation, described longitudinal rail has groove, barrier structure is provided with in described groove, described barrier structure comprises: at least one damping spring resiliency supported one baffle plate, and this baffle plate side is provided with multiple damping ball; But be not limited to described damping ball structure, other common structures that can produce resistance drop low photovoltaic module slip speed all can realize this barrier structure.

The described mounting system of further optimization, described cross slide way has groove, is provided with bolster in described groove.

The described mounting system of further optimization, is positioned at this outermost longitudinal rail in mounting system both sides and has a groove, and each longitudinal rail be positioned in the middle of this mounting system has two grooves, and two slot openings are arranged each other dorsad.

The described mounting system of further optimization, described bolster is cushion pad.

The described mounting system of further optimization, described many longitudinal rails are set parallel to each other, and described cross slide way is arranged perpendicular to described longitudinal rail.

The supporting structure that the utility model provides and mounting system use the slide rail of band damping, namely on slide rail, damping ball is housed, effective control assembly gliding speed, make photovoltaic module in the installation process of inclined plane, utilize self gravitation to prolong mounting guide rail to glide, when mounted assembly being inserted guide rail can fulfil assignment on top, inclined plane.Photovoltaic module installation effectiveness can be improved, avoid trampling assembly when installing, reduce installation exercise risk.

Accompanying drawing explanation

Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail:

Fig. 1 is the structural representation of the utility model supporting structure one embodiment.

Fig. 2 is the structural representation that the utility model carriage support unifies embodiment.

Fig. 3 is the structural representation of the utility model barrier structure one embodiment.

Embodiment

As shown in Figure 1, the supporting structure that the utility model provides comprises: the N-shaped structure that two longitudinal rails 2 and a cross slide way 1 form, two longitudinal rails 2 have groove, the slot opening of two longitudinal rails 2 is oppositely arranged, photovoltaic module 3 is by the grooves hold of two longitudinal rails 2, photovoltaic module 3 can slippage in the groove of two longitudinal rails 2, barrier structure is provided with in the groove of two longitudinal rails 2, as shown in Figure 3, described barrier structure comprises: at least one damping spring 5 resiliency supported one baffle plate 6, and this baffle plate side is provided with multiple damping ball 7; 8 is photovoltaic component frame; Cross slide way 1 also has groove, is provided with cushion pad in the groove of cross slide way 1, and two longitudinal rails 2 are set parallel to each other, and cross slide way 1 arranges 2 perpendicular to longitudinal rail.

The position set-up mode of two longitudinal rails 2 and cross slide way 1 has multiple choices, as long as ensure that photovoltaic module 3 can slippage and passable in the groove of two longitudinal rails 2.Such as, rhombus photovoltaic module 3, then two longitudinal rails 2 are set parallel to each other, as long as the angle that cross slide way 1 and longitudinal rail 2 are can ensure that rhombus photovoltaic module 3 can slippage in the groove of two longitudinal rails 2.

As shown in Figure 2, the mounting system that the utility model provides comprises the m type structure of many longitudinal rails 2 and a cross slide way formation, described longitudinal rail 2 has groove, barrier structure is provided with in described groove, as shown in Figure 3, described barrier structure comprises: at least one damping spring 5 resiliency supported one baffle plate 6, and it is photovoltaic component frame that this baffle plate side is provided with multiple damping ball 7,8; Described cross slide way 1 also has groove, bolster (cushion pad is provided with in described groove, such as rubber blanket), be positioned at the outermost longitudinal rail 2 in these mounting system both sides and there is a groove, the slot opening of the outermost longitudinal rail 2 in both sides is arranged in opposite directions, the each longitudinal rail 4 be positioned in the middle of this mounting system has two grooves, and two slot openings are arranged each other dorsad.The groove that opening between arbitrary neighborhood two longitudinal rails is arranged in opposite directions is preferably disposed on same level (being conducive to implementing to install); Described many longitudinal rails 2 are set parallel to each other, and described cross slide way 1 is arranged perpendicular to described longitudinal rail.

Below through the specific embodiment and the embodiment the utility model has been described in detail, but these are not formed restriction of the present utility model.When not departing from the utility model principle, those skilled in the art also can make many distortion and improvement, and these also should be considered as protection range of the present utility model.

Claims (10)

1. a supporting structure, comprising: the N-shaped structure of two longitudinal rails and a cross slide way composition, is characterized in that: described longitudinal rail has groove, be provided with barrier structure in described groove.

2. supporting structure as claimed in claim 1, is characterized in that: described barrier structure comprises: at least one damping spring resiliency supported one baffle plate, this baffle plate side is provided with multiple damping ball.

3. supporting structure as claimed in claim 1, is characterized in that: described cross slide way has groove, is provided with bolster in described groove.

4. supporting structure as claimed in claim 3, is characterized in that: described bolster is cushion pad.

5. supporting structure as claimed in claim 1, is characterized in that: described two longitudinal rails are set parallel to each other, and described cross slide way is arranged perpendicular to described longitudinal rail.

6. a mounting system, comprises the m type structure of many longitudinal rails and a cross slide way formation, it is characterized in that: described longitudinal rail has groove, be provided with barrier structure in described groove.

7. mounting system as claimed in claim 6, is characterized in that: described cross slide way has groove, is provided with bolster in described groove.

8. mounting system as claimed in claim 6, is characterized in that: be positioned at this outermost longitudinal rail in mounting system both sides and have a groove, and each longitudinal rail be positioned in the middle of this mounting system has two grooves, and two slot openings are arranged each other dorsad.

9. mounting system as claimed in claim 7, it is characterized in that: described barrier structure comprises: at least one damping spring resiliency supported one baffle plate, this baffle plate side is provided with multiple damping ball, and described bolster is cushion pad.

10. mounting system as claimed in claim 6, is characterized in that: described many longitudinal rails are set parallel to each other, and described cross slide way is arranged perpendicular to described longitudinal rail.