CN201918395U - Mounting structure for solar panel on inclined plane - Google Patents

Abstract

The utility model discloses a mounting structure for a solar panel on an inclined plane. The mounting structure comprises the inclined plane, a supporting body, the solar panel and a base frame, wherein the inclined plane is connected with the supporting body, a first limit body is arranged between the inclined plane and the base frame, the base frame is arranged between the inclined plane and the supporting body by the first limit body, a space used for holding the solar panel is arranged between the base frame and the inclined panel, and the solar panel is sandwiched between the base frame and the inclined plane. With the adoption of the base frame, the limit body is arranged on the inclined plane, the base frame is arranged on the inclined plane by the limit body, the solar panel is sandwiched between the inclined plane and the base frame, the inclined plane is connected with the supporting body, then the bottom of the base frame is supported by the supporting body, and the solar panel can be arranged without using bolts or screws and is limited by completely utilizing the self structure of each part, therefore, the solar panel is more simple and convenient to mount and dismount, the mounting steps are reduced, and the production efficiency is improved.

Description

The mounting structure of solar panels on the inclined-plane

Technical field

The utility model relates to a kind of technical field of application of solar panels, specifically is the mounting structure of solar panels on a kind of inclined-plane.

Background technology

At present, along with development of technology, the enhancing of people's awareness of saving energy, the application of heliotechnics are also more and more widely.Solar panels are the critical pieces in the Application of Solar Energy, and whether its installation makes things convenient for or the outbalance that whether reliably just seems.In the prior art, when need be installed in solar panels on the inclined-plane, usually can run into inconvenience for some.Such as on a kind of solar energy sense light, solar panels are mounted in the window of loam cake, by two frameworks solar panels are clamped, use bolt between these two frameworks, and then these two frameworks are installed on the window of loam cake with bolt, also there is following defective in this mounting structure: need repeatedly to use bolt or screw in the process that solar panels are installed, comparatively bother, and production efficiency is lower.

The utility model content

Technical problem to be solved in the utility model is, the mounting structure of solar panels on a kind of inclined-plane is provided, make solar panels can be comparatively convenient, fast, be installed on the inclined-plane efficiently.

For solving the problems of the technologies described above, the mounting structure of solar panels on the inclined-plane that the utility model provides, it comprises inclined-plane, supporter and solar panels, described inclined-plane is connected with supporter, it also comprises underframe, is provided with first limit body between described inclined-plane and the underframe, and described underframe is installed between inclined-plane and the supporter through first limit body, be provided with the space that is used for ccontaining solar panels between described underframe and the inclined-plane, described solar panels are clipped between underframe and the inclined-plane.

After adopting above structure, the mounting structure of solar panels compared with prior art has the following advantages on the utility model inclined-plane:

By a underframe, utilize then limit body is set on the inclined-plane, realized underframe is installed on the inclined-plane by limit body, solar panels then are clipped between inclined-plane and the underframe, the inclined-plane is with after supporter is connected, prop up the bottom of underframe by supporter, the installation that solar energy is done does not need to use bolt or screw, utilizes the self structure of each parts to carry out spacing fully, like this, the dismounting of solar panels is all easier, and the operation of the installation of reduction has also improved production efficiency.

As improvement, first limit body on the described inclined-plane is positioned at the inboard on inclined-plane.Owing to do not use bolt or screw, can make the outward appearance on inclined-plane also comparatively level and smooth like this, globality is also better.

As improvement, described underframe is installed between inclined-plane and the supporter through first limit body and is meant, described first limit body comprises slot and two blocks of guiding side plates that Open Side Down, described slot is positioned at the top on inclined-plane, described two blocks of guiding side plates lay respectively at position on the lower side, slot both sides, are equipped with breach between the end of described two blocks of guiding side plates and the inclined-plane; The top of described underframe is provided with raised line, and the both sides of described underframe are provided with projection; Described underframe is limited between two blocks of guiding side plates, and described raised line is inserted in the slot, and described projection is embedded in the breach, and the bottom and the supporter of described underframe offset.Underframe moves in the slot that the raised line that makes the underframe top is inserted in top, inclined-plane along two blocks of guiding side plates, and the projection of underframe both sides also just is against in the breach of guiding side plate below just, and this structure makes that the dismounting between underframe and the inclined-plane is all very easy.

Improve as another kind, the end face of described underframe is provided with concave station, and described solar panels are clipped between underframe and the inclined-plane and are embedded on the concave station.Like this, the installation of solar panels is given to rationally.

As further improvement, supporter is provided with underframe is carried out the second spacing limit body.Second limit body can further strengthen the installation stability of underframe.

As in further improvement, described second limit body is two guide vane end stops; The bottom of described underframe is provided with back-up block; Described back-up block is stuck between two guide vane end stops.Perfect as such scheme, this structure is very simple, practicality.

Description of drawings

Fig. 1 is the cutaway view of the mounting structure embodiment of solar panels on the utility model inclined-plane;

Fig. 2 is the structural representation of loam cake among the mounting structure embodiment of solar panels on the utility model inclined-plane;

Fig. 3 is the structural representation of underframe among the mounting structure embodiment of solar panels on the utility model inclined-plane;

Fig. 4 is the structural representation of another angle of underframe among the mounting structure embodiment of solar panels on the utility model inclined-plane;

Fig. 5 is the structural representation of supporter among the mounting structure embodiment of solar panels on the utility model inclined-plane;

Wherein, 1, inclined-plane; 2, supporter; 3, solar panels; 4, underframe; 4.1, raised line; 4.2, projection; 4.3, concave station; 4.4, back-up block; 4.5, flange; 4.6, the limit groove; 5, first limit body; 5.1, slot; 5.2, the guiding side plate; 5.3, breach; 6, second limit body; 7, loam cake; 7.1, window; 8, translucent cover; 8.1, block; 9, lamp door; 10, base.

Embodiment

Also be described in further details in conjunction with the accompanying drawings with structure of the present utility model concrete application in the solar energy sense light below as embodiment.

In conjunction with the accompanying drawings, above-mentioned solar energy sense light is mainly by loam cake 7, translucent cover 8, and lamp door 9, base 10 and solar energy 3 plates are formed, and according to conventional way, translucent cover 8 is enclosed within the lamp door 9, is installed in then on the base 10.

On being specifically related to the utility model inclined-plane in the mounting structure of solar panels, loam cake 7 is made up of six triangular ramps 1, supporter 2 is made of translucent cover 8 and lamp door 9, and loam cake 7 all is connected in a conventional manner with translucent cover 8 and lamp door 9, has realized that promptly inclined-plane 1 is connected with supporter 2.

For realizing technique effect of the present utility model, it also comprises underframe 4, be provided with first limit body 5 between inclined-plane 1 on the above-mentioned loam cake 7 and the underframe 4, underframe 4 is to be installed between inclined-plane 1 and the supporter 2 through first limit body 5, be provided with the space that is used for ccontaining solar panels 3 between underframe 4 and the inclined-plane 1, solar panels 3 just are clipped between underframe 4 and the inclined-plane 1.

In the present embodiment, first limit body 5 on the inclined-plane 1 is positioned at the inboard on inclined-plane 1, and promptly underframe 4 is installed in the inside of loam cake 7, therefore, for making solar panels 3 can accept illumination, on each inclined-plane 1 of loam cake 7, all have window 7.1, installation back solar panels 3 add blocks window 7.1.

Wherein, above-mentioned underframe 4 is meant through the concrete structure that first limit body 5 is installed between inclined-plane 1 and the supporter 2, first limit body 5 comprises slot 5.1 and two blocks of guiding side plates 5.2 that Open Side Down, slot 5.1 is positioned at the top on inclined-plane 1, here slot 5.1 is made of a swash plate and inclined-plane, and slot 5.1 just is meant gap between the two; Two blocks of guiding side plates 5.2 lay respectively at position on the lower side, slot 5.1 both sides, shown in the figure, slot 5.1 is positioned at the upper edge of window 7.1, and two blocks of guiding side plates 5.2 lay respectively at the both sides of window 7.1, is equipped with breach 5.3 between the end of two blocks of guiding side plates 5.2 and the inclined-plane 1; Corresponding with the structure of above-mentioned first limit body 5, be provided with the raised line 4.1 corresponding with slot 5.1 at the top of underframe 4, be provided with in the both sides of underframe 4 and the corresponding projection 4.2 of breach of the side plate end that leads; Underframe 4 just is limited between two blocks of guiding side plates 5.2, here, guiding side plate 5.2 except underframe 4 is played guiding and guide its upper end raised line 4.1 insert slot 5.1 on inclined-planes with and the projection 4.2 of both sides be embedded in the effect in the breach 5.3 of guiding side plate 5.2 ends, also play underframe is played the spacing effect of side direction, during installation, earlier solar panels 3 are clipped in underframe 4 and the below of underframe 4 by loam cake 7, move along guiding side plate 5.2, in raised line 4.1 was inserted in slot 5.1, described projection 4.2 was embedded in the breach 5.3.

For contacting between the slot 5.1 on the raised line 4.1 that prevents underframe 4 upper ends and the inclined-plane 1 too tight, underframe 4 can break away from smoothly with inclined-plane 1 when also being convenient to dismantle, upper end at underframe 4 also is provided with horizontal flange 4.5 except raised line 4.1, this flange 4.5 forms with platform the upper end of underframe 4, after underframe 4 installed, this platform was against the port of slot 5.1.

Still for the purpose that strengthens underframe 4 stability, the both sides that are positioned at raised line 4.1 in underframe 4 upper ends also are provided with limit groove 4.6, and after underframe 4 was in place, slot 5.1 side walls just in time were stuck in the above-mentioned limit groove 4.6.

On raised line 4.1 be that upper surface (promptly pressing close to the end face on inclined-plane 1) along underframe 4 extends to form, be positioned at raised line 4.1 rear sides in underframe 4 upper ends.

And then supporter 2 is connected with loam cake 7, make the connect installation of the existing solar panels 3 of cause for gossip of the bottom of underframe 4 and supporter 2.

For the installation that makes solar panels 3 is given to rationally, be provided with concave station 4.3 in the upper surface of underframe 4, because underframe 4 structures own are to determine according to the practical structures of solar panels 3, underframe 4 in the present embodiment is just elected rectangle as, so concave station 4.3 also just constitutes the depression of rectangular ring, like this, earlier solar panels 3 are embedded on the concave station 4.3, after the installation, be clipped in exactly between underframe 4 and the inclined-plane 1.

For further strengthening the installation reliability of underframe 4, on supporter 2, also be provided with underframe 4 is carried out the second spacing limit body 6.This second limit body 6 is two guide vane end stops, and in the present embodiment, the top of translucent cover 8 is provided with block 8.1, because the top of translucent cover 8 is lower than the upper end of lamp door 9 sidewalls, like this, block 8.1 forms two guide vane end stops, just second limit body 6 with the sidewall of lamp door 9; Be provided with back-up block 4.4 in the bottom of underframe 4; When underframe 4 offseted (being actually the top that is against translucent cover 8) with supporter 2, back-up block 4.4 just was stuck between two guide vane end stops just, carries out spacing to back-up block 4.4.It is more reliable that the installation of underframe 4 just seems.

In addition, other parts of solar energy sense light all adopt routine techniques in the present embodiment, do not relate to the utility model with the technical problem that solves, so be not repeated at this.

The foregoing description is preferred embodiment of the present utility model, can not regard the restriction to the utility model claim as.Concrete structure of the present utility model allows variation, and all use conventional meanses are done pro forma equivalence replacement and all dropped in the protection range of the present utility model.

Claims (6)

1. the mounting structure of solar panels on the inclined-plane, it comprises inclined-plane (1), supporter (2) and solar panels (3), described inclined-plane (1) is connected with supporter (2), it is characterized in that: it also comprises underframe (4), be provided with first limit body (5) between described inclined-plane (1) and the underframe (4), described underframe (4) is installed between inclined-plane (1) and the supporter (2) through first limit body (5), be provided with the space that is used for ccontaining solar panels (3) between described underframe (4) and inclined-plane (1), described solar panels (3) are clipped between underframe (4) and inclined-plane (1).

2. the mounting structure of solar panels on the inclined-plane according to claim 1 is characterized in that: first limit body (5) on described inclined-plane (1) is positioned at the inboard of inclined-plane (1).

3. the mounting structure of the solar panels on the inclined-plane according to claim 1 and 2, it is characterized in that: described underframe (4) is installed between inclined-plane (1) and the supporter (2) through first limit body (5) and is meant, described first limit body (5) comprises the slot that Open Side Down (5.1) and two blocks of guiding side plates (5.2), described slot (5.1) is positioned at the top of inclined-plane (1), described two blocks of guiding side plates (5.2) lay respectively at position on the lower side, slot (5.1) both sides, are equipped with breach (5.3) between the end of described two blocks of guiding side plates (5.2) and inclined-plane (1); The top of described underframe (4) is provided with raised line (4.1), and the both sides of described underframe (4) are provided with projection (4.2); Described underframe (4) is limited between two blocks of guiding side plates (5.2), and described raised line (4.1) is inserted in the slot (5.1), and described projection (4.2) is embedded in the breach (5.3), and the bottom of described underframe (4) and supporter (2) offset.

4. the mounting structure of solar panels on the inclined-plane according to claim 3 is characterized in that: the end face of described underframe (4) is provided with concave station (4.3), and described solar panels (3) are clipped between underframe (4) and inclined-plane (1) and are embedded on the concave station (4.3).

5. the mounting structure of solar panels on the inclined-plane according to claim 4 is characterized in that: supporter (2) is provided with underframe (4) is carried out spacing second limit body (6).

6. the mounting structure of solar panels on the inclined-plane according to claim 5 is characterized in that: described second limit body (6) is two guide vane end stops; The bottom of described underframe (4) is provided with back-up block (4.4); Described back-up block (4.4) is stuck between two guide vane end stops.

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