CN209419531U - Briquetting in a kind of easily double glass photovoltaic modulies - Google Patents

Abstract

The utility model relates to briquettings in a kind of easily double glass photovoltaic modulies, including upper middle briquetting and lower middle briquetting, the upper middle briquetting is connect by bolt with lower middle briquetting, the section-bottom of the lower middle briquetting is symmetrically arranged with sliding rail, the section both ends of the upper middle briquetting are symmetrically arranged with upper clip arm, the upper clip arm is equipped with downward opening upper clip arm card slot, upper rubber pad is equipped in the upper clip arm card slot, the section both ends of the lower middle briquetting are symmetrically arranged with lower clip arm, the lower clip arm is equipped with opening up lower clip arm card slot, lower rubber pad is equipped in the lower clip arm card slot, the lower clip arm is additionally provided with through-hole, the through-hole is located at the inside of lower clip arm card slot.The utility model intensity is higher, and weight is lighter, and production cost is greatly saved.

Description

Briquetting in a kind of easily double glass photovoltaic modulies

Technical field

The utility model relates to photovoltaic technology field, and in particular to briquetting in a kind of easily double glass photovoltaic modulies.

Background technique

Photovoltaic is the abbreviation of solar photovoltaic generation system, is a kind of photovoltaic effect using solar cell semiconductor material It answers, solar radiation energy is converted to a kind of new power generating system of electric energy.With the development of society, traditional energy is more next It is fewer, and such as coal resource using when have a large effect to environment, therefore a kind of energy of the solar energy as Novel clean It is valued by people gradually and obtains biggish development result.

Photovoltaic module generally requires bracket when in use to fix, and photovoltaic module is often placed in house top when in use It on face or broad ground, and is inclination installation during installation, after adjacent two pieces of photovoltaic modulies are clamped and connected by middle briquetting It is fixed on bracket, installation is inconvenient and bracket only has supporting role, and when encountering strong wind, middle briquetting and photovoltaic module are easy quilt It blows off together.Existing middle briquette structure intensity is inadequate, and middle briquetting is easy to damage, and the chucking power of middle briquetting is inadequate, photovoltaic group Part easily therefrom falls off on briquetting, seriously affects the service life of photovoltaic plant, there are security risks, cause economic loss.

Utility model content

Purpose of the utility model is to overcome the above-mentioned shortcomings and provide briquettings in a kind of easily double glass photovoltaic modulies.

Purpose of the utility model is realized as follows:

Briquetting in a kind of easily double glass photovoltaic modulies, including upper middle briquetting and lower middle briquetting, the upper middle briquetting pass through Bolt is connect with lower middle briquetting, and the section-bottom of the lower middle briquetting is symmetrically arranged with sliding rail, and the sliding rail is L-type, it is described it is upper in The section both ends of briquetting are symmetrically arranged with upper clip arm, and the upper clip arm is equipped with downward opening upper clip arm card slot, the upper clip arm card Upper rubber pad is equipped in slot, the section both ends of the lower middle briquetting are symmetrically arranged with lower clip arm, and the lower clip arm is equipped with opening up Lower clip arm card slot, lower rubber pad is equipped in the lower clip arm card slot, the lower clip arm is additionally provided with through-hole, under the through-hole is located at The inside of clamp arm card slot.

Preferably, the upper middle briquetting lower end is symmetrically arranged with card base, and reinforcing rib is equipped on the inside of the upper end of the card base, described Briquetting is equipped with card slot in lower, and the card base is slided up and down along card slot inner wall.

Preferably, the upper rubber pad corresponds to upper clip arm card slot equipped with first through hole, and the lower rubber pad corresponds to lower clip arm Card slot is equipped with the second through-hole.

Preferably, the lower end surface of the upper rubber pad is evenly equipped with several upper latches, and the upper surface of the lower rubber pad is uniformly distributed There are several lower latches.

Preferably, the lower rubber pad is also vertically equipped with rib, and the rib is adjacent to card slot outer wall.

Preferably, the lower end surface of the upper clip arm is transversely provided with several upper grooves, and the upper surface of the lower clip arm is laterally set There are several lower grooves.

Preferably, the upper surface of the upper clip arm corresponds to upper clip arm groove and is equipped with protrusion.

Preferably, the sliding rail lower end tilts upwardly, and the inclination angle between the sliding rail lower end surface and horizontal plane is 9- 12°。

Preferably, it is additionally provided with reinforcement block on the outside of the lower clip arm, the reinforcement block is located at the upper surface of lower clip arm.

The beneficial effects of the utility model are:

The utility model structure is simple, easy for installation, and stability is strong, and lower middle briquetting is stuck in bracket, and structural strength is high, makes Middle briquetting and photovoltaic module facilitate installation, substantially increase the non-deformability of middle briquetting itself, effectively avoid middle briquetting The generation of deformation ensure that the raising of middle briquetting and photovoltaic module connectivity robustness；Effectively increase itself and photovoltaic module surface Frictional force；Using integrally formed aluminum profile, the via design of lower middle briquetting weight while proof strength is lighter, saves Cost.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the schematic diagram of upper middle briquetting；

Fig. 3 is the schematic diagram of lower middle briquetting.

Wherein: 1, upper middle briquetting；2, lower middle briquetting；3, bolt；4, sliding rail；5, upper clip arm；6, upper clip arm card slot；7, upper rubber Rubber mat；8, lower clip arm；9, lower clip arm card slot；10, lower rubber pad；11, through-hole；12, card slot；13, upper groove；14, lower groove； 15, upper latch；16, lower latch；17, first through hole；18, the second through-hole；19, raised；20, rib；21, card base；22, reinforce Muscle；23, reinforcement block.

Specific embodiment

Referring to Fig. 1 to Fig. 3, the utility model relates to briquettings in a kind of easily double glass photovoltaic modulies, including upper middle briquetting 1 With lower middle briquetting 2, the upper middle briquetting 1 is connect by bolt 3 with lower middle briquetting 2, and the section-bottom of the lower middle briquetting 2 is symmetrical Equipped with sliding rail 4, the sliding rail 4 is L-type, and 4 lower end of sliding rail tilts upwardly, between 4 lower end surface of sliding rail and horizontal plane Inclination angle be 9-12 °, sliding rail 4 correspond on the bracket of photovoltaic module and is equipped with sliding slot, the section both ends of the upper middle briquetting 1 are symmetrically set There is upper clip arm 5, the upper clip arm 5 is equipped with downward opening upper clip arm card slot 6, is equipped with upper rubber pad in the upper clip arm card slot 6 7, the section both ends of the lower middle briquetting 2 are symmetrically arranged with lower clip arm 8, and the lower clip arm 8 is equipped with opening up lower clip arm card slot 9, the lower clip arm card slot 9 is interior to be equipped with lower rubber pad 10, and the lower clip arm 8 is additionally provided with through-hole 11, and the through-hole 11 is located at lower folder The inside of arm card slot 9.

Upper middle 1 lower end of briquetting is symmetrically arranged with card base 21, and reinforcing rib 22 is equipped on the inside of the upper end of the card base 21, described Briquetting 2 is equipped with card slot 12 in lower, and the card base 21 is slided up and down along 12 inner wall of card slot.

The corresponding upper clip arm card slot 6 of the upper rubber pad 7 is equipped with first through hole 17, the corresponding lower clip arm card of lower rubber pad 10 Slot 9 is equipped with the second through-hole 18.Rubber pad 7 and lower rubber pad 10 stick into upper clip arm card slot 6 and lower clip arm card slot 9 respectively in convenience It is interior.

The lower end surface of the upper rubber pad 7 is evenly equipped with several upper latches 15, and the upper surface of the lower rubber pad 10 is evenly equipped with Several lower latches 16.Increase the friction between rubber pad and photovoltaic module.

The lower rubber pad 10 is also vertically equipped with rib 20, and the rib 20 is adjacent to the outer wall of card slot 12.Protect photovoltaic group The edge of part.

The lower end surface of the upper clip arm 5 is transversely provided with several upper grooves 13, if the upper surface of the lower clip arm 8 is transversely provided with Dry lower groove 14.Prevent rubber sheet gasket extrusion.

The upper surface of the upper clip arm 5 corresponds to upper clip arm card slot 6 and is equipped with protrusion 19.Increase the structural strength of upper clip arm.

Reinforcement block 23 is additionally provided on the outside of the lower clip arm 8, the reinforcement block 23 is located at the upper surface of lower clip arm 8.Reinforcement block The intensity of lower clip arm is increased, lower clip arm extrusion is prevented.

The installation method of the utility model is as follows:

First the sliding rail 4 of lower middle briquetting 2 is slid into the sliding slot of bracket, photovoltaic module is then lain in into lower rubber pad 10 On, then the card base of upper middle briquetting 1 filled in the card slot of lower middle briquetting 2, it is directed at threaded hole, tightens bolt.

In addition to the implementation, the utility model further includes having other embodiments, all to use equivalents or equivalent The technical solution that alternative is formed, should all fall within the protection scope of the utility model claims.

Claims (9)

1. briquetting in a kind of easily double glass photovoltaic modulies, it is characterised in that: including upper middle briquetting (1) He Xiazhong briquetting (2), institute It states middle briquetting (1) to connect by bolt (3) with lower middle briquetting (2), the section-bottom of the lower middle briquetting (2) is symmetrically arranged with cunning Rail (4), the sliding rail (4) are L-type, and the section both ends of the upper middle briquetting (1) are symmetrically arranged with upper clip arm (5), the upper clip arm (5) it is equipped with downward opening upper clip arm card slot (6), is equipped with upper rubber pad (7) in the upper clip arm card slot (6), the lower middle pressure The section both ends of block (2) are symmetrically arranged with lower clip arm (8), and the lower clip arm (8) is equipped with opening up lower clip arm card slot (9), institute It states in lower clip arm card slot (9) and is equipped with lower rubber pad (10), the lower clip arm (8) is additionally provided with through-hole (11), through-hole (11) position In the inside of lower clip arm card slot (9).

2. briquetting in a kind of easily double glass photovoltaic modulies according to claim 1, it is characterised in that: the upper middle briquetting (1) lower end is symmetrically arranged with card base (21), is equipped with reinforcing rib (22) on the inside of the upper end of the card base (21), the lower middle briquetting (2) Equipped with card slot (12), the card base (21) slides up and down along card slot (12) inner wall.

3. briquetting in a kind of easily double glass photovoltaic modulies according to claim 1, it is characterised in that: the upper rubber pad (7) corresponding upper clip arm card slot (6) are equipped with first through hole (17), and the lower rubber pad (10) corresponding lower clip arm card slot (9) is equipped with the Two through-holes (18).

4. briquetting in a kind of easily double glass photovoltaic modulies according to claim 1, it is characterised in that: the upper rubber pad (7) lower end surface is evenly equipped with several upper latches (15), and the upper surface of the lower rubber pad (10) is evenly equipped with several lower latches (16).

5. briquetting in a kind of easily double glass photovoltaic modulies according to claim 1 or 2, it is characterised in that: the lower rubber Rubber mat (10) is also vertically equipped with rib (20), and the rib (20) is adjacent to the outer wall of card slot (12).

6. briquetting in a kind of easily double glass photovoltaic modulies according to claim 1, it is characterised in that: the upper clip arm (5) lower end surface is transversely provided with several upper grooves (13), and the upper surface of the lower clip arm (8) is transversely provided with several lower grooves (14).

7. briquetting in a kind of easily double glass photovoltaic modulies according to claim 1, it is characterised in that: the upper clip arm (5) upper surface corresponds to upper clip arm card slot (6) and is equipped with raised (19).

8. briquetting in a kind of easily double glass photovoltaic modulies according to claim 1, it is characterised in that: the sliding rail (4) Lower end tilts upwardly, and inclination angle of the sliding rail (4) between lower end surface and horizontal plane is 9-12 °.

9. briquetting in a kind of easily double glass photovoltaic modulies according to claim 1, it is characterised in that: the lower clip arm (8) outside is additionally provided with reinforcement block (23), and the reinforcement block (23) is located at the upper surface of lower clip arm (8).