CN208489826U - A kind of border structure for solar double-glass assemblies - Google Patents

Abstract

The utility model relates to photovoltaic apparatus fields, and in particular to a kind of border structure for solar double-glass assemblies.The border structure includes frame ontology, and the frame ontology includes support plate, and first clamping plate and second clamping plate are extended in the first side of the support plate, forms card slot between the inner surface of first clamping plate and the inner surface of second clamping plate；Connecting plate is extended at the second side lower edge position of the support plate, the upper surface of the connecting plate and the second side of support plate form splicing overlapping area, and wherein the connecting plate of a frame and the splicing overlapping area of another frame match two frames.The border structure for solar double-glass assemblies can be realized frame production integrated with solar double-glass assemblies, i.e., its edge has installed the frame before solar double-glass assemblies are dispatched from the factory, to improve the working efficiency of field erected solar double-glass assemblies.

Description

A kind of border structure for solar double-glass assemblies

Technical field

The utility model relates to photovoltaic apparatus fields, and in particular to a kind of border structure for solar double-glass assemblies.

Background technique

Layer is all made of the component of the sandwich structure of glass material encapsulation, general solar double-glass assemblies before and after solar double-glass assemblies finger assembly The protection structure such as border structure is had no, component quadrangle is protected using Plastic protective corner, and the generally upper lower lock block of use is twisted when installation Tight installation.

Based on this structure, solar double-glass assemblies have following disadvantage: first, Plastic protective corner protection is not in place, solar double-glass assemblies are being installed When fragmentation risk it is high；Second, tightening installation using briquetting, installation is not convenient, needs to carry out for every component at the construction field (site) Positioning, and mounting means, turning round the degree of twisting etc. need to strictly be executed by standard, and installation error inevitably occurs in heavy workload, abnormal etc. to lead Later period operation maintenance is caused unnecessary risk occur；Third, tightening installation using briquetting, only pass through in briquetting for rubber sheet gasket EPDM Upper lower lock block compresses to fix solar double-glass assemblies, and after later period open air use, ageing of rubber causes briquetting installation to loosen, and seriously affects The bearing capacity of component.

Summary of the invention

In order to solve the deficiencies in the prior art, the utility model provides a kind of frame knot for solar double-glass assemblies Structure, the border structure for solar double-glass assemblies can be realized frame production integrated with solar double-glass assemblies, i.e., go out in solar double-glass assemblies Its edge has installed the frame before factory, to improve the working efficiency of field erected solar double-glass assemblies.

According to technical solution provided by the utility model, a kind of border structure for solar double-glass assemblies, the border structure Including frame ontology, the frame ontology includes support plate, and first clamping plate and are extended in the first side of the support plate Second splint forms card slot between the inner surface of first clamping plate and the inner surface of second clamping plate；Under the second side of the support plate Connecting plate is extended at marginal position, the upper surface of the connecting plate and the second side of support plate form splicing overlapping area.

Further, the inner surface of the first clamping plate and the inner surface of second clamping plate are recessed equipped with multiple tracks.

Further, to guide face is formed between first clamping plate elongated end, second is pressed from both sides at the middle part of the first clamping plate outer surface To guide face is formed between the elongated end of second clamping plate in the middle part of plate outer surface, the guide face makes the thickness of first clamping plate and second clamping plate Respectively middle part is gradually thinning to respective elongated end from it for degree.

Further, limit rib, the extension of the connecting plate are additionally provided in the second side of support plate in splicing overlapping area Limiting slot is formed on end face, wherein the limit rib of a frame matches two frames with the limiting slot of another frame.

Further, it is additionally provided with guiding rib at the second side upper marginal position of support plate in splicing overlapping area, it is described to lead It is the first guide surface to the lower surface of muscle, first guide surface makes the thickness of guiding rib from second side position to first The elongated end of guide surface is gradually reduced, and the upper surface of the connecting plate elongated end forms the to match with first guide surface Two guide surfaces.

Further, the frame ontology is L shape comprising connected the first frame and the second frame, first side The one side that frame is connected with the second frame is inclined-plane, and the one side that second frame is connected with the first frame is and first frame On the inclined-plane that matches of inclined-plane.

Further, the first clamping plate, second clamping plate and connecting plate are hollow structure.When use one in two frames The connecting plate of a frame and the splicing overlapping area of another frame match.

From the above it can be seen that the border structure provided by the utility model for solar double-glass assemblies and prior art phase Than having following advantages: first, L-shaped border structure can play good protection to the quadrangle of solar double-glass assemblies, reducing double glass The risk of module edge collision fragmentation；Second, during solar double-glass assemblies splicing, the company of the adjacent frame of adjacent solar double-glass assemblies Fishplate bar can firmly stack together, and facilitate the installation fixed routine of solar double-glass assemblies.Third, can be realized frame and double glass groups Part integration production, i.e., its edge has installed the frame before solar double-glass assemblies are dispatched from the factory, to improve field erected double The working efficiency of glass component.

Detailed description of the invention

Fig. 1 is the main view of the utility model.

Fig. 2 is the B-B direction schematic cross-sectional view of Fig. 1.

Fig. 3 is the part A enlarged structure schematic diagram of Fig. 2.

Fig. 4 is the spliced partial structure diagram of solar double-glass assemblies.

Fig. 5 is the C-C of Fig. 4 to schematic cross-sectional view.

1. support plate, 110. first frames, 111. inclined-planes, 120. second frames, 2. first clamping plates, 3. second clamping plates, 4. Card slot, 5. connecting plates, 6. splicing overlapping areas, 7. recess, 8. guide faces, 9. limit ribs, 10. limiting slots, 11. guiding ribs, 12. second Guide surface, 13. first guide surfaces, 14. connecting holes, 15. solar double-glass assemblies.

Specific embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, below in conjunction with specific embodiment, and Referring to attached drawing, the utility model is further described.Wherein identical components are presented with like reference characters.It needs Illustrate, word "front", "rear" used in the following description, "left", "right", "up" and "down" refer to the side in attached drawing To.The word "inner" used and "outside" refer respectively to the direction towards or away from geometric center of specific component.

For the border structure of solar double-glass assemblies, as shown in Figure 1, the border structure includes frame ontology, frame ontology institute It states as L shape, frame ontology includes connected the first frame 110 and the second frame 120, first frame 110 and the second frame 120 connected one sides are inclined-plane 111, and the one side that second frame 120 is connected with the first frame 110 is and first frame The inclined-plane 111 that inclined-plane 111 on 110 matches.

As shown in Fig. 2, 110 profile structure of the first frame is identical as second frame 120, it include support plate 1, The support plate 1 is axially extending along the first frame 110 or the second frame 120, is extended in the first side of the support plate 1 First clamping plate 2 and second clamping plate 3, form card slot 4 between the inner surface of first clamping plate 2 and the inner surface of second clamping plate 3, and described the The extending direction of one clamping plate 2 and the extending direction of second clamping plate 3 are parallel.

In order to increase the elasticity of first clamping plate 2 and second clamping plate 3, the edge of solar double-glass assemblies 15 is prevented to be placed in the card slot 4 Clamping plate is caused to damage in the process, as shown in Fig. 2, the middle part of 2 outer surface of the first clamping plate is to shape between 2 elongated end of first clamping plate At guide face 8, to guide face 8 is formed between the elongated end of second clamping plate 3 in the middle part of 3 outer surface of second clamping plate, the guide face 8 makes first Respectively middle part is gradually thinning to respective elongated end from it for clamping plate 2 and the thickness of second clamping plate 3.

As shown in figure 3, the edge of solar double-glass assemblies 15 can be placed in the card slot 4, and pass through structure glue for solar double-glass assemblies 15 edge is bonded together with the inner surface of first clamping plate 2 and the inner surface of second clamping plate 3.In order to improve adhesive strength, The inner surface of the first clamping plate 2 and the inner surface of second clamping plate 3 are equipped with multiple tracks recess 7, and high multiple tracks recess 7 can increase bonding Surface area improves adhesive strength.

In order to enable adjacent solar double-glass assemblies 15 can be stitched together securely, and as shown in Figure 4 and Figure 5, the support plate 1 Second side lower edge position at be extended with connecting plate 5, the upper surface of the connecting plate 5 and the second side of support plate 1 Splicing overlapping area 6 is formed, wherein the connecting plate 5 of a frame and the splicing overlapping area 6 of another frame match two frames, so that The connecting plate 5 of adjacent frame can stack together, realize splicing, and the connecting plate 5 with a thickness of 1 height of support plate Half, so that two 5 surfacings of connecting plate mutually to stack together.

Opposite sliding occurs between the adjacent frame to stack together in order to prevent, as shown in Fig. 3 ~ Fig. 5, splicing overlapping area It is additionally provided with limit rib 9 in the second side of 6 support plates 1, forms limiting slot 10 on the extension end face of the connecting plate 5；For Adjacent frame wherein the limit rib 9 of a frame is matched with the limiting slot 10 of another frame, and offers connecting hole on frame 14, it is corresponding with the cooperation of limit rib 9 and the adjacent frame of connection by the limiting slot 10 when adjacent frame is stitched together Connecting hole 14 realize opposite sliding occur between adjacent frame.

As shown in Fig. 3 ~ Fig. 5, it is extended at the upper marginal position of the second side of support plate 1 in splicing overlapping area 6 The lower surface of guiding rib 11, the guiding rib 11 is the first guide surface 13, and first guide surface 13 makes the thickness of guiding rib 11 Degree is gradually reduced from second side position to the elongated end of the first guide surface 13；The upper surface shape of 5 elongated end of connecting plate At the second guide surface 12 to match with first guide surface 13.When the connecting plate 5 of an adjacent frame wherein frame is caught in spelling When meeting overlapping area 6, the second guide surface 12 is capable of the first guide surface 13 contact of another frame guiding rib 11, at this point, described the One guide surface 13 plays guiding and position-limiting action to second guide surface 12.

In order to mitigate the weight of the frame, the first clamping plate 2, second clamping plate 3 and connecting plate 5 as shown in Figure 3 are Hollow structure.

It should be understood by those ordinary skilled in the art that: the foregoing is merely specific embodiment of the utility model and , it is not intended to limit the utility model, all any modifications within the purport of the utility model, made, change equivalent replacement Into etc., it should be included within the scope of protection of this utility model.

Claims (8)

1. a kind of border structure for solar double-glass assemblies, which is characterized in that the border structure includes frame ontology, the frame Ontology includes support plate (1), and first clamping plate (2) and second clamping plate (3) are extended in the first side of the support plate (1), the Card slot (4) are formed between the inner surface of one clamping plate (2) and the inner surface of second clamping plate (3)；The second side of the support plate (1) It is extended at lower edge position connecting plate (5), the upper surface of the connecting plate (5) and the second side of support plate (1) are formed and spelled Connect overlapping area (6).

2. as described in claim 1 be used for solar double-glass assemblies border structure, which is characterized in that the first clamping plate (2) it is interior The inner surface of surface and second clamping plate (3) is equipped with multiple tracks recess (7).

3. being used for the border structure of solar double-glass assemblies as described in claim 1, which is characterized in that first clamping plate (2) appearance Guide face (8) are formed between the elongated end of the middle part in face to first clamping plate (2), to second clamping plate (3) in the middle part of second clamping plate (3) outer surface Elongated end between formed guide face (8), the guide face (8) make the thickness of first clamping plate (2) and second clamping plate (3) from it respectively Middle part is gradually thinning to respective elongated end.

4. being used for the border structure of solar double-glass assemblies as described in claim 1, which is characterized in that support in splicing overlapping area (6) It is additionally provided in the second side of plate (1) limit rib (9), forms limiting slot (10) on the extension end face of the connecting plate (5), two Wherein the limit rib (9) of a frame matches frame with the limiting slot (10) of another frame.

5. being used for the border structure of solar double-glass assemblies as described in claim 1, which is characterized in that support in splicing overlapping area (6) It is additionally provided at the second side upper marginal position of plate (1) guiding rib (11), the lower surface of the guiding rib (11) is the first guiding Face (13), first guide surface (13) make the thickness of guiding rib (11) from second side position to the first guide surface (13) Elongated end be gradually reduced, the upper surface of connecting plate (5) elongated end, which is formed, to match with first guide surface (13) Second guide surface (12).

6. being used for the border structure of solar double-glass assemblies as described in claim 1, which is characterized in that the frame ontology is L shape, Including connected the first frame (110) and the second frame (120), what first frame (110) was connected with the second frame (120) It is on one side inclined-plane (111) that the one side that second frame (120) is connected with the first frame (110) is and first frame (110) inclined-plane (111) that the inclined-plane (111) on matches.

7. being used for the border structure of solar double-glass assemblies as described in claim 1, which is characterized in that the first clamping plate (2), second Clamping plate (3) and connecting plate (5) are hollow structure.

8. being used for the border structure of solar double-glass assemblies as described in claim 1, which is characterized in that when use one in two frames The connecting plate (5) of frame and splicing overlapping area (6) of another frame match.