CN216380310U - Photovoltaic color steel tile structure assembly and photovoltaic building - Google Patents

Abstract

The utility model discloses a photovoltaic color steel tile structure assembly which comprises a tile body and a photovoltaic assembly, wherein a plurality of mounting groove wave crests protruding upwards are arranged on the upper surface of the tile body, each mounting groove wave crest extends longitudinally and is parallel to each other, the photovoltaic assembly is mounted between two adjacent mounting groove wave crests, the edges of two sides of the photovoltaic assembly are respectively connected with the two mounting groove wave crests, a plurality of curling wave crests protruding upwards are arranged between the two adjacent mounting groove wave crests, each curling wave crest extends longitudinally and is parallel to each other, a limiting clamp is mounted on each curling wave crest, the limiting clamp supports the lower edge of the photovoltaic assembly, and the mounting groove wave crests are higher than the curling wave crests. The photovoltaic module is transversely limited and longitudinally limited in the installation process, complex connecting and positioning parts are avoided, the structure and the installation process are simplified, and the material cost and the installation cost are greatly reduced. The utility model also discloses a photovoltaic building comprising the photovoltaic color steel tile structure assembly.

Description

Photovoltaic color steel tile structure assembly and photovoltaic building

Technical Field

The utility model relates to the field of photovoltaic equipment, in particular to a photovoltaic color steel tile structure assembly. Furthermore, the utility model also relates to a photovoltaic building comprising the assembly.

Background

Photovoltaic power generation technology is developed to the present, and the technology is mature day by day. With the continuous expansion of the market, the novel photovoltaic mode emerges endlessly, and the photovoltaic building integration is a common photovoltaic form. The photovoltaic building integration is a new concept of applying solar power generation, namely simply installing a solar photovoltaic power generation matrix on the outer surface of an envelope structure of a building to provide power.

In the prior art, the photovoltaic building integrated structure mounting modes are various, but most of the mounting modes have complex processes, high manufacturing cost and water leakage risks. Need aluminium alloy guide rail, briquetting, installation mounting fixture isotructure auxiliary material, greatly increased material cost and installation cost.

Therefore, how to provide a photovoltaic color steel tile structure assembly with reduced structure and low cost is a technical problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a photovoltaic color steel tile structure assembly, which avoids the use of complex connecting and positioning parts, simplifies the structure and the installation process, and greatly reduces the material cost and the installation cost. It is another object of the present invention to provide a photovoltaic building including the above assembly.

In order to solve the technical problem, the utility model provides a photovoltaic color steel tile structure assembly which comprises a tile body and a photovoltaic assembly, wherein a plurality of mounting groove wave crests protruding upwards are arranged on the upper surface of the tile body, the mounting groove wave crests extend longitudinally and are parallel to each other, the photovoltaic assembly is mounted between every two adjacent mounting groove wave crests, edges on two sides of the photovoltaic assembly are respectively connected with the two mounting groove wave crests, a plurality of curling wave crests protruding upwards are arranged between every two adjacent mounting groove wave crests, the curling wave crests extend longitudinally and are parallel to each other, limiting clamps are mounted on the curling wave crests and support the lower edge of the photovoltaic assembly, and the mounting groove wave crests are higher than the curling wave crests.

Preferably, a vertical partition plate is arranged at the top of the wave crest of the mounting groove, a horizontal wing plate is arranged above the partition plate, mounting grooves are formed in the wing plate and the top of the wave crest of the mounting groove on two sides of the partition plate, and the side edge of the photovoltaic module is inserted into the mounting groove.

Preferably, a structural sealant is filled between the mounting groove and the side edge of the photovoltaic module.

Preferably, the wave crest of the mounting groove, the partition plate and the wing plate are integrally bent and formed.

Preferably, three crimping wave crests are arranged between every two adjacent mounting groove wave crests, the crimping wave crests on the two sides are provided with the limiting clamps, and the crimping wave crests are sequentially provided with a plurality of the limiting clamps along the longitudinal direction.

Preferably, the top of the hemming wave crest is provided with an upward convex and longitudinally extending installation convex edge, the limiting clamp comprises a vertical limiting plate and a vertical positioning plate, the lower end of the limiting plate and the lower end of the positioning plate clamp the installation convex edge through a fastening piece, and the upper end of the limiting plate is abutted to the lower edge of the photovoltaic assembly.

Preferably, a horizontal limiting block is arranged at the upper end of the limiting plate, the limiting block is flush with the photovoltaic module, a bottom plate is arranged at the lower end of the limiting plate, and the bottom plate abuts against the top of the turned-up wave crest.

Preferably, the installation chimb is close to locating plate one side is provided with horizontal arch, the locating plate lower extreme is provided with the lock horizontal bellied recess, the locating plate upper end is provided with the roof, the roof with terminal surface reaches under the stopper limiting plate medial surface offsets.

Preferably, through holes are formed in the limiting plate and the positioning plate at opposite positions, and the fasteners are bolts penetrating through the through holes and matched nuts.

The utility model provides a photovoltaic building which comprises a photovoltaic color steel tile structure assembly.

The utility model provides a photovoltaic color steel tile structure assembly which comprises a tile body and a photovoltaic assembly, wherein a plurality of mounting groove wave crests protruding upwards are arranged on the upper surface of the tile body, each mounting groove wave crest extends longitudinally and is parallel to each other, the photovoltaic assembly is mounted between two adjacent mounting groove wave crests, the edges of two sides of the photovoltaic assembly are respectively connected with the two mounting groove wave crests, a plurality of curling wave crests protruding upwards are arranged between the two adjacent mounting groove wave crests, each curling wave crest extends longitudinally and is parallel to each other, a limiting clamp is mounted on each curling wave crest, the limiting clamp supports the lower edge of the photovoltaic assembly, and the mounting groove wave crests are higher than the curling wave crests.

Realize photovoltaic module's horizontal spacing through two mounting groove wave crests in the installation, simultaneously because the tile body has the slope, support photovoltaic module through spacing anchor clamps, prevent that photovoltaic module from gliding, realize vertically spacing, avoid using complicated connection positioning element, simplify structure and installation procedure, reduce material cost and installation cost greatly.

The utility model also provides a photovoltaic building comprising the photovoltaic color steel tile structure assembly, and the photovoltaic color steel tile structure assembly has the technical effects, so that the photovoltaic building also has the same technical effects, and the detailed description is omitted.

Drawings

Fig. 1 is a schematic structural view of an embodiment of a photovoltaic color steel tile structural assembly provided by the present invention;

FIG. 2 is a schematic cross-sectional view of a tile body in an embodiment of a photovoltaic color steel tile structural assembly provided by the present invention;

FIG. 3 is a partial enlarged view of a mounting groove peak in one embodiment of the photovoltaic color steel tile structure assembly provided by the present invention;

fig. 4 is a partially enlarged view of a limiting clamp in an embodiment of the photovoltaic color steel tile structure assembly provided by the utility model.

Wherein, 1, tile body; 2. a photovoltaic module; 3. mounting a groove wave crest; 31. a partition plate; 32. a wing plate; 4. curling wave crests; 41. installing a convex edge; 5. limiting the clamp; 51. a limiting plate; 52. positioning a plate; 53. a fastener; 6. and (4) structural sealant.

Detailed Description

The core of the utility model is to provide a photovoltaic color steel tile structure assembly, which avoids the use of complex connecting and positioning components, simplifies the structure and the installation process, and greatly reduces the material cost and the installation cost. Another core of the present invention is to provide a photovoltaic building comprising the above assembly.

In order that those skilled in the art will better understand the disclosure, the utility model will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 4, fig. 1 is a schematic structural diagram of an embodiment of a photovoltaic color steel tile structural assembly provided by the present invention; FIG. 2 is a schematic cross-sectional view of a tile body in an embodiment of a photovoltaic color steel tile structural assembly provided by the present invention; FIG. 3 is a partial enlarged view of a mounting groove peak in one embodiment of the photovoltaic color steel tile structure assembly provided by the present invention; fig. 4 is a partially enlarged view of a limiting clamp in an embodiment of the photovoltaic color steel tile structure assembly provided by the utility model.

The specific embodiment of the utility model provides a photovoltaic color steel tile structure assembly, which comprises a tile body 1 and a photovoltaic assembly 2, wherein the color steel tile with a specific shape is laid on a building at the position of the tile body 1, the photovoltaic assembly 2 is made of a plate-shaped material, a plurality of mounting groove wave crests 3 which are upwards protruded are arranged on the upper surface of the tile body 1, the mounting groove wave crests 3 longitudinally extend and are mutually parallel, when the tile body 1 has an inclined angle, the longitudinal direction is the up-down direction, namely, all the mounting groove wave crests 3 are arranged in sequence along the transverse direction, a plurality of curling wave crests 4 which are convex upwards are arranged between two adjacent mounting groove wave crests 3, all the curling wave crests 4 extend longitudinally and are parallel to each other, all the curling wave crests 4 are arranged in sequence along the transverse direction, and a spacing distance is arranged between every two wave crests, the mounting groove wave crest 3 is higher than the crimping wave crest 4, and the crimping wave crest 4 can not collide with a back plate of the photovoltaic assembly 2 when the photovoltaic assembly 2 is mounted.

Photovoltaic module 2 installs between two adjacent mounting groove crests 3, and two mounting groove crests 3 are connected respectively to photovoltaic module 2 both sides edge, and the distance between two adjacent mounting groove crests 3 is photovoltaic module 2's width promptly, can only set up two mounting groove crests 3 on every tile body 1, only installs a photovoltaic module 2, also can set up more mounting groove crests 3, installs more multiseriate photovoltaic module 2. And a limiting clamp 5 is arranged on the curling wave crest 4, and the limiting clamp 5 supports the lower edge of the photovoltaic module 2.

Realize photovoltaic module 2's horizontal spacing through two mounting groove wave crests 3 in the installation, simultaneously because tile body 1 has the slope, support photovoltaic module 2 through spacing anchor clamps 5, prevent that photovoltaic module 2 from gliding, realize vertically spacing, avoid using complicated connection positioning part, simplify structure and installation procedure, reduce material cost and installation cost greatly.

Specifically, for stable installation photovoltaic module 2, mounting groove crest 3 cross-section is trapezoidal, and mounting groove crest 3's top is provided with vertical baffle 31, and baffle 31 top is provided with horizontally pterygoid lamina 32, and pterygoid lamina 32 and mounting groove crest 3's top forms the mounting groove in baffle 31 both sides, forms the I-shaped groove structure promptly, must form two relative mounting grooves on two adjacent mounting groove crests 3, and photovoltaic module 2's both sides reason inserts the mounting groove respectively in, forms stable horizontal limit structure. The installation mode can also be adjusted according to the situation, such as arranging a bracket structure to be connected with the photovoltaic module 2.

Further, structural sealant 6 is filled between the mounting groove and the side edge of the photovoltaic module 2, gaps are filled, and waterproof and shockproof effects are achieved. Wherein, the installation groove wave crest 3, the clapboard 31 and the wing plate 32 are integrally bent and formed, and can be independently arranged and then assembled.

In the photovoltaic color steel tile structure assembly provided by the specific embodiment of the utility model, three crimping wave crests 4 are arranged between two adjacent mounting groove wave crests 3, the crimping wave crests 4 positioned at two sides are provided with the limiting clamps 5, the spacing and the number of the structures can be adjusted according to the specific size of the photovoltaic components 2, or the number of the limiting clamps 5 is adjusted according to the weight of the photovoltaic components 2, which are within the protection range of the utility model, when a plurality of photovoltaic components 2 are arranged in the same column, a plurality of limiting clamps 5 can be sequentially arranged on the crimping wave crests 4 along the longitudinal direction, so that the limiting clamps 5 in the same group are positioned at the same height to support the same photovoltaic component 2.

On the basis of the photovoltaic color steel tile structure assembly provided by each specific embodiment, the cross section of the curled edge wave crest 4 is trapezoidal, the top of the curled edge wave crest 4 is provided with an upward convex and longitudinally extending installation convex edge 41, the limiting clamp 5 comprises a vertical limiting plate 51 and a vertical positioning plate 52, the limiting plate 51 and the positioning plate 52 are oppositely arranged and connected through a fastener 53, the limiting plate 51 and the positioning plate 52 are buckled during installation to enable the lower ends of the limiting plate 51 and the positioning plate 52 to clamp the installation convex edge 41, the lower ends of the two plates clamp the installation convex edge 41 tightly by tightening the fastener 53, so that the limiting clamp 5 is fixed on the curled edge wave crest 4, the installation and the replacement are very simple, the installation position of the limiting clamp 5 can be adjusted as required, the applicability is improved, the upper end of the limiting plate 51 is abutted against the lower edge of the photovoltaic component 2 during use, and the supporting and limiting effect is achieved.

Specifically, limiting plate 51 upper end is provided with the horizontally stopper, above the stopper with photovoltaic module 2 above the parallel and level, the stopper terminal surface offsets with photovoltaic module 2 lower limb, increase area of contact provides the outrigger and prevents to damage photovoltaic module 2. Meanwhile, the lower end of the limiting plate 51 is provided with a bottom plate, the bottom plate abuts against the top of the turned-up wave peak 4, the stability of the whole part is improved, the top of the turned-up wave peak 4 is a plane, the installation convex edge 41 is only arranged at the central line position, the rest parts are still planes, the bottom surface of the bottom plate is stably contacted with the top plane of the turned-up wave peak 4, the limiting plate 51 is placed on a stable plane, the support is provided, and the limiting plate 51 is prevented from shaking. Preferably, one side of the mounting flange 41 close to the limiting plate 51 is a vertical plane, and is in stable contact with the side surface of the limiting plate 51, so that the stability is further improved. Make stopper and bottom plate all extend to the one side of keeping away from installation chimb 41, prevent to take place to interfere.

Further, one side of the mounting convex edge 41, which is close to the positioning plate 52, is provided with a transverse protrusion, the lower end of the positioning plate 52 is provided with a groove for fastening the transverse protrusion, the groove is matched with the shape of the transverse protrusion, the limiting plate 51 is attached to the plane of the mounting convex edge 41 during mounting, the groove of the positioning plate 52 is matched with the transverse protrusion, and then the lower ends of the limiting plate 51 and the positioning plate 52 are tightly wrapped on the mounting convex edge 41, so that the upper limit and the lower limit are realized, the contact area is increased, the friction force is improved, and the limiting clamp 5 is more stable. In addition, locating plate 52 upper end is provided with the roof, makes the stopper extend partly to one side that is close to installation chimb 41 simultaneously, and the terminal surface offsets under roof and the stopper, makes limiting plate 51 and locating plate 52 upper and lower rigidity, the gap can not appear, prevent to appear rocking after the installation is accomplished, and the roof offsets with limiting plate 51 medial surface simultaneously, guarantees the distance between limiting plate 51 and the locating plate 52, makes the distance between the two keep unanimous from top to bottom, avoids tightening up the lower extreme perk of two plates of in-process.

Specifically, the cross section of the transverse protrusion may be an inverted triangle, or may be in other shapes, the transverse protrusion, the mounting flange 41 and the crimping peak 4 are integrally bent, or may be in other connection manners, for example, a slot is formed in the crimping peak 4, and the lower end of the limiting member is inserted into the slot.

Preferably, the middle of the limiting plate 51 and the middle of the positioning plate 52 are provided with through holes, the fastening member 53 is a bolt and a matched nut penetrating through the through holes, and the bolt may be an inner hexagon bolt, or may adopt other connection methods, such as tightening a tie bolt or a rope steel wire, and the like, and is within the protection scope of the present invention.

In addition to the above-mentioned photovoltaic color steel tile structure assembly, a specific embodiment of the present invention further provides a photovoltaic building including the above-mentioned photovoltaic color steel tile structure assembly, and the structure of other parts of the photovoltaic building refers to the prior art, which is not repeated herein.

The photovoltaic color steel tile structure assembly and the photovoltaic building provided by the utility model are described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (10)

1. A photovoltaic color steel tile structure assembly comprises a tile body (1) and a photovoltaic module (2), it is characterized in that a plurality of mounting groove wave crests (3) which are convex upwards are arranged on the upper surface of the tile body (1), the mounting groove wave crests (3) extend longitudinally and are parallel to each other, the photovoltaic component (2) is arranged between two adjacent mounting groove wave crests (3), the edges of two sides of the photovoltaic component (2) are respectively connected with two mounting groove wave crests (3), a plurality of curling wave crests (4) protruding upwards are arranged between every two adjacent mounting groove wave crests (3), the curling wave crests (4) extend longitudinally and are parallel to each other, and a limiting clamp (5) is installed on the crimping peak (4), the limiting clamp (5) supports the lower edge of the photovoltaic module (2), and the installation groove peak (3) is higher than the crimping peak (4).

2. The photovoltaic color steel tile structure assembly according to claim 1, wherein a vertical partition plate (31) is arranged at the top of the installation groove wave crest (3), a horizontal wing plate (32) is arranged above the partition plate (31), the wing plate (32) and the top of the installation groove wave crest (3) form installation grooves at two sides of the partition plate (31), and the side edges of the photovoltaic module (2) are inserted into the installation grooves.

3. The photovoltaic color steel tile structure assembly according to claim 2, wherein a structural sealant (6) is filled between the mounting groove and the side edge of the photovoltaic module (2).

4. The photovoltaic color steel tile structure assembly according to claim 3, wherein the mounting groove wave crest (3), the partition plate (31) and the wing plate (32) are integrally formed by bending.

5. The photovoltaic color steel tile structure assembly according to claim 1, wherein three crimping wave crests (4) are arranged between two adjacent mounting groove wave crests (3), the limiting clamps (5) are arranged on the crimping wave crests (4) on two sides, and a plurality of limiting clamps (5) are sequentially arranged on the crimping wave crests (4) along the longitudinal direction.

6. The photovoltaic color steel tile structure assembly according to any one of claims 1 to 5, wherein the top of the crimping wave crest (4) is provided with an upward convex and longitudinally extending mounting flange (41), the limiting clamp (5) comprises a vertical limiting plate (51) and a positioning plate (52), the lower end of the limiting plate (51) and the lower end of the positioning plate (52) clamp the mounting flange (41) through a fastener (53), and the upper end of the limiting plate (51) abuts against the lower edge of the photovoltaic component (2).

7. The photovoltaic color steel tile structure assembly according to claim 6, wherein a horizontal limiting block is arranged at the upper end of the limiting plate (51), the upper surface of the limiting block is flush with the upper surface of the photovoltaic component (2), and a bottom plate is arranged at the lower end of the limiting plate (51) and abuts against the top of the curled peak (4).

8. The photovoltaic color steel tile structure assembly according to claim 7, wherein a lateral protrusion is disposed on one side of the mounting flange (41) close to the positioning plate (52), a groove for fastening the lateral protrusion is disposed at a lower end of the positioning plate (52), a top plate is disposed at an upper end of the positioning plate (52), and the top plate abuts against a lower end surface of the limiting block and an inner side surface of the limiting plate (51).

9. The photovoltaic color steel tile structure assembly according to claim 8, wherein a through hole is formed in the middle of the limiting plate (51) and the positioning plate (52) at opposite positions, and the fastening member (53) is a bolt and a matched nut penetrating through the through hole.

10. A photovoltaic building comprising the photovoltaic color steel tile structural assembly of any one of claims 1-9.

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