CN218888460U - Be suitable for waterproof photovoltaic integral structure of modularization of roofing and wall - Google Patents

Abstract

The utility model discloses a waterproof photovoltaic integral structure of modularization of being suitable for roofing and wall, including the integration component, the integration component includes dual glass assembly, tie-beam, the integrative modularization plate of waterproof photovoltaic, group cluster infill panel, adaptor and dual glass assembly stationary blade, the tie-beam distributes with the integrative modularization plate of waterproof photovoltaic alternately, dual glass assembly passes through dual glass assembly stationary blade and tie-beam and the integrative modularization plate rigid coupling of waterproof photovoltaic, the waterproof photovoltaic integral structure technical field of concretely relates to modularization. The modular waterproof photovoltaic integrated structure suitable for the roof and the wall effectively reduces the steps of mounting the traditional roof, TPO (thermoplastic polyolefin) roof and wall, effectively reduces the mounting construction cost and the construction period, expands the application scene of the photovoltaic module on the roof and the wall, does not influence the waterproof performance of the building, and can meet the requirements of construction treading and maintenance; in addition, the requirement of maximally installing the photovoltaic module on the roof is met.

Description

Be suitable for waterproof photovoltaic integral structure of modularization of roofing and wall

Technical Field

The utility model belongs to the technical field of the waterproof photovoltaic integral structure of modularization, concretely relates to be suitable for waterproof photovoltaic integral structure of modularization of roofing and wall.

Background

At present, most of industrial and commercial roofs and wall surfaces are mainly made of metal plates, a few roofs are subjected to TPO waterproof treatment, photovoltaic modules are mostly installed in a support structure mode, and a large number of additional structural members are added;

the existing roof installation photovoltaic module mostly uses primary and secondary purlins, the material cost is high, the weight of auxiliary materials is heavy, the structure is a rigid structure, the application bearing capacity of the metal roof is poor, most buildings need to be provided with the primary and secondary purlins in the application, the requirement on the installation precision of the purlins is too high, and constructors cannot tread and reserve an overhaul channel to reduce the installation amount; the problem that the connection rigidity with the color steel roof is insufficient or the roof water resistance is damaged when the connection rigidity is met exists in the installation of a small part of parallel roofs; the photovoltaic module is mounted on the wall surface, the surface layer of the outer wall needs to be damaged, a large number of structural members are added, the requirement on the bearing capacity of the outer wall is strict, and the hidden danger of water leakage exists; in a cold storage TPO roof project, a photovoltaic module needs to penetrate through a TPO waterproof layer when being installed, so that the hidden danger of water leakage exists, and the embedded support has poor wind uncovering resistance and the like; other residential buildings also suffer from the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a waterproof photovoltaic integral structure of modularization that is suitable for roofing and wall to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a be suitable for waterproof photovoltaic integrated structure of modularization of roofing and wall, includes the integration component, the integration component includes dual glass assembly, tie-beam, waterproof photovoltaic integrative modularization plate, group cluster infill panel, adaptor and dual glass assembly stationary blade, the tie-beam distributes with waterproof photovoltaic integrative modularization plate is alternate, dual glass assembly passes through dual glass assembly stationary blade and tie-beam and waterproof photovoltaic integrative modularization plate rigid coupling, the integration component passes through adaptor and external environment rigid coupling.

Preferably, a TPO waterproof layer is welded on one side of the waterproof photovoltaic integrated modular plate in a hot air welding mode.

Preferably, the connecting beam comprises a beam body, and anti-skidding grains are arranged on one side of the beam body.

Preferably, the dual glass assembly stationary blade is including fixed lamellar body and third bolt, fixed lamellar body passes through third bolt and roof beam body bolt, fixed lamellar body is connected with dual glass assembly block.

Preferably, the group string infill panel includes the infill panel body, the both sides of infill panel body all with the laminating of dual glass assembly.

Preferably, the adaptor comprises a connecting seat, a first bolt and a second bolt, the connecting seat is bolted with the beam body through the first bolt, and the connecting seat is fixedly connected with the external environment through the second bolt.

Compared with the prior art, the utility model, following beneficial effect has:

the modular waterproof photovoltaic integrated structure suitable for the roof and the wall effectively reduces the steps of mounting the traditional roof, TPO (thermoplastic polyolefin) roof and wall, effectively reduces the mounting construction cost and the construction period, expands the application scene of the photovoltaic module on the roof and the wall, does not influence the waterproof performance of the building, and can meet the requirements of construction treading and maintenance; in addition, the requirement of maximally installing the photovoltaic module on the roof is met.

Drawings

Fig. 1 is a top view of the present invention;

fig. 2 is a bottom view of the present invention;

fig. 3 is a schematic view of the split structure of the dual-glass assembly, the connecting beam and the waterproof photovoltaic integrated modular plate of the present invention;

fig. 4 is a schematic structural view of the adaptor of the present invention;

FIG. 5 is a schematic structural view of the dual glass assembly fixing sheet of the present invention;

in the figure: 1. an integrated member; 2. a dual glass assembly; 3. a connecting beam; 31. a beam body; 32. anti-skid lines; 4. a waterproof photovoltaic integrated modular plate; 5. assembling filling plates; 51. filling the plate body; 6. an adapter; 61. a connecting seat; 62. a first bolt; 63. a second bolt; 7. a dual glass assembly fixing sheet; 71. fixing the sheet body; 72. and a third bolt.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides a be suitable for waterproof photovoltaic integral structure of modularization of roofing and wall, including integration component 1, integration component 1 includes dual glass assembly 2, tie-beam 3, waterproof photovoltaic integral module piece 4, group cluster infill panel 5, adaptor 6 and dual glass assembly stationary blade 7, tie-beam 3 distributes with waterproof photovoltaic integral module piece 4 is alternate, dual glass assembly 2 passes through dual glass assembly stationary blade 7 and tie-beam 3 and waterproof photovoltaic integral module piece 4 rigid coupling, integration component 1 passes through adaptor 6 and external environment rigid coupling.

Example one

According to fig. 1 and 3, tie-beam 3 and waterproof photovoltaic integral module piece 4 are arranged alternately and hold dual glass assembly 2 between tie-beam 3 and waterproof photovoltaic integral module piece 4, then dual glass assembly 2's bottom side and the laminating of waterproof photovoltaic integral module piece 4, dual glass assembly 2's both sides and the 3 laminating of tie-beam, and utilize and make dual glass assembly 2 keep away from one side of waterproof photovoltaic integral module piece 4 with the dual glass assembly stationary blade 7 laminating of 3 bolted connection of tie-beam, realize dual glass assembly 2's fastening connection operation with the laminating of dual glass assembly stationary blade 7.

Further, one side of waterproof photovoltaic integrative modularization plate 4 has the TPO waterproof layer through the welding of hot-blast welding mode.

Example two

The hot air welding is a method for lapping and bonding the waterproof coiled material by using a hot air welding gun. Before the welding, the TPO coiled material can be levelly and smoothly put on the surface of waterproof photovoltaic integral module piece 4 along with straight, then utilize hot-air welding torch will shop at the TPO coiled material on waterproof photovoltaic integral module piece 4 surface and the welding of waterproof photovoltaic integral module piece 4, form the TPO waterproof layer on waterproof photovoltaic integral module piece 4 surface.

Further, the connecting beam 3 comprises a beam body 31, and one side of the beam body 31 is provided with an anti-skid thread 32.

Further, the adaptor 6 includes a connecting seat 61, a first bolt 62 and a second bolt 63, the connecting seat 61 is bolted to the beam 31 through the first bolt 62, and the connecting seat 61 is fixedly connected to the external environment through the second bolt 63.

EXAMPLE III

According to fig. 2 and 4, after the connecting base 61 is bolted to the beam body 31 through the first bolt 62, an i-beam can be placed inside the connecting base, the outer side of the i-beam is attached to the inner side of the connecting base 61, and then the second bolt 63 penetrates through the i-beam and is bolted to the i-beam to complete the fixed connection.

Further, dual glazing assembly stationary blade 7 includes fixed lamellar body 71 and third bolt 72, and fixed lamellar body 71 is bolted with roof beam body 31 through third bolt 72, and fixed lamellar body 71 is connected with dual glazing assembly 2 block.

Example four

When the fixing sheet 71 is bolted to the beam 31 by the third bolt 72, the bottom surface of the fixing sheet 71 can be attached to the dual glass assembly 2 for fixing the dual glass assembly 2.

Further, group's cluster infill panel 5 is including the infill panel body 51, and the both sides of infill panel body 51 all laminate with dual glass assembly 2.

EXAMPLE five

According to fig. 1 and 3 show, synthesize embodiment one, four can know, laminate with fixed lamellar body 71 when dual glass assembly 2's top side, dual glass assembly 2's both sides and the laminating of tie-beam 3, dual glass assembly 2's bottom side and the integrative modularization plate 4 laminating of waterproof photovoltaic, nevertheless do not fix between two adjacent dual glass assembly 2, consequently have infill panel 51 through the joint between two adjacent dual glass assembly 2, further fixed dual glass assembly 2 avoids dual glass assembly 2 to remove.

The working principle is as follows: the steps of the integrated member 1 are as follows:

the method comprises the following steps: measuring and paying off, fixedly mounting the adapter piece 6 according to a positioning point of a specific construction drawing, namely fixedly connecting the connecting beam 3 with the I-shaped steel through the adapter piece 6 by utilizing the fixing effect of the adapter piece 6 and the I-shaped steel to finish the fixedly connecting of the connecting beam 3 with the external environment;

step two: arranging a waterproof photovoltaic integrated modular plate 4, cleaning the surface of the waterproof photovoltaic integrated modular plate 4, and performing hot air welding at a TPO lap joint position according to a specific construction drawing, namely welding a TPO coiled material and the waterproof photovoltaic integrated modular plate 4 according to the second embodiment to form a TPO waterproof layer on the surface of the waterproof photovoltaic integrated modular plate 4;

step three: arranging the dual-glass assemblies 2 according to a construction drawing, adjusting the distance between the dual-glass assemblies 2 according to the field conditions, namely fixing the dual-glass assemblies 2, the connecting beam 3 and the waterproof photovoltaic integrated modular plate 4 in all directions according to the first embodiment and the fifth embodiment, and fixing the dual-glass assemblies 2 and the dual-glass assemblies 2 through the filling plate body 51 to avoid the dual-glass assemblies 2 from loosening;

step four: carry out the group's series connection line of dual glass assembly 2 and waterproof photovoltaic integrative modularization plate 4, whether check MC4 plug position connect the joint tight real, with dual glass assembly 2 and waterproof photovoltaic integrative modularization plate 4 group series connection after accomplishing dual glass assembly 2 fixed, then utilize the MC4 plug to carry out the circular telegram of dual glass assembly 2 and make dual glass assembly 2 normally work.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a waterproof photovoltaic integral structure of modularization that is suitable for roofing and wall which characterized in that: including integration component (1), integration component (1) includes dual glass assembly (2), tie-beam (3), waterproof photovoltaic integrative modularization plate (4), group cluster infill panel (5), adaptor (6) and dual glass assembly stationary blade (7), tie-beam (3) and waterproof photovoltaic integrative modularization plate (4) distribute alternately, dual glass assembly (2) are through dual glass assembly stationary blade (7) and tie-beam (3) and waterproof photovoltaic integrative modularization plate (4) rigid coupling, integration component (1) is through adaptor (6) and external environment rigid coupling.

2. The modular waterproof photovoltaic integrated structure suitable for roofs and walls according to claim 1, wherein: one side of the waterproof photovoltaic integrated modular plate (4) is welded with a TPO waterproof layer in a hot air welding mode.

3. The modular waterproof photovoltaic integrated structure suitable for roofs and walls according to claim 2, wherein: the connecting beam (3) comprises a beam body (31), and anti-skid grains (32) are arranged on one side of the beam body (31).

4. The modular waterproof photovoltaic integrated structure suitable for roofs and wall surfaces as claimed in claim 3, wherein the modular waterproof photovoltaic integrated structure comprises: double glazing assembly stationary blade (7) is including fixed lamellar body (71) and third bolt (72), fixed lamellar body (71) are bolted through third bolt (72) and roof beam body (31), fixed lamellar body (71) are connected with double glazing assembly (2) block.

5. The modular waterproof photovoltaic integrated structure suitable for roofs and wall surfaces as claimed in claim 4, wherein the modular waterproof photovoltaic integrated structure comprises: the group string filling plate (5) comprises a filling plate body (51), and the two sides of the filling plate body (51) are attached to the double-glass assembly (2).

6. The modular waterproof photovoltaic integrated structure suitable for roofs and wall surfaces as claimed in claim 5, wherein: adaptor (6) are including connecting seat (61), first bolt (62) and second bolt (63), connecting seat (61) are bolted connection through first bolt (62) and roof beam body (31), connecting seat (61) are through second bolt (63) and external environment rigid coupling.

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