CN-224218326-U - Building photovoltaic integrated anchoring structure with ultralow energy consumption

Abstract

The utility model provides an ultra-low energy consumption building photovoltaic integration anchor structure, including the screw thread section of thick bamboo anchor assembly that is used for being connected with the building structure, the rear portion of screw thread section of thick bamboo anchor assembly has the screw thread hole, there is the photovoltaic board support hook piece that has the bolt hole in addition, connecting bolt's pole portion passes the bolt hole of photovoltaic board support hook piece and screw thread hole of screw thread section of thick bamboo anchor assembly and fixes photovoltaic board support hook piece and screw thread section of thick bamboo anchor assembly together through threaded connection, in addition, be used for fixing the photovoltaic board connection fastener at photovoltaic board frame back, photovoltaic board connection fastener and photovoltaic board support hook piece lock joint are together realized the fixed of photovoltaic board and building structure. The photovoltaic anchoring device is designed aiming at the ultra-low energy consumption building, so that the photovoltaic panel is convenient to fixedly mount, is convenient to mount and fix, is firm and neat, is quick to detach and replace, and is convenient to realize ultra-low energy consumption building photovoltaic integration.

Inventors

• WANG YONG
• WANG CHUANG

Assignees

• 山东润泽工程科技有限公司

Dates

Publication Date

20260508

Application Date

20250527

Claims (8)

1. 1. The ultra-low energy consumption building photovoltaic integrated anchoring structure comprises a threaded cylinder anchoring piece used for being connected with a building structure body and is characterized in that a threaded inner hole is formed in the rear portion of the threaded cylinder anchoring piece (1), a photovoltaic panel supporting hook piece (3) with a bolt hole is further arranged, the rod portion of a connecting bolt (2) penetrates through the bolt hole of the photovoltaic panel supporting hook piece (3) and the threaded inner hole of the threaded cylinder anchoring piece (1) to fix the photovoltaic panel supporting hook piece (3) and the threaded cylinder anchoring piece (1) together through threaded connection, and a photovoltaic panel connecting fastener (4) used for being fixed on the back face of a frame of a photovoltaic panel (5) is further arranged, and the photovoltaic panel connecting fastener (4) is buckled with the photovoltaic panel supporting hook piece (3) to fix the photovoltaic panel (5) and the building structure body (6).
2. 2. The ultra-low energy consumption building photovoltaic integrated anchoring structure according to claim 1, wherein the threaded cylinder anchoring piece (1) is provided with an elongated anchoring body (11), the rear part of the anchoring body (11) is anchored with a threaded cylinder (12), and the outer opening of the threaded cylinder (12) is flush with the rear end face of the anchoring body (11).
3. 3. The ultra-low energy consumption building photovoltaic integrated anchoring structure according to claim 1 is characterized in that the threaded cylinder anchoring piece (1) is provided with an elongated anchoring body (11), a threaded cylinder (12) is anchored at the rear part of the anchoring body (11), the outer opening of the threaded cylinder (12) is level with the end face of the rear part of the anchoring body (11), and a tail baffle (14) is vertically fixed at the front end of the anchoring body (11).
4. 4. The photovoltaic integrated anchoring structure for ultra-low energy consumption building according to claim 3, wherein the tail baffle (14) is a straight or cross-shaped strip body or a disc-shaped body.
5. 5. The ultra-low energy consumption building photovoltaic integrated anchoring structure according to claim 2 or 3, wherein a plurality of thread cylinder anchoring protrusions (13) are arranged on the periphery of the thread cylinder (12), and the thread cylinder anchoring protrusions (13) are embedded in the anchoring body (11).
6. 6. The ultra-low energy consumption building photovoltaic integrated anchoring structure according to claim 2 or 3, wherein the circumferential profile section of the anchoring body (11) is rectangular, polygonal or circular.
7. 7. The ultra-low energy consumption building photovoltaic integrated anchoring structure of claim 1 is characterized in that the photovoltaic panel supporting hook (3) is a strip with a rectangular cross section, grooves along the length direction are formed in the side face of the photovoltaic panel supporting hook, the cross section of the photovoltaic panel supporting hook forms a U shape, the photovoltaic panel connecting fastener (4) is a strip with a T-shaped cross section, and the folded edge at the front end of the photovoltaic panel connecting fastener (4) is matched with the grooves of the photovoltaic panel supporting hook (3) and can be hooked with the photovoltaic panel supporting hook.
8. 8. The ultra-low energy consumption building photovoltaic integrated anchoring structure according to claim 1, wherein the rear end face of the threaded cylinder anchoring piece (1) is flush with the surface of the external surface layer of the building structure body (6).

Description

Building photovoltaic integrated anchoring structure with ultralow energy consumption Technical Field The utility model relates to a fixing device for installing a photovoltaic panel on a building, in particular to an ultra-low energy consumption building photovoltaic integrated anchoring structure. Background The ultra-low energy consumption building photovoltaic integrated (Building Integrated Photovoltaics, BIPV for short) is an innovative building design concept, which integrates a photovoltaic power generation technology with a building design depth, and aims to realize ultra-low energy consumption and energy self-supply of a building. The building with ultra-low energy consumption is characterized in that the energy consumption of the building is reduced to the maximum extent through means such as efficient heat preservation, natural ventilation, natural lighting and the like, the photovoltaic module is used as a part of the building, such as a roof, an outer wall and the like, the integrated design of photovoltaic power generation and the building is realized, and the sunlight is converted into electric energy by utilizing the photoelectric effect of the photovoltaic module. The intelligent control system is used for preferentially supplying the generated electric energy to the interior of the building for use, and the redundant electric energy can be stored or sold in a grid connection mode. The ultra-low energy consumption building photovoltaic integrated structure has the advantages of reducing dependence on traditional energy sources, reducing carbon emission, providing clean energy sources for buildings through the power generation function of the photovoltaic module, reducing the electricity cost of the buildings, having obvious economic benefits in long term, enabling the photovoltaic module to be used as a part of the buildings, such as roof tiles, outer wall decorations and the like, realizing the unification of beauty and functions, carrying out customized design according to the style and the requirements of the buildings, and improving the overall beauty of the buildings. The ultra-low energy consumption building photovoltaic integrated application comprises commercial buildings such as office buildings, shopping centers and the like, large roof and wall areas, residential buildings such as villas and apartments, and public facilities such as schools, hospitals and libraries, and the like, and can realize photovoltaic integration in a mode of roof photovoltaic, outer wall photovoltaic and the like. The ultra-low energy consumption building photovoltaic integrated market demand is that BIPV market demand is continuously increased along with the improvement of environmental awareness and the transformation of energy structures. The fields of commercial properties, public facilities, etc. will become the main application fields of BIPV. The ultra-low energy consumption building photovoltaic integration is one of important directions of future building development, and the BIPV industry is expected to have a wider development prospect by pushing technology innovation, policy support and market demand. The ultra-low energy consumption building is combined with the photovoltaic, an anchoring device is required to be installed on a structural member of the ultra-low energy consumption building, the ultra-low energy consumption building is divided into two parts of a reconstruction project and a new project, the new project is divided into two types of the ultra-low energy consumption composite board which adopts the traditional process construction and the ultra-low energy consumption assembly type new project, if the photovoltaic is installed in the post reconstruction project, a post anchoring piece is required to be arranged on an original roof or an outer structural wall, and the photovoltaic structure is required to be installed on the post anchoring piece, so that the photovoltaic structure is the best choice from the safety aspect or the aesthetic aspect. The new construction or the assembly construction needs to pre-embed the anchoring parts in advance in the processing process of roof boards and outer structural walls, the embedded parts and the new roof structures or wall structures are tightly combined together, and the photovoltaic board is directly arranged on the fixing device after the whole construction is completed. For this reason, it is necessary to design an anchoring device for facilitating the fixing of the photovoltaic panel on the ultra low energy consumption building. Disclosure of Invention The utility model aims to provide an ultra-low energy consumption building photovoltaic integrated anchoring structure, which solves the problem of anchoring a photovoltaic panel and an ultra-low energy consumption building and is convenient for the photovoltaic panel to be reliably installed on the ultra-low energy consumption building. The photovoltaic integrated anchoring structur