CN201722853U - Ceramic tile suitable for building integrated photovoltaic - Google Patents

Abstract

The utility model relates to a ceramic tile suitable for building integrated photovoltaic (BIPV). The BIPV-based ceramic tile comprises a ceramic tile, wherein the BIPV-based ceramic tile is characterized in that a recessed plane is arranged on the front side of the plane part of the ceramic tile and a crystalline silicon battery slice can be mounted in the recessed plane, thus achieving the embedding effect and facilitating the installation and fixation of battery components; a plurality of ventilation holes are distributed on the recessed plane, thus achieving good effect of heat dissipation on photovoltaic components and prolonging the service life of the ceramic tile; a terminal box channel and a wire channel arranged in the longitudinal direction are arranged on the back side of the plane part; and wiring holes are formed on the wire channel. The ceramic tile of the utility model has the advantage of good heat-dissipation effect and serves the functions of conventional building tiles and the function of photovoltaic power generation, thus putting the BIPV into real practice.

Description

Ceramic tiles for building integrated photovoltaics

technical field

The utility model relates to a photovoltaic battery, in particular to a photovoltaic battery tile in which crystal silicon battery sheets and tiles are combined.

Background technique

At present, the roof photovoltaic power generation system (photovoltaic module) on the market uses profiles such as aluminum alloy as the frame and steel as the mounting bracket. There are single functions and styles, complex construction, large consumption of building materials, serious building pollution, and low utilization efficiency. They cannot directly replace traditional building materials to achieve true photoelectric building integration, and cannot meet the needs of individualized buildings. The high cost is not easy to promote and apply on a large scale.

Contents of the invention

The utility model mainly solves the shortcomings of the prior art, thereby developing a ceramic tile with a simple structure and a large plane area, which is suitable for photovoltaic building integration.

The above-mentioned technical problems of the utility model are mainly solved by the following technical solutions: a ceramic tile suitable for photovoltaic building integration, which has a ceramic tile, and is characterized in that: the front of the ceramic tile plane part is provided with a downward The sunken plane can make the crystalline silicon cells be installed in the sunken plane, so that it can be inlaid, which is more conducive to the installation and fixing of the battery components; the sunken plane is equipped with a plurality of ventilation holes, which will Provide effective heat dissipation effect for the photovoltaic module and improve the use efficiency; the back of the plane part has a junction box groove and a wire groove connected with the junction box groove and arranged vertically, and the wire groove has a threading hole.

The beneficial effects of the utility model are:

1. It makes up for the lack of a single style of photovoltaic application products on the market. There are various styles such as wavy, streamlined and "concave" for users to choose, which can meet the needs of different styles of buildings;

2. It has the functions of traditional building tiles and photovoltaic power generation, and truly realizes the integration of photovoltaic buildings;

3. It can be directly installed on the roof without conventional aluminum alloy frame and steel bracket, the construction is simple, the construction efficiency is high, and the construction materials and construction pollution can be greatly reduced;

4. The weight is light, which is 70% of the roof power generation system of the same scale, which effectively reduces the load of the building;

5. The performance of windproof, rainproof and hailproof has met the requirements of outdoor environment, and the service life is more than 25 years.

Description of drawings

Accompanying drawing 1 is a kind of structural front view of the utility model;

Accompanying drawing 2 is the top view of Fig. 1;

Accompanying drawing 3 is the left view diagram of Fig. 1.

Detailed ways

The technical solution of the utility model is further specifically described below through the embodiments and in conjunction with the accompanying drawings.

Example:

As shown in Figures 1-3, a ceramic tile suitable for building integrated photovoltaics has a ceramic tile body 6 and a downwardly recessed plane on the plane of the ceramic tile body 6 for pasting crystalline silicon cells. , so as to play the role of inlay, and fix it on the ceramic tile by extracting and pasting, making it integrated, so as to completely solve the problems of connection strength and waterproof of the main body of the product. Then, the sunken part of the ceramic tile body is matrix-punched with heat dissipation vents 5, so that the upper and lower sides can dissipate heat more effectively through these vent holes, ensuring that the temperature at work can reach the effective working temperature. The back side of the ceramic tile body 6 has a junction box groove 3, a wire groove 4 arranged vertically, and a threading hole 2 is arranged on the wire groove. The junction box groove 3, the threading hole 2, and the wire groove 4 communicate with each other.

Claims (1)

1. A ceramic tile suitable for photovoltaic building integration, with a ceramic tile body, characterized in that: the front of the ceramic tile body plane part is provided with a downwardly recessed plane, and a plurality of Ventilation holes; the back of the planar part of the ceramic tile has a junction box slot and a wire slot connected to the junction box slot and arranged longitudinally, and the wire slot has a threading hole.