CN202042500U - L-shaped ceramic frame of photovoltaic building component - Google Patents

Abstract

The utility model relates to an L-shaped ceramic frame of a photovoltaic building component, which is characterized by comprising a ceramic frame body. A forward L-shaped edge and an inverted L-shaped edge are combined to form the frame body, an axial groove used for being fittingly connected with the photovoltaic component is arranged on the inner side of the frame body, a plurality of ribs are arranged along directions perpendicular to the upper edge and the lower edge of the frame body, upper and lower edge internal and external grooves capable of forming a first lapping surface can be respectively arranged along the horizontal direction of the upper edge and the lower edge of the frame body, and left and right edge internal and external grooves capable of forming a second lapping surface are respectively disposed along axial directions of the left edge and the right edge of the frame. The L-shaped ceramic frame is combined with the photovoltaic building component, has functions of a common building tile and can realize integration of a photovoltaic generating device with a building roof.

Description

The L type pottery frame of photovoltaic building assembly

Technical field

The utility model relates to a kind of photovoltaic cell, relates in particular to a kind of photovoltaic building assembly L type pottery limit

Frame.

Background technology

The photovoltaic industry development is very fast, and annual in recent years to surpass 50% speed increment, the photovoltaic generating system that wherein is installed in the ceramic tile roof accounts for very big ratio.The core component of photovoltaic generation is a solar module, because the conventional solar cells assembly all is to adopt aluminium as the frame material, being installed in needs support to be fixed on the building, and the shortcoming of An Zhuaning mainly comprises the following aspects like this:

1, is difficult to solar module and building are realized integrated installation;

2, owing to need to use iron and steel support and basis, increased installation cost, made the integrated cost of electricity generation system very high.

3, influence the aesthetics of building: owing to having used basis and support, will on the building roof, form the jut of an obvious difference and other parts, aesthetics of architecture effect is affected.

The main cause that forms above-mentioned shortcoming is that the solar module of aluminium frame can't be realized integrated the connection with other tile on roof.

Summary of the invention

The purpose of this utility model is: develop a kind of L type pottery frame of photovoltaic building assembly, to replace

Conventional solar cells assembly aluminium frame, formation can be as the photovoltaic building assembly of construction material.

Ceramic frame of the present utility model is to be used to the module that cooperates lamination of solar battery components good, the two combination, thus form the photovoltaic building assembly.

Above-mentioned technical problem of the present utility model is mainly solved by following technical proposals: a kind of L type of photovoltaic building assembly pottery frame is characterized in that: have ceramic frame body, described frame body by suitable, fall two L type limits and combine; With the L type frame of the left side in the four edges, being made of one of bottom, the right, top are made down " L type " frame (also can be the top and the left side and the right and bottom); Described frame body inboard has and is used for the axial groove that is connected with photovoltaic module (encapsulation solar module).

Described axial groove is meant the axial direction along every limit, if one of them L type limit is made up of a left side, bottom, indication axially then is along the left side and following axial direction here.

The vertical direction on the upper and lower limit of described frame body is furnished with many rib warps, and horizontal direction is furnished with the last following negative and positive groove that can form first faying surface respectively; The axial direction of the left and right sides side of described frame is respectively equipped with limit, the left and right sides negative and positive groove that can form second faying surface.

The technical solution of the utility model can also be further perfect:

As preferably, the front of described upper side frame, along continuous straight runs is provided with the top sun groove of epirelief, the back side of lower frame, along continuous straight runs is provided with the following cloudy groove of indent, and the top sun groove of adjacent photovoltaic construction set combines composition first faying surface with following cloudy groove.

As preferably, the described left frame back side has L shaped left side sun groove vertically, and the left frame front has the cloudy groove in circular arc the right vertically, and the left side sun groove of adjacent photovoltaic construction set combines composition second faying surface with the cloudy groove in the right.

As preferably, two end faces on described L type limit 45 that slopes inwardly.

As preferably, the groove depth of the inboard axial groove of described frame body is 5-9 mm.

The beneficial effects of the utility model are:

1) compares with the conventional solar cells assembly and have lower production cost.

2) the photovoltaic building assembly has the function of common building tile, makes between photovoltaic generation equipment and the building roof to realize integratedly, has increased the aesthetics of building.

3) scuncheon groove design makes the encapsulation of solar cell module convenient.

4) between rib warp and the rib warp the special cable interface channel of formation is arranged.

When 5) packaged photovoltaic building assembly is installed in building roof, keep enough spaces with building roof, space between the different construction sets interconnects, and is convenient to flowing of air, can make the photovoltaic building module owing to shine upon the heat of generation and in time obtain evacuation.

6) because photovoltaic building assembly and roofing keep certain space, play certain insulation effect, have effect of heat insulation cool in summer and warm in winter.

7) save installation cost, the market acceptance level on solar energy roof is significantly strengthened.

8) " L " type and inverted "L" shaped moulding have increased the intensity at the left side, following turning, can use the assembly area of this type pottery frame encapsulation bigger, increase the generated output of unit are.

9) use " L " type pottery frame, make component package simpler, improved operating efficiency.

Description of drawings

Accompanying drawing 1 is a kind of structure split figure of the present utility model;

Accompanying drawing 2 is upper left frame front views of Fig. 1;

Accompanying drawing 3 is left views of Fig. 2;

Accompanying drawing 4 is vertical views of Fig. 2;

Accompanying drawing 5 is bottom right frame front views of Fig. 1;

Accompanying drawing 6 is left views of Fig. 5;

Accompanying drawing 7 is vertical views of Fig. 5;

Accompanying drawing 8 is that schematic diagram is taken on limit, the left and right sides mutually;

Accompanying drawing 9 is to go up bottom to take schematic diagram mutually.

Description of reference numerals: 1, left side sun groove, 2, the rib warp, 3, axial groove, 8, the cloudy groove in the right, 9, top sun groove, 10, following cloudy groove, A, photovoltaic module.

Embodiment

Below by embodiment also in conjunction with the accompanying drawings, technical scheme of the present invention is further described in detail.

Embodiment:

In order to realize the purpose of this utility model,, tile function and photovoltaic component frame function are combined with reference to the four limit moulding of ordinary sinter plane tile and the technological requirement of encapsulation solar module.For this reason, ceramic frame is carried out specialized designs,, the right, top are made down " L type " frame the L type frame of the left side in the four edges, being made of one of bottom.L " end of type and inverted "L" shaped frame is the 45 that slopes inwardly, by the silica gel binding agent, can closely link to each other between the angle that makes two limits and the angle.In the inboard of " L " type and inverted "L" shaped frame, be provided with the axial groove 3 that can insert packaged photovoltaic module A, utilize and peg graft and the silica gel binding agent, play fixing and waterproof sealing effect.Because the thickness of encapsulation solar module is generally at 5-8 mm, therefore, the width of fluting is designed to be 6-9 mm, the degree of depth of fluting than wide 1 mm of the thickness of module, mainly consider the weight of module and the intensity of ceramic frame, generally be designed to 5-9 mm, the module area is little, and then the degree of depth is got smaller value, the module area is big, then gets higher value.

The vertical direction of top a, the following b of pottery frame body is furnished with five ribs through 2, be used to be supported on roofing, photovoltaic building assembly and roofing are maintained a certain distance, can guarantee air flowing in the space, play and reduce owing to shine upon the high-temperature of generation; Space between the rib warp is used for passing freely through to the cable on the photovoltaic module, guarantees that the circuit of different photovoltaic building assemblies can couple together.

The front of top a, along continuous straight runs are provided with the top sun groove 9 of epirelief, the back side of lower frame b, and along continuous straight runs is provided with the following cloudy groove 10 of indent; The top sun groove of adjacent photovoltaic construction set combines with following cloudy groove forms first faying surface.The c back side, the left side has L shaped left side sun groove 1 vertically, and left frame d front has the cloudy groove 8 in circular arc the right vertically, and the left side sun groove of adjacent photovoltaic construction set combines with the cloudy groove in the right forms second faying surface.Play and connect and the waterproof sealing effect.

With a 550mm * 420mm, thickness is the packaged photovoltaic module A of 5mm, and the design thickness of frame is 50mm, and width is 60mm.The width of axial groove 3 is 6mm, and the degree of depth is 6mm, and the distance on the top of axial groove and frame surface is 6mm, and the bottom of axial groove and the bottom surface of frame distance are 38mm.Distance to the frame bottom surface is 18mm to rib through 2 space, and the length of left side sun groove 1 is 56mm, and the height of top sun groove 9 is 10mm.With the ceramic frame that sinters like this, packaged photovoltaic building assembly can reach the 30W/ piece, and the generated output of every square metre of area can reach 100W.

Ceramic frame of the present utility model can substitute on the conventional solar cells component package technology the frame made of the aluminium that uses, by cloudy groove 8 in the right and left side sun groove 1, the cloudy groove 10 in top closely links to each other with bottom positive groove 9, the ceramic tile that replaces building roof to use, by being embedded in the good photovoltaic module of lamination in the axial groove 3, formation can utilize solar energy to produce the ceramic frame photovoltaic building assembly of active power.By the space of rib between 2 that is provided with in last following bottom surface, realize the connection of circuit between the module, thereby reach integrated with solar power generation core component pottery frame photovoltaic module and building roof, make the outward appearance of building keep with building roof is the same normally the increase aesthetic.

Claims (5)

1. the L type of photovoltaic building assembly pottery frame is characterized in that: have ceramic frame body, described frame body by suitable, fall two L type limits and combine; Described frame body inboard has and is used for the axial groove (3) that is connected with photovoltaic module (A); Many the ribs that the vertical direction on the upper and lower limit of described frame body is arranged are through (2), and horizontal direction is furnished with the last following negative and positive groove that can form first faying surface respectively; The axial direction of the left and right sides side of described frame is respectively equipped with limit, the left and right sides negative and positive groove that can form second faying surface.

2. the L type pottery frame of photovoltaic building assembly according to claim 1 is characterized in that: the front of described top, along continuous straight runs are provided with the top sun groove (9) of epirelief, the following back side, and along continuous straight runs is provided with the following cloudy groove (10) of indent.

3. the L type pottery frame of photovoltaic building assembly according to claim 1 is characterized in that: the back side, the described left side has L shaped left side sun groove (1) vertically, and front, the right has circular arc the right cloudy groove (8) vertically.

4. according to the L type of claim 1 or 2 or 3 described photovoltaic building assemblies pottery frame, it is characterized in that: two end faces on described L type limit 45 that slopes inwardly.

5. according to the L type pottery frame of claim 1 or 2 or 3 described photovoltaic building assemblies, it is characterized in that: the groove depth of the inboard axial groove of described frame body (3) is 5-9 mm.

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