CN217871419U - Solar tile frame and solar tile - Google Patents

Abstract

The utility model discloses a solar energy tile frame and solar energy tile, solar energy tile frame include tile frame body, and tile frame body upper surface middle part undercut forms the sunken groove, and the sunken groove is used for installing the solar photovoltaic board, and the degree of depth in sunken groove is the same with the solar cell plate thickness, is provided with at least one ventilation cooling hole on the sunken groove. The tile frame body is made of glass fiber reinforced plastics. The utility model discloses be provided with the ventilation louvre, can effectively reduce the heat of solar photovoltaic board to can reduce the negative effects that solar photovoltaic board expend with heat and contract with cold brought. The utility model discloses a tile frame body is owing to adopt glass steel material for tile frame body's horizontal length can reach 400mm-1500mm, and vertical length can reach 400mm-600mm, and the constraint that the plastics material brought has been broken through greatly to the size. Compare in current small-size solar energy tile, the utility model discloses use the solar photovoltaic board of bigger area can send more electric quantities, install more simple and efficient, the security is higher, cost of maintenance is lower, life is longer.

Description

Solar tile frame and solar tile

Technical Field

The utility model relates to a solar energy tile technical field especially relates to a solar energy tile frame and solar energy tile.

Background

The tiles are paved on the roof through front and back lap joints, and can play roles of rain proofing, heat insulation, heat preservation and decoration. The tile has various shapes at present, but can be truly perfectly matched with a photovoltaic product to form a product with a photovoltaic tile function, the tile is a blank, along with the rapid development of the photovoltaic industry in recent years, the photovoltaic building material function is the development direction of photovoltaic development, namely, the solar energy arranged on a roof still has the basic functions of the tile on the basis of the basic functions of power generation, namely, the functions of water resistance, heat insulation and decoration, and the tile is safe, attractive and durable, and the existing sintered tile and non-sintered tile have limitations on the aspect of matching with the solar photovoltaic, for example, the photovoltaic is difficult to be embedded in a tile support, so that the embedded composite body is more rapid to install; in addition, the sintered solar tile supports (pottery clay products) and non-sintered solar tile supports (metal products, cement products and plastic products) on the market at present cannot be made into larger sizes, so that the generated energy is lower, and the installation cost and the later maintenance cost are higher.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solar energy tile frame and solar energy tile to solve present solar energy tile because the expend with heat and contract with cold effect of solar photovoltaic board can lead to the tile not hard up, and the tile conduction thermal behavior is weaker, leads to the tile life-span short, uses the back tile function impaired for a long time, in addition, present solar energy tile can not do great size, thereby makes the lower problem of generated energy.

The utility model adopts the technical proposal that: the utility model provides a solar tile frame, includes tile frame body, tile frame body upper surface middle part undercut forms the heavy groove of sinking, the heavy groove of sinking is used for installing the solar photovoltaic board, the degree of depth in heavy groove of sinking is the same with the thickness of solar cell panel, be provided with at least one ventilation cooling hole on the heavy groove of sinking.

Furthermore, the tile frame body is made of glass fiber reinforced plastic.

Furthermore, the transverse length of the tile frame body is 400mm-1500mm, the longitudinal length of the tile frame body is 400mm-600mm, and the longitudinal direction is the falling direction of rainwater.

Furthermore, the back of the tile frame body is provided with transverse and vertical staggered reinforcing ribs.

Furthermore, the tile frame body is also provided with a transverse diversion trench and a longitudinal diversion trench, the transverse diversion trench is positioned at the edge of the upper part of the upper surface of the tile frame body, and the longitudinal diversion trench is positioned at one side of the tile frame body; one end of the longitudinal diversion trench is connected with the transverse diversion trench.

Furthermore, the middle part of the longitudinal diversion trench is provided with at least one water-isolating platform, so that at least two longitudinal diversion trenches are formed.

Furthermore, a first lapping table and a second lapping table which are transversely arranged are also arranged on the tile frame body; the first lapping table is positioned between the sunken groove and the transverse diversion groove; the second lapping table is located on the edge of the lower portion of the tile frame body and extends towards the back of the tile frame body.

Furthermore, a rectangular diversion notch is arranged at the end part below the longitudinal diversion trench, the longitudinal width of the diversion notch is equal to the width between the tile frame body and the first lapping table, and the transverse width of the diversion notch is equal to the width of the longitudinal diversion trench; and a flow guide platform extending to the back of the tile frame body is further arranged at the end part below the longitudinal flow guide groove.

Further, still be provided with the mounting hole between first overlap joint platform and the horizontal guiding gutter, the back at tile frame body upper portion edge is provided with spacing lug.

The utility model also provides a solar energy tile, including the solar photovoltaic board, still include foretell solar energy tile frame in addition.

The utility model has the advantages that:

(1) The utility model discloses be provided with the ventilation cooling hole, can effectively reduce the heat of solar photovoltaic board to can reduce the negative effects that solar photovoltaic board expend with heat and contract with cold brought.

(2) The utility model discloses a tile frame body is owing to adopted the glass steel material for the horizontal length of tile frame body can reach 400mm-1500mm, and vertical length can reach 400mm-600mm, and the constraint that the plastics material brought has been broken through greatly to the size. Compare in current small-size solar energy tile, the utility model discloses use the solar photovoltaic board of bigger area can send more electric quantities.

(3) Through setting up the water conservancy diversion breach for the vertical guiding gutter of last tile frame body just the overlap joint in the vertical guiding gutter top of next tile frame body, the setting of water conservancy diversion platform can prevent flowing backward of rainwater.

(4) The utility model discloses a solar energy tile frame installation is simple and efficient more, the security is higher, cost of maintenance is lower, life is longer.

Drawings

Fig. 1 is a schematic structural view of the front side of a solar tile frame disclosed by the present invention;

fig. 2 is a schematic structural view of the back of the solar tile frame disclosed by the present invention;

fig. 3 is a front view of a solar tile frame disclosed by the present invention;

fig. 4 is a left side view of the solar tile frame disclosed by the present invention.

Reference numerals: 1-tile frame body, 2-sink groove, 3-glue coating groove, 4-ventilation and heat dissipation holes, 5-transverse flow guide groove, 6-longitudinal flow guide groove, 61-water isolation platform, 7-mounting hole, 8-first lapping platform, 9-second lapping platform, 10-limiting bump and 11-flow guide notch; 12-a flow guide table and 13-a reinforcing rib.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited thereto.

Example 1:

referring to fig. 1-4, the embodiment discloses a solar tile frame, including tile frame body 1, tile frame body 1 upper surface middle part undercut forms heavy groove 2, heavy groove 2 is used for installing the solar photovoltaic board down, the degree of depth of heavy groove 2 is the same with the thickness of solar cell panel, be provided with at least one ventilation louvre 4 on the heavy groove 2 down.

According to the solar photovoltaic panel, the heat of the solar photovoltaic panel can be effectively reduced through the arrangement, so that the negative effects caused by expansion with heat and contraction with cold of the solar photovoltaic panel can be reduced. On the other hand, the solar photovoltaic panel after the installation is parallel and level with the rain falling surface of the tile frame body 1, thereby avoiding the accumulation of rainwater.

Specifically, the solar photovoltaic panel can be pasted in the sink groove 2 through glue, and the glue coating groove 3 is arranged in the sink groove 2, so that the solar photovoltaic panel is convenient to paste. In addition, in order to accelerate the heat dissipation, can set up several ventilation and heat dissipation holes 4 more, so can guarantee the intensity of tile frame body 1, still can make the area that increases the ventilation hole account for than.

Different from tile frame body 1 among the prior art adopts the plastics material, this embodiment tile frame body 1's material is glass steel. The glass fiber reinforced plastic material has the advantages of high temperature resistance, low thermal expansion coefficient, high strength and good heat conductivity. The tile frame body 1 in the prior art adopts the plastic material to lead to its influence that is expanded with heat and is contracted with cold big, leads to the size to do not big, and present common size is: transverse direction is 400 x 450mm. The tile frame body 1 of the embodiment is made of the glass fiber reinforced plastic material, so that the transverse length of the tile frame body 1 can reach 400mm-1500mm, the longitudinal length can reach 400mm-600mm, and the longitudinal direction is the falling direction of rainwater. Greatly breaks through the constraint brought by the plastic material in size. Compared with the existing small-sized solar tile, the solar photovoltaic tile can use a larger area of solar photovoltaic panel, so that more electricity can be generated. It is easy to understand that the tile frame body can also be made of various composite materials such as glass fiber reinforced plastics, reinforced glass fibers, quartz sand (or calcium carbonate sand) and the like through high-temperature die pressing, namely the tile frame body is of an integrally formed structure.

Because tile frame body 1 of this embodiment is heavy, and the size is big, in order to strengthen tile frame body 1's intensity, tile frame body 1 back is provided with horizontal and vertical crisscross strengthening rib 13.

Further, the tile frame body 1 is further provided with a transverse diversion trench 5 and a longitudinal diversion trench 6, the transverse diversion trench 5 is located at the edge of the upper portion of the upper surface of the tile frame body 1, and the longitudinal diversion trench 6 is located on one side of the tile frame body 1; one end of the longitudinal diversion trench 6 is connected with the transverse diversion trench 5. At least one water-proof platform 61 is arranged in the middle of the longitudinal diversion trench 6, so that at least two longitudinal diversion trenches 6 are formed.

The tile frame body 1 is also provided with a first lapping table 8 and a second lapping table 9 which are transversely arranged; the first lapping table 8 is positioned between the sunken groove 2 and the transverse diversion groove 5; the second lapping table 9 is located at the edge of the lower portion of the tile frame body 1 and extends towards the back of the tile frame body 1.

A rectangular diversion gap is arranged at the end part below the longitudinal diversion trench 6, the longitudinal width of the diversion gap is equal to the width between the tile frame body 1 and the first lapping table 8, and the transverse width of the diversion gap is equal to the width of the longitudinal diversion trench 6; and a flow guide platform extending to the back of the tile frame body 1 is further arranged at the end part below the longitudinal flow guide groove 6. Through setting up the water conservancy diversion breach for the vertical guiding gutter 6 of last tile frame body 1 just the overlap joint is in the vertical guiding gutter 6 top of next tile frame body 1, and the setting of water conservancy diversion platform can prevent the backward flow of rainwater.

And a mounting hole 7 is also formed between the first lapping table 8 and the transverse diversion trench 5 and is used for being fixedly connected with the square timber which is fixed and advanced on the roof. The back of tile frame body 1 upper portion edge is provided with spacing lug 10 for fix a position when fixing tile frame body 1 on the square timber.

The working principle of the embodiment is as follows: and the solar photovoltaic panel is adhered in the sinking groove 2 of the tile frame body 1 to form the solar tile. The roof is provided with the square timber which is transversely arranged in advance, the solar tiles are fixedly connected with the square timber through the mounting holes 7, the second overlapping table 9 of the previous solar tile is arranged on the first overlapping table 8 of the next solar tile, and rainwater is left on the next solar tile from the previous solar tile. When the rainwater is large, the rainwater can flow backwards, the transverse diversion trench 5 plays a role in preventing the rainwater from flowing backwards, and rainwater in the transverse diversion trench 5 flows to the next solar tile after flowing into the longitudinal diversion trench 6, and finally is discharged.

Example 2

A solar tile comprises a solar photovoltaic panel and further comprises the solar tile frame in embodiment 1.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a solar tile frame, includes tile frame body, its characterized in that, tile frame body upper surface middle part undercut forms the heavy groove of sinking, the heavy groove of sinking is used for installing the solar photovoltaic board, the degree of depth in heavy groove of sinking is the same with the thickness of solar cell panel, be provided with at least one ventilation cooling hole on the heavy groove of sinking.

2. A solar tile frame as claimed in claim 1, wherein the tile frame body is made of glass reinforced plastic.

3. A solar tile frame as claimed in claim 2, wherein the tile frame body has a transverse length of 400mm to 1500mm and a longitudinal length of 400mm to 600mm, the longitudinal direction being the direction in which rain falls.

4. A solar tile frame as claimed in any one of claims 1 to 3, wherein the back of the tile frame body is provided with transverse and vertical staggered ribs.

5. The solar tile frame of claim 4, wherein the tile frame body is further provided with a transverse flow guide groove and a longitudinal flow guide groove, the transverse flow guide groove is located at the edge of the upper portion of the upper surface of the tile frame body, and the longitudinal flow guide groove is located on one side of the tile frame body; one end of the longitudinal diversion trench is connected with the transverse diversion trench.

6. A solar tile frame according to claim 5, wherein at least one water barrier is provided in the middle of the longitudinal channels, thereby forming at least two longitudinal channels.

7. A solar tile frame according to claim 5, wherein the tile frame body is further provided with first and second transversely arranged overlapping platforms; the first lapping table is positioned between the sunken groove and the transverse diversion groove; the second lapping table is located on the edge of the lower portion of the tile frame body and extends towards the back of the tile frame body.

8. A solar tile frame as claimed in claim 7, wherein a rectangular diversion gap is formed at the lower end of the longitudinal diversion trench, the longitudinal width of the diversion gap is equal to the width from the tile frame body to the first lapping table, and the transverse width of the diversion gap is equal to the width of the longitudinal diversion trench; and a flow guide platform extending to the back of the tile frame body is further arranged at the end part below the longitudinal flow guide groove.

9. A solar tile frame as claimed in claim 7, wherein a mounting hole is further provided between the first overlapping platform and the transverse diversion trench, and a limiting projection is provided on a back surface of an upper edge of the tile frame body.

10. A solar tile comprising a solar photovoltaic panel, further comprising the solar tile frame of any of claims 1-9.

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