CN210563019U - Copper tile with heat dissipation structure - Google Patents

Abstract

The utility model relates to a take heat radiation structure's brasses, it is good to solve brasses roof heat transmissibility, and the piece that rises in temperature can be to the more heat problem of indoor transmission. The chevron structure is personally submitted to the slope of the roof both sides of this structure, and the domatic top in both sides is crossed and is formed the summit, has all laid the copper tile face on the domatic roof both sides, leaves the clearance in the summit top between the copper tile face of both sides, and the clearance top lid is equipped with the ridge tile, be equipped with the ridge tile backup pad between the copper tile face of ridge tile and both sides respectively, ridge tile backup pad below and copper tile face upper surface are fixed, and ridge tile lower limb is fixed with the last side of ridge tile backup pad, and the arc perk that makes progress in the side both ends on the ridge tile backup pad, the both ends water ridge tile backup pad arc perk of ridge tile, ridge tile both ends opening. The utility model discloses copper tile face below hot-air rises and assembles in the ridge tile passageway to reserve from both ends opening part, form the ascending runner of hot-air, take away the heat of copper tile face below, reduce the heat of following the roof to the inside transmission in house.

Description

Copper tile with heat dissipation structure

Technical Field

The utility model belongs to the building field relates to a copper tile structure, in particular to take heat radiation structure's copper tile.

Background

Tile structure's roof, be the characteristic structure of our country housing construction, the china's people who is full of wisdom utilizes interior arcwall face upward base tile and the ascending tiling of outer arcwall face in turn overlap joint cooperation, the tile formula roof structure that can rain-proof water conservancy diversion fast has been formed, the tile formula roof of this kind of structure, the roof is domatic structure, it flows to make the rainwater form gravity, the tile roof is mostly domatic of bilateral symmetry, be the chevron shape, the pinnacle at the herringbone roof need set up the ridge tile that upwards arches, as the domatic butt joint in both sides, seal the pinnacle simultaneously, it is domatic with rainwater direction both sides through the ridge tile.

The traditional tile type roof mostly adopts the structure of magnetic tiles and ceramic tiles. The copper tile is a special tile structure, compared with magnetic tile and ceramic tile structures, the copper tile is high in cost, but bright in color, exquisite in shape, grand in appearance and durable, and is particularly suitable for being used in some cultural relic buildings and landscape buildings. The material of copper tile has good plasticity, can be very convenient mould various models, and copper tile metal material can adopt welding, bolted connection etc. to fix, compares magnetic shoe, ceramic tile, and it is more reliable safety to fix. However, the material of the copper tiles also determines that the roof of the copper tile wooden house has a heat insulation structure which is not similar to that of the magnetic tiles or the ceramic tiles, and especially in summer with sufficient sunshine and sultry climate, the good heat conduction performance of the copper tiles can transfer heat generated by sunshine to the lower part of the tile surface, so that the roof of the copper tile structure can transfer more heat to the interior of the house than the roof of the magnetic tiles or the ceramic tiles.

Disclosure of Invention

The utility model aims to solve the copper tile roof heat transferability good, the piece that rises of temperature can provide a take heat radiation structure's copper tile to the more heat problem of indoor transmission.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a take heat radiation structure's brasses, the roof both sides are domatic for the symmetry, and both sides are domatic is chevron structure, and the domatic top in both sides crosses and forms the summit, has all laid the brasses face on the domatic roof both sides, leaves the clearance above the summit between the copper tiles face in both sides, and the clearance top lid is equipped with the ridge tile, be equipped with the ridge tile backup pad between the brasses face of ridge tile and both sides respectively, ridge tile backup pad below and brasses face upper surface fixation, ridge tile backup pad lower side and brasses face shape adaptation, ridge tile lower side is fixed with the last side of ridge tile backup pad, and ridge tile backup pad upper side middle section is horizontal straight flange, and the arc perk up is gone up at last side both ends, the both ends water ridge tile backup pad arc perk of ridge tile is perk, and ridge tile both ends opening. In this scheme, the structure of copper tile face temperature rise when sunshine intensity is big is fast, lead to the inside air temperature of copper tile face to rise rapidly, the clearance and the inside intercommunication of ridge tile of roofing pinnacle are passed through to copper tile face below, the ridge tile transversely link up and both ends stick up, the opening, copper tile face below hot-air rises and assembles the ridge tile passageway, and reserve from both ends opening part, form the ascending convection current's of hot-air structure, the heat of copper tile face below is constantly taken away in the source, reduce the heat of following the roof to the inside transmission in house.

Preferably, an end plate is arranged between the end parts of the ridge tile supporting plates on the two sides, a guide plate which is inclined downwards from inside to outside is arranged on the inner side of the end plate between the ridge tile supporting plates, and the bottom of the end plate is hollowed out to the upper surface of the guide plate to form a drainage groove. The water conservancy diversion structure of outside water conservancy diversion is set up to the open end below of ridge tile, avoids the rainwater to pour into copper tile face below from ridge tile opening part.

Preferably, both ends of the ridge tile are projected outward, and the end of the ridge tile is located outside the end of the ridge tile support plate to form a rain-shielding eaves.

Preferably, the copper tile surface comprises a copper bottom tile and a copper cover tile, the copper bottom tile and the copper cover tile are laid along the direction of the slope normal, the copper bottom tile and the copper cover tile are arranged along the slope surface in a transverse and alternate mode, and the side edge of the copper cover tile is lapped above the side edge of the copper bottom tile. The roof is laminated to the bottom surface of the copper bottom tile, the copper cover tile is of an upwards arched structure, an air channel extending along the normal line of the roof is arranged below the copper cover tile, and the upper end of the air channel is communicated with the bottom of the ridge tile to form a flow channel with smooth heat airflow.

Preferably, the bottom edge of the ridge tile support plate is wavy and is matched with the radian of the copper bottom tile and the copper cover tile.

Preferably, the ridge tile and the ridge tile support plate are both made of copper.

The utility model discloses copper tile face below hot-air rises and assembles in the ridge tile passageway to reserve from both ends opening part, form the ascending runner of hot-air, constantly take away the heat of copper tile face below the source, reduce the heat of following the roof to the inside transmission in house.

Drawings

Fig. 1 is a schematic diagram of an external structure of the present invention.

Fig. 2 is a schematic view of the end structure of the ridge tile at a in fig. 1 according to the present invention.

Fig. 3 is a schematic view of the connection structure between the copper tile surface and the ridge tile of the present invention.

In the figure: 1. copper tile surface, 2 ridge tile backup pad, 3 ridge tile, 4 copper cover tile, 5 copper bottom tile, 6 end plate, 7 guide plate, 8 protective net, 9 roof.

Detailed Description

The present invention will be further described with reference to the following specific embodiments and accompanying drawings.

Example (b): a copper tile with a heat dissipation structure, as shown in fig. 1-3. In this scheme, 9 both sides on roof are domatic for the symmetry, and both sides are domatic to be chevron structure, and the domatic top in both sides crosses and forms the summit, has all laid copper tile face 1 on the domatic roof both sides, leaves the clearance in the summit top between the copper tile face in both sides, and the clearance top lid is equipped with ridge tile 3, and ridge tile backup pad are the copper. Ridge tile backup pad 2 is equipped with respectively between the brasses face of ridge tile and both sides, ridge tile backup pad below and brasses face upper surface are fixed, ridge tile backup pad lower limb and brasses face shape adaptation, and ridge tile lower limb is fixed with the last side of ridge tile backup pad. The side middle section is horizontal straight flange in the ridge tile backup pad, goes up the arc perk that the side both ends make progress, the both ends water ridge tile backup pad arc of ridge tile perk, ridge tile both ends are the opening form, and the opening part sets up protection network 8. Be equipped with end plate 6 between the tip of both sides ridge tile backup pad, the inboard of end plate is equipped with guide plate 7 from inside to outside downward sloping between two ridge tile backup pads, end plate bottom fretwork to guide plate upper surface, form water drainage tank.

As shown in fig. 1 and 2, the brasses surface 1 comprises a copper bottom tile 5 and a copper cover tile 4, wherein the copper bottom tile and the copper cover tile are both laid along the direction of the slope normal, the copper bottom tile and the copper cover tile are transversely and alternately arranged along the slope, and the side edge of the copper cover tile is arranged above the side edge of the copper bottom tile. The bottom edge of the ridge tile supporting plate is wavy and is matched with the radians of the copper bottom tile and the copper cover tile. The bottom surface of the copper bottom tile is attached to the roof, the copper cover tile is of an upwards arched structure, an air channel extending along the normal line of the roof is arranged below the copper cover tile, the upper end of the air channel is communicated with the bottom space of the ridge tile, and the two ends of the ridge tile are upwards tilted and upwards tilted to form a heat dissipation flow channel of hot air flow.

Claims (6)

1. The utility model provides a take heat radiation structure's brasses, the roof both sides are domatic of symmetry, and both sides are domatic and are chevron structure, and the domatic top in both sides intersects and forms the pinnacle, its characterized in that: all laid the copper tile face on the domatic roof both sides, left the clearance in the pinnacle top between the copper tile face of both sides, the clearance top lid is equipped with the ridge tile, be equipped with ridge tile backup pad between the copper tile face of ridge tile and both sides respectively, ridge tile backup pad below and copper tile face upper surface are fixed, ridge tile backup pad lower limb and copper tile shape adaptation, and ridge tile lower limb is fixed with the last side of ridge tile backup pad, and ridge tile backup pad upper limb middle section is the horizontal straight flange, goes up the arc perk that the side both ends make progress, the both ends water ridge tile backup pad arc perk of ridge tile, ridge tile both ends opening, opening part set up the protection network.

2. The copper tile with the heat dissipation structure as recited in claim 1, wherein: the end plates are arranged between the end portions of the ridge tile supporting plates on the two sides, the guide plates which are inclined downwards from inside to outside are arranged on the inner sides of the end plates between the ridge tile supporting plates, and the bottoms of the end plates are hollowed out to the upper surfaces of the guide plates to form drainage grooves.

3. The copper tile with the heat dissipation structure as recited in claim 1 or 2, wherein: the two end parts of the ridge tile are outwards stretched out, and the end part of the ridge tile is positioned on the outer side of the end part of the ridge tile supporting plate to form a rain-shading eave.

4. The copper tile with the heat dissipation structure as recited in claim 1 or 2, wherein: the brasses face comprises a copper bottom tile and a copper cover tile, wherein the copper bottom tile and the copper cover tile are laid along the direction of a slope normal, the copper bottom tile and the copper cover tile are arranged along the slope in a transverse and alternate mode, and the side edge of the copper cover tile is arranged above the side edge of the copper bottom tile in a lap mode.

5. The copper tile with the heat dissipation structure as set forth in claim 4, wherein: the bottom edge of the ridge tile supporting plate is wavy and is matched with the radians of the copper bottom tile and the copper cover tile.

6. The copper tile with the heat dissipation structure as recited in claim 1 or 2, wherein: the ridge tile and the ridge tile supporting plate are made of copper.

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