CN210563032U - Heat insulation type copper tile log cabin roof - Google Patents
Heat insulation type copper tile log cabin roof Download PDFInfo
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- CN210563032U CN210563032U CN201920917090.9U CN201920917090U CN210563032U CN 210563032 U CN210563032 U CN 210563032U CN 201920917090 U CN201920917090 U CN 201920917090U CN 210563032 U CN210563032 U CN 210563032U
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- fossil fragments
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Abstract
The utility model relates to a thermal-insulated type brasses log cabin roof solves the thermal-insulated demand height in current brasses log cabin roof, can't directly adopt the traditional roof structure problem of magnetic shoe, ceramic tile log cabin. This device log cabin roof from the bottom up sets gradually wooden rafter, it is board to look into, pitch waterproofing membrane, thermal-insulated rock wool, reinforced concrete layer, a plurality of horizontal fossil fragments are laid on the reinforced concrete layer, vertical fossil fragments are laid to horizontal fossil fragments top, look into the fixed pre-buried rod iron of board top surface, the top of pre-buried rod iron is worn to establish to reinforced concrete layer upper surface and is set up in the crosspoint of horizontal fossil fragments and vertical fossil fragments, horizontal fossil fragments, vertical fossil fragments all with pre-buried rod iron welding, weld between vertical fossil fragments and the horizontal fossil fragments, the brasses is laid in horizontal fossil fragments and vertical fossil fragments top. The utility model discloses not only thermal-insulated effectual, the fossil fragments are laid to reinforced concrete layer top moreover, and fossil fragments use pre-buried rod iron to set up braced frame for welded joint to fossil fragments construct the copper tile bearing structure as the frame, have good supporting effect.
Description
Technical Field
The utility model belongs to the building field relates to a copper tile roof structure, in particular to thermal-insulated type copper tile log cabin roof.
Background
The traditional house structure of China is mostly a log cabin, and tiles are laid on the roof of the log cabin to prevent water. 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. However, the material of the copper tiles also determines that the roof of the copper tile wooden house has a heat insulation structure different from that of the magnetic tiles or ceramic tiles, and particularly 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 wooden house has higher heat insulation requirements than the roof of the magnetic tiles or ceramic tile wooden house.
Disclosure of Invention
The utility model aims to solve current copper tile log cabin roof thermal-insulated demand height, the traditional roof structure problem that can't directly adopt magnetic shoe, ceramic tile log cabin provides a thermal-insulated type copper tile log cabin roof.
The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a thermal-insulated type brasses log cabin roof, the wooden rafter is erect on the log cabin roof, and the wooden rafter upper berth is equipped with the roof boarding, its characterized in that: it is equipped with asphalt waterproofing membrane to look into the board top subsides, and asphalt waterproofing membrane lays thermal-insulated rock wool in the top, and thermal-insulated rock wool top is watered and is established reinforced concrete layer, a plurality of horizontal fossil fragments are laid to reinforced concrete layer upper surface, and vertical fossil fragments are laid perpendicularly to horizontal fossil fragments top and horizontal fossil fragments, the fixed pre-buried rod iron of look into board top surface, the top of pre-buried rod iron is worn to establish to reinforced concrete layer upper surface and is set up in the crosspoint of horizontal fossil fragments and vertical fossil fragments, and horizontal fossil fragments, vertical fossil fragments all with pre-buried rod iron welding, welding between vertical fossil fragments and the horizontal fossil fragments, and the copper tile is laid in horizontal fossil. The device is of a wooden house structure, and the copper tiles are laid on the roof, so that heat insulation is achieved, and good support needs to be formed for the copper tiles. In this device, waterproof layer, insulating layer are laid in proper order in the roof in traditional roof board top of looking into and then are watered and establish reinforced concrete layer, not only play thermal-insulated effect, and the fossil fragments are laid to reinforced concrete layer top moreover, and fossil fragments use pre-buried rod iron to set up braced frame as welded joint to fossil fragments construct the copper tile bearing structure as the frame, have good supporting effect.
As preferred, the equidistant welding in horizontal fossil fragments top has the copper tile support, the copper tile includes interior cambered surface copper shoe and the copper cover tile that extrados face up, the copper shoe card is established between adjacent copper tile support, the copper cover tile is detained and is established on the copper tile support.
Preferably, the bottom end of the embedded steel bar is welded with a stainless steel foot plate, and the stainless steel foot plate is fixed on the roof boarding through a self-tapping screw.
Preferably, the reinforced concrete layer comprises a reinforcing mesh and fine stone concrete poured in gaps of the reinforcing mesh.
Preferably, the thickness of the reinforced concrete layer is not less than 50mm, and the size of the steel bar mesh is not less than 3 mm.
Preferably, the thickness of the heat-insulating rock wool is not less than 6 mm.
The utility model discloses waterproof layer, insulating layer are laid in proper order in the roof of copper tile log cabin in looking board top, then water and establish reinforced concrete layer, not only play thermal-insulated effect, and reinforced concrete layer top is laid fossil fragments moreover, and fossil fragments use pre-buried rod iron to set up braced frame for welded node to fossil fragments construct copper tile bearing structure as the frame, have good supporting effect.
Drawings
Fig. 1 is a schematic structural view of the roof without copper tiles.
Fig. 2 is the schematic diagram of the structure of the pre-buried steel bar of the present invention.
In the figure: 1. roof, 2, wood rafters, 3, roof boarding, 4, asphalt waterproofing membrane, 5, heat-insulating rock wool, 6, reinforced concrete layer, 7, transverse keel, 8, longitudinal keel, 9, copper tile bracket, 10, copper tile opening, 11, embedded steel bar, 12, stainless steel foot plate, 13 and self-tapping screw.
Detailed Description
The present invention will be further described with reference to the following specific embodiments and accompanying drawings.
Example (b): an insulated copper shingle cabin roof, as shown in figure 1. A wooden rafter 2 is erected on a wooden house roof 1, a roof boarding 3 is laid on the wooden rafter, an asphalt waterproof coiled material 4 is attached to the top of the roof boarding, heat-insulation rock wool 5 is laid on the upper portion of the asphalt waterproof coiled material, and a reinforced concrete layer 6 is poured on the upper portion of the heat-insulation rock wool. The thickness of the roof boarding is 30mm, the thickness of the asphalt waterproof coiled material is 3mm, the thickness of the heat-insulating rock wool is 6mm, the thickness of the reinforced concrete layer is not less than 50mm, the reinforced concrete layer comprises a reinforcing mesh and fine aggregate concrete poured in the gap of the reinforcing mesh, and the size of the reinforcing mesh is not less than 3 mm.
A plurality of transverse keels 7 are laid on the upper surface of the reinforced concrete layer 6, and longitudinal keels 8 are laid above the transverse keels and perpendicular to the transverse keels. As shown in fig. 2, the top surface of the roof boarding 3 is fixed with an embedded steel bar 11, the bottom end of the embedded steel bar is welded with a stainless steel foot plate 12, and the stainless steel foot plate is fixed on the roof boarding 3 through a self-tapping screw 13. The top of pre-buried rod iron is worn to establish to reinforced concrete layer upper surface and is set up in the crosspoint of horizontal fossil fragments and vertical fossil fragments, and horizontal fossil fragments 7, vertical fossil fragments 8 all weld with pre-buried rod iron 11, weld between vertical fossil fragments 8 and the horizontal fossil fragments 7, and the brasses is laid in horizontal fossil fragments and vertical fossil fragments top. The equidistant welding in horizontal fossil fragments top has brasses support 9, the brasses includes interior cambered surface copper base tile and outer cambered surface copper cover tile up, the brasses card is established between adjacent brasses support, the brasses detains and establishes on the brasses support. The lowest end on roof slope is equipped with copper tile mouth 10, and the equidistant arc wall of having seted up on the copper tile mouth, and the arc wall aligns with the clearance of copper tile support 9 for bracket copper bottom tile.
The device is of a wooden house structure, and the copper tiles are laid on the roof, so that heat insulation is achieved, and good support needs to be formed for the copper tiles. In this device, waterproof layer, insulating layer are laid in proper order in the roof in traditional roof board top of looking into and then are watered and establish reinforced concrete layer, not only play thermal-insulated effect, and the fossil fragments are laid to reinforced concrete layer top moreover, and fossil fragments use pre-buried rod iron to set up braced frame as welded joint to fossil fragments construct the copper tile bearing structure as the frame, have good supporting effect.
Claims (6)
1. The utility model provides a thermal-insulated type brasses log cabin roof, the wooden rafter is erect on the log cabin roof, and the wooden rafter upper berth is equipped with the roof boarding, its characterized in that: it is equipped with asphalt waterproofing membrane to look into the board top subsides, and asphalt waterproofing membrane lays thermal-insulated rock wool in the top, and thermal-insulated rock wool top is watered and is established reinforced concrete layer, a plurality of horizontal fossil fragments are laid to reinforced concrete layer upper surface, and vertical fossil fragments are laid perpendicularly to horizontal fossil fragments top and horizontal fossil fragments, the fixed pre-buried rod iron of look into board top surface, the top of pre-buried rod iron is worn to establish to reinforced concrete layer upper surface and is set up in the crosspoint of horizontal fossil fragments and vertical fossil fragments, and horizontal fossil fragments, vertical fossil fragments all with pre-buried rod iron welding, welding between vertical fossil fragments and the horizontal fossil fragments, and the copper tile is laid in horizontal fossil.
2. The insulated type cuprammonia shingle roof of claim 1, wherein: the equidistant welding of horizontal fossil fragments top has the copper tile support, the copper tile includes interior cambered surface copper base tile and outer cambered surface copper cover tile up, the copper base tile card is established between adjacent copper tile support, the copper cover tile is detained and is established on the copper tile support.
3. The insulated type cuprammonia shingle roof of claim 1, wherein: the bottom end of the embedded steel bar is welded with a stainless steel foot plate, and the stainless steel foot plate is fixed on the roof boarding through a self-tapping screw.
4. An insulated copper shingle roofing as defined in claim 1, 2 or 3 wherein: the reinforced concrete layer comprises a reinforcing mesh and fine aggregate concrete poured in the gap of the reinforcing mesh.
5. The insulated cuprammonia shingle roof of claim 4, wherein: the thickness of the reinforced concrete layer is not less than 50mm, and the size of the steel bar mesh is not less than 3 mm.
6. An insulated copper shingle roofing as defined in claim 1, 2 or 3 wherein: the thickness of the heat-insulating rock wool is not less than 6 mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920917090.9U CN210563032U (en) | 2019-06-18 | 2019-06-18 | Heat insulation type copper tile log cabin roof |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920917090.9U CN210563032U (en) | 2019-06-18 | 2019-06-18 | Heat insulation type copper tile log cabin roof |
Publications (1)
Publication Number | Publication Date |
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CN210563032U true CN210563032U (en) | 2020-05-19 |
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Family Applications (1)
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CN201920917090.9U Active CN210563032U (en) | 2019-06-18 | 2019-06-18 | Heat insulation type copper tile log cabin roof |
Country Status (1)
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CN (1) | CN210563032U (en) |
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2019
- 2019-06-18 CN CN201920917090.9U patent/CN210563032U/en active Active
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