CN216787676U - Anticorrosive impervious heat preservation roofing of building - Google Patents

Abstract

The application relates to the technical field of building roofs, in particular to a building anticorrosion and anti-permeability heat-insulation roof, which comprises a first anticorrosion plate, a second anticorrosion plate and a heat-insulation plate, wherein the first anticorrosion plate is rectangular and horizontally arranged, a connecting cavity is formed in the first anticorrosion plate, and the heat-insulation plate is embedded in the connecting cavity; the first trapezoid table is arranged inside the first anti-corrosion plate, the lower bottom surface of the first trapezoid table is arranged close to the connecting cavity, and heat preservation cavities are formed inside the first trapezoid table and the first anti-corrosion plate; the second anti-corrosion plate is rectangular and is fixed on the first anti-corrosion plate, the second anti-corrosion plate is close to the first trapezoid table, a second trapezoid table is fixed on the second anti-corrosion plate, and the area of the lower bottom surface of the second trapezoid table is larger than that of the bottom surface of the second anti-corrosion plate; the water blocking ring is vertically arranged, the lower side of the water blocking ring is fixed on the outer side face of the second trapezoidal platform, the water blocking ring surrounds the upper bottom face of the second trapezoidal platform, and the height of the upper side of the water blocking ring is higher than that of the upper bottom face of the second trapezoidal platform. This application has the effect of the reinforcing of the whole performance of using of realization to the roofing.

Description

Anticorrosive impervious heat preservation roofing of building

Technical Field

The application relates to the technical field of building roofs, in particular to a building anticorrosion and anti-permeability heat-insulation roof.

Background

In buildings such as houses, the shapes of the buildings are mostly polygonal cuboids, the structures of the four sides are mostly, and the interiors of the buildings are hollow, so that users can decorate or place required objects. The plane layer and each side of periphery of house top position directly contact with the external world, realize protecting house inner space, and the roofing is the superficial layer on building roof, also indicates the part between ridge and the eaves, and this part occupies the great part of roof area, and the roofing of top layer position mainly bears the influence of weather or environmental change.

In view of the above-mentioned related technologies, the inventor found that, since the roof is mainly and directly subjected to the influence of weather such as insolation or rainfall, and the influence of changes in cold or humid environments, the overall service performance of the roof is easily reduced, and normal use is affected.

SUMMERY OF THE UTILITY MODEL

In order to realize the enhancement of the overall service performance of the roof, the application provides a building anticorrosion and anti-permeability heat-insulation roof.

The application provides a building anticorrosive impervious heat preservation roofing adopts following technical scheme:

an anticorrosive impervious insulation roofing for buildings, comprising:

the first anti-corrosion plate is rectangular and horizontally arranged, a connecting cavity is formed in the first anti-corrosion plate, and a heat insulation plate is embedded in the connecting cavity;

the first trapezoid table is arranged inside the first anti-corrosion plate, the lower bottom surface of the first trapezoid table is arranged close to the connecting cavity, and heat preservation cavities are formed inside the first trapezoid table and the first anti-corrosion plate;

the second anti-corrosion plate is rectangular and fixed on the first anti-corrosion plate, the second anti-corrosion plate is close to the first trapezoid table, a second trapezoid table is fixed on the second anti-corrosion plate, and the area of the lower bottom surface of the second trapezoid table is larger than that of the bottom surface of the second anti-corrosion plate;

the water blocking ring is vertically arranged, the lower side of the water blocking ring is fixed on the outer side face of the second trapezoid table, the water blocking ring surrounds the bottom face of the second trapezoid table, and the upper side of the water blocking ring is higher than the bottom face of the second trapezoid table.

Through adopting above-mentioned technical scheme, first anticorrosive board and second anticorrosive board realize the reinforcing to the corrosion protection of roofing, the heat preservation chamber realizes the reinforcing to the heat preservation of roofing with the heated board, the water blocking circle realizes the concentrated drainage when great the precipitation, and the lower bottom surface area of the trapezoidal platform of second is greater than the bottom surface area of second anticorrosive board, when realizing rainfall weather, the rainwater flows out from the side of the trapezoidal platform of second, prevent rivers such as rainwater or snow melt and flow through each side of building periphery, reduce building wall infiltration probability, first anticorrosive board, the second anticorrosive board, mutually support between first trapezoidal platform and the trapezoidal platform of second, thereby realize the reinforcing to the whole performance of roofing.

Optionally, the water blocking ring and the upper bottom surface of the second trapezoid table form a liquid level cavity, a first through hole is formed in the lower side of the water blocking ring, and the first through hole is communicated with the liquid level cavity.

Through adopting above-mentioned technical scheme, the centralized processing to rainwater etc. is realized to the liquid level chamber, discharges the ponding of liquid level intracavity through first through-hole, and is easy and simple to handle.

Optionally, the upper side surface and the lower side surface of the connecting cavity are both tooth-shaped surfaces, and the upper side surface and the lower side surface of the heat insulation plate can be inserted into the tooth-shaped surfaces.

Through adopting above-mentioned technical scheme, the heated board passes through the profile of tooth face with the connection chamber and is connected, makes the heated board stabilize in the connection intracavity, guarantees the thermal insulation performance of first anticorrosive board.

Optionally, the first trapezoidal table and the second trapezoidal table are both light anti-corrosion trapezoidal tables.

By adopting the technical scheme, the light anti-corrosion trapezoidal platform is light in overall weight, can reduce the pressure of a roof on a building, and meanwhile can enhance the anti-corrosion performance of the roof.

Optionally, a second through hole is formed in the periphery of the first anti-corrosion plate, the second through hole is communicated with the heat preservation cavity, and a plug is inserted into the second through hole.

Through adopting above-mentioned technical scheme, realize the sealed to the heat preservation chamber through the shutoff, can keep warm the operation through the second through-hole in to the heat preservation chamber, guarantee the thermal insulation performance of roofing.

Optionally, the water blocking ring is provided with a scale groove along the vertical height direction thereof.

Through adopting above-mentioned technical scheme, confirm the ponding liquid level height in the liquid level intracavity through scale groove registration, be convenient for in time carry out drainage treatment to ponding.

Optionally, a plurality of support columns are arranged in the heat preservation cavity, each support column is vertically arranged, and each support column is respectively arranged at a corner position of the upper bottom surface of the first trapezoidal platform.

Through adopting above-mentioned technical scheme, the support column realizes the support to the anticorrosive board of second and the trapezoidal platform of second, and realizes guaranteeing that the heat preservation chamber normally comes into use to the design in heat preservation chamber.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the first anticorrosive plate and the second anticorrosive plate enhance the anticorrosive performance of the roof, the heat preservation cavity and the heat preservation plate enhance the heat preservation performance of the roof, the water blocking ring realizes centralized drainage when the precipitation is large, the area of the lower bottom surface of the second trapezoidal platform is larger than that of the bottom surface of the second anticorrosive plate, rainwater flows out from the side surface of the second trapezoidal platform in rainy days, rainwater or snow melting and other water flows are prevented from flowing through each side surface of the periphery of a building, the water seepage probability of the wall surface of the building is reduced, and the first anticorrosive plate, the second anticorrosive plate, the first trapezoidal platform and the second trapezoidal platform are mutually matched, so that the overall service performance of the roof is enhanced;

2. the heat insulation board is connected with the connecting cavity through the tooth-shaped surface, so that the heat insulation board is stable in the connecting cavity, the heat insulation cavity is sealed through plugging, heat insulation treatment can be performed on the heat insulation cavity through the second through hole, and the heat insulation performance of the roof is guaranteed;

3. the liquid level cavity realizes centralized treatment on rainwater and the like, the accumulated water liquid level height in the liquid level cavity is determined by counting through the scale groove, drainage treatment on the liquid level cavity in an accumulated water state is facilitated in time through the first through hole to drain accumulated water, and the operation is simple and convenient;

4. the support column realizes the support to the anticorrosive board of second and the trapezoidal platform of second, realizes the design to the heat preservation chamber, guarantees that the heat preservation chamber normally comes into use.

Drawings

FIG. 1 is a schematic view of the overall structure of a corrosion-resistant, impervious and heat-insulating roof of a building according to an embodiment of the present application.

Fig. 2 is a cross-sectional view of the whole structure of the anti-corrosion and anti-permeability heat-insulation roof of the building in the embodiment of the application.

Description of reference numerals: 1. a first corrosion protection plate; 11. a connecting cavity; 111. a toothed surface; 112. a thermal insulation board; 12. a first trapezoidal table; 13. a heat preservation cavity; 14. a support pillar; 15. a second through hole; 151. plugging; 2. a second corrosion protection plate; 3. a second trapezoidal platform; 31. a water retaining ring; 311. a scale groove; 312. a liquid level chamber; 313. a first via.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a building anticorrosion impervious heat preservation roofing.

Referring to fig. 1 and 2, the building anticorrosion impervious insulation roof comprises a first anticorrosion plate 1 of a horizontally arranged rectangular plate-shaped structure, a rectangular connecting cavity 11 is formed in the first anticorrosion plate 1, tooth-shaped surfaces 111 are formed on the upper side surface and the lower side surface of the connecting cavity 11, an insulation plate 112 is embedded in the connecting cavity 11, the inner peripheral surface structure of the connecting cavity 11 is arranged on each side surface of the periphery of the insulation plate 112 correspondingly, and the insulation plate 112 can be inserted into the tooth-shaped surfaces 111.

Referring to fig. 1 and 2, first anticorrosive board 1 is inside to be vertically provided with first trapezoidal platform 12, the lower bottom surface of first trapezoidal platform 12 is close to the setting of connecting chamber 11, first trapezoidal platform 12 periphery and the inside heat preservation chamber 13 that forms of first anticorrosive board 1, and first trapezoidal platform 12 is on a parallel with heat preservation chamber 13, be provided with a plurality of support columns 14 in the heat preservation chamber 13, the equal vertical setting of each support column 14, each support column 14 sets up respectively in first trapezoidal platform 12 upper surface turning position, the both ends of support column 14 are fixed in respectively on first trapezoidal platform 12 upper surface and the heat preservation chamber 13 upper surface, and can carry out evacuation in the heat preservation chamber 13 and handle or add realization heat preservation such as heater strip.

Referring to fig. 1 and 2, a second through hole 15 is formed in the peripheral side wall of the first anticorrosive plate 1, the second through hole 15 is communicated with the heat preservation cavity 13, and a plug 151 is inserted into the second through hole 15.

Referring to fig. 1 and 2, first corrosion protection board 1 realizes the reinforcing to the corrosion protection of roofing, heated board 112 passes through tooth face 111 with connection chamber 11 and is connected, make heated board 112 stabilize in connection chamber 11, can be to heat preservation chamber 13 in time evacuation treatment through second through-hole 15, realize the heat transfer that the isolated air convection in heat preservation chamber 13 arouses, make the coefficient of heat conductivity in heat preservation chamber 13 reduce, then realize sealing to heat preservation chamber 13 through shutoff 151, or at the fixed heater strip of heat preservation chamber 13 inner peripheral surface, seal the heater strip work in heat preservation chamber 13 through shutoff 151, thereby guarantee the heat preservation of roofing, heat preservation chamber 13 realizes the reinforcing to the heat preservation of roofing with heated board 112 jointly, and realize the design to heat preservation chamber 13 through support column 14, guarantee that heat preservation chamber 13 normally drops into use.

Referring to fig. 1 and 2, a second anticorrosive board 2 with a rectangular plate-shaped structure is fixed on the upper side of the first anticorrosive board 1, the second anticorrosive board 2 is the same as the first anticorrosive board 1 in size, a second trapezoidal table 3 is vertically fixed on the second anticorrosive board 2, the second trapezoidal table 3 is parallel to the second anticorrosive board 2, the area of the lower bottom surface of the second trapezoidal table 3 is greater than the area of the bottom surface of the second anticorrosive board 2, and the lower bottom surface of the second trapezoidal table 3 extends out of the second anticorrosive board 2.

Referring to fig. 1 and 2, a water blocking ring 31 is vertically arranged on the second trapezoidal platform 3, the water blocking ring 31 is in a rectangular frame structure, the lower side of the water blocking ring 31 is fixed on each side surface of the periphery of the second trapezoidal platform 3, the water blocking ring 31 surrounds the upper bottom surface of the second trapezoidal platform 3, and the upper side of the water blocking ring 31 is higher than the upper bottom surface of the second trapezoidal platform 3.

Referring to fig. 1 and 2, a scale groove 311 is formed in one side surface of the water blocking ring 31 along a vertical height direction thereof, a liquid level cavity 312 is formed between the water blocking ring 31 and the upper bottom surface of the second trapezoid table 3, a first through hole 313 is formed in the lower side of the water blocking ring 31, and the first through hole 313 is communicated with the liquid level cavity 312.

Referring to fig. 1 and 2, the second corrosion prevention plate 2 enhances the corrosion prevention performance of the roof, prevents rainwater from penetrating into the heat preservation cavity 13, reduces seeper water from penetrating the roof, the area of the lower bottom surface of the second trapezoidal platform 3 is larger than that of the second corrosion prevention plate 2, and when rainfall weather is realized, rainwater is gradually guided out from the top to the bottom of the side surface of the second trapezoidal platform 3, so that rainwater or snow melting and other water flows through each side surface of the periphery of the building are prevented, and the water seepage probability is reduced.

Referring to fig. 1 and 2, liquid level chamber 312 realizes the centralized processing to rivers such as rainwater or snow melt, through reading the registration of ponding liquid level on scale groove 311, confirm the ponding liquid level height in liquid level chamber 312, be convenient for in time carry out drainage treatment to the liquid level chamber 312 of ponding state, the rethread first through-hole 313 is discharged ponding, and is easy and simple to handle, realize the prevention of seepage water protection of roofing, first anticorrosive board 1, second anticorrosive board 2, mutually support between the trapezoidal platform of first trapezoidal platform 12 and the trapezoidal platform of second 3 four, thereby realize the reinforcing to the whole performance of roofing.

Referring to fig. 1 and 2, first trapezoidal platform 12 and second trapezoidal platform 3 are the anticorrosive trapezoidal platform of light, and first trapezoidal platform 12 and second trapezoidal platform 3 can adopt the trapezoidal platform of glass fiber material, and the glass fiber material is light in weight compared with the concrete material, and good such as heat preservation, corrosion resisting property, can reduce the pressure of roofing to the building, realizes the reinforcing to the anticorrosive property, the thermal insulation performance of roofing.

The implementation principle of the building anticorrosion and anti-permeability heat-insulation roof in the embodiment of the application is as follows: first anticorrosive board 1 and second anticorrosive board 2 realize the reinforcing to the corrosion protection of roofing, realize the heat preservation through first through-hole 313 to heat preservation chamber 13 and handle, heat preservation chamber 13 realizes the reinforcing to the heat preservation of roofing with heated board 112 jointly.

Water blocking ring 31 realizes the concentrated drainage treatment of the rain and snow climate when the rainfall is great, and the lower bottom surface area of the trapezoidal platform 3 of second is greater than the bottom surface area of the second corrosion prevention plate 2, when realizing the rainfall weather, the rainwater is convenient for flow out from the peripheral side of the trapezoidal platform 3 of second, prevent rivers such as rainwater or snow melting from flowing through each side of the building periphery, reduce the infiltration probability, and confirm the ponding volume in the basin through scale groove 311, be convenient for in time with ponding from the drainage in first through-hole 313.

The support column 14 realizes the support of the second anti-corrosion plate 2 and the second trapezoidal table 3, realizes the shaping of the heat preservation cavity 13, and ensures that the heat preservation cavity 13 is normally put into use. The first anticorrosive board 1, the second anticorrosive board 2, the first trapezoidal platform 12 and the second trapezoidal platform 3 are mutually matched, so that the overall service performance of the roof is enhanced.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. An anticorrosive impervious heat preservation roofing of building which characterized in that includes:

the first anti-corrosion plate (1) is rectangular and horizontally arranged, a connecting cavity (11) is formed in the first anti-corrosion plate (1), and a heat insulation plate (112) is embedded in the connecting cavity (11);

the first trapezoid table (12) is arranged inside the first anti-corrosion plate (1), the lower bottom surface of the first trapezoid table (12) is arranged close to the connecting cavity (11), and heat preservation cavities (13) are arranged inside the first trapezoid table (12) and the first anti-corrosion plate (1);

the second anti-corrosion plate (2) is rectangular and fixed to the first anti-corrosion plate (1), the second anti-corrosion plate (2) is arranged close to the first trapezoid table (12), a second trapezoid table (3) is fixed on the second anti-corrosion plate (2), and the area of the lower bottom surface of the second trapezoid table (3) is larger than that of the bottom surface of the second anti-corrosion plate (2);

water blocking ring (31), vertical setting, water blocking ring (31) downside is fixed in the trapezoidal platform of second (3) lateral surface, water blocking ring (31) surround the setting of bottom surface on the trapezoidal platform of second (3), water blocking ring (31) upside height is higher than the height of bottom surface on the trapezoidal platform of second (3).

2. The corrosion-resistant impervious heat-insulating roof of the building as claimed in claim 1, wherein: the water blocking ring (31) and the upper bottom surface of the second trapezoid table (3) form a liquid level cavity (312), a first through hole (313) is formed in the lower side of the water blocking ring (31), and the first through hole (313) is communicated with the liquid level cavity (312).

3. The corrosion-resistant impervious insulation roof of the building as claimed in claim 1, wherein: the upper side surface and the lower side surface of the connecting cavity (11) are both tooth-shaped surfaces (111), and the upper side surface and the lower side surface of the heat insulation plate (112) can be inserted into the tooth-shaped surfaces (111).

4. The corrosion-resistant impervious insulation roof of the building as claimed in claim 1, wherein: the first trapezoidal table (12) and the second trapezoidal table (3) are both light anti-corrosion trapezoidal tables.

5. The corrosion-resistant impervious insulation roof of the building as claimed in claim 1, wherein: second through-hole (15) have been seted up to first anticorrosive board (1) periphery, second through-hole (15) intercommunication heat preservation chamber (13), second through-hole (15) interpolation is equipped with shutoff (151).

6. The corrosion-resistant impervious heat-insulating roof of the building as claimed in claim 1, wherein: the water blocking ring (31) is provided with a scale groove (311) along the vertical height direction.

7. The corrosion-resistant impervious insulation roof of the building as claimed in claim 5, wherein: a plurality of supporting columns (14) are arranged in the heat preservation cavity (13), each supporting column (14) is vertically arranged, and each supporting column (14) is arranged at the corner position of the upper bottom surface of the first trapezoidal table (12) respectively.

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