CN216641177U - Factory building roofing system of anti-icing - Google Patents

Abstract

The utility model relates to an anti-ice factory building roof system, belongs to the technical field of building water prevention and building safety, and solves the problems that in the prior art, when ice is prevented from being generated and roof ice is removed, careless omission is easily caused by adopting a manual method and high energy consumption is caused by adopting high-price and high-tech measures. The roof waterproof thermal insulation structure comprises a first structure wall body, a second structure wall body and a waterproof thermal insulation piece, wherein the height of the first structure wall body is lower than that of the second structure wall body, two ends of the waterproof thermal insulation piece are respectively arranged at the tops of the first structure wall body and the second structure wall body, a roof intercepting ditch is arranged on the waterproof thermal insulation piece, and the roof intercepting ditch is arranged close to the first structure wall body. The factory building roof system is attractive in appearance, simple, practical, low-carbon and environment-friendly.

Description

Factory building roofing system of anti-icing

Technical Field

The utility model relates to the technical field of building water prevention and building safety, in particular to an ice-proof factory building roof system.

Background

Ever, the eaves are often full of ice due to weather factors in winter, so that the safety of personnel is endangered, and particularly, the eaves are dangerous due to gravity acceleration in high-rise buildings. At present, manual measures such as timely cleaning, long rod dropping, warning board standing and the like are commonly used at home and abroad, or energy consumption measures such as heating a roof, increasing indoor temperature and the like are adopted for solving the problems.

The existing manual processing means or high-technology means cannot well solve the actual existence of roof ice, and the common manual means such as timely cleaning, long rod dropping, warning board standing and the like cannot achieve good effect; high-tech energy consumption measures such as heating the roof, increasing the indoor temperature and the like are solved, and the high price is not in accordance with the target of carbon neutralization at the present stage in China; therefore, a physical measure to avoid the production of ice is required.

SUMMERY OF THE UTILITY MODEL

In view of the above analysis, the embodiment of the present invention aims to provide an ice-slush-preventing factory building roof system, so as to solve the problems that in the existing method, when ice slush is prevented from being generated and removed from a roof, carelessness is easily caused by adopting a manual method, and high energy consumption is caused by adopting high-price and high-tech measures.

The purpose of the utility model is mainly realized by the following technical scheme:

the utility model provides an anti-icing factory building roofing system, includes first structure wall body, second structure wall body and waterproof heat preservation spare, the height of first structure wall body is less than the height of second structure wall body, the both ends of waterproof heat preservation spare are located respectively first structure wall body with the top of second structure wall body, be equipped with the roofing catch basin on the waterproof heat preservation spare, the roofing catch basin is close to first structure wall body sets up.

Furthermore, a steel truss structure is arranged between the first structure wall and the second structure wall, and the waterproof heat-preservation part is connected with the steel truss structure, the first structure wall and the upper end of the second structure wall.

Further, the slope of waterproof heat preservation spare is 1: 5.

furthermore, a plurality of rainwater pipes communicated with the roof intercepting ditch are arranged in the length direction of the roof intercepting ditch, and the rainwater pipes are located between the first structure wall and the second structure wall and are close to the first structure wall.

Furthermore, a rainwater grate is arranged on the surface of the roof intercepting ditch.

Further, the outer sides of the first structure wall body and the second structure wall body are both provided with steel keels, and the outer sides of the steel keels are provided with waterproof and heat-insulating integrated plates.

Further, a gap is reserved between the upper end of the waterproof heat-insulation integrated plate and the waterproof heat-insulation piece, and a decorative lamp assembly is arranged in the gap.

Further, ornament lamp subassembly includes light trough and rock wool heated board, the upper end of waterproof insulation intergral template is located to the light trough, the rock wool heated board is located first structure wall body with the upper portion outside of second structure wall body.

Furthermore, the decorative lamp assembly further comprises an LED lamp strip and a steel wire mesh, the LED lamp strip is arranged in the lamp trough, and the steel wire mesh is fully distributed on the outer side of the rock wool heat-insulation board.

Furthermore, weather-proof sealant is arranged at the joint between the lamp groove and the waterproof heat-insulation piece and the waterproof heat-insulation integrated plate.

Compared with the prior art, the utility model can realize at least one of the following beneficial effects:

(1) according to the factory building roof system for preventing the icicle, the first waterproof heat-insulation component is used as a roof and is obliquely arranged, the roof catch basin is arranged on the side, close to the first structural wall body (the shorter structural wall body), of the first waterproof heat-insulation component, so that water (rainwater or snow water) flowing down from the roof is collected in the roof catch basin and is discharged, and does not flow to an eave any more, the formation of an ice edge at the eave is avoided, no careless leakage by manual means exists, no high energy consumption caused by high price and high technology exists, and the factory building roof system is simple, practical, low-carbon and environment-friendly.

(2) The rainwater grate is arranged in the roof intercepting ditch, so that the blockage of a rainwater pipe is avoided.

(3) The decorative lamp assembly is arranged above the structural wall body, so that the building is attractive in appearance, heat can be provided, and the eave is further prevented from forming ice edges.

(4) According to the utility model, the joints among the lamp trough, the waterproof heat-insulating piece and the waterproof heat-insulating integrated plate are sealed by weather-resistant sealant, so that the roof is prevented from water seepage due to upward seams.

In the utility model, the technical schemes can be combined with each other to realize more preferable combination schemes. Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model may be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the utility model, wherein like reference numerals are used to designate like parts throughout.

FIG. 1 is a schematic structural diagram of a plant roofing system according to an exemplary embodiment;

FIG. 2 is a schematic diagram of an eave-side structure of the plant roofing system of the specific embodiment;

fig. 3 is a schematic roof-side structure diagram of a plant roofing system of an embodiment.

Reference numerals:

1-a first structural wall; 11-steel keel; 12-a waterproof heat-insulating integrated plate; 2-a second structural wall; 3-waterproof heat preservation piece; 31-roof intercepting drain; 32-a rain pipe; 33-rain water grate; 4-steel truss structure; 5-decorative lamp assembly; 51-lamp trough; 52-rock wool heat preservation board.

Detailed Description

The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings, which form a part hereof, and which together with the embodiments of the utility model serve to explain the principles of the utility model and not to limit its scope.

In the description of the embodiments of the present invention, it should be noted that the term "connected" is to be understood broadly, and may be, for example, fixed, detachable, or integrally connected, and may be mechanically or electrically connected, and may be directly or indirectly connected through an intermediate medium, unless otherwise specifically stated or limited. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The terms "top," "bottom," "above … …," "below," and "on … …" as used throughout the description are relative positions with respect to components of the device, such as the relative positions of the top and bottom substrates inside the device. It will be appreciated that the devices are multifunctional, regardless of their orientation in space.

A specific embodiment of the present invention, as shown in fig. 1-3, discloses an anti-ice factory building roof system, which includes a first structural wall 1, a second structural wall 2 and a waterproof heat insulating member 3, wherein the height of the first structural wall 1 is lower than that of the second structural wall 2, two ends of the waterproof heat insulating member 3 are respectively disposed on the tops of the first structural wall 1 and the second structural wall 2, a roof intercepting gutter 31 is disposed on the waterproof heat insulating member 3, and the roof intercepting gutter 31 is disposed near the first structural wall 1.

Compared with the prior art, the factory building roofing system of ice slush that this embodiment provided, first waterproof insulation subassembly sets up as roofing and slope, it is equipped with the roofing catch basin to be close to first structure wall body (shorter structure wall body) side at first waterproof insulation subassembly, make roof water (rainwater or snow water) under running collect in the roofing catch basin and discharge, and no longer flow to the eave, avoided forming the icicle in eave department, there is not the hourglass of human means, also there is not the high price of adoption, the high energy consumption that high-tech measures brought, and is simple and practical, and low carbon environmental protection.

Be equipped with steel truss structure 4 between first structure wall 1 and the second structure wall 2, waterproof heat preservation 3 is connected with steel truss structure 4, the upper end of first structure wall 1 and second structure wall 2, specifically, waterproof heat preservation 3 is connected with steel truss structure 4 through the angle sign indicating number. The joint of the waterproof heat-insulating piece 3 and the steel truss structure 4 is sealed in two directions by a foam rod and weather-resistant sealant.

The waterproof heat-preservation piece 3 is divided into 1: the 5-slope inward (namely the back of the building) arrangement ensures that rainwater or snowing water with proper temperature in winter can be smoothly discharged, and simultaneously ensures that the roof of the building is protected when snow is not heavy (snow is used as a heat insulation board). Understandably, steel plates can be welded on the steel truss structure, and the steel plates are conventionally made into gas-insulating, heat-insulating, waterproof and protective layers.

In this embodiment, the waterproof heat-insulating member 3 is a waterproof heat-insulating integrated plate.

The roof intercepting drain 31 is communicated with a rainwater pipe 32, rainwater or snow water collected in the roof intercepting drain 31 is drained through the rainwater pipe 32, in order to avoid blocking the rainwater pipe 32, a rainwater grate 33 is arranged on the surface of the roof intercepting drain 31, and the roof intercepting drain 31 is fully paved with the rainwater grate 33. In this embodiment, a plurality of rain pipes 32 are uniformly distributed along the longitudinal direction of the roof gutter 31. The rainwater grate 33 is a galvanized steel bar rainwater grate.

Understandably, the length of the roof intercepting ditch 31 is equal to the width of the waterproof heat-insulating part 3 and is parallel to the first structural wall 1 and the second structural wall 2. The direction parallel to the first structural wall 1 or the second structural wall 2 is defined as the width direction of the waterproof heat-insulating member 3.

The storm hose 32 is located inside the first structural wall 1 defining an interior between the first structural wall 1 and the second structural wall 2. When the rain pipe 32 is located inside the first structural wall 1, the roof intercepting ditch 31 is disposed near the first structural wall 1, and the rain pipe 32 is laid along the first structural wall 1.

The inboard of first structure wall 1 and second structure wall 2 all is equipped with decorates the inner face (not shown in the figure), the outside all is equipped with steel joist 11, be equipped with waterproof insulation intergral template 12 in the outside of steel joist 11, leave about 200mm clearance between the upper end of waterproof insulation intergral template 12 and the waterproof insulation 3, be equipped with ornament lamp subassembly 5 in the clearance, ornament lamp subassembly 5 includes light trough 51, rock wool heated board 52, LED lamp area and wire mesh piece, light trough 51 is the thick galvanized steel sheet light trough of 6mm, LED lamp area is located in the light trough 51, the upper portion outside of first structure wall 1 and second structure wall 2 is located to rock wool heated board 52, avoid local cold bridge, the wire mesh piece is covered with the outside of rock wool heated board 52. The light trough 51 is fixed to the upper portion of the first structural wall 1 or the second structural wall 2 by bolts. The rock wool insulation board 52 is 100mm thick. The lamp groove 51 is 10mm higher than the wall surface, and is sealed with weather-resistant sealant at the joint between the waterproof heat-insulating piece 3 and the waterproof heat-insulating integrated plate 12, so that the roof is prevented from water seepage due to upward seams.

It should be noted that the second structural wall 2 is an L-shaped structural wall, that is, an L-shaped cut is cut at the upper end of the second structural wall 2, so that the building appearance is more beautiful.

The decorative lamp assembly 5 in the embodiment not only can provide the building appearance, but also can further provide heat, and can avoid the formation of ice edges at the eave.

The factory building roof system for preventing ice slush disclosed by the utility model is designed by combining low technology and high efficiency with the appearance of a building, and achieves the aims of water resistance, heat preservation and ice slush prevention through the simple technology integration of a structural wall body, a slope type waterproof heat-preservation integrated plate and a roof catchment ditch; meanwhile, the phenomenon of ice formation on the roof of the northern factory building is further reduced by combining the decorative lamp component; the material is easy to obtain, the construction is convenient and fast, the structure is simple, the effect is outstanding, the energy consumption is reduced, the popularization can be widely realized, particularly, the gathering of the vast members in China and the serious industrial base in the north is realized, the simple low-skill and high-efficiency series technology integration has good popularization significance.

While the utility model has been described with reference to specific preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the utility model as defined in the following claims.

Claims (10)

1. The utility model provides an anti-icing factory building roofing system, its characterized in that, includes first structure wall body (1), second structure wall body (2) and waterproof insulation spare (3), highly being less than of first structure wall body (1) the height of second structure wall body (2), the both ends of waterproof insulation spare (3) are located respectively first structure wall body (1) with the top of second structure wall body (2), be equipped with roofing catch basin (31) on waterproof insulation spare (3), roofing catch basin (31) are close to first structure wall body (1) sets up.

2. An anti-icing factory building roof system according to claim 1, wherein a steel truss structure (4) is arranged between the first structural wall (1) and the second structural wall (2), and the waterproof and heat-insulating member (3) is connected with the steel truss structure (4), the first structural wall (1) and the second structural wall (2).

3. -icicle-proof factory-building roofing system according to claim 1, characterized in that the slope of the waterproof insulation (3) is 1: 5.

4. an ice slush resistant factory building roofing system according to any one of claims 1 to 3 wherein a plurality of storm water pipes (32) are provided in communication with said roof berm (31) along the length thereof, said storm water pipes (32) being located between said first and second structural walls (1, 2) and being disposed adjacent to said first structural wall (1).

5. An ice slush resistant factory building roofing system according to claim 4 wherein said roof catchment channel (31) is faced with a rain grate (33).

6. An ice slush resistant factory building roofing system according to any one of claims 1 to 3 or 5, characterised in that the first structural wall (1) and the second structural wall (2) are each provided with a steel keel (11) on the outside, and a water-proof and heat-insulating integrated plate (12) is provided on the outside of the steel keel (11).

7. Anti-icing factory building roofing system according to claim 6, characterized in that a gap is left between the upper end of the integrated waterproof and insulating plate (12) and the waterproof and insulating member (3), inside which gap a decorative light assembly (5) is provided.

8. An anti-slush factory roof system according to claim 7, wherein the trim light assembly (5) comprises a light trough (51) and a rock wool insulation panel (52), the light trough (51) being provided at the upper end of the waterproof and insulating integrated panel (12), the rock wool insulation panel (52) being provided outside the upper portions of the first and second structural walls (1, 2).

9. The icicle-proof factory building roof system according to claim 8, wherein the decorating lamp assembly (5) further comprises an LED lamp strip and a steel mesh, the LED lamp strip is arranged in the lamp trough (51), and the steel mesh is fully distributed on the outer side of the rock wool heat-insulating plate (52).

10. Anti-icing factory building roofing system according to claim 8 or 9, characterized in that the joints between the light trough (51) and the waterproof and insulating element (3) and the waterproof and insulating integrated panel (12) are provided with weather-resistant sealant.

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