CN213868607U

CN213868607U - Outdoor floating platform roof structure

Info

Publication number: CN213868607U
Application number: CN202021957323.7U
Authority: CN
Inventors: 邵帅; 齐鸿力; 杨锦华; 王潇依; 刘培源
Original assignee: China Construction First Group Corp Ltd; China Construction First Bureau Group North China Construction Co Ltd
Current assignee: China Construction First Group Corp Ltd; China Construction First Bureau Group North China Construction Co Ltd
Priority date: 2020-09-09
Filing date: 2020-09-09
Publication date: 2021-08-03
Anticipated expiration: 2030-09-09

Abstract

The utility model discloses an outdoor floating platform roofing structure. The floating floor slab adopts a sinking method in a roof system, the top elevation of the roof method is kept unchanged, the bottom elevation is controlled according to the slope finding thickness, the bottom of the vibration isolation glue is subjected to slope finding, and a pit is arranged on one side, so that no water is accumulated in the vibration isolation glue, the water leakage hidden danger is avoided, the technical problems that the water accumulation is easy to occur in the existing vibration glue layer and the water leakage hidden danger is caused because the floating floor slab construction technology cannot deal with the conformity with the roof method are solved, and the floating floor slab has outstanding substantive progress.

Description

Outdoor floating platform roof structure

Technical Field

The utility model belongs to float building platform roofing construction field, in particular to outdoor float building platform roofing structure.

Background

The floating floor sound insulation pad is a floating floor sound insulation solution specially developed for buildings such as villas, high-rise apartments, commercial and residential dual-purpose buildings, and has the characteristics and the functionality endowed in the product development process, so that the floating floor sound insulation pad can provide the maximum impact sound pressure level improvement effect for the floating floor.

At present, the top end of a structural floor slab is provided with vibration isolation rubber, and the top end of the vibration isolation rubber is provided with reinforced concrete. However, in the actual use process, the vibration isolation glue layer is easy to accumulate water, and the floating floor construction technology cannot deal with the problem of water leakage hidden trouble caused by the fact that the construction technology is matched with the roof construction method.

SUMMERY OF THE UTILITY MODEL

The utility model provides an outdoor floating platform roof structure for solve the vibration isolation glue film and appear ponding easily, float the unable processing of floor construction technique and agree with the roofing way and cause the technical problem that has the hidden danger of leaking.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an outdoor floating platform roof structure comprises a structural floor, wherein a floating floor slope layer and a leveling layer positioned at the lower end of the floating floor slope layer are respectively arranged at the top of the structural floor, clay is arranged at the top of the waterproof coating floating floor slope layer, a fine stone concrete protective layer is arranged at the top end of the clay, vibration isolation glue is arranged at the top end of the fine stone concrete protective layer, a steel template is welded and laid at the top end of the vibration isolation glue, waterproof asphalt paper is laid at the top end of the steel template, a concrete floating platform is arranged at the top end of the waterproof asphalt paper, a fine stone protection slope layer is arranged at the top end of the leveling layer, the lower end of the fine stone protection slope layer is communicated with a drainage ditch, a gutter is arranged at the top end of the fine stone protection slope layer, the height of the gutter is the same as that of the concrete floating platform, one side of the concrete floating platform except the drainage ditch and two sides of the gutter are respectively provided with concrete partition walls, the drain pipe has been buried underground in the concrete partition wall between concrete floating platform and the gutter, and the drain pipe is higher than the ditch bottom of gutter, is provided with the drain valve on the drain pipe, and the inboard and the top of gutter and the top of concrete floating platform set up continuous cement mortar anchor coat, sets up anti-skidding ceramic tile on the cement mortar anchor coat, and clay and floating floor seek between the slope layer and leveling blanket and fine stone protection seek between the slope layer laid waterproof coating in succession, and the waterproof coating bottom at clay both ends still is provided with waterproofing membrane, and waterproofing membrane extends to the concrete divider wall and keeps away from the one end of concrete floating platform, floating floor seeks the slope layer and seeks the slope for 8%, fine stone protection seeks the slope layer and seeks the slope for 1%.

By adopting the technical scheme, the floating floor slab adopts a sinking type method in a roof system, the top elevation of the roof method is kept unchanged, the bottom elevation is controlled according to the slope finding thickness, the bottom of the vibration isolation glue is subjected to slope finding, and a pit is arranged on one side, so that no water is accumulated in the vibration isolation glue, the water leakage hidden danger is avoided, the technical problems that the water accumulation is easy to occur in the existing vibration glue layer and the water leakage hidden danger is caused because the floating floor slab construction technology cannot deal with the coincidence with the roof method are solved, the substantial progress is prominent, the slope finding angle is reasonable, the water can be drained, and the occupied height is small.

Preferably, the drain valve is a one-way valve.

Through adopting above-mentioned technical scheme, can prevent that the water in the gutter from flowing backwards to the vibration isolation glue inside, play the effect of preventing flowing backwards.

Preferably, sealant is filled between the anti-slip floor tiles at the top end of the concrete partition wall and the anti-slip floor tiles at the top end of the floating platform.

Through adopting above-mentioned technical scheme, can play sealed effect that blocks water.

Preferably, the floating floor slab slope-finding layer and the leveling layer are ceramsite concrete or foam concrete.

Through adopting above-mentioned technical scheme, stability is good, and heat preservation sound insulation is effectual.

Preferably, the waterproof coating film is a 2mm thick non-cured rubberized asphalt coating film.

By adopting the technical scheme, the waterproof effect is good, and the materials are convenient to obtain.

Preferably, the waterproof coiled material is a polyester-based self-adhesive polymer modified asphalt coiled material.

Preferably, the thickness of the leveling layer is 30mm, the thinnest position of the floating floor slope finding layer is 30mm, the thickest position is 180mm, the waterproof coating is 2mm thick, the waterproof coiled material is 3mm thick, the vibration isolation glue is 50 x 50 specification, the steel template is 2mm thick, the concrete floating platform is 100mm thick, and the cement mortar combined layer is 25mm thick 1: 3, a dry and hard cement mortar bonding layer, and the anti-skid floor tile is 10mm thick.

Through adopting above-mentioned technical scheme, the size is arranged rationally, and structural strength is high, has sufficient stability.

The beneficial effects of the utility model are embodied in: the floating floor slab adopts a sinking method in a roof system, the top elevation of the roof method is kept unchanged, the bottom elevation is controlled according to the slope finding thickness, the bottom of the vibration isolation glue is subjected to slope finding, and a pit is arranged on one side, so that no water is accumulated in the vibration isolation glue, the water leakage hidden danger is avoided, the technical problems that the water accumulation is easy to occur in the existing vibration glue layer and the water leakage hidden danger is caused because the floating floor slab construction technology cannot deal with the conformity with the roof method are solved, and the floating floor slab has outstanding substantive progress.

Additional features and advantages of the invention 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 invention; the primary objects and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is an enlarged view of a point a in fig. 1.

Reference numerals: 1. a structural floor slab; 2. floating building a slope layer of a floor slab; 3. leveling layer; 4. clay; 5. a fine stone concrete protective layer; 6. vibration isolation glue; 7. a steel form; 8. a concrete floating platform; 9. protecting a slope layer by fine stones; 10. gutter; 11. a concrete dividing wall; 12. a drain pipe; 13. a drain valve; 14. a cement mortar bonding layer; 15. anti-skid floor tiles; 16. waterproof coating; 17. waterproof coiled materials; 18. and (7) sealing the glue.

Detailed Description

The technical solutions of the present invention are described in detail below by way of examples, which are only exemplary and can be used only for explaining and explaining the technical solutions of the present invention, but not for explaining the limitations of the technical solutions of the present invention.

Referring to fig. 1 and 2, an outdoor floating platform roof structure comprises a structural floor 1, a floating floor slope layer 2 and a leveling layer 3 located at the lower end of the floating floor slope layer 2 are respectively arranged at the top of the structural floor 1, clay 4 is arranged at the top of the waterproof coating floating floor slope layer 2, a fine stone concrete protective layer 5 is arranged at the top of the clay 4, vibration isolation glue 6 is arranged at the top of the fine stone concrete protective layer 5, a steel template 7 is welded and laid at the top end of the vibration isolation glue 6, waterproof asphalt paper is laid at the top end of the steel template 7, a concrete floating platform 8 is arranged at the top end of the waterproof asphalt paper, a fine stone protection slope layer 9 is arranged at the top end of the leveling layer 3, the lower end of the fine stone protection slope layer 9 is communicated with a drainage ditch, a gutter 10 is arranged at the top end of the fine stone protection slope layer 9, the height of the gutter 10 is the same as that of the concrete floating platform 8, concrete partition walls are respectively arranged at one side of the concrete floating platform 8 except the drainage ditch and at the two sides of the gutter 10, the drain pipe 12 has been buried underground in the concrete division wall 11 between concrete floating platform 8 and the gutter 10, drain pipe 12 is higher than at the bottom of the ditch of gutter 10, be provided with drain valve 13 on the drain pipe 12, the inboard and the top of gutter 10 and the top of concrete floating platform 8 set up continuous cement mortar anchor coat 14, set up anti-skidding ceramic tile 15 on the cement mortar anchor coat 14, clay 4 and floating floor seek between the slope layer 2 and leveling course 3 and fine stone protection seek between the slope layer 9 and laid waterproof membrane 16 in succession, waterproof membrane 16 bottoms at clay 4 both ends still are provided with waterproofing membrane 17, waterproofing membrane 17 extends to concrete division wall 11 and keeps away from the one end of concrete floating platform 8.

The floating floor slab adopts a sinking method in a roof system, the top elevation of the roof method is kept unchanged, the bottom elevation is controlled according to the slope finding thickness, the bottom of the vibration isolation glue 6 is subjected to slope finding, and a pit is arranged on one side, so that no water is accumulated in the vibration isolation glue 6, the water leakage hidden danger is avoided, the technical problems that the water accumulation is easy to occur in the existing vibration glue layer and the water leakage hidden danger is caused because the floating floor slab construction technology cannot deal with the conformity with the roof method are solved, and the floating floor slab has outstanding substantive progress.

The drain valve 13 is a one-way valve, and can prevent water in the gutter 10 from flowing back to the inside of the vibration isolation rubber 6, so that a backflow prevention effect is achieved.

The floating floor is characterized in that the slope finding layer 2 is used for finding 8% of slopes, the fine stone protection slope finding layer 9 is used for finding 1% of slopes, the angle of the slope finding is reasonable, water can be drained, and the occupied height is small.

And sealant 18 is filled between the anti-skid floor tiles 15 at the top end of the concrete partition wall and the anti-skid floor tiles 15 at the top end of the floating platform, so that the effect of sealing and water blocking can be achieved.

The floating floor slope layer 2 and the leveling layer 3 are made of ceramsite concrete or foam concrete, and have good stability and good heat and sound insulation effects. The waterproof coating 16 is a non-cured rubber asphalt coating with the thickness of 2mm, and has good waterproof effect and convenient material taking. The waterproof coiled material 17 is a polyester tire self-adhesive polymer modified asphalt coiled material, has a good waterproof effect and is convenient to obtain materials.

3 thickness of screed-coat is 30mm, and the floating floor finds 2 thinnest departments 30mm on the slope layer, and thickest department is 180mm, and waterproofing membrane 16 is 2mm thick, and waterproofing membrane 17 is 3mm thick, and vibration isolation glue 6 is 50 x 50 specifications, and steel form 7 is 2mm thick, and concrete floating platform 8 is 100mm thick, and cement mortar anchor coat 14 is 25mm thick 1: 3 the dry and hard cement mortar combined layer 14 and the anti-skid floor tile 15 are 10mm thick, reasonable in size arrangement, high in structural strength and enough in stability.

The construction method comprises the following steps of,

step a, determining the elevation of a roof;

b, constructing a floating floor slope layer 2 and a leveling layer 3 at the position of the reserved gutter 10;

step c, laying a waterproof coating film 16 and a waterproof coiled material 17;

step d, pouring the concrete partition wall 11;

e, constructing the vibration isolation rubber 6, the steel template 7, the waterproof asphalt paper and the concrete floating platform of the floating floor slab in sequence;

and f, constructing a cement mortar bonding layer 14 of the surface layer and the anti-skid floor tiles 15.

The above description is only for the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be considered by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims

1. The utility model provides an outdoor floating platform roofing structure which characterized in that: comprises a structural floor (1), the top of the structural floor (1) is respectively provided with a floating floor slope finding layer (2) and a leveling layer (3) positioned at the lower end of the floating floor slope finding layer (2), the top of the waterproof coating floating floor slope finding layer (2) is provided with clay (4), the top end of the clay (4) is provided with a fine aggregate concrete protective layer (5), the top of the fine aggregate concrete protective layer (5) is provided with vibration isolation glue (6), the top end of the vibration isolation glue (6) is welded and paved with a steel template (7), the top end of the steel template (7) is paved with waterproof asphalt paper, the top end of the waterproof asphalt paper is provided with a concrete floating platform (8), the top end of the leveling layer (3) is provided with a fine aggregate protection slope finding layer (9), the lower end of the fine aggregate protection slope finding layer (9) is communicated with a drainage ditch, the top end of the fine aggregate protection slope finding layer (9) is provided with a gutter (10), and the height of the gutter (10) is the same as that of the concrete floating platform (8), one side of a drainage ditch of the concrete floating platform (8) and two sides of the gutter (10) are respectively provided with a concrete partition wall, a drain pipe (12) is embedded in the concrete partition wall (11) between the concrete floating platform (8) and the gutter (10), the drain pipe (12) is higher than the bottom of the gutter (10), a drain valve (13) is arranged on the drain pipe (12), a continuous cement mortar bonding layer (14) is arranged on the inner side and the top end of the gutter (10) and the top end of the concrete floating platform (8), anti-skid floor tiles (15) are arranged on the cement mortar bonding layer (14), waterproof coating films (16) are continuously paved between the clay (4) and the floating floor slab slope finding layer (2) and between the leveling layer (3) and the fine stone protection slope finding layer (9), and waterproof coiled materials (17) are also arranged at the bottoms of the waterproof coating films (16) at two ends of the clay (4), waterproofing membrane (17) extend to concrete division wall (11) and keep away from the one end of concrete floating platform (8), the floating floor looks for slope layer (2) and looks for the slope for 8%, fine stone protection looks for slope layer (9) and looks for 1% slope.

2. The outdoor floating platform roof construction of claim 1, wherein: the drain valve (13) is a one-way valve.

3. The outdoor floating platform roof construction of claim 2, wherein: and sealant (18) is filled between the anti-skid floor tiles (15) at the top end of the concrete partition wall and the anti-skid floor tiles (15) at the top end of the floating platform.

4. The outdoor floating platform roof construction of claim 3, wherein: the floating floor slope-finding layer (2) and the leveling layer (3) are made of ceramsite concrete or foam concrete.

5. The outdoor floating platform roof construction of claim 4, wherein: the waterproof coating (16) is a non-cured rubber asphalt coating with the thickness of 2 mm.

6. The outdoor floating platform roof construction of claim 5, wherein: the waterproof coiled material (17) is a polyester tire self-adhesive polymer modified asphalt coiled material.

7. The outdoor floating platform roof construction of claim 6, wherein: screed-coat (3) thickness is 30mm, floats to build floor and look for slope layer (2) thinnest department 30mm, and thickest department is 180mm, and waterproof coating (16) are 2mm thick, and waterproofing membrane (17) are 3mm thick, and vibration isolation glue (6) are 50 specification, and steel form (7) are 2mm thick, and concrete floats platform (8) and is 100mm thick, and cement mortar anchor coat (14) are 25mm thick 1: 3, a dry and hard cement mortar bonding layer (14) and an anti-skid floor tile (15) with the thickness of 10 mm.