CN220203208U - Energy-saving roof drainage heat insulation structure - Google Patents

Abstract

The utility model discloses an energy-saving roof drainage heat-insulating structure which comprises a lower heat-insulating component and an inner filter screen groove, wherein the lower heat-insulating component comprises an SBS coiled material waterproof layer, a PC heat-insulating board protective layer, a rock wool board heat-insulating layer, an aerogel heat-insulating felt protective layer and a polyurethane waterproof coating layer. The device optimizes the structure of the device by installing the aerogel heat insulation felt protective layer and the like, integrates a water drainage heat insulation function and has strong energy saving effect by arranging the lower heat insulation component and the spliced water drainage structure body consisting of the first upper inclined water drainage plate, the water drainage supporting shaft, the second upper inclined water drainage plate, the lower water tank body and the like on the device, and realizes the effect of high-efficiency heat insulation and energy saving by arranging the lower heat insulation component as a multi-stage structure body consisting of the SBS coiled material waterproof layer, the PC heat insulation board protective layer, the rock wool board heat insulation layer, the aerogel heat insulation felt protective layer and the polyurethane waterproof coating layer.

Description

Energy-saving roof drainage heat insulation structure

Technical Field

The utility model relates to the technical field of building structures, in particular to an energy-saving roof drainage heat-insulation structure.

Background

When in rainy weather, a large amount of rainwater can fall to the roof, in order to drain the rainwater in time, avoid the rainwater siltation on the roof, influence house result of use, just need set up drainage structures on the roof, consequently just need use corresponding roof drainage structures, but, there are some defects still when roof drainage structures actual use.

The roof drainage structure is often formed by a single drainage ditch and a drainage standpipe, so that the drainage effect is poor, the drainage standpipe is easy to be blocked by sundries, and the practicability is poor; furthermore, the bottom of the roof drainage structure is generally not easy to integrate with a heat-insulating energy-saving mechanism, so that the device has poor functionality, cannot integrate with heat-insulating drainage to act on a whole, and is not easy to popularize.

Disclosure of Invention

The utility model aims to provide an energy-saving roof drainage heat insulation structure so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an energy-saving roof drainage insulation structure, includes insulation package and interior filter screen groove down, insulation package includes SBS coiled material waterproof layer, PC heat insulating board protective layer, rock wool board insulation layer, aerogel heat insulating felt inoxidizing coating and polyurethane waterproof coating layer down, the intermediate position department joint at insulation package top down has the back shaft for the drainage, the joint has first slant drain bar on with between the insulation package down in one end of back shaft for the drainage, the joint has the second to go up slant drain bar down between the other end of back shaft for the drainage and the insulation package down, the first slant drain bar that goes up slant drain bar and second are gone up the one end that the support shaft was kept away from to slant drain all is fixed with down the basin body, interior filter screen groove is pegged graft in the top of the inside of lower basin body, the bottom of interior filter screen groove evenly is provided with down the water pipe, the below of water pipe is connected with out the water and is used to paste the wall standpipe, the first slant drain bar, the second goes up slant drain bar and the lateral wall for the drainage has the back shaft for the drainage, the second is gone up slant drain bar and the second and go up slant drain bar for the back shaft between the lateral wall, first and the second and go up slant drain bar one side and the intermediate position and go up slant drain bar and the location and all match and go up the locating strip and position.

Preferably, two ends of the support shaft for drainage are respectively fixed with second connection cutting matched with the first upper oblique drainage plate and the second upper oblique drainage plate, and the tops of the first upper oblique drainage plate and the second upper oblique drainage plate are uniformly provided with water guide grooves for realizing positioning and assembling of the support shaft for drainage, the first upper oblique drainage plate and the second upper oblique drainage plate.

Preferably, the bottoms of the support shaft for drainage, the first upper inclined drain plate and the second upper inclined drain plate are uniformly fixed with first connecting cutting matched with the lower heat insulation assembly, so that the support shaft for drainage, the first upper inclined drain plate, the second upper inclined drain plate and the lower heat insulation assembly are convenient to realize positioning and assembly.

Preferably, the SBS coiled material waterproof layer is paved at the bottom of the supporting shaft for drainage, and the PC heat insulation board protective layer is adhered to the bottom of the SBS coiled material waterproof layer through waterproof glue, so that the waterproof protection effect of the top of the heat insulation component is improved by using the SBS coiled material waterproof layer.

Preferably, the rock wool board heat preservation is adhered to the bottom of the PC heat insulation board protective layer through waterproof glue, so that the heat insulation performance of the lower heat insulation component is optimized by the rock wool board heat preservation.

Preferably, the aerogel heat insulation felt protective layer is adhered to the bottom of the rock wool board heat insulation layer through waterproof glue, so that the heat insulation performance of the lower heat insulation assembly is improved by utilizing the aerogel heat insulation felt protective layer.

Preferably, the polyurethane waterproof coating layer is coated at the bottom of the aerogel heat insulation felt protective layer, so that the waterproof protective effect of the bottom of the lower heat insulation assembly is optimized by utilizing the polyurethane waterproof coating layer.

Preferably, both ends inside the inner filter screen groove are fixed with fixing pieces, and locking screws are arranged between the fixing pieces and the lower water tank body, so that the inner filter screen groove can be regularly disassembled and assembled, and the inner filter screen groove can be cleaned and maintained conveniently.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The energy-saving roof drainage heat insulation structure has the advantages that the structure of the energy-saving roof drainage heat insulation structure is optimized by installing the aerogel heat insulation felt protective layer, the polyurethane waterproof coating layer and the like, the lower heat insulation assembly, the first upper inclined drainage plate, the support shaft for drainage, the second upper inclined drainage plate, the lower water tank body and the like are arranged on the energy-saving roof drainage heat insulation structure, so that the energy-saving roof drainage heat insulation structure integrates a drainage heat insulation function and is strong in energy-saving effect, and meanwhile, the lower heat insulation assembly is arranged into a multi-stage structure body consisting of the SBS coiled material waterproof layer, the PC heat insulation board protective layer, the rock wool board heat insulation layer, the aerogel heat insulation felt protective layer and the polyurethane waterproof coating layer, so that on one hand, the waterproof protection effect of the top of the lower heat insulation assembly is improved by utilizing the SBS coiled material waterproof layer, the waterproof protection effect of the bottom of the lower heat insulation assembly is optimized by utilizing the polyurethane waterproof coating layer, and on the other hand, the three-stage heat insulation structure layer consisting of the PC heat insulation board protective layer, the rock wool board heat insulation layer and the aerogel heat insulation felt protective layer is realized by the high-efficient heat insulation function and the indoor energy-saving performance is optimized;

(2) According to the energy-saving roof drainage heat insulation structure, when the device is actually operated, on one hand, a user can realize positioning assembly of the support shaft for drainage, the first upper inclined drainage plate and the second upper inclined drainage plate by utilizing the insertion connection action of the second connection cutting, the first upper inclined drainage plate and the second upper inclined drainage plate, and on the other hand, the user can realize positioning assembly of the support shaft for drainage, the first upper inclined drainage plate, the second upper inclined drainage plate and the lower heat insulation component by utilizing the insertion connection action of the first connection cutting and the lower heat insulation component, so that the operation convenience is improved, and a positioning clamping strip is fixed at the middle position of one side of the first upper inclined drainage plate and the second upper inclined drainage plate;

(3) This energy-saving roof drainage insulation construction is through installing interior filter screen groove and lower basin body etc for the device has optimized self performance, on the one hand through installing interior filter screen groove on the top of lower basin body inside, can be to the filtration treatment of the inside water of finally leading-in water with paste wall standpipe, avoid bulky debris to get into water with paste wall standpipe and cause the jam, also be convenient for follow-up maintenance, on the other hand the user can utilize the block linking effect between interior filter screen groove and the lower basin body, cooperation stationary blade and locking screw's fixed connection effect, carry out regular dismouting with interior filter screen groove, the clearance maintenance in the interior filter screen groove of being convenient for.

Drawings

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic view of a rear view of a thermal insulation assembly according to the present utility model;

FIG. 3 is a schematic view showing a rear view partially in cross section of a second upper diagonal drainage plate according to the present utility model in a disassembled state;

FIG. 4 is a schematic top view of a partial cross-sectional structure of the lower tank of the present utility model;

fig. 5 is a schematic view showing a partial sectional structure of the support shaft for drainage according to the present utility model.

In the figure: 1. a lower insulation assembly; 2. a first upper diagonal drain plate; 3. a support shaft for drainage; 4. a second upper diagonal drain plate; 5. positioning the clamping strips; 6. a water discharging tank; 7. a water supply pipe; 8. wall-attached vertical pipes for water outlet; 9. SBS coiled material waterproof layer; 10. a PC heat insulating board protective layer; 11. rock wool board heat preservation; 12. an aerogel insulation blanket protective layer; 13. a polyurethane waterproof coating layer; 14. positioning clamping grooves; 15. a first connection slip; 16. a silicone rubber sealing outer layer; 17. a fixing piece; 18. an inner filter screen groove; 19. the second connection cutting.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, an embodiment of the present utility model is provided: an energy-saving roof drainage heat insulation structure comprises a lower heat insulation assembly 1 and an inner filter screen groove 18, wherein the lower heat insulation assembly 1 comprises an SBS coiled material waterproof layer 9, a PC heat insulation board protective layer 10, a rock wool board heat insulation layer 11, an aerogel heat insulation felt protective layer 12 and a polyurethane waterproof coating layer 13;

a supporting shaft 3 for drainage is clamped at the middle position of the top of the lower heat preservation component 1;

a first upper inclined drain plate 2 is clamped between one end of the support shaft 3 for drainage and the lower heat preservation component 1, and a second upper inclined drain plate 4 is clamped between the other end of the support shaft 3 for drainage and the lower heat preservation component 1;

the two ends of the supporting shaft 3 for drainage are respectively fixed with a second connecting cutting 19 matched with the first upper oblique drainage plate 2 and the second upper oblique drainage plate 4, and the tops of the first upper oblique drainage plate 2 and the second upper oblique drainage plate 4 are uniformly provided with water guide grooves;

when in use, a user can realize positioning and assembling of the support shaft 3 for drainage, the first upper inclined drain plate 2 and the second upper inclined drain plate 4 by utilizing the inserting and connecting action of the second connecting cutting 19 and the first upper inclined drain plate 2 and the second upper inclined drain plate 4;

the bottoms of the support shaft 3 for drainage, the first upper inclined drainage plate 2 and the second upper inclined drainage plate 4 are uniformly fixed with a first connecting inserting strip 15 matched with the lower heat insulation assembly 1;

when in use, a user can realize positioning and assembly of the support shaft 3 for drainage, the first upper inclined drain plate 2, the second upper inclined drain plate 4 and the lower heat preservation assembly 1 by utilizing the inserting and connecting action between the first connecting cutting 15 and the lower heat preservation assembly 1;

the lower water tank 6 is fixed at one end of the first upper inclined drain plate 2 and one end of the second upper inclined drain plate 4, which are far away from the support shaft 3 for drainage, and the inner filter screen groove 18 is inserted into the top end of the inner part of the lower water tank 6;

the bottom of the inner filter screen groove 18 is uniformly provided with a down pipe 7, a wall-attached vertical pipe 8 for water outlet is connected below the down pipe 7, and the outer side walls of the first upper inclined drain plate 2, the second upper inclined drain plate 4 and the support shaft 3 for drainage are all wrapped with a silicone rubber sealing outer layer 16;

a positioning clamping strip 5 is fixed at the middle position of one side of the first upper inclined drain plate 2 and the second upper inclined drain plate 4, and a positioning clamping groove 14 matched with the positioning clamping strip 5 is arranged at the middle position of the other side of the first upper inclined drain plate 2 and the second upper inclined drain plate 4;

the SBS coiled material waterproof layer 9 is paved at the bottom of the supporting shaft 3 for drainage, and the PC heat insulation board protective layer 10 is adhered to the bottom of the SBS coiled material waterproof layer 9 through waterproof glue; the waterproof protection effect of the top of the lower heat preservation component 1 is improved by using the SBS coiled material waterproof layer 9;

the rock wool board heat preservation layer 11 is adhered to the bottom of the PC heat insulation board protection layer 10 through waterproof glue; the heat insulation performance of the lower heat insulation component 1 is optimized by using the rock wool board heat insulation layer 11;

the aerogel heat insulation felt protective layer 12 is adhered to the bottom of the rock wool board heat insulation layer 11 through waterproof glue; the aerogel heat insulation felt protective layer 12 is utilized to improve the heat insulation performance of the lower heat insulation assembly 1;

the polyurethane waterproof coating layer 13 is coated at the bottom of the aerogel heat insulation felt protective layer 12; the waterproof protection effect of the bottom of the lower heat-insulation component 1 is optimized by utilizing the polyurethane waterproof coating layer 13;

fixing sheets 17 are fixed at two ends of the interior of the inner filter screen groove 18, and locking screws are arranged between the fixing sheets 17 and the lower water tank 6;

when in use, a user can utilize the clamping connection effect between the inner filter screen groove 18 and the lower water tank 6 to cooperate with the fixed connection effect of the fixing piece 17 and the locking screw to regularly disassemble and assemble the inner filter screen groove 18, so that the inner filter screen groove 18 is convenient to clean and maintain.

When the embodiment of the application is used, the following steps are adopted: the lower heat preservation component 1 and the first upper oblique drainage plate 2, the support shaft 3 for drainage, the second upper oblique drainage plate 4 and the lower water tank 6 are arranged on the device, so that the device integrates a drainage heat preservation function and a strong energy-saving effect, meanwhile, the lower heat preservation component 1 is arranged as a multistage structure formed by the SBS coiled material waterproof layer 9, the PC heat insulation board protection layer 10, the rock wool board heat preservation layer 11, the aerogel heat insulation board protection layer 12 and the polyurethane waterproof coating layer 13, on one hand, the waterproof protection effect of the top of the lower heat preservation component 1 is improved by the SBS coiled material waterproof layer 9, the waterproof protection effect of the bottom of the lower heat preservation component 1 is optimized by the polyurethane waterproof coating layer 13, on the other hand, the lower heat preservation component 1 realizes a high-efficiency heat preservation function and optimizes the indoor energy-saving heat preservation performance by the PC heat insulation board protection layer 10, on the other hand, on the user can realize the positioning and fixing the upper oblique drainage plate 2 by the upper oblique drainage plate 2 and the first oblique drainage plate 4 by the support shaft 3 for the upper oblique drainage plate 2 and the first upper oblique drainage plate 4, the upper oblique drainage plate 4 is clamped by the support shaft 3 for positioning the upper oblique drainage plate 4, and the upper oblique drainage plate 4 is positioned by the first oblique plate 4, and the upper oblique drainage plate is positioned by the upper oblique plate 4 is positioned by the support shaft 4, the middle position department that is equipped with the location draw-in groove 14 in the opposite side of first slant drain bar 2 and the second slant drain bar 4 on, utilize this location joint structure, can realize the self-assembly of first slant drain bar 2 and the self-assembly of second slant drain bar 4 on, and, through all wrap up in the lateral wall of first slant drain bar 2, the second slant drain bar 4 and the back shaft 3 for drainage has the sealed skin 16 of silicone rubber, the sealed dampproofing performance of upper portion drainage mechanism has been promoted, in addition, utilize the three-dimensional pyramid structure that first slant drain bar 2, the second slant drain bar 4 and back shaft 3 for drainage constitute, the effect of the water guide ditch that the top of cooperation first slant drain bar 2 and second slant drain bar 4 all evenly set up, the drainage effect of device has been promoted, and the water of discharging can get into under the basin body 6 inside, the wall 8 for the water that the subsides of rethread wall installation is used, and the standpipe is arranged downwards, and, through installing the inner groove 18 on the top in the inside of lower basin body 6, can be to finally go into the filter screen 8 for the water guide hole for the water guide bar, the filter screen is connected with the standpipe 18 with the filter screen 18 with the regular time, the filter screen is convenient for the maintenance is realized to the standpipe, the filter screen is connected with the standpipe 18 to the inside the filter screen is kept up in order to the regular time, the filter screen is kept up, the filter screen is convenient for the user's connection is kept down, the standpipe 18 to be kept down, the filter screen 18 is convenient for the inside the user, and is kept down in the inside the filter screen 18 to be connected to the interior the filter screen is convenient to the interior and the filter 18.

Claims (8)

1. The utility model provides an energy-saving roof drainage insulation structure, its characterized in that, including lower insulation subassembly (1) and interior filter screen groove (18), lower insulation subassembly (1) include SBS coiled material waterproof layer (9), PC heat insulating board protective layer (10), rock wool board heat insulating layer (11), aerogel insulation blanket inoxidizing coating (12) and polyurethane waterproof coating layer (13), the intermediate position department joint at lower insulation subassembly (1) top has back shaft (3) for the drainage, joint has first slant drain bar (2) between the one end of back shaft (3) for the drainage and lower insulation subassembly (1), the joint has second slant drain bar (4) between the other end of back shaft (3) for the drainage and lower insulation subassembly (1), the one end that first slant drain bar (2) and second go up slant drain bar (4) keep away from back shaft (3) all is fixed with down basin body (6), interior groove (18) are pegged graft in the inside top of lower basin body (6), the bottom of interior groove (18) evenly is provided with down (7) for the drainage pipe, down pipe (7) for the drainage outside is gone up, and water pipe (16) for the drainage pipe (4) for the drainage is covered with outer layer (16) for the drainage, the middle positions of one sides of the first upper inclined drain plate (2) and the second upper inclined drain plate (4) are respectively fixed with a positioning clamping strip (5), and the middle positions of the other sides of the first upper inclined drain plate (2) and the second upper inclined drain plate (4) are respectively provided with a positioning clamping groove (14) matched with the positioning clamping strips (5).

2. An energy efficient roof drainage insulation structure according to claim 1, wherein: the two ends of the supporting shaft (3) for drainage are respectively fixed with a second connecting cutting (19) matched with the first upper inclined drainage plate (2) and the second upper inclined drainage plate (4), and the tops of the first upper inclined drainage plate (2) and the second upper inclined drainage plate (4) are uniformly provided with water guide grooves.

3. An energy efficient roof drainage insulation structure according to claim 1, wherein: the bottoms of the support shaft (3), the first upper inclined drain plate (2) and the second upper inclined drain plate (4) are uniformly fixed with first connecting inserts (15) matched with the lower heat insulation assembly (1).

4. An energy efficient roof drainage insulation structure according to claim 1, wherein: the SBS coiled material waterproof layer (9) is paved at the bottom of the supporting shaft (3) for drainage, and the PC heat insulation board protective layer (10) is adhered to the bottom of the SBS coiled material waterproof layer (9) through waterproof glue.

5. An energy efficient roof drainage insulation structure according to claim 1, wherein: the rock wool board heat preservation layer (11) is adhered to the bottom of the PC heat insulation board protection layer (10) through waterproof glue.

6. An energy efficient roof drainage insulation structure according to claim 1, wherein: the aerogel heat insulation felt protective layer (12) is adhered to the bottom of the rock wool board heat insulation layer (11) through waterproof glue.

7. An energy efficient roof drainage insulation structure according to claim 1, wherein: the polyurethane waterproof coating layer (13) is coated at the bottom of the aerogel heat insulation felt protective layer (12).

8. An energy efficient roof drainage insulation structure according to claim 1, wherein: fixing pieces (17) are fixed at two ends of the inner part of the inner filter screen groove (18), and locking screws are arranged between the fixing pieces (17) and the lower water tank body (6).