CN211547967U - Garage roof soil infiltration drainage system - Google Patents

Abstract

The utility model discloses a garage roof soil seepage drainage system, which comprises a garage roof main body and a building main body, the building main body is positioned above the garage top plate main body, a permeable structure is arranged above the garage top plate main body, a water guide structure is arranged between the infiltration structure and the garage top plate main body, a siphon water collection structure is arranged on the left side of the water guide structure, the greening water supply structure is arranged above the siphon water collecting structure, the utility model relates to the technical field of siphon drainage systems, can effectively solve the problems of difficult slope finding of the structure, slow drainage speed of partial areas, incomplete drainage, water leakage, moisture regain, root rot of vegetation and the like in the traditional method, reduce the cost of the traditional method, greatly shorten the construction period, and the collected water is effectively utilized for 2 times, and the requirement of green energy-saving regulation and storage of rainwater in sponge cities is met.

Description

Garage roof soil infiltration drainage system

Technical Field

The utility model relates to a hydrocone type drainage system technical field specifically is a garage roof soil infiltration drainage system.

Background

In the greening drainage system above the underground garage structure in the prior art, the most common methods are as follows: 1. slope finding and water draining are carried out: regarding the drainage mode, the structure is used for finding a slope and draining water as an optimal scheme for treating roof drainage, and is also a drainage method adopted by marking post enterprises such as the department of Wan, and the slope is usually 0.5%. But the structure has high slope finding cost and certain difficulty in design and construction. 2. And (4) draining water from a floor drain on the top plate of the basement. The specific method comprises the following steps: the collected water is introduced into a basement sump through a vertical pipe by arranging a floor drain on a top plate for treatment. The drainage system has the problem of systematicness, and has more problems of engineering property management and maintenance after long-term use. 3. Blind drain blind pipe system. And laying a blind ditch blind pipe system in the gravel drainage layer on the top plate. To solve the problem of silting, but the effect is not ideal if the slope is not found. 4. A drainage plate: drainage plates are generally used for planting roofs, and the existing drainage plates are formed by forming solid or cup-shaped bulges on a polymer sheet, wherein the cup mouths of the cup-shaped bulges are opposite to the bulges, the bulges are generally upward, the spaces among the bulges form drainage channels, when the bulges are downward, holes are punched among the bulges, and water passes through the holes and then flows away from the spaces among the bulges. Utilize the drain bar among the prior art, drainage system who goes on is the simple with a plurality of drain bars flatly pave on the roofing, and the higher authority is spread one deck filter cloth again, and the afforestation soil of spreading again on the filter cloth, and the sewage of oozing down like this can only be followed the side discharge of roofing, and drainage effect is also not good, causes the infiltration tide of roofing more easily, influences house structural stability, and the construction cycle is long, incremental cost, in view of this, to the deep research of above-mentioned problem, tunnel the present case and produce.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a garage roof soil infiltration drainage system has solved among the prior art and has utilized the drainage thoroughly, leak, harm vegetation and building structure's problem.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a garage roof soil water seepage and drainage system comprises a garage roof main body and a building main body, wherein the building main body is positioned above the garage roof main body, a permeable structure is arranged above the garage roof main body, a water guide structure is arranged between the permeable structure and the garage roof main body, a siphon water collection structure is arranged on the left side of the water guide structure, and a greening water supply structure is arranged above the siphon water collection structure;

the permeable structure comprising: a roof drain pipe, a permeating and paving part and a point permeating part;

the roof drain pipe is embedded in the side wall of the building body, the penetration paving part is arranged on the water guide structure, and the point penetration part is embedded in the penetration paving part;

the infiltration installation portion includes: the geotextile layer, the permeable base layer, the permeable leveling layer and the permeable surface layer;

the geotextile layer is laid on the water guide structure, the permeable base layer is laid on the geotextile layer, the permeable leveling layer is laid on the permeable base layer, and the permeable surface layer is laid on the permeable leveling layer;

the point penetration portion includes: the device comprises a permeation tube, a water accumulation disc, a double-layer geotextile and a crushed stone layer;

the permeation tube is embedded in the permeation paving part, the lower end of the permeation tube is communicated with the water guide structure, the water collecting disc is embedded on the upper end of the permeation tube, the double-layer geotextile is embedded on the water collecting disc, and the gravel layer is paved on the double-layer geotextile.

Preferably, the water guide structure includes: the water guide special-shaped plate, the drainage groove, the first breathable observation tube and the breathable dust cover are arranged on the water guide special-shaped plate;

the water guide special-shaped plate is laid on the upper wall surface of the garage top plate main body and attached to the geotextile layer, the water drainage groove is embedded on the water guide special-shaped plate, the first breathable observation pipe is arranged on the upper side wall surface of the water drainage groove and communicated with the upper side wall surface of the water drainage groove, and the breathable dustproof cover is embedded on the first breathable observation pipe.

Preferably, the water guide special-shaped plate is a polymer waterproof plate, and a plurality of semicircular bulges of the structure box body are arranged on the water guide special-shaped plate.

Preferably, the siphon water collecting structure comprises: the device comprises an observation well, a water collecting cage, a reducing connecting pipe, an anti-seepage film, a second ventilating observation pipe and an overflow pipe;

the observation well install in water guide structure left side, the cage that catchments install in water guide structure left side, cage horizontal position that catchments is less than water guide structure horizontal position, the cage that catchments with the observation well is linked together, the reducing connecting pipe install in the observation well with between the water guide structure, just reducing connecting pipe both ends respectively with observation well lateral wall and water guide structure are linked together, prevention of seepage membrane cladding in the cage outside that catchments, the ventilative observation tube of second inlay and locate on the cage that catchments, the overflow pipe inlay and locate on the cage left side wall face that catchments, and with the cage that catchments is linked together.

Preferably, the greening water supply structure includes: a booster pump, a water pumping pipe, a water supply pipe and a sprinkling irrigation component;

the booster pump inlays dress in on the ventilative observation tube inside wall surface of second, drinking-water pipe one end inlay dress in on the booster pump input, the drinking-water pipe other end stretches into in the cage that catchments, the delivery pipe inlay dress in on the booster pump output, the delivery pipe other end stretches out on the ventilative observation tube upper end open position of second, the sprinkling irrigation subassembly inlay dress in on the delivery pipe outlet.

Preferably, a floor drain part is arranged at the position of a water outlet at the lower end of the roof drain pipe, and the floor drain part comprises: a water conduit and a floor drain cover plate;

the water guide pipe is embedded in the permeation paving part and is opposite to the position of a water outlet at the lower end of the roof drain pipe, and the floor drain cover plate is embedded on the upper end of the water guide pipe.

Advantageous effects

The utility model provides a garage roof soil infiltration drainage system. The method has the following beneficial effects: this garage roof soil infiltration drainage system, this garage roof soil infiltration drainage system of this system, this system will be controlled the rainwater directly through permeating water and mat formation, facility such as point infiltration is with rainwater water conservancy diversion to the water guide structure rapidly in, cooperate siphon water collection structure to carry out the temporary storage with the rainwater of collecting simultaneously to spray the greenery patches through afforestation water supply structure to the rainwater of collecting, a large amount of water resources have been saved, overall consideration place rainwater tissue system, major solution roofing and road pavement runoff. Adopting sponge urban technical measures of permeable pavement, rainwater gardens, sunken greenbelts, grass planting ditches and the like to form a source + midway + tail end rainwater flood management system to promote water quality purification and water quantity control in a field, adopting facilities of permeable pavement, point infiltration and the like in activity places such as squares, gardens and the like to reduce the emission of rainwater in situ and absorb the rainwater in situ, using reinforced and toughened HDPE protective drainage plates to be paved on the upper wall surface of a garage roof main body and be jointed with a geotextile layer to form an outdoor rainwater collection pipe network on a building, forming the lowest point on the road surface and a vegetation surface to form a plane corresponding to the lowest point in the whole space, paving a double-layer geotextile on a finished product water accumulation disc in combination with a terrain, forming a collection system in combination with a drainage pipe and forming an integral with a plastic drainage groove paved before, paving pebbles or gravels on the geotextile, and forming gaps among stones, be favorable to the rainwater infiltration, and tentatively purify harmful substance, utilize formula greenery patches and system regulation runoff that sinks, the rational utilization topography realizes the final emission of infiltration rainwater, and the rainwater combines together the circulation system that forms complementary looks through the unified inflow water collection cage of system at the face of afforestation and drainage system, realizes rainwater recovery and recycles, the utility model discloses can make soil infiltration collect fast and utilize, cut apart into a plurality of drainage modules to the garage roof through modified plastics water drainage tank, form zero slope, organized, initiative drainage system under principle effects such as gravity, atmospheric pressure, siphon. Reinforcing, toughening HDPE protection drain bar and waterproof layer skin formula laminating to replace and prevent, get rid of waterproof layer waterproof pressure, extension waterproof layer life, and possess the root resistance and puncture the function, can cancel the root resistance layer. The point infiltration combination has strong water permeability, can effectively increase the rainwater permeability, has certain treatment effect on runoff water quality, can effectively solve the problems of difficult slope finding of the structure, low drainage speed of partial areas, incomplete drainage, water leakage, moisture regain, root rot of vegetation and the like in the traditional method, reduces the cost of the traditional method, and greatly shortens the construction period.

Drawings

Fig. 1 is the utility model relates to a garage roof soil infiltration drainage system's main structure schematic view.

Fig. 2 is the utility model relates to a garage roof soil infiltration drainage system's infiltration structure enlarged schematic diagram.

Fig. 3 is the utility model relates to a garage roof soil infiltration drainage system's local enlarged structure schematic diagram.

In the figure: 1-a garage roof main body; 2-building subject; 3-roof drainage pipe; 4-geotextile layer; 5-a permeable base layer; 6-permeable leveling layer; 7-permeable surface layer; 8-a permeate tube; 9-water collecting plate; 10-double-layer geotextile; 11-a crushed stone layer; 12-a water-conducting profiled sheet; 13-a drainage channel; 14-a first gas permeable sight tube; 15-ventilating dust cover; 16-observation well; 17-a catchment cage; 18-a variable diameter connecting pipe; 19-an impermeable membrane; 20-a second gas permeable sight tube; 21-an overflow pipe; 22-a booster pump; 23-a water pumping pipe; 24-a water supply pipe; 25-a sprinkler irrigation assembly; 26-a water conduit; 27-floor drain cover plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through the wires, and an appropriate controller should be selected according to actual conditions to meet the control requirements, and specific connection and control sequences should be obtained.

Example (b): as can be known from the accompanying drawings of the specification 1-3, the garage roof soil water seepage and drainage system comprises a garage roof main body 1 and a building main body 2, wherein the building main body 2 is positioned above the garage roof main body 1, a permeable structure is arranged above the garage roof main body 1, a water guide structure is arranged between the permeable structure and the garage roof main body 1, a siphon water collection structure is arranged on the left side of the water guide structure, and a greening water supply structure is arranged above the siphon water collection structure;

the above-mentioned infiltration structure includes: the roof drain pipe 3, the permeable paving part and the point permeable part have the following position relation and connection relation: the roof drain pipe 3 is embedded on the side wall of the building main body 2, the permeable pavement part is arranged on the water guide structure, the point permeable part is embedded in the permeable pavement part, and rainwater on the building main body 2 can be directly guided into the permeable structure through the roof drain pipe 3 and flows into the guide structure;

the above-mentioned infiltration portion of paving includes: geotechnological cloth layer 4, basic unit 5, the screed-coat 6 and the surface course 7 that permeates water of permeating water, its positional relationship and relation of connection are as follows: the geotextile layer 4 is laid on the water guide structure, the permeable base layer 5 is laid on the geotextile layer 4, the permeable leveling layer 6 is laid on the permeable base layer 5, and the permeable surface layer 7 is laid on the permeable leveling layer 6;

the point penetration portion includes: the permeable pipe 8, the water accumulation disc 9, the double-layer geotextile 10 and the gravel layer 11 are in the following position relation and connection relation:

the penetration pipe 8 is embedded in the penetration paving part, the lower end of the penetration pipe 8 is communicated with the water guide structure, the water accumulation disc 9 is embedded on the upper end of the penetration pipe 8, the double-layer geotextile 10 is embedded on the water accumulation disc 9, and the gravel layer 11 is paved on the double-layer geotextile 10;

according to the above, when raining, one part of rainwater falling on the permeable pavement part sequentially passes through the permeable surface layer 7, the permeable leveling layer 6 and the permeable base layer 5, enters the water guide structure through the geotechnical cloth layer 4, converges the other part of rainwater to the position above the point permeable part, enters the gravel layer 11, purifies harmful substances accurately, ensures that the rainwater permeability meets the collection requirement, passes through the double-layer geotechnical cloth 10, is collected in the water accumulation disc 9, flows into the water guide structure through the permeation pipe 8, then enters the siphon water collection structure, finally provides a water source for greening water supply, leads the controlled rainwater to be quickly guided into the water guide structure directly through the permeation structure in a sunken green land, is matched with the siphon water collection structure to temporarily store the collected rainwater, and sprays the collected rainwater to the green land through the greening water supply structure, saving a large amount of water resources.

Preferably, the water guide structure further includes: the water guide special-shaped plate 12, the drainage channel 13, the first ventilating observation tube 14 and the ventilating dust cover 15 are in the following position relation and connection relation:

the special water guide plate 12 is laid on the upper wall surface of the garage roof main body 1 and is attached to the geotextile layer 4, the drainage groove 13 is embedded on the special water guide plate 12, the first breathable observation tube 14 is arranged on the upper side wall surface of the drainage groove 13 and is communicated with the upper side wall surface of the drainage groove 13, and the breathable dustproof cover 15 is embedded on the first breathable observation tube 14;

can know through the aforesaid, the rainwater that the infiltration structure was collected falls into on the water guide dysmorphism board 12 on the garage roof main part 1 to enter into siphon water-collecting structure in through water drainage tank 13, and provide the circulation of air passageway for water drainage tank 13 by first ventilative observation tube 14, utilize the water guide, can also open the shield on first ventilative observation tube 14 simultaneously, observe water drainage tank 13 operating condition.

As a preferred scheme, further, the water guiding special-shaped board 12 is a polymer waterproof board, and a plurality of semicircular bulges of the structural box body are arranged on the water guiding special-shaped board 12, so as to facilitate waterproof and water guiding.

Preferably, the siphon water collecting structure further comprises: the observation well 16, the water collecting cage 17, the reducing connecting pipe 18, the anti-seepage film 19, the second ventilating observation pipe 20 and the overflow pipe 21 are in the following position relation and connection relation:

the observation well 16 is arranged on the left side of the water guide structure, the water collection cage 17 is arranged on the left side of the water guide structure, the horizontal position of the water collection cage 17 is lower than that of the water guide structure, the water collection cage 17 is communicated with the observation well 16, the reducing connecting pipe 18 is arranged between the observation well 16 and the water guide structure, two ends of the reducing connecting pipe 18 are respectively communicated with the side wall of the observation well 16 and the water guide structure, the anti-seepage film 19 is coated on the outer side of the water collection cage 17, the second breathable observation pipe 20 is embedded on the water collection cage 17, and the overflow pipe 21 is embedded on the left side wall surface of the water collection cage 17 and is communicated with the water collection cage 17;

through the aforesaid, utilize the siphon principle, the rainwater that observation well 16 exported the water guide structure, collect in observation well 16 through reducing connecting pipe 18, and pour into the cage 17 that catchments into with the water in the observation well 16, the siphon principle is an effort phenomenon that utilizes liquid level difference, be full of liquid back in the tubular structure of an inverted U-shaped, arrange the high one end of opening in the container that fills with liquid, liquid in the container can continuously flow to lower position through the siphon, if the water yield of pouring into in the cage 17 that catchments surpasss the cage 17 highest water level, unnecessary rainwater can flow into municipal drainage pipe network through overflow pipe 21, the cage 17 that catchments simultaneously is linked together through ventilative observation tube 20 of second and ground.

Preferably, the greening water supply structure further comprises: the booster pump 22, the water pumping pipe 23, the water supply pipe 24 and the sprinkling irrigation assembly 25 are arranged and connected as follows:

the booster pump 22 inlays the dress on the wall surface in the ventilative observation tube 20 of second, 23 one ends of drinking-water pipe inlay the dress on booster pump 22 input, 23 other ends of drinking-water pipe stretch into water collection cage 17, delivery pipe 24 inlays the dress on booster pump 22 output, 24 other ends of delivery pipe stretch out on the ventilative observation tube 20 upper end opening position of second, sprinkling irrigation subassembly 25 inlays the dress on 24 exit ends of delivery pipe, when using, booster pump 22 takes out the water in the water collection cage 17 through drinking-water pipe 23, and supply with sprinkling irrigation subassembly 25 through delivery pipe 24, can plant the earth's surface green and spray.

Preferably, a floor drain part is installed at the position of a water outlet at the lower end of the roof drain pipe 3, and the floor drain part comprises: a water guide pipe 26 and a floor drain cover plate 27, wherein the water guide pipe 26 is embedded in the permeation paving part and is opposite to the position of a water outlet at the lower end of the roof drain pipe 3, and the floor drain cover plate 27 is embedded on the upper end of the water guide pipe 26. It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A garage roof soil water seepage and drainage system comprises a garage roof main body (1) and a building main body (2), and is characterized in that the building main body (2) is positioned above the garage roof main body (1), a permeable structure is arranged above the garage roof main body (1), a water guide structure is arranged between the permeable structure and the garage roof main body (1), a siphon water collection structure is arranged on the left side of the water guide structure, and a greening water supply structure is arranged above the siphon water collection structure;

the permeable structure comprising: a roof drain pipe (3), a permeable paving part and a point permeable part;

the roof drain pipe (3) is embedded in the side wall of the building main body (2), the penetration paving part is arranged on the water guide structure, and the point penetration part is embedded in the penetration paving part;

the infiltration installation portion includes: the soil engineering cloth layer (4), the permeable base layer (5), the permeable leveling layer (6) and the permeable surface layer (7);

the geotextile layer (4) is laid on the water guide structure, the permeable base layer (5) is laid on the geotextile layer (4), the permeable leveling layer (6) is laid on the permeable base layer (5), and the permeable surface layer (7) is laid on the permeable leveling layer (6);

the point penetration portion includes: the device comprises a permeation tube (8), a water accumulation disc (9), a double-layer geotextile (10) and a gravel layer (11);

the permeable pipe (8) is embedded in the permeable paving part, the lower end of the permeable pipe (8) is communicated with the water guide structure, the water collecting disc (9) is embedded on the upper end of the permeable pipe (8), the double-layer geotextile (10) is embedded on the water collecting disc (9), and the gravel layer (11) is paved on the double-layer geotextile (10).

2. The garage roof soil infiltration drainage system of claim 1, wherein the water guide structure includes: the water guide special-shaped plate (12), the drainage groove (13), the first ventilation observation pipe (14) and the ventilation dustproof cover (15);

the special-shaped water guide plate (12) is laid on the upper wall face of the garage roof main body (1) and attached to the geotextile layer (4), the drainage groove (13) is embedded in the special-shaped water guide plate (12), the first breathable observation tube (14) is arranged on the upper side wall face of the drainage groove (13) and communicated with the upper side wall face of the drainage groove (13), and the breathable dustproof cover (15) is embedded in the first breathable observation tube (14).

3. The garage roof soil water seepage drainage system of claim 2, wherein the water guide special-shaped plate (12) is a high polymer waterproof plate, and semicircular bulges of a plurality of structural boxes are arranged on the water guide special-shaped plate (12).

4. The garage roof soil infiltration drainage system of claim 1, wherein the siphon catchment structure includes: an observation well (16), a water collecting cage (17), a reducing connecting pipe (18), an impermeable membrane (19), a second ventilating observation pipe (20) and an overflow pipe (21);

observe well (16) install in water guide structure left side, catchment cage (17) horizontal position is less than water guide structure horizontal position, catchment cage (17) with observe well (16) are linked together, reducing connecting pipe (18) install in observe well (16) with between the water guide structure, just reducing connecting pipe (18) both ends respectively with observe well (16) lateral wall and water guide structure are linked together, prevention of seepage membrane (19) cladding in catchment cage (17) outside, ventilative observation pipe (20) of second inlay in on water collection cage (17), overflow pipe (21) inlay in on water collection cage (17) left side wall, and with water collection cage (17) are linked together.

5. The garage roof soil infiltration drainage system of claim 4, wherein, the afforestation water supply structure includes: a booster pump (22), a water pumping pipe (23), a water supply pipe (24) and a sprinkling irrigation component (25);

booster pump (22) inlay and adorn in on the ventilative observation tube of second (20) inner wall face, drinking-water pipe (23) one end inlay and adorn in on booster pump (22) input, in drinking-water pipe (23) other end stretched into catchment cage (17), delivery pipe (24) inlay and adorn in on booster pump (22) output, delivery pipe (24) other end stretches out on the ventilative observation tube of second (20) upper end open position, sprinkling irrigation subassembly (25) inlay and adorn in on delivery pipe (24) outlet.

6. The garage roof soil water seepage drainage system of claim 1, wherein a floor drain part is installed on the lower end water outlet position of the roof drain pipe (3), and comprises: a water guide pipe (26) and a floor drain cover plate (27);

the water guide pipe (26) is embedded in the permeation paving part and is right opposite to the position of a water outlet at the lower end of the roof drain pipe (3), and the floor drain cover plate (27) is embedded on the upper end of the water guide pipe (26).

Images