CN218437442U - Domatic recovered water utilizes device - Google Patents

Abstract

The utility model relates to the technical field of side slope drainage, in particular to a slope surface reclaimed water utilization device, which comprises a side slope, a retaining dam and a drainage recycling component; a retaining dam is arranged on the upper part of the side slope, and the inner cavity of the retaining dam is connected with the drainage recycling assembly; the drainage recycling component comprises a drainage tank, a PVC pipe, a flow guide pipe, a drainage ditch, a filter screen, a water inlet pipe A, a sand settling tank, a water outlet pipe, a water suction pump, a water inlet pipe B and a spray head; the drainage channel is arranged on the retaining dam, a PVC pipe with a filtering cushion core arranged in the inner cavity is arranged in the drainage channel, and the water outlet end of the PVC pipe is communicated with the flow guide pipe in the inner cavity of the retaining dam; the water outlet end of the flow guide pipe is connected with the water inlet end of the drainage ditch, a filter screen is arranged between the inner walls of the drainage ditch, and the lowest end of the drainage ditch is connected with the side wall of the desilting basin through a water inlet pipe A; the problem that when the existing slope surface is drained, because the drainage link is not provided with the filtering assembly, the drained water is provided with dead leaves, and the backwater utilization is affected is solved.

Description

Domatic recovered water utilizes device

Technical Field

The utility model relates to a side slope drainage technology field, in particular to domatic recovered water utilizes device.

Background

With the improvement of living standard of people, people pay more attention to the direction of mountain landscapes, and some tourist attractions can open new tourist routes in the mountain forests for the convenience of people to enjoy the mountain landscapes. When a new tour route is excavated, construction of the side slopes on two sides of the road in the drainage direction is usually involved.

In the existing drainage mode arranged on a side slope, drainage ditches are arranged on the side slope, so that rainwater on the slope surface is drained into the drainage ditches, then the rainwater is drained into the channels at the lowest parts of the drainage ditches and arranged on the ground, and the drainage process of the rainwater on the slope surface is finished; however, in the process of rainwater drainage on the slope surface, the drainage ditch and the pipeline connected with the drainage ditch are not provided with the filtering assemblies, so that the green and planted dead leaves and silt on the slope surface can be partially drained into the drainage ditch, and the dead leaves and the silt are accumulated in the drainage ditch to influence the whole drainage process of the slope surface.

From this, it is necessary to design and improve the filtration link of current domatic drainage to this problem of influencing the return water and utilizing because of the drainage link does not have the dead leaf in the discharged water that causes of filter assembly when solving current domatic drainage.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a domatic recovered water utilizes device to this problem that influences the return water and utilizes when solving current domatic drainage because of the drainage link does not be provided with filter assembly and sends the exhaust water in to have the dead leaf.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a slope surface reclaimed water utilization device comprises a side slope, a retaining dam and a drainage reuse assembly; a retaining dam is arranged on the upper portion of the side slope, and an inner cavity of the retaining dam is connected with the drainage recycling assembly; the drainage recycling assembly comprises a drainage groove, a PVC pipe, a flow guide pipe, a drainage ditch, a filter screen, a water inlet pipe A, a sand settling tank, a water outlet pipe, a water suction pump, a water inlet pipe B and a spray head; the drainage channel is arranged on the retaining dam, a PVC pipe with a filtering cushion core arranged in the inner cavity is arranged in the drainage channel, and the water outlet end of the PVC pipe is communicated with the flow guide pipe in the inner cavity of the retaining dam; the water outlet end of the flow guide pipe is connected with the water inlet end of the drainage ditch, a filter screen is arranged between the inner walls of the drainage ditch, and the lowest end of the drainage ditch is connected with the side wall of the desilting basin through a water inlet pipe A; the side wall of the desilting basin is communicated with the water inlet end of the water suction pump through a water outlet pipe, and the water outlet end of the water suction pump is connected with the water inlet end of the spray head through a water inlet pipe B.

Further, the filter pad core comprises a filter screen hole disc, a soil cloth layer, a gauze layer A and a gravel layer; the filter screen hole disc is arranged in an inner cavity at one end, close to a soil layer, of the PVC pipe, and a gauze layer A and a gravel layer are sequentially filled in the filter screen hole disc.

Furthermore, the filter screen is arranged in a positive V-shaped structure and is connected by a plurality of stainless steel bars in a welding way.

Further, the soil layer on side slope upper portion passes through the crab-bolt and links to each other with the soil public key net is fixed, and plants green in the soil layer of soil public key net and plant.

Further, a filtering component is arranged inside the sand basin; the filtering component comprises a filtering mesh plate, a gauze layer, a gravel layer A and a grid filtering mesh plate; the filtering mesh plate is obliquely arranged in the desilting basin, a gauze layer and a gravel layer A are sequentially filled in the inner cavity of the filtering mesh plate, and a grid filtering mesh plate is arranged in the desilting basin under the filtering mesh plate.

Furthermore, water blocking channels are arranged at intervals on the upper portion of the enclosure dam, the water outlet end of each water blocking channel is connected with a filtering screen frame fixedly arranged on the upper portion of the enclosure dam, and a gauze layer B is filled in each filtering screen frame.

Furthermore, the retaining dam is connected with the two sides of the retaining wall, and the retaining wall is arranged at the lowest end of the side slope.

Compared with the prior art, the utility model discloses one of following beneficial effect has at least:

the utility model is provided with the retaining dam on the upper part of the side slope and the inner cavity of the retaining dam is connected with the drainage recycling component; can need discharge the water on the side slope when raining and when needing to carry out recycle to these waters, the water on side slope upper portion can be with the help of water drainage tank, PVC pipe and honeycomb duct cooperation are arranged to the escape canal in, the filter screen of arranging inside husky ditch 7 filters leading-in water once more, through filterable water through escape canal and inlet tube A cooperation and arrange to the desilting pond in, then the desilting pond separates water and silt, the water after the separation is through outlet pipe, suction pump and inlet tube A cooperation are arranged and are sent to shower nozzle department, the shower nozzle waters green planting through the water of collecting, so that solve present domatic rainwater when raining and make the problem that water conservancy diversion speed influences the return water utilization because of the dead leaf in escape canal and silt siltation.

Drawings

Fig. 1 is a schematic top view of the structure of the present invention.

Fig. 2 is a left side view of the structure of the present invention.

Fig. 3 is a partially enlarged schematic view of a portion a in the structure diagram 2 of the present invention.

Fig. 4 is the internal schematic view of earth retaining dam in the structure of the utility model.

Fig. 5 is a schematic diagram of the structure of the part B of the present invention in fig. 4.

Fig. 6 is an integrated schematic view of the filter pad core in the structure of the present invention.

Fig. 7 is the utility model discloses the structure in the escape canal main view schematic diagram.

Fig. 8 is the internal schematic view of the desilting basin in the structure of the present invention.

In the figure, 1-slope, 2-surrounding dam, 3-retaining dam, 4-drainage channel, 5-PVC pipe, 6-draft tube, 7-drainage ditch, 8-filter screen, 9-inlet pipe A, 10-sand basin, 11-outlet pipe, 12-water pump, 13-inlet pipe B, 14-nozzle, 15-filter cushion core, 16-filter screen hole disc, 17-soil common cloth layer, 18-gauze layer A, 19-gravel layer, 20-soil common cloth grid, 21-green plant, 22-gauze layer, 23-gravel layer A, 24-grid filter screen plate, 26-water retaining channel, 27-filter screen frame, 28-gauze layer B, 29-retaining wall.

Detailed Description

As shown in fig. 1 to 8, in order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

A slope surface reclaimed water utilizing device comprises a side slope 1, a retaining dam 2, a retaining dam 3 and a drainage recycling assembly; a retaining dam 2 is arranged around the side slope 1, a retaining dam 3 is arranged at the upper part of the side slope 1, and the inner cavity of the retaining dam 3 is connected with a drainage recycling assembly; the drainage recycling component comprises a drainage groove 4, a PVC pipe 5, a flow guide pipe 6, a drainage ditch 7, a filter screen 8, a water inlet pipe A9, a desilting basin 10, a water outlet pipe 11, a water suction pump 12, a water inlet pipe B13 and a spray head 14; the drainage channel 4 is arranged on the retaining dam 3, a PVC pipe 5 with a filtering cushion core 15 arranged in the inner cavity is arranged in the drainage channel 4, and the water outlet end of the PVC pipe 5 is communicated with the flow guide pipe 6 in the inner cavity of the retaining dam 3; the water outlet end of the flow guide pipe 6 is connected with the water inlet end of the drainage ditch 7, a filter screen 8 is arranged between the inner walls of the drainage ditch 7, and the lowest end of the drainage ditch 7 is connected with the side wall of the desilting basin 10 through a water inlet pipe A9; the side wall of the desilting basin 10 is communicated with the water inlet end of a water pump 12 through a water outlet pipe 11, and the water outlet end of the water pump 12 is connected with the water inlet end of a spray head 14 through a water inlet pipe B13; wherein, a part of the water inlet pipe B13 is fixedly connected with the retaining dam 3 through an anchor bolt;

the upper part of the side slope 1 is provided with a retaining dam 3, and an inner cavity 3 of the retaining dam 3 is connected with a drainage recycling assembly; can need discharge the water on the side slope 1 when raining and when needing to carry out recycle to these waters, the water on side slope 1 upper portion can be arranged to the escape canal 7 in with the help of water drainage tank 4, PVC pipe 5 and honeycomb duct 6 cooperation, arrange the inside filter screen 8 of husky ditch 7 and filter once more to leading-in water, in filtered water arranges to desilting pond 10 through escape canal 7 and inlet tube A9 cooperation, then desilting pond 10 separates water and silt, the water after the separation is arranged to shower nozzle 14 department through outlet pipe 11, suction pump 12 and the cooperation of inlet tube B13, shower nozzle 14 waters green planting through the water of collecting, thereby it influences the problem that the return water utilizes because of having not being provided with the dry leaf in the discharged water of filter assembly to solve current domatic drainage link.

Example 2

On the basis of the embodiment 1, the filter pad core 15 comprises a filter screen hole disc 16, an earthen cloth layer 17, a gauze layer A18 and a gravel layer 19; the filter screen hole disc 16 is arranged in an inner cavity at one end of the PVC pipe 5 close to the soil layer, and a gauze layer A18 and a gravel layer 19 are sequentially filled in the filter screen hole disc 16; wherein, the geotextile layer 17 is coated on the surface of the filter screen hole disc 16;

through being provided with filtering pad core 15, when can have the log raft of silt to the PVC pipe water inlet end in the retaining dam 3 on side slope 1, the filtering pad core 15 of PVC pipe water inlet end inner chamber setting, filtering pad core 15 can play filterable effect to muddy water to prevent that the soil on side slope 1 upper portion from appearing along with the situation of rainwater loss.

Example 3

On the basis of the embodiment 1, the filter screen 8 is arranged in a regular V-shaped structure, and the filter screen 8 is welded and connected by a plurality of stainless steel bars;

through setting up filter screen 8 into just V font, can be when green plant the withered leaf and drop in escape canal 7, the filter screen 8 of the inside V-arrangement of escape canal can make green plant the withered leaf landing to the filter screen 8 least significant department to be convenient for make water from 7 inside filter screens 8 slope end inflow escape canal 7 of escape canal inside, with this indirect speed that improves the drainage.

Example 4

On the basis of the embodiment 1, the soil layer at the upper part of the side slope 1 is fixedly connected with the geotextile grid 20 through anchor bolts, and green plants are planted in the soil layer of the geotextile grid 20;

the geotextile meshes 20 are arranged on the upper parts of the side slopes 1, so that the geotextile meshes 20 can fix soil on the upper parts of the side slopes 1, and the tendency of relative movement of the soil on the side slopes 1 is relieved; meanwhile, green plants are planted in the soil layer in the geotextile grid 20, and roots of the green plants can be rooted in the geotextile grid 20 and the soil on the upper portion of the side slope 1, so that the soil on the upper portion of the side slope 1 is solidified.

Example 5

On the basis of the embodiment 1, a filtering component is arranged inside the sand basin 10; the filtering component comprises a filtering mesh plate 21, a gauze layer 22, a gravel layer A23 and a grid filtering mesh plate 24; the filtering mesh plate 21 is obliquely arranged in the desilting basin 10, the inner cavity of the filtering mesh plate 21 is sequentially filled with a gauze layer 22 and a gravel layer A23, and a grid filtering mesh plate 24 is arranged in the desilting basin 10 right below the filtering mesh plate 21; wherein the top of the desilting basin 10 is arranged in a closed shape;

a filtering component is arranged in the desilting basin 10; when water with silt is drained into the desilting basin 10, part of the silt can be separated from the water by the filter mesh plate 21, the gauze layer 22, the gravel layer A23 and the grid filter mesh plate 24 which are arranged in the desilting basin 10, and the separated water is guided into the desilting basin 10, so that the cleanliness of the water for irrigating green plants is improved, and the process of irrigating green plants on the side slope 1 is facilitated.

Example 6

On the basis of the embodiment 1, the upper part of the enclosure dam 2 is provided with water blocking channels 26 at intervals, the water outlet end of each water blocking channel 26 is connected with a filter screen frame 27 fixedly arranged on the upper part of the enclosure dam 2, and a gauze layer B28 is filled in each filter screen frame 27;

through being provided with water blocking channel 26, can the water in side slope 1 when honeycomb duct 6 row of drainage retrieval and utilization subassembly is sent to on the dam 2, water guide to filter screen frame 27 department on dam 2 can be discharged honeycomb duct 6 to the upper portion interval of dam 2 to water blocking channel 26 that sets up, and the water after the filtration of filter screen frame 27 is again discharged to in the escape canal 7.

Example 7

On the basis of the embodiment 1, the dam 2 is connected with two sides of a retaining wall 29, and the retaining wall 29 is arranged at the lowest end of the side slope 1;

the barricade 2 is arranged on the periphery of the side slope of the barricade 2, so that when livestock gnaws green plants on the side slope 1, the barricade 2 can block the livestock, and the green plants on the side slope 1 are prevented from being gnawed; meanwhile, the retaining wall 29 is arranged at the lowest end of the side slope 1, so that when the soil is loose and moves, the retaining wall 29 can further play a role in blocking the soil of the side slope 1.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (7)

1. A slope surface reclaimed water utilization device comprises a side slope (1), a surrounding dam (2), a retaining dam (3) and a drainage recycling assembly; the method is characterized in that: a surrounding dam (2) is arranged around the side slope (1), a retaining dam (3) is arranged at the upper part of the side slope (1), and the inner cavity of the retaining dam (3) is connected with a drainage recycling component; the drainage recycling assembly comprises a drainage groove (4), a PVC pipe (5), a flow guide pipe (6), a drainage ditch (7), a filter screen (8), a water inlet pipe A (9), a desilting basin (10), a water outlet pipe (11), a water suction pump (12), a water inlet pipe B (13) and a spray head (14); the drainage channel (4) is arranged on the retaining dam (3), a PVC pipe (5) with a filtering cushion core (15) arranged in the inner cavity is arranged in the drainage channel (4), and the water outlet end of the PVC pipe (5) is communicated with the flow guide pipe (6) in the inner cavity of the retaining dam (3); the water outlet end of the flow guide pipe (6) is connected with the water inlet end of the drainage ditch (7), a filter screen (8) is arranged between the inner walls of the drainage ditch (7), and the lowest end of the drainage ditch (7) is connected with the side wall of the sand settling tank (10) through a water inlet pipe A (9); the side wall of the desilting basin (10) is communicated with the water inlet end of the water suction pump (12) through a water outlet pipe (11), and the water outlet end of the water suction pump (12) is connected with the water inlet end of the spray head (14) through a water inlet pipe B (13).

2. The slope surface recycled water utilization device according to claim 1, characterized in that: the filter pad core (15) comprises a filter screen hole disc (16), a common geotextile layer (17), a gauze layer A (18) and a gravel layer (19); the filter screen hole disc (16) is arranged in an inner cavity at one end of the PVC pipe (5) close to the soil layer, and a gauze layer A (18) and a gravel layer (19) are sequentially filled in the filter screen hole disc (16).

3. The slope surface recycled water utilization device according to claim 1, characterized in that: the filter screen (8) is arranged in a V-shaped structure, and the filter screen (8) is welded and connected by a plurality of stainless steel bars.

4. The slope surface recycled water utilization device according to claim 1, characterized in that: the soil layer on the upper portion of the side slope (1) is fixedly connected with the soil public cloth grids (20) through anchor bolts, and green plants are planted in the soil layer of the soil public cloth grids (20).

5. The slope surface recycled water utilization device according to claim 1, characterized in that: a filtering component is arranged inside the desilting pool (10); the filtering component comprises a filtering mesh plate (21), a gauze layer (22), a gravel layer A (23) and a grid filtering mesh plate (24); the filtering mesh plate (21) is obliquely arranged in the desilting basin (10), a gauze layer (22) and a gravel layer A (23) are sequentially filled in the inner cavity of the filtering mesh plate (21), and a grid filtering mesh plate (24) is arranged right below the filtering mesh plate (21) and positioned in the desilting basin (10).

6. The slope surface recycled water utilization device according to claim 1, characterized in that: water blocking channels (26) are arranged at intervals on the upper portion of the enclosure dam (2), the water outlet end of each water blocking channel (26) is connected with a filtering screen frame (27) fixedly arranged on the upper portion of the enclosure dam (2), and a gauze layer B (28) is filled in each filtering screen frame (27).

7. The slope surface recycled water utilization device according to claim 1, characterized in that: the retaining dam (2) is connected with two sides of the retaining wall (29), and the retaining wall (29) is arranged at the lowest end of the side slope (1).

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