CN213062092U - Hydraulic engineering retaining wall - Google Patents

Abstract

The utility model belongs to the technical field of the wire and cable technique and specifically relates to a hydraulic engineering retaining wall, the power distribution box comprises a wall body, the inside of wall body is provided with water storage mechanism, and beneficial effect lies in: through the connecting pipe that sets up, the water pipe is connected to the side, spread groove and apopore, inside water permeates into retaining wall through the road surface, the inside that water that permeates into gets into water storage mechanism, the inside water of water storage mechanism passes through the inside that the connecting pipe got into the spread groove, the inside water of spread groove flows through the apopore, and there is the side outlet pipe surface of wall, the one end and the connecting pipe of side outlet pipe are connected, dual play water, be favorable to protecting the retaining wall, asphalt felt material through the setting, avoid in the water permeates into the basis, lead to the basis to collapse, cause certain danger, strengthen the subassembly and be convenient for better fixed infiltration prevention layer, super absorbent resin material through the setting, be favorable to adsorbing the inside moisture content of retaining wall.

Description

Hydraulic engineering retaining wall

Technical Field

The utility model relates to a hydraulic engineering retaining wall field especially relates to a hydraulic engineering retaining wall.

Background

The retaining wall is a structure for supporting roadbed filling soil or hillside soil and preventing the filling soil or the soil from deforming and destabilizing, and the part of the cross section of the retaining wall, which is directly contacted with the supported soil, is called a wall back; the part facing the wall back and being empty is called the wall surface; the part directly contacting with the foundation is called a substrate; the top surface of the wall opposite the base is called the wall top; the front end of the base is called a wall toe; the rear end of the base is called a butt.

The unable effectual general water of current hydraulic engineering retaining wall discharges, causes the retaining wall to collapse easily, and the retaining wall that has now moreover can not effectually block the infiltration of water, causes the softness that the inside cement of retaining wall becomes, causes certain danger, needs a hydraulic engineering retaining wall to this.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the manual work that exists among the prior art and peeling off the separation, it is big to work reason intensity like this, and efficiency is also low, and the cladding material that the manual work was peeled off and was got off can be put at will, the shortcoming of the arrangement of being not convenient for, and a hydraulic engineering retaining wall who proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the design is a hydraulic engineering retaining wall, including the wall body, the inside of wall body is provided with water storage mechanism, one side surface of wall body is provided with the wall, the front end surface of wall is provided with the side outlet pipe, the lower extreme surface of wall body is provided with the basis, the inside of basis is provided with the prevention of seepage permeable blanket and the layer that absorbs water, the prevention of seepage permeable blanket is located the upper end surface on the layer that absorbs water.

Preferably, water storage mechanism is including connecting pipe, side connection water pipe, spread groove and apopore, the connecting pipe is located the one end surface of side connection water pipe, the spread groove is located the one end surface of connecting pipe, the apopore is located the front end surface of spread groove.

Preferably, a connecting ring is arranged between the connecting pipe and the side connecting water pipe, the outer surface of one side of the connecting pipe is fixedly connected with the outer surface of one end of the side connecting water pipe through the connecting ring, the outer surface of one end of the connecting pipe and the outer surface of the upper end of the connecting groove are formed through machining, and the outer surface of the front end of the connecting groove and the outer surfaces of the periphery of the water outlet holes are formed through machining.

Preferably, the permeation prevention layer comprises asphalt felt materials and reinforcing components, the asphalt felt materials are positioned inside the permeation prevention layer, and the reinforcing components are positioned on the outer surfaces of two sides of the permeation prevention layer.

Preferably, the peripheral outer surface of the asphalt felt material and the inner part of the anti-permeation layer are formed by machining, the outer surface of one end of the reinforcing component) and the outer surfaces of two sides of the anti-permeation layer are formed by machining, the reinforcing component) is positioned in the inner part of the anti-permeation layer, and one end of the reinforcing component) protrudes out of the outer surface of one side of the anti-permeation layer.

Preferably, the water absorption layer comprises a high water absorption resin material and reinforcing ribs, the high water absorption resin material is positioned inside the water absorption layer, and the reinforcing ribs are positioned on the outer surfaces of two sides of the water absorption layer.

Preferably, the peripheral outer surface of the super absorbent resin material and the inside of the water absorbing layer are formed by machining, the peripheral outer surface of the reinforcing rib and the inside of the water absorbing layer are formed into the reinforcing rib positioned in the water absorbing layer by machining, and one end of the reinforcing rib protrudes out of the outer surface of one side of the water absorbing layer.

The utility model provides a pair of hydraulic engineering retaining wall, beneficial effect lies in: through the connecting pipe, the side is connected the water pipe, spread groove and apopore, water permeates into inside the retaining wall through the road surface, the water that permeates is gone into the inside of water storage mechanism, the inside water of water storage mechanism passes through the inside of connecting pipe entering spread groove, the inside water of spread groove flows through the apopore, and there is the side outlet pipe surface of wall, the one end and the connecting pipe of side outlet pipe are connected, dual play water, be favorable to protecting the retaining wall, through the pitch felt material and the reinforcing component that set up, pitch felt material has good cohesiveness, plasticity, water resistance, corrosion resistance and durability, avoid water to permeate into the basis, lead to the basis collapse, cause certain danger, reinforcing component is convenient for better fixed impermeable layer, through the super absorbent resin material and the strengthening rib that set up, super absorbent resin material is a macromolecular material, the water-absorbing and water-retaining composite material has excellent water-absorbing and water-retaining functions, can absorb hundreds of times and thousands of times of self weight, can reach the highest water, is difficult to remove even being extruded, is favorable for absorbing the water in the retaining wall, and the reinforcing ribs are convenient for better fixing the water-absorbing layer.

Drawings

Fig. 1 is a schematic view of the overall structure of a retaining wall for hydraulic engineering according to the present invention;

fig. 2 is a schematic structural view of a water storage mechanism of a retaining wall in hydraulic engineering according to the present invention;

fig. 3 is a schematic view of a structure of a permeation-proof layer of a retaining wall in hydraulic engineering according to the present invention;

fig. 4 is the utility model provides a hydraulic engineering retaining wall peeling mechanism layer structure sketch map that absorbs water.

In the figure: 1. a wall body; 2. a water storage mechanism; 3. a wall surface; 4. a side water outlet pipe; 5. a foundation; 6. an anti-permeation layer; 7. a water-absorbing layer; 201. a connecting pipe; 202. the side surface is connected with a water pipe; 203. connecting grooves; 204. A water outlet hole; 601. asphalt felt material; 602. a reinforcement assembly; 701. a high water-absorbent resin material; 702. and (5) reinforcing ribs.

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.

Referring to fig. 1-4, a hydraulic engineering retaining wall comprises a wall body 1, a water storage mechanism 2 is arranged inside the wall body 1, a wall surface 3 is arranged on the outer surface of one side of the wall body 1, a side water outlet pipe 4 is arranged on the outer surface of the front end of the wall surface 3, a foundation 5 is arranged on the outer surface of the lower end of the wall body 1, an anti-seepage layer 6 and a water absorption layer 7 are arranged inside the foundation 5, and the anti-seepage layer 6 is located on the outer surface of the upper end of the water.

Wherein, water storage mechanism 2 is including the connecting pipe 201, water pipe 202 is connected to the side, spread groove 203 and apopore 204, connecting pipe 201 is located the one end surface of side connection water pipe 202, spread groove 203 is located the one end surface of connecting pipe 201, apopore 204 is located the front end surface of spread groove 203, when using, through the water storage mechanism 2 that sets up, be favorable to permeating into the water storage with the road surface, prevent inside water entering retaining wall, avoid the retaining wall because the corruption of water, and collapse.

Wherein, a connecting ring is arranged between the connecting pipe 201 and the side connecting water pipe 202, one side outer surface of the connecting pipe 201 is fixedly connected with one end outer surface of the side connecting water pipe 202 through the connecting ring, one end outer surface of the connecting pipe 201 and the upper end outer surface of the connecting groove 203 are formed by machining, the front end outer surface of the connecting groove 203 and the peripheral outer surface of the water outlet hole 204 are formed by machining, when in use, water permeates into the inside of the retaining wall through the road surface through the connecting pipe 201, the side connecting water pipe 202, the connecting groove 203 and the water outlet hole 204, the permeated water enters into the inside of the water storage mechanism 2, the water in the water storage mechanism 2 enters into the inside of the connecting groove 203 through the connecting pipe 201, the water in the connecting groove 203 flows out through the water outlet hole 204, the outer surface of the wall surface, the dual water outlet is favorable for protecting the retaining wall.

Wherein, anti-permeation layer 6 is including pitch asphalt felt material 601 and enhancement subassembly 602, and pitch asphalt felt material 601 is located anti-permeation layer 6's inside, strengthens subassembly 602 and is located anti-permeation layer 6's both sides surface, and when using, through the anti-permeation layer 6 that sets up, is favorable to preventing that water from permeating into the inside of basis 5, leads to basis 5 internal corrosion.

Wherein, the surface all around of pitch asphalt felt material 601 forms through machining with the inside of impermeable layer 6, strengthen the one end surface of subassembly 602) and the both sides surface of impermeable layer 6 and form through machining, strengthen the inside that subassembly 602 is located impermeable layer 6, and strengthen one side surface of subassembly 602 one end protrusion impermeable layer 6, when using, pitch asphalt felt material 601 and the enhancement subassembly 602 through setting up, pitch asphalt felt material 601 has good cohesiveness, plasticity, water resistance, corrosion resistance and durability, avoid in the water infiltration advances basis 5, lead to basis 5 to collapse, cause certain danger, strengthen subassembly 602 and be convenient for better fixed impermeable layer 6.

The water absorption layer 7 comprises a high water absorption resin material 701 and reinforcing ribs 702, the high water absorption resin material 701 is positioned inside the water absorption layer 7, the reinforcing ribs 702 are positioned on the outer surfaces of two sides of the water absorption layer 7, and the water absorption layer 7 is favorable for absorbing water inside the retaining wall.

Wherein, the surface all around of super absorbent resin material 701 forms through machining with the inside of layer 7 that absorbs water, the surface all around of strengthening rib 702 forms strengthening rib 702 through machining with the inside of layer 7 that absorbs water and is located the inside of layer 7 that absorbs water, and the one end protrusion of strengthening rib 702 absorbs water the one side surface of layer 7, when using, through super absorbent resin material 701 and strengthening rib 702 that set up, super absorbent resin material 701 is a macromolecular material, it has excellent water absorption, the function of moisturizing, can absorb several hundred times of self weight, last thousand times, can reach 5300 times water the most, even the extrusion also hardly takes off, be favorable to adsorbing the inside moisture content of retaining wall, strengthening rib 702 is convenient for better fixed layer 7 that absorbs water.

The working principle is as follows: through the connecting pipe 201, the side connecting water pipe 202, the connecting groove 203 and the water outlet 204, water permeates into the interior of the retaining wall through the road surface, the permeated water enters into the interior of the water storage mechanism 2, the water in the interior of the water storage mechanism 2 enters into the interior of the connecting groove 203 through the connecting pipe 201, the water in the interior of the connecting groove 203 flows out through the water outlet 204, the outer surface of the wall surface 3 is provided with the side water outlet pipe 4, one end of the side water outlet pipe 4 is connected with the connecting pipe 201, double water outlet is beneficial to protecting the retaining wall, the asphalt felt material 601 and the reinforcing component 602 are arranged, the asphalt felt material 601 has good cohesiveness, plasticity, water resistance, corrosion resistance and durability, the phenomenon that the water permeates into the foundation 5 to cause collapse of the foundation 5 and cause certain danger is avoided, the reinforcing component 602 is convenient for better fixing the impermeable layer 6, and through the arranged high-absorbent resin material 701 and the reinforcing, the high water-absorbing resin material 701 is a high polymer material, has excellent water absorbing and retaining functions, can absorb hundreds of times and thousands of times of water by weight per se, can reach 5300 times of water at most, is difficult to remove even being extruded, is favorable for absorbing water in a retaining wall, and is convenient for better fixing the water absorbing layer 7 by the reinforcing ribs 702.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. The utility model provides a hydraulic engineering retaining wall, includes wall body (1), its characterized in that: the water storage structure is characterized in that a water storage mechanism (2) is arranged inside the wall body (1), a wall surface (3) is arranged on the outer surface of one side of the wall body (1), a side water outlet pipe (4) is arranged on the outer surface of the front end of the wall surface (3), a foundation (5) is arranged on the outer surface of the lower end of the wall body (1), an anti-seepage layer (6) and a water absorption layer (7) are arranged inside the foundation (5), and the anti-seepage layer (6) is located on the outer surface of the upper end of the water absorption layer (7).

2. A hydraulic engineering retaining wall according to claim 1, characterized in that: the water storage mechanism (2) comprises a connecting pipe (201), a side connecting water pipe (202), a connecting groove (203) and a water outlet hole (204), the connecting pipe (201) is located on the outer surface of one end of the side connecting water pipe (202), the connecting groove (203) is located on the outer surface of one end of the connecting pipe (201), and the water outlet hole (204) is located on the outer surface of the front end of the connecting groove (203).

3. A hydraulic engineering retaining wall according to claim 2, characterized in that: be provided with the go-between connecting pipe (201) and side connection water pipe (202), the one end surface fixed connection of water pipe (202) is connected through go-between and side to the one side surface of connecting pipe (201), the one end surface of connecting pipe (201) and the upper end surface of spread groove (203) form through machining, the front end surface of spread groove (203) and the surface all around of apopore (204) form through machining.

4. A hydraulic engineering retaining wall according to claim 1, characterized in that: the anti-seepage layer (6) comprises asphalt felt materials (601) and reinforcing components (602), wherein the asphalt felt materials (601) are positioned inside the anti-seepage layer (6), and the reinforcing components (602) are positioned on the outer surfaces of two sides of the anti-seepage layer (6).

5. A hydraulic engineering retaining wall according to claim 4, characterized in that: the asphalt felt material is characterized in that the peripheral outer surface of the asphalt felt material (601) and the inside of the anti-permeation layer (6) are formed through machining, the outer surface of one end of the reinforcing component (602) and the outer surfaces of two sides of the anti-permeation layer (6) are formed through machining, the reinforcing component (602) is located inside the anti-permeation layer (6), and one end of the reinforcing component (602) protrudes out of the outer surface of one side of the anti-permeation layer (6).

6. A hydraulic engineering retaining wall according to claim 1, characterized in that: the water absorption layer (7) comprises a high water absorption resin material (701) and reinforcing ribs (702), the high water absorption resin material (701) is located inside the water absorption layer (7), and the reinforcing ribs (702) are located on the outer surfaces of the two sides of the water absorption layer (7).

7. A hydraulic engineering retaining wall according to claim 6, characterized in that: the outer surface all around of super absorbent resin material (701) and the inside of layer (7) that absorbs water form through machining, the outer surface all around of strengthening rib (702) and the inside of layer (7) that absorbs water form strengthening rib (702) through machining and are located the inside of layer (7) that absorbs water, and the one end protrusion of strengthening rib (702) absorbs water the one side surface of layer (7).

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