CN215683587U - Bridge flower trough guardrail structure with water supply and storage functions - Google Patents

Abstract

The utility model relates to a bridge flower trough guardrail structure with a water supply and storage function, which comprises a guardrail extending along the extending direction of a bridge, wherein a groove extending along the extending direction of the bridge is arranged on the upper end surface of the guardrail, a partition board is arranged in the groove, the partition board separates the groove into a water outlet cavity and a planting groove which are distributed along the vertical direction, the planting groove is positioned above the water storage cavity, the partition board is provided with water seepage through holes for communicating the planting groove with the water storage cavity, a plurality of overflow holes are arranged in the storage cavity, a plurality of water replenishing holes are arranged in the planting groove, and a plurality of water absorption sponge columns which penetrate through the partition board and extend into the planting groove are arranged in the water storage cavity. The utility model aims to provide a bridge flower bed guardrail structure with a water supply and storage function, and solves the problems that the existing flower bed guardrail can not store water and can only manually spray and replenish water.

Description

Bridge flower trough guardrail structure with water supply and storage functions

Technical Field

The utility model relates to a flower trough guardrail, in particular to a bridge flower trough guardrail structure with a water supply and storage function.

Background

Reinforced concrete guardrails have been widely used traffic safety facilities for highway bridges and urban overpasses. The reinforced concrete guardrail (hereinafter referred to as guardrail) has the advantages of high strength, high rigidity, good integrity, economical later maintenance and the like, but the guardrail has a relatively hard, monotonous and suppressed visual effect in the whole line shape, and particularly in urban overpasses, the exposed reinforced concrete structure is not coordinated with the surrounding environment. With the advance of urbanization and higher requirements for bridge landscape, reinforced concrete flower-trough guardrails (hereinafter referred to as flower-trough guardrails) have come into force. Due to the lack of relevant specifications for design and construction of the flower groove guardrail at present, the reasonability and the practicability of the structure of the flower groove guardrail still need to be improved. At present, a U-shaped flower groove is additionally arranged on a flower groove guardrail, a drain hole is formed in the bottom of the flower groove, and water can run off from the drain hole in the bottom after rainfall or manual spraying. When the climate is dry, manual spraying is frequently needed; the manual spraying operation is performed on the traffic road, so that the safety risk is high, a large amount of manpower and material resources are consumed, and the maintenance cost is increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bridge flower bed guardrail structure with a water supply and storage function, and solves the problems that the existing flower bed guardrail can not store water and can only manually spray and replenish water.

The above problems are solved by the following technical solutions: the utility model provides a bridge flower bed guardrail structure with supply water storage function, includes the guardrail that extends along bridge extending direction, be equipped with the slot that extends along bridge extending direction on the up end of guardrail, the ditch inslot is equipped with the division board, the division board will the play water cavity and the planting groove that the slot isolation distributes along upper and lower direction, it is located to plant the trench the top in water storage cavity, be equipped with the infiltration through-hole that the groove and water storage cavity were planted in the intercommunication on the division board, it is equipped with a plurality of overflow holes to store the intracavity, it is equipped with a plurality of water holes of mending to plant the inslot, it is equipped with a plurality of passes to store the intracavity stretch into behind the division board the sponge post that absorbs water in the planting groove. When in use, soil is filled in the planting groove, and then plants are planted. Rainwater that falls in planting the inslot in rainy day leaks and stores in the water storage chamber, and unnecessary water is discharged through the overflow hole, avoids waterlogging the plant of planting the inslot. In sunny days, water in the water storage cavity enters soil of the planting groove under the action of the water absorption sponge columns to be used for plant growth. When the water in the water storage cavity is dry, the water replenishing hole is connected with a water source through the water pipe, and then the water is replenished to the planting groove and the water is stored in the water storage cavity.

Preferably, a support protrusion is provided in the groove, and the isolation plate can be taken out and placed on the support protrusion. The assembly, the manufacture and the maintenance are convenient.

Preferably, the support protrusion is a closed ring shape extending along a circumferential direction of the groove. Can conveniently realize that the soil in the planting groove is not transferred into the water storage cavity.

The utility model also comprises a water replenishing pipe for connecting all the water replenishing holes together. The water replenishing is convenient, and only the water replenishing pipe is connected with a water source (such as tap water).

Preferably, the isolation plate comprises a framework and a filter screen covering the framework, and the meshes of the filter screen form the water seepage through holes.

Preferably, the framework and the filter screen are both of plastic construction.

Preferably, the guardrail comprises a plurality of sections distributed along the extension direction of the bridge, and the upper surface of each section is provided with the groove. Can be maintained in different sections.

Preferably, the distance from the lowest point of the overflow port to the lower surface of the partition plate is 5 cm or more. Can prevent the root system of the plant in the planting groove from growing towards the water storage hole and blocking the water seepage through hole.

Preferably, the water replenishing hole is connected with a vertical pipe extending into the water storage cavity in a butt joint mode, a water outlet hole is formed in the part, located in the planting groove, of the vertical pipe, a plug is connected in the vertical pipe in a sliding and sealing mode, the plug is connected with a floater located in the water storage cavity and used for jacking the plug through a push rod, and the push rod penetrates through the vertical pipe; when the water in the water storage cavity flows out from the overflow port, the floater jacks the plug to the position blocking the water outlet hole through the connecting rod, and when the water in the water storage cavity is dry, the plug is positioned below the water outlet hole. During water replenishing, the water replenishing can be automatically stopped after the water storage tank is fully replenished, so that the waste is avoided.

Compared with the prior art, the utility model has the beneficial effects that: when satisfying guardrail view demand, can play drought waterlogging regulation, water economy's effect, can also reduce the water supply number of times simultaneously, practice thrift manpower and materials, practice thrift the maintenance cost.

Drawings

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic sectional view A-A of FIG. 1;

FIG. 3 is a schematic view of the second embodiment;

fig. 4 is a partially enlarged schematic view of fig. 3 at B.

In the figure: the water-absorbing type water-saving planting device comprises a guardrail 1, a subsection 2, a groove 3, a framework 4, a filter screen 5, a water-permeating through hole 6, a supporting bulge 7, a water outlet cavity 8, a planting groove 9, an overflow hole 10, a water-supplementing hole 11, a water-absorbing sponge column 12, a water-supplementing pipe 13, the lowest point 20 of an overflow port, a vertical pipe 14, a water outlet hole 15, a plug 16, an ejector rod 17, a floater 18, water 19 and soil 21.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

First embodiment, referring to fig. 1 and 2, a bridge flower bed guardrail structure with a water supply and storage function comprises a guardrail 1 extending along the extension direction of a bridge. The guardrail comprises a plurality of sections 2 distributed along the extension direction of the bridge, and the upper surface of each section is provided with a groove 3. An isolation plate is arranged in the groove. The insulation panel comprises a framework 4 and a screen 5 covering over the framework. The meshes of the filter screen form water seepage through holes 6. The framework and the filter screen are both of plastic structures. The groove is internally provided with a supporting bulge 7, and the isolation plate can be taken out and placed on the supporting bulge. The supporting protrusion is in a closed ring shape extending along the circumferential direction of the groove. The isolating plate isolates the groove into a water outlet cavity 8 and a planting groove 9 which are distributed along the vertical direction, and the planting groove is positioned above the water storage cavity. A plurality of overflow holes 10 are arranged in the storage cavity. A plurality of water replenishing holes 11 are arranged in the planting groove. A plurality of water-absorbing sponge columns 12 which penetrate through the partition board and then extend into the planting groove are arranged in the water storage cavity. All the water replenishing holes are connected together through a water replenishing pipe 13. When in use, water is supplemented through the water supplementing pipe. The distance between the lowest point 20 of the overflow port and the lower surface of the partition plate is more than 5 cm. When in use, soil 21 is filled in the planting groove.

The second embodiment is different from the first embodiment in that:

referring to fig. 3 and 4, one segment belongs to only one water replenishing hole. The water replenishing hole is in butt joint with a vertical pipe 14 extending into the water storage cavity, a water outlet hole 15 is formed in the part of the vertical pipe located in the planting groove, a plug 16 is connected in the vertical pipe in a sliding and sealing mode, the plug is connected with a floater 18 located in the water storage cavity and used for jacking the plug through a push rod 17, and the push rod penetrates through the vertical pipe; when the water 19 in the water storage cavity flows out from the overflow port, the floater jacks the plug head to the position blocking the water outlet hole through the connecting rod, and when the water in the water storage cavity is dry, the plug head is positioned below the water outlet hole.

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

Claims (9)

1. The utility model provides a bridge flower bed guardrail structure with supply water storage function, includes the guardrail that extends along bridge extending direction, be equipped with the slot that extends along bridge extending direction on the up end of guardrail, a serial communication port, the ditch inslot is equipped with the division board, the division board will the play water cavity and the planting groove that the slot isolation distributes along upper and lower direction, it is located to plant the trench the top in water storage cavity, be equipped with the infiltration through-hole that the groove and water storage cavity were planted in the intercommunication on the division board, it is equipped with a plurality of overflow holes to store the intracavity, it is equipped with a plurality of water supplementing holes in the planting groove, it is equipped with a plurality of passes to store the intracavity stretch into behind the division board the sponge post that absorbs water in the planting groove.

2. A bridge flower trough guardrail structure with a water storage function as claimed in claim 1, wherein a supporting protrusion is arranged in the trench, and the isolation plate can be taken out and placed on the supporting protrusion.

3. A bridge flower bed guardrail structure with water storage function as claimed in claim 2, wherein the supporting protrusion is in the shape of a closed ring extending along the circumferential direction of the groove.

4. A bridge flower trough guardrail structure with water supply and storage functions as claimed in claim 1, 2 or 3, further comprising a water supply pipe connecting all the water supply holes together.

5. The structure of a bridge flower bed guardrail with a water storage function as claimed in claim 1, 2 or 3, wherein the isolation plate comprises a framework and a filter screen covering the framework, and the meshes of the filter screen form the water seepage through holes.

6. The structure of a bridge flower trough guardrail with a water supply and storage function as claimed in claim 5, wherein the framework and the filter screen are both of plastic structures.

7. A bridge flower trough guardrail structure with a water storage function as claimed in claim 1, 2 or 3, wherein the guardrail comprises a plurality of sections distributed along the extension direction of the bridge, and the upper surface of each section is provided with the groove.

8. A bridge flower trough guardrail structure with a water supply and storage function as claimed in claim 1, 2 or 3, wherein the distance from the lowest point of the overflow port to the lower surface of the isolation plate is more than 5 cm.

9. The bridge flower trough guardrail structure with the water supply and storage function as claimed in claim 1, 2 or 3, wherein the water supply hole is connected with a vertical pipe extending into the water storage cavity in a butt joint manner, a water outlet hole is formed in a part of the vertical pipe located in the planting groove, a plug is connected in the vertical pipe in a sliding and sealing manner, the plug is connected with a floater located in the water storage cavity and used for jacking up the plug through a push rod, and the push rod penetrates through the vertical pipe; when the water in the water storage cavity flows out from the overflow port, the floater jacks the plug to the position blocking the water outlet hole through the connecting rod, and when the water in the water storage cavity is dry, the plug is positioned below the water outlet hole.

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