CN214574113U - Stable in structure's drainage skeleton - Google Patents

Abstract

The utility model relates to a stable-structure water filtering framework, which comprises a supporting pipe, a splicing pipe, a reinforcing pipe, a drain pipe and connecting pipes, wherein the supporting pipe comprises an upper pipe, a middle pipe, a lower pipe, a first bottom pipe and a diagonal bracing pipe, the connecting pipes are arranged at the two ends and the middle position of the upper pipe, the middle pipe and the lower pipe, the connecting pipes on the upper pipe and the lower pipe are positioned at the inner side and the outer side of the upper pipe and the lower pipe, the connecting pipes on the middle pipe are positioned at the inner side and the outer side of the middle pipe, the stability of the water filtering framework structure is improved by utilizing the stable characteristic of triangle through splicing the upper pipe, the middle pipe, the lower pipe, the first bottom pipe and the diagonal bracing pipe into a triangle structure, the stability of the water filtering framework is further supported through the first reinforcing pipe and the second reinforcing pipe, and groundwater is guided into the supporting pipe, the splicing pipe and the reinforcing pipe through arranging a plurality of water filtering holes, and the pipes are mutually communicated, and underground water is discharged outwards through the drain pipe, so that underground accumulated water is prevented from being difficult to drain, and the safety and stability of the retaining wall are improved.

Description

Stable in structure's drainage skeleton

Technical Field

The utility model relates to a drainage skeleton field specifically is a stable in structure's drainage skeleton.

Background

The instability damage of the side slope and the retaining engineering thereof is mostly related to the factor of underground water, and for the retaining wall engineering, if the drainage behind the wall is not smooth due to poor construction quality of the inverted filter behind the wall, the horizontal soil pressure borne by the retaining wall can be greatly increased, so that the probability of instability damage of the retaining wall is increased, and the reliability of the retaining engineering is reduced, therefore, the inverted filter effect and the construction quality of the inverted filter behind the retaining wall are one of the key factors for controlling the construction quality of the retaining wall engineering.

Nowadays, the retaining wall back inverted filter adopts gravel stone materials with the thickness of 30cm as the inverted filter, accumulated water behind the wall back is drained by utilizing drain holes of the retaining wall, the inverted filter is used from a grouted sheet stone retaining wall, however, the retaining wall adopts plain concrete or sheet stone concrete cast-in-place, the wall back needs to be provided with a template to reserve a space with the thickness of 30cm of the gravel inverted filter in the cast-in-place process, the construction procedures are multiple, the cost is high, the wall back template needs to be extracted after the concrete is cast, the wall back template is difficult to extract after being supported, so most of the concrete retaining walls at present do not provide the gravel inverted filter according to the design requirement, the underground accumulated water behind the wall is difficult to drain, the safety and stability of the retaining wall are reduced, and further the threat to the safety and stability of the upper slope body of the retaining wall is formed.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a strength is high, supports stable in structure's drainage skeleton.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: a stable-structure water filtering framework comprises a supporting pipe, splicing pipes, reinforcing pipes, a water discharging pipe and connecting pipes, wherein the supporting pipe comprises an upper pipe, a middle pipe, a lower pipe, a first bottom pipe and inclined supporting pipes, the connecting pipes are arranged at the two ends and the middle positions of the upper pipe, the middle pipe and the lower pipe, the connecting pipes on the upper pipe and the lower pipe are positioned at the inner sides of the upper pipe and the lower pipe, the connecting pipes on the middle pipe are positioned at the inner sides and the outer sides of the middle pipe, the splicing pipes are arranged between the upper pipe and the middle pipe and between the lower pipe and the middle pipe and are connected through the connecting pipes, the reinforcing pipes comprise a first reinforcing pipe and a second reinforcing pipe, the first reinforcing pipe and the second reinforcing pipe are arranged between the upper pipe and the middle pipe and between the lower pipe in a crossed manner, the first reinforcing pipe and the second reinforcing pipe are welded with the upper pipe, the middle pipe and the lower pipe, the first bottom pipe is positioned at the two ends of the lower pipe and is connected with the connecting pipes, welded connection between the both ends of bracing pipe and top tube and the first bottom tube, the surface of stay tube, concatenation pipe and enhancement pipe all is equipped with the drainage hole, the drainage hole is equipped with a plurality ofly, the drain pipe is located the both ends of top tube, and with the top tube intercommunication, top tube, well pipe, low tube, first bottom tube and bracing pipe concatenation are the triangle-shaped structure.

For convenient change, the utility model discloses improve and have, be equipped with connecting thread swing joint between top tube, low tube, well pipe and concatenation pipe and the connecting pipe, be equipped with connecting thread swing joint between first bottom tube and the connecting pipe.

In order to improve the stability, the utility model discloses the improvement has, the bracing tube is equipped with a plurality ofly, just be equipped with the third reinforcing pipe between the bracing tube at upper tube and low tube both ends, the third reinforcing pipe is equipped with a plurality ofly.

In order to improve the stability of bracing pipe, the utility model discloses the improvement has, upper end between the bracing pipe at upper tube and low tube both ends is equipped with the pipe jacking and connects, and the lower extreme is equipped with the second bottom tube and connects.

In order to improve the welding effect, the utility model discloses the improvement has, upper end between the bracing pipe at upper tube and low tube both ends is equipped with the push pipe and connects, and the lower extreme is equipped with the second bottom tube and connects.

In order to improve the anticorrosive effect, the utility model discloses the improvement has, stay tube, concatenation pipe, reinforced pipe, drain pipe and connecting pipe are the galvanized steel material, and inside is provided with the anticorrosive coating.

(III) advantageous effects

Compared with the prior art, the utility model provides a stable in structure's drainage skeleton possesses following beneficial effect:

this stable in structure's drainage skeleton is through with the upper tube, well pipe, the low tube, first bottom tube and bracing tube concatenation are the triangle-shaped structure, utilize the stable characteristic of triangle to improve the stability of drainage skeleton texture, further support the stability of reinforcing structure to the drainage skeleton through first reinforcing tube and second reinforcing tube, and through setting up a plurality of drainage holes, with groundwater leading-in stay tube, in concatenation pipe and the reinforcing tube, and the pipeline communicates each other, and outwards discharge groundwater through the drain pipe, prevent that secret ponding is difficult to excrete, improve the safety and stability of barricade.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic view of the structure of the support tube of the present invention;

in the figure: 1. feeding a pipe; 2. a middle tube; 3. a lower pipe; 4. splicing the tubes; 5. a first reinforcing tube; 6. a second reinforcing tube; 7. a diagonal bracing tube; 8. welding the pipe; 9. a first bottom tube; 10. a third reinforcing tube; 11. jacking pipes; 12. a connecting pipe; 13. a second bottom tube; 14. water filtering holes; 15. a drain pipe;

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.

Referring to fig. 1-4, the present invention relates to a stable water filtering framework, which comprises a supporting tube, a splicing tube 4, a reinforcing tube, a water discharging tube 15 and a connecting tube 12, wherein the supporting tube comprises an upper tube 1, a middle tube 2, a lower tube 3, a first bottom tube 9 and a diagonal supporting tube 7, the connecting tube 12 is disposed at two ends and a middle position of the upper tube 1, the middle tube 2 and the lower tube 3, the connecting tube 12 on the upper tube 1 and the lower tube 3 is disposed at the inner side of the upper tube 1 and the lower tube 3, the connecting tube 12 on the middle tube 2 is disposed at the inner side and the outer side of the middle tube 2, the splicing tube 4 is disposed between the upper tube 1 and the middle tube 2 and between the lower tube 3 and the middle tube 2 and connected by the connecting tube 12, the reinforcing tube comprises a first reinforcing tube 5 and a second reinforcing tube 6, the first reinforcing tube 5 and the second reinforcing tube 6 are disposed between the upper tube 1 and the middle tube 2 and between the lower tube 3 and the middle tube 2 in a crossed manner, just weld between first reinforced pipe 5, second reinforced pipe 6 and top tube 1, well pipe 2 and the low tube 3, first bottom tube 9 be located the both ends of low tube 3 and be equipped with connecting pipe 12 between 3 with the low tube and be connected, welded connection between the both ends of bracing tube 7 and top tube 1 and the first bottom tube 9, the surface of stay tube, concatenation pipe 4 and reinforced tube all is equipped with strainer hole 14, strainer hole 14 is equipped with a plurality ofly, drain pipe 15 is located the both ends of top tube 1, and communicates with top tube 1, well pipe 2, low tube 3, first bottom tube 9 and bracing tube 7 splice to the triangle-shaped structure.

To sum up, this stable in structure's drainage skeleton, through with top tube 1, well pipe 2, low tube 3, first bottom tube 9 and bracing tube 7 concatenation are the triangle-shaped structure when using, utilize the stable characteristic of triangle to improve the stability of drainage skeleton texture, and top tube 1, connect through connecting pipe 12 and concatenation pipe 4 between well pipe 2 and the low tube 3, further support the stability of reinforcing structure to the drainage skeleton through first reinforcing tube 5 and second reinforcing tube 6, and through setting up a plurality of drainage pores 14, with the leading-in stay tube of groundwater, in concatenation pipe 4 and the enhancement pipe, and the pipeline communicates each other, and outwards discharge groundwater through drain pipe 15, prevent that secret ponding is difficult to excrete, improve the safety and stability of barricade.

For convenient change, the utility model discloses the improvement has, be equipped with connecting thread swing joint between upper tube 1, low tube 3, well pipe 2 and concatenation pipe 4 and the connecting pipe 12, be equipped with connecting thread swing joint between first bottom tube 9 and the connecting pipe 12, the maintenance is changed alone to the part of individual damage to the convenience, and then the cost of later maintenance is reduced.

In order to improve the stability, the utility model discloses the improvement has, bracing tube 7 is equipped with a plurality ofly, just be equipped with third reinforcing tube 10 between the bracing tube 7 at upper tube 1 and low tube 3 both ends, third reinforcing tube 10 is equipped with a plurality ofly.

In order to improve the stability of bracing pipe 7, the utility model discloses the improvement has, upper end between the bracing pipe 7 at upper tube 1 and low tube 3 both ends is equipped with push pipe 11 and connects, and the lower extreme is equipped with second bottom tube 13 and connects.

In order to improve the welding effect, the utility model discloses the improvement has, upper end between the bracing tube 7 at upper tube 1 and low tube 3 both ends is equipped with the pipe-jacking 11 and connects, and the lower extreme is equipped with second bottom tube 13 and connects, and it is dead to weld the pipeline when preventing to weld, and the water in the pipeline can not circulate.

In order to improve anticorrosive effect, the utility model discloses the improvement has, stay tube, concatenation pipe 4, enhancement pipe, drain pipe 15 and connecting pipe 12 are the galvanized steel material, and inside is provided with the anticorrosive coating, and then prolongs the utility model discloses a life.

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. The water filtering framework with the stable structure is characterized by comprising a supporting pipe, splicing pipes (4), reinforcing pipes, a water discharging pipe (15) and connecting pipes (12), wherein the supporting pipe comprises an upper pipe (1), a middle pipe (2), a lower pipe (3), a first bottom pipe (9) and an inclined supporting pipe (7), the connecting pipes (12) are arranged at the two ends and the middle position of the upper pipe (1), the middle pipe (2) and the lower pipe (3), the connecting pipes (12) on the upper pipe (1) and the lower pipe (3) are positioned at the inner sides of the upper pipe (1) and the lower pipe (3), the connecting pipes (12) on the middle pipe (2) are positioned at the inner side and the outer side of the middle pipe (2), the splicing pipes (4) are arranged between the upper pipe (1) and the middle pipe (2) and between the lower pipe (3) and the middle pipe (2) and are connected through the connecting pipes (12), and the reinforcing pipes comprise a first reinforcing pipe (5) and a second reinforcing pipe (6), first reinforced pipe (5) and second reinforced pipe (6) cross arrangement between top tube (1) and well pipe (2) and between low tube (3) and well pipe (2), just weld between first reinforced pipe (5), second reinforced pipe (6) and top tube (1), well pipe (2) and low tube (3), first bottom tube (9) are located the both ends of low tube (3) and are equipped with connecting pipe (12) between with low tube (3) and are connected, welded connection between the both ends of bracing pipe (7) and top tube (1) and first bottom tube (9), the surface of stay tube, concatenation pipe (4) and reinforced pipe all is equipped with drainage hole (14), drainage hole (14) are equipped with a plurality ofly, drain pipe (15) are located the both ends of top tube (1), and communicate with top tube (1), well pipe (2), low tube (3), The first bottom tube (9) and the inclined supporting tube (7) are spliced into a triangular structure.

2. A water filtering framework with stable structure according to claim 1, characterized in that the upper pipe (1), the lower pipe (3), the middle pipe (2) and the splicing pipe (4) are movably connected with the connecting pipe (12) through connecting threads, and the first bottom pipe (9) is movably connected with the connecting pipe (12) through connecting threads.

3. A structurally stable water filtering framework according to claim 1, characterized in that a plurality of said braces (7) are provided, and a third reinforcing tube (10) is provided between said braces (7) at both ends of said upper (1) and lower (3) tubes, said third reinforcing tube (10) being provided in plurality.

4. A structurally stable water-filtering framework as claimed in claim 1, characterized in that the upper end between the inclined supporting tubes (7) at the two ends of the upper tube (1) and the lower tube (3) is provided with a top tube (11) connection, and the lower end is provided with a second bottom tube (13) connection.

5. A structurally stable water filtering framework according to claim 3, characterized in that the brace pipes (7) are connected with the upper pipe (1) and the first bottom pipe (9) by welding pipes (8), and the third reinforcing pipe (10) is connected with the brace pipes (7) by welding pipes (8).

6. A structurally stable water straining framework according to claim 1, characterized in that the support tubes, the splicing tubes (4), the reinforcement tubes, the drainage tubes (15) and the connecting tubes (12) are made of galvanized steel and are internally provided with an anti-corrosive film.

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