CN219690419U - Flood control wall for flood control engineering - Google Patents

Abstract

The utility model is suitable for the technical field of flood control facilities, and provides a flood control wall for flood control engineering, which comprises two upright post frames, and a first splice plate and a second splice plate which are in sliding fit between the two upright post frames; vertical plates are fixed on the two opposite inner walls of the upright post frame; two rectangular grooves are formed in one side of the vertical plate; a sliding plate is in sliding fit with the inside of the rectangular groove; a plurality of splicing columns are fixed on one side of the sliding plate; the plug-in cylinder penetrates through the inner wall of the upright post frame; a hinge seat is fixed on the other side surface of the sliding plate opposite to the sliding plate; two guide frames are fixed on the inner wall of the upright post frame; a sliding block is in sliding fit with the inside of the guide frame; the two opposite side surfaces of the sliding block are hinged and matched with hinge arms; the hinge arm is hinged and matched with the hinge seat; a plurality of first splicing holes and second splicing holes are respectively formed in one side surface of the first splicing plate, which is opposite to the second splicing plate; the device solves and replaces the process of manual sand bag filling, carrying and stacking, and has the advantages of simple structure and convenient construction process.

Description

Flood control wall for flood control engineering

Technical Field

The utility model relates to the technical field of flood control facilities, in particular to a flood control wall for flood control engineering.

Background

Flood control projects are mainly projects built for controlling and defending flood to reduce flood damage. The method is mainly classified into dykes, river channel renovation projects, flood diversion projects, reservoirs and the like. According to functions and building purposes, the functions can be divided into a gear type, a release type (discharging type) type and a storage type (stagnation type) type. At present, in terms of flood control measures, flood control personnel can build flood control walls for flood control projects at flood control sites.

The existing flood protection wall is used for blocking flood through a sand bag wall formed by stacking a plurality of sand bags, so that the following problems may exist in the stacking process:

the sand bags are loaded, carried and stacked, and are mainly manually operated by flood control personnel, the operation process is too complex, and for the flood control personnel, the problem of high labor intensity and low working efficiency exists in the working process.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide the flood control wall for flood control engineering, which can realize the mutual splicing and fixing of the whole of a plurality of first splice plates and second splice plates which are connected with each other in a sliding way and a plurality of upright post frames, replaces the process of filling, carrying and stacking artificial sand bags, has a simple structure and is convenient to build.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a flood control wall for flood control engineering comprises two upright post frames; vertical plates are fixed on two opposite inner walls of the upright post frame; two rectangular grooves are formed in one side of the vertical plate; a sliding plate is in sliding fit with the inside of the rectangular groove; a plurality of inserting cylinders are fixed on one side of the sliding plate; the plug-in cylinder penetrates through the inner wall of the upright post frame and is in sliding fit with the upright post frame; and a hinge seat is fixed on the other side surface of the sliding plate opposite to the sliding plate.

Two guide frames are fixed on the inner wall of the upright post frame; a sliding block is in sliding fit with the inside of the guide frame; the two opposite side surfaces of the sliding block are hinged and matched with hinge arms; the hinge arm is hinged and matched with the hinge seat.

The two opposite outer side surfaces of the upright post frame are provided with cross grooves; a first splice plate is in sliding fit with the inside of a cross groove formed in one outer side face of the upright post frame; a second splice plate is slidably matched with one side of the first splice plate; the second splice plate is in sliding fit with a cross groove formed in the outer side face of the other upright post frame; a plurality of first splicing holes are formed in one side of the first splice plate; a plurality of second splicing holes are formed in one side of the second splice plate; the plug-in cylinder is in plug-in fit with the first plug-in hole; the plug-in cylinder is in plug-in fit with the second plug-in hole.

The utility model is further provided with: a threaded rod is matched in the guide frame in a rotating way; the threaded rod is in threaded rotary connection with the sliding block through a threaded hole.

The utility model is further provided with: a sliding groove is formed in one side of the first splice plate.

A sliding rail is arranged on one side of the second splice plate; the sliding rail is in sliding fit with the sliding groove.

The utility model is further provided with: the two upright post frames are provided with vertical grooves in a penetrating way on the two opposite outer side surfaces; a transverse rod is in sliding fit between a vertical groove formed in one side surface of the upright post frame and a vertical groove formed in the other side surface of the upright post frame.

Fixing plates are fixed on two opposite side surfaces of the transverse rod; a plurality of first fixing holes are formed in one side of the fixing plate.

The utility model is further provided with: a plurality of second fixing holes are formed in one side of the first splice plate.

A plurality of third fixing holes are formed in one side of the second splice plate; the first fixing hole is fixedly connected with the second fixing hole through a bolt; the first fixing hole is fixedly connected with the third fixing hole through a bolt.

And inclined supporting feet are fixedly arranged in the upright post frame through bolt connection.

The utility model has the advantages that: according to the utility model, the threaded rod is rotated to drive the two hinge arms respectively hinged and matched between the two opposite sides of the sliding block and the two hinge seats to generate relative expansion displacement, so that the two sliding plates are driven to be respectively separated from each other in the two rectangular grooves until a plurality of splicing cylinders fixed on the opposite sides of the two sliding plates are respectively spliced with a plurality of first splicing holes and a plurality of second splicing holes formed on the opposite sides of the whole body of the two mutually sliding connected first splicing plates and the whole body of the second splicing plates, and then the threaded rod is stopped rotating, thereby realizing the mutual splicing and fixing between the whole body of the plurality of mutually sliding connected first splicing plates and the whole body of the second splicing plates and a plurality of upright post frames, replacing the process of filling, carrying and stacking artificial sand bags.

Drawings

Fig. 1 is a schematic structural view of a flood control wall for flood control engineering according to the present utility model.

Fig. 2 is a schematic structural view of the pillar frame of the present utility model.

FIG. 3 is a schematic view of a first splice plate according to the present utility model.

FIG. 4 is a schematic view of a second splice plate according to the present utility model.

Fig. 5 is a front view of the transverse bar of the present utility model.

Fig. 6 is a schematic view of the structure of the transverse bar of the present utility model.

In the figure: 1. a column frame; 2. a riser; 3. rectangular grooves; 4. a sliding plate; 5. a plug-in cylinder; 6. a hinge base; 7. a guide frame; 8. a slide block; 9. an articulated arm; 10. a cross groove; 11. a first splice plate; 12. a second splice plate; 13. a first plug hole; 14. a second plug hole; 15. a threaded rod; 16. a sliding groove; 17. a slide rail; 18. a vertical groove; 19. a transverse bar; 20. a fixing plate; 21. a first fixing hole; 22. a second fixing hole; 23. thirdly, fixing; 24. and (5) supporting the supporting feet obliquely.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. The utility model will be described in detail below with reference to the drawings in connection with embodiments.

It is noted that all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs unless otherwise indicated.

In the present utility model, unless otherwise indicated, the terms "upper" and "lower" are used generally with respect to the directions shown in the drawings, or with respect to the vertical, vertical or gravitational directions; also, for ease of understanding and description, "left, right" is generally directed to the left, right as shown in the drawings; "inner and outer" refer to inner and outer relative to the outline of the components themselves, but the above-described orientation terms are not intended to limit the present utility model.

Example 1

Referring to fig. 1-6, the present utility model provides the following technical solutions:

in particular to a flood control wall for flood control engineering, which comprises two upright post frames 1; vertical plates 2 are fixed on two opposite inner walls of the upright post frame 1; two rectangular grooves 3 are formed in one side of the vertical plate 2; a sliding plate 4 is in sliding fit with the inside of the rectangular groove 3; a plurality of inserting cylinders 5 are fixed on one side of the sliding plate 4; the plug-in cylinder 5 penetrates through the inner wall of the upright post frame 1 and is in sliding fit with the upright post frame 1; the other side surface of the sliding plate 4 opposite to the sliding plate is fixed with a hinging seat 6; two guide frames 7 are fixed on the inner wall of the upright post frame 1; a sliding block 8 is slidably matched in the guide frame 7; the two opposite side surfaces of the sliding block 8 are hinged and matched with hinge arms 9; the hinge arm 9 is in hinge fit with the hinge seat 6; the opposite outer side surfaces of the upright post frame 1 are provided with cross grooves 10; a first splice plate 11 is in sliding fit in a cross groove 10 formed in one outer side surface of the upright post frame 1; a second splice plate 12 is slidably matched on one side of the first splice plate 11; the second splice plate 12 is in sliding fit with a cross groove 10 formed in one outer side face of the other upright post frame 1; a plurality of first splicing holes 13 are formed in one side of the first splice plate 11; a plurality of second splicing holes 14 are formed in one side of the second splice plate 12; the plug cylinder 5 is matched with the first plug hole 13 in a plug manner; the plug cylinder 5 is matched with the second plug hole 14 in a plug manner; a threaded rod 15 is in rotary fit with the inside of the guide frame 7; the threaded rod 15 is in threaded rotary connection with the slider 8 through a threaded hole.

The specific application of this embodiment is: the opposite side surfaces of the first splice plate 11 and the second splice plate 12 which are connected in a sliding way are respectively connected with two cross grooves 10 formed on the opposite side surfaces of the two upright frames 1 which are symmetrically arranged in a sliding way, after the first splice plate 11 and the second splice plate 12 which are connected in a sliding way are stacked up and down in sequence, the threaded rod 15 is rotated to drive the sliding block 8 to move inwards in the guide frame 7, in the moving process, the two hinge arms 9 which are respectively hinged and matched between the opposite side surfaces of the sliding block 8 and the two hinge seats 6 can generate relative expansion displacement, and further drive the two sliding plates 4 to be mutually far away in the two rectangular grooves 3 respectively, until a plurality of grafting cylinders 5 fixed by the opposite side surfaces of the two sliding plates 4 are respectively mutually spliced with a plurality of first grafting holes 13 and a plurality of second grafting holes 14 formed by the opposite side surfaces of the whole body of the two sliding plates 11 and the second splicing plates 12, the threaded rod 15 stops rotating, so that the mutual splicing and fixing between the whole body of the plurality of first splicing plates 11 and the second splicing plates 12 which are mutually connected and the plurality of upright frames 1 is realized, the process of filling, carrying and stacking artificial sand bags is replaced, the structure is simple, and the construction process is convenient.

Example two

Referring to fig. 1 to 6, the second embodiment is modified from the first embodiment in that a sliding groove 16 is formed on one side of the first splice plate 11; a sliding rail 17 is arranged on one side of the second splice plate 12; the slide rail 17 is in sliding engagement with the slide groove 16.

One specific application of this embodiment is: the sliding groove 16 formed on one side of the first splice plate 11 and the sliding rail 17 formed on one side of the second splice plate 12 can be used in the assembly process. And are connected in a sliding fit manner, so that a first splice plate 11 and a second splice plate 12 which are connected with each other in a sliding manner are formed as a whole.

Example III

Referring to fig. 1-6, the third embodiment is modified from the first embodiment in that, specifically, two opposite outer sides of the two upright posts frames 1 are provided with vertical slots 18; a transverse rod 19 is in sliding fit between a vertical groove 18 formed in one side surface of one upright post frame 1 and a vertical groove 18 formed in one side surface of the other upright post frame 1; the two opposite side surfaces of the transverse rod 19 are fixed with fixing plates 20; a plurality of first fixing holes 21 are formed in one side of the fixing plate 20; a plurality of second fixing holes 22 are formed in one side of the first splice plate 11; a plurality of third fixing holes 23 are formed in one side of the second splice plate 12; the first fixing hole 21 is fixedly connected with the second fixing hole 22 through bolts; the first fixing hole 21 is fixedly connected with the third fixing hole 23 through bolts; the inside of the upright post frame 1 is fixedly provided with an inclined supporting leg 24 through bolt connection.

One specific application of this embodiment is: when the opposite side surfaces of the first splice plate 11 and the second splice plate 12 which are in sliding connection with each other are respectively connected with the two cross grooves 10 formed in the opposite side surfaces of the two upright frames 1 which are symmetrically arranged in a sliding manner, and after the first splice plate 11 and the second splice plate 12 which are in sliding connection with each other are stacked up and down, the transverse rods 19 which are in sliding fit with each other are further positioned and fixed between the vertical grooves 18 formed in one side surface of the upright frame 1 and the vertical grooves 18 formed in one side surface of the other upright frame 1 until the transverse rods 19 slide between the two upright frames 1 to the middle positions of the two groups of the first splice plates 11 and the second splice plates 12 which are stacked up and down, at the moment, the first fixing holes 21 and the second fixing holes 22 are fixedly connected through bolts, and simultaneously, the first fixing holes 21 and the third fixing holes 23 are fixedly connected with each other through bolts, so that a relatively complete flood wall is formed, and the inside of the upright frames 1 is further connected with the two groups of the first splice plates 11 and the second splice plates 12 which are in sliding connection with each other through the bolts, and the supporting effect of the inclined support legs 1 is further improved.

It will be apparent that the embodiments described above are merely some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present utility model without making any inventive effort, shall fall within the scope of the present utility model.

Claims (5)

1. A flood control wall for flood control engineering comprises two upright post frames (1); the method is characterized in that: vertical plates (2) are fixed on two opposite inner walls of the upright post frame (1); two rectangular grooves (3) are formed in one side of the vertical plate (2); a sliding plate (4) is in sliding fit with the inside of the rectangular groove (3); a plurality of inserting cylinders (5) are fixed on one side of the sliding plate (4); the plug-in cylinder (5) penetrates through the inner wall of the upright post frame (1) and is in sliding fit with the upright post frame; a hinge seat (6) is fixed on the other side surface of the sliding plate (4);

two guide frames (7) are fixed on the inner wall of the upright post frame (1); a sliding block (8) is in sliding fit with the inside of the guide frame (7); the two opposite side surfaces of the sliding block (8) are hinged and matched with hinge arms (9); the hinge arm (9) is in hinge fit with the hinge seat (6);

the two opposite outer side surfaces of the upright post frame (1) are provided with cross grooves (10); a first splice plate (11) is in sliding fit with the inside of a cross groove (10) formed in one outer side face of the upright post frame (1); a second splice plate (12) is slidably matched on one side of the first splice plate (11); the second splice plate (12) is in sliding fit with a cross groove (10) formed in one outer side face of the other upright post frame (1); one side of the first splice plate (11) is provided with a plurality of first splicing holes (13); a plurality of second splicing holes (14) are formed in one side of the second splice plate (12); the plug-in cylinder (5) is in plug-in fit with the first plug-in hole (13); the plug-in cylinder (5) is in plug-in fit with the second plug-in hole (14).

2. A flood control wall for flood control projects according to claim 1, wherein: a threaded rod (15) is in rotary fit with the inside of the guide frame (7); the threaded rod (15) is in threaded rotary connection with the sliding block (8) through a threaded hole.

3. A flood control wall for flood control engineering according to claim 2, wherein: a sliding groove (16) is formed in one side of the first splice plate (11);

a sliding rail (17) is arranged on one side of the second splice plate (12); the sliding rail (17) is in sliding fit with the sliding groove (16).

4. A flood control wall for flood control projects according to claim 1, wherein: the two opposite outer side surfaces of the two upright post frames (1) are provided with vertical grooves (18) in a penetrating way; a transverse rod (19) is in sliding fit between a vertical groove (18) formed in one side surface of one upright post frame (1) and a vertical groove (18) formed in one side surface of the other upright post frame (1);

fixing plates (20) are fixed on two opposite side surfaces of the transverse rod (19); a plurality of first fixing holes (21) are formed in one side of the fixing plate (20).

5. The flood control wall for flood control engineering according to claim 4, wherein: a plurality of second fixing holes (22) are formed in one side of the first splice plate (11);

a plurality of third fixing holes (23) are formed in one side of the second splice plate (12); the first fixing hole (21) is fixedly connected with the second fixing hole (22) through a bolt; the first fixing hole (21) is fixedly connected with the third fixing hole (23) through a bolt;

and inclined supporting feet (24) are fixedly arranged in the upright post frame (1) through bolt connection.