CN113882753A - Assembled barricade - Google Patents

Abstract

The invention discloses an assembled retaining wall which comprises a plurality of insertion pipes and square retaining wall units, wherein splicing column rings are arranged on four vertical edge lines of each retaining wall unit, and each splicing column ring consists of a plurality of horizontal lantern rings arranged on the vertical edge lines at intervals; the retaining wall units are closely arranged side by side in the horizontal direction, and splicing column rings of adjacent retaining wall units are embedded with each other through intervals between the horizontal lantern rings to form a common splicing column ring; all the retaining wall units are sequentially stacked upwards in the vertical direction; the insertion tube is inserted into the common splicing column ring, and the length of the insertion tube is not shorter than the height of the single retaining wall unit. The invention has the advantages of simple structure, convenient installation, high strength, good stability, environmental protection and no pollution.

Description

Assembled barricade

The application is a divisional application of an invention patent with a parent case name of 'an assembled retaining wall'; the parent application has the application number: CN 201710508782.3; the application date of the parent application is as follows: 2017.06.28.

Technical Field

The invention belongs to the technical field of civil construction, and particularly relates to an assembled retaining wall.

Background

The retaining wall in the prior art is generally a fixed building and is built by stones, sand, bricks, cement and the like. Retaining walls are generally used temporarily, for example, as temporary enclosing walls for building construction, shelters for military projects, and the like, and need to be removed after use. The existing defects are as follows: 1. the original land can be damaged when the retaining wall is built or removed, and the time and the labor are wasted; 2. demolish the barricade and can produce a large amount of building rubbish, be unfavorable for the environmental protection.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an assembled retaining wall, which solves the technical problems that the retaining wall in the prior art is long in construction period and inconvenient to dismantle, is convenient to construct, can realize quick installation and quick dismantling, does not generate building garbage after dismantling, and can be repeatedly used.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the invention provides an assembled retaining wall which comprises a plurality of insertion pipes and square retaining wall units, wherein splicing column rings are arranged on four vertical edge lines of each retaining wall unit, and each splicing column ring comprises a plurality of horizontal lantern rings arranged on the vertical edge lines at intervals; the retaining wall units are closely arranged side by side in the horizontal direction, and the splicing column rings of the adjacent retaining wall units are mutually embedded through the interval between the horizontal lantern rings to form a common splicing column ring; each retaining wall unit is sequentially stacked upwards in the vertical direction; inserting a cannula into the common split collar, the cannula having a length no shorter than the height of a single wall unit;

the retaining wall units are staggered and stacked in the vertical direction, a seam on a plumb bob surface between the adjacent retaining wall units on the lower layer is aligned with a vertical center-split line of the side surface of the retaining wall unit on the upper layer, and the side surface is coplanar with the seam; a horizontal sleeve ring is arranged on the vertical center parting line of the side surface, and the cannula can be inserted into the horizontal sleeve ring;

the barricade unit includes square outer cage and is used for filling the inner bag of filler, the upper end of inner bag is uncovered, two adjacent edges all are connected with along respective length of a side direction and are used for sealing on uncovered the uncovered lid of taking, the area of taking the lid all is greater than uncovered area.

The square retaining wall units are regular in shape, convenient to assemble and capable of assembling walls with respective size specifications. The concatenation becket of barricade unit is used for as an organic whole with each barricade unit concatenation, because the concatenation becket comprises a plurality of horizontal lantern rings, has the interval between the horizontal lantern ring, and the concatenation becket between the adjacent barricade unit so can unite two into one each other through the interval embedding between the horizontal lantern ring, then inserts the intubate in the concatenation becket after the combination to make inseparable connection together between two barricade units.

Each retaining wall unit is staggered and stacked in the vertical direction, and the stability of the retaining wall in the vertical direction can be improved by staggered and stacked, so that the retaining wall is not prone to toppling.

The area of taking the lid all is greater than open area, like this, the inner bag can closely laminate with the curb plate of square outer cage after filling for be difficult to after the curb plate pressurized of square outer cage warp, improve the bulk rigidity of barricade unit.

Preferably, the upper end of the square outer cage is provided with an opening for placing the inner bag.

Preferably, the square outer cage comprises a front side plate, a rear side plate, a left side plate and a right side plate which enclose a cubic shape or a cuboid shape; the splicing column rings are arranged on the intersecting edge lines of two adjacent side plates.

The inner bag is used for filling fillers such as soil, gravels and the like which can be obtained from local materials, so that the retaining wall unit becomes thick, heavy and high in strength; the inner bag after filling is put into square outer cage, and square outer cage can play the design effect to the inner bag after filling for the barricade unit is whole squarely, when assembling the barricade through a plurality of barricade units like this, just seems very convenient, simultaneously, because the barricade unit is inside to be filled, can form thick, firm barricade.

When the retaining wall assembled by the retaining wall units is dismantled, the insertion pipes are pulled out, and the fillers in the inner bag are poured out, so that the method is very convenient, the retaining wall units can be recycled, and the building garbage polluting the environment can not be generated because the fillers are soil and gravels obtained in situ.

Preferably, the upper end and the lower end of the square outer cage are both open; and the adjacent side plates are hinged. Therefore, the adjacent side plates are hinged, so that the square outer cage can be folded; the upper end and the lower extreme of square outer cage are uncovered and do not hinder when making folding, and square outer cage can be folded and compress into the platykurtic, very convenient storage, carry and transportation.

Preferably, the side plates are made of steel wire meshes; the horizontal lantern ring on the intersecting crest line of two adjacent side plates is formed by bending the end of the steel wire on the adjacent side of one side plate, and the end of the steel wire on the adjacent side of the other side plate penetrates into the horizontal lantern ring and is bent into a ring shape, so that the two adjacent side plates are hinged. Therefore, the square outer cage made of the steel wire mesh has higher strength, the weight of the square outer cage can be reduced, and the square outer cage is more convenient to carry and transport; and still utilized the steel wire end of wire net self to form the horizontal lantern ring, this horizontal lantern ring can not only form the concatenation column ring, has still played the effect of articulated adjacent curb plate simultaneously, kills two birds with one stone, design benefit for the structure of square outer cage is retrencied more.

Preferably, each side plate is formed by splicing two sub steel wire meshes through a horizontal lantern ring; the horizontal lantern ring between two sub steel wire meshes is formed by bending the end of the steel wire on one sub steel wire mesh, and the end of the steel wire on the other sub steel wire mesh penetrates into the horizontal lantern ring and is bent into a ring shape, so that the two sub steel wire meshes are hinged. Like this, at the in-process of setting up the barricade, except that the arris is on-line connected through horizontal lantern ring and intubate between the adjacent barricade unit, also can connect through horizontal lantern ring and intubate on its curb plate face, not only strengthened the joint strength between the adjacent barricade unit, simultaneously, improved the rigidity of the square outer cage of each barricade unit to improve the bearing capacity of barricade unit.

Preferably, the inner bag is consistent with the square outer cage in shape and size.

Preferably, the adjacent bag faces of the inner bag are connected through a zipper. Therefore, the pouring of the filler in the inner bag is very convenient, the filler can be cleaned out from the side surface only by unzipping the zipper, and the heavy inner bag does not need to be turned over up and down to be poured.

Preferably, the inner bag is sewn by waterproof material fabric. Therefore, the inner bag is waterproof, and the filler in the inner bag is prevented from being lost due to rainwater infiltration in rainy days or flood fighting and disaster relief.

Preferably, the center line of the horizontal lantern ring on the side plate surface is positioned on the center dividing line of the side plate surface; the length of the insertion pipe is at least the sum of the heights of the two retaining wall units; the common splicing column ring of the upper and lower adjacent retaining wall units and the horizontal sleeve ring of the side plate surface are all inserted with inserting pipes. Like this, the intubate can not only connect the barricade unit that the same one deck is improved level side by side, still will go up lower floor barricade unit simultaneously and link together, has improved the joint strength between each barricade unit and the stability of barricade greatly.

Compared with the prior art, the invention has the following beneficial technical effects:

the invention has the advantages of simple structure, convenient installation, high strength, good stability, environmental protection and no pollution.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural view of an assembled retaining wall;

FIG. 2 is a schematic structural view of a square outer cage of the retaining wall unit;

FIG. 3 is a schematic structural view of an inner bag of the retaining wall unit;

description of reference numerals: 1 is a retaining wall unit, 11 is a square outer cage, 112 is a horizontal lantern ring, 12 is an inner bag, 121 is a lap cover, and 122 is a zipper.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.

The invention aims to provide an assembled retaining wall, which solves the technical problems that the retaining wall in the prior art is long in construction period and inconvenient to dismantle, is convenient to construct, can realize quick installation and quick dismantling, does not generate building garbage after dismantling, and can be recycled.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

As shown in fig. 1 to 3, the present embodiment provides an assembled retaining wall, which includes a plurality of insertion tubes and a square retaining wall unit 1, wherein four vertical edges of the retaining wall unit 1 are provided with splicing column rings, and each splicing column ring is composed of a plurality of horizontal lantern rings 112 arranged on the vertical edges at intervals; the retaining wall units 1 are closely arranged in parallel in the horizontal direction, and the splicing column rings of the adjacent retaining wall units 1 are embedded with each other through the interval between the horizontal lantern rings 112 to form a common splicing column ring; the retaining wall units 1 are sequentially stacked upwards in the vertical direction; the insertion tube is inserted into the common split collar, and the length of the insertion tube is not shorter than the height of the single retaining wall unit 1.

The square retaining wall units 1 are regular in shape, convenient to assemble and capable of assembling walls with respective dimensions. The splicing column ring of the retaining wall units 1 is used for splicing the retaining wall units 1 into a whole, and the splicing column ring is composed of a plurality of horizontal lantern rings 112, intervals are arranged among the horizontal lantern rings 112, so that the splicing column rings between the adjacent retaining wall units 1 can be embedded into each other through the intervals among the horizontal lantern rings 112, the splicing column rings are combined into one, then the insertion pipes are inserted into the splicing column ring after combination, and therefore the two retaining wall units 1 are connected tightly.

In the present embodiment, the retaining wall units 1 are staggered and stacked in the vertical direction; the seam on the plumb surface between adjacent lower floor's barricade unit aligns with the vertical alignment of dividing of the side of upper strata barricade unit, the side is coplanar with the seam. Therefore, the stability of the retaining wall in the vertical direction can be improved by staggered joint stacking, and the retaining wall is not prone to toppling.

In the present embodiment, the retaining wall unit 1 includes a square outer cage 11 and an inner bag 12 for filling with filler; the upper end of the square outer cage 11 is provided with an opening for placing the inner bag 12; the square outer cage 11 comprises a front side plate, a rear side plate, a left side plate and a right side plate which are enclosed into a cubic shape or a cuboid shape; the splicing column rings are arranged on the intersecting edge lines of the two adjacent side plates.

The inner bag is used for filling fillers such as soil, gravels and the like which can be obtained from local materials, so that the retaining wall unit 1 becomes thick, heavy and high in strength; the inner bag after filling is put into the square outer cage 11, and the square outer cage 11 can play a shaping role to the inner bag 12 after filling, so that the retaining wall unit 1 is integrally square, and thus, when the retaining wall is assembled by a plurality of retaining wall units 1, the retaining wall unit is very convenient to assemble, and meanwhile, as the retaining wall unit 1 is filled inside, a thick and firm retaining wall can be formed.

When the retaining wall assembled by the retaining wall unit 1 is dismantled, only the insertion pipe needs to be pulled out, and the filler in the inner bag 12 needs to be poured out, so that the retaining wall unit 1 is very convenient to use, can be recycled, and cannot generate building garbage polluting the environment because the filler is soil and gravel obtained from local materials.

In this embodiment, both the upper end and the lower end of the square outer cage 11 are open; and the adjacent side plates are hinged. In this way, the adjacent side plates are hinged, so that the square outer cage 11 can be folded; the upper end and the lower end of the square outer cage 11 are both open, so that the square outer cage is not blocked when being folded, and the square outer cage can be folded and compressed into a flat shape, so that the square outer cage is very convenient to store, carry and transport.

In the specific embodiment, the side plates of the square outer cage 11 are all made of steel wire meshes; the horizontal lantern ring 112 on the intersecting crest line of two adjacent side plates is formed by bending the end of the steel wire on the adjacent side on one side plate, and the end of the steel wire on the adjacent side on the other side plate penetrates into the horizontal lantern ring 112 and is bent into a ring shape, so that the two adjacent side plates are hinged. Therefore, the square outer cage 11 made of the steel wire mesh has higher strength, can reduce the weight of the square outer cage, and is more convenient to carry and transport; and still utilized the steel wire end of wire net self to form horizontal lantern ring 112, this horizontal lantern ring 112 can not only form the concatenation column ring, has still played the effect of articulated adjacent curb plate simultaneously, kills two birds with one stone, design benefit for the structure of square outer cage is more retrencied.

In the present embodiment, each side plate of the square outer cage 11 is formed by splicing two sub steel wire meshes through a horizontal sleeve ring 112; the horizontal sleeve ring 112 between the two sub steel wire meshes is formed by bending the end of the steel wire on one sub steel wire mesh, and the end of the steel wire on the other sub steel wire mesh penetrates into the horizontal sleeve ring and is bent into a ring shape, so that the two sub steel wire meshes are hinged. Like this, at the in-process of building the barricade, except that being connected through horizontal lantern ring 112 and intubate on the arris line between the adjacent barricade unit, also can be connected through horizontal lantern ring 112 and intubate on its curb plate face, not only strengthened the joint strength between the adjacent barricade unit, simultaneously, improved the rigidity of the square outer cage of each barricade unit to improve the bearing capacity of barricade unit.

In this specific embodiment, the inner bag 12 and the square outer cage 11 have the same shape and size, the upper end of the inner bag 12 is open, and two adjacent edges on the open are connected with a lap cap 121 for closing the open along the respective side length direction; the area of the lap covers 121 is larger than that of the opening. Thus, the inner bag 12 can be tightly attached to the side plates of the square outer cage 11 after being filled, so that the side plates of the square outer cage 11 are not easy to deform after being pressed, and the overall rigidity of the retaining wall unit is improved.

In this embodiment, the adjacent bag faces of the inner bag 12 are connected by a zipper 122. Thus, the pouring of the contents of the inner bag 12 is very convenient, and the contents can be removed from the side by simply opening the zipper 122 without tilting the bulky inner bag upside down.

In this embodiment, the inner bag 12 is made of waterproof fabric by sewing. Thus, the inner bag 12 is waterproof, and the filler in the inner bag 12 can be prevented from being lost due to rainwater infiltration in rainy days or flood fighting and disaster relief.

In this embodiment, the center line of the horizontal collar 112 on the side plate surface of the square outer cage 11 is located on the center line of the side plate surface; the length of the insertion pipe is at least the sum of the heights of the two retaining wall units; the common splicing column ring of the upper and lower adjacent retaining wall units and the horizontal lantern ring 112 of the side plate surface are inserted with insertion pipes. Like this, the intubate can not only be connected with the barricade unit 1 that the one deck is improved level side by side, still will go up lower floor barricade unit 1 simultaneously and link together, has improved the joint strength between each barricade unit 1 and the stability of barricade greatly.

The assembled wall body has wide application range, can be used for quickly building a flood control wall in the flood control emergency rescue process, can be used for building a temporary construction enclosure, and can also be used for quickly building an isolator, a shelter, a pillbox and the like in military engineering.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

The principle and the implementation mode of the invention are explained by applying a specific example, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (10)

1. An assembled barricade which characterized in that: the novel retaining wall comprises a plurality of insertion tubes and square retaining wall units, splicing column rings are arranged on four vertical edges of each retaining wall unit, and each splicing column ring comprises a plurality of horizontal lantern rings arranged on the vertical edges at intervals; the retaining wall units are closely arranged side by side in the horizontal direction, and the splicing column rings of the adjacent retaining wall units are mutually embedded through the interval between the horizontal lantern rings to form a common splicing column ring; each retaining wall unit is sequentially stacked upwards in the vertical direction; inserting a cannula into the common split collar, the cannula having a length no shorter than the height of a single wall unit;

the retaining wall units are staggered and stacked in the vertical direction, a seam on a plumb bob surface between the adjacent retaining wall units on the lower layer is aligned with a vertical center-split line of the side surface of the retaining wall unit on the upper layer, and the side surface is coplanar with the seam; a horizontal sleeve ring is arranged on the vertical center parting line of the side surface, and the cannula can be inserted into the horizontal sleeve ring;

the barricade unit includes square outer cage and is used for filling the inner bag of filler, the upper end of inner bag is uncovered, two adjacent edges all are connected with along respective length of a side direction and are used for sealing on uncovered the uncovered lid of taking, the area of taking the lid all is greater than uncovered area.

2. The assembled retaining wall of claim 1, wherein: the upper end of the square outer cage is provided with an opening for placing the inner bag.

3. The assembled retaining wall of claim 1, wherein: the square outer cage comprises a front side plate, a rear side plate, a left side plate and a right side plate which are enclosed into a cubic shape or a cuboid shape, and the splicing column rings are arranged on intersecting edge lines of two adjacent side plates.

4. The assembled retaining wall of claim 3, wherein: the upper end and the lower end of the square outer cage are both open; and the adjacent side plates are hinged.

5. The assembled retaining wall of claim 4, wherein: the side plates are all made of steel wire meshes; the horizontal lantern ring on the intersecting crest line of two adjacent side plates is formed by bending the end of the steel wire on the adjacent side of one side plate, and the end of the steel wire on the adjacent side of the other side plate penetrates into the horizontal lantern ring and is bent into a ring shape, so that the two adjacent side plates are hinged.

6. The assembled retaining wall of claim 3, wherein: each side plate comprises two sub steel wire meshes which are spliced through a horizontal lantern ring; the horizontal lantern ring between the two sub steel wire meshes is formed by bending the end of the steel wire on one sub steel wire mesh, and the end of the steel wire on the other sub steel wire mesh penetrates into the horizontal lantern ring and is bent into a ring shape, so that the two sub steel wire meshes are hinged.

7. The assembled retaining wall of claim 1, wherein: the inner bag is consistent with the square outer cage in shape and size.

8. The assembled retaining wall of claim 1, wherein: the adjacent bag surfaces of the inner bag are connected through a zipper.

9. The assembled retaining wall of claim 1, wherein: the inner bag is made of waterproof fabric by sewing; the filler is soil or sand.

10. The assembled retaining wall of claim 6, wherein: the center line of the horizontal lantern ring on the surface of the side plate is positioned on the center dividing line of the surface of the side plate; the length of the insertion pipe is at least the sum of the heights of the two retaining wall units; the adjacent two-layer from top to bottom the sharing concatenation becket of barricade unit and the intubate has all been pegged graft in the horizontal lantern ring of curb plate face.

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