CN203097013U - Environment-friendly anti-explosion wall body and framework thereof - Google Patents

Abstract

The utility model discloses an environment-friendly anti-explosion wall body and a framework thereof. The environment-friendly anti-explosion wall body comprises the framework. The framework comprises more than one base unit. Each base unit comprises a parallel-arranged horizontal plate group and a parallel-arranged vertical plate group. Horizontal plates are perpendicular to vertical plates. A from-top-to-bottom U-shaped cut opening is formed in the position, crossed with each vertical plate, of each horizontal plate. A from-bottom-to-top reversed U-shaped cut opening is formed in the position, crossed with each horizontal plate, of each vertical plate. The horizontal plates and the vertical plates are clamped into the base unit through the U-shaped cut openings and the reversed U-shaped cut openings. The horizontal plates of two adjacent base units are connected in a one-to-one-corresponding mode. Sand layers or gravel layers are filled in cavities formed by the horizontal plates and the vertical plates. According to the environment-friendly anti-explosion wall body and the framework thereof, the horizontal plates and the vertical plates can be disassembled, the disassembled horizontal plates and the disassembled vertical plates can be used repeatedly, and accordingly a new wall body can be formed. The horizontal plates and the vertical plates can be used repeatedly, gravel in the gravel layers belongs to natural objects, and therefore environment pollution can be avoided.

Description

Explosion-proof body of wall of a kind of environmental protection and skeleton thereof

Technical field

The utility model relates to a kind of explosion-proof body of wall that is used to bear blast impulse power, relates in particular to the explosion-proof body of wall of a kind of environmental protection, and the utility model also relates to the skeleton of the explosion-proof body of wall of this environmental protection simultaneously.

Background technology

Setting off firecracker is the traditional culture of China, but now, the news report that has firecrackers factory to blast frequently in case the blast of firecrackers takes place, all can cause enormous economic loss, also has some casualties unavoidably sometimes.

In real social life and activity, also have some other inflammable and explosive dangerous material, the raw material of making such as firecrackers, various oil gas fuel etc. also occur unexpected easily in depositing process.

At present, to this real-life accidental explosion, majority does not almost have defensive measure, its generation of leaving; Even if important goal also just enforces vigilance, patrols, to guarantee safety.Have only minority can adopt steel concrete to construct safeguard structure, but reinforced concrete structure is a kind of permanent installation, also more complicated is had relatively high expectations technically, and the engineering time is long, and the manpower and materials consumption rate is bigger, the cost height.And these buildings more can not reuse in case completion just can't be moved, and the rubbish that its dismounting back is produced also can become permanent discarded object, damage to the environment.

The utility model content

The purpose of this utility model provides the explosion-proof body of wall of a kind of reliable environmental protection, to solve in the prior art because being used for the defense installation of inflammable and explosive substances is the building that causes of concrete structure in case completion just can't be moved, the problem that can not reuse more.

To achieve these goals, the explosion-proof body of wall of environmental protection of the present utility model adopts following technical scheme: the explosion-proof body of wall of a kind of environmental protection, comprise skeleton, described skeleton comprises more than one elementary cell, each elementary cell comprises one group of transverse slat that is arranged in parallel and one group of riser that is arranged in parallel, each transverse slat is perpendicular to riser, the position that arbitrary transverse slat and each riser intersect has U-shaped otch from top to bottom, the position that arbitrary riser and each transverse slat intersect has inverted U-shaped otch from the bottom to top, each transverse slat clamps into an elementary cell with each riser by U-shaped otch and inverted U-shaped otch, each transverse slat of two adjacent elementary cells is corresponding one by one to link to each other, and fills out in each cavity that each transverse slat and each riser form and is provided with sandy soil layer or sand stone layer.

Two transverse slats that are in a side of an elementary cell and the height that is in two transverse slats of opposite side all are higher than the height of interjacent transverse slat.

Two transverse slats that are in a side of an elementary cell equate and are 1.5 times of height of interjacent other transverse slats with the height of two transverse slats that are in opposite side.

Each transverse slat of two adjacent elementary cells links to each other by buckle structure, being in a transverse slat side and that be in the outside and being in buckle structure opposite side and that be in an outside transverse slat of an elementary cell is two cards, one end of two cards links to each other with transverse slat, the other end of two cards overhangs relatively respectively towards the above and below, the buckle structure of all the other transverse slats of an elementary cell is a card, this card links to each other with transverse slat near an end of transverse slat termination, and the other end freely overhangs.

Each card forms by the U-shaped groove moulding of offering on the transverse slat.

The skeleton of the explosion-proof body of wall of environmental protection of the present utility model adopts following technical scheme:

The skeleton of the explosion-proof body of wall of a kind of environmental protection, comprise more than one elementary cell, each elementary cell comprises one group of transverse slat that is arranged in parallel and one group of riser that is arranged in parallel, each transverse slat is perpendicular to riser, the position that arbitrary transverse slat and each riser intersect has U-shaped otch from top to bottom, the position that arbitrary riser and each transverse slat intersect has inverted U-shaped otch from the bottom to top, each transverse slat clamps into an elementary cell with each riser by U-shaped otch and inverted U-shaped otch, and each transverse slat of two adjacent elementary cells is corresponding one by one to link to each other.

Two transverse slats that are in a side of an elementary cell and the height that is in two transverse slats of opposite side all are higher than the height of interjacent transverse slat.

Two transverse slats that are in a side of an elementary cell equate and are 1.5 times of height of interjacent other transverse slats with the height of two transverse slats that are in opposite side.

Each transverse slat of two adjacent elementary cells links to each other by buckle structure, being in a transverse slat side and that be in the outside and being in buckle structure opposite side and that be in an outside transverse slat of an elementary cell is two cards, one end of two cards links to each other with transverse slat, the other end of two cards overhangs relatively respectively towards the above and below, the buckle structure of all the other transverse slats of an elementary cell is a card, this card links to each other with transverse slat near an end of transverse slat termination, and the other end freely overhangs.

Each card forms by the U-shaped groove moulding of offering on the transverse slat.

The transverse slat of the elementary cell of skeleton of the present utility model is arranged in parallel, its riser also is arranged in parallel, each transverse slat clamps into an elementary cell with each riser by U-shaped otch and inverted U-shaped otch, each transverse slat of two adjacent elementary cells is corresponding one by one to link to each other, form long wall shape, in each cavity of each transverse slat and the formation of each riser, fill out and be provided with sandy soil layer or sand stone layer, form a solid body of wall.This body of wall can bear impact generated by explosion power, prevents to explode to involve neighbouring building and personnel, can fully reduce the loss that blast produces.In addition, because transverse slat of the present utility model and riser are fastened, can take apart easily, when needs are removed body of wall, can earlier sand stone layer be cleared out, then transverse slat and riser are dismantled one by one, transverse slat of dismantling and riser can reuse, to form new body of wall.Because transverse slat and riser can reuse, and the sandstone in the sand stone layer belong to the nature thing, can not pollute environment.

Skeleton of the present utility model is made up of a series of transverse slat and riser, can be in factory integrated production, being transported to assembled on site then becomes body of wall to get final product, produce quick, convenient transportation can pack into the container transverse slat and riser, promptly practicable container highway, railway, water route transportation, realize containerization transportation and carrying, the vehicle transport of also can directly packing into.

Description of drawings

Fig. 1 is the structural representation of a unit of the embodiment of explosion-proof body of wall of the present utility model;

Fig. 2 is the structural representation of a unit of embodiment of the skeleton of explosion-proof body of wall of the present utility model;

Fig. 3 is the structural representation of the riser among Fig. 2;

Fig. 4 is the structural representation of a kind of transverse slat among Fig. 2;

Fig. 5 is the structural representation of the another kind of transverse slat among Fig. 2;

Fig. 6 is the structural representation of the third transverse slat among Fig. 2.

The specific embodiment

The embodiment of the explosion-proof body of wall of a kind of environmental protection, at Fig. 1, in conjunction with Fig. 2 ~ 6, the skeleton of the explosion-proof body of wall of this environmental protection is formed by connecting by a plurality of elementary cells, and each elementary cell has one group of transverse slat and one group of riser, and each transverse slat is arranged in parallel, each riser also is arranged in parallel, transverse slat is respectively the measure-alike of first transverse slat 2, second transverse slat 3 and the 3rd transverse slat 4, the first transverse slats 2 and second transverse slat 3, and the height of first transverse slat 2 and second transverse slat 3 is 1.5 times of height of the 3rd transverse slat 4.First transverse slat 2 has two, second transverse slat 3 also has two, two first transverse slats are in outermost, one is in a side, another is in opposite side, and two second transverse slats are adjacent with two first transverse slats respectively, and just one second transverse slat links to each other with one first transverse slat, another second transverse slat is adjacent with another first transverse slat, and the 3rd transverse slat 4 is distributed between two second transverse slats.The structure of all risers 1 in one group of riser is all the same with size.Evenly be laid with on each riser 1 evenly to be laid with on inverted U-shaped otch 5, the first transverse slats 2 evenly to be laid with on the second U-shaped otch, 6, the three transverse slats 4 on the first U-shaped otch, 7, the second transverse slats 3 and evenly be laid with the 4th U-shaped otch 8.Each riser is vertical with each transverse slat, clamp into an elementary cell by U-shaped otch and inverted U-shaped otch, just inverted U-shaped cooperation with the corresponding U-shaped otch of each transverse slat of each of any riser is stuck riser and each transverse slat, make the bottom of each transverse slat and the bottom of each riser be on the same plane, form an elementary cell.Fill out in each cavity that each transverse slat and each riser form and be provided with the sandy soil layer.

Each transverse slat of two adjacent elementary cells links to each other by buckle structure, the buckle structure of first transverse slat 2 is two first cards 10, one end of two first cards 10 links to each other with transverse slat, the other end of two first cards 10 overhangs relatively respectively towards the above and below, the buckle structure of all the other transverse slats of an elementary cell is a card, wherein the bayonet arrangement of second transverse slat 3 is one second card 9, second card 9 links to each other with transverse slat near an end of the termination of second transverse slat 3, and the other end freely overhangs.The buckle structure of the 3rd transverse slat 4 also is a card, and wherein to be one the 3rd card, 11, the three cards 11 link to each other with transverse slat near an end of the termination of the 3rd transverse slats 4 bayonet arrangement of the 3rd transverse slat 4, and the other end freely overhangs.

Each card forms by the U-shaped groove moulding of offering on the transverse slat, that is to say that each card all is wholely set with transverse slat.

Fill out in each cavity that each transverse slat and each riser form and just formed solid body of wall after establishing the sandy soil layer.The impact force that the inflammable explosive article explosion time produces be can bear, property and personnel prevented to injure.

Above-mentioned body of wall also can be constructed simple and fast with doing fortification afield, and construction period is short, can also reuse.Each transverse slat and riser are to be assembled together by the mode that clamps, and can realize the repeated use of present embodiment easily.In when recycling, earlier the sand layer in the square space is chiseled and cleared, then with transverse slat with riser splits out and entrucking is transported to new place and re-assemblied and get final product.

Filling out what establish in each cavity that each transverse slat in the present embodiment and each riser form is the sandy soil layers, also can be the sand layer.

The embodiment of the skeleton of the explosion-proof body of wall of a kind of environmental protection, in Fig. 2 ~ 6, in conjunction with Fig. 1, the skeleton of the explosion-proof body of wall of this environmental protection is formed by connecting by a plurality of elementary cells, each elementary cell has one group of transverse slat and one group of riser, each transverse slat is arranged in parallel, each riser also is arranged in parallel, transverse slat is respectively first transverse slat 2, second transverse slat 3 and the 3rd transverse slat 4, first transverse slat 2 and second transverse slat 3 measure-alike, the height of first transverse slat 2 and second transverse slat 3 are 1.5 times of height of the 3rd transverse slat 4.First transverse slat 2 has two, second transverse slat 3 also has two, two first transverse slats are in outermost, one is in a side, another is in opposite side, and two second transverse slats are adjacent with two first transverse slats respectively, and just one second transverse slat links to each other with one first transverse slat, another second transverse slat is adjacent with another first transverse slat, and the 3rd transverse slat 4 is distributed between two second transverse slats.The structure of all risers 1 in one group of riser is all the same with size.Evenly be laid with on each riser 1 evenly to be laid with on inverted U-shaped otch 5, the first transverse slats 2 evenly to be laid with on the second U-shaped otch, 6, the three transverse slats 4 on the first U-shaped otch, 7, the second transverse slats 3 and evenly be laid with the 4th U-shaped otch 8.Each riser is vertical with each transverse slat, clamp into an elementary cell by U-shaped otch and inverted U-shaped otch, just inverted U-shaped cooperation with the corresponding U-shaped otch of each transverse slat of each of any riser is stuck riser and each transverse slat, make the bottom of each transverse slat and the bottom of each riser be on the same plane, form an elementary cell.A plurality of cavitys that each transverse slat and each riser form.

Each transverse slat of two adjacent elementary cells links to each other by buckle structure, the buckle structure of first transverse slat 2 is two first cards 10, one end of two first cards 10 links to each other with transverse slat, the other end of two first cards 10 overhangs relatively respectively towards the above and below, the buckle structure of all the other transverse slats of an elementary cell is a card, wherein the bayonet arrangement of second transverse slat 3 is one second card 9, second card 9 links to each other with transverse slat near an end of the termination of second transverse slat 3, and the other end freely overhangs.The buckle structure of the 3rd transverse slat 4 also is a card, and wherein to be one the 3rd card, 11, the three cards 11 link to each other with transverse slat near an end of the termination of the 3rd transverse slats 4 bayonet arrangement of the 3rd transverse slat 4, and the other end freely overhangs.

Each card forms by the U-shaped groove moulding of offering on the transverse slat, that is to say that each card all is wholely set with transverse slat.

Buckle structure in the present embodiment also can be the fixing hole that card is established on transverse slat, corresponding transverse slat can be fixed together by fixing hole and rivet.

Claims (10)

1. explosion-proof body of wall of environmental protection, it is characterized in that: comprise skeleton, described skeleton comprises more than one elementary cell, each elementary cell comprises one group of transverse slat that is arranged in parallel and one group of riser that is arranged in parallel, each transverse slat is perpendicular to riser, the position that arbitrary transverse slat and each riser intersect has U-shaped otch from top to bottom, the position that arbitrary riser and each transverse slat intersect has inverted U-shaped otch from the bottom to top, each transverse slat clamps into an elementary cell with each riser by U-shaped otch and inverted U-shaped otch, each transverse slat of two adjacent elementary cells is corresponding one by one to link to each other, and fills out in each cavity that each transverse slat and each riser form and is provided with sandy soil layer or sand stone layer.

2. the explosion-proof body of wall of environmental protection according to claim 1 is characterized in that: two transverse slats that are in a side of an elementary cell and the height that is in two transverse slats of opposite side all are higher than the height of interjacent transverse slat.

3. the explosion-proof body of wall of environmental protection according to claim 2 is characterized in that: two transverse slats that are in a side of an elementary cell equate and are 1.5 times of height of interjacent other transverse slats with the height of two transverse slats that are in opposite side.

4. according to claim 1 or the explosion-proof body of wall of 2 or 3 described environmental protection, it is characterized in that: each transverse slat of two adjacent elementary cells links to each other by buckle structure, being in a transverse slat side and that be in the outside and being in buckle structure opposite side and that be in an outside transverse slat of an elementary cell is two cards, one end of two cards links to each other with transverse slat, the other end of two cards overhangs relatively respectively towards the above and below, the buckle structure of all the other transverse slats of an elementary cell is a card, this card links to each other with transverse slat near an end of transverse slat termination, and the other end freely overhangs.

5. the explosion-proof body of wall of environmental protection according to claim 4 is characterized in that: each card forms by the U-shaped groove moulding of offering on the transverse slat.

6. the skeleton of the explosion-proof body of wall of environmental protection, it is characterized in that: comprise more than one elementary cell, each elementary cell comprises one group of transverse slat that is arranged in parallel and one group of riser that is arranged in parallel, each transverse slat is perpendicular to riser, the position that arbitrary transverse slat and each riser intersect has U-shaped otch from top to bottom, the position that arbitrary riser and each transverse slat intersect has inverted U-shaped otch from the bottom to top, each transverse slat clamps into an elementary cell with each riser by U-shaped otch and inverted U-shaped otch, and each transverse slat of two adjacent elementary cells is corresponding one by one to link to each other.

7. the skeleton of the explosion-proof body of wall of environmental protection according to claim 6 is characterized in that: two transverse slats that are in a side of an elementary cell and the height that is in two transverse slats of opposite side all are higher than the height of interjacent transverse slat.

8. the skeleton of the explosion-proof body of wall of environmental protection according to claim 7 is characterized in that: two transverse slats that are in a side of an elementary cell equate and are 1.5 times of height of interjacent other transverse slats with the height of two transverse slats that are in opposite side.

9. according to the skeleton of claim 6 or the explosion-proof body of wall of 7 or 8 described environmental protection, it is characterized in that: each transverse slat of two adjacent elementary cells links to each other by buckle structure, being in a transverse slat side and that be in the outside and being in buckle structure opposite side and that be in an outside transverse slat of an elementary cell is two cards, one end of two cards links to each other with transverse slat, the other end of two cards overhangs relatively respectively towards the above and below, the buckle structure of all the other transverse slats of an elementary cell is a card, this card links to each other with transverse slat near an end of transverse slat termination, and the other end freely overhangs.

10. the skeleton of the explosion-proof body of wall of environmental protection according to claim 9 is characterized in that: each card forms by the U-shaped groove moulding of offering on the transverse slat.

Images