CN109854057B

CN109854057B - Assembled transferable antiknock structure

Info

Publication number: CN109854057B
Application number: CN201811563578.2A
Authority: CN
Inventors: 任王军; 胡金华; 张伟锋; 王永辉; 欧阳科峰; 高超; 李阅迟; 曹兰付; 陈红跃
Original assignee: National Academy of Defense Engineering of PLA Academy of Military Science
Current assignee: National Academy of Defense Engineering of PLA Academy of Military Science
Priority date: 2018-12-20
Filing date: 2018-12-20
Publication date: 2024-03-26
Anticipated expiration: 2038-12-20
Also published as: CN109854057A

Abstract

The invention discloses an assembled transferable antiknock structure, which comprises a foundation material component, a framework component, a protection panel and an access channel; the invention integrally adopts an assembled structure, can realize quick disassembly and recovery, and is convenient for repeated use; the invention has lighter weight of each component, can be manually carried, has a detachable structure for connection between all the components, can realize integral assembly by manual work, and does not need other auxiliary mechanical equipment. The framework component adopts a three-layer structure, the outer framework adopts channel steel, the middle framework adopts a plurality of shorter steel pipes, and the inner layer adopts long steel pipes, so that the framework has light weight and strong overall antiknock performance, and in addition, the inner, outer and middle frameworks have simple structures and are easy to process.

Description

Assembled transferable antiknock structure

Technical Field

The invention belongs to the technical field of protection, and particularly relates to an assembled transferable antiknock structure.

Background

The antiknock structure is a protective structure for resisting explosion and damage and protecting personnel and equipment in the interior, and is generally constructed by integrally cast-in-situ or prefabricated reinforced concrete members. When the integral cast-in-situ is adopted, the requirements on site conditions are high, the working period is long, the requirements on personnel and equipment are large, and the position cannot be transferred after the construction is finished; when the prefabricated concrete member is adopted for assembly, the member has large size, heavy weight, more field construction equipment and high operation difficulty, and is not easy to withdraw, transfer and reuse. In emergency rescue and the like, a plurality of antiknock structures are often required to be quickly built under limited protection conditions for protecting personnel or equipment, and building sites are changeable. By adopting the two methods for construction, the operation time is long, the construction method is not easy to withdraw, transfer and reuse, the investment is large, and the resource waste is serious.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide an assembled transferable antiknock structure.

In order to achieve the above object, the present invention adopts the following technical scheme:

an assembled transferable antiknock structure comprises a base material component, a framework component, a protection panel and an access channel;

the foundation material assembly comprises two transverse foundation materials, two longitudinal foundation materials, a plurality of supporting materials and a plurality of floors, wherein the two transverse foundation materials and the two longitudinal foundation materials are connected to form a rectangular supporting frame, the plurality of supporting materials are arranged between the two longitudinal foundation materials, the plurality of floors are arranged between the adjacent supporting materials, the transverse foundation materials and the longitudinal foundation materials are all angle irons, the horizontal side plates on the transverse foundation materials and the longitudinal foundation materials are all arranged outwards, and a plurality of positioning columns are uniformly distributed on the upper surface of the horizontal side plate of the longitudinal foundation material along the length direction of the horizontal side plate;

the positioning columns are provided with bases, skeleton assemblies are connected between the corresponding bases on the two longitudinal base materials, and the skeleton assemblies are uniformly arranged at intervals along the length direction of the longitudinal base materials;

the framework assembly comprises two side framework assemblies and a top framework assembly connected between the two side framework assemblies, the side framework assemblies are vertical, the top framework assemblies are arched, the side framework assemblies and the top framework assemblies are composed of an outer framework, an intermediate framework and an inner framework, the outer framework is channel steel, the inner framework is a hollow pipe body, the outer framework is arranged in parallel with the inner framework, the outer framework is flush with the corresponding end face of the inner framework, the outer framework is fixedly connected with the inner framework through the intermediate framework, the intermediate framework is composed of a plurality of connecting pipes uniformly arranged between the inner framework and the outer framework at intervals, the notch of the outer framework faces to the outer side, and the bottom surface of the outer framework is welded with the outer circumferential surface of the connecting pipe;

the outer layer framework and the upper end part of the inner layer framework on the side framework component are correspondingly provided with rectangular pipes and connecting pipes, a connecting column is welded between the upper end parts of the outer layer framework and the inner layer framework, a supporting pipe is welded between the outer layer framework and the inner layer framework of the top framework component, the rectangular pipes are inserted into the lower port of the outer layer framework of the top framework component, the connecting pipes are inserted into the lower port of the inner layer framework of the top framework component, the connecting column is inserted into the supporting pipe on the top framework component, the connecting column and the supporting pipe are fixedly connected through a pin shaft penetrating through the connecting column and the supporting pipe, a strip-shaped hole is formed in the pin shaft, and a wedge-shaped clamping plate is arranged in the strip-shaped hole in a penetrating manner;

the upper ends of the two side frame components are respectively connected with the two ends of the top frame component, and the lower ends of the two side frame components are correspondingly connected with positioning columns on the two sides of the foundation material component;

the framework components on the same side are connected with a plurality of supporting tie bars, the supporting tie bars are uniformly distributed at intervals from top to bottom, the notch of each supporting tie bar is outwards arranged, the joint of each supporting tie bar and the inner framework on each framework component is provided with an arc notch, the inner framework is positioned in the arc notch, the inner framework is connected with a U-shaped clamp, the U-shaped clamp is clamped on the outer surface of the inner framework and penetrates out of the bottom surface of the groove of each supporting tie bar, two clamping arms of each U-shaped clamp are provided with strip-shaped holes, and the U-shaped clamp is fixedly connected with the supporting tie bars and the inner framework by penetrating wedge-shaped clamping plates in the strip-shaped holes;

the outer frameworks of two adjacent groups of framework components are covered with protective panels, each group of protective panels comprises two straight panels, two side arc panels and a top arc panel, the top arc panels are connected to the top of the top framework component, the two side arc panels are connected to the lower ends of the two sides of the top framework component, the two straight panels are respectively and correspondingly connected to the side framework components, the lower side edges of the top arc panels are lapped on the outer surfaces of the side arc panels, and the lower side edges of the side arc panels are lapped on the outer surfaces of the straight panels; the seams between two adjacent groups of protection panels correspond to the notch of the outer layer framework on the framework component;

the end walls are respectively arranged on the framework components at the forefront end and the rearmost end, each end wall comprises an H-shaped frame and a plurality of end plates, the upper ends of the H-shaped frames are connected with the tops of the framework components, the lower ends of the H-shaped frames are connected with transverse foundation materials, the end plates are connected between the left side edges and the right side edges of the H-shaped frames and the framework components, the end plates are paved in notches at the upper ends of the H-shaped frames, and notches at the lower ends of the H-shaped frames are used as inlets and outlets;

the H-shaped frame is connected with an inlet and outlet channel, the inlet and outlet channel corresponds to the inlet and outlet, the inlet and outlet channel comprises two parallel U-shaped foundation materials, a plurality of transverse plates and side plates, one ends of the two U-shaped foundation materials are fixedly connected to the transverse foundation materials, a plurality of transverse plates are arranged between the two U-shaped foundation materials, a plurality of bottom plates are paved between the adjacent transverse plates, a plurality of side plates are respectively connected in notches of the two U-shaped foundation materials, a top plate is connected between upper ends of the corresponding side plates on the two U-shaped foundation materials, and side surfaces of the top plate and the side plates, which are contacted, are fixedly connected through angle irons.

Still preferably, a hanging plate is arranged in the notch of the outer framework, hooks are arranged on the inner sides of the straight panel, the side arc-shaped panels and the top arc-shaped panels, the connection of the straight panel/the side arc-shaped panels/the top arc-shaped panels and the outer framework is realized on the hanging plate through the hooks, a positioning plate is arranged in the notch of the outer framework corresponding to the seam of the adjacent group of protective panels, the outer side end of the positioning plate extends out of the notch of the outer framework and is positioned between the adjacent group of protective panels, a strip-shaped hole is formed in the part of the positioning plate extending out of the notch of the outer framework, and the adjacent group of protective panels are tightly clamped on the outer framework through the wedge-shaped clamping plates in the strip-shaped hole.

By adopting the technical scheme, the invention has the following advantages:

1. the invention integrally adopts an assembled structure, can realize quick disassembly and recovery, and is convenient for repeated use;

2. the invention has lighter weight of each component, can be manually carried, has a detachable structure for connection between all the components, can realize integral assembly by manual work, and does not need other auxiliary mechanical equipment.

3. The three-layer structure of the framework is adopted, the outer layer framework adopts channel steel, the middle layer framework adopts a plurality of shorter steel pipes, and the inner layer adopts long steel pipes, so that the framework has light weight and strong overall antiknock performance, and in addition, the inner, outer and middle layer frameworks have simple structures and are easy to process;

4. the middle layer framework and the base consume explosion energy through self deformation, so that the antiknock performance of the whole structure is improved;

5. the panel adopts the articulatedly with the skeleton to overlap joint for between the adjacent panel, effectual waterproof effect that has improved.

Drawings

FIG. 1 is a schematic structural diagram of a base material assembly;

FIG. 2 is a schematic structural view of a skeleton assembly;

FIG. 3 is a schematic diagram of the connection of an outer layer skeleton, an intermediate layer skeleton, and an inner layer skeleton;

FIG. 4 is a schematic structural view of a protective panel;

FIG. 5 is a schematic view of the structure of an end wall;

FIG. 6 is a schematic view of the structure of the aspiration passageway;

FIG. 7 is a schematic diagram of the structures of the hanging plate and the clamping plate;

FIG. 8 is a schematic diagram of the structure of the present invention;

FIG. 9 is a schematic illustration of the connection of support ties;

in the figure: 1. a base material assembly; 101. a transverse foundation material; 102. positioning columns; 103. longitudinal base material; 104. a support material; 105. a floor; 2. a skeleton assembly; 201. a top skeletal assembly; 202. a side frame assembly; 3. an outer layer skeleton; 4. an intermediate layer skeleton; 5. an inner layer skeleton; 6. a protective panel; 601. a top arcuate panel; 602. a side arc panel; 603. a flat panel; 7. end wall; 701. an H-shaped frame; 702. an end plate; 8. an access passage; 801. a top plate; 802. a side plate; 803. u-shaped base materials; 804. a bottom plate; 9. a hanging plate; 10. a positioning plate; 11. a base; 12. supporting the tie; 13. a U-shaped card; 14. wedge-shaped clamping plates.

Detailed Description

The technical scheme of the invention is further described in detail below with reference to the accompanying drawings and examples.

As shown in fig. 8, the assembled transferable antiknock structure comprises a base material component 1, a framework component 2, a protection panel 6, an end wall 7 and an access passage 8, and the assembled transferable antiknock structure is an assembled structure, can be assembled and disassembled quickly by manpower, and has very strong flexibility.

As shown in fig. 1 and 9, the base material assembly 1 comprises two transverse base materials 101, two longitudinal base materials 103, a plurality of supporting materials 104 and a plurality of floors 105, the two transverse base materials 101 and the two longitudinal base materials 103 are connected to form a rectangular supporting frame, the plurality of supporting materials 104 are arranged between the two longitudinal base materials 103, the plurality of floors 105 are arranged between the adjacent supporting materials 104, the transverse base materials 101 and the longitudinal base materials 103 are angle irons, horizontal side plates on the transverse base materials 101 and the longitudinal base materials 103 are arranged outwards, a plurality of positioning columns 102 are uniformly distributed on the upper surfaces of the horizontal side plates of the longitudinal base materials 103 along the length direction of the horizontal side plates, bases 11 are arranged on the positioning columns 102, skeleton assemblies 2 are connected between the corresponding bases 11 on the two longitudinal base materials 103, and the skeleton assemblies 2 are uniformly arranged along the length direction of the longitudinal base materials 103 at intervals.

As shown in fig. 2 and 3, the skeleton assembly 2 includes two side skeleton assemblies 202 and a top skeleton assembly 201 connected between the two side skeleton assemblies 202, the side skeleton assemblies 202 are vertical, the top skeleton assemblies 201 are arched, the side skeleton assemblies 202 and the top skeleton assemblies are composed of an outer skeleton 3, an intermediate skeleton 4 and an inner skeleton 5, the outer skeleton 3 is a channel steel, the inner skeleton 5 is a hollow pipe body, the outer skeleton 3 and the inner skeleton 5 are arranged in parallel, and the end surfaces of the outer skeleton 3 and the inner skeleton 5 are flush, the outer skeleton 3 and the inner skeleton 5 are fixedly connected through the intermediate skeleton 4, and the intermediate skeleton 4 is composed of a plurality of connecting pipes uniformly arranged between the inner skeleton and the outer skeleton at intervals; the connecting pipe can consume explosion energy through self deformation under the action of explosion load, so that the antiknock performance of the whole structure is improved; the notch of outer skeleton is outwards directed, and the bottom surface of outer skeleton and the outer circumferential surface welding of connecting pipe.

The framework component 2 of the invention adopts a three-layer structure, the outer framework 5 adopts channel steel, the middle framework 4 adopts a plurality of shorter steel pipes, and the inner framework 3 adopts long steel pipes, so that the overall bending resistance of the framework of the invention is stronger, the overall weight of the framework of the invention is lighter, the framework is assembled with manpower quickly, and in addition, the inner, outer and middle frameworks have simple structures and are easy to process.

To facilitate quick assembly, the side frame assemblies 202 are connected to the top frame assembly 201 by means of a plug-in connection, specifically: the outer layer skeleton 3 and the inlayer skeleton 5 upper end on the lateral part skeleton subassembly 202 correspond and are provided with rectangular pipe and connecting pipe the spliced pole has been welded between outer layer skeleton 3 and the inlayer skeleton 5 upper end, has the stay tube between outer layer skeleton 3 and inlayer skeleton 5 of top skeleton subassembly 201, and rectangular pipe is pegged graft in the lower port of outer layer skeleton 3 of top skeleton subassembly 201, the connecting pipe is pegged graft in the lower port of the inlayer skeleton of top skeleton subassembly, and the spliced pole is pegged graft in the stay tube on the top skeleton subassembly to the spliced pole realizes fixed connection through the round pin axle that passes both with the stay tube, and has seted up the bar hole on the round pin axle, wears to be equipped with wedge cardboard in the bar hole.

The upper ends of the two side skeleton assemblies 202 are respectively connected with the two ends of the top skeleton assembly 201, and the lower ends of the two side skeleton assemblies 202 are correspondingly connected to the positioning columns 102 on the two sides of the foundation material assembly 1.

In order to ensure the supporting strength and the antiknock effect of the framework component 2, the framework component 2 on the same side is connected with a plurality of supporting tie bars 12, the supporting tie bars 12 are uniformly distributed at intervals from top to bottom, the notch of each supporting tie bar 12 is outwards arranged, as shown in fig. 9, the joint of each supporting tie bar 12 and the inner layer framework 5 on each framework component is provided with an arc notch, the inner layer framework 5 is positioned in the arc notch, the inner layer framework 5 is connected with a U-shaped clamp 13, the U-shaped clamp 13 is clamped on the outer surface of the inner layer framework 5 and penetrates out from the bottom surface of the groove of each supporting tie bar 12, two clamping arms of the U-shaped clamp 13 are provided with strip-shaped holes, and the U-shaped clamp is fixedly connected with the supporting tie bars 12 and the inner layer framework 5 by penetrating wedge-shaped clamping plates 14 in the strip-shaped holes.

As shown in fig. 4, the outer layer skeleton 3 of the skeleton assembly 2 is covered with a protection panel 6, the protection panel 6 comprises two flat panels 603, two side arc panels 602 and a top arc panel 601, the top arc panel 601 is connected to the top of the top skeleton assembly 201, the two side arc panels 602 are connected to the lower ends of the two sides of the top skeleton assembly 201, the two flat panels 603 are respectively connected to the side skeleton assembly 202 correspondingly, the lower side edge of the top arc panel 601 is lapped on the outer surface of the side arc panel 602, and the lower side edge of the side arc panel 602 is lapped on the outer surface of the flat panel 603; the seams between adjacent sets of protective panels 6 correspond to the notches of the outer shell 3 of the shell assembly 2.

The widths of the flat panel 603, the side arc-shaped panels 602 and the top arc-shaped panels 601 in each set of protection panels 6 are the same.

In the invention, as a preference, each group of protection panels 6 can cover three framework components 2, and the joints between the adjacent protection panels 6 are just positioned at the notch of the outer framework 3, so that even if running water exists at the joints between the protection panels 6, the water can flow into the notch of the outer framework 3 and cannot enter the inside, and the waterproof effect is effectively improved; in addition, the flat panel 603, the side arc-shaped panel 602 and the top arc-shaped panel 601 in each group of the protection panels 6 are all in lap joint, so that the waterproof effect is further ensured.

The end walls 7 are respectively arranged on the foremost and rearmost framework components 2, as shown in fig. 5, the end walls 7 comprise an H-shaped frame 701 and a plurality of end plates 702, the upper end of the H-shaped frame 701 is connected with the top of the framework components 2, the lower end of the H-shaped frame 701 is connected with the transverse foundation 101, end plates 702 are connected between the left side and the right side of the H-shaped frame 701 and the framework components 2, the end plates 702 are paved in the notch at the upper end of the H-shaped frame 701, and the notch at the lower end of the H-shaped frame 701 is used as an inlet and an outlet.

The H-shaped frame 701 is connected with an access channel 8, as shown in fig. 6, the access channel 8 corresponds to the access opening, the access channel 8 comprises two parallel U-shaped base materials 803, a plurality of transverse plates and side plates 802, one ends of the two U-shaped base materials 803 are fixedly connected to the transverse base materials 101, a plurality of transverse plates are arranged between the two U-shaped base materials 803, a plurality of bottom plates 804 are paved between the adjacent transverse plates, a plurality of side plates 802 are respectively connected in the notches on the two U-shaped base materials 803, a top plate 801 is connected between the upper ends of the corresponding side plates on the two U-shaped base materials 803, and the side surfaces of the top plate 801, which are contacted with the side plates 802, are fixedly connected through angle irons.

Preferably, the side plate 802 and the top plate 801 are formed by an inner panel, an outer panel and a sandwich layer, the sandwich layer is formed by a frame and a heat insulation material filled in the frame, the sandwich layer is positioned between the inner panel and the outer panel, and the inner panel and the outer panel are connected with the sandwich layer by rivets.

As shown in fig. 7, a hanging plate 9 is disposed in the notch of the outer layer framework 3, hooks are disposed on the inner sides of the flat panel 603, the side arc-shaped panel 602 and the top arc-shaped panel 601, the connection of the flat panel/side arc-shaped panel and the outer layer framework 3 is realized on the hanging plate 9 through the hooks, a positioning plate 10 is disposed in the notch of the outer layer framework corresponding to the seam of the adjacent group of protection panels 6, the outer side end of the positioning plate 10 extends out of the notch of the outer layer framework 3 and is located between the adjacent group of protection panels 6, strip-shaped holes are formed in the part of the positioning plate 10 extending out of the notch of the outer layer framework 3, and the wedge-shaped clamping plates 14 are arranged in the strip-shaped holes in a penetrating manner so that the adjacent group of protection panels are tightly clamped on the outer layer framework.

In the present invention, the wedge-shaped clamping plate 14 has a flat plate structure with a narrow end and a wide end, and the width of the other end of the wedge-shaped clamping plate is larger than that of the strip-shaped hole.

Claims

1. An assembled transferable antiknock structure comprises a base material component, a framework component, a protection panel and an access channel; the method is characterized in that:

the outer layer framework and the inner layer framework on the side framework component are correspondingly provided with rectangular pipes and connecting pipes, a connecting column is welded between the outer layer framework and the upper end part of the inner layer framework of the side framework component, a supporting pipe is welded between the outer layer framework and the inner layer framework of the top framework component, the rectangular pipes are inserted into the lower port of the outer layer framework of the top framework component, the connecting pipes arranged at the upper end part of the inner layer framework on the side framework component are inserted into the lower port of the inner layer framework of the top framework component, the connecting column is inserted into the supporting pipes on the top framework component, the connecting column and the supporting pipes are fixedly connected through pin shafts penetrating through the connecting column and the supporting pipes, strip-shaped holes are formed in the pin shafts, and wedge-shaped clamping plates are penetrated into the strip-shaped holes;

the framework components on the same side are connected with a plurality of supporting tie bars, the supporting tie bars are uniformly distributed at intervals from top to bottom, the notch of each supporting tie bar is outwards arranged, the joint of each supporting tie bar and the inner framework on each framework component is provided with an arc notch, the inner framework on each framework component is positioned in the arc notch, the inner framework is connected with a U-shaped clamp, the U-shaped clamp is connected to the outer surface of the inner framework and penetrates out of the bottom surface of the supporting tie bar, two clamping arms of the U-shaped clamp are provided with strip-shaped holes, and the U-shaped clamp is used for realizing the fastening connection of the supporting tie bars and the inner framework by penetrating wedge-shaped clamping plates in the strip-shaped holes;

the H-shaped frame is connected with an access channel, the access channel corresponds to the access opening, the access channel comprises two parallel U-shaped base materials, a plurality of transverse plates and side plates, one ends of the two U-shaped base materials are fixedly connected to the transverse base materials, a plurality of transverse plates are arranged between the two U-shaped base materials, a plurality of bottom plates are paved between the adjacent transverse plates, a plurality of side plates are respectively connected in notches of the two U-shaped base materials, a top plate is connected between the upper ends of the corresponding side plates on the two U-shaped base materials, and the side surfaces of the top plate, which are in contact with the side plates, are fixedly connected through angle irons;

the side plates and the top plate are composed of an inner layer of panel, an outer layer of panel and a sandwich layer, the sandwich layer is composed of a frame and a heat insulation material filled in the frame, the sandwich layer is positioned between the inner layer of panel and the outer layer of panel, and the inner layer of panel and the outer layer of panel are connected with the sandwich layer by rivets.

2. The fabricated transferable antiknock structure of claim 1, wherein: be provided with the link plate in the notch of outer skeleton, all be provided with the couple on the medial surface of straight panel, lateral part arc panel and top arc panel, realize being connected of straight panel/lateral part arc panel/top arc panel and outer skeleton on the link plate through the couple, be provided with the locating plate in the notch of the outer skeleton that adjacent group's protective panel's seam corresponds, the notch of outer skeleton is stretched out to the outside end of locating plate and is located between the adjacent protective panel of group, the bar hole has been seted up on the part that the locating plate stretches out outer skeleton notch, wear to establish the wedge cardboard through the bar downthehole so that adjacent group protective panel is tightly clamped on outer skeleton.