CN114961099A

CN114961099A - Lightweight assembled steel construction wall body

Info

Publication number: CN114961099A
Application number: CN202210727133.3A
Authority: CN
Inventors: 张乘瑞; 赵红运; 代玲娜; 赖芳芳
Original assignee: Zhejiang Gaosheng Steel Structure Co ltd
Current assignee: China Construction Fifth Engineering Bureau Co Ltd
Priority date: 2022-06-24
Filing date: 2022-06-24
Publication date: 2022-08-30
Anticipated expiration: 2042-06-24
Also published as: CN114961099B

Abstract

The application relates to the field of steel structure walls, in particular to a lightweight assembly type steel structure wall, which comprises a panel, wherein an annular filling cavity is formed in the panel, tearable flexible pipes which are connected end to end are placed in the annular filling cavity, and a filling agent is arranged in the tearable flexible pipes; the tearable flexible tube is connected with the inner wall of the annular filling cavity by a bonding agent; and an energy storage component used for extruding the tearable flexible pipe is arranged in the panel. The crack repairing method and the crack repairing device improve the problem that the crack repairing efficiency is low.

Description

Lightweight assembled steel construction wall body

Technical Field

The application relates to the field of steel structure wall bodies, in particular to a light-weight assembly type steel structure wall body.

Background

At present, steel structure engineering is a structure mainly made of steel, mainly composed of steel beams, steel columns, steel trusses and other members made of section steel, steel plates and the like, and all members or components are usually connected by welding seams, bolts or rivets, which is one of the main building structure types. Because of its light dead weight, and construction is simple and convenient, widely apply to fields such as large-scale factory building, bridge, venue, superelevation layer.

In the related art, reference is made to chinese patent with publication number CN111472477A, which discloses an assembled steel structure wall, including a base frame and a panel, where the base frame includes a top plate, a bottom plate and a support rod, and the two sides of the support rod are installed with the panel; the left end face of the panel is provided with two sliding chutes, and a first sealing plate is in sliding fit with the sliding chutes; a first spring is arranged between the first sealing plate and the sliding groove; a slot is arranged on the right end face of the panel; a piston groove is arranged in the panel, a piston plate is in sliding fit in the piston groove, and an oil groove is arranged in the panel; a piston rod is arranged on the piston plate; a plurality of vent grooves are arranged in the panel from top to bottom, and a first accommodating groove is arranged in the first sealing plate; sliding plate has sliding plate in the sliding fit in first holding tank, and the gag lever post is installed to the sliding plate medial surface, installs the second spring between sliding plate lateral surface and the first holding tank.

Aiming at the related technology, the panel is easy to crack when the wall body is vibrated, the crack is only repaired from the outside by workers in the prior art, the repairing process is complex, the labor is greatly wasted, and the crack on the panel is possibly positioned at a higher position, so that the workers are inconvenient to operate, and the repairing efficiency of the crack is low.

Disclosure of Invention

In order to improve the lower problem of crack repair efficiency, the application provides a lightweight assembled steel construction wall body.

The application provides a lightweight assembled steel construction wall body adopts following technical scheme:

a lightweight assembly type steel structure wall comprises a panel, wherein an annular filling cavity is formed in the panel, tearable flexible pipes which are connected end to end are placed in the annular filling cavity, and filling agents are arranged in the tearable flexible pipes; the tearable flexible tube is connected with the inner wall of the annular filling cavity by a bonding agent; and an energy storage component used for extruding the tearable flexible pipe is arranged in the panel.

Through adopting above-mentioned technical scheme, when the fracture appears on the panel, the fracture department of panel can drive can tear the flexible tube and tear, and energy storage part can extrude tearing the flexible tube this moment for can tear during filler in the flexible tube flows into the panel from the fracture department, repair the gap on the panel, reduced staff's operating procedure, in the panel fracture, the panel can be repaired automatically, has improved the lower problem of crack repair efficiency.

Preferably, the energy storage component comprises an energy storage spring fixedly connected to the inner wall of the annular filling cavity and an energy storage plate fixedly connected to the energy storage spring, and the energy storage plate is abutted to the tearable flexible pipe.

By adopting the technical scheme, when the tearable flexible pipe is not torn, the tearable flexible pipe is in a closed shape, the energy storage plate cannot extrude the tearable flexible pipe, and the energy storage spring is in a compressed shape; when can tearing the flexible tube, can tear the filler in the flexible tube and flow out from can tearing the flexible tube, the energy storage spring stretches, and the energy storage board can extrude can tearing the flexible tube for the filler can flow out from can tearing the flexible tube fast, has reduced the filler and has piled up the emergence of the condition in can tearing the flexible tube.

Preferably, a first connecting hole and a second connecting hole are respectively formed in two sides of the panel, and the first connecting hole and the second connecting hole are communicated with the annular filling cavity; the outlet end of the first connecting hole is provided with a first connecting ring, the outlet end of the second connecting hole is provided with a second connecting ring, and the first connecting ring is connected with the second connecting ring on the adjacent panel;

all be provided with in first connecting hole and the second connecting hole with can tear the branch pipe that the flexible pipe communicates, two the branch pipe is connected with first go-between, second go-between respectively, two the exit end of branch pipe is for sealing the form, two the branch pipe is installed in first connecting hole and second connecting hole through the binder respectively.

Through adopting above-mentioned technical scheme, after two adjacent panels are spliced, be connected between first go-between and the second go-between, when appearing the crack between two adjacent panels, two adjacent panels drive first go-between and second go-between respectively and remove, first go-between and second go-between homoenergetic drive the branch pipe and tear, make in the filler can flow the crack between two adjacent panels, fill it, the scope of filler repair has been increased, and further the lower problem of crack repair efficiency has been improved.

Preferably, one side of the panel is convexly provided with an inserting block, the other side of the panel is concavely provided with an inserting groove, the inserting block can be inserted into the inserting groove on the adjacent panel and is matched with the inserting groove, and a positioning component for fixing the inserting block is arranged on the inner wall of the inserting groove;

the first connecting hole extends into the insertion block, and the second connecting hole extends into the insertion groove.

By adopting the technical scheme, when two adjacent panels need to be spliced, the plugging block is inserted into the plugging groove, then the plugging block is fixed through the positioning component, and meanwhile, the first connecting ring and the second connecting ring can be connected, so that the installation steps of workers are reduced, and the installation efficiency of the workers is improved.

Preferably, the first connection ring is slidably mounted on an inner wall of the first connection hole, the second connection ring is rotatably mounted on an inner wall of the second connection hole, an outer thread is formed on an outer circumferential surface of the first connection ring, an inner thread matched with the outer thread for use is formed on an inner circumferential surface of the second connection ring, and a driving component for driving the second connection ring to rotate is mounted on the panel.

Through adopting above-mentioned technical scheme, at the in-process that the grafting piece removed, first go-between inserts in the second go-between, and drive unit can drive the second go-between simultaneously and rotate, and the second go-between drives first go-between and removes, uses through external screw thread and internal thread fit, has improved the compactness of being connected between first go-between and the second go-between.

Preferably, the side wall of the panel on the same side as the inserting groove is provided with an installation groove, and the driving part comprises a rotating shaft rotatably installed on the inner wall of the installation groove, a gear sleeved on the rotating shaft and fixedly connected with the rotating shaft, and a rack fixedly connected to the panel; the rack can be meshed with the gear, a first bevel gear fixedly connected with the rotating shaft is sleeved on the rotating shaft, an annular groove is formed in the inner wall of the second connecting hole and communicated with the mounting groove, a second bevel gear fixedly connected with the second connecting ring is sleeved on the second connecting ring and placed in the annular groove, and the second bevel gear is meshed with the first bevel gear.

Through adopting above-mentioned technical scheme, drive the in-process that the grafting piece removed at the panel, the panel drives the rack and removes, and the rack drives the gear and rotates, and the gear drives the pivot and rotates, and the pivot drives first conical gear and rotates, and first conical gear drives second conical gear and rotates, and second conical gear can drive the second go-between and rotate, can realize being connected between second go-between and the first go-between, and the staff of being convenient for operates.

Preferably, the first connecting ring is fixedly connected with a sliding block, and a sliding groove for placing the sliding block is formed in the inner wall of the first connecting hole.

Through adopting above-mentioned technical scheme, the motion trail of first connecting ring has been restricted to the sliding block, has improved the stability that first connecting ring removed.

Preferably, the positioning component comprises a positioning rod threaded on the panel, and a positioning hole for inserting the positioning rod is formed in the side wall of the insertion block.

Through adopting above-mentioned technical scheme, rotate the locating lever, when the locating lever inserted in the locating hole, can fix the inserted block, the staff of being convenient for operates.

Preferably, a plurality of clapboards are fixedly connected to the inner wall of the annular filling cavity, and the tearable flexible pipe penetrates through the clapboards and is fixedly connected with the clapboards.

Through adopting above-mentioned technical scheme, when appearing the crack on the panel, the baffle can carry out the separation to the filler, has reduced the filler and has piled up the emergence of the condition in annular filling cavity.

Preferably, the side wall of the energy storage plate facing the tearable flexible pipe is provided with an arc-shaped groove.

Through adopting above-mentioned technical scheme, increased the area of contact of energy storage board with can tearing the flexible tube, reduced the filler and piled up the emergence of the condition in can tearing the flexible tube.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the tear-off flexible pipe and the filler, when the panel is cracked, the cracked part of the panel can drive the tear-off flexible pipe to tear, and at the moment, the energy storage component can extrude the tear-off flexible pipe, so that the filler in the tear-off flexible pipe flows into the panel from the cracked part, gaps in the panel are repaired, operation steps of workers are reduced, the panel can be automatically repaired when the panel is cracked, and the problem of low crack repairing efficiency is solved;

2. according to the tear-off flexible pipe, due to the arrangement of the energy storage plate and the energy storage spring, when the tear-off flexible pipe is not torn, the tear-off flexible pipe is in a closed shape, the energy storage plate cannot extrude the tear-off flexible pipe, and the energy storage spring is in a compressed shape; when the tearable flexible tube is torn, the filler in the tearable flexible tube flows out of the tearable flexible tube, the energy storage spring is stretched, and the energy storage plate can extrude the tearable flexible tube, so that the filler can quickly flow out of the tearable flexible tube, and the occurrence of the situation that the filler is accumulated in the tearable flexible tube is reduced;

3. this application is through setting up first connecting hole and second connecting hole, after two adjacent panels are spliced, be connected between first go-between and the second go-between, when the crack appears between two adjacent panels, two adjacent panels drive first go-between and second go-between respectively and remove, first go-between and second go-between homoenergetic drive the branch pipe and tear, make the filler can flow in the crack between two adjacent panels, fill it, the scope of filler repair has been increased, and further the lower problem of crack repair efficiency has been improved.

Drawings

Fig. 1 is a schematic view of the overall structure of a panel according to an embodiment of the present application.

Fig. 2 is a schematic cross-sectional view of a panel according to an embodiment of the present application.

Fig. 3 is an enlarged schematic structural view of a portion a in fig. 2 of the present application.

Fig. 4 is a schematic structural diagram of a driving part according to an embodiment of the present application.

Description of reference numerals: 1. a panel; 11. an annular fill cavity; 111. a partition plate; 12. a tearable flexible tube; 121. a branch pipe; 13. a first connection hole; 131. a sliding groove; 14. a second connection hole; 141. an annular groove; 15. a first connecting ring; 151. an external thread; 152. a sliding block; 16. a second connection ring; 161. an internal thread; 17. an insertion block; 171. positioning holes; 18. inserting grooves; 19. mounting grooves; 2. a binder; 3. an energy storage component; 31. an energy storage spring; 32. an energy storage plate; 321. an arc-shaped slot; 4. a positioning member; 41. positioning a rod; 5. a drive member; 51. a rotating shaft; 52. a gear; 53. a rack; 54. a first bevel gear; 55. a second bevel gear.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses lightweight assembled steel construction wall body. Referring to fig. 1 and 2, the lightweight assembly type steel structure wall comprises a panel 1, an annular filling cavity 11 is formed in the panel 1, tearable flexible pipes 12 which are connected end to end are placed in the annular filling cavity 11, when the tearable flexible pipes 12 are subjected to external force, the tearable flexible pipes 12 are easy to crack, the tearable flexible pipes 12 extend along the inner wall of the annular filling cavity 11, and filling agents are arranged in the tearable flexible pipes 12 and can repair cracks on the panel 1; the inner annular surfaces of the tearable flexible tubes 12 are all in contact with the inner wall of the annular filling cavity 11, the inner annular surfaces of the tearable flexible tubes 12 are all fixedly connected with binders 2, and the binders 2 are fixedly connected with the inner wall of the annular filling cavity 11; the inner wall of the annular filling cavity 11 is fixedly connected with a plurality of partition plates 111, the side walls of the partition plates 111 are in contact with the inner wall of the annular filling cavity 11, the tearable flexible pipe 12 penetrates through the partition plates 111 and is fixedly connected with the partition plates 111, the partition plates 111 can block the filler, and the occurrence of the phenomenon that the filler is accumulated in the annular filling cavity 11 is reduced; install energy storage component 3 in the panel 1, energy storage component 3 is provided with the multiunit, and after can tearing flexible tube 12 and split, energy storage component 3 can extrude can tearing flexible tube 12 for the filler can flow out from can tearing flexible tube 12 fast, has reduced the filler and has piled up the emergence of the condition in can tearing flexible tube 12.

Referring to fig. 2 and 3, the energy accumulating part 3 includes an energy accumulating spring 31 and an energy accumulating plate 32; the energy storage springs 31 are fixedly connected to the inner wall of the annular filling cavity 11, a plurality of energy storage springs 31 are arranged, the energy storage springs 31 are in a compressed shape, and when the tearable flexible pipe 12 is torn, the energy storage springs 31 can be stretched; the energy storage plate 32 is fixedly connected to one end, far away from the inner wall of the annular filling cavity 11, of the energy storage spring 31, the energy storage plate 32 is abutted to the tearable flexible pipe 12, the arc-shaped groove 321 is formed in the side wall, facing the tearable flexible pipe 12, of the energy storage plate 32, and the contact area between the energy storage plate 32 and the tearable flexible pipe 12 is increased.

Referring to fig. 1 and 4, a plug block 17 is convexly arranged on the side wall of one side of the panel 1, a plug groove 18 is concavely arranged on the side wall of the other side of the panel 1, the plug block 17 can be inserted into the plug groove 18 on the adjacent panel 1 and is matched with the plug groove 18, a positioning component 4 is installed on the inner wall of the plug groove 18, the positioning component 4 can fix the plug block 17, so that the two adjacent panels 1 can be spliced together, and the plug block 17 and the plug groove 18 are provided with multiple groups and are distributed along the length direction of the panel 1.

The positioning component 4 comprises a positioning rod 41, the positioning rod 41 is threaded through the side wall of the panel 1 and is horizontally arranged, the positioning rod 41 is inserted into the insertion groove 18, the side wall of the insertion block 17 is provided with a positioning hole 171, the positioning rod 41 can be inserted into the positioning hole 171, the insertion block 17 can be fixed, and the operation of a worker is facilitated.

Referring to fig. 2 and 4, a first connection hole 13 is horizontally formed in a side wall of the insertion block 17, the first connection hole 13 is communicated with the annular filling cavity 11, a first connection ring 15 is slidably mounted at a port of the first connection hole 13 away from the annular filling cavity 11, a sliding block 152 is fixedly connected to a peripheral surface of the first connection ring 15, a sliding groove 131 is formed in an inner wall of the first connection hole 13, and the sliding block 152 is placed in the sliding groove 131; the outer peripheral face of first connecting ring 15 all contacts with the inner wall of first connecting hole 13, and first connecting ring 15 extends to the outside of panel 1, and first connecting ring 15 is located the global external screw thread 151 of having seted up in the panel 1 outside.

A second connecting hole 14 is horizontally formed in the inner wall of the inserting groove 18, the second connecting hole 14 is communicated with the annular filling cavity 11, a second connecting ring 16 is rotatably mounted at a port of the second connecting hole 14, which is far away from the annular filling cavity 11, the outer peripheral surface of the second connecting ring 16 is in contact with the inner wall of the second connecting hole 14, an internal thread 161 is formed in the inner peripheral surface of the second connecting ring 16, the internal thread 161 is matched with the external thread 151 for use, a driving component 5 is mounted on the panel 1, the driving component 5 can drive the second connecting ring 16 to rotate, during the splicing of two adjacent panels 1, the first connection ring 15 is inserted into the second connection ring 16, meanwhile, the driving part 5 can drive the second connecting ring 16 to rotate, the second connecting ring 16 drives the first connecting ring 15 to move, the first connection ring 15 is connected to the second connection ring 16 by the external thread 151 cooperating with the internal thread 161.

Referring to fig. 2 and 4, the first connection hole 13 and the second connection hole 14 are connected with branch pipes 121 through adhesives 2, the branch pipes 121 are fixedly connected with the first connection ring 15, the branch pipes 121 are rotatably connected with the second connection ring 16, one ends of the two branch pipes 121 are closed, the other ends of the two branch pipes 121 are communicated with the tearable flexible pipe 12, when a crack occurs between two adjacent panels 1, the two adjacent panels 1 respectively drive the first connection ring 15 and the second connection ring 16 to move, the first connection ring 15 and the second connection ring 16 can both drive the branch pipes 121 to tear, so that a filler can flow into the crack between the two adjacent panels 1 to fill the crack, and the range of repairing the filler is increased.

Referring to fig. 4, a mounting groove 19 is formed on the side wall of the panel 1 on the same side as the inserting groove 18, and the driving part 5 includes a rotating shaft 51, a gear 52, a rack 53, a first bevel gear 54 and a second bevel gear 55; the rotating shaft 51 is rotatably installed on the inner wall of the installation groove 19 and is vertically arranged; the gear 52 is sleeved on the rotating shaft 51 and is fixedly connected with the rotating shaft 51; the rack 53 is fixedly connected to the side wall of the panel 1 far away from the mounting groove 19 and is horizontally arranged, the rack 53 can be inserted into the mounting groove 19 on the adjacent panel 1, the rack 53 is meshed with the gear 52, the panel 1 drives the rack 53 to move, the rack 53 drives the gear 52 to rotate, and the gear 52 drives the rotating shaft 51 to rotate; the first bevel gear 54 is sleeved on the rotating shaft 51 and is fixedly connected with the rotating shaft 51, and the rotating shaft 51 drives the first bevel gear 54 to rotate; an annular groove 141 is formed in the inner wall of the second connecting hole 14, the annular groove 141 is communicated with the mounting groove 19, the second bevel gear 55 is located in the annular groove 141, the second bevel gear 55 is sleeved on the second connecting ring 16 and fixedly connected with the second connecting ring 16, the second bevel gear 55 is meshed with the first bevel gear 54, the first bevel gear 54 drives the second bevel gear 55 to rotate, and the second bevel gear 55 can drive the second connecting ring 16 to rotate.

The implementation principle of a lightweight assembled steel construction wall body of the embodiment of the application is: when two adjacent panels 1 need to be spliced, firstly, one panel 1 moves towards the other panel 1, the panel 1 drives the insertion block 17 and the rack 53 to move, the insertion block 17 is inserted into the insertion groove 18, and the rack 53 is inserted into the installation groove 19; when the side wall of the insertion block 17 abuts against the inner wall of the insertion groove 18, the positioning rod 41 is rotated, and when the positioning rod 41 is inserted into the positioning hole 171, the insertion block 17 can be fixed, so that two adjacent panels 1 are spliced, and meanwhile, the insertion block 17 drives the first connecting ring 15 to be inserted into the second connecting ring 16; in the process of moving the rack 53, the rack 53 drives the gear 52 to rotate, the gear 52 drives the rotating shaft 51 to rotate, the rotating shaft 51 drives the first bevel gear 54 to rotate, the first bevel gear 54 drives the second bevel gear 55 to rotate, the second bevel gear 55 drives the second connecting ring 16 to rotate, and the second connecting ring 16 drives the first connecting ring 15 to move, so that the first connecting ring 15 and the second connecting ring 16 are connected.

When the panel 1 is cracked, the cracked part of the panel 1 can drive the tearable flexible pipe 12 to be torn, the energy storage spring 31 is stretched at the moment, the energy storage plate 32 can extrude the tearable flexible pipe 12, so that the filler can quickly flow out of the tearable flexible pipe 12 and flow into the crack on the panel 1 to repair the crack on the panel 1, the operation steps of workers are reduced, the panel 1 can be automatically repaired when the panel 1 is cracked, and the problem of low crack repairing efficiency is solved; when a crack occurs between two adjacent panels 1, the two adjacent panels 1 respectively drive the first connecting ring 15 and the second connecting ring 16 to move, and both the first connecting ring 15 and the second connecting ring 16 can drive the branch pipe 121 to tear, so that the filler can flow into the crack between the two adjacent panels 1 to fill the crack, the range of filling agent repair is increased, and the problem of low crack repair efficiency is further improved.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a lightweight assembled steel construction wall, includes panel (1), its characterized in that: an annular filling cavity (11) is formed in the panel (1), tearable flexible pipes (12) which are connected end to end are placed in the annular filling cavity (11), and filling agents are arranged in the tearable flexible pipes (12); the tearable flexible tube (12) is connected with the inner wall of the annular filling cavity (11) by an adhesive (2); an energy storage component (3) used for squeezing the tearable flexible pipe (12) is installed in the panel (1).

2. The lightweight assembled steel structural wall of claim 1, wherein: the energy storage component (3) comprises an energy storage spring (31) fixedly connected to the inner wall of the annular filling cavity (11) and an energy storage plate (32) fixedly connected to the energy storage spring (31), and the energy storage plate (32) is abutted to the tearable flexible pipe (12).

3. The lightweight assembled steel structural wall of claim 1, wherein: a first connecting hole (13) and a second connecting hole (14) are respectively formed in two sides of the panel (1), and the first connecting hole (13) and the second connecting hole (14) are communicated with the annular filling cavity (11); a first connecting ring (15) is mounted at the outlet end of the first connecting hole (13), a second connecting ring (16) is mounted at the outlet end of the second connecting hole (14), and the first connecting ring (15) is connected with the second connecting ring (16) on the adjacent panel (1);

branch pipes (121) communicated with the tearable flexible pipe (12) are arranged in the first connecting hole (13) and the second connecting hole (14), the two branch pipes (121) are respectively connected with the first connecting ring (15) and the second connecting ring (16), the outlet ends of the two branch pipes (121) are sealed, and the two branch pipes (121) are respectively installed in the first connecting hole (13) and the second connecting hole (14) through the adhesive (2).

4. The lightweight assembled steel structural wall of claim 3, wherein: an inserting block (17) is convexly arranged on one side of the panel (1), an inserting groove (18) is concavely arranged on the other side of the panel (1), the inserting block (17) can be inserted into the inserting groove (18) on the adjacent panel (1) and is matched with the inserting groove (18), and a positioning component (4) for fixing the inserting block (17) is arranged on the inner wall of the inserting groove (18);

the first connection opening (13) extends into an insertion block (17), and the second connection opening (14) extends into an insertion groove (18).

5. The lightweight assembled steel structural wall of claim 4, wherein: the panel comprises a panel body (1) and is characterized in that a first connecting ring (15) is installed on the inner wall of a first connecting hole (13) in a sliding mode, a second connecting ring (16) is installed on the inner wall of a second connecting hole (14) in a rotating mode, external threads (151) are formed in the outer peripheral surface of the first connecting ring (15), internal threads (161) matched with the external threads (151) in use are formed in the inner peripheral surface of the second connecting ring (16), and a driving part (5) used for driving the second connecting ring (16) to rotate is installed on the panel body (1).

6. The lightweight assembled steel structural wall of claim 5, wherein: the side wall of the panel (1) on the same side as the inserting groove (18) is provided with a mounting groove (19), and the driving part (5) comprises a rotating shaft (51) rotatably mounted on the inner wall of the mounting groove (19), a gear (52) sleeved on the rotating shaft (51) and fixedly connected with the rotating shaft (51), and a rack (53) fixedly connected to the panel (1); the rack (53) can be meshed with the gear (52), a first bevel gear (54) fixedly connected with the rotating shaft (51) is sleeved on the rotating shaft (51), an annular groove (141) is formed in the inner wall of the second connecting hole (14), the annular groove (141) is communicated with the mounting groove (19), a second bevel gear (55) fixedly connected with the second connecting ring (16) is sleeved on the second connecting ring (16), the second bevel gear (55) is placed in the annular groove (141), and the second bevel gear (55) is meshed with the first bevel gear (54).

7. The lightweight assembled steel structural wall of claim 5, wherein: fixedly connected with sliding block (152) on first connecting ring (15), set up on the inner wall of first connecting hole (13) and supply sliding block (152) to place sliding groove (131).

8. The lightweight assembled steel structural wall of claim 4, wherein: the positioning component (4) comprises a positioning rod (41) which is arranged on the panel (1) in a threaded penetrating mode, and a positioning hole (171) for inserting the positioning rod (41) is formed in the side wall of the inserting block (17).

9. The lightweight assembled steel structural wall of claim 1, wherein: the inner wall of the annular filling cavity (11) is fixedly connected with a plurality of partition plates (111), and the tearable flexible pipe (12) penetrates through the partition plates (111) and is fixedly connected with the partition plates (111).

10. The lightweight assembled steel structural wall of claim 2, wherein: the side wall of the energy storage plate (32) facing the tearable flexible pipe (12) is provided with an arc-shaped groove (321).