CN114108881A

CN114108881A - Energy-conserving thermal insulation wall of assembled building

Info

Publication number: CN114108881A
Application number: CN202111540224.8A
Authority: CN
Inventors: 王世平; 孙震; 雷燕鹏; 刘文明; 苏西康; 魏传水
Original assignee: Ryson New Architecture Co ltd
Current assignee: Ryson New Architecture Co ltd
Priority date: 2021-12-16
Filing date: 2021-12-16
Publication date: 2022-03-01
Anticipated expiration: 2041-12-16
Also published as: CN114108881B

Abstract

The invention discloses an assembled building energy-saving heat-insulating wall, which relates to the technical field of heat-insulating walls and comprises a plurality of wallboards with heat-insulating layers arranged inside, a wall fixing pile which is arranged between two adjacent wallboards and has a hollow structure inside, an inserting plate is arranged on the side surface of the wall fixing pile, a first inserting groove and a second inserting groove which are used for inserting the inserting plate are formed in two opposite groove walls in a groove, an adjusting part used for driving the inserting plate to be switched back and forth to be inserted into the first inserting groove and the second inserting groove, a driving part used for driving the inserting plate to transversely move, a reinforcing part used for reinforcing the connection strength between the wallboards and the wall fixing pile, and the reinforcing part is used for reinforcing the connection of the wallboards and the wall fixing pile through the process that the inserting plate is inserted into the second inserting groove. The wall fixing pile has the advantages that the tightness between the wall fixing pile and the wall plate is better by means of machine pulling, air leakage is avoided, the heat insulation effect is improved, and the safety after assembly is higher.

Description

Energy-conserving thermal insulation wall of assembled building

Technical Field

The invention relates to the technical field of heat-insulating walls, in particular to an assembled building energy-saving heat-insulating wall.

Background

The assembly type wall body can be set to be conventional modulus according to the building size, and the inner side and outer side integrated functional wall boards are produced in a factory in a large scale and transported to a building construction site, and only need to be fixedly installed between an upper floor slab and a lower floor slab.

At present, prefabricated wall boards are mostly adopted for the assembled wall body and fixed on the embedded piles through bolts, however, the method has more splicing plate seams, relatively longer installation time and is easy to consume a large amount of labor and time.

Disclosure of Invention

The invention aims to provide an assembled building energy-saving heat-insulating wall, which has the advantages that the tightness between a wall fixing pile and a wall plate is better by means of machine pulling, air leakage is avoided, the heat-insulating effect is improved, the safety after assembly is higher, and the technical problems in the background art are solved.

In order to achieve the purpose, the invention provides the following technical scheme: an assembled building energy-saving heat-insulating wall comprises a plurality of wallboards with heat-insulating layers arranged therein and wall fixing piles which are arranged between every two adjacent wallboards and have hollow structures inside, wherein inserting plates are arranged on the side surfaces of the wall fixing piles, grooves for the inserting plates to extend into are formed in the side surfaces of the wallboards, and a first slot and a second slot for the inserting plates to insert into are formed in two opposite slot walls in the grooves;

the plug board is characterized by further comprising an adjusting part and a driving part, wherein the adjusting part is used for driving the plug board to be switched back and forth to be inserted into the first slot and the second slot, and the driving part is used for driving the plug board to move transversely.

Optionally, the regulating part includes that the dead axle rotates to be connected the fixed axle one and the gag lever post of wall body spud pile inner wall, the fixed surface of fixed axle one is connected with gear one, the surface slip of gag lever post cup jointed with a meshed rack board of gear, the side of rack board is offered and is used for the dead lever to stretch into and rather than sliding connection's opening one, picture peg fixed connection be in the side of dead lever, the fixed surface of rack board is connected with the pull rod.

Optionally, the driving part comprises a fixed shaft II which is rotatably connected with the inner wall of the wall fixing pile, the surface of the fixed shaft II is fixedly connected with a gear II and a lock disc I, the surface of the lock disc I is hinged with a hinged plate, the surface of the hinged plate is hinged with a connecting rod, the surface of the fixed rod is provided with a second opening through which the connecting rod passes and is in sliding connection with the opening, and the driving part further comprises a control part for driving the gear II to rotate.

Optionally, the wall fixing pile comprises a reinforcing part for reinforcing the connection strength between the wall plate and the wall fixing pile, and the reinforcing part is used for reinforcing the connection of the wall plate and the wall fixing pile through the process that the inserting plate is inserted into the second slot of the inserting slot.

Optionally, the reinforcing part is including running through formula fixed connection strengthening rib in the wall body spud pile, embedded fixedly connected with reinforcing bar in the wallboard, the side of reinforcing bar is offered and is used for the opening three that the reinforcing bar penetrated, sliding connection has the offset plate in the inslot of slot two, the lower fixed surface of offset plate is connected with the inserted bar, the reinforcing bar with the surface of reinforcing bar is all offered and is used for inserted bar male socket, the surface of offset plate with the common fixedly connected with spring one of cell wall of slot two.

Optionally, the fixed shaft of the control component is rotatably connected with a driving shaft on the inner wall of the wall fixing pile, a third gear meshed with the second gear is fixedly connected to the surface of the driving shaft, and a bolt head is fixedly connected to the surface of the driving shaft.

Optionally, the fixed shaft I is fixedly connected with a lock disc II, the surface of the lock disc II is provided with a first embedded groove used for embedding one side edge of the lock disc, and the surface of the lock disc I is provided with a second embedded groove used for embedding two side edges of the lock disc.

Optionally, the surface of the second lock disc and the inner wall of the wall fixing pile are fixedly connected with positioning columns, and the surface of the two positioning columns is sleeved with a second spring.

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

according to the wall fixing pile, the bolt head is rotated by means of the electric wrench, the wall plate is moved towards the wall fixing pile and is tightly attached to the wall fixing pile through transmission of the gear III, the gear II, the fixing shaft II and the lock disc I, and compared with a process that a person pushes the wall plate in the whole process to be connected with the wall fixing pile, tightness between the wall fixing pile and the wall plate is better through a machine pulling mode, air leakage is avoided, and the heat preservation effect is improved.

After the wall plate is tightly attached to the wall fixing pile, the inserting plate is inserted into the second slot through the lower pull rod, the reinforcing ribs are inserted into the reinforcing steel bars at the moment, the two inserting holes are aligned, and then the inserting plate is inserted into the second slot, so that the inserting rod is inserted into the inserting holes, the reinforcing steel bars and the reinforcing steel bars are connected into a whole and are not easy to separate, and the connecting strength between the wall plate and the wall fixing pile is improved.

The side edge of the second lock disc is embedded into the groove of the second embedded groove through downward movement of the rack plate and meshing transmission of the rack plate and the first gear, so that rotation of the first lock disc and the bolt head is limited, the bolt head, the driving shaft and the third gear cannot be directly driven to rotate by means of an electric wrench, the phenomenon that the wall plate is separated from the wall fixing pile due to rotation of the bolt head caused by misoperation or external vibration is avoided, and the bolt head can be operated after the first embedded groove is aligned with the second embedded groove again due to upward pulling of the pull rod in the application, so that the assembled safety is higher.

When the wallboard is disassembled and assembled, the pull rod needs to be pulled upwards firstly to enable the inserting plate to be inserted into the first inserting groove, then the bolt head is driven to rotate by means of the electric wrench, the wallboard moves towards the direction far away from the wall fixing pile, then the pull rod is pulled downwards to enable the inserting plate to be separated from the first inserting groove, the wallboard is pulled away to be disassembled and assembled, the whole disassembling and assembling process needs to be carried out in multiple steps and in sequence, compared with the mode that a plurality of bolts are directly loosened by twisting in the traditional method, the assembling and disassembling process is faster in one aspect, and the safety and stability are higher in the other aspect.

Drawings

FIG. 1 is an isometric view of a structure of the present invention;

FIG. 2 is a front view of the structure of the present invention;

FIG. 3 is a top view of the structure of the present invention;

FIG. 4 is a first state diagram of the structure of the present invention;

FIG. 5 is a second state diagram of the structure of the present invention;

FIG. 6 is a third state diagram of the structure of the present invention;

FIG. 7 is a fourth state diagram of the structure of the present invention;

fig. 8 is a fifth state diagram of the inventive structure.

In the figure: 1-heat preservation layer, 2-wall plate, 3-wall fixing pile, 4-inserting plate, 5-inserting groove I, 6-inserting groove II, 7-fixing shaft I, 8-limiting rod, 9-gear I, 10-rack plate, 11-fixing rod, 12-pull rod, 13-fixing shaft II, 14-gear II, 15-lock disc I, 16-hinged plate, 17-connecting rod, 18-reinforcing rib, 19-reinforcing steel bar, 20-abutting plate, 21-inserting rod, 22-inserting opening, 23-spring I, 24-driving shaft, 25-gear III, 26-bolt head, 27-lock disc II, 28-inserting groove I, 29-inserting groove II and 30-spring II.

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.

Referring to fig. 1 to 8, the embodiment provides an energy-saving and heat-insulating wall for an assembly type building, including a plurality of wall panels 2 with heat-insulating layers 1 disposed therein, and wall fixing piles 3 disposed between two adjacent wall panels 2 and having a hollow structure inside, where a plug board 4 is disposed on a side surface of each wall fixing pile 3, a groove for the plug board 4 to extend into is disposed on a side surface of each wall panel 2, a first slot 5 and a second slot 6 for the plug board 4 to insert are disposed on two opposite slot walls in the groove, and further including an adjusting component for driving the plug board 4 to be switched back and forth to be inserted into the first slot 5 and the second slot 6, and a driving component for driving the plug board 4 to move transversely.

During the assembly, at first fix wall body spud pile 3 on the subaerial of relevant position according to the demand, then promote two wallboard 2 respectively and simultaneously through manipulating the adjusting part, make a tip of picture peg 4 insert the inslot of slot one 5, through manipulating the drive assembly afterwards, make picture peg 4 and wallboard 2 remove and hug closely in wall body spud pile 3 direction to wall body spud pile 3, at last through manipulating the adjusting part, make another tip of picture peg 4 insert the inslot of slot two 6, for the whole mode that promotes wallboard 2 of people, make wallboard 2 and wall body spud pile 3's connection process, this application is through the mode with the help of the machine pulling, make the compactness between wall body spud pile 3 and wallboard 2 better, avoid leaking out, improve the heat preservation effect.

When the wallboard 2 is disassembled and assembled, the adjusting part needs to be manipulated firstly, so that one end part of the inserting plate 4 is inserted into the groove of the first slot 5 again, then the driving part is manipulated, the inserting plate 4 and the wallboard 2 move towards the direction far away from the wall fixing pile 3, and finally the adjusting part is manipulated, so that one end part of the inserting plate 4 is separated from the first slot 5, then the wallboard 3 can be pulled away to realize the disassembly and assembly, the whole disassembly and assembly process needs to be carried out in multiple steps and sequence, compared with the traditional mode of directly twisting and loosening a plurality of bolts, the assembling and disassembly process is faster in the application aspect, and the safety and stability are higher in the other aspect.

Further, in this embodiment, the adjusting part includes that the dead axle rotates to be connected fixed axle 7 and gag lever post 8 of 3 inner walls of wall body spud pile, fixed axle 7's fixed surface is connected with one 9 of gear, gag lever post 8's surface slip cup jointed with a 9 engaged with rack plate 10 of gear, rack plate 10's side is offered and is used for dead lever 11 to stretch into and rather than sliding connection's opening one, 4 fixed connection of picture peg are in dead lever 11's side, rack plate 10's fixed surface is connected with pull rod 12.

More specifically: the rack plate 10, the fixed rod 11 and the inserting plate 4 can be driven to move downwards or upwards by pulling the pull rod 12 up and down, and then the inserting plate 4 can be inserted into the first slot 5 and the second slot 6 in a back-and-forth switching mode. Meanwhile, the first gear 9 and the first fixed shaft 7 can be driven to rotate by the up-and-down movement of the rack plate 10 and the meshing transmission between the rack plate and the first gear 9.

Further, in this embodiment, the driving component includes a second fixed shaft 13 rotatably connected to the inner wall of the wall fixing pile 3, a second gear 14 and a first lock disc 15 are fixedly connected to the surface of the second fixed shaft 13, a first hinge plate 16 is hinged to the surface of the first lock disc 15, a connecting rod 17 is hinged to the surface of the hinge plate 16, a second opening is formed in the surface of the fixed rod 11, the second opening is used for the connecting rod 17 to penetrate through and is in sliding connection with the second opening, and the driving component is used for driving the second gear 14 to rotate.

More specifically: the second gear 14 is driven to rotate by operating the operating part, the second gear 14 drives the second fixed shaft 13 and the first lock disc 15 to rotate, and the connecting rod 17, the fixed rod 11 and the inserting plate 4 can be driven to transversely move through the hinged plate 16 in the process.

Further, in this embodiment, the wall fixing pile further includes a reinforcing member for reinforcing the connection strength between the wall plate 2 and the wall fixing pile 3, and the reinforcing member reinforces the connection through the process of inserting the inserting plate 4 into the second slot 6.

Further, in this embodiment, the reinforcing part includes a through type fixed connection and is in the strengthening rib 18 in the wall body spud pile 3, embedded fixedly connected with reinforcing bar 19 in wallboard 2, the side of reinforcing bar 19 is offered and is used for the opening three that reinforcing bar 18 penetrated, sliding connection has butt plate 20 in the groove of slot two 6, butt plate 20's lower surface fixedly connected with inserted bar 21, reinforcing bar 18 with reinforcing bar 19's surface is all offered and is used for inserted bar 21 male socket 22, butt plate 20's surface with the common fixedly connected with spring 23 of slot two 6's cell wall.

More specifically: wallboard 2 hugs closely behind wall spud pile 3, through drop-down link 12, make picture peg 4 insert to slot two 6 in, because strengthening rib 18 this moment has inserted to in the reinforcing bar 19, and two sockets 22 homogeneous phase align, then picture peg 4 inserts the in-process to slot two 6, will support to press and support board 20 and compression spring 23, make picture peg 21 peg graft in socket 22, make strengthening rib 18 and reinforcing bar 19 connect into one wholly, difficult part has improved the joint strength between wallboard 2 and the wall spud pile 3.

And the compressed spring I23 is further used, so that after the inserting plate 4 is separated from the abutting plate 20, the abutting plate 20 and the inserting rod 21 can automatically move upwards to return, so that the inserting rod 21 is separated from the inserting opening 22, and the connection between the reinforcing steel bar 19 and the reinforcing steel bar 18 is released.

Further, in this embodiment, the manipulating part is fixedly and rotatably connected to a driving shaft 24 on the inner wall of the wall fixing pile 3, a third gear 25 engaged with the second gear 14 is fixedly connected to the surface of the driving shaft 24, and a bolt head 26 is fixedly connected to the surface of the driving shaft 24.

More specifically: the bolt head 26, the driving shaft 24 and the gear wheel III 25 can rotate through the electric wrench, and the gear wheel II 14, the fixed shaft II 13 and the lock disc I15 can be driven to rotate through meshing transmission between the gear wheel III 25 and the gear wheel II 14.

Further, in this embodiment, a second lock disc 27 is fixedly connected to the surface of the first fixing shaft 7, a first insertion groove 28 for inserting the side edge of the first lock disc 15 is formed in the surface of the second lock disc 27, and two second insertion grooves 29 for inserting the side edge of the second lock disc 27 are formed in the surface of the first lock disc 15.

More specifically: through the process that moves down of rack plate 10, can drive two 27 rotations of locking disc, make the side embedding of two 27 of locking discs to the inslot of embedded groove two 29, and then restricted the rotation of locking disc one 15 and bolt head 26, make this moment can't directly drive bolt head 26 with the help of electronic wrench and rotate, avoid because of maloperation or external vibration, make bolt head 26 take place to rotate, lead to wallboard 2 to take place the phenomenon from breaking away from wall body spud pile 3, and must upwards stimulate pull rod 12 earlier in this application, make embedded groove one 28 align with embedded groove two 29 again after, the side can continue to control bolt head 26, so that the security after the assembly is higher.

When the wall plate 2 is disassembled and assembled, the pull rod 12 is pulled upwards firstly, so that the rack plate 10, the fixed rod 11 and the inserting plate 4 move upwards, the inserting plate 4 is inserted into the slot I5 again and is in a state shown in fig. 7, then the bolt head 26, the driving shaft 24 and the gear III 25 can rotate by means of the electric wrench, the gear II 14, the fixed shaft II 13 and the lock disc I15 rotate through the meshing transmission process between the gear III 25 and the gear II 14, the connecting rod 17, the fixed rod 11, the inserting plate 4 and the wall plate 2 move together in the direction away from the wall body fixing pile 3 and are in a state shown in fig. 6 through the transmission of the hinged plate 16 in the process, the pull rod 12 is pulled downwards at the moment, the inserting plate 4 is driven to be separated from the slot wall of the slot I5 again, and finally the wall plate 3 is pulled away, so that the disassembling and assembling can be realized, the whole disassembling and assembling process needs to be carried out in sequence in multiple steps, compared with the mode of directly turning loose several bolts in the tradition, this application side assembly is more swift with the dismouting process, and on the other hand safety steadiness is better.

Further, in this embodiment, the surfaces of the second lock disks 27 and the inner wall of the wall fixing pile 3 are both fixedly connected with positioning columns, and the surfaces of the two positioning columns are sleeved with a second spring 30.

More specifically: in the application, by using the elastic tension of the second spring 30, the second lock disc 27 can be kept in the state shown in fig. 8 or fig. 7 without any external force, so that the second lock disc 27 is prevented from self-deflection, the first lock disc 15 cannot be kept in a stable locking and unlocking state, and the stability of the whole equipment is improved.

The working principle is as follows: when the assembly type building energy-saving heat-insulating wall body is assembled, the wall fixing piles 3 are fixed on the ground according to requirements, then the two wall boards 2 are pushed to the state shown in fig. 2, then the pull rods 12 are pulled upwards, so that the rack boards 10, the fixing rods 11 and the inserting boards 4 move upwards to the state shown in fig. 5, then the pull rods 12 are loosened, and the inserting boards 4 in fig. 5 can keep upward pressure resistance by the aid of the second springs 30.

And then the wall plate 2 is pushed towards the direction of the wall fixing pile 3 until the inserting plate 4 is inserted into the slot of the slot I5 and the state shown in figure 6 is achieved, in the process, the rack plate 10 moves upwards and drives the gear I9, the fixing shaft I7 and the lock disc II 27 to rotate through the meshing transmission of the rack plate and the gear I9, so that the embedded slot I28 is aligned with the embedded slot II 29, and then the lock on the lock disc I15 is released, and the lock disc I can rotate.

Then, the bolt head 26, the driving shaft 24 and the gear wheel three 25 are rotated by means of an electric wrench, the gear wheel two 14, the fixing shaft two 13 and the lock disc one 15 are driven to rotate through meshing transmission between the gear wheel three 25 and the gear wheel two 14, in the process, the connecting rod 17, the fixing rod 11, the inserting plate 4 and the wall plate 2 are driven to move towards the wall fixing pile 3 and cling to the wall fixing pile 3 to the state shown in fig. 7 through the hinged plate 16, and compared with the process that a person pushes the wall plate 2 in the whole process to enable the wall plate 2 to be connected with the wall fixing pile 3, the tightness between the wall fixing pile 3 and the wall plate 2 is better in the method of pulling by means of a machine, air leakage is avoided, and the heat preservation effect is improved.

After the wall plate 2 is tightly attached to the wall fixing pile 3, the pull rod 12 is pulled downwards to drive the rack plate 10, the fixed rod 11 and the inserting plate 4 to move downwards, so that the inserting plate 4 is inserted into the second slot 6 and reaches a state shown in fig. 8, on one hand, because the reinforcing ribs 18 are inserted into the reinforcing steel bars 19 at the moment and the two inserting ports 22 are aligned, and then in the process that the inserting plate 4 is inserted into the second slot 6, the abutting plate 20 is abutted and pressed and the first spring 23 is compressed, so that the inserting rods 21 are inserted into the inserting ports 22, the reinforcing ribs 18 and the reinforcing steel bars 19 are connected into a whole and are not easy to separate, the connection strength between the wall plate 2 and the wall fixing pile 3 is improved, on the other hand, through the downward movement of the rack plate 10 and the meshing transmission of the first gear 10 and the first gear 9, the first fixed shaft 7 and the second lock disc 27, the side edges of the second lock disc 27 are inserted into the slots of the second inserting slot 29, so that the rotation of the first lock disc 15 and the bolt head 26 are limited, make this moment can't directly drive bolt head 26, driving shaft 24 and gear three 25 with the help of electronic wrench and rotate, avoid because of maloperation or external vibration for bolt head 26 takes place to rotate, leads to wallboard 2 to take place to break away from the phenomenon of wall body spud pile 3, and must upwards stimulate pull rod 12 earlier in this application for after embedded groove one 28 aligns with embedded groove two 29 again, the bolt head 26 can be controlled to the side, makes the security after the assembly higher.

When the wall plate 2 is disassembled, the pull rod 12 is pulled upwards to drive the rack plate 10, the fixed rod 11 and the inserting plate 4 to move upwards, so that the inserting plate 4 is inserted into the slot one 5 again and reaches a state shown in fig. 7, the inserting plate 4 is separated from the abutting plate 20 at the same time, the compressed spring one 23 is utilized, the abutting plate 20 and the inserting rod 21 can move upwards to reset, the inserting rod 21 is separated from the inserting opening 22, and the connection between the reinforcing steel bar 19 and the reinforcing rib 18 is released.

Then, the bolt head 26, the driving shaft 24 and the gear wheel three 25 are rotated by means of an electric wrench, the gear wheel two 14, the fixing shaft two 13 and the lock disc one 15 are driven to rotate through meshing transmission between the gear wheel three 25 and the gear wheel two 14, the connecting rod 17, the fixing rod 11, the inserting plate 4 and the wall plate 2 are driven to move towards the direction far away from the wall fixing pile 3 through the hinged plate 16 in the process, the state shown in fig. 6 is achieved, the pull rod 12 is pulled downwards at the moment, the inserting plate 4 is separated from the slot one 5, then the wall plate 3 is pulled away, dismounting can be achieved, the whole dismounting process needs to be carried out in multiple steps and sequence, compared with the traditional mode that a plurality of bolts are directly unscrewed, the dismounting process is faster in the application on one hand, and the safety and stability are higher on the other hand.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an energy-conserving thermal insulation wall of fabricated construction, includes that a plurality of interior wallboard (2) that are equipped with heat preservation (1) and set up adjacent two just inside wall body spud pile (3) for hollow structure between wallboard (2), its characterized in that: an inserting plate (4) is arranged on the side surface of the wall fixing pile (3), a groove for the inserting plate (4) to extend into is formed in the side surface of the wall plate (2), and a first slot (5) and a second slot (6) for the inserting plate (4) to insert into are formed in two opposite slot walls in the groove;

the plug board is characterized by further comprising an adjusting part and a driving part, wherein the adjusting part is used for driving the plug board (4) to be switched back and forth to be inserted into the first slot (5) and the second slot (6), and the driving part is used for driving the plug board (4) to move transversely.

2. The fabricated building energy-saving heat-insulating wall body of claim 1, wherein: the adjusting part comprises a first fixed shaft (7) and a limiting rod (8), wherein the first fixed shaft is rotationally connected with the inner wall of the wall fixing pile (3).

3. The fabricated building energy-saving heat-insulating wall body as claimed in claim 2, wherein:

the surface of the first fixed shaft (7) is fixedly connected with a first gear (9), the surface of the limiting rod (8) is sleeved with a rack plate (10) meshed with the first gear (9) in a sliding mode, an opening I used for enabling a fixed rod (11) to stretch into and be connected with the rack plate in a sliding mode is formed in the side face of the rack plate (10), the inserting plate (4) is fixedly connected to the side face of the fixed rod (11), and a pull rod (12) is fixedly connected to the surface of the rack plate (10);

the driving part comprises a second fixed shaft (13) which is fixedly connected to the inner wall of the wall fixing pile (3) in a rotating mode, a second gear (14) and a first lock disc (15) are fixedly connected to the surface of the second fixed shaft (13), a hinged plate (16) is hinged to the surface of the first lock disc (15), a connecting rod (17) is hinged to the surface of the hinged plate (16), a second opening which is used for the connecting rod (17) to penetrate through and is in sliding connection with the second opening is formed in the surface of the fixed rod (11), and the driving part further comprises an operating part which is used for driving the second gear (14) to rotate;

the reinforcing component is used for reinforcing the connection strength between the wall plate (2) and the wall fixing pile (3), and the reinforcing component is used for reinforcing the connection of the wall plate and the wall fixing pile through the process that the inserting plate (4) is inserted into the second inserting groove (6);

the reinforcing part comprises a through type fixed connection and reinforcing ribs (18) in the wall fixing piles (3), embedded type fixedly connected with reinforcing steel bars (19) are embedded in the wall plate (2), the side faces of the reinforcing steel bars (19) are provided with openings III through which the reinforcing steel bars (18) penetrate, the grooves of the two slots (6) are internally and slidably connected with abutting plates (20), and the lower surfaces of the abutting plates (20) are fixedly connected with inserting rods (21).

4. The fabricated building energy-saving heat-insulating wall body of claim 3, wherein: the reinforcing ribs (18) and the reinforcing steel bars (19) are provided with inserting holes (22) for inserting the inserting rods (21).

5. The fabricated building energy-saving heat-insulating wall body of claim 4, wherein: the surface of the abutting plate (20) and the groove wall of the second slot (6) are fixedly connected with a first spring (23).

6. The fabricated building energy-saving heat-insulating wall body according to any one of claims 3-5, characterized in that: the control component is fixedly connected with a driving shaft (24) on the inner wall of the wall fixing pile (3) in a rotating mode, a gear III (25) meshed with the gear II (14) is fixedly connected to the surface of the driving shaft (24), and a bolt head (26) is fixedly connected to the surface of the driving shaft (24).

7. The fabricated building energy-saving heat-insulating wall body of claim 3, wherein: the fixed surface of fixed axle one (7) is connected with lock dish two (27), the surface of lock dish two (27) is seted up and is used for embedded groove one (28) of lock dish one (15) side embedding, the surface of lock dish one (15) is seted up and is used for two embedded grooves two (29) of lock dish two (27) side embedding.

8. The fabricated building energy-saving heat-insulating wall body of claim 7, wherein: the surface of the second lock disc (27) and the inner wall of the wall fixing pile (3) are fixedly connected with positioning columns, and the surface of each positioning column is sleeved with a second spring (30) together.