CN117432095A - Energy-saving and environment-friendly building wall - Google Patents

Abstract

The application discloses an energy-concerving and environment-protective building wall relates to building wall technical field. The application includes the infill wall, and the benzene board is installed to one side of infill wall, and rock wool layer is installed to one side that the benzene board kept away from the infill wall. The utility model provides a through setting up the cooperation of fixed establishment and fixed subassembly in advance and using, be convenient for remove the fixed connection between decorating outer wall and the infill wall through fixed subassembly, then pull along the length direction of connecting the spout and decorate the clearance between the outer wall increase infill wall and the decoration outer wall, conveniently insert required benzene board or rock wool layer between infill wall and the decoration outer wall, then cooperate the fixed establishment in advance and fixed subassembly formation to benzene board or rock wool layer in advance, this is convenient for accomplish according to actual demand to increase required benzene board or rock wool layer between infill wall and the decoration outer wall, effectively expanded the application scope of device, the practicality of device has been improved.

Description

Energy-saving and environment-friendly building wall

Technical Field

The application relates to the technical field of building walls, in particular to an energy-saving and environment-friendly building wall.

Background

The building wall body mainly plays roles of enclosing and separating space, and along with the continuous development of construction technology, the prefabricated wall body becomes a common component in the building engineering. The prefabricated wall body is generally produced in a large scale in a factory in advance to be provided with the assembly components with preset sizes, and then the prefabricated wall body is directly assembled and installed on a construction site, so that the operation is efficient, and compared with the traditional existing pouring or brick-concrete masonry wall body, the prefabricated wall body is convenient and quick, and the construction period can be greatly shortened.

However, when in actual use, for buildings such as machine rooms, dining halls and electric rooms, which are easy to generate electric fire problems, the building structures are required to be taken and poured independently, so that the building requirements of high safety standards in the special sites are met, the existing prefabricated building wall cannot be applied to the special buildings with the high safety standards, the application range of the prefabricated building wall is further limited, and the applicability of the prefabricated wall is reduced.

Disclosure of Invention

The purpose of the present application is: for solving the problem that the existing prefabricated wall body cannot be suitable for buildings with high safety standards such as a machine room, a dining room and an electric room, the applicability of the prefabricated building wall body is reduced, and the energy-saving and environment-friendly building wall body is provided.

The application specifically adopts the following technical scheme for realizing the purposes:

the utility model provides an energy-concerving and environment-protective building wall, includes the infill wall, the benzene board is installed to one side of infill wall, the rock wool layer is installed to one side that the benzene board was kept away from to the benzene board, the rock wool layer is installed to one side that the benzene board was kept away from to the rock wool layer, the equal fixedly connected with L shaped steel support in one side four corners that the infill wall is close to the benzene board, the one end symmetry fixedly connected with U type link of decorating the outer wall, the one end symmetry fixedly connected with connection slider of U type link, the connection spout with connection slider adaptation has been seted up at the top of L shaped steel support, fixed subassembly is installed to one side of L shaped steel support, just the opposite side of L shaped steel support is provided with pre-fixing mechanism, coupling mechanism is installed to one end of infill wall;

the connecting mechanism comprises a first L-shaped sealing plate fixedly connected to one end of the filling wall, a second L-shaped sealing plate opposite to the first L-shaped sealing plate in direction is fixedly connected to one end of the decorative outer wall, arc-shaped sealing benzene plates are fixedly connected to the first L-shaped sealing plate and the second L-shaped sealing plate, and connecting assemblies are mounted at one ends of the first L-shaped sealing plate and the second L-shaped sealing plate.

Through adopting above-mentioned technical scheme, through setting up the cooperation of fixed establishment and fixed subassembly and using, make manual rotation fixed subassembly remove and decorate after the fixed connection between outer wall and the infill wall, through drawing to decorate the outer wall and do the removal of keeping away from the infill wall along the length direction of connecting the spout, can increase the clearance between infill wall and the decoration outer wall, so that insert required benzene board or rock wool layer between infill wall and the decoration outer wall, and cooperate the fixed establishment to the pre-fixing of benzene board or rock wool layer in advance, then promote to decorate outer wall cooperation infill wall along the length direction of connecting the spout and form the centre gripping to benzene board or rock wool layer, then screw up fixed subassembly and accomplish the fixed to benzene board or rock wool layer, this is convenient for accomplish to the required benzene board of increase between infill wall and the decoration outer wall according to actual demand, prefabricated wall's application scope has effectively been increased prefabricated wall's practicality, simultaneously through setting up L type closing plate two, arc sealing benzene board, connecting the cooperation of subassembly is used, be favorable to carrying out secondary utilization to the infill wall, the environmental protection efficiency has been improved.

Further, the fixed subassembly is including evenly seting up a plurality of fixed jacks in L shaped steel support one side, the one end of fixed jack communicates with the inside of connecting the spout, the fixed screw of the one end of connecting the slider with fixed jack adaptation has been seted up, fixed jack's inside is inserted and is equipped with at fixing bolt with fixed screw threaded connection.

Through adopting above-mentioned technical scheme, through setting up fixed jack and fixed screw, fixing bolt's cooperation and use for after the fixed jack alignment that the outer wall drive connection slider and correspond is decorated in the length direction promotion of connecting the spout, through passing the inside of fixed jack embedding fixed screw with fixing bolt's one end, rotate fixed jack and fixed screw simultaneously and form threaded connection, with this inside that can be fixed the connection slider at the connecting spout.

Further, the pre-fixing mechanism comprises a pre-fixing chute arranged on one side of the L-shaped steel support, a pre-fixing clamping plate is connected to the pre-fixing chute in a sliding manner, a pre-fixing clamping groove communicated with the pre-fixing chute is arranged at one end of the L-shaped steel support, one end of the pre-fixing clamping plate is clamped into the pre-fixing clamping groove, and a driving assembly used for dragging the pre-fixing clamping plate to be in contact with the rock wool layer is arranged in the L-shaped steel support.

Through adopting above-mentioned technical scheme, through setting up the cooperation use of drive assembly and pre-fixing splint, pre-fixing draw-in groove, when the conflict of pre-fixing splint and benzene board or rock wool layer needs to be relieved, do the motion that draws together mutually pre-fixing draw-in groove along the length direction of pre-fixing spout through manual traction pre-fixing splint, and make pre-fixing splint and pre-fixing draw-in groove align, then rotate pre-fixing splint, make the one end extrusion drive assembly of pre-fixing splint, and insert the inside of pre-fixing draw-in groove, in order to make things convenient for contact pre-fixing splint and conflict of benzene board or rock wool layer;

similarly, after the benzene board or rock wool layer inserts between the infill wall and the decoration outer wall, through rotating the pre-fixing splint for the inside of pre-fixing draw-in groove is broken away from to the one end of pre-fixing splint, makes drive assembly remove extrusion atress simultaneously, and pulls the removal that the pre-fixing splint was close together to the infill wall along the length direction of pre-fixing spout, makes the centre gripping fixed to benzene board and rock wool layer of pre-fixing splint cooperation infill wall formation simultaneously, so that the drive pre-fixing splint accomplish the pre-fixing to benzene board or rock wool layer, has improved the practicality of device.

Further, the drive assembly is including seting up at the inside drive storehouse of L shaped steel support, the one end fixedly connected with transfer line of pre-fixing splint, the one end of transfer line passes L shaped steel support to extend to the inside of drive storehouse, just the transfer line extends to the inside one end fixedly connected with conflict board of drive storehouse, the one end cover of transfer line is equipped with drive spring, drive spring installs between conflict board and pre-fixing splint.

Through adopting above-mentioned technical scheme, through setting up the cooperation use of drive spring and conflict board, transfer line, make after rotating the inside that the pre-fixing splint breaks away from the pre-fixing draw-in groove, make drive spring remove extrusion atress, and produce rebound deformation, make simultaneously drive spring along the inner wall in drive storehouse to the ejecting conflict board of length direction of infill wall, and make the conflict board drive the pre-fixing splint draw close along the length direction of pre-fixing spout to the infill wall, so that drive the pre-fixing splint cooperation infill wall of pre-fixing to benzene board or rock wool layer of completion.

Further, the mounting groove has been seted up to one side that decorates the outer wall and is close to the rock wool layer, the inside of mounting groove evenly is provided with a plurality of strips of making an uproar that fall, adjacent two it is formed with the echo groove to fall between the strip of making an uproar, the one end of strip of making an uproar that falls evenly is provided with a plurality of sound guide holes.

Through adopting above-mentioned technical scheme, through setting up the cooperation use of strip of making an uproar with echo groove, leading the sound hole for when the noise passes the decoration outer wall, make noise sound wave get into the inside in echo groove, and pass the strip of making an uproar, effectively increased the propagation stroke of noise, reduced the propagation intensity of noise.

Further, the connecting assembly comprises a connecting slot formed in one end of the first L-shaped sealing plate and one end of the second L-shaped sealing plate, connecting plugs matched with the connecting slot are fixedly connected to the other ends of the first L-shaped sealing plate and the second L-shaped sealing plate, connecting holes are formed in the tops of the first L-shaped sealing plate and the second L-shaped sealing plate, connecting screws are inserted into the connecting holes, and one ends of the connecting screws are in threaded connection with the connecting plugs.

Through adopting above-mentioned technical scheme, through alternately setting up L type closing plate one and L type closing plate two, be convenient for drive arc sealed benzene board and form sealing connection between two adjacent infilled walls of horizontal direction, then through the cooperation of connecting slot and connection inserted block, connecting hole, connecting screw rod use, accomplish the fixed connection between two adjacent infilled walls.

Further, the inside of infilled wall is vertically evenly provided with multiunit and erects the muscle, just the inside of infilled wall transversely evenly is provided with a plurality of snakelike strengthening ribs, the equal fixedly connected with reinforcing bar net in top and bottom of infilled wall.

Through adopting above-mentioned technical scheme, through setting up the cooperation use of perpendicular muscle and snakelike strengthening rib, reinforcing bar net, effectively improved the supporting strength of infilled wall, increased the supporting stability of device.

Further, the infill wall is provided as a plurality of hollow concrete blocks stacked flat.

Through adopting above-mentioned technical scheme, through setting up the infilled wall and being hollow concrete block, effectively alleviateed the whole quality of device, the transportation of the device of being convenient for.

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

1. through setting up the cooperation of pre-fixing mechanism and fixed subassembly and using, be convenient for remove the fixed connection between decorating outer wall and the infill wall through fixed subassembly, then pull along the length direction of connecting the spout and decorate the clearance between outer wall increase infill wall and the decoration outer wall, conveniently insert required benzene board or rock wool layer between infill wall and the decoration outer wall, then cooperate pre-fixing mechanism and fixed subassembly formation to benzene board or rock wool layer's pre-fixing and fixed, this is convenient for accomplish to the required benzene board or rock wool layer of increase between infill wall and the decoration outer wall according to actual demand, the application scope of prefabricated wall has effectively been expanded, the practicality of prefabricated wall has been improved, simultaneously through setting up L type closing plate two, arc sealing benzene board, coupling assembling's cooperation is used, be favorable to carrying out secondary utilization to the infill wall, resource utilization rate has been improved, prefabricated wall's environmental protection effect has been improved.

2. Through setting up the cooperation use of drive assembly and pre-fixing splint, pre-fixing draw-in groove, when the conflict of pre-fixing splint and benzene board or rock wool layer is removed to needs, do the motion that looks pre-fixing draw-in groove was drawn together along the length direction of pre-fixing spout through manual traction pre-fixing splint to make pre-fixing splint align with pre-fixing draw-in groove, then rotate pre-fixing splint, make the one end extrusion drive assembly of pre-fixing splint, and insert the inside of pre-fixing draw-in groove, so that contact pre-fixing splint and the conflict on benzene board or rock wool layer.

3. Through setting up the cooperation use of drive spring and conflict board, transfer line for after rotating the inside that the pre-fixing splint breaks away from the pre-fixing draw-in groove, make drive spring remove extrusion atress, and produce rebound deformation, make simultaneously drive spring along the inner wall of drive storehouse to the ejecting conflict board of length direction of infill wall, and make the conflict board drive the pre-fixing splint draw close along the length direction of pre-fixing spout to the infill wall, so that the cooperation infill wall of drive pre-fixing splint is accomplished to benzene board or rock wool layer's pre-fixing.

Drawings

Fig. 1 is a schematic perspective view of a device body in the present application.

Fig. 2 is an exploded view of a perspective structure of the device body in the present application.

Fig. 3 is an exploded view of the internal structure of the connecting chute in the present application.

Fig. 4 is an exploded view of the internal structure of the drive cartridge of the present application.

Fig. 5 is a schematic perspective view of the connection assembly in the present application.

Fig. 6 is a schematic perspective view of the decorative outer wall in the present application.

Fig. 7 is an exploded view of the internal structure of the infill wall of the present application.

Reference numerals illustrate:

1. filling a wall; 2. benzene board; 3. a rock wool layer; 4. decorating an outer wall; 5. an L-shaped steel bracket; 6. a U-shaped connecting frame; 7. the connecting slide block; 8. the connecting chute; 9. a fixed jack; 10. fixing the screw holes; 11. a fixing bolt; 12. pre-fixing the sliding groove; 13. pre-fixing the clamping plate; 14. a pre-fixing clamping groove; 15. a driving bin; 16. a transmission rod; 17. a contact plate; 18. a drive spring; 19. noise reduction strips; 20. echo grooves; 21. a sound guide hole; 22. an L-shaped sealing plate I; 23. vertical ribs; 24. serpentine reinforcing ribs; 25. a reinforcing mesh; 26. arc-shaped sealing benzene plates; 27. a connection slot; 28. connecting the plug blocks; 29. a connection hole; 30. a connecting screw; 31. and an L-shaped sealing plate II.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1-7.

The embodiment of the application discloses an energy-saving and environment-friendly building wall.

Referring to fig. 1-5, an energy-saving and environment-friendly building wall comprises a filling wall 1, wherein a benzene plate 2 is installed on one side of the filling wall 1, a rock wool layer 3 is installed on one side of the benzene plate 2 away from the filling wall 1, a decorative outer wall 4 is installed on one side of the rock wool layer 3 away from the benzene plate 2, four corners of one side of the filling wall 1, which is close to the benzene plate 2, are fixedly connected with an L-shaped steel bracket 5, one end of the decorative outer wall 4 is symmetrically and fixedly connected with a U-shaped connecting frame 6, one end of the U-shaped connecting frame 6 is symmetrically and fixedly connected with a connecting sliding block 7, a connecting sliding groove 8 matched with the connecting sliding block 7 is formed in the top of the L-shaped steel bracket 5, a fixing component is installed on one side of the L-shaped steel bracket 5, a pre-fixing mechanism is arranged on the other side of the L-shaped steel bracket 5, and one end of the filling wall 1 is provided with a connecting mechanism;

the connecting mechanism comprises a first L-shaped sealing plate 22 fixedly connected to one end of the filling wall 1, a second L-shaped sealing plate 31 which faces the first L-shaped sealing plate 22 oppositely is fixedly connected to one end of the decorative outer wall 4, arc-shaped sealing benzene plates 26 are fixedly connected to the inner parts of the first L-shaped sealing plate 22 and the second L-shaped sealing plate 31, and connecting assemblies are arranged at one ends of the first L-shaped sealing plate 22 and the second L-shaped sealing plate 31;

the fixing assembly comprises a plurality of fixing jacks 9 which are uniformly arranged on one side of the L-shaped steel bracket 5, one end of each fixing jack 9 is communicated with the inside of the connecting chute 8, one end of the connecting sliding block 7 is provided with a fixing screw hole 10 which is matched with the fixing jack 9, and the inside of each fixing jack 9 is inserted with a fixing bolt 11 which is in threaded connection with the fixing screw hole 10;

and the pre-fixing mechanism comprises a pre-fixing chute 12 arranged on one side of the L-shaped steel bracket 5, a pre-fixing clamping plate 13 is slidably connected in the pre-fixing chute 12, a pre-fixing clamping groove 14 communicated with the pre-fixing chute 12 is arranged at one end of the L-shaped steel bracket 5, one end of the pre-fixing clamping plate 13 is clamped into the pre-fixing clamping groove 14, and a driving assembly for dragging the pre-fixing clamping plate 13 to be in contact with the rock wool layer 3 is arranged in the L-shaped steel bracket 5.

When the wall filling machine is used, when the heat preservation effect or the fireproof effect of the filling wall 1 is required to be increased according to actual requirements, firstly, the fixing bolts 11 are manually unscrewed, the fixing bolts 11 are taken out from the fixing jacks 9 to release the fixed connection between the connecting sliding blocks 7 and the L-shaped steel brackets 5, and then the connecting sliding blocks 7 are manually pulled to move away from the filling wall 1 along the length direction of the connecting sliding grooves 8 by being matched with the U-shaped connecting frames 6, so that the gap between the filling wall 1 and the decorative outer wall 4 is effectively increased;

then, the pre-fixing clamp plate 13 is manually pulled to slide along the inner wall of the pre-fixing chute 12, when the pre-fixing clamp plate 13 moves to align with the pre-fixing clamping groove 14, the pre-fixing clamp plate 13 is clamped into the pre-fixing clamping groove 14 by rotating the pre-fixing clamp plate 13, then the benzene plate 2 or the rock wool layer 3 is inserted between the filling wall 1 and the decorative outer wall 4 according to actual requirements, the pre-fixing clamp plate 13 is separated from the pre-fixing clamping groove 14 by reversely rotating the pre-fixing clamp plate 13, meanwhile, the pre-fixing clamp plate 13 is pulled to move along the length direction of the pre-fixing chute 12 by arranging a driving assembly, and the pre-fixing clamp plate 13 forms clamping interference to the benzene plate 2 or the rock wool layer 3 along the length direction of the pre-fixing chute 12 in cooperation with the filling wall 1 so as to finish pre-fixing the benzene plate 2 or the rock wool layer 3;

then, the decorative outer wall 4 is pushed along the length direction of the connecting chute 8, the decorative outer wall 4 is matched with the U-shaped connecting frame 6 to drive the connecting sliding block 7 to move along the direction of the filling wall 1, meanwhile, the decorative outer wall 4 forms extrusion and interference along the length direction of the connecting chute 8, the connecting sliding block 7 drives the fixing screw hole 10 to align with the matched fixing insertion hole 9, and then one end of the manually-pulled fixing bolt 11 penetrates through the fixing insertion hole 9 to be embedded into the connecting sliding block 7 and form threaded connection with the connecting sliding block 7, so that the required benzene plate 2 or rock wool layer 3 is added between the filling wall 1 and the decorative outer wall 4 according to actual requirements, the application range of the device is effectively expanded, and the practicability of the device is improved;

then, the two filling walls 1 are horizontally aligned, the first L-shaped sealing plate 22 at one end of one filling wall 1 and the second L-shaped sealing plate 31 at one end of the other filling wall 1 are mutually inserted, then the connecting assembly is screwed to complete fixed connection between the two adjacent filling walls 1, meanwhile, the first L-shaped sealing plate 22 and the second L-shaped sealing plate 31 respectively drive the arc-shaped sealing benzene plates 26 to form extrusion interference, the arc-shaped sealing benzene plates 26 are stressed to deform, gaps between the first L-shaped sealing plate 22 and the second L-shaped sealing plate 31 are filled, and accordingly the connection tightness between the two adjacent filling walls 1 is improved;

similarly, when the connection between two adjacent filling walls 1 needs to be released, the connecting assembly is unscrewed, and then the two connected filling walls 1 are pushed away, so that the L-shaped sealing plate I22 drives the two arc-shaped sealing benzene plates 26 to separate from each other and collide with each other, and rebound deformation is generated to rebound to the original state, thereby effectively reducing the waste of resources and protecting the environment;

then, the fixing bolts 11 are manually unscrewed to separate from the inside of the fixing jacks 9, so that the fixed connection between the connecting sliding blocks 7 and the L-shaped steel brackets 5 is released, and then the decorative outer wall 4 is pulled to be matched with the U-shaped connecting frame 6 to drive the connecting sliding blocks 7 to move away from the filling wall 1 along the length direction of the connecting sliding grooves 8, so that the gap between the filling wall 1 and the decorative outer wall 4 is increased, and meanwhile, the fixed connection between the decorative outer wall 4 and the filling wall 1 is released;

then, move along the inner wall of the pre-fixing chute 12 and be aligned with the pre-fixing clamping groove 14 through manual traction pre-fixing clamping plate 13, then rotate the inside of pre-fixing clamping groove 14 of pre-fixing clamping plate 13 card in order to relieve the conflict of pre-fixing clamping plate 13 to benzene board 2 or rock wool layer 3 one side, so that take out benzene board 2 or rock wool layer 3 from between infill wall 1 and decorating outer wall 4 according to actual demand, effectively reduced the waste of resource, improved the environmental protection effect of device.

Referring to fig. 2-4, the driving assembly comprises a driving bin 15 arranged inside an L-shaped steel bracket 5, one end of a pre-fixing clamping plate 13 is fixedly connected with a transmission rod 16, one end of the transmission rod 16 penetrates through the L-shaped steel bracket 5 and extends to the inside of the driving bin 15, one end of the transmission rod 16 extending to the inside of the driving bin 15 is fixedly connected with a collision plate 17, one end of the transmission rod 16 is sleeved with a driving spring 18, and the driving spring 18 is arranged between the collision plate 17 and the pre-fixing clamping plate 13.

When the novel decorative wallboard is used, when the benzene board 2 or the rock wool layer 3 inserted between the filling wall 1 and the decorative outer wall 4 is required to be pre-fixed, the pre-fixed clamping plate 13 is manually rotated, so that the pre-fixed clamping plate 13 is separated from the pre-fixed clamping groove 14, meanwhile, the driving spring 18 is relieved of stress to generate rebound deformation, the abutting plate 17 is ejected along the length direction of the driving bin 15, the abutting plate 17 drives the pre-fixed clamping plate 13 to move towards the direction of the filling wall 1 through the transmission rod 16, and meanwhile, the abutting plate 17 drives the pre-fixed clamping plate 13 to be matched with the filling wall 1 to clamp and fix the benzene board 2 and the rock wool layer 3;

similarly, when the pre-fixing of the pre-fixing clamp plate 13 to the benzene plate 2 or the rock wool layer 3 needs to be relieved, the pre-fixing clamp plate 13 is pulled to move away from the filling wall 1 along the length direction of the pre-fixing sliding groove 12, so that the pre-fixing clamp plate 13 drives the abutting plate 17 to move along the inner wall of the driving bin 15 through the transmission rod 16, the abutting plate 17 extrudes the driving spring 18 along the direction away from the filling wall 1, the driving spring 18 is enabled to shrink and deform, meanwhile, after the pre-fixing clamp plate 13 is aligned with the pre-fixing clamp groove 14, one end of the pre-fixing clamp plate 13 is inserted into the pre-fixing clamp groove 14 through rotating, and meanwhile, the driving spring 18 drives the pre-fixing clamp plate 13 to abut against the inner wall of the pre-fixing clamp groove 14 through the rebound deformation characteristic of the driving spring 18, so that the pre-fixing clamp plate 13 is relieved from pre-fixing the benzene plate 2 or the rock wool layer 3, and the practicability of the device is improved.

Referring to fig. 2 and 6, an installation groove is formed in one side of the decorative outer wall 4, which is close to the rock wool layer 3, a plurality of noise reduction strips 19 are uniformly arranged in the installation groove, an echo groove 20 is formed between two adjacent noise reduction strips 19, and a plurality of sound guide holes 21 are uniformly formed in one end of each noise reduction strip 19.

When the noise penetrates through the decorative outer wall 4 to the interior of the infilled wall 1, the noise is blocked and guided by the noise reduction strips 19 and the echo groove 20, the noise passes through the decorative outer wall 4 and enters the interior of the echo groove 20, and propagates along the inner wall of the echo groove 20, and simultaneously passes through the plurality of sound guide holes 21 along the inner wall of the echo groove 20, and collides with the surface of the noise reduction strips 19, so that the propagation stroke of the noise is effectively increased, the propagation energy of the noise is consumed, the noise reduction effect of the device is improved, and the practicability of the device is further improved.

Referring to fig. 1 and 2, the connection assembly includes a connection slot 27 formed at one end of a first L-shaped sealing plate 22 and a second L-shaped sealing plate 31, connection plugs 28 adapted to the connection slot 27 are fixedly connected to the other ends of the first L-shaped sealing plate 22 and the second L-shaped sealing plate 31, connection holes 29 are formed at the tops of the first L-shaped sealing plate 22 and the second L-shaped sealing plate 31, connection screws 30 are inserted into the connection holes 29, and one ends of the connection screws 30 are in threaded connection with the connection plugs 28.

When the two filling walls 1 are required to be spliced and installed in use, the two filling walls 1 drive the first L-shaped sealing plate 22 and the second L-shaped sealing plate 31 to be installed in a crossed mode, the second L-shaped sealing plate 31 drives the connecting plug 28 to be inserted into the connecting slot 27, and then the connecting screw 30 passes through the connecting hole 29 and is in threaded connection with the connecting plug 28 to form threaded connection, so that quick fixed connection between the two adjacent filling walls 1 is conveniently realized.

Referring to fig. 2 and 7, a plurality of groups of vertical ribs 23 are uniformly arranged in the filling wall 1 in the longitudinal direction, a plurality of serpentine reinforcing ribs 24 are uniformly arranged in the filling wall 1 in the transverse direction, and reinforcing meshes 25 are fixedly connected to the top and the bottom of the filling wall 1.

When the filling wall is used, firstly, the vertical ribs 23 and the snakelike reinforcing ribs 24 are arranged in the filling wall 1, so that the vertical ribs 23 and the snakelike reinforcing ribs 24 respectively support the inner structure of the filling wall 1 longitudinally and transversely, the inner structure strength of the filling wall 1 is effectively enhanced, the supporting strength of the filling wall 1 is improved, meanwhile, the connecting strength of the filling wall 1 in the longitudinal direction is effectively improved through the arrangement of the reinforcing steel bar net 25, and a plurality of filling walls 1 in the longitudinal direction are more stably connected.

Referring to fig. 2 and 6, the infill wall 1 is provided as a plurality of hollow concrete blocks stacked flatly.

When the filling wall is used, the filling wall 1 is a hollow concrete block, so that the dead weight of the filling wall 1 is greatly reduced, the overall quality of the device is reduced, the transportation loss of the device is reduced, the transportation energy is saved, and the environmental protection effect is improved.

The implementation principle of the energy-saving and environment-friendly building wall body of the embodiment is as follows: firstly, the fixing bolts 11 are manually unscrewed, the fixing bolts 11 are taken out from the inside of the fixing insertion holes 9 to release the fixed connection between the connecting sliding blocks 7 and the L-shaped steel brackets 5, and then the connecting sliding blocks 7 are manually pulled to move away from the filling wall 1 along the length direction of the connecting sliding grooves 8 by being matched with the U-shaped connecting frames 6, so that the gap between the filling wall 1 and the decorative outer wall 4 is effectively increased;

then, the pre-fixing clamp plate 13 is manually pulled to slide along the inner wall of the pre-fixing chute 12, when the pre-fixing clamp plate 13 moves to align with the pre-fixing clamping groove 14, the pre-fixing clamp plate 13 is clamped into the pre-fixing clamping groove 14 by rotating the pre-fixing clamp plate 13, then the benzene board 2 or the rock wool layer 3 is inserted between the filling wall 1 and the decorative outer wall 4 according to actual requirements, and the pre-fixing clamp plate 13 is separated from the pre-fixing clamping groove 14 by reversely rotating the pre-fixing clamp plate 13;

simultaneously, the driving spring 18 is relieved from being stressed to generate rebound deformation, the abutting plate 17 is ejected out along the length direction of the driving bin 15, the abutting plate 17 drives the pre-fixing clamping plate 13 to move towards the direction of the filling wall 1 through the transmission rod 16, and meanwhile, the abutting plate 17 drives the pre-fixing clamping plate 13 to be matched with the filling wall 1 to clamp and fix the benzene plate 2 and the rock wool layer 3;

then, through promoting along the length direction of connecting chute 8 decorate outer wall 4 for decorate outer wall 4 cooperation U type link 6 and drive the removal that connecting slider 7 was closed up to looks infilled wall 1 direction, make simultaneously decorate outer wall 4 and form extrusion conflict along the length direction of connecting chute 8, and make connecting slider 7 drive fixed screw 10 and the fixed jack 9 of adaptation and align, then manual one end of pulling fixing bolt 11 passes the inside of fixed jack 9 embedding connecting slider 7, and form threaded connection with connecting slider 7, so that accomplish according to actual demand to adding required benzene board 2 or rock wool layer 3 between infilled wall 1 and the decorating outer wall 4, effectively expanded the application scope of device, the practicality of device has been improved.

Claims (8)

1. Energy-concerving and environment-protective building wall, including infilled wall (1), its characterized in that: the novel wall filling machine is characterized in that a benzene plate (2) is arranged on one side of the filling wall (1), a rock wool layer (3) is arranged on one side, far away from the filling wall (1), of the benzene plate (2), a decorative outer wall (4) is arranged on one side, far away from the benzene plate (2), of the rock wool layer (3), an L-shaped steel bracket (5) is fixedly connected to four corners of one side, close to the benzene plate (2), of the filling wall (1), one end of the decorative outer wall (4) is symmetrically and fixedly connected with a U-shaped connecting frame (6), one end of the U-shaped connecting frame (6) is symmetrically and fixedly connected with a connecting sliding block (7), a connecting sliding groove (8) matched with the connecting sliding block (7) is formed in the top of the L-shaped steel bracket (5), a fixing component is arranged on one side of the L-shaped steel bracket (5), a pre-fixing mechanism is arranged on the other side of the L-shaped steel bracket (5), and one end of the filling wall (1) is provided with a connecting mechanism;

the connecting mechanism comprises a first L-shaped sealing plate (22) fixedly connected to one end of the filling wall (1), a second L-shaped sealing plate (31) opposite to the first L-shaped sealing plate (22) in direction is fixedly connected to one end of the decorative outer wall (4), arc-shaped sealing benzene plates (26) are fixedly connected to the interiors of the first L-shaped sealing plate (22) and the second L-shaped sealing plate (31), and connecting assemblies are mounted at one ends of the first L-shaped sealing plate (22) and the second L-shaped sealing plate (31).

2. An energy-saving and environment-friendly building wall as claimed in claim 1, wherein: the fixing assembly comprises a plurality of fixing jacks (9) which are uniformly formed in one side of the L-shaped steel support (5), one end of each fixing jack (9) is communicated with the inside of the corresponding connecting chute (8), a fixing screw hole (10) which is matched with the corresponding fixing jack (9) is formed in one end of the corresponding connecting sliding block (7), and the fixing jack (9) is internally inserted with the corresponding fixing screw hole (10) in a threaded mode and is connected with the corresponding fixing bolt (11).

3. An energy-saving and environment-friendly building wall as claimed in claim 1, wherein: the pre-fixing mechanism comprises a pre-fixing chute (12) formed in one side of an L-shaped steel support (5), a pre-fixing clamping plate (13) is connected to the pre-fixing chute (12) in a sliding mode, a pre-fixing clamping groove (14) communicated with the pre-fixing chute (12) is formed in one end of the L-shaped steel support (5), one end of the pre-fixing clamping plate (13) is clamped into the pre-fixing clamping groove (14), and a driving assembly used for dragging the pre-fixing clamping plate (13) to collide with a rock wool layer (3) is arranged in the L-shaped steel support (5).

4. An energy-saving and environment-friendly building wall as claimed in claim 3, wherein: the driving assembly comprises a driving bin (15) arranged inside an L-shaped steel support (5), one end of a pre-fixing clamp plate (13) is fixedly connected with a transmission rod (16), one end of the transmission rod (16) penetrates through the L-shaped steel support (5) and extends to the inside of the driving bin (15), the transmission rod (16) extends to one end of the inside of the driving bin (15) and is fixedly connected with a collision plate (17), one end of the transmission rod (16) is sleeved with a driving spring (18), and the driving spring (18) is arranged between the collision plate (17) and the pre-fixing clamp plate (13).

5. An energy-saving and environment-friendly building wall as claimed in claim 1, wherein: the decorative outer wall (4) is close to one side of the rock wool layer (3) and is provided with a mounting groove, a plurality of noise reduction strips (19) are uniformly arranged in the mounting groove, echo grooves (20) are formed between two adjacent noise reduction strips (19), and a plurality of sound guide holes (21) are uniformly formed in one end of each noise reduction strip (19).

6. An energy-saving and environment-friendly building wall as claimed in claim 1, wherein: the connecting assembly comprises a connecting slot (27) formed in one end of a first L-shaped sealing plate (22) and one end of a second L-shaped sealing plate (31), connecting plugs (28) matched with the connecting slot (27) are fixedly connected to the other ends of the first L-shaped sealing plate (22) and the second L-shaped sealing plate (31), connecting holes (29) are formed in the tops of the first L-shaped sealing plate (22) and the second L-shaped sealing plate (31), connecting screws (30) are inserted into the connecting holes (29), and one ends of the connecting screws (30) are in threaded connection with the connecting plugs (28).

7. An energy-saving and environment-friendly building wall as claimed in claim 1, wherein: the inside of infill wall (1) vertically evenly is provided with multiunit perpendicular muscle (23), just the inside of infill wall (1) transversely evenly is provided with a plurality of snakelike strengthening ribs (24), the equal fixedly connected with reinforcing bar net (25) in top and bottom of infill wall (1).

8. An energy-saving and environment-friendly building wall as claimed in claim 1, wherein: the infill wall (1) is provided as a plurality of hollow concrete blocks stacked flatly.