CN116575568B

CN116575568B - ALC wallboard for enhancing connection strength of adjacent template units

Info

Publication number: CN116575568B
Application number: CN202310378876.9A
Authority: CN
Inventors: 吴涛涛
Original assignee: Shanghai Longzhen Energy Conservation Technology Co ltd
Current assignee: Shanghai Longzhen Energy Conservation Technology Co ltd
Priority date: 2023-04-10
Filing date: 2023-04-10
Publication date: 2024-02-13
Anticipated expiration: 2043-04-10
Also published as: CN116575568A

Abstract

The invention discloses an ALC wallboard for reinforcing the connection strength of adjacent formwork units, which relates to the related field of assembled building structures and comprises an ALC wallboard body, wherein a first connection structure and a second connection structure which play a role in connection are respectively arranged at the left end and the right end of the ALC wallboard body, a reinforcing mesh and a stretch-proofing pouring layer which play a role in reinforcement are arranged in the ALC wallboard body, bridging reinforcing bars are bound on the upper side and the lower side of the right end of the reinforcing mesh through steel wires by arranging the first connection structure and reinforcing firmware at the right end of the ALC wallboard body, reinforcing transverse ribs and reinforcing vertical ribs are sequentially bound on the right side of the bridging reinforcing bars, steel wire heads, side-pulling steel wires and the like are penetrated into the inner sides of the bridging reinforcing bars and welded into a net, and the steel wire heads pull the steel wire mesh consisting of the high-strength steel wires, the side-pulling steel wires and the like are reciprocated downwards, so that cement mortar poured into the space is driven to be fully dispersed, and the empty package phenomenon of mortar is reduced.

Description

ALC wallboard for enhancing connection strength of adjacent template units

Technical Field

The invention relates to the related field of assembled building structures, in particular to an ALC wallboard for reinforcing the connection strength of adjacent template units.

Background

The ALC wallboard is an assembled wallboard made of autoclaved lightweight concrete, is an air-hole concrete forming board which is made by taking fly ash (or silica sand), cement, lime and the like as main raw materials and is cured by high-pressure steam, and contains a treated reinforcement cage; the ALC plate can be used as a wall material and a roof board, and is a novel building material with excellent performance.

In the prior art, most of the wallboards are spliced simply in a clamping manner, the wallboards are difficult to form a side-pull whole according to the clamping component after being installed, and the stretching resistance phenomenon of the reinforcing steel bar meshes in the wallboards is generated, so that the overall strength of the wallboards is affected;

meanwhile, when the reinforcing steel bars at the spliced position are connected, the phenomenon that the space is small or other parts are blocked occurs in the prior art, so that workers are difficult to bind the reinforcing steel bar connected position at the position, the construction progress is influenced, and meanwhile, the splicing strength of adjacent units is also influenced; most of the prior wallboards are formed by integral casting, and most of the wallboards are rigid structures such as concrete, and the phenomenon that the concrete is integrally cracked when side pulling occurs easily.

Disclosure of Invention

Accordingly, in order to address the above-mentioned shortcomings, the present invention herein provides an ALC wall panel that enhances the strength of the connection of adjacent form units.

The invention is realized by constructing an ALC wallboard for enhancing the connection strength of adjacent template units, the device comprises an ALC wallboard body, wherein a first connection structure and a second connection structure which play a role in connection are respectively arranged at the left end and the right end of the ALC wallboard body, and a reinforcing mesh and a stretch-proof pouring layer which play a role in reinforcement are arranged in the ALC wallboard body;

the first connection structure includes: the reinforced pouring plates are poured on the front side and the rear side of the right end of the ALC wallboard body; bridging reinforcing steel bars are bound and fixed at the right end of a reinforcing mesh inside the ALC wallboard body; the right end of the bridging steel bar is bound and fixed with a reinforcing transverse bar which can provide a transverse stretching-resistant effect for the bridging steel bar; the right end of the reinforcing transverse rib is fixedly bound with the reinforcing vertical rib; the bottom of the reinforcing transverse rib is fixedly welded with the reinforcing fixing piece; the first welding screw is arranged below the reinforcing transverse rib; the first welding screw is welded and fixed at the front end and the rear end of the bending steel bar; and the pouring clamping piece is arranged on the top side of the reinforcing pouring plate.

Preferably, the reinforcement firmware includes: the middle side and the left side of the bottom of the reinforcing transverse rib are fixedly welded with first threaded hooks; the inner side of the first threaded hook at the middle side of the bottom of the reinforcing transverse rib is in threaded connection with a protective plastic part which plays a role in pouring protection; the inner side of the first threaded hook at the left side of the bottom of the reinforcing transverse rib is in threaded connection with the small-diameter plastic part; and the steel wire head is arranged in the small-diameter plastic part in a sliding manner.

Preferably, the reinforcement firmware further comprises: the high-strength steel wire is welded and fixed at the bottom of the steel wire head; welding spots are arranged on the outer sides of the high-strength steel wires through welding rods; and the side-pulling steel wire is welded and fixed at the rear end of the welding spot and plays a role in resisting side pulling.

Preferably, two groups of first threaded hooks are welded and fixed at the bottoms of the two groups of reinforcing transverse ribs on the upper side and the lower side of the right end of the ALC wallboard body, and the inner diameter of each first threaded hook is the same as the diameter of a first welding screw.

Preferably, the high-strength steel wires, the welding spots and the side-pull steel wires form a square steel wire mesh, and the side-pull steel wires and the reinforcing transverse ribs are distributed in an up-and-down staggered mode.

Preferably, the pouring clip includes: the middle side of the top of the reinforcing transverse rib is fixedly welded with a second threaded hook; the rear end of the second threaded hook is inserted into the threaded groove through a screw thread; the screw grooves are formed in the front side and the rear side of the cement plate; pouring a steel pipe, wherein the through holes in the cement board are fixed with the pouring steel pipe with a pouring function; and the periphery of the outer side of the cement board is glued and provided with sealant.

Preferably, the inside reinforcing bar net that plays the reinforcement of being equipped with of cement board, and this reinforcing bar net is fixed with pouring the steel pipe ligature, and both ends all are equipped with the slope about this cement board bottom, and this slope bottom and consolidate the upper and lower both sides opening looks gomphosis of pouring the board.

Preferably, the second connection structure includes: the clamping pouring plate is used for pouring the clamping pouring plate which plays a role in clamping on the middle side of the left end of the ALC wallboard body; elbow reinforcing steel bars are bound and fixed at the left end of a reinforcing mesh inside the ALC wallboard body; binding steel wires, wherein the binding steel wires are fixedly bound at the elbow of the elbow steel bar; the second welding screw rod is fixedly welded at the elbow fracture of the elbow reinforced bar; and the extrusion adhesive layers are sprayed at the front end and the rear end of the clamping pouring plate.

Preferably, one end of the binding steel wire is wound and fixed at the steel body at the bottom side of the elbow steel bar, the binding steel wire is of a sliding lock structure, the other end of the binding steel wire is wound on the steel body at the top side of the elbow steel bar and then pulled out upwards, and the elbow steel bar is connected with the steel bar net through a second welding screw rod.

Preferably, the stretch resistant pouring layer includes: the inner rear side of the ALC wallboard body is provided with a first fiber pouring plate which plays a role in stretching resistance; the front side of the first fiber pouring plate is filled with the filling cotton layer; the first fiber pouring plate is poured with an aerated concrete layer with increased strength; the front end of the aerated concrete layer is sprayed with adhesive sealant; the front end of the adhesive sealant is sprayed with the heat insulation filling layer; and the front end of the heat insulation filling layer is poured with a second fiber pouring plate.

The invention has the following advantages: the present invention provides an ALC wallboard for enhancing the connection strength of adjacent formwork units by improving the same, and has the following improvements compared with the same type of equipment:

according to the ALC wallboard for reinforcing the connection strength of the adjacent formwork units, the first connecting structure and the reinforcing firmware are arranged at the right end of the ALC wallboard body, the bridging reinforcing steel bars are bound on the upper side and the lower side of the right end of the reinforcing steel bar net through the steel wires, the reinforcing transverse bars and the reinforcing vertical bars are bound on the right side of the bridging reinforcing steel bars in sequence, meanwhile, the steel wire heads, the side pull steel wires and the like are penetrated into the inner sides of the bridging reinforcing steel bars and welded into a net, the steel wire heads pull the steel wire net formed by the high-strength steel wires, the side pull steel wires and the like to reciprocate downwards, so that cement mortar poured into the space is driven to be fully dispersed, the blank phenomenon of the cement mortar at the space is reduced, and meanwhile, the reinforced pouring plate and the top of the clamping pouring plate are relatively sealed through the slope angle arranged at the bottom side of the cement board and the sealant around the cement board.

According to the ALC wallboard for reinforcing the connection strength of the adjacent formwork units, the second connection structure is arranged at the left end of the ALC wallboard body, the elbow reinforcing steel bar is inserted into the inner side of the reinforcing pouring plate, the protective plastic piece at the middle side of the first threaded hook is detached, the first welding screw rods at the front end and the rear end of the bending reinforcing steel bar are arranged with the first threaded hook, the bending reinforcing steel bar can penetrate through the binding steel wire at the elbow of the elbow reinforcing steel bar, and then one upward end of the binding steel wire is pulled out, so that the binding steel wire binds the elbow reinforcing steel bar and the bending reinforcing steel bar, and further the elbow reinforcing steel bar and the bending reinforcing steel bar can form a firm integral frame under the locking effect of the first threaded hook.

According to the ALC wallboard for enhancing the connection strength of the adjacent template units, the stretching-resistant pouring layer is arranged, the cotton layer for sound insulation and heat insulation is filled into the inner space formed by pouring the first fiber pouring plate and the aerated concrete layer to form the filled cotton layer, then the heat insulation filling layer doped with carbon powder materials is poured on the surface of the adhesive sealant for molding, the heat insulation and sound insulation effect is provided for the integral ALC wallboard body through the adhesive sealant, the filled cotton layer and the heat insulation filling layer, and the cracking phenomenon of the ALC wallboard body when the ALC wallboard body is subjected to stretching action is reduced through the stretching-resistant effect of the first fiber pouring plate and the second fiber pouring plate.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic perspective view of the ALC wall panel body and first connection structure of the present invention;

FIG. 3 is a schematic diagram of an exploded perspective view of the ALC wallboard body and stretch resistant casting layer of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 2A in accordance with the present invention;

FIG. 5 is a schematic perspective view of a first connection structure of the present invention;

FIG. 6 is a schematic perspective view of the reinforcement firmware of the present invention;

FIG. 7 is an enlarged schematic view of the structure of FIG. 2B in accordance with the present invention;

FIG. 8 is a schematic perspective view of a second connecting structure of the present invention;

fig. 9 is an enlarged schematic view of the structure of fig. 3C according to the present invention.

Wherein: the ALC wallboard comprises an ALC wallboard body-1, a first connecting structure-2, a second connecting structure-3, a reinforcing mesh-4, a stretch-proofing pouring layer-5, a reinforcing pouring plate-21, a bridging reinforcing bar-22, a reinforcing transverse bar-23, a reinforcing vertical bar-24, a reinforcing fixing piece-25, a first welding screw-26, a bending reinforcing bar-27, a pouring clamping piece-28, a first threaded hook-251, a protective plastic piece-252, a small-diameter plastic piece-253, a steel wire head-254, a high-strength steel wire-255, a welding spot-256, a side-pulling steel wire-257, a second threaded hook-281, a spiral groove-282, a cement plate-283, a pouring steel tube-284, a sealant-285, a clamping pouring plate-31, an elbow reinforcing bar-32, a binding steel wire-33, a second welding screw-34, an extruding glue layer-35, a first fiber pouring plate-51, a filling cotton layer-52, a concrete layer-53, an adhesive sealant-54, a heat-insulating filling layer-55 and a second fiber pouring plate-56.

Detailed Description

The principles and features of the present invention are described below with reference to fig. 1-9, the examples being provided for illustration only and not for limitation of the scope of the invention. The invention is more particularly described by way of example in the following paragraphs with reference to the drawings. Advantages and features of the invention will become more apparent from the following description and from the claims. It should be noted that the drawings are in a very simplified form and are all to a non-precise scale, merely for convenience and clarity in aiding in the description of embodiments of the invention.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Embodiment one:

referring to fig. 1 to 9, the ALC wallboard for enhancing the connection strength of adjacent template units of the present invention comprises an ALC wallboard body 1, wherein a first connection structure 2 and a second connection structure 3 for connection are respectively arranged at the left and right ends of the ALC wallboard body 1, and a reinforcing mesh 4 and a stretch-proof pouring layer 5 for reinforcement are arranged inside the ALC wallboard body 1;

the first connecting structure 2 comprises a reinforcing pouring plate 21, reinforcing pouring plates 21 are respectively poured on the front side and the rear side of the right end of the ALC wallboard body 1, bridging reinforcing bars 22 are fixedly bound to the right end of a reinforcing mesh 4 in the ALC wallboard body 1, reinforcing connection effects are provided through the bridging reinforcing bars 22 and the reinforcing mesh 4, reinforcing transverse ribs 23 are fixedly bound to the right end of the bridging reinforcing bars 22, transverse stretching resistant effects can be provided for the bridging reinforcing bars 22 by the reinforcing transverse ribs 23, reinforcing vertical ribs 24 are fixedly bound to the right end of the reinforcing transverse ribs 23, reinforcing fasteners 25 are fixedly welded to the bottoms of the reinforcing transverse ribs 23, first welding screws 26 are arranged below the reinforcing transverse ribs 23, the first welding screws 26 are fixedly welded to the front end and the rear end of a bending reinforcing bar 27, the reinforcing effect is connected through the first welding screws 26, and pouring clamping pieces 28 are arranged on the top side of the reinforcing pouring plates 21, and the diameter ratio of the first welding screws 26 to the bending reinforcing bars 27 is 1:0.8.

The reinforcement fastener 25 comprises a first threaded hook 251, the middle side and the left side of the bottom of the reinforcement transverse rib 23 are fixedly welded with the first threaded hook 251, a protection plastic piece 252 playing a role in casting protection is connected to the inner side of the first threaded hook 251 on the middle side of the bottom of the reinforcement transverse rib 23 in a threaded manner, a small-diameter plastic piece 253 is connected to the inner side of the first threaded hook 251 on the left side of the bottom of the reinforcement transverse rib 23 in a threaded manner through the protection plastic piece 252, casting slurry is prevented from entering the first threaded hook 251 and the second threaded hook 281 through the protection plastic piece 252 and the small-diameter plastic piece 253, the service lives of the first threaded hook 251 and the second threaded hook 281 are prolonged, a steel wire head 254 is arranged in the small-diameter plastic piece 253 in a sliding manner, the steel wire head 254 is pulled to slide in the small-diameter plastic piece 253 to provide a pulling force for the high-strength steel wire 255, the high-strength steel wire 255 is fixedly welded on the bottom of the steel wire 254, a welding spot 256 is arranged on the outer side of the high-strength steel wire 255 through a welding rod, and the rear end of the welding spot 256 is fixedly welded with a side steel wire 257 playing a role in resisting side pulling effect.

Two groups of first threaded hooks 251 are welded and fixed at the bottoms of two groups of reinforcing transverse ribs 23 on the upper side and the lower side of the right end of the ALC wallboard body 1, and the inner diameter of each first threaded hook 251 is the same as the diameter of a first welding screw 26; the high-strength steel wires 255, the welding spots 256 and the side-pull steel wires 257 form square steel wire meshes, and the side-pull steel wires 257 and the reinforcing transverse ribs 23 are distributed in a vertically staggered mode, so that the steel wire meshes formed by the high-strength steel wires 255, the welding spots 256 and the side-pull steel wires 257 are pulled by the steel wire heads 254 to reciprocate up and down at the space formed by the reinforcing pouring plate 21 and the clamping pouring plate 31, cement mortar poured into the space is driven to be fully dispersed, and the blank package phenomenon of the mortar at the space is reduced.

The pouring clamping piece 28 comprises a second threaded hook 281, a second threaded hook 281 is fixedly welded on the middle side of the top of the reinforcing transverse rib 23, a threaded groove 282 is spliced at the rear end of the second threaded hook 281 through screw threads, the threaded groove 282 is formed in the front side and the rear side of the cement plate 283, a pouring steel pipe 284 playing a role in pouring is fixedly arranged in a through hole in the cement plate 283, sealant 285 is uniformly and adhesively arranged on the periphery of the outer side of the cement plate 283, and when the tops of the reinforcing pouring plate 21 and the clamping pouring plate 31 are relatively sealed through slope angles arranged on the bottom side of the cement plate 283 and the sealant 285 around the cement plate 283; the inside reinforcing bar net that plays the reinforcement usefulness that is equipped with of cement board 283, and this reinforcing bar net is fixed with pouring steel pipe 284 ligature, and both ends all are equipped with the slope about this cement board 283 bottom, and this slope bottom and consolidate the upper and lower both sides opening looks gomphosis of pouring board 21.

The working principle of the ALC wallboard for reinforcing the connection strength of adjacent template units based on the embodiment 1 is as follows:

first, when ALC wallboard 1 is processed, the staff forms steel bar network 4 through the ligature of reinforcing bar material in pouring mould earlier, at this moment through the steel wire with bridging reinforcing bar 22 ligature in the upper and lower both sides of the right-hand member of steel bar network 4 to with the horizontal muscle 23 of reinforcement and the vertical muscle 24 of reinforcement ligature in bridging reinforcing bar 22 right side in proper order, weld the web after inserting steel wire head 254, high strength steel wire 255 and solder joint 256 and side pull wire 257 inboard such as bridging reinforcing bar 22 simultaneously, at this moment bridging reinforcing bar 22, horizontal muscle 23 of reinforcement and vertical muscle 24 ligature and form the protrusion in steel bar network 4 right side.

Secondly, welding and fixing the first threaded hooks 251 and the second threaded hooks 281 at the bridging reinforcing steel bars 22, respectively installing the protection plastic piece 252 and the small-diameter plastic piece 253 inside the plurality of groups of the first threaded hooks 251 and the second threaded hooks 281, pulling the steel wire heads 254 out of the small-diameter plastic piece 253, and binding the elbow reinforcing steel bars 32 at the middle side of the left end of the reinforcing steel bar net 4;

thirdly, pouring the stretch-proofing pouring layer 5 and the ALC wallboard body 1 on the outer side of the reinforcing mesh 4 in sequence, wherein pouring slurry can be prevented from entering the first threaded hook 251 and the second threaded hook 281 through the protective plastic piece 252 and the small-diameter plastic piece 253, and the service lives of the first threaded hook 251 and the second threaded hook 281 are prolonged;

fourthly, after the installation work of the adjacent units is completed, the cement plate 283 is fixedly installed at the second threaded hook 281 by a screw, at the moment, the tops of the reinforced pouring plate 21 and the clamping pouring plate 31 are relatively closed by the slope angle arranged at the bottom side of the cement plate 283 and the sealant 285 around the cement plate 283, and then cement mortar is poured into a space formed by the reinforced pouring plate 21 and the clamping pouring plate 31 by the pouring steel pipe 284;

fifth, at this time, the worker can pull the steel wire head 254 to slide inside the small-diameter plastic part 253 through equipment such as an external nipper, so that the steel wire head 254 pulls the steel wire mesh formed by the high-strength steel wire 255, the welding point 256 and the side pull steel wire 257 to reciprocate up and down at the space formed by the reinforced pouring plate 21 and the clamping pouring plate 31, thereby driving cement mortar poured into the space to have a full dispersion phenomenon and reducing the empty package phenomenon of the mortar.

Embodiment two:

referring to fig. 1 to 9, compared with the first embodiment, the present embodiment of the ALC wall panel for enhancing the connection strength of adjacent formwork units further includes: the second connecting structure 3, the second connecting structure 3 comprises a clamping pouring plate 31, the middle side of the left end of the ALC wallboard body 1 is poured with the clamping pouring plate 31 playing a role of clamping, the left end of the reinforcing mesh 4 inside the ALC wallboard body 1 is fixedly bound with an elbow reinforcing steel bar 32, the elbow of the elbow reinforcing steel bar 32 is fixedly bound with a binding steel wire 33, the elbow fracture of the elbow reinforcing steel bar 32 is fixedly welded with a second welding screw 34, the front end and the rear end of the clamping pouring plate 31 are both sprayed with extrusion glue layers 35, and the clamping effect of the clamping pouring plate 31 and the reinforcing pouring plate 21 is improved through the extrusion glue layers 35; one end of the binding steel wire 33 is wound and fixed at the steel body at the bottom side of the elbow steel bar 32, the binding steel wire 33 is of a sliding lock structure, the other end of the binding steel wire 33 is wound around the steel body at the top side of the elbow steel bar 32 and then pulled upwards, the elbow steel bar 32 is straightened through the second welding screw 34 and the reinforcing mesh 4, and the elbow steel bar 32 and the bending steel bar 27 are bound through the lock catch formed by the binding steel wire 33.

In this embodiment:

in the process of splicing the two sets of ALC wallboard bodies 1, a worker clamps the reinforcing pouring plate 21 and the clamping pouring plate 31, at the moment, the elbow reinforcing steel bar 32 enters the inner side of the reinforcing pouring plate 21, the worker can detach the protective plastic piece 252 at the middle side of the first threaded hook 251 and screw the first welding screw 26 into the inner side of the first threaded hook 251, so that the bending reinforcing steel bar 27 can be respectively and spirally installed with the inner sides of the first threaded hook 251 at the front end and the rear end of the first welding screw 26, the bending reinforcing steel bar 27 can pass through the binding steel wire 33 at the elbow of the elbow reinforcing steel bar 32, then the worker can pull the upward end of the binding steel wire 33 through the outer sharp nose pliers, so that the locking formed by the binding steel wire 33 is straightened to bind the elbow reinforcing steel bar 32 and the bending reinforcing steel bar 27, and further the elbow reinforcing steel bar 32 and the bending reinforcing steel bar 27 can form a firm integral frame under the locking effect of the first threaded hook 251.

Embodiment III:

referring to fig. 1 to 9, compared with the first embodiment, the present embodiment of the ALC wall panel for enhancing the connection strength of adjacent formwork units further includes: stretch-proofing layer 5, stretch-proofing layer 5 includes first fiber pouring board 51, the first fiber pouring board 51 that plays stretch-proofing is pour to the interior rear side of ALC wallboard body 1, first fiber pouring board 51 front side is filled and is provided with filling cotton layer 52, first fiber pouring board 51 is pour the aerated concrete layer 53 of increase intensity, utilize aerated concrete layer 53 to strengthen the stretch-proofing effect to first fiber pouring board 51 and second fiber pouring board 56, the spraying of aerated concrete layer 53 front end has bonding sealant 54, bonding sealant 54 front end spraying has thermal-insulated filling layer 55, thermal-insulated filling layer 55 front end has pour second fiber pouring board 56, the fracture phenomenon when ALC wallboard body 1 receives the tensile action is reduced through the stretch-proofing effect of first fiber pouring board 51 and second fiber pouring board 56.

In this embodiment: after binding rigid materials such as the reinforcing mesh 4, the bridging reinforcing steel bars 22 and the like is completed, a first fiber pouring plate 51 and an aerated concrete layer 53 are poured on the bottom layer of the reinforcing mesh 4 in sequence in a pouring mode, and a cotton layer for sound insulation and heat insulation is filled into an inner space formed by pouring the first fiber pouring plate 51 and the aerated concrete layer 53 to form a sound insulation and heat insulation interlayer, namely a filled cotton layer 52; then spraying foaming materials on the surface of the aerated concrete layer 53 to form an adhesive sealant 54, pouring a heat insulation filling layer 55 doped with carbon powder materials on the surface of the adhesive sealant 54 for molding, and finally pouring a second fiber pouring plate 56 doped with glass fiber materials on the surface of the heat insulation filling layer 55, so that cracking of the ALC wallboard body 1 when being subjected to stretching action is reduced by the stretching resistance effect of the first fiber pouring plate 51 and the second fiber pouring plate 56.

The invention provides an ALC wallboard for reinforcing the connection strength of adjacent template units by improving, binding bridging steel bars 22 on the upper side and the lower side of the right end of a steel bar net 4 through steel wires, binding reinforcing transverse bars 23 and reinforcing vertical bars 24 on the right side of the bridging steel bars 22 in sequence, inserting steel wire heads 254, high-strength steel wires 255, welding spots 256 and side pull steel wires 257 on the inner sides of the bridging steel bars 22 and the like, welding into a net, installing a protective plastic piece 252 and a small-diameter plastic piece 253 in a plurality of groups of first screw hooks 251 and second screw hooks 281 respectively, carrying out up-and-down reciprocating displacement on the steel wire net formed by the steel wire heads 254 pulling the high-strength steel wires 255, the welding spots 256 and the side pull steel wires 257 at the space formed by a reinforcing pouring plate 21 and a clamping pouring plate 31, thereby driving cement mortar poured into the space to be fully dispersed, the blank of mortar is reduced, the tops of the reinforcing pouring plate 21 and the clamping pouring plate 31 are relatively closed through the slope angle arranged at the bottom side of the cement plate 283 and the sealant 285 around the cement plate 283, cement mortar is poured into the space formed by the reinforcing pouring plate 21 and the clamping pouring plate 31 through the pouring steel pipe 284, the elbow steel bar 32 is inserted into the inner side of the reinforcing pouring plate 21, the protective plastic piece 252 at the middle side of the first threaded hook 251 is detached, the first welding screw 26 at the front end and the rear end of the bending steel bar 27 is installed with the first threaded hook 251, the bending steel bar 27 can pass through the binding steel wire 33 at the elbow of the elbow steel bar 32, then the upward end of the binding steel wire 33 is pulled up through pulling, so that the elbow steel bar 32 and the bending steel bar 27 are bound by the binding steel wire 33, and then the elbow reinforcing steel bar 32 and the bending reinforcing steel bar 27 can form a firm integral frame under the locking action of the first threaded hooks 251, the cotton layer for sound insulation and heat insulation is filled into the inner space formed by pouring the first fiber pouring plate 51 and the aerated concrete layer 53 to form the filling cotton layer 52, then the heat insulation filling layer 55 doped with carbon powder material is poured on the surface of the adhesive sealant 54 for molding, the adhesive sealant 54, the filling cotton layer 52 and the heat insulation filling layer 55 provide heat insulation and sound insulation effects for the whole ALC wallboard body 1, and the stretching resistance effects of the first fiber pouring plate 51 and the second fiber pouring plate 56 reduce the cracking phenomenon of the ALC wallboard body 1 when the ALC wallboard body 1 is subjected to stretching actions.

The basic principle and main characteristics of the invention and the advantages of the invention are shown and described above, standard parts used by the invention can be purchased from market, special-shaped parts can be customized according to the description of the specification and the drawings, the specific connection modes of the parts adopt conventional means such as mature bolt rivets and welding in the prior art, the machinery, the parts and the equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that the description is omitted.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a strengthen adjacent template unit joint strength's ALC wallboard, includes ALC wallboard body (1), both ends are provided with first connection structure (2) and second connection structure (3) that play the connection effect about ALC wallboard body (1) respectively, the inside reinforcing bar net (4) and the stretch-proofing layer (5) of pouring that play the reinforcement effect that are equipped with of ALC wallboard body (1);

the first connection structure (2) comprises:

the reinforced pouring plate (21) is arranged on the front side and the rear side of the right end of the ALC wallboard body (1);

the bridging reinforcement (22) is fixedly bound to the right end of the reinforcement mesh (4) in the ALC wallboard body (1);

the right end of the bridging steel bar (22) is fixedly bound with the reinforcing transverse bar (23), and the reinforcing transverse bar (23) can provide a transverse stretching-resistant effect for the bridging steel bar (22); the right end of the reinforcing transverse rib (23) is fixedly bound with the reinforcing vertical rib (24); the reinforcing fixing piece (25) is welded and fixed at the bottom of the reinforcing transverse rib (23); the first welding screw (26) is arranged below the reinforcing transverse rib (23); the first welding screw rods (26) are welded and fixed at the front end and the rear end of the bending steel bars (27); the pouring clamping piece (28) is arranged on the top side of the reinforcing pouring plate (21);

the reinforcement firmware (25) comprises: the middle side and the left side of the bottom of the reinforcing transverse rib (23) are fixedly welded with the first threaded hooks (251); the inner side of the first threaded hook (251) at the middle side of the bottom of the reinforcing transverse rib (23) is in threaded connection with a protective plastic part (252) playing a role of pouring protection; the small-diameter plastic part (253) is connected with the inner side of the first threaded hook (251) at the left side of the bottom of the reinforcing transverse rib (23) in a threaded manner; and the steel wire head (254) is arranged in the small-diameter plastic part (253) in a sliding manner, and the steel wire head (254) is arranged in the small-diameter plastic part.

2. An ALC wall panel for reinforcing the joint strength of adjacent form units as set forth in claim 1, wherein: the reinforcement firmware (25) further comprises: the high-strength steel wire (255) is welded and fixed at the bottom of the steel wire head (254); a welding point (256), wherein the welding point (256) is arranged on the outer side of the high-strength steel wire (255) through a welding rod; and the side pulling steel wire (257) is welded and fixed at the rear end of the welding spot (256), and the side pulling steel wire (257) plays a role in resisting side pulling.

3. An ALC wall panel for reinforcing the joint strength of adjacent form units as set forth in claim 1, wherein: two groups of first threaded hooks (251) are fixedly welded at the bottoms of two groups of reinforcing transverse ribs (23) on the upper side and the lower side of the right end of the ALC wallboard body (1), and the inner diameter of each first threaded hook (251) is the same as the diameter of a first welding screw (26).

4. An ALC wall panel for reinforcing the joint strength of adjacent formwork units as set forth in claim 2, wherein: the high-strength steel wires (255), welding spots (256) and side-pull steel wires (257) form a square steel wire mesh, and the side-pull steel wires (257) and the reinforcing transverse ribs (23) are distributed in an up-down staggered mode.

5. An ALC wall panel for reinforcing the joint strength of adjacent form units as set forth in claim 1, wherein: the pouring clip (28) comprises:

the second thread hooks (281) are welded and fixed on the middle sides of the tops of the reinforcing transverse ribs (23);

the rear end of the second threaded hook (281) is inserted into the threaded groove (282) through a screw thread; cement plates (283), the screw grooves (282) being provided on both front and rear sides of the cement plates (283); pouring a steel pipe (284), wherein the pouring steel pipe (284) playing a role in pouring is fixed in the through hole in the cement plate (283); and the periphery of the outer side of the cement plate (283) is adhered with the sealant (285).

6. The ALC wall panel of claim 5, wherein the ALC wall panel is adapted to enhance the strength of the adjacent formwork units: the cement board (283) is internally provided with a reinforcing mesh for reinforcement, the reinforcing mesh is fixedly bound with the pouring steel pipe (284), the left end and the right end of the bottom of the cement board (283) are respectively provided with a slope, and the bottoms of the slopes are embedded with openings on the upper side and the lower side of the reinforcement pouring board (21).

7. An ALC wall panel for reinforcing the joint strength of adjacent form units as set forth in claim 1, wherein: the second connection structure (3) comprises:

the clamping pouring plate (31) is used for pouring the clamping pouring plate (31) which plays a role in clamping on the middle side of the left end of the ALC wallboard body (1);

the left end of the reinforcing mesh (4) in the ALC wallboard body (1) is fixedly bound with the elbow reinforcing steel bar (32); the binding steel wires (33) are bound and fixed at the elbow positions of the elbow reinforcing steel bars (32); the second welding screw rod (34) is fixedly welded at the elbow fracture of the elbow reinforcing steel bar (32); and the extrusion adhesive layers (35) are sprayed on the front end and the rear end of the clamping pouring plate (31).

8. The ALC wall panel of claim 7, wherein the ALC wall panel has enhanced strength of connection between adjacent formwork units: one end of the binding steel wire (33) is wound and fixed at the steel body of the bottom side of the elbow steel bar (32), the binding steel wire (33) is of a sliding lock structure, the other end of the binding steel wire (33) is wound around the steel body of the top side of the elbow steel bar (32) and then pulled out upwards, and the elbow steel bar (32) and the reinforcing mesh (4) are welded through a second welding screw rod (34).

9. An ALC wall panel for reinforcing the joint strength of adjacent form units as set forth in claim 1, wherein: the stretch resistant pouring layer (5) comprises:

the first fiber pouring plate (51) is used for pouring the first fiber pouring plate (51) with stretching resistance on the inner rear side of the ALC wallboard body (1);

a filling cotton layer (52), wherein the filling cotton layer (52) is filled at the front side of the first fiber pouring plate (51); an aerated concrete layer (53), the first fiber pouring plate (51) is poured with the aerated concrete layer (53) for increasing strength; the front end of the aerated concrete layer (53) is sprayed with adhesive sealant (54); the front end of the adhesive sealant (54) is sprayed with the heat insulation filling layer (55); and a second fiber pouring plate (56), wherein the second fiber pouring plate (56) is poured at the front end of the heat insulation filling layer (55).