CN116357009A

CN116357009A - ALC wallboard capable of being spliced rapidly

Info

Publication number: CN116357009A
Application number: CN202310390806.5A
Authority: CN
Inventors: 石桂花
Original assignee: Shanqian Energy Saving Technology Shanghai Co ltd
Current assignee: Shanqian Energy Saving Technology Shanghai Co ltd
Priority date: 2023-04-13
Filing date: 2023-04-13
Publication date: 2023-06-30
Anticipated expiration: 2043-04-13
Also published as: CN116357009B

Abstract

The invention discloses an ALC wallboard capable of being quickly spliced, which relates to the technical field of prefabricated wallboards and comprises an ALC wallboard, wherein decorative plates are fixedly adhered to the front end and the rear end of the ALC wallboard, splice plates are fixedly arranged at the left end and the right end of the ALC wallboard through pin pins, a splicing mechanism is arranged in the ALC wallboard, a plurality of groups of transverse reinforcing steel bars are quickly spliced into a net through a clamping assembly, an interlayer assembly is clamped and fixed in the ALC wallboard through thread adjustment between a bridging screw and a thread sleeve, the clamping limiting effect on the functional layer in the ALC wallboard is improved, the interlayer assembly is arranged in the ALC wallboard, supporting actions are provided for two groups of light wallboards in the inner side of a coarse-hole net cloth through springs at the middle sides of two groups of extrusion plates, and the extrusion phenomenon of the light wallboards to the filling functional layer in a filling cavity is reduced, so that the light wallboards and the ALC wallboard can form a whole, and have good sound insulation performance and heat insulation performance.

Description

ALC wallboard capable of being spliced rapidly

Technical Field

The invention relates to the technical field of prefabricated wallboards, in particular to an ALC wallboard capable of being spliced rapidly.

Background

ALC is one of high-performance autoclaved aerated concrete (ALC); the ALC plate is a porous concrete forming plate (reinforced by treated reinforcing steel bars) which is formed by taking fly ash (or silica sand), cement, lime and the like as main raw materials and curing the fly ash (or silica sand), cement, lime and the like through high-pressure steam; the ALC plate can be used as a wall material and a roof board, and is a novel building material with excellent performance.

The existing spliced wallboard is spliced by adopting the way that the bulges are matched with the grooves, the mode has high precision requirement, and enough space is needed to insert the bulges into the grooves, so that the splicing is still inconvenient and the disassembly is difficult;

the traditional steel bar connection mostly adopts the screw thread of turning out to carry out threaded connection, and this mode needs to eliminate the rib on surface and carry out the screw thread processing, consequently leads to the reinforcing bar diameter reduction, and tensile and impact resistance's bulk strength reduces, breaks very easily when receiving big pulling force and strong impact, and prior art is because the material is prescribe a limit to simultaneously, also lacks the permeability resistance ability when lacking sound insulation ability to it is inconvenient when assembling.

Disclosure of Invention

Accordingly, in order to solve the above-mentioned shortcomings, the present invention herein provides an ALC wall panel that can be quickly spliced.

The invention is realized in such a way, an ALC wallboard capable of being quickly spliced is constructed, the device comprises an ALC wallboard, decorative plates are fixedly adhered to the front end and the rear end of the ALC wallboard, and splice plates are fixedly arranged at the left end and the right end of the ALC wallboard through pin nails;

the method is characterized in that: the splicing mechanism is arranged inside the ALC wallboard;

the splicing mechanism comprises an interlayer component, and the inside of the ALC wallboard is provided with the interlayer component; the front end of the interlayer assembly is provided with a bridging screw rod in a threaded manner; the bridging screw threads are sleeved on the inner side wall of the threaded sleeve; the threaded sleeves are fixedly inserted into the front side and the rear side of the clamping assembly; the left side and the right side of the clamping assembly are fixedly connected with transverse steel bars in an inserting mode; the welding screw rods are fixedly welded on the left side and the right side of the transverse steel bar; and the outer side of the welding screw rod is sleeved with a splicing piece which plays a role in splicing.

Preferably, the interlayer assembly comprises an extrusion plate, and the rear end of the bridging screw is arranged at the central screw hole of the extrusion plate in a threaded manner; the grooves on the periphery of the extrusion plate are sleeved and fixed with locking sleeve rods; the spring is arranged on the locking sleeve rod body in a sliding manner; the extrusion plates are respectively contacted with the front side and the rear side of the coarse hole mesh cloth; the front side and the rear side of the inner side of the coarse mesh are respectively provided with a light wallboard, and the springs are respectively contacted with the side surfaces of the two groups of light wallboards; and the coarse pore mesh cloth and two groups of light wall plates inside the coarse pore mesh cloth form a filling cavity.

Preferably, centrifugal stripping cellucotton for heat insulation is filled at the inner side of the filling cavity, and the coarse pore mesh forms a full-wrapping shape to wrap the light wallboard and the filling cavity.

Preferably, the clamping assembly includes: the threaded sleeve is fixedly welded at the middle side through hole of the clamping plate; the clamping plate is welded and fixed on the bottom side of the locking sleeve; the clamping block is fixedly welded at the bottom of the clamping plate and has a limiting effect.

Preferably, the clamping assembly further comprises: a spot welding port for spot welding fixation is arranged on the outer side of the locking sleeve; the clamping groove plate is fixedly welded on the top side of the locking sleeve, and is matched with the clamping plate; the plastic piece is elastically arranged on the inner wall of the clamping groove at the top side of the clamping groove plate.

Preferably, the splicing piece comprises a first bridging sleeve, and the outer side of a welding screw rod at the right end of the transverse steel bar is sleeved and fixed with the first bridging sleeve; the permanent magnet is welded and fixed at the right end of the first bridging sleeve; the right end face of the permanent magnet is provided with a snowflake notch which plays a role in clamping; the engaging blocks are arranged on the inner groove wall of the snowflake notch in a sliding manner; the fit block is fixedly arranged at the left end of the high-strength sleeve through a bolt; the high-strength sleeve is welded and fixed on the left end wall of the second bridging sleeve; and the engaging pieces are arranged in the first bridging sleeve and the second bridging sleeve.

Preferably, the permanent magnet is specifically composed of graphene and neodymium iron boron in equal proportion, and an annular groove with the outer diameter matched with the large diameter of the fit block is formed in the bottom side of the snowflake notch in the permanent magnet.

Preferably, the engagement member includes: the inner walls of the first bridging sleeve and the second bridging sleeve are respectively provided with an inner screw groove matched with the welding screw rod; and the left end of the outer cambered surface of the first bridging sleeve and the right end of the outer cambered surface of the second bridging sleeve are welded and fixed with external threads.

Preferably, the engaging member further comprises: the limiting blocks are pressed and combined on the left wall in the first bridging sleeve and the right wall in the second bridging sleeve, and are used for limiting the welding screw; the extrusion rings are arranged at the left wall in the first bridging sleeve and the right wall step groove in the second bridging sleeve in a sliding manner and used for extruding the limiting blocks; the thread bush is sleeved on the outer side of the external thread.

Preferably, the openings at the left end of the first bridging sleeve and the right end of the second bridging sleeve are in a ladder shape, eight groups of limiting blocks are arranged at the openings, and the contact positions of the limiting blocks and the extrusion rings are in a bevel design.

The invention has the following advantages: the invention provides an ALC wallboard capable of being spliced rapidly through improvement, and compared with the same type of equipment, the ALC wallboard has the following improvement:

according to the ALC wallboard capable of being quickly spliced, the splicing mechanism is arranged inside the ALC wallboard, a plurality of groups of transverse steel bars are quickly spliced into a net through the clamping assembly, the interlayer assembly is clamped and fixed inside the ALC wallboard through thread adjustment between the bridging screw and the threaded sleeve, and the clamping and limiting effects on functional layers inside the ALC wallboard are improved.

According to the ALC wallboard capable of being spliced rapidly, the interlayer assembly is arranged in the ALC wallboard, the springs at the middle sides of the two groups of extrusion plates provide supporting actions for the two groups of light wallboards at the inner sides of the coarse-hole mesh cloth, extrusion phenomena of the light wallboards to filling functional layers in the filling cavities are reduced, and therefore the light wallboards can be integrated with the ALC wallboard into a whole, and the ALC wallboard has good sound insulation performance and impermeability and better heat preservation and insulation performance.

According to the ALC wallboard capable of being quickly spliced, the clamping assembly is arranged on the front side of the interlayer assembly, the plurality of groups of transverse reinforcing steel bars and the interlayer assembly are spliced into a net through clamping actions between the clamping plates and the clamping groove plates on the upper side and the lower side of the locking sleeve, and the transverse reinforcing steel bars are fixed on the inner side of the locking sleeve by spot welding through the spot welding openings on the locking sleeve, so that the stability between the transverse reinforcing steel bars and the interlayer assembly can be ensured, the integral shearing resistance of the ALC wallboard is ensured, and the assembly and fixation requirements are met.

According to the ALC wallboard capable of being quickly spliced, the splicing piece is arranged on the outer side of the welding screw, the inner screw grooves on the inner sides of the first bridging sleeve and the second bridging sleeve are spliced with the welding screw, the compression ring is rotationally extruded through the threaded sleeve to enable the limiting block to rotationally engage with the outer side lines of the welding screw, the first bridging sleeve and the second bridging sleeve are quickly clamped by quick clamping between the snowflake notch and the engagement block, the rotation angle between the first bridging sleeve and the second bridging sleeve is reduced under the adsorption effect of the permanent magnet, and the quick splicing and clamping effect on two groups of welding screws is improved.

Drawings

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

FIG. 2 is a schematic perspective cross-sectional structure of the ALC wall panel and splicing mechanism of the present invention;

FIG. 3 is a schematic perspective view of a splice mechanism according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A in accordance with the present invention;

FIG. 5 is a schematic perspective cross-sectional view of the sandwich assembly of the present invention;

FIG. 6 is a schematic view of a three-dimensional exploded view of a clip assembly according to the present invention;

FIG. 7 is a schematic perspective cross-sectional view of a splice of the present invention;

fig. 8 is an enlarged schematic view of the structure of fig. 7B according to the present invention.

Wherein: ALC wallboard-1, decorative board-2, splicing mechanism-3, splice plate-4, sandwich component-31, bridging screw-32, threaded sleeve-33, clamping component-34, transverse reinforcement-35, welding screw-36, splice-37, squeeze plate-311, locking sleeve-312, spring-313, coarse-bore mesh-314, lightweight wallboard-315, filling cavity-316, clamping plate-341, locking sleeve-342, clamping block-343, spot welding port-344, clamping groove plate-345, plastic piece-346, first bridging sleeve-371, permanent magnet-372, snowflake notch-373, fitting block-374, high-strength sleeve-375, second bridging sleeve-376, snap-377, inner thread groove-3771, outer thread-3772, stopper-3773, squeeze ring-3774, threaded sleeve-3775.

Detailed Description

The principles and features of the present invention are described below with reference to fig. 1-8, 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 8, the quick-spliced ALC wallboard comprises an ALC wallboard 1, wherein decorative plates 2 are fixedly adhered to the front end and the rear end of the ALC wallboard 1, and splice plates 4 are fixedly arranged at the left end and the right end of the ALC wallboard 1 through pin nails; the splicing mechanism 3 is arranged inside the ALC wallboard 1;

the splicing mechanism 3 comprises an interlayer assembly 31, wherein the interlayer assembly 31 is arranged in the ALC wallboard 1, a bridging screw rod 32 is arranged at the front end of the interlayer assembly 31 in a threaded manner, the bridging screw rod 32 is in threaded connection with the inner side wall of a threaded sleeve 33, the threaded sleeve 33 is used for providing clamping and limiting effects for the bridging screw rod 32, the threaded sleeve 33 is fixedly connected with the front side and the rear side of a clamping assembly 34 in a spliced manner, transverse reinforcing steel bars 35 are fixedly connected with the left side and the right side of the clamping assembly 34 in a spliced manner, limiting effects are provided for the transverse reinforcing steel bars 35 through the clamping assembly 34, welding screw rods 36 are fixedly welded on the left side and the right side of the transverse reinforcing steel bars 35, the welding screw rods 36 are used for providing connection and stretching-resistant effects for the left side and the right side of the transverse reinforcing steel bars 35, and splicing pieces 37 playing a splicing role are sleeved on the outer side of the welding screw rods 36;

the sandwich assembly 31 comprises an extrusion plate 311, the rear end of a bridging screw 32 is arranged at a central screw hole of the extrusion plate 311 in a threaded manner, locking sleeve rods 312 are sleeved and fixed at the peripheral notches of the extrusion plate 311, a limiting clamping effect is provided for the extrusion plate 311 through the locking effect of a plurality of groups of locking sleeve rods 312, springs 313 are slidably arranged on rod bodies of the locking sleeve rods 312, the extrusion plate 311 is respectively contacted with the front side and the rear side of a coarse pore mesh 314, the extrusion plate 311 is utilized to provide a clamping supporting effect for the coarse pore mesh 314, light wall plates 315 are respectively arranged on the front side and the rear side of the inner side of the coarse pore mesh 314, and the springs 313 are respectively contacted with the side surfaces of the two groups of light wall plates 315;

the coarse mesh 314 and two sets of lightweight wall panels 315 therein form a filling cavity 316; the centrifugal stripping cellucotton for heat insulation is filled in the inner side of the filling cavity 316, the coarse pore mesh 314 forms a full-wrapping shape to wrap the light wallboard 315 and the filling cavity 316, and the coarse pore mesh 314 is utilized to provide a wrapping limiting effect for the light wallboard 315 and the filling cavity 316.

The working principle of the rapidly spliced ALC wallboard based on the embodiment 1 is as follows:

firstly, in the splicing process, a worker can respectively screw the bridging screw 32 into the threaded sleeve 33 and the side screw holes in the clamping plate 341, so that the interlayer assembly 31 is clamped and fixed inside the ALC wallboard 1, and then a plurality of groups of transverse steel bars 35 and the interlayer assembly 31 are quickly spliced into a net through the clamping assembly 34, so that the clamping and limiting effects on the inner functional layers of the ALC wallboard 1 are improved;

secondly, the springs 313 on the middle sides of the two groups of extrusion plates 311 provide supporting actions for the two groups of light wallboards 315 on the inner sides of the coarse mesh cloth 314, and centrifugally stripped cellucotton is filled into the filling cavity 316, so that the extrusion phenomenon of the light wallboards 315 on filling functional layers in the filling cavity 316 is reduced by the springs 313, the light wallboards 315 can be integrated with the ALC wallboard 1, and the centrifugally stripped cellucotton of the filling cavity 316 is utilized to have good sound insulation performance and impermeability, and better heat preservation and insulation performance.

Embodiment two:

referring to fig. 1-8, compared with the first embodiment, the ALC wall panel of the present invention further includes a clamping assembly 34, the clamping assembly 34 includes a clamping plate 341, the threaded sleeve 33 is fixedly welded at a middle through hole of the clamping plate 341, the clamping plate 341 is used to provide a supporting and limiting effect for the threaded sleeve 33, the clamping plate 341 is fixedly welded at a bottom side of the locking sleeve 342, a clamping block 343 having a limiting effect is fixedly welded at a bottom of the clamping plate 341, the clamping block 343 is used to provide a clamping and limiting effect for the clamping plate 341, a spot welding opening 344 for spot welding is provided at an outer side of the locking sleeve 342, a clamping groove plate 345 matched with the clamping plate 341 is fixedly welded at a top side of the locking sleeve 342, a plastic member 346 is elastically provided at an inner wall of a clamping groove at a top side of the clamping groove plate 345, and the quick splicing effect between the clamping plate 341 and the clamping groove plate 345 is improved by using the plastic member 346 and the clamping block 343.

In this embodiment:

first, the staff can drive the clamping block 343 and the plastic piece 346 to carry out clamping action through the clamping plates 341 and the clamping groove plates 345 on the upper side and the lower side of the locking sleeve 342, so that a plurality of groups of transverse steel bars 35 and the interlayer assembly 31 are spliced into a net through the clamping action of the clamping blocks;

secondly, then utilize the spot welding mouth 344 on the locking sleeve 342 to fix the transverse reinforcement 35 spot welding in the locking sleeve 342 inboard, and then can guarantee the stability between transverse reinforcement 35 and the intermediate layer subassembly 31, guarantee the whole shear resistance of ALC wallboard 1, satisfy the fixed needs of assembly.

Embodiment III:

referring to fig. 1-8, compared with the first embodiment, the present invention further includes a splicing member 37, the splicing member 37 includes a first bridging sleeve 371, a first bridging sleeve 371 is sleeved and fixed on the outer side of a welding screw 36 at the right end of a transverse reinforcement 35, a permanent magnet 372 is welded and fixed at the right end of the first bridging sleeve 371 by using the first bridging sleeve 371 to provide a splicing effect for the welding screw 36, a snowflake slot 373 with a clamping effect is provided at the right end face of the permanent magnet 372, a clamping block 374 is slidably provided at the inner wall of the snowflake slot 373, a clamping effect is provided for the first bridging sleeve 371 and the second bridging sleeve 376 by utilizing a clamping position between the snowflake slot 373 and the clamping block 374, the clamping block 374 is fixedly mounted at the left end of the high strength sleeve 375 by bolts, the high strength sleeve 375 is welded and fixed at the left end wall of the second bridging sleeve 376, and a clamping member 377 is provided inside the first bridging sleeve 371 and the second bridging sleeve 376;

the permanent magnet 372 is specifically composed of graphene and neodymium iron boron in equal proportion, an annular groove with the outer diameter matched with the large diameter of the fit block 374 is formed in the bottom side of the snowflake notch 373 in the permanent magnet 372, the overall strength of the permanent magnet 372 is improved, and the stretch-proof effect of adjacent ALC wallboards is enhanced;

the engagement member 377 comprises an inner screw groove 3771, inner screw grooves 3771 matched with the welding screw 36 are formed in the inner walls of the first bridging sleeve 371 and the second bridging sleeve 376, external threads 3772 are welded and fixed at the left end of the external cambered surface of the first bridging sleeve 371 and the right end of the external cambered surface of the second bridging sleeve 376, the external threads 3772 are utilized to provide a limit installation effect for the threaded sleeve 3775, and a limit block 3773 which has a limit effect on the welding screw 36 is pressed and fixed at the left wall in the first bridging sleeve 371 and the right wall in the second bridging sleeve 376;

an extrusion ring 3774 for extruding the limiting block 3773 is slidably arranged at the step groove openings of the left wall in the first bridging sleeve 371 and the right wall in the second bridging sleeve 376, and a threaded sleeve 3775 is sleeved on the outer side of the external thread 3772; the openings at the left end of the first bridging sleeve 371 and the right end of the second bridging sleeve 376 are in a step shape, and eight groups of limiting blocks 3773 are arranged at the openings, the contact positions of the limiting blocks 3773 and the extrusion rings 3774 are in a bevel design, and the extrusion rings 3774 are utilized to provide an extrusion effect for the limiting blocks 3773.

In this embodiment:

firstly, a worker splices the inner screw grooves 3771 on the inner sides of the first bridging sleeve 371 and the second bridging sleeve 376 with the welding screw 36, so that the first bridging sleeve 371 and the second bridging sleeve 376 are respectively arranged on the left side and the right side of the same ALC wallboard 1, after the welding screw 36 is screwed into the first bridging sleeve 371 and the second bridging sleeve 376, the screw sleeve 3775 can be rotationally pressed into the external screw threads 3772 on the outer sides of the first bridging sleeve 371 and the second bridging sleeve 376 at the moment, and the screw sleeve 3775 can be displaced and extruded to enable the extrusion ring 3774 to extrude the limiting block 3773 to rotate, so that deformation is carried out to engage with the outer lines of the welding screw 36;

second, then in the splicing process, the snowflake notch 373 and the engaging block 374 can be used to quickly engage the first bridging sleeve 371 with the second bridging sleeve 376, and reduce the rotation phenomenon after the first bridging sleeve 371 and the second bridging sleeve 376 are spliced under the adsorption action of the permanent magnet 372, which is beneficial to improving the quick splicing and engaging effect between the two sets of welding screws 36.

According to the invention, by improving and providing the ALC wallboard capable of being quickly spliced, the splicing mechanism 3 is arranged inside the ALC wallboard 1, a plurality of groups of transverse steel bars 35 are quickly spliced into a net through the clamping assembly 34, the interlayer assembly 31 is clamped and fixed inside the ALC wallboard 1 through the thread adjustment between the bridging screw 32 and the thread sleeve 33, and the clamping and limiting effects on the functional layers inside the ALC wallboard 1 are improved; the interlayer assembly 31 is arranged in the ALC wallboard 1, and the springs 313 on the middle sides of the two groups of extrusion plates 311 provide supporting actions for the two groups of light wallboards 315 on the inner sides of the coarse mesh 314, so that the extrusion phenomenon of the light wallboards 315 on filling functional layers in the filling cavities 316 is reduced, and the light wallboards 315 can form a whole with the ALC wallboard 1, thereby having good sound insulation performance and impermeability, and better heat preservation and insulation performance; the clamping assembly 34 is arranged on the front side of the interlayer assembly 31, a plurality of groups of transverse steel bars 35 and the interlayer assembly 31 are spliced into a net through clamping actions between clamping plates 341 and clamping groove plates 345 on the upper side and the lower side of the locking sleeve 342, and the transverse steel bars 35 are fixed on the inner side of the locking sleeve 342 by spot welding through spot welding openings 344 on the locking sleeve 342, so that the stability between the transverse steel bars 35 and the interlayer assembly 31 can be ensured, the integral shearing resistance of the ALC wallboard 1 is ensured, and the assembly and fixation requirements are met; the splicing piece 37 is arranged on the outer side of the welding screw 36, the inner screw grooves 3771 on the inner sides of the first bridging sleeve 371 and the second bridging sleeve 376 are spliced with the welding screw 36, the limiting block 3773 is rotated to engage with the outer side lines of the welding screw 36 through the rotating extrusion ring 3774 of the threaded sleeve 3775, the first bridging sleeve 371 and the second bridging sleeve 376 are rapidly engaged by rapid engagement between the snowflake notch 373 and the engaging block 374, the rotation angle between the first bridging sleeve 371 and the second bridging sleeve 376 is reduced under the adsorption action of the permanent magnet 372, and the rapid splicing and engagement effect on two groups of welding screws 36 is improved.

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 but ALC wallboard of quick concatenation, includes ALC wallboard (1), both ends all glue and be fixed with decorative board (2) around ALC wallboard (1), both ends are all fixed with splice plate (4) through the nail round pin about ALC wallboard (1);

the method is characterized in that: the splicing mechanism (3) is arranged inside the ALC wallboard (1);

the splicing mechanism (3) comprises:

the ALC wallboard (1) is internally provided with the interlayer component (31);

the bridging screw rod (32) is arranged at the front end of the interlayer assembly (31) in a threaded manner, and the bridging screw rod (32) is arranged at the front end of the interlayer assembly; the bridging screw (32) is in threaded sleeve connection with the inner side wall of the threaded sleeve (33); the threaded sleeves (33) are fixedly inserted into the front side and the rear side of the clamping assembly (34); the transverse steel bars (35) are fixedly inserted into the left side and the right side of the clamping assembly (34); the welding screw rods (36) are welded and fixed on the left side and the right side of the transverse steel bars (35); and the splicing piece (37) is sleeved on the outer side of the welding screw rod (36), and the splicing piece (37) plays a role in splicing.

2. The rapidly-spliced ALC wall panel of claim 1, wherein: the sandwich assembly (31) comprises:

the rear end of the bridging screw rod (32) is arranged at the central screw hole of the extrusion plate (311) in a threaded manner;

the locking sleeve rods (312) are sleeved and fixed on the notches on the periphery of the extrusion plate (311);

the spring (313) is arranged on the rod body of the locking sleeve rod (312) in a sliding manner; the extrusion plates (311) are respectively contacted with the front side and the rear side of the coarse hole mesh cloth (314); the light wall plates (315) are respectively arranged on the front side and the rear side of the inner side of the coarse mesh cloth (314), and the springs (313) are respectively contacted with the side surfaces of the two groups of light wall plates (315); and the coarse mesh cloth (314) and two groups of lightweight wallboards (315) inside the coarse mesh cloth form a filling cavity (316).

3. The rapidly-spliced ALC wall panel of claim 2, wherein: centrifugal stripping cellucotton for heat insulation is filled at the inner side of the filling cavity (316), and the coarse mesh (314) forms a full-wrapping shape to wrap the light wallboard (315) and the filling cavity (316).

4. The rapidly-spliced ALC wall panel of claim 1, wherein: the clamping assembly (34) comprises: the threaded sleeve (33) is fixedly welded at a middle side through hole of the clamping plate (341); the clamping plate (341) is welded and fixed on the bottom side of the locking sleeve (342); the clamping block (343) is fixedly welded at the bottom of the clamping plate (341) and has a limiting effect.

5. The rapidly-spliced ALC wall panel of claim 4, wherein: the clamping assembly (34) further comprises: a spot welding port (344) is arranged at the outer side of the locking sleeve (342) and is used for spot welding and fixing; the clamping groove plate (345) is welded and fixed on the top side of the locking sleeve (342), and the clamping groove plate (345) is matched with the clamping plate (341); and the plastic piece (346) is elastically arranged on the inner wall of the clamping groove at the top side of the clamping groove plate (345).

6. The rapidly-spliced ALC wall panel of claim 1, wherein: the splice (37) comprises:

the outer side of a welding screw rod (36) at the right end of the transverse reinforcing steel bar (35) is sleeved and fixed with the first bridging sleeve (371);

the permanent magnet (372) is welded and fixed at the right end of the first bridging sleeve (371);

a snowflake notch (373) which plays a role in clamping is arranged on the right end surface of the permanent magnet (372); an engagement block (374), wherein the engagement block (374) is slidably provided on the inner wall of the snowflake slot (373); the fit block (374) is fixedly arranged at the left end of the high-strength sleeve (375) through a bolt; a second bridging sleeve (376), the high strength sleeve (375) being welded to the left end wall of the second bridging sleeve (376); and the inside of the first bridging sleeve (371) and the inside of the second bridging sleeve (376) are respectively provided with a snap-in piece (377).

7. The rapidly-spliced ALC wall panel of claim 6, wherein: the permanent magnet (372) is specifically composed of graphene and neodymium iron boron in equal proportion, and an annular groove with the outer diameter matched with the large diameter of the fit block (374) is formed in the bottom side of a snowflake notch (373) in the permanent magnet (372).

8. The rapidly-spliced ALC wall panel of claim 6, wherein: the bite piece (377) includes: the inner walls of the first bridging sleeve (371) and the second bridging sleeve (376) are respectively provided with an inner screw groove (3771) matched with the welding screw (36); external screw thread (3772), first bridging sleeve (371) extrados left end and second bridging sleeve (376) extrados right-hand member all welded fastening have external screw thread (3772).

9. The rapidly-spliced ALC wall panel of claim 8, wherein: the bite piece (377) further includes: the limiting block (3773) is characterized in that a limiting block (3773) which has a limiting effect on the welding screw (36) is pressed and combined on the left wall in the first bridging sleeve (371) and the right wall in the second bridging sleeve (376); the extrusion ring (3774) is arranged at the step groove opening of the left wall in the first bridging sleeve (371) and the right wall in the second bridging sleeve (376) in a sliding manner, and the extrusion ring (3774) has an extrusion effect on the limiting block (3773); and the outer side of the external thread (3772) is in threaded sleeve connection with the threaded sleeve (3775).

10. The rapidly-spliced ALC wall panel of claim 6, wherein: the opening parts of the left end of the first bridging sleeve (371) and the right end of the second bridging sleeve (376) are in a ladder shape, eight groups of limiting blocks (3773) are arranged at the opening parts, and the contact parts of the limiting blocks (3773) and the extrusion rings (3774) are in a bevel design.