CN115434449B - Assembled wall for building and processing method thereof - Google Patents

Abstract

The invention discloses an assembled wall for a building and a processing method thereof, wherein the assembled wall comprises a wallboard, an X-shaped support, a connecting assembly and a sealing plate, the connecting assembly comprises a connector A and a connector B, the wallboards are in sliding fit with the connector A and the connector B, the two wallboards are connected with the connector A and the connector B through a limiting assembly, a limiting column is fixedly connected to the sealing plate, limiting holes A in sliding fit with the limiting column are formed in the X-shaped support, the connector A and the connector B, the sealing plate is connected with the X-shaped support, the connector A, the connector B and the two wallboards in a disassembling mode through bolt assemblies, and flexible filling bodies are filled in gaps among the X-shaped support, the wallboard, the connector A, the connector B and the sealing plate; the wall body can be assembled quickly, and the two wall boards are connected through the X-shaped support, so that the two wall boards can effectively bear external pressure and disperse the pressure.

Description

Assembled wall for building and processing method thereof

Technical Field

The invention belongs to the technical field of assembly type buildings, and particularly relates to an assembly type wall for a building and a processing method thereof.

Background

The assembled building is formed by transferring a large amount of field operation work in a traditional building mode to a factory, processing and manufacturing building components and accessories in the factory, transporting to a building construction site, and assembling and installing the building on site through a reliable connection mode, wherein the assembled building wall is used for assembling building walls.

The conventional assembled wall body is generally filled with heat insulation materials or sound insulation materials between the wall boards, and then the wall boards are assembled and packaged by the sealing boards, and although the wall body is enabled to have heat insulation and sound insulation effects in the mode, the wall body is not provided with considerable strength to support the wall body when the wall body is subjected to external pressure, and collapse easily occurs.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an assembled wall body for a building and a processing method thereof, which solve the problems.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides an assembled wall for building, includes wallboard, X shape support, coupling assembling and shrouding, coupling assembling includes connector A and connector B, two the wallboard all with connector A and connector B sliding fit, two the wallboard passes through spacing subassembly and is connected with connector A and connector B, fixedly connected with spacing post on the shrouding, X shape support, connector A and connector B all offered with spacing post sliding fit's spacing hole A, the shrouding passes through bolt assembly and X shape support, connector A, connector B and two wallboards dismantles to be connected, X shape support is located between two wallboards and with wallboard sliding fit, X shape support and wallboard, connector A, connector B and the space intussuseption between the connector B is filled with flexible filler.

Based on the technical scheme, the invention also provides the following optional technical schemes:

the technical scheme is as follows: bolts in the bolt assemblies for connecting the sealing plate with the connector A and the connector B penetrate through the limit columns and are in threaded fit with the connector A and the connector B.

The technical scheme is as follows: the limiting assembly comprises a wedge-shaped sliding block, an elastic piece B and a through hole, wherein the two wedge-shaped sliding blocks are respectively in sliding fit with a connector A and a connector B, the connector A and the connector B are fixedly connected with the wedge-shaped sliding block through the elastic piece B, the through hole is formed in the connector A and the connector B, and the wedge-shaped sliding block is in sliding fit with the limiting hole B formed in the wallboard.

The processing method based on the fabricated wall for the building comprises the following steps of:

s1: cutting and shaping the plate by using a laser cutting device to form a wallboard;

s2: forming an X-shaped support by welding;

s3: cutting the square packaging material by using a linear cutting device to form a connector A, a connector B and a wedge-shaped sliding block;

s4: the corresponding wedge-shaped sliding blocks and the elastic piece B are respectively arranged in the connector A and the connector B;

s5: performing grinding and polishing treatment on the parts mentioned in S to S by using a grinding and polishing device;

s6: the wallboard is assembled to the connector A and the connector B through the assembling platform, then the X-shaped support slides into the two wallboards, and the sealing plate is connected to the wallboards and the connecting assembly through the bolt assembly.

The utility model provides an assembly platform based on above-mentioned assembled wall for building, includes bottom plate, slip table A, slip table B and transport mechanism, slip table B and bottom plate fixed connection still include:

the conveying mechanism is connected with the sliding table A and used for conveying the wallboard, and comprises a pushing assembly, a sliding plate, a gear rack transmission pair, a placing block A, a rotating assembly and a clamping assembly, wherein the sliding plate is in sliding fit with the sliding table A, and the placing block A is fixedly connected with the sliding plate; and

the positioning mechanism is connected with the conveying mechanism through the transmission assembly A and is used for positioning the connecting assembly;

the pushing assembly comprises a linear motion piece and a sleeve A, wherein an output rod of the linear motion piece is in sliding fit with the sleeve A, the output rod of the linear motion piece is fixedly connected with the sleeve A through an elastic piece C, a sliding column A which is in sliding fit with a spiral groove A formed in the inner wall of the sleeve A is fixedly connected onto the output rod of the linear motion piece, the sleeve A is in rotating connection with the sliding table A, the sleeve A is in transmission connection with the sliding plate through a gear-rack transmission pair, and the linear motion piece is fixedly connected with a bottom plate;

the rotating assembly comprises a baffle column, a connecting column A, an elastic piece A, a rotating shaft A, a connecting column B and a deflector rod, wherein the connecting column B is fixedly connected with the rotating shaft A, the elastic piece A is fixedly connected with the connecting column A and the connecting column B, the connecting column A is fixedly connected with a placing block A, the rotating shaft A is rotationally connected with the placing block A, the deflector rod is fixedly connected with a wallboard, and the clamping assembly is connected with the rotating shaft A.

The technical scheme is as follows: and a positioning component for positioning the connecting component is arranged on the sliding table B.

The technical scheme is as follows: the clamping assembly comprises a placing block B, a clamping plate A and a clamping plate B, wherein the clamping plate A is in sliding fit with a guide column B fixedly connected in the placing block B, the clamping plate B is fixedly connected with the placing block B, the clamping plate A is fixedly connected with an electromagnet A in an embedded mode, and the placing block B is fixedly connected with a rotating shaft A.

The technical scheme is as follows: the positioning mechanism comprises a fitting block and further comprises:

and the linear movement assembly is connected with the engagement blocks and is used for pushing the two engagement blocks to perform linear movement.

The technical scheme is as follows: the transmission assembly A comprises a push rod A and a sleeve B, the push rod A is in sliding fit with the sleeve B, a sliding column B which is in sliding fit with a spiral groove B formed in the push rod A is fixedly connected to the inner wall of the sleeve B, the sleeve B is in sliding fit with the sliding table B, the push rod A is connected with the sliding plate through an electromagnet B, and the sleeve B is in transmission connection with the screw rod through a worm and gear pair.

The technical scheme is as follows: the positioning assembly comprises a positioning push plate, a push rod B, a wedge-shaped baffle, a guide column, a slide block B and a baffle, wherein the positioning push plate is in sliding fit with the guide column fixedly connected to the slide table B, the push rod B is connected with the slide block A and the linear motion assembly, and the slide block B is in sliding fit with the positioning push plate.

Advantageous effects

The invention provides an assembled wall for a building and a processing method thereof, which have the following beneficial effects compared with the prior art:

1. firstly, a related technician slides two wallboards into a connector A and a connector B in sequence, limits the two wallboards on the connector A and the connector B by utilizing a limiting assembly, secondly, slides a plurality of X-shaped supports between the two wallboards, secondly, symmetrically inserts the two sealing boards into two ends of the connector A and the connector B by utilizing a plurality of limiting posts fixed on the sealing boards, and finally, limits the sealing boards on the wallboards, the connector A and the connector B by utilizing a bolt assembly, thereby realizing the technical effect of quickly assembling the whole device;

2. meanwhile, as the X-shaped supports are in a cross design, the two wallboards are uniformly stressed and can effectively bear external pressure, and meanwhile, the flexible filler positioned among the wallboards, the X-shaped supports, the connector A and the connector B can promote the device to have certain shock resistance, so that the impact force born by the device can be flexibly eliminated;

3. the transfer mechanism in the transfer platform can carry a pair of wallboards to the clamping area in proper order, clamping assembly carries out the centre gripping to two wallboards this moment, linear motion spare promotes slip table A and keeps away from transfer mechanism in the vertical direction, slip table A contradicts slip table B, linear motion spare extrusion elastic component C and utilize traveller A extrusion helicla flute A to promote sleeve A and carry out the ascending rotation of vertical direction this moment, sleeve A promotes the sliding plate through rack and pinion transmission pair and carries out the linear reciprocating motion on the horizontal direction, at this moment, elastic component A pulls spliced pole B and drives pivot A and carry out ninety degrees rotations on the horizontal direction and promote two wallboards and connector A and connector B, the sliding plate drives positioning mechanism through drive assembly A and promotes connector A and connector B and be close to each other to reach the preset position when driving the wallboard, at this moment the sliding plate carries out linear motion through promoting clamping assembly and promotes two wallboards and inserts connector A and connector B in the mode, realize the technical effect that carries out quick assembly to wallboard, connector A and connector B.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of a wall according to the present invention.

Fig. 2 is a schematic structural view of a limiting assembly according to the present invention.

Fig. 3 is a schematic three-dimensional structure of the assembly platform of the present invention.

Fig. 4 is a schematic structural view of the rotating assembly and the clamping assembly according to the present invention.

Fig. 5 is a schematic structural view of a positioning mechanism, a positioning assembly and a transmission assembly a according to the present invention.

Fig. 6 is a schematic structural view of the transfer mechanism of the present invention.

Reference numerals annotate: 1. a wallboard; 2. an X-shaped support; 3. a connection assembly; 301. a connector A; 302. a connector B; 4. a sealing plate; 5. a limit component; 501. a wedge-shaped slide block; 502. a through hole; 6. a limit column; 7. a bottom plate; 8. a sliding table A; 9. a sliding table B; 10. a linear motion member; 11. a sleeve A; 12. a slide plate; 13. a gear rack transmission pair; 14. placing a block A; 15. a clamping assembly; 1501. placing a block B; 1502. a clamping plate A; 1503. a clamping plate B; 16. a rotating assembly; 1601. a baffle column; 1602. a connecting column A; 1603. an elastic member A; 1604. a rotating shaft A; 1605. a connecting column B; 1606. a deflector rod; 17. a fitting block; 18. a transmission assembly A; 1801. a push rod A; 1802. a sleeve B; 1803. a screw rod; 1804. a limit column; 1805. a sliding block A; 1806. a coupling head; 19. a positioning assembly; 1901. positioning a push plate; 1902. a push rod B; 1903. wedge-shaped baffle plates; 1904. a guide post; 20. a transfer mechanism; 2001. a rotating shaft B; 2002. sprocket set a; 2003. a mounting block; 2004. a motor; 2005. sprocket set B; 2006. and (5) mounting a bracket.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

Referring to fig. 1-2, an assembled wall for construction according to an embodiment of the present invention includes a wall board 1, an X-shaped support 2, a connecting assembly 3 and a sealing board 4, wherein the connecting assembly 3 includes a connector a301 and a connector B302, two wall boards 1 are slidably matched with the connector a301 and the connector B302, two wall boards 1 are connected with the connector a301 and the connector B302 through a limiting assembly 5, a limiting post 6 is fixedly connected to the sealing board 4, limiting holes a (not shown) slidably matched with the limiting post 6 are formed in the X-shaped support 2, the connector a301 and the connector B302, the sealing board 4 is detachably connected with the X-shaped support 2, the connector a301, the connector B302 and the two wall boards 1 through bolt assemblies (not shown), the X-shaped support 2 is located between the two wall boards 1 and slidably matched with the wall boards 1, and a flexible filling body (not shown) is filled in a gap between the X-shaped support 2 and the wall boards 1, the connector a301, the connector B302 and the sealing board 4.

Preferably, bolts in the bolt assemblies for connecting the sealing plate 4 with the connectors a301 and B302 penetrate through the limit posts 6 and are in threaded fit with the connectors a301 and B302. The aim of this kind of setting is, and relevant technician of being convenient for is through spacing post 6 to the shrouding 4 location, with the accurate connection of shrouding 4 on wallboard 1, connector A301 and connector B302.

Preferably, the X-shaped support 2 is provided in a plurality and arranged in a linear array between two wall panels 1. The purpose of this arrangement is to increase the strength of the whole device by means of several X-shaped supports 2, so that the two wall panels 1 are not easily separated, the weight of the whole device is reduced and the shock resistance of the whole device is increased.

Preferably, the limit assembly 5 includes a wedge-shaped slider 501, an elastic member B and a through hole 502, two groups of wedge-shaped sliders 501 are respectively in sliding fit with the connector a301 and the connector B302, the connector a301 and the connector B302 are fixedly connected with the wedge-shaped slider 501 through the elastic member B, the through hole 502 is formed in the connector a301 and the connector B302, and the wedge-shaped slider 501 is in sliding fit with a limit hole B (not shown in the figure) formed in the wallboard 1. The purpose of this arrangement is to utilize the elasticity of elastic component B to promote wedge slider 501 to retract into corresponding connector a301 and connector B302 when receiving external force, again can follow the mode that connector a301 and connector B302 popped out in the time of no external force, realizes the technological effect of spacing fixed to two wallboard 1.

In the embodiment of the invention, firstly, the related technician slides two wallboards 1 into the connector a301 and the connector B302 in turn, and limits the two wallboards 1 on the connector a301 and the connector B302 by utilizing the limiting component 5, secondly, slides a plurality of X-shaped supports 2 between the two wallboards 1, secondly, symmetrically inserts the two sealing boards 4 into the two ends of the connector a301 and the connector B302 by utilizing a plurality of limiting posts 6 fixed on the sealing boards 4, and finally limits the sealing boards 4 on the wallboards 1, the connector a301 and the connector B302 by utilizing the bolt component, so as to complete the assembly of the whole device, and because the X-shaped supports 2 are connected with the wallboards 1 in a sliding way, the X-shaped supports 2 can be quickly inserted between the two wallboards 1, and meanwhile, because the X-shaped supports 2 are in a cross design, the two wallboards 1 are uniformly stressed and can effectively bear external pressure, and meanwhile, the flexible filler positioned between the wallboards 1, the X-shaped supports 2, the connector a301 and the connector B302 can promote the device to have a certain anti-vibration capability, and can be flexibly and shock-relieved.

A wall body processing method based on the assembled wall body for the building comprises the following steps:

s1: cutting and shaping the plate by using a laser cutting device to form a wallboard 1;

s2: forming an X-shaped support 2 by welding;

s3: cutting the square packaging material by using a wire cutting device to form a connector A301, a connector B302 and a wedge-shaped slide block 501;

s4: the corresponding wedge-shaped sliding block 501 and the elastic piece B are respectively arranged in the connector A301 and the connector B302;

s5: polishing the parts by using a polishing device;

s6: the wall boards 1 are assembled to the connectors a301 and B302 by the assembling platform, then the X-shaped supports 2 are slid into the two wall boards 1, and the sealing boards 4 are connected to the wall boards 1 and the connecting assemblies 3 by the bolt assemblies.

Please refer to fig. 3-5 for an assembly platform based on the above wall, which includes a bottom plate 7, a sliding table A8, a sliding table B9, and a transferring mechanism 20, where the sliding table B9 is fixedly connected with the bottom plate 7, and further includes:

the conveying mechanism is connected with the sliding table A8 and used for conveying the wallboard 1 and comprises a pushing assembly, a sliding plate 12, a gear rack transmission pair 13, a placing block A14, a rotating assembly 16 and a clamping assembly 15, wherein the sliding plate 12 is in sliding fit with the sliding table A8, and the placing block A14 is fixedly connected with the sliding plate 12; and

the positioning mechanism is connected with the conveying mechanism through a transmission assembly A18 and is used for positioning the connecting assembly 3;

the pushing assembly comprises a linear moving member 10 and a sleeve A11, wherein an output rod of the linear moving member 10 is in sliding fit with the sleeve A11, the output rod of the linear moving member 10 is fixedly connected with the sleeve A11 through an elastic member C (not shown in the figure), a sliding column A (not shown in the figure) which is in sliding fit with a spiral groove A (not shown in the figure) formed in the inner wall of the sleeve A11 is fixedly connected with the output rod of the linear moving member 10, the sleeve A11 is in rotating connection with the sliding table A8, the sleeve A11 is in transmission connection with a sliding plate 12 through a gear-rack transmission pair 13, and the linear moving member 10 is fixedly connected with the bottom plate 7;

the rotating assembly 16 comprises a baffle column 1601, a connecting column A1602, an elastic piece A1603, a rotating shaft A1604, a connecting column B1605 and a deflector 1606, wherein the connecting column B1605 is fixedly connected with the rotating shaft A1604, the elastic piece A1603 is fixedly connected with the connecting column A1602 and the connecting column B1605, the connecting column A1602 is fixedly connected with a placing block A14, the rotating shaft A1604 is rotationally connected with the placing block A14, the deflector 1606 is fixedly connected with the wall board 1, and the clamping assembly 15 is connected with the rotating shaft A1604.

Preferably, the linear motion member 10 is any one of a cylinder, an electric telescopic rod, and a hydraulic cylinder.

Preferably, referring to fig. 3 to 4, the clamping assembly 15 includes a placement block B1501, a clamping plate a1502 and a clamping plate B1503, the clamping plate a1502 is slidably matched with a guide post B (not shown) fixedly connected in the placement block B1501, the clamping plate B1503 is fixedly connected with the placement block B1501, the clamping plate a1502 and the placement block B1501 are respectively embedded and fixedly connected with an electromagnet a (not shown), and the placement block B1501 is fixedly connected with a rotating shaft a 1604. The purpose of this arrangement is to realize the clamping and fixing of two wallboards 1 on the transfer mechanism 20 by pushing the two clamping plates a1502 to approach or separate from the clamping plate B1503 by utilizing the property that the like poles of the electromagnets a repel each other and the like poles attract each other.

Preferably, referring to fig. 3 to 5, the positioning mechanism includes a fitting block 17, and further includes: the linear motion assembly is connected with the fit blocks 17 and used for pushing two fit blocks 17 to perform linear motion, the linear motion assembly comprises a screw rod 1803, a limit column 1804 and a sliding block A1805, the sliding block A1805 is in sliding fit with the limit column 1804, the screw rod 1803 is in threaded connection with the sliding block A1805, the screw rod 1803 and the limit column 1804 are both in rotary connection with a sliding table B9, the sliding block A1805 is fixedly connected with the fit blocks 17, and the screw rod 1803 is connected with the sliding plate 12 through a transmission assembly A18. The purpose of this arrangement is to utilize the drive assembly to drive lead screw 1803 to rotate, and lead screw 1803 is through the mode of driving two sliders A1805 to carry out the linear motion that the direction of motion is opposite, realizes that respectively installing connector A301 and connector B302 on two agreements piece 17 carries out the position location in order to cooperate conveying mechanism to insert two wallboards 1 in connector A301 and the connector B302.

Preferably, referring to fig. 3 to 5, the transmission assembly a18 includes a push rod a1801 and a sleeve B1802, the push rod a1801 is slidably matched with the sleeve B1802, a sliding column B slidably matched with a spiral groove B formed on the push rod a1801 is fixedly connected to an inner wall of the sleeve B1802, the sleeve B1802 is slidably matched with a sliding table B9, the push rod a1801 is coupled with the sliding plate 12 through an electromagnet B, and the sleeve B1802 is in transmission connection with the screw 1803 through a worm gear pair (not labeled in the figure). The push rod A1801 is driven to be connected to the slide plate 12 by means of the electromagnet B in a mode that the connecting head 1806 is inserted into the slide plate 12, the slide plate 12 pushes the push rod A1801 to slide along the sleeve B1802, meanwhile, the spiral groove B formed in the push rod A1801 pushes the slide column B to drive the sleeve B1802 to rotate, and the screw rod 1803 drives the screw rod 1803 to rotate horizontally through the worm and gear pair.

Preferably, referring to fig. 3 to 5, the sliding table B9 is provided with a positioning assembly 19 for positioning the connecting assembly 3, the positioning assembly 19 includes a positioning push plate 1901, a push rod B1902, a wedge-shaped baffle 1903, a guide post 1904, a slide block B (not shown) and a baffle (not shown), the positioning push plate 1901 is slidably matched with the guide post 1904 fixedly connected to the sliding table B9, the push rod B1902 is rotatably connected with the slide block a1805 and the slide block B, and the slide block B is slidably matched with the positioning push plate 1901. The two sliding blocks A1805 respectively push the push rod B1902 which is rotationally connected with the two sliding blocks A1805 to perform linear movement in the opposite movement direction along the positioning push plate 1901, at this time, the two push rod B1902 pulls the positioning push plate 1901 to perform linear movement along the guide column 1904, and the positioning push plate 1901 performs positioning treatment in the length direction on the connector A301 and the connector B302 by pushing the connector A301 and the connector B302, so that a later-stage related technician can slide the X-shaped support 2 between the two wallboards 1 and install the two sealing plates 4 on the wallboards 1 and the connecting assembly 3.

Preferably, referring to fig. 3 and 6, the transfer mechanism 20 includes a rotating shaft B2001, a mounting block 2003 and a motor 2004, wherein the four rotating shafts B2001 are all rotatably connected with the base plate 7 and are in transmission connection with the base plate 7 through a sprocket pair a2002, the motor 2004 is detachably connected with a mounting bracket 2006 fixedly connected with the base plate 7, an output shaft of the motor 2004 is in transmission connection with the two rotating shafts B2001 through a sprocket pair B2005, the mounting block 2003 is fixedly connected with a chain in the sprocket pair a2002, and the mounting block 2003 is fixedly connected with a chain link of the chain. The output shaft of the motor 2004 drives the two rotating shafts B2001 to rotate in the vertical direction through the sprocket set B2005, the two rotating shafts B2001 drive the other two rotating shafts B2001 to synchronously rotate through the sprocket set a2002, and at this time, the sprocket set a2002 drives the wallboard 1 mounted on the mounting blocks 2003 to sequentially pass through the clamping area of the clamping assembly 15 through the plurality of mounting blocks 2003, so that the clamping assembly 15 to be clamped performs clamping processing.

Preferably, a bracket (not shown) for supporting the mounting block 2003 is fixedly connected to the bottom plate 7. The purpose of this arrangement is to support the mounting block 2003 in the vertical direction, and to mount the mounting block 2003 off the sprocket set a2002 due to excessive load.

In the embodiment of the invention, the transfer mechanism 20 sequentially conveys a pair of wallboards 1 to the clamping area, at this time, the clamping assembly 15 clamps two wallboards 1, the linear motion piece 10 pushes the sliding table A8 to perform linear motion in the vertical direction to enable the wallboards 1 to be far away from the transfer mechanism, the sliding table A8 abuts against the sliding table B9, at this time, the linear motion piece 10 presses the elastic piece C and utilizes the sliding column a to press the spiral groove a to enable the sleeve a11 to perform linear reciprocating motion in the vertical direction, the sleeve a11 pushes the sliding plate 12 to perform linear reciprocating motion in the horizontal direction through the rack-and-pinion transmission pair 13, at this time, the elastic piece a1603 pulls the connecting column B1605 to drive the rotating shaft a1604 to perform ninety-degree rotation in the horizontal direction (during return, the deflector 1606 hits the retaining column 1601 to enable the connecting column B1605 to pull the elastic piece a1603 and drive the rotating shaft a1604 to perform ninety-degree rotation) to enable the two wallboards 1 to be parallel to the connecting head a301 and the connecting head B302, at this time, the sliding plate 12 drives the wallboard 1 to perform linear motion, and the positioning mechanism is driven by the driving assembly a18 to enable the connecting head a301 and the connecting head B302 to mutually approach a preset position, at this time, the connecting head B12 is enabled to perform linear motion by the connecting head 1 and the connecting head B302 to perform linear motion to achieve the preset position, and the effect of assembling of the wallboard 1 and the connecting head 302, and the connecting head 1B is achieved in a mode.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (9)

1. The utility model provides an assembled wall for building, its characterized in that includes wallboard, X shape support, coupling assembling and shrouding, coupling assembling includes connector A and connector B, two the wallboard all with connector A and connector B sliding fit, two the wallboard passes through spacing subassembly and is connected with connector A and connector B, fixedly connected with spacing post on the shrouding, X shape support, connector A and connector B all have seted up spacing hole A with spacing post sliding fit, the shrouding passes through bolt assembly and dismantles with X shape support, connector A, connector B and two wallboards and is connected, X shape support is located between two wallboards and with wallboard sliding fit, the clearance intussuseption between X shape support and wallboard, connector A, connector B and the shrouding is filled with flexible filler;

the limiting assembly comprises a wedge-shaped sliding block, an elastic piece B and a through hole, wherein the two wedge-shaped sliding blocks are respectively in sliding fit with a connector A and a connector B, the connector A and the connector B are fixedly connected with the wedge-shaped sliding block through the elastic piece B, the through hole is formed in the connector A and the connector B, and the wedge-shaped sliding block is in sliding fit with the limiting hole B formed in the wallboard.

2. The fabricated wall for construction according to claim 1, wherein bolts in the bolt assembly connecting the sealing plate with the connectors a and B penetrate through the limit posts and are screw-fitted with the connectors a and B.

3. The method of manufacturing a fabricated wall for construction according to claim 1, comprising the steps of:

s1: cutting and shaping the plate by using a laser cutting device to form a wallboard;

s2: forming an X-shaped support by welding;

s3: cutting the square packaging material by using a linear cutting device to form a connector A, a connector B and a wedge-shaped sliding block;

s4: the corresponding wedge-shaped sliding blocks and the elastic piece B are respectively arranged in the connector A and the connector B;

s5: performing grinding and polishing treatment on the parts mentioned in S1 to S4 by using a grinding and polishing device;

s6: the wallboard is assembled to the connector A and the connector B through the assembling platform, then the X-shaped support slides into the two wallboards, and the sealing plate is connected to the wallboards and the connecting assembly through the bolt assembly.

4. The assembly platform of the assembled wall body for the building according to claim 3, comprising a bottom plate, a sliding table a, a sliding table B and a transferring mechanism, wherein the sliding table B is fixedly connected with the bottom plate, and the assembly platform further comprises:

the conveying mechanism is connected with the sliding table A and used for conveying the wallboard, and comprises a pushing assembly, a sliding plate, a gear rack transmission pair, a placing block A, a rotating assembly and a clamping assembly, wherein the sliding plate is in sliding fit with the sliding table A, and the placing block A is fixedly connected with the sliding plate; and

the positioning mechanism is connected with the conveying mechanism through the transmission assembly A and is used for positioning the connecting assembly;

the pushing assembly comprises a linear motion piece and a sleeve A, wherein an output rod of the linear motion piece is in sliding fit with the sleeve A, the output rod of the linear motion piece is fixedly connected with the sleeve A through an elastic piece C, a sliding column A which is in sliding fit with a spiral groove A formed in the inner wall of the sleeve A is fixedly connected onto the output rod of the linear motion piece, the sleeve A is in rotating connection with the sliding table A, the sleeve A is in transmission connection with the sliding plate through a gear-rack transmission pair, and the linear motion piece is fixedly connected with a bottom plate;

the rotating assembly comprises a baffle column, a connecting column A, an elastic piece A, a rotating shaft A, a connecting column B and a deflector rod, wherein the connecting column B is fixedly connected with the rotating shaft A, the elastic piece A is fixedly connected with the connecting column A and the connecting column B, the connecting column A is fixedly connected with a placing block A, the rotating shaft A is rotationally connected with the placing block A, the deflector rod is fixedly connected with a wallboard, and the clamping assembly is connected with the rotating shaft A.

5. The assembly platform for the assembled wall body for the building according to claim 4, wherein the sliding table B is provided with a positioning assembly for positioning the connecting assembly.

6. The assembly platform of the assembled wall body for the building according to claim 4, wherein the clamping assembly comprises a placing block B, a clamping plate A and a clamping plate B, the clamping plate A is in sliding fit with a guide post B fixedly connected in the placing block B, the clamping plate B is fixedly connected with the placing block B, electromagnets A are embedded in the clamping plate A and the placing block B, and the placing block B is fixedly connected with a rotating shaft A.

7. The building assembled wall assembly platform of claim 4, wherein the positioning mechanism comprises a mating block, further comprising:

and the linear movement assembly is connected with the engagement blocks and is used for pushing the two engagement blocks to perform linear movement.

8. The assembly platform of the assembled wall body for the building according to claim 4, wherein the transmission assembly A comprises a push rod A and a sleeve B, the push rod A is in sliding fit with the sleeve B, a sliding column B which is in sliding fit with a spiral groove B formed in the push rod A is fixedly connected to the inner wall of the sleeve B, the sleeve B is in sliding fit with the sliding table B, the push rod A is connected with the sliding plate through an electromagnet B, and the sleeve B is in transmission connection with a screw rod through a worm and gear pair.

9. The assembly platform for the assembled wall body for the building according to claim 5, wherein the positioning assembly comprises a positioning push plate, a push rod B, a wedge-shaped baffle, a guide post, a slide block B and a baffle, the positioning push plate is in sliding fit with the guide post fixedly connected to the slide table B, the push rod B is connected with the slide block A and the linear motion assembly, and the slide block B is in sliding fit with the positioning push plate.