CN115341708B - Construction method of spliced thin-wall fireproof partition wall board - Google Patents

Abstract

The utility model relates to a concatenation formula thin wall fire prevention partition wall board and construction method thereof, it relates to a partition wall board, wherein partition wall board includes partition wall board body, partition wall board body one side integrated into one piece has the picture peg, partition wall board body's opposite side is equipped with supplies picture peg male jack groove, the width of picture peg is by being close to partition wall board body one side is kept away from partition wall board body one side is progressively decreased progressively, the picture peg is kept away from one side integrated into one side of partition wall board body has a plurality of inserted block, a plurality of the inserted block is followed partition wall board body's direction of height equipartition, be equipped with on the cell diapire of jack groove and supply inserted block male recess. The bolt installation structure has the advantages that the bolt installation structure can replace a mode that workers install bolts on an installation site, and the installation efficiency is improved.

Description

Construction method of spliced thin-wall fireproof partition wall board

Technical Field

The application relates to a partition board, in particular to a construction method of a spliced thin-wall fireproof partition board structure.

Background

The fireproof partition board is a partition board with a fireproof function. The partition board is a prefabricated wall board for non-bearing part inside building, and includes glass fiber reinforced cement board, hollow glass fiber reinforced gypsum board, pressurized aerated concrete board, steel wire reinforced cement board, light concrete board, composite sandwich light board, etc. The partition board is used as the main material of non-bearing inner partition wall in common industrial building, residential building and public building engineering.

The application publication number CN 111980238A's chinese patent discloses a light partition board with additional strengthening, including outer baffle, the inside fixedly connected with of outer baffle a plurality of evenly distributed's triangle reinforcement, the every two fixed connection in proper order between a plurality of triangle reinforcement, outer baffle comprises first concrete slab, acoustic celotex board, fire prevention membrane, fibre reinforcing net, heated board, waterproof board, steel wire reinforcing net and second concrete slab.

With respect to the related art in the above, the inventors consider that there are drawbacks in that: when the light partition boards are adopted for installation, the U-shaped clamping boards are firstly required to be respectively installed on the floor top plate and the floor bottom plate, the light partition boards are fixed through the U-shaped clamping boards, when the light partition boards are installed, the U-shaped clamping boards are firstly fixed on the floor top plate and the floor bottom plate through bolts, the first light partition board is inserted into the U-shaped clamping boards, the U-shaped clamping boards are respectively installed on the floor top plate and the floor bottom plate, the next light partition boards are inserted into the U-shaped clamping boards, a plurality of light partition boards are sequentially and reciprocally installed to form an integral partition board, but in actual construction, a plurality of holes are required to be dug on one side of each light partition board and wedged into keels on the other side of each light partition board, the keels are inserted into the holes of the adjacent light partition boards, time and labor are wasted, and the efficiency is low to be improved.

Disclosure of Invention

In order to solve the problem of low construction efficiency of partition boards, the application provides a spliced thin-wall fireproof partition board structure.

The application provides a concatenation formula thin wall fire prevention partition wall panel structure adopts following technical scheme:

the utility model provides a concatenation formula thin wall fire prevention partition wall board structure, includes partition wall board body, partition wall board body one side integrated into one piece has the picture peg, partition wall board body's opposite side is equipped with the confession picture peg male jack groove, the width of picture peg is by being close to partition wall board body one side is kept away from partition wall board body one side is progressively decreased progressively, the picture peg is kept away from one side integrated into one side of partition wall board body has a plurality of inserted block, a plurality of the inserted block is followed partition wall board body's direction of height equipartition, be equipped with on the slot diapire of jack groove and supply inserted block male recess.

Through adopting above-mentioned technical scheme, when installing, insert the picture peg on one of them partition wall board body in inserting the jack-in groove, insert the plug in the recess simultaneously, because picture peg and plug and partition wall board body integrated into one piece, so can replace the workman to install the mode of bolt at the installation scene like this, improve installation effectiveness.

In a specific implementation manner, one side of the partition wall board body, which is close to the plugging groove, is provided with a plurality of connecting pieces, the connecting pieces are provided with through holes for inserting bolts, and the partition wall board body is provided with mounting grooves for inserting the connecting pieces.

Through adopting above-mentioned technical scheme, during the installation, with connection piece embedding mounting groove, pass the through-hole with the bolt again and with partition wall board body coupling, can improve the connection stability of two adjacent partition wall board bodies like this.

In a specific embodiment, the partition wall board body comprises an inner core board layer, the inner core board layer is deviated from both sides mutually and is provided with a heat insulation board layer, one side of the heat insulation board layer, which is far away from the inner core board layer, is provided with a fireproof board layer, and one side of the fireproof board layer, which is far away from the heat insulation board layer, is provided with an outer wall board layer.

Through adopting above-mentioned technical scheme, utilize the heat preservation sheet layer, be favorable to improving the thermal insulation performance of partition wall board body, utilize the fire prevention sheet layer, be favorable to improving the fire prevention performance of partition wall board body.

The application also provides a construction equipment of concatenation formula thin wall fire prevention partition wall panel structure adopts following technical scheme:

a construction method of a spliced thin-wall fireproof partition wall board structure comprises the following specific steps:

drawing lines: drawing positioning lines and mounting lines on the floor top plate and the floor bottom plate respectively;

installing a U-shaped plate: according to the positions of the mounting line and the positioning line, a lower U-shaped plate is mounted on the floor bottom plate, a nail gun is adopted to fix the lower U-shaped plate, and an upper U-shaped plate is mounted on the floor top plate by using a mounting device;

and (3) installing a frame: a section bar vertical frame is arranged between the upper U-shaped plate and the lower U-shaped plate and is arranged on a wall through bolts;

and (3) mounting plates: after all the upper U-shaped plates and the lower U-shaped plates are installed, the partition wall board body is inserted into the upper U-shaped plates and the lower U-shaped plates simultaneously, and when the next partition wall board body is installed, the inserting plate is inserted into the inserting groove simultaneously, the inserting block is inserted into the groove, the connecting sheet is embedded into the installing groove, and the bolts penetrate through the through holes to be connected with the partition wall board body:

repeating the step of installing the plates until all partition wall board bodies are installed.

Through adopting above-mentioned technical scheme, utilize last U template and lower U template to carry out spacingly with the partition wall board body, can install the partition wall board body convenient and fast like this.

In a specific implementation manner, the profile vertical frame in the installation frame comprises a vertical plate, wherein a positioning strip for inserting the inserting groove is arranged on the vertical plate, a positioning block for inserting the groove is arranged on the positioning strip, and an installation sheet for inserting the installation groove is arranged on the vertical plate.

Through adopting above-mentioned technical scheme, at first install the riser on the wall through the bolt, wait to go up U template and lower U template installation and accomplish the back, with first block partition plate body cover on the riser again, insert the spliced groove with the locating strip simultaneously in, the locating piece inserts in the recess to insert the mounting plate in the mounting groove, pass the mounting plate with the bolt again and be connected with first block partition plate body, with this can be convenient and fast with first block partition plate body installation on the wall body.

In a specific implementation manner, the upper U-shaped plate and the lower U-shaped plate in the step of installing the U-shaped plate each comprise a transverse plate, limiting grooves for the insertion of the partition wall plate body are formed in the transverse plates, cutting bars are arranged on one sides of the transverse plates, inserting grooves for the insertion of the cutting bars are formed in the other sides of the transverse plates, and forming grooves for the insertion of the cutting bars are formed in the vertical plates.

By adopting the technical scheme, when the lower U-shaped plate on the floor bottom plate is installed, the cutting of the first transverse plate is inserted into the groove of the vertical plate, the cutting of the subsequent transverse plate is inserted into the adjacent slot, and the nail gun is used for penetrating the transverse plate to penetrate the nail into the floor bottom plate, so that the lower U-shaped plate can be installed conveniently and rapidly;

when installing the last U type version on the floor roof, insert the type inslot of riser with the cutting of first diaphragm, insert the slot of first diaphragm with the cutting on the second diaphragm again, in the reuse nail gun will penetrate the diaphragm and prick the floor bottom plate with the nail, repeat this process, can convenient and fast install last U type version like this.

In a specific embodiment, the mounting device in the step of mounting the U-shaped plates includes a moving frame for mounting a plurality of upper U-shaped plates, a mounting assembly for removing the upper U-shaped plates from the moving frame one by one and moving the upper U-shaped plates to one side of the floor top plate is arranged on the moving frame, and a clamping assembly for moving a single upper U-shaped plate to one side of the floor top plate and sleeving the upper U-shaped plates on adjacent cuttings is arranged on the mounting assembly.

Through adopting above-mentioned technical scheme, when installing the U template, at first install the U template on the removal frame with a plurality of, the single U template of going up in the rethread clamping assembly centre gripping removal frame is removed to floor roof one side, installation component removes floor roof department with single U template of going up, clamping assembly will go up U template and riser or go up the U template and assemble, the workman reuse nail gun will go up the connecting plate nail on the U template in floor roof department, so can replace the workman mode of installing the U template of ascending a height, be favorable to alleviateing workman work burden, reduce the possibility that the workman ascended a height and fall moreover.

In a specific implementation mode, the movable rack comprises a movable plate for vertically placing the upper U-shaped plate and a movable bar arranged on the movable plate, wherein the movable bar is slidably arranged in a limit groove of the lower U-shaped plate, the movable plate is provided with a bar groove for inserting the cutting, and the bar groove is arranged along the length direction of the lower U-shaped plate;

a mounting cavity communicated with the strip-shaped groove is formed in the moving plate, a driving piece is arranged in the mounting cavity, and the driving piece is used for driving an upper U-shaped plate on the moving plate to move towards one side of the clamping assembly;

the driving piece is including setting up the mounting bracket in the installation cavity, be equipped with driving motor in the installation cavity, driving motor's motor shaft coaxial is equipped with the actuating lever, be equipped with the drive wheel on the actuating lever, the axis of drive wheel with the axis of actuating lever is parallel, the cover is equipped with the swivel becket on the drive wheel lateral wall, it is equipped with the driven lever to rotate on the mounting bracket, be equipped with from the driving wheel on the driven lever, the axis from the driving wheel with the axis of driven lever is parallel, the cover is equipped with from the moving ring on the driving wheel, be equipped with the transfer line between swivel becket and the driven ring, the driven lever with all be equipped with the gangbar on the actuating lever, two all rotate on the gangbar and be equipped with the swinging arms, two be equipped with the drive frame between the swinging arms, be equipped with the drive piece that is used for driving the cutting to remove on the drive frame.

By adopting the technical scheme, the movable strip is inserted into the limit groove, the movable plate is arranged on the top wall of the transverse plate of the lower U-shaped plate, a plurality of upper U-shaped plates are placed on the movable plate, and the cutting strip of the upper U-shaped plate is inserted into the strip groove, so that the possibility of deflection between the upper U-shaped plate and the lower U-shaped plate can be avoided, and the possibility that the partition wall plate body cannot be inserted into the upper U-shaped plate or the lower U-shaped plate is reduced;

after the clamping assembly clamps the upper U-shaped plate close to the end part of the limiting groove and breaks away from the movable plate, the driving motor drives the driving rod to rotate, and then drives the driving wheel and the rotating ring to rotate, so that the driving rod drives the driven ring, the driven wheel and the driven rod to rotate, the linkage rod can be driven to rotate, the linkage rod drives the swinging rod and the driving frame to swing, and the driving rod can drive the cutting to move forward by the width of the upper U-shaped plate, so that the clamping assembly clamps the next upper U-shaped plate to be installed.

In a specific implementation manner, the installation component comprises a support frame arranged on the movable plate, a fixed sleeve is arranged on the support frame, the fixed sleeve is vertically arranged, a movable rod is arranged in the fixed sleeve in a sliding mode, a pushing cylinder used for driving the movable rod to slide is arranged on the support frame, a piston rod of the pushing cylinder is rotationally connected with the movable rod, one end, far away from the pushing cylinder, of the fixed sleeve is close to a floor top plate, and the axis of the pushing cylinder, the axis of the fixed sleeve and the axis of the movable rod are collinear;

the fixed cover is last to be equipped with the helicla flute, the highest one end of helicla flute is close to the roof of fixed cover, the lowest one end of helicla flute is close to the diapire of fixed cover, be equipped with on the lateral wall of movable rod and carry out gliding slip post in the helicla flute, the one end that the slip post stretches out the helicla flute is equipped with the support bracket that supplies the clamping assembly installation, the support bracket is when the helicla flute minimum, and U template is gone up to clamping assembly centre gripping, the support bracket is when the helicla flute minimum, and the clamping assembly is contradicted on the floor roof with last U template.

Through adopting above-mentioned technical scheme, after clamping assembly centre gripping goes up the U template, the top pushing cylinder promotes the carriage release lever and removes, thereby the carriage release lever can drive the slip post and slide in the helicla flute, the slip post drives the support bracket and rotates the helicla flute highest end by the helicla flute lowest end, go up the laminating of U template on the floor roof, utilize clamping assembly to overlap the U template on the cutting, last the workman uses the nail gun to pass the connecting plate nail with the nail of penetrating on the floor roof, thereby can replace the manual mode of installing the U template of workman, alleviate workman work burden, improve work efficiency.

In a specific implementation manner, a rotating plate is rotatably arranged at one end, far away from the pushing cylinder, of the fixed sleeve, a vertical plate is arranged on the rotating plate, the vertical plate is arranged along the axial direction of the fixed sleeve, a moving groove for the sliding column to pass through is formed in the vertical plate, a plurality of gear teeth are arranged at one side, far away from the fixed sleeve, of the vertical plate, and the plurality of gear teeth are uniformly distributed along the axial direction of the fixed sleeve;

the support bracket comprises a rotating shaft which is rotationally connected with the sliding column, a moving gear meshed with the gear teeth is arranged on the rotating shaft, and a support plate is arranged on the peripheral wall of the moving gear;

the clamping assembly comprises a pushing electric cylinder arranged on the bearing plate, and a pneumatic clamping finger which is used for extending into the limiting groove is arranged on the end wall of the piston rod of the pushing electric cylinder.

Through adopting above-mentioned technical scheme, when the installation, at first, push the electric jar and promote the directional movable plate one side of pneumatic clamp and remove, pneumatic clamp is pointed in inserting the spacing groove, pneumatic clamp is pointed clamping jaw and is removed and contradict with the relative cell wall of spacing groove, push the electric jar piston rod and reset, drive an upward U template and shift up, push the movable rod again to promote the movable rod and shift up, thereby the sliding column rotates along the spiral groove while that the movable rod was gone up, thereby the sliding column drives the movable gear and rotates along the teeth of a cogwheel, and then drive the bearing plate pivoted and remove to floor roof one side, the sliding column moves the highest end of spiral groove, sliding column drive bearing plate and upward U template rotate to be close floor roof one side, push electric jar drive pneumatic clamp and upward U template and remove, with upward U template cover on adjacent cutting, the workman reuse nail gun will penetrate the connecting plate nail on the floor roof, thereby can realize installing upward U template.

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

1. when in installation, the plugboard on one partition wall board body is inserted into the inserting groove, and meanwhile the inserting block is inserted into the groove, and the plugboard, the inserting block and the partition wall board body are integrally formed, so that a mode of installing a bolt on an installation site by workers can be replaced, and the installation efficiency is improved;

2. the upper U-shaped plate and the lower U-shaped plate are utilized to limit the partition wall board body, so that the partition wall board body can be conveniently and rapidly installed;

3. when installing the U template, at first install the U template on the removal frame with a plurality of, the single U template of going up in the removal frame of rethread clamping assembly centre gripping removes to floor roof one side, installation component removes floor roof department with single U template of going up, clamping assembly will go up U template and riser or go up U template and assemble, the workman reuse nail gun is with the connecting plate nail on the U template in floor roof department of going up, with this can replace the workman mode of installing the U template of ascending a height, be favorable to alleviateing workman work burden, reduce the possibility that the workman ascended a height and falls moreover.

Drawings

Fig. 1 is a schematic structural view of a spliced thin-wall fireproof partition wall board according to an embodiment of the present application.

Fig. 2 is a schematic structural view of an partition body according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a middle-sized wood vertical frame, an upper U-shaped plate, a lower U-shaped plate, and a partition wall board body spliced in the embodiment of the application.

Fig. 4 is a schematic diagram of an explosion structure of a middle-sized wood vertical frame, an upper U-shaped plate, a lower U-shaped plate, and a partition wall panel body spliced in the embodiment of the application.

Fig. 5 is a schematic structural diagram of a mobile rack in an embodiment of the present application.

Fig. 6 is a schematic structural view of a clamping assembly according to an embodiment of the present application.

Fig. 7 is a schematic structural view of a driving member in the embodiment of the present application.

Fig. 8 is a schematic structural view of a mounting assembly in an embodiment of the present application.

Reference numerals illustrate: 1. a partition wall panel body; 10. inserting plate; 11. a plug-in groove; 12. inserting blocks; 13. a groove; 14. a connecting sheet; 15. a mounting groove; 16. an inner core layer; 17. a heat preservation plate layer; 18. a fire protection plate layer; 19. an outer wall plate layer; 100. a through hole; 2. a section bar vertical frame; 20. a riser; 21. a positioning strip; 22. a positioning block; 23. a mounting piece; 24. a profile groove; 3. the U-shaped plate is arranged; 30. a cross plate; 31. a limit groove; 32. cutting; 33. a slot; 4. a lower U-shaped plate; 5. a moving frame; 50. a moving plate; 51. moving the bar; 52. a bar-shaped groove; 53. a mounting cavity; 54. a driving member; 55. a mounting frame; 56. a driving motor; 57. a driving rod; 58. a driving wheel; 59. a rotating ring; 500. a driven rod; 501. driven wheel; 502. a slave ring; 503. a transmission rod; 504. a linkage rod; 505. a swinging rod; 506. a drive rack; 507. a driving block; 508. a connecting rod; 510. a sliding groove; 513. a baffle; 514. a bracket; 515. a roller; 516. a receiving groove; 517. a roll shaft; 518. a rolling belt; 6. a mounting assembly; 60. a support frame; 61. a fixed sleeve; 62. a moving rod; 63. pushing cylinder; 64. a spiral groove; 65. a sliding column; 66. a support bracket; 67. a rotating plate; 68. a vertical plate; 69. a moving groove; 600. gear teeth; 601. a rotating shaft; 602. a moving gear; 603. a bearing plate; 7. a clamping assembly; 70. pushing an electric cylinder; 71. pneumatic clamping fingers.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-8.

The embodiment of the application discloses a spliced thin-wall fireproof partition wall board structure.

Referring to fig. 1 and 2, a spliced thin-wall fireproof partition wall board structure comprises a partition wall board body 1, wherein the partition wall board body 1 comprises an inner core board layer 16, two opposite sides of the inner core board layer 16 are respectively provided with a heat insulation board layer 17, the heat insulation board layer 17 is a polyurethane heat insulation board layer in the embodiment, one side of the heat insulation board layer 17 away from the inner core board layer 16 is provided with a fireproof board layer 18, the fireproof board layer 18 is a perlite board layer in the embodiment, and one side of the fireproof board layer 18 away from the heat insulation board layer 17 is provided with an outer wall board layer 19; the insulation performance of the partition wall board body 1 can be improved through the insulation board layer 17, and the fireproof board layer 18 can improve the fireproof performance of the partition wall board body.

Referring to fig. 1 and 2, an insert plate 10 is integrally formed on one side of a partition wall board body 1, the insert plate 10 is arranged along the length direction of the partition wall board body 1, the width of the insert plate 10 is gradually reduced from the side close to the partition wall board body 1 to the side far away from the partition wall board body 1, a plurality of insert blocks 12 are integrally formed on the side, far away from the partition wall board body 1, of the insert plate 10, the plurality of insert blocks 12 are uniformly distributed along the height direction of the partition wall board body 1, insert grooves 11 for inserting the insert blocks 10 are formed on the other side of the partition wall board body 1, the insert grooves 11 penetrate through the two ends of the partition wall board body 1, the plurality of insert blocks 12 are uniformly distributed along the height direction of the partition wall board body 1, and grooves 13 for inserting the insert blocks 12 are formed on the bottom wall of the insert grooves 11.

Referring to fig. 1 and 2, a plurality of connection pieces 14 are provided on one side of the partition wall board body 1 adjacent to the slot 33, through holes 100 for inserting bolts are provided on the connection pieces 14, and mounting grooves 15 for inserting the connection pieces 14 are provided on the partition wall board body 1.

During installation, the inserting plate 10 of the partition wall board body 1 is inserted into the inserting groove 11, the inserting block 12 is inserted into the groove 13, the connecting sheet 14 is inserted into the mounting groove 15, and the bolts penetrate through the through holes 100 to be in threaded connection with the partition wall board body 1, so that the two partition wall board bodies 1 can be conveniently and rapidly connected.

Referring to fig. 3, the embodiment of the application further discloses a construction method of the spliced thin-wall fireproof partition wall board structure, which comprises the following specific steps:

s1, cleaning sundries on a floor bottom plate by using a broom;

s2, respectively drawing a positioning line and an installation line on the floor top plate and the floor bottom plate;

s3, standing the profile vertical frame 2 and attaching the profile vertical frame to a wall according to the positioning and the mounting line, and then mounting the profile vertical frame on the wall through bolts;

s4, installing a lower U-shaped plate 4 on the floor bottom plate according to the positions of the installation line and the positioning line, fixing the lower U-shaped plate 4 by workers through a nail gun, and installing the upper U-shaped plate 3 on the floor top plate through an installation device until all the upper U-shaped plate 3 and the lower U-shaped plate 4 are completely installed;

s5, the partition wall board body 1 is simultaneously inserted into the upper U-shaped board 3 and the lower U-shaped board 4, the first partition wall board body 1 is simultaneously attached to the profile vertical frame 2, the inserting plate 10 is simultaneously inserted into the inserting groove 11 when the next partition wall board body 1 is installed, the inserting block 12 is inserted into the groove 13, the connecting sheet 14 is embedded into the mounting groove 15, and the bolts penetrate through the through holes 100 to be connected with the partition wall board body 1:

s6, repeating the step of installing the plates until all partition wall board bodies 1 are installed.

The partition wall board body 1 is fixed through the upper U-shaped board 3 and the lower U-shaped board 4, the partition wall board body 1 is installed through a dry method, a wet installation mode is replaced, dust generated by stirring an adhesive on a construction site is reduced, water and electricity are saved, the environment is protected, and the installation efficiency can be improved.

Referring to fig. 4, the profile vertical frame 2 in step S5 includes a vertical plate 20 provided on a wall, the vertical plate 20 is vertically provided, a positioning bar 21 inserted into the insertion groove 11 is provided on the vertical plate 20, a positioning block 22 inserted into the groove 13 is provided on the positioning bar 21, and a mounting piece 23 inserted into the mounting groove 15 is provided on the vertical plate 20.

Referring to fig. 4, the upper U-shaped board 3 and the lower U-shaped board 4 in step "S4" each include a transverse board 30, a limiting groove 31 is provided on the transverse board 30, the limiting groove 31 is provided along the length direction of the transverse board 30, the limiting groove 31 is used for inserting the partition wall board body 1, one end of the transverse board 30 is provided with an inserting strip 32, the other end of the transverse board 30 is provided with an inserting groove 33 for inserting the inserting strip 32, the inserting strip 32 is provided along the length direction of the transverse board 30, and a vertical board 20 is provided with a groove 24 for inserting the inserting strip 32.

When the wall panel is installed, firstly, the vertical plate 20 is erected, the vertical plate 20 is attached to the wall body, then bolts penetrate through the vertical plate 20 and are nailed on the wall body, then the cutting 32 of the first lower U-shaped plate 4 is inserted into the groove 24, then the nailing gun is used for penetrating through the transverse plate 30 and penetrating into the floor bottom plate, the second lower U-shaped plate 4 is aligned with the first lower U-shaped plate 4, the cutting 32 of the first lower U-shaped plate 4 is inserted into the groove 33 of the second lower U-shaped plate 4, the nailing gun is used for fixing the cutting 32, so that all lower U-shaped plates 4 are installed in a reciprocating mode, and the cutting 32 is inserted into the groove 24, so that the possibility of deflection between the lower U-shaped plates 4 is avoided, and the possibility of deflection of the partition wall panel body 1 is reduced.

After the U-shaped plate 3 is installed, the first partition wall board body 1 is inserted into the U-shaped plate 3 and the lower U-shaped plate 4 simultaneously, the mounting piece 23 on the vertical plate 20 is inserted into the mounting groove 15 of the first partition wall board body 1, the mounting piece 23 is connected with the partition wall board body 1 by using the bolts, and the rest partition wall board bodies 1 are sequentially inserted into the limiting grooves 31 of the U-shaped plate 3 and the lower U-shaped plate 4 and are connected by using the bolts, so that the partition wall board body 1 can be conveniently and rapidly installed.

Referring to fig. 3, the mounting device in step "S4" includes a moving frame 5 for mounting a plurality of upper U-shaped boards 3, a mounting assembly 6 for removing the upper U-shaped boards 3 one by one from the moving frame 5 and moving to a floor ceiling side is provided on the moving frame 5, and a clamping assembly 7 for moving a single upper U-shaped board 3 to the floor ceiling side and sleeving the upper U-shaped board 3 on an adjacent cutting 32 is provided on the mounting assembly 6.

Referring to fig. 5, the moving frame 5 includes a moving plate 50 and a moving bar 51 disposed on a bottom wall of the moving plate 50, the moving plate 50 is used for vertically placing a plurality of upper U-shaped plates 3, two opposite baffle plates 513 are disposed on the moving plate 50, the baffle plates 513 are in contact with side walls of the transverse plate 30, a bar slot 52 for inserting the inserting bar 32 is disposed on a top wall of the moving plate 50, the bar slot 52 is disposed along a length direction of the lower U-shaped plate 4, the moving bar 51 is slidably disposed in a limit slot 31 of the lower U-shaped plate 4, brackets 514 are disposed on both sides of the transverse plate 30 on the bottom wall of the moving plate 50, and rollers 515 moving on a floor bottom plate are disposed on the brackets 514; the roller 515 rolls on the floor base, so that the moving plate 50 can be conveniently moved, and the possibility of deflection of the moving frame 5 when moving can be reduced because the moving bar 51 slides in the limit groove 31 of the lower U-shaped plate 4.

Referring to fig. 6, two receiving grooves 516 are formed in the top wall of the moving plate 50, the bar-shaped groove 52 is located between the two receiving grooves 516, two oppositely arranged roll shafts 517 are rotatably arranged in the receiving grooves 516, the two roll shafts 517 are connected through a rolling belt 518, the rolling belt 518 is in contact with the end wall of the upper U-shaped plate 3, and a power member, such as a motor, for driving the roll shafts 517 to rotate can be arranged in the receiving grooves 516; the rolling belt 518 is used to contact the upper U-shaped plate 3, so that the sliding friction is changed into rolling friction, and the resistance of the upper U-shaped plate 3 moving on the moving plate 50 is reduced.

Before installing the upper U-shaped plates 3, first, a worker clamps a plurality of upper U-shaped plates 3 by using a forklift or other equipment, simultaneously places the upper U-shaped plates 3 on the moving plate 50, inserts the cutting 32 into the bar-shaped grooves 52, and positions the upper U-shaped plates 3 through the bar-shaped grooves 52, so that the possibility of deflection between the upper U-shaped plates 3 and the lower U-shaped plates 4 can be reduced.

Referring to fig. 6, the clamping assembly 7 includes a pushing cylinder 70 disposed on the mounting assembly 6, the axis of the pushing cylinder 70 is collinear with the moving track of the upper U-shaped board 3 on the moving board 50, a pneumatic clamping finger 71 for extending into the limit slot 31 of the upper U-shaped board 3 is disposed on the end wall of the piston rod of the pushing cylinder 70, and the pneumatic clamping finger 71 is used for clamping the upper U-shaped board 3 on the moving board 50 near the end thereof.

Referring to fig. 5, a mounting cavity 53 is provided in the moving plate 50, the mounting cavity 53 is located below the bar-shaped groove 52 and is communicated with the bar-shaped groove 52, a driving member 54 is provided in the mounting cavity 53, and the driving member 54 is used for driving the upper U-shaped plate 3 on the moving plate 50 to move to the clamping assembly 7 side.

Referring to fig. 7, the driving member 54 includes a mounting frame 55 disposed in the mounting cavity 53, a driving motor 56 is disposed in the mounting cavity 53, a driving rod 57 is coaxially disposed on a motor shaft of the driving motor 56, an axis of the driving rod 57 is perpendicular to a moving track of the upper U-shaped board 3 on the moving board 50, a driving wheel 58 is disposed on the driving rod 57, an axis of the driving wheel 58 is parallel to an axis of the driving rod 57, a rotating ring 59 is sleeved on an outer side wall of the driving wheel 58, a driven rod 500 is rotatably disposed on the mounting frame 55, a driven wheel 501 is disposed on the driven rod 500, an axis of the driven wheel 501 is parallel to an axis of the driven rod 500, a driven ring 502 is sleeved on the driven wheel 501, a transmission rod 503 is disposed between the rotating ring 59 and the driven ring 502, an axis of the transmission rod 503 is perpendicular to an axis of the driven rod 500, a linkage rod 504 is disposed on end walls of the driven rod 500 and the driving rod 57, swinging rods 505 are rotatably disposed on the two linkage rods 504, a sliding groove 510 for allowing the swinging rods 505 to pass through is disposed between the two swinging rods 505, the driving rods 506 include a connecting rod 508 connected with the two swinging rods 505, a plurality of driving blocks 507 are disposed on the connecting rod 508, and a plurality of driving blocks 507 are uniformly distributed along a plurality of lengths of driving blocks 50 for moving along the length direction of the driving rod 32, and the driving blocks are arranged on the driving blocks, and the driving blocks are distributed along the length direction of the length of the driving blocks and are arranged on the driving blocks.

Referring to fig. 8, the installation assembly 6 includes a supporting frame 60 disposed on the moving plate 50, a fixing sleeve 61 is disposed on the supporting frame 60, the fixing sleeve 61 is disposed vertically, a top wall of the fixing sleeve 61 contacts with a floor top plate, a moving rod 62 is disposed in the fixing sleeve 61 in a sliding manner, the length of the moving rod 62 is smaller than that of the fixing sleeve 61, a pushing cylinder 63 for driving the moving rod 62 to slide is disposed on the supporting frame 60, a piston rod of the pushing cylinder 63 is connected with the moving rod 62 in a rotating manner, and an axis of the pushing cylinder 63, an axis of the fixing sleeve 61 and an axis of the moving rod 62 are collinear;

the fixed sleeve 61 is provided with a spiral groove 64, the highest end of the spiral groove 64 is close to the top wall of the fixed sleeve 61, the lowest end of the spiral groove 64 is close to the bottom wall of the fixed sleeve 61, the side wall of the movable rod 62 is provided with a sliding column 65 sliding in the spiral groove 64, the rotating angle of the sliding column 65 in the spiral groove 64 is 180 degrees, one end of the sliding column 65 extending out of the spiral groove 64 is provided with a support bracket 66 for the pushing cylinder 70 to be installed, the support bracket 66 clamps the upper U-shaped plate 3 when the lowest end of the spiral groove 64 is located, and the pneumatic clamp finger 71 props the upper U-shaped plate 3 on the floor top plate when the support bracket 66 is located at the lowest end of the spiral groove 64.

The fixed cover 61 keeps away from the one end rotation of pushing away from cylinder 63 and is equipped with rotating plate 67, is equipped with riser 68 on the rotating plate 67, and riser 68 sets up along the axial of fixed cover 61, is equipped with the removal groove 69 that supplies slip post 65 to pass on the riser 68, and the axial of fixed cover 61 is followed to the removal groove 69 sets up, and one side that riser 68 kept away from fixed cover 61 is equipped with the mounting panel, is equipped with a plurality of teeth of a cogwheel 600 on the mounting panel, and a plurality of teeth of a cogwheel 600 are along the axial equipartition of fixed cover 61.

The support bracket 66 comprises a rotating frame which is connected with the sliding column 65 and penetrates out of the vertical plate 68, a rotating shaft 601 is rotatably connected to the rotating frame, a movable gear 602 meshed with the gear teeth 600 is arranged on the rotating shaft 601, a support plate 603 is arranged on the peripheral wall of the movable gear 602, a cylinder body of the pushing electric cylinder 70 is arranged on the support plate 603, the pushing electric cylinder 70 is arranged on one side close to the movable gear 602, the pneumatic clamping finger 71 is positioned on one side, far away from the movable gear 602, of the pushing electric cylinder 70, and the axis of the pushing electric cylinder 70, the axis of the fixed sleeve 61 and the central axis of the bar-shaped groove 52 are all positioned in the same plane;

when the upper U-shaped plate 3 is required to be installed, the pushing electric cylinder 70 pushes the pneumatic clamping finger 71 to move downwards, the clamping finger of the pneumatic clamping finger 71 stretches into the limit groove 31 of the upper U-shaped plate 3, the clamping finger of the pneumatic clamping finger 71 stretches and abuts against two groove walls of the limit groove 31, and the pushing electric cylinder 70 drives the pneumatic clamping finger 71 to reset, so that the upper U-shaped plate 3 is driven to be separated from the movable plate 50;

when the upper U-shaped plate 3 near the end of the moving plate 50 is separated from the moving plate 50, the driving motor 56 drives the driving rod 57 to rotate, thereby driving the driving wheel 58 and the rotating ring 59 to rotate, thereby driving the driving rod 503 to swing, driving the driven ring 502 and the driven wheel 501 to rotate, thereby driving the driven rod 500 to rotate, the driven rod 500 and the driving rod 57 can drive the linkage rod 504 to rotate downwards and then rotate far from the pneumatic clamping finger 71 side, the linkage rod 504 drives the connecting rod 508 and the driving block 507 to move downwards and then move far from the pneumatic clamping finger 71 side, the driven rod 500 and the driving rod 57 drive the linkage rod 504 to rotate towards the cutting 32 side, the connecting rod 508 and the driving block 507 can move upwards and be inserted between two adjacent cutting 32, the driven rod 500 and the driving rod 57 rotate towards the pneumatic clamping finger 71 side, thereby driving block 507 drives the cutting 32 to move towards the pneumatic clamping finger 71 side, and the baffle 513 limits the movement of the upper U-shaped plate 3 to the pneumatic clamping finger 71 side,

moreover, the movement track of the upper U-shaped plate 3 is limited by the strip-shaped groove 52, so that the possibility that the clamping fingers of the pneumatic clamping fingers 71 cannot be inserted into the limit groove 31 of the upper U-shaped plate 3 can be avoided.

When the pneumatic clamping fingers 71 are clamped to the upper U-shaped plate 3, the pushing cylinder 70 drives the pneumatic clamping fingers 71 to move upwards, the upper U-shaped plate 3 is separated from the movable plate 50, the pushing cylinder 63 pushes the movable rod 62 to move upwards, the sliding column 65 slides in the spiral groove 64, the sliding column 65 simultaneously moves in the movable groove 69, the sliding column 65 drives the vertical plate 68 to rotate, the movable gear 602 further rotates around the gear teeth 600, the bearing plate 603 is driven to rotate towards one side of the floor top plate until the upper U-shaped plate 3 on the bearing plate 603 is abutted against the floor top plate, and finally the pushing cylinder 70 pushes the cutting 32 on the upper U-shaped plate 3 to be inserted into the adjacent slot 33, so that the automatic installation of the upper U-shaped plate 3 can be realized, the manual installation of a worker is replaced, the workload of the worker is reduced, and the working efficiency is improved.

Since one end of the partition wall board body 1 needs to be inserted into the upper U-shaped board 3 and the other end needs to be inserted into the lower U-shaped board 4 when the partition wall board body 1 is installed, the limit groove 31 of the upper U-shaped board 3 and the limit groove 31 of the lower U-shaped board 4 need to be coplanar, in this embodiment, the bar-shaped groove 52 simultaneously limits the cutting 32 by sliding the moving bar 51 in the lower U-shaped board 4, and the pneumatic clamping finger 71 can be smoothly inserted into the limit groove 31 of the upper U-shaped board 3, the pushing cylinder 70 drives the pneumatic clamping finger 71 to move upwards, the pushing cylinder 63 pushes the moving rod 62 to move upwards, the sliding column 65 slides in the spiral groove 64, the moving rod 62 rotates 180 degrees in the fixed sleeve 61, the sliding column 65 drives the vertical plate 68 to rotate, the moving gear 602 further rotates upwards around the gear tooth 600, then drives the bearing plate 603 to rotate to the floor top plate side until the upper U-shaped board 3 on the bearing plate 603 collides with the floor top plate,

the implementation principle of the spliced thin-wall fireproof partition wall board structure is as follows: when the partition wall board is installed, the inserting plate 10 on the partition wall board body 1 is inserted into the inserting groove 11, and meanwhile the inserting block 12 is inserted into the groove 13, and the inserting plate 10, the inserting block 12 and the partition wall board body 1 are integrally formed, so that a mode of installing a bolt on an installation site by workers can be replaced, and the installation efficiency is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (7)

1. A construction method of a spliced thin-wall fireproof partition wall board structure is characterized by comprising the following steps of: the method comprises the following specific steps:

drawing lines: drawing positioning lines and mounting lines on the floor top plate and the floor bottom plate respectively;

and (3) installing a frame: according to the positions of the positioning lines and the mounting lines, the profile vertical frame (2) is mounted on a wall through bolts;

partition wall board body (1), partition wall board body (1) one side integrated into one piece has picture peg (10), the opposite side of partition wall board body (1) is equipped with supplies picture peg (10) male jack groove (11), the width of picture peg (10) is by being close to partition wall board body (1) one side is kept away from partition wall board body (1) one side is progressively decreased progressively, picture peg (10) are kept away from partition wall board body (1) one side integrated into one piece has a plurality of inserted block (12), a plurality of inserted block (12) are followed partition wall board body (1)'s direction of height equipartition, be equipped with on the groove diapire of jack groove (11) and supply inserted block (12) male recess (13);

a plurality of connecting pieces (14) are arranged on one side, close to the inserting grooves (11), of the partition wall board body (1), through holes (100) for inserting bolts are formed in the connecting pieces (14), and mounting grooves (15) for inserting the connecting pieces (14) are formed in the partition wall board body (1);

the partition wallboard body (1) comprises an inner core board layer (16), wherein heat insulation board layers (17) are arranged on two opposite sides of the inner core board layer (16), a fireproof board layer (18) is arranged on one side, far away from the inner core board layer (16), of the heat insulation board layer (17), and an outer wall board layer (19) is arranged on one side, far away from the heat insulation board layer (17), of the fireproof board layer (18);

installing a U-shaped plate: according to the positions of the mounting line and the positioning line, a lower U-shaped plate (4) is mounted on the floor bottom plate, the lower U-shaped plate (4) is fixed by a nail gun, and the upper U-shaped plate (3) is mounted on the floor top plate by a mounting device;

and (3) mounting plates: after all the upper U-shaped plates (3) and the lower U-shaped plates (4) are installed, the partition wall board body (1) is simultaneously inserted into the upper U-shaped plates (3) and the lower U-shaped plates (4), and then when the next partition wall board body (1) is installed, the inserting plate (10) is simultaneously inserted into the inserting groove (11), the inserting block (12) is inserted into the groove (13), the connecting sheet (14) is embedded into the mounting groove (15), and the bolts penetrate through the through holes (100) to be connected with the partition wall board body (1):

repeating the step of installing the plates until all partition wall board bodies (1) are installed.

2. The construction method of the spliced thin-wall fireproof partition wall board structure according to claim 1, wherein the construction method comprises the following steps: the profile vertical frame (2) in the installation frame comprises a vertical plate (20), wherein a positioning strip (21) inserted into the inserting groove (11) is arranged on the vertical plate (20), a positioning block (22) inserted into the groove (13) is arranged on the positioning strip (21), and an installation sheet (23) inserted into the installation groove (15) is arranged on the vertical plate (20).

3. The construction method of the spliced thin-wall fireproof partition wall board structure according to claim 2, wherein the construction method comprises the following steps: the utility model discloses a U-shaped board, including upper U-shaped board (3) and lower U-shaped board (4), including diaphragm (30), be equipped with on diaphragm (30) and supply partition wallboard body (1) male spacing groove (31), one side of diaphragm (30) is equipped with cutting (32), another of diaphragm (30) is equipped with supplies cutting (32) male slot (33), be equipped with on riser (20) and supply cutting (32) male type groove (24).

4. The construction method of the spliced thin-wall fireproof partition wall board structure according to claim 1, wherein the construction method comprises the following steps: the installation device in the step of installing the U-shaped plates comprises a movable rack (5) for installing the U-shaped plates (3) on a plurality of pieces, an installation component (6) for taking down the U-shaped plates (3) from the movable rack (5) one by one and moving the U-shaped plates to one side of the floor top plate is arranged on the movable rack (5), and a clamping component (7) for moving the single upper U-shaped plate (3) to one side of the floor top plate and sleeving the upper U-shaped plate (3) on the adjacent cutting (32) is arranged on the installation component (6).

5. The construction method of the spliced thin-wall fireproof partition wall board structure according to claim 4, wherein the construction method comprises the following steps: the movable frame (5) comprises a movable plate (50) for vertically placing the upper U-shaped plate (3) and a movable strip (51) arranged on the movable plate (50), the movable strip (51) is slidably arranged in a limit groove (31) of the lower U-shaped plate (4), the movable plate (50) is provided with a strip groove (52) for inserting the cutting (32), and the strip groove (52) is arranged along the length direction of the lower U-shaped plate (4);

a mounting cavity (53) communicated with the strip-shaped groove (52) is formed in the moving plate (50), a driving piece (54) is arranged in the mounting cavity (53), and the driving piece (54) is used for driving an upper U-shaped plate (3) on the moving plate (50) to move towards one side of the clamping assembly (7);

the utility model provides a drive piece (54) is including setting up mounting bracket (55) in installation cavity (53), be equipped with driving motor (56) in installation cavity (53), the motor shaft coaxial of driving motor (56) is equipped with actuating lever (57), be equipped with drive wheel (58) on actuating lever (57), the axis of drive wheel (58) with the axis of actuating lever (57) is parallel, the cover is equipped with swivel becket (59) on drive wheel (58) lateral wall, it is equipped with driven lever (500) to rotate on mounting bracket (55), be equipped with driven wheel (501) on driven lever (500), the axis of driven wheel (501) with the axis of driven lever (500) is parallel, the cover is equipped with from moving ring (502) on driven wheel (501), all be equipped with gangbar (504) on rotating ring (59) and actuating lever (502), two all rotate on swinging becket (504) and be equipped with swinging arms (505), two be equipped with between swinging arms (505) drive piece (506) and be equipped with on driving piece (506) and be used for driving piece (32).

6. The construction method of the spliced thin-wall fireproof partition wall board structure according to claim 5, wherein the construction method comprises the following steps: the installation assembly (6) comprises a support frame (60) arranged on the movable plate (50), a fixed sleeve (61) is arranged on the support frame (60), the fixed sleeve (61) is vertically arranged, a movable rod (62) is arranged in a sliding mode in the fixed sleeve (61), a pushing cylinder (63) used for driving the movable rod (62) to slide is arranged on the support frame (60), a piston rod of the pushing cylinder (63) is rotationally connected with the movable rod (62), one end, far away from the pushing cylinder (63), of the fixed sleeve (61) is close to a floor top plate, and the axis of the pushing cylinder (63), the axis of the fixed sleeve (61) and the axis of the movable rod (62) are collinear;

be equipped with helicla flute (64) on fixed cover (61), the highest one end of helicla flute (64) is close to the roof of fixed cover (61), the lowest one end of helicla flute (64) is close to the diapire of fixed cover (61), be equipped with on the lateral wall of movable rod (62) and carry out gliding slip post (65) in helicla flute (64), the one end that slip post (65) stretches out helicla flute (64) is equipped with support bracket (66) that supply clamping assembly (7) to install, support bracket (66) are when helicla flute (64) extreme, U template (3) are gone up in clamping assembly (7) centre gripping, support bracket (66) are in when helicla flute (64) extreme, clamping assembly (7) will go up U template (3) conflict on the floor roof.

7. The construction method of the spliced thin-wall fireproof partition wall board structure according to claim 6, wherein the construction method comprises the following steps: one end of the fixed sleeve (61) far away from the pushing cylinder (63) is rotationally provided with a rotating plate (67), the rotating plate (67) is provided with a vertical plate (68), the vertical plate (68) is arranged along the axial direction of the fixed sleeve (61), the vertical plate (68) is provided with a moving groove (69) for the sliding column (65) to pass through, one side of the vertical plate (68) far away from the fixed sleeve (61) is provided with a plurality of gear teeth (600), and the plurality of gear teeth (600) are uniformly distributed along the axial direction of the fixed sleeve (61);

the support bracket (66) comprises a rotating shaft (601) rotationally connected with the sliding column (65), a moving gear (602) meshed with the gear teeth (600) is arranged on the rotating shaft (601), and a support plate (603) is arranged on the peripheral wall of the moving gear (602);

the clamping assembly (7) comprises a pushing electric cylinder (70) arranged on the bearing plate (603), and a pneumatic clamping finger (71) which is used for extending into the limiting groove (31) is arranged on the end wall of a piston rod of the pushing electric cylinder (70).