CN220266924U - Structure is assembled to light building wallboard - Google Patents

Abstract

The utility model discloses an assembly structure of light building wallboards, which belongs to the technical field of light building wallboards and aims at solving the problems of low compactness and low connection strength of the light building wallboards during assembly and use, and the assembly structure comprises two light boards which are distributed in parallel, wherein a butt joint frame is arranged between the two light boards, and the assembly structure also comprises a positioning sleeve, a locking rod, a movable sleeve, a compression spring, an extrusion mechanism and a locking mechanism; according to the utility model, the two light plates synchronously move towards the butt joint frame, so that the two light plates and the butt joint frame are tightly attached and installed through the butt joint groove, meanwhile, the two extrusion blocks are in plug-in installation, the connection strength of the two light plates and the butt joint frame is improved, the two light plates and the butt joint frame are further reinforced through the embedded arrangement of the two sealing blocks, and the locking nuts are used for locking the two light plates and the butt joint frame, so that the connection strength of the two light plates and the butt joint frame is greatly improved, and the use stability of the butt joint frame after butt joint and splicing is effectively ensured.

Description

Structure is assembled to light building wallboard

Technical Field

The utility model belongs to the technical field of light building wallboards, and particularly relates to a light building wallboard assembling structure.

Background

The light wallboard is a short name of a light partition board for building in national standard GB/T23451-2009, and is made of light materials or light structures, tenon mortises and joint slots are arranged on two side surfaces of the light partition board, the surface density is not more than a standard specified value, and the light partition board is used for non-bearing inner partition walls of industrial and civil buildings, and the used raw materials meet JG/T169-2016 standard.

At present, the light wallboards are spliced by adopting a convex-concave structure, but the installation form enables a larger gap to exist between the two wallboards, other boards are generally required to be used for connecting the two wallboards, the connection mode can enable the compactness between the two wallboards to be reduced, the problems of bending and even breakage are easy to occur, and meanwhile, the stability of the connecting part can be reduced.

Therefore, a light building wallboard assembling structure is needed, and the problems of low compactness and low connection strength of the light building wallboard in the prior art during the assembling and using are solved.

Disclosure of Invention

The utility model aims to provide a light building wallboard assembling structure, which solves the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a structure is assembled to light building wallboard, includes two light boards that are parallel distribution, two be provided with the butt joint frame between the light board still includes:

the four butt joint grooves are respectively formed in two adjacent sides of two end faces of the light plate, and the inner walls of the butt joint frames are attached to the inner walls of the four butt joint grooves;

the four positioning sleeves are symmetrically fixed on the inner walls of the two sides of the butt joint frame, the inner wall of each positioning sleeve penetrates through a locking rod in a sliding mode, the outer surface of the end part of each locking rod is fixedly sleeved with a movable sleeve, and compression springs fixed on the opposite surfaces of the movable sleeve and the adjacent positioning sleeve are arranged inside each locking rod;

four mounting grooves are symmetrically formed in the opposite side walls of the two light plates, the positioning sleeve and the moving sleeve which are close to each other are located on the inner walls of the mounting grooves, an extrusion mechanism matched with the moving sleeve is arranged between the two mounting grooves at the same height, and locking mechanisms matched with the locking rods are arranged at the top and the bottom of the butt joint frame.

In one embodiment, the pressing mechanism includes:

the two extrusion blocks are symmetrically distributed on the inner walls of the two sides of the butt joint frame, extrusion rods are fixed on the opposite surfaces of the two extrusion blocks, the two extrusion rods are in parallel dislocation distribution, ejection springs fixed on the opposite surfaces of the extrusion blocks and the butt joint frame are arranged on the outer surfaces of the extrusion rods, and connecting rods are hinged between the inner surfaces of the extrusion blocks and the outer surfaces of the adjacent movable sleeves;

the two jacks are arranged between the opposite surfaces of the two extrusion blocks in a staggered distribution mode, and one end, far away from the extrusion blocks, of the extrusion rod penetrates through the inner wall of the butt joint frame in a sliding mode and extends to the inside of the jack.

It is further worth to say that the outer terminal surface of extrusion piece is offered and is linked together the through-hole that sets up with the jack, the butt joint groove department of light board has been offered and has been linked together the through-hole that distributes with the through-hole is coaxial, the through-hole and adjacent peg graft between the through-hole has first fixed pin.

It should be further noted that the locking mechanism includes:

the two placing grooves are formed in the tops and bottoms of the two light plates and the butt joint frame, the inner wall of each placing groove is embedded with a sealing block, and the end part of the locking rod sequentially penetrates through the mounting groove, the placing groove and the sealing block;

the two locking nuts are arranged on the top surface of the sealing block, the end part of the locking rod is provided with a thread groove, and the locking nuts are in threaded connection with the thread groove of the locking rod.

As a preferable implementation mode, the outer surface of the sealing block, the outer surfaces of the two lightweight plates and the outer surface of the butt joint frame are positioned on the same horizontal plane, and the outer surface of the sealing block is provided with an inner groove matched with the locking nut.

As a preferred implementation mode, the cross section of the sealing block is distributed in a cross shape, a limiting hole is formed between the sealing block and two end faces of the butt joint groove, and a second fixing pin is inserted into the limiting hole.

Compared with the prior art, the light building wallboard assembling structure provided by the utility model at least comprises the following beneficial effects:

(1) Through two light boards synchronous towards butt joint frame department remove, can make two light boards and butt joint frame form closely laminating installation through the butt joint groove, two extrusion piece formation grafting installation simultaneously, improve the joint strength of two light boards and butt joint frame, through two sealing block gomphosis setting for two light boards and butt joint frame department carry out further strengthening, and carry out locking processing with it through locking nut, thereby improve the joint strength of two light boards and butt joint frame greatly, effectively ensure its stability in use after the butt joint concatenation.

(2) The setting of first fixed pin for four stable block of extrusions place in the mounting groove, further improve its joint strength, the setting of second fixed pin, firmly peg graft sealed piece in the standing groove, both can improve the stability of placing of sealed piece in the standing groove, can strengthen the stability of locking lever and locking nut's screw locking again to a certain extent, thereby improve the joint strength of two light boards and butt joint frame greatly.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the light board separation state structure of the present utility model;

FIG. 3 is an enlarged schematic view of the area A of FIG. 2 according to the present utility model;

FIG. 4 is a schematic view of a partial structure of the pressing mechanism of the present utility model;

fig. 5 is a schematic view of a partial structure of the butt joint groove and the through hole of the present utility model.

In the figure: 1. a lightweight board; 2. a butt joint frame; 3. a butt joint groove; 4. a positioning sleeve; 5. a locking lever; 6. a moving sleeve; 7. a compression spring; 8. a mounting groove; 9. an extrusion mechanism; 91. extruding a block; 92. an extrusion rod; 93. an ejector spring; 94. a connecting rod; 95. a jack; 10. a locking mechanism; 101. a placement groove; 102. a sealing block; 103. a locking nut; 11. a through hole; 12. a through hole; 13. a first fixing pin; 14. a built-in groove; 15. a limiting hole; 16. and a second fixing pin.

Detailed Description

The utility model is further described below with reference to examples.

Referring to fig. 1-5, the utility model provides a light building wallboard assembly structure, which comprises two light boards 1 which are distributed in parallel, a butt joint frame 2 is arranged between the two light boards 1, and the light building wallboard assembly structure also comprises four butt joint grooves 3, wherein the four butt joint grooves 3 are respectively arranged on two adjacent sides of two end surfaces of the two light boards 1, and the inner wall of the butt joint frame 2 is attached to the inner walls of the four butt joint grooves 3;

the four positioning sleeves 4 are symmetrically fixed on the inner walls of the two sides of the butt joint frame 2, the inner wall of each positioning sleeve 4 is penetrated by a locking rod 5 in a sliding way, the outer surface of the end part of each locking rod 5 is fixedly sleeved with a movable sleeve 6, and the inside of each locking rod 5 is provided with a compression spring 7 fixed on the opposite surfaces of the movable sleeve 6 and the adjacent positioning sleeve 4;

four mounting grooves 8, four mounting grooves 8 are the symmetry and set up in the relative lateral wall of two light boards 1, and the locating sleeve 4 that is close to each other all is located the inner wall of mounting groove 8 with moving sleeve 6, is provided with between two mounting grooves 8 that are located same height and moves 6 matched with extrusion mechanism 9, and butt joint frame 2's top and bottom all are provided with locking lever 5 matched with locking mechanism 10.

Notably, the light board 1 is provided with the mounting groove 8 in advance through the side surface spliced by the light board 1, the butt joint groove 3 is provided at the outer end of the mounting groove 8, and the movable sleeve 6, the positioning sleeve 4, the compression spring 7 and the extrusion mechanism 9 are mounted with the butt joint frame 2 in advance, so that convenience in butt joint splicing of two subsequent light boards 1 and the butt joint frame 2 is improved, when the compression spring 7 is mounted on the butt joint frame 2, the end part of the locking rod 5 is positioned in the positioning sleeve 4, and therefore the positioning sleeve 4 is convenient to align and move with the mounting groove 8 in the initial position.

As further shown in fig. 2, 3 and 4, it is worth specifically explaining that the extrusion mechanism 9 includes two extrusion blocks 91, the two extrusion blocks 91 are symmetrically distributed on the inner walls of two sides of the butt joint frame 2, the opposite surfaces of the two extrusion blocks 91 are both fixed with extrusion rods 92, the two extrusion rods 92 are distributed in parallel and in a staggered manner, the outer surfaces of the extrusion rods 92 are provided with ejection springs 93 fixed on the opposite surfaces of the extrusion blocks 91 and the butt joint frame 2, and a connecting rod 94 is hinged between the inner surface of the extrusion block 91 and the outer surface of the adjacent movable sleeve 6;

the two jacks 95, the two jacks 95 are arranged between the opposite surfaces of the two extrusion blocks 91 in a staggered distribution, and one end of the extrusion rod 92, which is far away from the extrusion block 91, penetrates through the inner wall of the butt joint frame 2 in a sliding manner and extends to the inside of the jacks 95.

It should be noted that, when the locking bar 5 is not installed, the distance between the two pressing blocks 91 is larger by the action of the compression spring 7 and the connecting rod 94 and by the elastic force of the ejection spring 93, and when the pressing blocks 91 contact with the installation groove 8 of the lightweight board 1, the pressing blocks are pressed to drive the pressing bars 92 and the locking bar 5 to move toward the center of the docking frame 2 and the top or bottom of the docking frame 2, respectively.

As further shown in fig. 1, 3 and 4, it is worth specifically describing that the locking mechanism 10 includes two placement grooves 101, the two placement grooves 101 are formed in the top and bottom of the two light boards 1 and the docking frame 2, the inner wall of each placement groove 101 is provided with a sealing block 102 in a jogged manner, and the end of the locking rod 5 sequentially penetrates through the mounting groove 8, the placement groove 101 and the sealing block 102;

the two locking nuts 103, the two locking nuts 103 are all arranged on the top surface of the sealing block 102, the end part of the locking rod 5 is provided with a thread groove, and the locking nuts 103 are in threaded connection with the thread groove of the locking rod 5.

The scheme comprises the following working processes: when two light boards 1 are transversely spliced and installed, firstly, the butt joint frame 2 is tiled and placed on the ground of an installation area and is positioned, locked and installed, then the installation grooves 8 of the two light boards 1 are aligned with the extrusion blocks 91 and the positioning sleeve 4, so that the two light boards 1 are synchronously moved towards the butt joint frame 2 until the inner walls of the installation grooves 8 are contacted with the extrusion blocks 91, the two light boards 1 are subjected to joint treatment through the butt joint groove 3, the extrusion blocks 91 drive the extrusion rods 92 at two ends to move towards the center synchronously until the extrusion blocks are inserted into the insertion holes 95, meanwhile, the locking rods 5 are driven to move towards the position of the placing grooves 101 through the transmission effect of the connecting rods 94, when the light boards 1 are jointed and butted with the butt joint frame 2 and the locking rods 5 are extended out, the sealing blocks 102 are arranged at the position of the locking rods 5 in the placing grooves 101 in a jogged mode, and finally, the locking nuts 103 are screwed with the locking rods 5 until the two light boards 1 are tightly spliced and installed, and the two light boards 2 are tightly spliced and installed.

The working process can be as follows: through two light boards 1 synchronous towards butt joint frame 2 departments remove, can make two light boards 1 and butt joint frame 2 form closely laminating installation through butt joint groove 3, extrusion piece 91 block sets up in the mounting groove 8 of light board 1 simultaneously, and two extrusion poles 92 insert to jack 95 in, form the grafting installation with two extrusion pieces 91, improve the joint strength of two light boards 1 and butt joint frame 2, drive four locking bars 5 outward movements simultaneously, further improve the joint strength of two light boards 1 and butt joint frame 2, then go on further strengthening through two sealing blocks 102 gomphosis setting for two light boards 1 and butt joint frame 2 departments, and carry out locking processing through locking nut 103 with it, thereby improve the joint strength of two light boards 1 and butt joint frame 2 greatly, effectively ensure its stability in use after the butt joint concatenation.

Further, as shown in fig. 1 and 3, it is worth specifically explaining that the outer surface of the sealing block 102, the outer surfaces of the two light boards 1 and the outer surface of the butt joint frame 2 are located on the same horizontal plane, the inner groove 14 matched with the locking nut 103 is formed on the outer surface of the sealing block 102, and the shape of the inner groove 14 and the sealing block 102 are set, so that the overall aesthetic degree of the two light boards 1 and the butt joint frame 2 during butt joint and splicing is improved.

Further, as shown in fig. 4 and 5, it is worth specifically explaining that the through hole 11 which is connected with the jack 95 is provided on the outer end surface of the extrusion block 91, the through hole 12 which is coaxially connected with the through hole 11 and distributed is provided on the butt joint groove 3 of the light board 1, the first fixing pin 13 is inserted between the through hole 11 and the adjacent through hole 12, the cross section of the sealing block 102 is crisscross distributed, the limiting hole 15 is provided between the sealing block 102 and the two end surfaces of the butt joint groove 3, the second fixing pin 16 is inserted in the limiting hole 15, the first fixing pin 13 is provided, so that the four extrusion blocks 91 are stably clamped in the mounting groove 8, meanwhile, the end part of the extrusion rod 92 is contacted with the first fixing pin 13, the connection strength of the four extrusion blocks is further improved, the second fixing pin 16 is provided, the sealing block 102 is firmly inserted in the mounting groove 101, the stability of the sealing block 102 in the mounting groove 101 can be improved, the stability of the locking rod 5 and the locking nut 103 can be enhanced to a certain extent, and the connection strength of the two light boards 1 and the butt joint frame 2 is greatly improved.

To sum up: the two light plates 1 move towards the butt joint frame 2 synchronously, so that the two light plates 1 and the butt joint frame 2 are tightly attached and installed through the butt joint groove 3, meanwhile, the two extrusion blocks 91 are in plug-in connection and installation, the connection strength of the two light plates 1 and the butt joint frame 2 is improved, the two light plates 1 and the butt joint frame 2 are further reinforced through the embedded arrangement of the two sealing blocks 102, and are locked through the locking nuts 103, so that the connection strength of the two light plates 1 and the butt joint frame 2 is greatly improved, and the use stability of the butt joint frame after butt joint and splicing is effectively ensured;

the setting of first fixed pin 13 for four extrusion piece 91 stable block are placed in mounting groove 8, further improve its joint strength, and the setting of second fixed pin 16 carries out firm grafting with sealing block 102 in standing groove 101, both can improve sealing block 102 and place stability in standing groove 101, can strengthen locking lever 5 and locking nut 103's screw locking's stability to a certain extent again, thereby improve two light boards 1 and butt joint frame 2's joint strength greatly.

Claims (6)

1. The utility model provides a structure is assembled to light building wallboard, includes two light board (1) that are parallel distribution, two be provided with between light board (1) butt joint frame (2), its characterized in that still includes:

the four butt joint grooves (3) are respectively formed in two adjacent sides of two end faces of the light plates (1), and the inner walls of the butt joint frames (2) are attached to the inner walls of the four butt joint grooves (3);

the four positioning sleeves (4) are symmetrically fixed on the inner walls of the two sides of the butt joint frame (2), the inner wall of each positioning sleeve (4) is penetrated with a locking rod (5) in a sliding way, the outer surface of the end part of each locking rod (5) is fixedly sleeved with a movable sleeve (6), and a compression spring (7) fixed on the opposite surface of the movable sleeve (6) and the adjacent positioning sleeve (4) is arranged in each locking rod (5);

four mounting grooves (8), four mounting grooves (8) are the symmetry and set up in the relative lateral wall of two light boards (1), and locating sleeve (4) and the removal cover (6) that are close to each other all are located the inner wall of mounting groove (8), are provided with between two mounting grooves (8) that are located same height with remove cover (6) matched with extrusion mechanism (9), the top and the bottom of butt joint frame (2) all are provided with locking mechanism (10) with locking lever (5) matched with.

2. A lightweight building wallboard construction according to claim 1, wherein: the pressing mechanism (9) includes:

the two extrusion blocks (91), the two extrusion blocks (91) are symmetrically distributed on the inner walls of the two sides of the butt joint frame (2), extrusion rods (92) are fixed on the opposite surfaces of the two extrusion blocks (91), the two extrusion rods (92) are distributed in parallel and in a dislocation manner, ejection springs (93) fixed on the opposite surfaces of the extrusion blocks (91) and the butt joint frame (2) are arranged on the outer surfaces of the extrusion rods (92), and connecting rods (94) are hinged between the inner surfaces of the extrusion blocks (91) and the outer surfaces of the adjacent movable sleeves (6);

two jacks (95), two jacks (95) are arranged between opposite surfaces of two extrusion blocks (91) in a staggered distribution mode, and one end, away from the extrusion blocks (91), of the extrusion rod (92) slides to penetrate through the inner wall of the butt joint frame (2) and extend to the inside of the jacks (95).

3. A lightweight building wallboard construction according to claim 2, wherein: the outer end face of the extrusion block (91) is provided with a through hole (11) which is communicated with the jack (95), the butt joint groove (3) of the light plate (1) is provided with through holes (12) which are coaxially communicated with the through hole (11), and a first fixing pin (13) is inserted between the through hole (11) and the adjacent through holes (12).

4. A lightweight building wallboard construction according to claim 1, wherein: the locking mechanism (10) comprises:

the two placing grooves (101) are formed in the tops and bottoms of the two light plates (1) and the butt joint frame (2), sealing blocks (102) are embedded in the inner wall of each placing groove (101), and the end parts of the locking rods (5) sequentially penetrate through the mounting grooves (8), the placing grooves (101) and the sealing blocks (102);

the two locking nuts (103), the two locking nuts (103) are arranged on the top surface of the sealing block (102), the end part of the locking rod (5) is provided with a thread groove, and the locking nuts (103) are in threaded connection with the thread groove of the locking rod (5).

5. The lightweight building wallboard construction of claim 4, wherein: the outer surface of the sealing block (102), the outer surfaces of the two light plates (1) and the outer surface of the butt joint frame (2) are positioned on the same horizontal plane, and the outer surface of the sealing block (102) is provided with a built-in groove (14) matched with the locking nut (103).

6. The lightweight building wallboard construction of claim 5, wherein: the cross section of the sealing block (102) is in cross-shaped distribution, a limiting hole (15) is formed between the sealing block (102) and two end faces of the butt joint groove (3), and a second fixing pin (16) is inserted into the limiting hole (15).