CN220868578U - Novel light paper gypsum board - Google Patents

Abstract

The utility model discloses a novel light paper gypsum board, which relates to the technical field of paper gypsum boards and comprises a first paper gypsum board and a second paper gypsum board, wherein a first T-shaped chute is formed in the first paper gypsum board. According to the utility model, through the arrangement of the limiting block, the first T-shaped sliding block and the transverse sliding block, when two paper plasterboards are required to be spliced, the first T-shaped sliding block on the second paper plasterboard is aligned with the first T-shaped sliding groove and inserted into the first T-shaped sliding groove, so that the first paper plasterboard and the second paper plasterboard are not easy to separate when being subjected to transverse force, then the transverse sliding block is pushed by the shifting block, and the transverse sliding block slides to drive the limiting block to slide into the second positioning groove of the first T-shaped sliding block for clamping, so that the first paper plasterboard and the second paper plasterboard are not separated when being subjected to vertical force, the first paper plasterboard and the second paper plasterboard can be spliced more firmly, and shaking does not occur in the using process.

Description

Novel light paper gypsum board

Technical Field

The utility model relates to the technical field of paper gypsum boards, in particular to a novel light paper gypsum board.

Background

The paper gypsum board is made up by using building gypsum as main raw material, adding proper quantity of additive and fibre as board core, using special board paper as face-protecting material and adopting the processes of making them into the invented board material.

When two thistle boards need to be spliced and used, the two thistle boards are bonded by glue generally, but the performance of glue can be weakened after long-time use, so that the glue is bonded unstably, the two thistle boards are separated, shake can occur in the use process, and daily use is inconvenient, so that the novel light thistle board is required to meet the demands of people.

Disclosure of utility model

The utility model aims to provide a novel light paper gypsum board, which solves the problems that the gypsum board spliced by glue in the background art is unstable, and the two paper gypsum boards are easily separated and shake in the use process.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a novel light paper gypsum board, includes first paper gypsum board and second paper gypsum board, first T type spout has been seted up on the first paper gypsum board, install first T type slider on the second paper gypsum board, first T type slider slidable mounting has seted up first constant head tank on the inner wall of first T type spout in first T type spout, the spacing groove has been seted up on the first paper gypsum board, the retention hole has been seted up on the bottom inner wall of spacing groove, slidable mounting has horizontal slider in the spacing groove, the shifting block is installed at the top of horizontal slider, vertical slider is installed to the bottom of horizontal slider, vertical slider slidable mounting is in the retention hole, install the stopper on the vertical slider, stopper slidable mounting is in first constant head tank, second constant head tank has been seted up on the first T type slider, stopper movable mounting is in the second constant head tank.

Preferably, two dead levers are installed on the bottom inner wall of the second positioning groove, telescopic rods are arranged on the dead levers in a sliding mode, connecting plates are installed on the telescopic rods, two sides of the connecting plates are respectively connected with the inner walls of two sides of the second positioning groove in a sliding mode, a plurality of movable inclined blocks are installed on the connecting plates, a plurality of clamping grooves are formed in limiting blocks, and the movable inclined blocks are movably installed in the clamping grooves.

Preferably, the telescopic rod and the fixing rod are sleeved with a retention spring, one end of the retention spring is arranged on the connecting plate, and the other end of the retention spring is arranged on the inner wall of the bottom of the second positioning groove.

Preferably, the second T-shaped sliding blocks are arranged on two sides of the connecting plate, second T-shaped sliding grooves are formed in inner walls of two sides of the second positioning groove, and the second T-shaped sliding blocks are slidably arranged in the second T-shaped sliding grooves.

Preferably, the fixing rod is provided with a retaining groove, and the telescopic rod is slidably arranged in the retaining groove.

Preferably, two positioning columns are arranged on the inner wall of the limiting groove, and the transverse sliding block is slidably arranged on the two positioning columns.

Preferably, the transverse sliding block is provided with a sliding hole, and the positioning column is slidably arranged in the sliding hole.

The beneficial effects of the utility model are as follows:

According to the utility model, through the arrangement of the structures such as the limiting block, the first T-shaped sliding block, the transverse sliding block and the like, when two thistle boards are required to be spliced, the first T-shaped sliding block on the second thistle board is aligned with the first T-shaped sliding groove and is inserted into the first T-shaped sliding groove, so that the first thistle board and the second thistle board are not easy to separate when being subjected to transverse force, then the transverse sliding block is pushed by the shifting block, the transverse sliding block slides to drive the vertical sliding block to slide, the vertical sliding block slides to drive the limiting block to slide, and the limiting block slides into the second positioning groove of the first T-shaped sliding block to be clamped, so that the first thistle board and the second thistle board are not separated when being subjected to vertical force, and the first thistle board and the second thistle board can be spliced more firmly, and do not shake in the use process.

According to the utility model, through the arrangement of the structures such as the movable inclined block, the retaining spring, the telescopic rod and the like, when the limiting block slides in the second positioning groove, one surface of the limiting block contacts with the inclined surface of the movable inclined block to drive the movable inclined block to slide downwards, the movable inclined block slides downwards to compress the retaining spring, and when the movable inclined block is overlapped with the clamping groove, the movable inclined block slides into the clamping groove to clamp and fix the limiting block under the elastic force of the retaining spring, so that the limiting block can be fixed in the second positioning groove, and the limitation of the first paper gypsum board and the second paper gypsum board is prevented from being lost when the limiting block slides out of the second positioning groove under the action of external force.

Drawings

FIG. 1 is a schematic diagram of a novel lightweight paper gypsum board according to the present utility model;

FIG. 2 is a cross-sectional view of a first paper gypsum board and a second paper gypsum board of a novel lightweight paper gypsum board according to the present utility model;

FIG. 3 is a schematic structural view of a second T-shaped slider, a telescopic rod, a fixed rod and other structures of a novel light paper gypsum board;

FIG. 4 is a cross-sectional view of a telescopic rod and fixed rod connection of a novel lightweight paper gypsum board according to the present utility model;

Fig. 5 is a schematic structural view of a second T-shaped chute, a first T-shaped slider and a second positioning slot of a novel lightweight paper gypsum board according to the present utility model.

In the figure: 1. a first paper faced gypsum board; 2. a second paper faced gypsum board; 3. a first T-shaped slider; 4. a first T-shaped chute; 5. a limit groove; 6. a retention hole; 7. a transverse slide block; 8. a vertical sliding block; 9. positioning columns; 10. a limiting block; 11. a first positioning groove; 12. a second positioning groove; 13. a movable sloping block; 14. a connecting plate; 15. a retention spring; 16. a clamping groove; 17. a shifting block; 18. a telescopic rod; 19. a fixed rod; 20. a second T-shaped slider; 21. a sliding hole; 22. a retention groove; 23. and a second T-shaped chute.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-5, a novel light paper plasterboard comprises a first paper plasterboard 1 and a second paper plasterboard 2, wherein a first T-shaped chute 4 is arranged on the first paper plasterboard 1, a first T-shaped sliding block 3 is arranged on the second paper plasterboard 2, a first positioning groove 11 is arranged on the inner wall of the first T-shaped chute 4 in a sliding manner, a limit groove 5 is arranged on the first paper plasterboard 1, a retention hole 6 is arranged on the inner wall of the bottom of the limit groove 5, a transverse sliding block 7 is arranged in the limit groove 5 in a sliding manner, a shifting block 17 is arranged at the top of the transverse sliding block 7, a vertical sliding block 8 is arranged at the bottom of the transverse sliding block 7, the vertical sliding block 8 is arranged in the retention hole 6 in a sliding manner, a limiting block 10 is arranged on the vertical sliding block 8, a limiting block 10 is arranged in the first positioning groove 11 in a sliding manner, a second positioning groove 12 is arranged on the first T-shaped sliding block 3, the limiting block 10 is movably arranged in the second positioning groove 12, when two thistle boards are needed to be spliced, the first T-shaped sliding block 3 on the second thistle board 2 is aligned with the first T-shaped sliding groove 4 on the first thistle board 1 and inserted into the first T-shaped sliding groove 4, so that the first thistle board 1 and the second thistle board 2 are not easy to separate when receiving transverse force, then the shifting block 17 is utilized to push the transverse sliding block 7, the transverse sliding block 7 slides to drive the vertical sliding block 8 to slide in the positioning hole 6, the vertical sliding block 8 slides to drive the limiting block 10 to slide in the first positioning groove 11 and the second positioning groove 12, thereby the limiting block 10 slides into the second positioning groove 12 of the first T-shaped sliding block 3 to be clamped, and the first thistle board 1 and the second thistle board 2 are not separated when receiving vertical force, thereby the first paper surface plasterboard 1 and the second paper surface plasterboard 2 can be spliced more firmly, and the shaking can not occur in the using process.

Referring to fig. 2-4, in the present utility model, two fixing rods 19 are installed on the inner wall of the bottom of the second positioning groove 12, a telescopic rod 18 is slidably installed on the fixing rods 19, a connecting plate 14 is installed on the telescopic rod 18, two sides of the connecting plate 14 are slidably installed on the inner walls of two sides of the second positioning groove 12 respectively, a plurality of movable inclined blocks 13 are installed on the connecting plate 14, a plurality of clamping grooves 16 are formed on the limiting block 10, the movable inclined blocks 13 are movably installed in the clamping grooves 16, a retaining spring 15 is sleeved on the telescopic rod 18 and the fixing rods 19, one end of the retaining spring 15 is installed on the connecting plate 14, the other end of the retaining spring 15 is installed on the inner wall of the bottom of the second positioning groove 12, a retaining groove 22 is formed on the fixing rod 19, the telescopic rod 18 is slidably mounted in the retaining groove 22, when the limiting block 10 slides in the second positioning groove 12, one surface of the limiting block 10 contacts with the inclined surface of the movable inclined block 13 to drive the movable inclined block 13 to slide downwards, at the moment, the telescopic rod 18 slides in the retaining groove 22 of the fixed rod 19 and is compressed to the retaining spring 15, when the movable inclined block 13 is overlapped with the clamping groove 16, the movable inclined block 13 slides into the clamping groove 16 to clamp and fix the limiting block 10 under the elastic force of the retaining spring 15, and therefore the limiting block 10 can be fixed in the second positioning groove 12, and the limitation of the first paper plasterboard 1 and the second paper plasterboard 2 is prevented from being lost outside the second positioning groove 12 under the action of external force.

Referring to fig. 3 and 5, in the present utility model, the two sides of the connecting plate 14 are respectively provided with the second T-shaped sliding blocks 20, the inner walls of the two sides of the second positioning slot 12 are respectively provided with the second T-shaped sliding grooves 23, the second T-shaped sliding blocks 20 are slidably mounted in the second T-shaped sliding grooves 23, the second T-shaped sliding grooves 23 play a certain limiting role on the connecting plate 14, and the second T-shaped sliding grooves 23 enable the connecting plate 14 to slide vertically only, so that the movable inclined blocks 13 can be ensured to slide into the clamping slots 16 to fix the limiting blocks 10.

Referring to fig. 2-3, in the present utility model, two positioning posts 9 are mounted on the inner wall of the limiting groove 5, the lateral sliding blocks 7 are slidably mounted on the two positioning posts 9, the lateral sliding blocks 7 are provided with sliding holes 21, the positioning posts 9 are slidably mounted in the sliding holes 21, and the positioning posts 9 play a certain limiting role on the lateral sliding blocks 7, so that the lateral sliding blocks 7 can slide more stably, and the limiting block 10 can slide into the second positioning groove 12 for clamping and retention.

The working principle of the utility model is as follows:

When two paper plasterboards are needed to be spliced, the first T-shaped sliding block 3 on the second paper plasterboard 2 is aligned with the first T-shaped sliding groove 4 on the first paper plasterboard 1 and inserted into the first T-shaped sliding groove 4, so that the first paper plasterboard 1 and the second paper plasterboard 2 are not easy to separate when being subjected to transverse force, the transverse sliding block 7 is pushed by the shifting block 17, the transverse sliding block 7 slides to drive the vertical sliding block 8 to slide in the retention hole 6, the vertical sliding block 8 slides to drive the limiting block 10 to slide in the first positioning groove 11 and the second positioning groove 12, so that the limiting block 10 slides to the second positioning groove 12 of the first T-shaped sliding block 3, the first paper plasterboard 1 and the second paper plasterboard 2 cannot be separated when being subjected to vertical force, when the limiting block 10 slides in the second positioning groove 12, one surface of the limiting block 10 contacts with the inclined surface of the movable inclined block 13 to drive the movable inclined block 13 to slide downwards, the telescopic rod 18 slides in the retention groove 22 of the fixing rod 19 and compresses the inclined block 15 to the movable inclined block 13, the second paper plasterboard 16 can be prevented from being clamped with the second paper plasterboard 2, and the second paper plasterboard 2 can be prevented from being clamped by the second positioning groove 12 and the second paper plasterboard 2 to be clamped by the second positioning groove 12, and the second paper plasterboard 2 can be more firmly clamped by the elastic force in the second positioning groove 1 and the second paper plasterboard 1 and the second positioning groove 1 when the second paper plasterboard is fixed.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. A novel light paper gypsum board is characterized in that: including first paper gypsum board (1) and second paper gypsum board (2), first T type spout (4) have been seted up on first paper gypsum board (1), install first T type slider (3) on second paper gypsum board (2), first T type slider (3) slidable mounting is in first T type spout (4), first constant head tank (11) have been seted up on the inner wall of first T type spout (4), spacing groove (5) have been seted up on first paper gypsum board (1), retention hole (6) have been seted up on the bottom inner wall of spacing groove (5), slidable mounting has horizontal slider (7) in spacing groove (5), shifting block (17) are installed at the top of horizontal slider (7), vertical slider (8) slidable mounting is in retention hole (6) in the bottom of horizontal slider (7), install stopper (10) on vertical slider (8), stopper (10) slidable mounting is in first constant head tank (11), spacing groove (12) are seted up on first T type slider (3), second constant head tank (12) are installed in second constant head tank (12).

2. A novel lightweight paper faced gypsum board as set forth in claim 1, wherein: install two dead levers (19) on the bottom inner wall of second constant head tank (12), slide on dead lever (19) and have telescopic link (18), install connecting plate (14) on telescopic link (18), the both sides of connecting plate (14) respectively with the both sides inner wall sliding connection installation of second constant head tank (12), install a plurality of activity sloping blocks (13) on connecting plate (14), a plurality of joint grooves (16) have been seted up on stopper (10), activity sloping blocks (13) movable mounting is in joint groove (16).

3. A novel lightweight paper faced gypsum board as set forth in claim 2, wherein: the telescopic rod (18) and the fixed rod (19) are sleeved with a retention spring (15), one end of the retention spring (15) is installed on the connecting plate (14), and the other end of the retention spring (15) is installed on the inner wall of the bottom of the second positioning groove (12).

4. A novel lightweight paper faced gypsum board as set forth in claim 2, wherein: the two sides of the connecting plate (14) are provided with second T-shaped sliding blocks (20), the inner walls of the two sides of the second positioning groove (12) are provided with second T-shaped sliding grooves (23), and the second T-shaped sliding blocks (20) are slidably arranged in the second T-shaped sliding grooves (23).

5. A novel lightweight paper faced gypsum board as set forth in claim 2, wherein: the fixing rod (19) is provided with a retaining groove (22), and the telescopic rod (18) is slidably arranged in the retaining groove (22).

6. A novel lightweight paper faced gypsum board as set forth in claim 1, wherein: two positioning columns (9) are arranged on the inner wall of the limiting groove (5), and the transverse sliding block (7) is slidably arranged on the two positioning columns (9).

7. The novel lightweight paper faced gypsum board of claim 6, wherein: the transverse sliding block (7) is provided with a sliding hole (21), and the positioning column (9) is slidably arranged in the sliding hole (21).