CN115405043B

CN115405043B - Wallboard for assembled building

Info

Publication number: CN115405043B
Application number: CN202210849970.3A
Authority: CN
Inventors: 杨茂华; 郭俊雄; 韩玉麒
Original assignee: Chongqing Jianzhu College
Current assignee: Chongqing Jianzhu College
Priority date: 2022-07-19
Filing date: 2022-07-19
Publication date: 2023-06-13
Anticipated expiration: 2042-07-19
Also published as: CN115405043A

Abstract

The invention relates to the technical field of wallboards for building house components, and discloses an assembled wallboard for a building, which comprises a wallboard body, wherein the wallboard body comprises a connecting piece, two board bodies and two supporting boards, and the two board bodies are connected through the connecting piece; the plate bodies are provided with sliding grooves, the directions of the notch of the sliding grooves on the two plate bodies are opposite, and the supporting plate is in sliding fit with the sliding grooves; the method is characterized in that: the lateral wall both sides of backup pad are equipped with the guide way respectively, and sliding connection has the flitch that is used for with the board body subsides in the guide way, still includes the drive structure that is used for driving two flitches simultaneous movement. The problem that current single wallboard was damaged easily under the effect of external force has mainly been solved to this scheme.

Description

Wallboard for assembled building

Technical Field

The invention relates to the technical field of wallboards for building house components, in particular to an assembled wallboard for a building.

Background

The assembled building is formed by transferring a large amount of field operation work in the traditional building mode to a factory, processing and manufacturing building components and accessories in the factory, such as floors, wallboards, stairs, balconies and the like, transporting to a building construction site, and assembling and installing the building on site in a reliable connection mode; among them, wallboard is most frequently used and the demand is also greatest. At present, the assembled building needs to be internally provided with a pipeline, in particular to the pipeline is arranged in a wallboard; in the actual use, the wallboard is inconvenient to dismantle after finishing the installation, if the pipeline goes wrong, can only maintain it through destroying the wallboard, and after the pipeline maintenance, still need repair the wallboard again or change the wallboard, lead to maintenance work loaded down with trivial details, and with high costs.

To solve the above problems, chinese patent CN109779142B discloses a detachable wall panel applied to an assembled building, comprising a left wall panel, a right wall panel and a middle panel vertically disposed between the left wall panel and the right wall panel, wherein the middle panel is used for connecting the left wall panel and the right wall panel, two opposite ends of the left wall panel and the right wall panel are respectively provided with a fastener, the middle panel is provided with a connector for connecting the fasteners on the left wall panel and the right wall panel together, and a pipeline channel for pipeline passing is formed in the middle panel; the wall plate can be directly disassembled under the condition that the wall plate structure is not damaged, and after the maintenance of the pipeline is completed, the wall plate is assembled again, so that the maintenance work is effectively simplified, and the maintenance cost is also reduced.

In the above patent, the single wallboard comprises an inner wallboard and an outer wallboard, and a supporting plate is arranged between the inner wallboard and the outer wallboard to ensure that the distance between the inner wallboard and the outer wallboard is kept unchanged; in the actual use process, the support of the support plate on the inner wall plate and the outer wall plate can be regarded as point support, namely, the support effect on the inner wall plate and the outer wall plate is poor; when external force acts on the external wall panel and is located the both sides of backup pad, then the external wall panel can be along backup pad position fracture or damage.

Disclosure of Invention

The invention aims to provide a wallboard for an assembled building, which solves the problem that the existing single wallboard is easy to damage under the action of external force.

In order to achieve the above purpose, the invention adopts the following technical scheme: the wallboard for the assembled building comprises a wallboard body, wherein the wallboard body comprises a connecting piece, two board bodies and two supporting boards, and the two board bodies are connected through the connecting piece; the plate bodies are provided with sliding grooves, the directions of the notch of the sliding grooves on the two plate bodies are opposite, and the supporting plate is in sliding fit with the sliding grooves; the lateral wall both sides of backup pad are equipped with the guide way respectively, and sliding connection has the flitch that is used for with the board body subsides in the guide way, still includes the drive structure that is used for driving two flitches simultaneous movement.

Further, the driving structure comprises two movable arms which are hinged in a crossed manner; the flitch is provided with a side groove, and a side block is connected in the side groove in a sliding way; one end of the movable arm is hinged with the side block, and the other end of the movable arm is hinged with the flitch; the device also comprises a driving part for driving the two flitch plates to move simultaneously and a stopping part for stopping the two flitch plates simultaneously.

Further, the driving part comprises a gear and racks positioned at two sides of the gear, a cavity communicated with the guide groove is arranged in the supporting plate, a rotating shaft is rotationally connected in the cavity, the gear is fixedly connected with the rotating shaft, the gear is meshed with the two racks at the same time, and the movement directions of the two racks are opposite; one rack is connected with one flitch and the other rack is connected with the other flitch.

Further, the stop part comprises a stop block and a wedge block which is used for being attached to the plate body, the support plate is provided with a side groove which is communicated with the cavity, the wedge block is in sliding connection with the side groove, a spring is arranged between the wedge block and the support plate, and the movement of the wedge blocks on the two support plates is opposite; the flitch is provided with a wedge surface for extruding the wedge block; the top of the wedge block is provided with a first stop groove, the top of the plate body is provided with a plurality of second stop grooves, and the second stop groove on one plate body is positioned between two adjacent second stop grooves on the other plate body; when the flitch plates on the two support plates are respectively propped against the two plate bodies, the stop blocks are simultaneously matched with the first stop groove and the second stop groove in a sliding way, and the stop blocks are inclined at the moment; and a stopping unit for stopping the rotating shaft.

Further, the stop block is provided with a fixing plate, and the fixing plate is provided with an elastic layer for propping against the wedge block.

Further, one surface of the elastic layer, which is used for propping against the wedge block, is a first surface, and the first surface is far away from the fixed plate; the distance between the first surface and the fixed plate is gradually reduced from top to bottom, and the maximum distance between the first surface and the fixed plate is larger than the distance between the fixed plate and the wedge block.

Further, the stop unit comprises a stop arm and a wall block, a through hole is formed in the support plate, the through hole is positioned below the cavity, and the rotating shaft stretches into the through hole; the stop arm is fixedly connected to the rotating shaft and can rotate in the through hole; the wall block is fixedly connected to the side wall of the stop block, a bottom groove is formed in the wall block, and the stop arm is in sliding fit with the bottom groove.

The principle and the advantages of the scheme are as follows:

1. according to the scheme, the flitch and the wedge block are respectively additionally arranged on two sides of the supporting plate, and both the flitch and the wedge block are propped against the inner wall of the plate body, so that the supporting area of the supporting plate to the plate body can be prolonged through the flitch and the wedge block, and the supporting effect of the plate body is enhanced; compared with the prior art, when external force acts on the both sides that the plate body is located the backup pad, through flitch and voussoir extension backup pad to the effect of external force to the plate body can be reduced to the support area of plate body, also can greatly reduce the plate body and follow backup pad position fracture or damage, prolonged its life.

2. This scheme promotes a flitch in the backup pad and removes the period to the inner wall direction of plate body, can drive two flitch motions simultaneously through rack and pinion structure for two flitch paste mutually with the inner wall of two plate bodies respectively, with this realization is to the support of two plate bodies, and is easy and simple to handle, and the practicality is stronger.

3. During this scheme two flitch simultaneous movement, two movable arms are along with the interval change motion of two flitch for the side piece slides in the side groove, can improve the stability of two flitch simultaneous movement on the one hand, can play the supporting role to the flitch through two movable arms on the other hand, and then improves the stability that the flitch supported the plate body.

4. According to the scheme, the rotating shaft drives the gear to rotate, the gear is meshed with the two racks at the same time, so that the two racks move, and the two flitch plates are driven to respectively prop against the inner walls of the two plate bodies, so that the support of the plate bodies is realized; the rotating shaft can also drive the stop arm to rotate, and when the two flitch plates are respectively propped against the inner walls of the two plate bodies, the stop arm is positioned between the two support plates; both ends of the stop block simultaneously slide into the second stop grooves of the two plate bodies, so that the stop block can be positioned; simultaneously, the stop arm slides into the bottom groove at the bottom of the stop block, so that the stop of the stop arm is realized, and the flitch is further stopped through the rotating shaft, the gear and the rack.

5. According to the scheme, the stop block is matched with the stop arm to stop the flitch; when the flitch is stopped, the flitch stops the wedge block through the wedge surface; and when both ends of the stop block slide into the second stop grooves of the two plate bodies, the stop block also slides into the first stop grooves on the two wedge blocks at the same time, so that the stop effect on the wedge blocks is further enhanced, and the stability of the support of the wedge blocks to the plate bodies is further improved.

6. According to the scheme, the stop of the flitch and the wedge block can be realized through the stop block, and then the support of the plate body is realized through the flitch and the wedge block; in addition, the two wedges can be supported through the stop block, so that the stability of the wedges in supporting the plate body is improved.

7. According to the scheme, the stop block slides into the first stop groove and the second stop groove simultaneously, so that the stop of the flitch and the wedge block is realized, and the support of the plate body is realized through the flitch and the wedge block; in addition, the stop block drives the fixed plate and the elastic layer to synchronously move during the process that the stop block simultaneously slides into the first stop groove and the second stop groove, and the distance between the first surface and the fixed plate is gradually reduced from top to bottom, so that the elastic layer is convenient to move, and the elastic layer is enabled to move more smoothly; when the stop block slides into the first stop groove and the second stop groove for stopping at the same time, as the maximum distance between the first surface and the fixed plate is larger than the distance between the fixed plate and the wedge block, the elastic layer deforms and abuts against the wedge block, so that the stop effect on the wedge block is enhanced, and the supporting stability of the wedge block to the plate body is improved; in addition, through the stop of fixed plate to the elastic layer for the elastic layer is higher with the voussoir laminating degree, further strengthens the locking effect to the voussoir.

Drawings

FIG. 1 is a top view cross-section of an embodiment of a fabricated building wall panel of the present invention;

FIG. 2 is a top view of the left support plate of FIG. 1;

FIG. 3 is a cross-sectional view of the support plate of FIG. 2;

fig. 4 is a left side view of the fixing plate of fig. 1.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: plate body 10, second stopper groove 11, support plate 20, flitch 21, movable arm 22, side block 23, gear 24, rack 25, wedge 26, first stopper groove 261, spring 27, through hole 28, stopper arm 29, stopper 30, wall block 31, fixed plate 32, elastic layer 33.

An example is substantially as shown in figures 1, 2, 3 and 4: the wallboard for the assembled building comprises a wallboard body, wherein the wallboard body comprises a connecting piece, two board bodies 10 and two supporting plates 20, and the two board bodies 10 are connected through the connecting piece; in this embodiment, the connecting piece is located on a metal piece (not shown in the drawing), and two sides of the metal piece are respectively connected with the two plate bodies 10 through screws, so as to realize connection of the two plate bodies 10.

The two plate bodies 10 are provided with two sliding grooves, and the number of the sliding grooves on each plate body 10 is two; the directions of the notch of the sliding grooves on the two plate bodies 10 are opposite, and the supporting plate 20 is in sliding fit with the sliding grooves; the two sides of the side wall of the supporting plate 20 are respectively provided with a guide groove, a flitch 21 which is used for being attached to the plate body 10 is connected in a sliding way in the guide groove, and the guide groove also comprises a driving structure which is used for driving the two flitch 21 to move simultaneously; the driving structure comprises two movable arms 22, the two movable arms 22 are positioned between the two flitch plates 21, and the two movable arms 22 are in cross hinge joint; the flitch 21 is provided with a side groove, and a side block 23 is connected in a sliding way in the side groove; one end of the movable arm 22 is hinged with the side block 23, and the other end of the movable arm 22 is hinged with the flitch 21; further comprises a driving part for driving the two flitch plates 21 to move simultaneously and a stopping part for stopping the two flitch plates 21 simultaneously.

The driving part comprises a gear 24 and racks 25 positioned at two sides of the gear 24, a cavity communicated with the guide groove is formed in the supporting plate 20, a rotating shaft is rotationally connected in the cavity, the gear 24 is fixedly connected with the rotating shaft, the gear 24 is simultaneously meshed with the two racks 25, and the movement directions of the two racks 25 are opposite; one rack 25 is connected to one flitch 21 and the other rack 25 is connected to the other flitch 21.

The stop part comprises a stop block 30 and wedge blocks 26 which are used for being attached to the plate body 10, one side of the support plate 20, which is far away from the guide groove, is provided with two side grooves communicated with the cavity; wedge 26 is connected with side groove in sliding mode, springs 27 are fixedly connected between wedge 26 and support plates 20, and wedge 26 on two support plates 20 move oppositely; the flitch 21 is provided with a wedge surface for extruding the wedge 26; the top of the wedge 26 is provided with a first stop groove 261, the top of the plate body 10 is provided with a plurality of second stop grooves 11, and the second stop groove 11 on one plate body 10 is positioned between two adjacent second stop grooves 11 on the other plate body 10; when the flitch plates 21 on the two support plates 20 are respectively propped against the two plate bodies 10, the stop blocks 30 are simultaneously in sliding fit with the first stop grooves 261 and the second stop grooves 11, and the stop blocks 30 are inclined at the moment; the device also comprises a stopping unit for stopping the rotating shaft, wherein the stopping unit comprises a stopping arm 29 and a wall block 31, a through hole 28 is formed in the supporting plate 20, the through hole 28 is positioned below the cavity, and the rotating shaft stretches into the through hole 28; the stop arm 29 is fixedly connected to the rotating shaft, the stop arm 29 can rotate in the through hole 28, and the support arm is positioned below the flitch 21, the side block 23 and the movable arm 22; the wall block 31 is fixedly connected to the side wall of the stop block 30, a bottom groove is formed in the wall block 31, and the stop arm 29 is in sliding fit with the bottom groove.

The stop block 30 is fixedly connected with two fixing plates 32, and the number of the fixing plates 32 on the single stop block 30 is two, and the two fixing plates 32 are respectively arranged at two sides of the stop block 30; an elastic layer 33 for abutting against the wedge 26 is fixedly connected to the fixing plate 32, and in this embodiment, the elastic layer 33 is a rubber layer. The surface of the elastic layer 33 for abutting against the wedge 26 is a first surface, which is far away from the fixing plate 32; the distance between the first face and the fixed plate 32 gradually decreases from top to bottom, and the maximum distance between the first face and the fixed plate 32 is larger than the distance between the fixed plate 32 and the wedge 26.

The specific implementation process is as follows:

when the sliding chute is used, the two plate bodies 10 are placed side by side in parallel, and then the two plate bodies 10 are connected through the connecting piece, so that the notch of the sliding chute on the two plate bodies 10 is opposite; the support plate 20 slides into the sliding grooves of the two plate bodies 10 simultaneously, on one hand, the support plate 20 is limited through the sliding grooves, and on the other hand, the support plate 20 can play a supporting role on the two plate bodies 10, so that the distance between the two plate bodies 10 is kept unchanged, namely, the two plate bodies 10 are kept unchanged.

The number of the supporting plates 20 between the two plate bodies 10 is two, and the structures on the two supporting plates 20 are symmetrically arranged left and right; pushing the two flitch plates 21 on the support plate 20 to move oppositely along the paths of the guide grooves of the two flitch plates, so that the two flitch plates 21 are respectively attached to the inner walls of the two plate bodies 10, and the two flitch plates 21 stop moving; during the movement of the two flitch plates 21 on the support plate 20, the two flitch plates 21 respectively drive the two racks 25 to move, and the two racks 25 drive the gear 24 to rotate; therefore, in operation, only the single flitch 21 needs to be pushed to move towards the inner wall of the single board body 10, the flitch 21 drives the rack 25 connected with the flitch 21 to move, the rack 25 drives the gear 24 to rotate, the gear 24 drives the other rack 25 to move, and then the other rack 25 can drive the other flitch 21 to move towards the inner wall of the other board body 10, namely, when the single flitch 21 is pushed to move towards the inner wall of the single board body 10, the two flitch 21 on the support board 20 can simultaneously move towards the inner wall of the two board bodies 10 respectively, and the operation is simpler and more convenient.

During the movement of the two plates 21 on the support plate 20, the distance between the two plates 21 is increased, and the plates 21 drive the side blocks 23 to slide in the side grooves through the movable arms 22, so that the stability of the synchronous movement of the two plates 21 is improved.

During the movement of the flitch 21, the flitch 21 moves away from the support plate 20 by the wedge surface pressing wedge 26, and the spring 27 stretches; wedge blocks 26 on the two support plates 20 move in opposite directions, and wedge blocks 26 on the two support plates 20 move in opposite directions; when the pasting board 21 is propped against the inner wall of the board body 10, the wedge 26 is propped against the inner wall of the board body 10, and meanwhile, the rotating shaft drives the stop arm 29 to rotate between the two support boards 20; the stop block 30 is driven to move from top to bottom, so that two ends of the stop block 30 slide into the second stop grooves 11 of the two plate bodies 10 respectively, and the stop block 30 is in an inclined state; when the stopper 30 slides into the second stopper groove 11, the stopper arm 29 extends into the bottom groove, whereby the stopper arm 29 can be stopped, the flitch 21 can be stopped by the rotation shaft, the gear 24, and the rack 25, and the flitch 21 can be stopped by the wedge 26 by the wedge surface.

When the stopper 30 slides into the second stopper groove 11, the stopper 30 also slides into the first stopper groove 261 of both wedges 26 at the same time, one wedge 26 is located above one support plate 20 and the other wedge 26 is located below the other support plate 20, and thus the stopper effect on the wedges 26 can be directly enhanced by the stopper 30.

After stopping the flitch 21 and the wedge 26, the flitch 21 and the wedge 26 are propped against the inner wall of the plate body 10, so that the flitch 21 and the wedge 26 can support the plate body 10, the support area of the support plate 20 is further prolonged, the support effect of the plate body 10 is also enhanced, and the stability of the whole structure is improved; when external force acts on the two sides of the support plate 20 of the plate body 10, the support area of the support plate 20 to the plate body 10 is expanded through the plate 21 and the wedge 26, so that the action of the external force on the plate body 10 can be reduced, the position fracture or damage of the plate body 10 along the support plate 20 can be greatly reduced, and the service life of the plate body is prolonged; in addition, the stop blocks 30 can also support the two wedges 26, so that the stability of supporting the plate body 10 by the wedges 26 is improved.

During the process that the stop block 30 slides into the first stop groove 261 and the second stop groove 11 simultaneously, the stop block 30 drives the fixed plate 32 and the elastic layer 33 to move synchronously, and the distance between the first surface and the fixed plate 32 is gradually reduced from top to bottom, so that the elastic layer 33 is convenient to move, and the elastic layer 33 moves more smoothly; when the stop block 30 slides into the first stop groove 261 and the second stop groove 11 for stopping at the same time, as the maximum distance between the first surface and the fixed plate 32 is larger than the distance between the fixed plate 32 and the wedge 26, the elastic layer 33 deforms and abuts against the wedge 26, so that the stop effect on the wedge 26 is enhanced, namely the supporting stability of the wedge 26 to the plate body 10 is improved; in addition, the elastic layer 33 is blocked by the fixing plate 32, so that the degree of the adhesion between the elastic layer 33 and the wedge 26 is higher, and the stopping effect on the wedge 26 is further enhanced.

The foregoing is merely exemplary of the present invention, and specific technical solutions and/or features that are well known in the art have not been described in detail herein. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present invention, and these should also be regarded as the protection scope of the present invention, which does not affect the effect of the implementation of the present invention and the practical applicability of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims

1. The wallboard for the assembled building comprises a wallboard body, wherein the wallboard body comprises a connecting piece, two board bodies and two supporting boards, and the two board bodies are connected through the connecting piece; the plate bodies are provided with sliding grooves, the directions of the notch of the sliding grooves on the two plate bodies are opposite, and the supporting plate is in sliding fit with the sliding grooves; the method is characterized in that: the two sides of the side wall of the supporting plate are respectively provided with a guide groove, the guide grooves are connected with the flitch plates for being attached to the plate body in a sliding way, and the driving structure is used for driving the two flitch plates to move simultaneously; the driving structure comprises two movable arms which are hinged in a crossed manner; the flitch is provided with a side groove, and a side block is connected in the side groove in a sliding way; one end of the movable arm is hinged with the side block, and the other end of the movable arm is hinged with the flitch; the device also comprises a driving part for driving the two flitch plates to move simultaneously and a stop part for stopping the two flitch plates simultaneously; the driving part comprises a gear and racks positioned at two sides of the gear, a cavity communicated with the guide groove is arranged in the supporting plate, a rotating shaft is rotationally connected in the cavity, the gear is fixedly connected with the rotating shaft, the gear is meshed with the two racks at the same time, and the movement directions of the two racks are opposite; one rack is connected with one flitch, and the other rack is connected with the other flitch; the stop part comprises a stop block and a wedge block which is used for being attached to the plate body, the support plate is provided with a side groove which is communicated with the cavity, the wedge block is in sliding connection with the side groove, a spring is arranged between the wedge block and the support plate, and the movement of the wedge blocks on the two support plates is opposite; the flitch is provided with a wedge surface for extruding the wedge block; the top of the wedge block is provided with a first stop groove, the top of the plate body is provided with a plurality of second stop grooves, and the second stop groove on one plate body is positioned between two adjacent second stop grooves on the other plate body; when the flitch plates on the two support plates are respectively propped against the two plate bodies, the stop blocks are simultaneously matched with the first stop groove and the second stop groove in a sliding way, and the stop blocks are inclined at the moment; the device also comprises a stopping unit for stopping the rotating shaft; the stop unit comprises a stop arm and a wall block, a through hole is formed in the support plate, the through hole is positioned below the cavity, and the rotating shaft stretches into the through hole; the stop arm is fixedly connected to the rotating shaft and can rotate in the through hole; the wall block is fixedly connected to the side wall of the stop block, a bottom groove is formed in the wall block, and the stop arm is in sliding fit with the bottom groove.

2. The fabricated building wallboard of claim 1, wherein: the stop block is provided with a fixed plate, and the fixed plate is provided with an elastic layer for propping against the wedge block.

3. The fabricated building wallboard of claim 2, wherein: the elastic layer is used for being propped against the wedge block, wherein one surface of the elastic layer is a first surface, and the first surface is far away from the fixed plate; the distance between the first surface and the fixed plate is gradually reduced from top to bottom, and the maximum distance between the first surface and the fixed plate is larger than the distance between the fixed plate and the wedge block.