Non-bearing wall panel
Technical Field
The application relates to the field of prefabricated buildings, in particular to a non-bearing wallboard.
Background
The fabricated building is a building which is formed by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories (such as floor slabs, wall slabs, stairs, balconies and the like) in the factory, transporting the components and accessories to a building construction site, and assembling and installing the components and the accessories on the site in a reliable connection mode.
Non-load bearing walls in buildings are often formed by splicing assembled wall panels and are typically bolted to the keel. Meanwhile, the non-bearing wall board is mostly made of materials such as foam particle concrete, foam cement and the like, so that the wall board has the functions of sound insulation, heat insulation and the like; sometimes wallboard is even made hollow in order to enhance its sound and heat insulation properties.
Aiming at the related technology, the inventor thinks that each non-bearing wallboard is fixedly connected to the keel through the bolt, so that the adjacent wallboards can be mutually attached, but the phenomenon of uneven surface among a plurality of wallboards exists.
SUMMERY OF THE UTILITY MODEL
In order to improve the roughness between a plurality of wallboards, the application provides a non-bearing wallboard.
The application provides a non-bearing wallboard adopts following technical scheme:
a non-bearing wall panel comprises a panel body and a sliding strip; the plate body is internally provided with a slideway, the slideway is parallel to the plate body, and two ends of the slideway penetrate through the periphery of the plate body; the sliding strip is arranged in the slideway in a sliding mode in a penetrating mode.
Through adopting above-mentioned technical scheme, the bolt runs through the wallboard and is connected to on the fossil fragments, before screwing up the bolt, the drive sliding strip slides for the one end of sliding strip stretches out and inlays in establishing the slide to adjacent wallboard from the slide department of wallboard, and then realizes the location along perpendicular wallboard direction between the adjacent wallboard, with the roughness between two adjacent wallboards of improvement.
Optionally, a ball head is arranged at the end of the sliding bar.
By adopting the technical scheme, when one end of the sliding strip extends out of the slide way of the wallboard and is embedded into the slide way of the adjacent wallboard, the guide is completed by utilizing the spherical surface of the ball head.
Optionally, the plate body is also provided with a mounting hole and a mounting cavity; the mounting hole is vertical to the plate body and penetrates through the plate body, and a bolt penetrates through the mounting hole; the mounting cavity is communicated with the mounting hole and the slideway; the installation cavity internal rotation is equipped with the driving piece, be equipped with the hole of cup jointing on the driving piece, cup joint the hole and pass through the driving piece with the coaxial setting of mounting hole, cup joint the periphery of the interior circumference slip butt bolt in hole and constitute the friction pair, the driving piece rotates around the axis in cup jointing the hole, the periphery of driving piece is used for rolling butt slip strip.
Through adopting above-mentioned technical scheme, during the installation wallboard, the bolt runs through wallboard and threaded connection to fossil fragments on, and at this in-process, the bolt periphery with cup joint the friction force between the hole internal week and drive the driving piece and rotate along with the bolt, and then make the sliding strip remove, the one end of sliding strip stretches out and inlays from the slide department of wallboard and establishes to the slide of adjacent wallboard in.
Optionally, a rubber sleeve is coaxially embedded in the sleeve hole, and the inner diameter of the rubber sleeve is smaller than that of the mounting hole.
Through adopting above-mentioned technical scheme, interference fit between rubber sleeve and the bolt increases the frictional force between driving piece and the bolt to realize that the driving piece rotates along with the bolt, and then realize the removal of sliding strip.
Optionally, the driving member is fan-shaped, and the circle center of the fan-shaped driving member coincides with the axis of the sleeve hole; be equipped with the locating part in the installation cavity, just when the periphery butt locating part of driving piece, there is the interval between driving piece and the slip strip.
By adopting the technical scheme, when the wall plate is installed, the bolt penetrates through the wall plate and is in threaded connection with the keel, in the process, friction force between the outer periphery of the bolt and the inner periphery of the sleeving hole drives the driving piece to rotate along with the bolt until the driving piece is abutted to the limiting piece, and at the moment, the bolt continues to rotate so as to complete fixed connection between the wall plate and the keel; and the driving piece breaks away from the sliding strip at the moment, so that one end of the sliding strip is ensured to extend out of the slideway of the wallboard and be embedded into the slideway of the adjacent wallboard.
Optionally, a magnetic part is arranged on the driving part, and the magnetic part and the limiting part are attracted with each other through magnetic force.
Through adopting above-mentioned technical scheme, the installation is accomplished the back, through the effect of magnetic force for the driving piece is laminated the locating part all the time, in order to guarantee that the driving piece breaks away from the slip strip.
Optionally, the slide is equipped with a plurality ofly side by side, just the sliding strip correspondence is equipped with a plurality ofly.
Through adopting above-mentioned technical scheme, a plurality of sliding strips on a wallboard inlay simultaneously to a plurality of slides of adjacent wallboard in, and sliding strip and slide one-to-one realize improving the roughness between two adjacent wallboards.
Optionally, the length of the sliding strip is equal to the length of the slideway.
Through adopting above-mentioned technical scheme, the one end of the sliding strip on a wallboard stretches out and inlays in establishing the slide to adjacent wallboard from the slide department of this wallboard, and at this moment, the other end retraction slide of this sliding strip is in the slide to the sliding strip on supplying another wallboard inlays and establishes.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the bolt runs through the wallboard and is connected to on the fossil fragments, before screwing up the bolt, the drive sliding strip slides for the one end of sliding strip stretches out and inlays in establishing the slide to adjacent wallboard from the slide department of wallboard, and then realizes the location along perpendicular wallboard direction between the adjacent wallboard, with the roughness between two adjacent wallboards of improvement.
Drawings
Figure 1 is a schematic view of the overall structure of a non-load bearing wall panel in an embodiment of the present application.
Fig. 2 is a schematic view of the internal structure of the wall panel.
Fig. 3 is a schematic structural diagram of the driving member.
Description of reference numerals: 1. a plate body; 11. mounting holes; 12. a slideway; 13. a mounting cavity; 14. a limiting member; 2. a slide bar; 21. a ball head; 3. a drive member; 31. sleeving a hole; 32. a rubber sleeve; 33. a magnetic member.
Detailed Description
The present application is described in further detail below with reference to figures 1-3.
Non-load bearing walls in buildings are often formed by splicing assembled wall panels and are typically bolted to the keel.
Referring to fig. 1, the embodiment of the present application discloses a non-load-bearing wall panel, which comprises a panel body 1. The plate body 1 can be made of materials such as foam particle concrete and foam cement, four mounting holes 11 are formed in the plate body 1, and the mounting holes 11 penetrate through the plate body 1 along the direction perpendicular to the plate body 1.
When the wallboard assembled to the fossil fragments on, the bolt passed mounting hole 11 and threaded connection to fossil fragments, realized the fixed connection between wallboard and the fossil fragments.
Referring to fig. 2, two slide ways 12 are arranged in the plate body 1 side by side, and the slide ways 12 penetrate through the periphery of the plate body 1 along the direction parallel to the plate body 1. A sliding strip 2 is embedded in each slideway 12 in a sliding manner, and in the example, the slideway 12 is in a cube shape; accordingly, the slide bar 2 has a quadrangular prism shape as a whole. Simultaneously, the both ends of sliding strip 2 all set up to bulb 21, and the interval of two bulbs 21 back of the body one side mutually equals the length of slide 12, and when sliding strip 2 inlayed in slide 12, the week side of wallboard was leveled.
When the wallboard assembles on the fossil fragments, before screwing up the bolt, drive sliding strip 2 removes for in sliding strip 2's one end stretches out and inlays the slide 12 of establishing to adjacent wallboard from the slide 12 department of wallboard, screws up the bolt afterwards, accomplishes the installation of wallboard.
Referring to fig. 2, two installation cavities 13 are further arranged in the plate body 1 at intervals, the installation cavities 13 correspond to the slideways 12 one by one, and the installation cavities 13 are communicated with the slideways 12. Meanwhile, the mounting cavity 13 is communicated with the mounting hole 11, the whole mounting cavity 13 is fan-shaped, and the circle center of the fan-shaped is overlapped with the axis of the mounting hole 11.
Referring to fig. 2 and 3, the driving member 3 is rotatably connected in the mounting cavity 13, the driving member 3 is fan-shaped, and a fan-shaped central angle of the driving member 3 is smaller than that of the mounting cavity 13; the driving piece 3 is provided with a sleeving hole 31, the axis of the sleeving hole 31 is overlapped with the sector circle center of the driving piece 3, the sleeving hole 31 and the mounting hole 11 are coaxially arranged, and the driving piece 3 rotates around the axis of the sleeving hole 31; meanwhile, in the rotating process of the driving part 3, the periphery of the driving part 3 is used for rolling and abutting against the outer wall of the sliding bar 2 so as to push the sliding bar 2 to move.
Referring to fig. 2 and 3, a rubber sleeve 32 is coaxially disposed in the coupling hole 31, the outer periphery of the rubber sleeve 32 can be fixedly coupled to the inner periphery of the coupling hole 31 by adhesion, and the inner diameter of the rubber sleeve 32 is smaller than the inner diameter of the mounting hole 11.
When the wallboard assembled to fossil fragments on, the bolt passed mounting hole 11, rubber sleeve 32, rotated the bolt, driven driving piece 3 through the frictional force between bolt and the rubber sleeve 32 and rotated, and then utilized the rolling friction between driving piece 3 and the sliding strip 2, promoted sliding strip 2 and removed to the one end of realization sliding strip 2 stretches out and inlays in establishing to the slide 12 of adjacent wallboard from the slide 12 department of wallboard.
Referring to fig. 2 and 3, the mounting cavity 13 has three side walls, a first side wall being a plane and connected to the slideway 12, a second side wall being an arc surface, and a third side wall being a plane and coinciding with the axis of the mounting hole 11. A limiting piece 14 is embedded in the third side wall of the installation cavity 13, and the limiting piece 14 is used for being attached to and abutted against the outer wall of the driving piece 3; the magnetic member 33 is further embedded in the outer wall of the driving member 3, in this example, the magnetic member 33 may be a permanent magnet, and the position limiting member 14 may be an iron block, so that the magnetic member 33 and the position limiting member 14 can be attracted by magnetic force.
When the magnetic part 33 is attracted to the limiting part 14, the periphery of the driving part 3 is separated from the sliding strip 2, one end of the sliding strip 2 extends out of the slide way 12 of the wall plate and is embedded into the slide way 12 of the adjacent wall plate all the time, and the positioning between the two adjacent wall plates along the direction perpendicular to the plate body 1 is realized.
The implementation principle of non-bearing wallboard of the embodiment of the application is as follows: the bolt runs through the wallboard and is connected to on the fossil fragments, rotates the bolt, through the friction between bolt and the rubber sleeve 32 and the friction between driving piece 3 and the sliding strip 2 for driving piece 3 rotates, and promotes the sliding strip 2 and remove, and the one end of sliding strip 2 stretches out and inlays to establish to the slide 12 of adjacent wallboard from the slide 12 department of wallboard in, the location along perpendicular plate body 1 direction between two adjacent wallboard now, and then improves the roughness between two wallboard.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.