CN111549936A

CN111549936A - Assembled light partition plate

Info

Publication number: CN111549936A
Application number: CN202010496319.3A
Authority: CN
Inventors: 肖燕翔; 易家骏
Original assignee: Yiyang Vocational & Technical College
Current assignee: Yiyang Vocational & Technical College
Priority date: 2020-06-03
Filing date: 2020-06-03
Publication date: 2020-08-18
Anticipated expiration: 2040-06-03
Also published as: CN111549936B

Abstract

An assembled light partition board belongs to the technical field of building components, wherein the edges of two ends of a wall body board are provided with inclined tooth-jointed connecting structures, namely end side faces of two ends of the wall body are made into uniformly distributed mortise and tenon structures with alternate tenons, the mortise and the tenon are inclined, the groove bottom of the mortise is wide, the notch is narrow, the tenon face of the tenon is wide, and the tenon bottom is narrow; furthermore, tenons on two sides of the wall body plate are directly made into clamped structures and provided with clamping pieces, so that the wall body can be further stably connected; the mortise and tenon structure combined with the clamping structure can ensure that the light partition board can be very firmly assembled; particularly, no connecting piece is arranged in the wall body, so that the connecting force of the wall body is not needed to be weakened, and the initial section and the final section of the tenon are made into a plane shape, so that the weak part can be effectively prevented from being damaged; the further proposal does not adopt a nut, but directly inserts the panel and the screw on the bottom plate, thereby being firm and beautiful.

Description

Assembled light partition plate

Technical Field

The invention belongs to the technical field of building components, and particularly relates to an assembled light partition board.

Background

The building partition wall is used as a non-bearing structure and mainly plays a role in dividing building space, and the traditional partition wall material is mainly brick blocks. The brick block partition wall has high density, thick wall body and low construction efficiency. Along with the continuous improvement of the requirements, brick block partition walls are used less and less, and various partition walls begin to emerge instead, for example, assembly type partition walls are popular among users due to the fact that the assembly type partition walls are convenient to construct on site and high in construction speed.

Patent document CN 209384458U discloses an assembled light partition wall, which includes a beam body and a wall plate, wherein the beam body is internally provided with a horizontal connecting steel plate arranged at intervals from top to bottom, and the connecting steel plate is respectively provided with bolts extending out of the top surface and the bottom surface of the beam body; the wall plate comprises a plurality of transversely arranged autoclaved aerated concrete plates, a plurality of vertical pull rods are arranged at 1/2 thickness positions of the autoclaved aerated concrete plates at intervals, angle steel is arranged on the front and back surfaces of the top of the uppermost autoclaved aerated concrete plate and the front and back surfaces of the bottom of the lowermost autoclaved aerated concrete plate, the angle steel at the same height position is connected with a beam body through pull bolts, the angle steel is fixed with the beam body through bolts, the vertically adjacent autoclaved aerated concrete plates are connected in a clamping mode through H-shaped connecting pieces, and a filling layer is arranged in a gap between the vertically adjacent autoclaved aerated concrete plates. The document claims that the wall is lighter in weight, more convenient to assemble on site and short in construction period. But the wallboard needs beam body matching, and cannot be installed at a position without a cross beam, so that the application range is limited; in addition, the opposite pull rods are arranged in the middle of the wall body, so that the connecting force of the wall body is weakened.

Patent document CN 104453079B discloses an assembled anti-bending light partition board, which includes a board body, wherein a supporting net is arranged in the board body; the supporting net is formed by connecting wires, and the projection of the length direction of the wires on the plate body surface is inclined. The wire may be a polymer material or a steel bar. There are various specific embodiments of the diagonal arrangement of the wires in the longitudinal direction. The support net is laid in the plate body, and wires of the support net are obliquely arranged, namely deviated from the vertical direction and the horizontal direction of the wall body. So all the wires can share the bending acting force on the plate body. And after the wire rod is obliquely arranged, the stressed section of the wire rod is obviously increased compared with the stressed section of the wire rod which is vertically arranged. Therefore, under the condition that the wire rod dosage is equal, the partition plate adopting the supporting net can obviously increase the bending resistance and the folding resistance of the plate body. However, the connection position is an arc-shaped concave-convex surface, which cannot be connected stably.

Disclosure of Invention

The invention aims to solve the technical problem of providing an inclined toothed connecting structure so that the partition board can be very conveniently assembled and has very firm assembly effect.

In order to solve the technical problem, the technical scheme adopted by the invention is that the assembly type light partition board comprises a wall body board and is characterized in that the edges of two ends of the wall body board are provided with inclined tooth-jointed connecting structures, the concrete structure is that the end side surfaces of two ends of the wall body are made into tenon-and-mortise structures which are uniformly distributed and have alternate mortises and tenons, the mortise and the tenon are inclined, the groove bottom of the mortise is wide, the notch is narrow, the tenon surface of the tenon is wide, and the tenon bottom is narrow; to two wall boards of the same specification, the tenon fourth of twelve earthly branches structure of one end side of one of them wall board can be steadily inserted in the tenon fourth of twelve earthly branches structure of the other end side of another wall board, constitutes slope ratcheting type connection structure.

During the assembly, will be first wall body board vertical installation in appointed place earlier, then be the vertical back of ajusting with second wall body board, lateral tilt lifts again, aligns the mortise-tenon joint structure of first wall body board limit end side with the mortise-tenon joint structure of second wall body board limit end side, then inclines downwards slowly and inserts, makes first wall body board and second wall body board meshing of each other, constitutes the box-like connection structure wall body of slope meshing. After the wall body is assembled, the wall body cannot fall off under normal vibration, and the wall body can fall off or be detached only by lifting up a wall body plate in an inclined shape.

Furthermore, tenons on two sides of the wall body plate are directly made into a clamped structure, the clamped structure is that the whole tenon is made into five sections from the side surface, the five sections are respectively an initial section, an upper inclined section, a middle section, a lower inclined section and a tail section, wherein the initial section, the middle section and the tail section are planar which are inwards dug and are parallel to the surface of the wall body, and the initial section and the tail section are on the same plane and are lower than the plane where the middle section is located; the upper inclined section is connected with the initial section and the middle section, and the lower inclined section is connected with the middle section and the end section; therefore, the initial section and the final section can be prevented from being made into sharp corners, the sharp corners are easy to damage, and the inclined upper inclined section and the inclined lower inclined section can be matched with each other to receive the clamping force of the clamping piece; the clamping piece is additionally equipped and comprises a bottom plate, a panel and a nut, the bottom surfaces of the bottom plate and the panel are both planes, the surfaces of the bottom plate and the panel are grooves, the shapes and the specification sizes of the upper edges of the two sides of the grooves are matched with the initial section and the final section, the shapes and the specification sizes of the bottoms of the grooves are matched with the middle section, and the shapes and the specification sizes of the groove walls of the two sides of the grooves are matched with the upper inclined section and the lower inclined section; wherein, the central line of the bottom plate is also evenly distributed with screws, and the length of each screw is slightly larger than or equal to the thickness of the wall body; or the length of the screw rod plus the thickness of the central position of the bottom plate is greater than or equal to the thickness of the wall body; the screw rod is provided with threads matched with the nut in a digging mode, screw rod holes are uniformly distributed in the center line of the panel, and the screw rod holes are not provided with threads and can be directly penetrated by the screw rod.

Because the nut among the partition plate in above-mentioned scheme exposes outside after the installation, such wall body is neither pleasing to the eye nor convenient when using, from this, can remove the nut, directly replaces the fastening function of nut with the screw rod hole on the panel, and its concrete scheme is: and digging an annular rack inclined outwards on the inner wall of the screw hole on the panel, simultaneously making the length of the screw combined with the thickness of the central position of the bottom plate equal to the thickness of the wall body, and changing the thread on the outer wall surface of the screw into the annular rack inclined inwards.

Further, the distances between the annular racks in the screw hole are uniform and equal, and the distances between the annular racks on the screw are uniform and equal.

Furthermore, the size and the space of the annular rack in the screw hole are equal to those of the annular rack on the screw.

The invention has the beneficial effects that the inclined joggled mortise and tenon structures are arranged on the end surfaces of the two ends of the wall body plates, so that the two wall bodies are not easy to separate after joggled connection and can be separated only under the condition of inclined lifting, and the stability after assembly is very strong; furthermore, tenons on two sides of the wall body plate are directly made into clamped structures and provided with clamping pieces, so that the wall body can be further stably connected; the mortise and tenon structure combined with the clamping structure can ensure that the light partition board can be very firmly assembled; particularly, no connecting piece is arranged in the wall body, so that the connecting force of the wall body is not needed to be weakened, and the initial section and the final section of the tenon are made into a plane shape, so that the weak part can be effectively prevented from being damaged; the further proposal does not adopt a nut, but directly inserts the panel and the screw on the bottom plate, thereby being firm and beautiful.

Drawings

Fig. 1 is a perspective view of an assembled lightweight partition board in example 1.

Fig. 2 is an enlarged schematic structural view of circle a in fig. 1.

FIG. 3 is a schematic view showing an assembling process and a structure after completion of the assembling in example 1; the installation needs to be inclined to complete.

Fig. 4 is a schematic top view of the tenon of the wall body in the clamped structure in embodiment 2.

Fig. 5 is a schematic top view of the assembled wall in example 2.

FIG. 6 is a top view of the clamp.

Fig. 7 is a perspective view of the bottom plate.

Fig. 8 is a schematic perspective view of the panel.

FIG. 9 is a schematic view showing the structure of the screw and the screw hole and the annular rack thereof in embodiment 3.

In the figure: 1. the wall body plate comprises a wall body plate, 2 mortise grooves, 3 tenons, 4 mortise groove walls, 5 tenon side walls, 6 mortise bottoms, 7 rabbet grooves, 8 tenon faces, 9 tenon bottoms, 10 first wall body plates, 11 second wall body plates, 12 convex strips, 13 initial sections, 14 upper inclined sections, 15 middle sections, 16 lower inclined sections, 17 end sections, 18 bottom plates, 19 face plates, 20 nuts, 21 grooves, 22 screws, 23 screw holes, 24 annular racks inclining outwards, 25 annular racks inclining inwards and 26 upper ends.

Detailed Description

The present invention is further illustrated by the following examples, wherein the dimensional structures in the following examples are intended to illustrate the present invention but not to limit the present invention further, and should not be construed as limiting the scope of the present invention.

Example 1.

As shown in fig. 1 and 2, an assembled light partition board is manufactured, which includes a wall body board 1, that is, on the basis of the existing light partition board, inclined engagement type connection structures are arranged on the edges of two ends of the wall body board 1, the concrete structure is that the end side surfaces of two ends of the wall body board 1 are made into tenon-and-mortise structures which are uniformly distributed and are arranged between mortise slots 2 and tenons 3, the slot walls 4 of the mortise slots and the side walls 5 of the tenons are both inclined, the slot bottom width of the mortise slots is greater than the slot opening width, and the tenon surface width of the tenons is greater than the tenon bottom width; to two wall body boards 1 of the same specification, the tenon fourth of twelve earthly branches structure of one end side of one of them wall body board can be steadily inserted in the tenon fourth of twelve earthly branches structure of the other end side of another wall body board, constitutes slope meshing formula connection structure.

In this embodiment, the light partition board is made 150cm high, 150cm wide and 15cm thick. Making the width of the groove bottom 6 of the mortise groove 2 into 17cm, the width of the notch 7 into 13cm and the height of the groove into 15 cm; the width of the tenon bottom 9 of the tenon 3 is made into 13cm, the width of the tenon surface 8 is made into 17cm, and the height of the tenon is made into 15 cm; meanwhile, on two surfaces of the light partition wall board, the mortise slot 2 has a structure that the front slot bottom 6 and the back slot bottom 6 are staggered by 4cm, namely the front slot bottom 6 is closer to the upper end 26 than the back slot bottom 6, the front slot opening 7 is staggered by 4cm with the back slot opening 7, namely the front slot opening 7 is closer to the upper end 26 than the back slot opening 7, so that the slot wall 4 of the mortise slot is inclined; the tenon 3 has the structure that the tenon bottom 9 on the front side and the tenon bottom 9 on the back side are staggered by 4cm, namely the tenon bottom 9 on the front side is closer to the upper end 26 than the tenon bottom 9 on the back side by 4cm, and the tenon surface 8 on the front side is staggered by 4cm from the tenon surface 8 on the back side, namely the tenon surface 8 on the front side is closer to the upper end 26 than the tenon surface 8 on the back side by 4cm, so that the side wall 5 of the tenon is inclined; therefore, the mortise 2 and the tenon 3 between the two light partition boards can be tightly wedged to form an inclined joggled connecting structure.

During the assembly, will be first wall body board vertical installation in appointed place earlier, then be second wall body board 11 and vertically ajust the back, lateral tilt lifts again, aligns the mortise-tenon joint structure of first wall body board limit side with the mortise-tenon joint structure of second wall body board limit side, then inclines downwards slowly and inserts, makes first wall body board and second wall body board meshing of each other, constitutes the box-like connection structure wall of slope meshing. Or as shown in fig. 3, firstly, the first wall body plate 10 is flatly placed beside a planned installation place, then, the second wall body plate 11 is placed right, then, the second wall body plate is laterally and obliquely lifted, the mortise and tenon structure on the side surface of the edge end of the second wall body plate 11 is aligned to the mortise and tenon structure on the side surface of the edge end of the first wall body plate 10, then, the second wall body plate is obliquely and downwards inserted slowly, so that the first wall body plate 10 and the second wall body plate 11 are meshed with each other to form an oblique meshed type connection structure wall body, then, the assembled wall body is integrally arranged into a vertical shape, and then, the subsequent construction is carried out according to a conventional method; after the wall body is assembled, the wall body cannot fall off under normal vibration, and can be detached only by lifting up a wall body plate in an inclined manner.

Example 2.

As shown in the figure, on the basis of embodiment 1, the side surfaces of the left and right sides of each tenon 3 are directly made into a clamped structure, the clamped structure is that all the tenons 3 at one end of the wall body plate 1 are integrally made into a convex strip 12 with a narrow inner part, a wide middle part and a narrow outer part, the length of the convex strip 12 is equal to the height of the wall body, the height of the convex strip 12, namely the height of the tenon, is 15cm, the width of the inner width, namely the bottom of the convex strip 12 is 11cm, the width of the middle part of the convex strip 12 is 13cm, the width of the outer part, namely the width of the outer part of the convex strip 12 is 11cm, the side surface structure of the convex strip 12 is divided into five parts, namely an initial section 13, an upper inclined section 14, a middle section 15, a lower inclined section 16 and a final section 17 which are directly connected, wherein the initial section 13, the middle section 15 and the final section 17 are planar parallel to the surface of the; the length of the initial section 13 is 2cm, the transverse vertical length of the upper inclined section 14 is 4cm, the length of the middle section 15 is 3cm, the transverse length of the lower inclined section 16 is 4cm, and the length of the last section 17 is 2 cm.

The clamping piece is additionally equipped and made into a combined structure comprising a bottom plate 18, a panel 19 and a nut 20, wherein the bottom surfaces of the bottom plate 18 and the panel 19 are both made into planes, the width of each plane is 15cm, the length of each plane is equal to the height of a wall body, the thickness of the outer sides of the bottom plate 18 and the panel 19 is 2cm, and the thickness of the inner part, namely the center, is 1 cm; the surfaces of the bottom plate 18 and the panel 19 are both grooves 21, the shapes and the specification sizes of the upper edges of the two sides of each groove 21 are matched with the initial section 13 and the final section 17, the widths of the upper edges are respectively 2cm, the width of the bottom of each groove 21 is 3cm, and the shapes and the specification sizes of the bottom of each groove are matched with the middle section 15; the shapes and the specifications of the groove walls on the two sides of the groove 21 are matched with the upper inclined section 14 and the lower inclined section 16, so that the depth of the groove 21 is 1 cm; wherein, the central line of the bottom plate 18 is also evenly distributed with screw rods 22, the diameter of the screw rods 22 is 1cm, the length of the screw rods 22 is 15cm, namely the length of the screw rods 22 plus the thickness of the center of the bottom plate 18 is equal to 16cm and is slightly larger than the thickness of the wall body; screw holes 23 are uniformly distributed on the central line of the panel 19, the inner diameter of each screw hole 23 is 1.1cm, and no screw thread is arranged in each screw hole 23, so that a screw can directly pass through the screw holes; the inner diameter of the nut is 1cm, and the thickness of the nut is 1 cm.

The assembled light partition board of this kind of structure does not have erection joint spare in the wall body, need not worry to weaken the connecting force of wall body, makes the initial section and the final section of sand grip planar, can effectively avoid weak department to receive the damage.

During assembly, firstly inserting the mortise 2 and the tenon 3 on the side faces of the ends of two light partition boards to be assembled in an inclined shape, meshing the mortise and tenon with each other to form a convex strip 12 together, and then uniformly drilling screw holes on the central line of a middle section 15 on the convex strip 12; then the bottom plate 18 is arranged on the convex strip 15 formed by the edge ends of the two light partition boards, the bottom plate 18 is tightly attached to one side of the convex strip 12, the screw rod 22 passes through the screw rod hole, the panel 19 is tightly attached to the other side of the convex strip 12, the screw rod hole 23 on the panel 19 is aligned with the screw rod 22 and sleeved, the screw rod 22 extends out of the bottom surface of the panel 19, and then the nut 20 is screwed on the screw rod 22 until the bottom plate 18 and the panel 19 cannot be loosened, thus the two adjacent light partition boards are assembled.

Example 3.

Since the nuts 20 in the partition board in the above-mentioned solution are exposed after being installed, such a wall body is neither beautiful nor convenient to use, and thus the nuts 20 can be removed and the screw holes 23 in the panel 19 can be directly used to replace the fastening function of the nuts 20. The specific scheme is as follows: as shown in fig. 9, in addition to the embodiment 2, a plurality of annular racks 24 inclined outward are dug in the inner wall of the screw hole 23 of the face plate 19, that is, the inclined direction of the annular racks is toward the bottom surface direction, and the length of the screw 22 is made 14cm, that is, the thickness of the screw length in conjunction with the center position of the bottom plate is 1cm or 15cm, which is equal to the thickness of the wall body 15cm, and a plurality of annular racks 25 inclined inward are changed without providing any spiral thread on the outer wall surface of the screw, that is, the inclined direction of the annular racks is toward the bottom plate direction. Meanwhile, the distances between the annular racks in the screw hole 23 are made uniform and equal, the distances between the annular racks on the screw 22 are made uniform and equal, and the size and the distance of the annular racks in the screw hole are made equal to those of the annular racks on the screw.

Thus, when the light partition board is installed, the bottom board 18 is firstly arranged between two light partition boards to be assembled, then the bottom board 18 is tightly attached to one side of the convex strip 12, the screw rod 22 penetrates through the screw rod hole, the panel 19 is tightly attached to the other side of the convex strip 12, the screw rod hole 23 on the panel 19 is aligned with the screw rod 22, then the bottom boards 18 and the bottom surfaces of the two sides of the panel 19 are tightly pressed, and the screw rod hole 23 is sleeved on the screw rod 22 by force or a tool, and the annular rack 24 which is obliquely outward in the screw rod hole 23 and the annular rack 25 which is obliquely inward in the screw rod 22 are mutually buckled until the bottom board 18 and the panel 19 are not loosened any more, so that the two adjacent light partition boards are assembled. After the clamping piece is assembled, the clamping piece is flush with the wall body, and is firm and attractive.

Claims

1. The utility model provides an assembled light partition plate, includes the wall body board, its characterized in that be equipped with slope tooth box-like connection structure on the both ends edge of wall body board, be about to the terminal side face at the both ends of wall body make evenly lay the alternate mortise and tenon structure, and mortise and tenon all are the slope form, and the groove end width in mortise and tenon, the notch is narrow, and the tenon face width of tenon, the tenon end is narrow.

2. The assembling method of the assembled light partition board comprises the step of engaging and assembling two wall body plates, and specifically comprises the following steps: firstly, vertically installing a first wall body plate in a designated place, then vertically righting a second wall body plate, lifting the second wall body plate in a side-to-side inclined manner, aligning the tenon-and-mortise structure on the side surface of the edge end of the second wall body plate to the tenon-and-mortise structure on the side surface of the edge end of the first wall body plate, then slowly inserting the second wall body plate in an inclined manner, and mutually meshing the first wall body plate and the second wall body plate to form an inclined meshed connecting structure wall body.

3. The fabricated light partition board of claim 1, wherein the tenons on both sides of the wall body board are directly made into a clamped structure, the clamped structure is that the side surfaces of the tenons are made into three sections, namely an initial section, an upper inclined section, a middle section, a lower inclined section and a final section, wherein the initial section, the middle section and the final section are planar which are dug inwards and are parallel to the surface of the wall body, and the initial section and the final section are on the same plane and are lower than the plane where the middle section is located; the upper inclined section is connected with the initial section and the middle section, and the lower inclined section is connected with the middle section and the end section; the clamping piece is additionally equipped and comprises a bottom plate, a panel and a nut, the bottom surfaces of the bottom plate and the panel are both planes, the surfaces of the bottom plate and the panel are grooves, the shapes and the specification sizes of the upper edges of the two sides of the grooves are matched with the initial section and the final section, the shapes and the specification sizes of the bottoms of the grooves are matched with the middle section, and the shapes and the specification sizes of the groove walls of the two sides of the grooves are matched with the upper inclined section and the lower inclined section; wherein, the central line of the bottom plate is also evenly distributed with screws, and the length of each screw is slightly larger than or equal to the thickness of the wall body; screw threads matched with the nuts are dug on the screw rods, screw rod holes are uniformly distributed on the central line of the panel, and no screw thread exists in the screw rod holes.

4. The fabricated lightweight partition board according to claim 3, wherein the length of the screw together with the thickness of the central position of the bottom plate is greater than or equal to the thickness of the wall body.

5. The fabricated lightweight partition board according to claim 3 or 4, wherein the inner wall of the screw hole of the panel is dug with an annular rack inclined outward, and the length of the screw combined with the thickness of the central position of the bottom plate is made equal to the thickness of the wall, and the thread on the outer wall surface of the screw is changed into the annular rack inclined inward.

6. The fabricated lightweight partition panel according to claim 5, wherein the distance between the annular racks in the screw holes is uniform and equal, and the distance between the annular racks on the screws is uniform and equal.

7. The fabricated lightweight partition panel according to claim 6, wherein the size and spacing of the annular racks in the screw holes are equal to the size and spacing of the annular racks on the screws.