CN213087270U - Unsmooth molding wall panel is designed structure for concatenation - Google Patents
Unsmooth molding wall panel is designed structure for concatenation Download PDFInfo
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- CN213087270U CN213087270U CN202021745632.8U CN202021745632U CN213087270U CN 213087270 U CN213087270 U CN 213087270U CN 202021745632 U CN202021745632 U CN 202021745632U CN 213087270 U CN213087270 U CN 213087270U
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Abstract
The utility model provides a concave-convex modeling wall panel design structure for concatenation, include: the concave-convex plates are spliced; the two ends of the leveling component are respectively fixed on the two adjacent concave-convex plates. During the installation, install unsmooth panel on the wall earlier, then install the flattening subassembly between two unsmooth panels to effectively prevent that the uneven situation from appearing in the piece department between two unsmooth panels. For traditional panel snap-on at the wall, creatively adds the flattening subassembly on two adjacent unsmooth panel among this technical scheme, and the flattening subassembly passes through the rigidity to be fixed on two adjacent unsmooth panels to avoid producing the activity between two unsmooth panels, and then avoided unsmooth panel because of the problem of the gap department unevenness that the activity produced.
Description
Technical Field
The utility model relates to a novel shingle nail decorates technical field, concretely relates to unsmooth molding wall panel is project organization for concatenation.
Background
With the rapid development of social economy, the living standard of people and the economic standard of society are increasingly improved, and large-scale projects such as various luxury hotels, special restaurants, michelin restaurants, large theaters, luxury clubs and the like are more and more appeared in all corners of cities.
However, the wall surface of the traditional construction has decoration engineering of a large-area concave-convex plate facing, the joint between the concave-convex plate blocks is always uneven, and no good solution is provided all the time. In addition, corresponding technologies and cases are not available in the market for learning and reference in the engineering of the ultrahigh concave-convex modeling wall aluminum plate facing; therefore, how to design a technical scheme to solve the problem that the joints between the aluminum plate blocks are always uneven is a technical problem in the field.
SUMMERY OF THE UTILITY MODEL
For solving above-mentioned technical problem, this application has provided a project organization is used in concatenation of unsmooth molding wall panel, wherein, through addding the flattening subassembly to come to fix and the flattening to two adjacent unsmooth panels through the flattening subassembly, thereby solved two unsmooth technical problem of panel seam crossing height.
The utility model provides a concave-convex modeling wall panel design structure for concatenation, includes: the concave-convex plate comprises a plurality of concave-convex plates which are spliced; and two ends of the leveling component are respectively fixed on the two adjacent concave-convex plates. During the installation, install unsmooth panel on the wall earlier, then install the flattening subassembly between two unsmooth panels to effectively prevent that the uneven situation from appearing in the piece department between two unsmooth panels.
The technical effects are as follows: for traditional panel snap-on at the wall, creatively adds the flattening subassembly on two adjacent unsmooth panel among this technical scheme, and the flattening subassembly passes through the rigidity to be fixed on two adjacent unsmooth panels to avoid producing the activity between two unsmooth panels, and then avoided unsmooth panel because of the problem of the gap department unevenness that the activity produced.
Preferably, the flattening assembly comprises: the corner connectors are respectively fixed on the adjacent concave-convex plates; and the two ends of the drawing and inserting strip are respectively clamped in the corner connectors on the adjacent concave-convex plates. The shape of the inserting strip is consistent with the shape formed by the splicing surfaces of the adjacent two concave-convex plates, and the inserting strip is attached to the splicing surfaces of the adjacent two concave-convex plates. The angle sign indicating number is arranged in for taking out and inserts the strip and provide the slot, takes out and inserts the strip and peg graft in the angle sign indicating number to restricted the removal space of angle sign indicating number, and then prevented the activity of adjacent unsmooth panel effectively, made the position of two unsmooth panel seam departments be in even unanimous state.
The preferable technical effects are as follows: the structure of the parts is simple, the volume is small, and the installation is convenient.
Preferably, the inserting strips are L-shaped, and the splicing ends of the adjacent concave-convex plates form an L-shaped structure. The inserting strip is L-shaped, the splicing ends of the adjacent concave-convex plates form an L-shaped structure, and the two concave-convex plates are used for adapting to the shapes of the concave-convex plates.
Preferably, the splicing seam of the adjacent concave-convex plates is positioned at the corner position of the L-shaped extraction and insertion strip.
The preferable technical effects are as follows: the splicing seam used for enabling the concave-convex plates to be located at the corner position is the smallest splicing seam between the concave-convex plates.
Preferably, the base is arranged on one side, facing the wall surface, of the concave-convex plate, one side of the base is fixed on the wall surface, and the concave-convex plate is installed on the other side of the base. If the concave-convex plate is directly fixed on the wall surface, the deformation of the plate is easily caused due to the great fixing difficulty; this preferred adoption base is fixed on the wall earlier, then unsmooth panel setting has the simple installation on the base, unsmooth panel non-deformable.
Furthermore, an installation frame is fixed on one surface, facing the base, of the concave-convex plate, and one side, opposite to the concave-convex plate, of the installation frame is fixed on the base. During construction, firstly, a base is installed on the wall body, and then the concave-convex plate is installed; due to the limitation of the structure of the concave-convex plate, each base can not be exactly contacted with the concave-convex plate, and the workload can be greatly increased if measurement and calculation are carried out; and through set up the installation frame on the base, then unsmooth panel is fixed on the installation frame to can effectively install unsmooth panel on the base.
Preferably, the base includes: the back plate is fixed on the wall surface; and one side of the vertical frame is fixed on the back plate, and the other side of the vertical frame is fixedly connected with the mounting frame.
The preferable technical effects are as follows: a back plate mounting mode with a simple structure is provided.
Preferably, the back plate is fixed on the wall surface through a fixing piece. Wherein, the backplate passes through bolt and nut subassembly to be fixed on the wall.
Preferably, the concave-convex plate is a honeycomb plate. The preferable technical effects are as follows: the air conditioner is used for absorbing indoor noise so as to reduce indoor noise pollution.
Preferably, the corner brace is fixed on the concave-convex plate through a fixing piece. Wherein, the angle sign indicating number passes through bolt and nut subassembly to be fixed on unsmooth panel.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the description of the prior art will be briefly described below.
Fig. 1 is a schematic three-dimensional structure diagram of a design structure for splicing concave-convex wall panels.
Figure 2 is an enlarged schematic view of the screed assembly of figure 1.
Fig. 3 is a schematic structural view of example 1 in the embossed plate member splicing method.
Fig. 4 is a schematic structural view of example 2 in the embossed plate member splicing method.
Fig. 5 is a schematic structural view of example 3 in which the uneven plate material is joined.
Wherein the reference numbers referred to in the figures are as follows: 1-a concave-convex plate; 2-leveling component; 3-a base; 4, a wall surface; 5-mounting the frame; 21-corner connector; 22-cutting the cutting; 23-splicing seams; 31-a back plate; 32-upright frame.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
As shown in fig. 1-2, the present application provides a concave-convex modeling wall panel splicing design structure, including: the plate comprises a plurality of concave-convex plates 1, wherein the concave-convex plates 1 are spliced; leveling component 2, leveling component 2's both ends are fixed respectively on two adjacent unsmooth panel 1.
The technical effects are as follows: for traditional panel snap-on at wall 4, creatively adds flattening subassembly 2 on two adjacent unsmooth panel 1 among this technical scheme, flattening subassembly 2 passes through the rigidity to be fixed on two adjacent unsmooth panel 1 to avoid producing the activity between two unsmooth panel 1, and then avoided unsmooth panel 1 because of the problem of the gap department unevenness that the activity produced.
As an embodiment of the present invention, the leveling assembly 2 includes: the corner connectors 21 are respectively fixed on the adjacent concave-convex plates 1; the two ends of the inserting strip 22 are respectively clamped in the corner connectors 21 on the adjacent concave-convex plate materials 1. The shape of the inserting strip 22 is consistent with the shape formed by the splicing surfaces of the adjacent two concave-convex plates 1, and the inserting strip 22 is attached to the splicing surfaces of the adjacent two concave-convex plates 1. The angle sign indicating number 21 is used for providing the slot for taking out the cutting strip 22, takes out the cutting strip 22 and pegs graft in the angle sign indicating number 21 to restricted angle sign indicating number 21's removal space, and then prevented adjacent unsmooth panel 1's activity effectively, made the position of two unsmooth panel 1 seams be in even unanimous state.
The technical effects of the embodiment are as follows: the structure of the parts is simple, the volume is small, and the installation is convenient.
The installation mode of the corner connector 21 and the inserting strip 22 comprises the following three embodiments:
in example 1, as shown in fig. 3, the splicing ends of adjacent concave-convex plates 1 are spliced into a line shape, corner connectors 21 are respectively installed on the adjacent concave-convex plates 1, a plugging strip 22 installed between two corner connectors 21 is a line-shaped plate, and then the plugging strip 22 is fixed on the corner connectors 21 by self-tapping screws.
In embodiment 2, as shown in fig. 4, the inserting strip 22 is L-shaped, the splicing end of the adjacent concave-convex plate 1 forms an L-shaped structure, and the corner connectors 21 are respectively installed on the adjacent concave-convex plate 1. Wherein, the end of the splicing end of one concave-convex plate 1 is pressed on the connecting end of the other concave-convex plate 1. The L-shaped inserting strip 22 and the corner brace 21 are fixed through self-tapping screws.
In example 3, as shown in fig. 5, the end portions of the splicing ends of the adjacent concave-convex plate materials 1 are respectively provided with an inclined surface with an angle of 45 °, so that the splicing gap of the adjacent concave-convex plate materials 1 is positioned at the corner of the L-shaped pulling-inserting strip 22. The method is used for positioning the splicing seams 23 of the concave-convex plate materials 1 at the corners, and the gaps of the splicing seams 23 between the concave-convex plate materials 1 are minimum.
As shown in fig. 1 to 5, as another embodiment of the present invention, a base 3 is provided on one side of the concave-convex plate 1 facing the wall surface 4, one side of the base 3 is fixed on the wall surface 4, and the concave-convex plate 1 is installed on the other side of the base 3. If the concave-convex plate 1 is directly fixed on the wall surface 4, the plate is easy to deform due to high fixing difficulty; in the embodiment, the base 3 is firstly fixed on the wall surface 4, and then the concave-convex plate 1 is arranged on the base 3, so that the installation is simple and convenient, and the concave-convex plate 1 is not easy to deform.
Further, a mounting frame 5 is fixed to a surface of the uneven plate 1 facing the base 3, and a side of the mounting frame 5 opposite to the uneven plate 1 is fixed to the base 3. During construction, the base 3 is installed on the wall body, and the concave-convex plate 1 is installed behind the base; due to the limitation of the structure of the concave-convex plate 1, each base 3 can not be just contacted with the concave-convex plate 1, and the workload can be greatly increased if measurement and calculation are carried out; by providing the mounting frame 5 on the base 3 and then fixing the uneven plate 1 on the mounting frame 5, the uneven plate 1 can be effectively mounted on the base 3.
As another embodiment of the present invention, as shown in fig. 1 to 5, the base 3 includes: the back plate 31, the back plate 31 is fixed on the wall surface 4; one side of the upright frame 32 is fixed on the back plate 31, and the other side of the upright frame 32 is fixedly connected with the mounting frame 5. Further, the back plate 31 is fixed to the wall surface 4 by a fixing member. Wherein, the back plate 31 is fixed on the wall surface 4 through a bolt and nut assembly.
As another embodiment of the present invention, as shown in fig. 1 to 5, the concave-convex plate material 1 is a honeycomb plate.
The technical effects of the embodiment are as follows: the air conditioner is used for absorbing indoor noise so as to reduce indoor noise pollution.
As another embodiment of the present invention, as shown in fig. 1 to 5, the corner brace 21 is fixed to the uneven plate 1 by a fixing member. The fixing piece is a bolt and nut assembly.
For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.
Claims (10)
1. The utility model provides a concave-convex modeling metope panel is project organization for concatenation which characterized in that includes:
the plate comprises a plurality of concave-convex plates (1), wherein the concave-convex plates (1) are spliced;
the two ends of the leveling component (2) are respectively fixed on the two adjacent concave-convex plates (1).
2. The structure of claim 1, wherein the leveling assembly (2) comprises:
the corner connectors (21) are respectively fixed on the adjacent concave-convex plates (1);
the two ends of the plugging strip (22) are respectively and seamlessly clamped in the corner connectors (21) on the adjacent concave-convex plates (1);
the shape of the inserting strip (22) is consistent with the shape formed by the splicing surfaces of the two adjacent concave-convex plates (1), and the inserting strip (22) is attached to the splicing surfaces of the two adjacent concave-convex plates (1).
3. The design structure is used in concatenation of unsmooth molding metope panel of claim 2, characterized in that, take out the cutting (22) and be the L type, just the concatenation end of adjacent unsmooth panel (1) forms L type structure.
4. The structure as claimed in claim 3, wherein the joint seam (23) of the adjacent boards (1) is located at the corner of the L-shaped strip (22).
5. The structure of any one of claims 1 to 4, wherein a base (3) is disposed on one side of the embossed wall board (1) facing the wall surface (4), one side of the base (3) is fixed on the wall surface (4), and the embossed wall board (1) is mounted on the other side of the base (3).
6. The structure of claim 5, wherein a mounting frame (5) is fixed to the surface of the embossed wall board (1) facing the base (3), and the mounting frame (5) is fixed to the base (3) at a side opposite to the embossed wall board (1).
7. The structure of claim 6, wherein the base (3) comprises:
the back plate (31), the said back plate (31) is fixed on wall (4);
the one side of grudging post (32) is fixed on backplate (31), and the other side of grudging post (32) with installation frame (5) fixed connection.
8. The structure as claimed in claim 7, wherein the back plate (31) is fixed to the wall surface (4) by a fixing member.
9. The structure of any one of claims 1 to 4, wherein the embossed-in-wall board (1) is a honeycomb board.
10. The structure as claimed in any one of claims 2 to 4, wherein the corner brace (21) is fixed to the embossed plate (1) by a fixing member.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021745632.8U CN213087270U (en) | 2020-08-20 | 2020-08-20 | Unsmooth molding wall panel is designed structure for concatenation |
Applications Claiming Priority (1)
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CN202021745632.8U CN213087270U (en) | 2020-08-20 | 2020-08-20 | Unsmooth molding wall panel is designed structure for concatenation |
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CN213087270U true CN213087270U (en) | 2021-04-30 |
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CN202021745632.8U Active CN213087270U (en) | 2020-08-20 | 2020-08-20 | Unsmooth molding wall panel is designed structure for concatenation |
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2020
- 2020-08-20 CN CN202021745632.8U patent/CN213087270U/en active Active
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