CN214531671U - A pin-connected panel decorative wall structure for indoor decoration - Google Patents

Abstract

The utility model discloses an assembled decorative wall structure for indoor design, which comprises splicing block components which are arranged adjacently in sequence, connecting block components are detachably embedded at the joints of the four splicing block components, and corner components are detachably connected on the outer corners of the splicing block components at the edges; the splicing block assembly comprises a square plate and a shell cover connected to the square plate in a buckling manner; the connecting block assembly comprises a screwing plate and a cover plate in threaded connection with the screwing plate, the screwing plate is screwed and fastened with the four square plates at the same time, and the outer walls of the cover plate are attached to the outer walls of the four shells at the same time; the corner component comprises a corner block fixedly connected to the corner outside the square plate and a corner cover plate buckled and connected to the corner block. The utility model discloses a modular structure is assembled, assembles simply swiftly, need not the professional operation, can carry out local quick replacement and the transform of whole molding, maintains easy operation safety, carries out the reutilization after can dismantling.

Description

A pin-connected panel decorative wall structure for indoor decoration

Technical Field

The utility model relates to an interior design decorates the field, especially relates to a pin-connected panel decorative wall structure for interior design.

Background

In modern finishing, the beautification of wall surfaces is one of the most important tasks in the overall finishing. People usually achieve the purpose of beautifying the wall through various coatings or various decorative panels. In the business activities of the shops, in order to make the shops more attractive, the wall decoration effect is particularly important. However, the current wall decoration also has the following problems and disadvantages: 1. as the shape and color are not changeable, the shop owner is often required to refit after a period of time to attract customers, thereby increasing the operating cost and the construction period of the decoration; 2. because the decorative wall can not be reused, the original decorative wall can be dismantled and damaged by the next operator when the operation place is changed or the operation project is changed, and the operation cost and the waste of resources are increased; 3. the construction time is long, the shop can not be put into operation as soon as possible, and professional technicians are needed for maintenance, so that the maintenance cost and the maintenance period are long, and the shop is not favorable for normal business.

Meanwhile, the selection of decoration colors is also very critical in order to fit and promote operational projects in the current shop operation. When a store owner needs to perform different project operations in different time periods, the benefits cannot be maximized due to the limitation of decoration styles.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a pin-connected panel decorative wall structure for indoor decoration adopts the modular structure to assemble, assembles simply swiftly, need not the professional operation, can carry out local quick replacement and whole figurative transform, maintains easy operation safety, carries out the reutilization after can dismantling.

In order to solve the technical problem, the utility model discloses a technical scheme be:

a spliced decorative wall structure for indoor design comprises splicing block assemblies which are arranged adjacently in sequence, connecting block assemblies are detachably embedded at the joints of the four splicing block assemblies, and corner assemblies are detachably connected to the outer side corners of the splicing block assemblies at the edges;

the splicing block assembly comprises a square plate and a shell cover connected to the square plate in a buckling mode;

the connecting block assembly comprises a screwing plate and a cover plate in threaded connection with the screwing plate, the screwing plate is screwed and fastened with the four square plates at the same time, and the outer walls of the cover plate are attached to the outer walls of the four shells at the same time;

the corner assembly comprises a corner block fixedly connected to the corner outside the square plate and a corner cover plate connected to the corner block in a buckling mode, and the side wall of the corner cover plate is attached to the outer wall of the shell cover.

Furthermore, the side center department of square board installs the LED lamp that is located the clamshell inboard, and the side of square board is gone up the fixed four groups of binding post that are provided with, and four groups of binding post pass through the wire and connect in parallel, and are connected with the electric input end of LED lamp.

Furthermore, all be provided with the joint arch in the four sides lateral wall center department of clamshell, the four sides lateral wall center department of square board all is provided with the joint recess, and every joint arch corresponds the joint in the joint recess.

Furthermore, the four corners of the shell cover are provided with inwards concave quarter arc surfaces, and the four corners of the square plate are respectively provided with arc-shaped rotary-closing insertion notches positioned on the outer sides of the quarter arc surfaces.

Furthermore, the shell cover is made of semitransparent plastic materials.

Furthermore, the fixed grafting post that closes soon that is provided with four evenly distributed of the terminal surface of revolving the plywood, close the grafting post soon and close the grafting notch and correspond the cooperation with four arcs that four square boards border on the department respectively.

Furthermore, the edge of the quarter arc surface of the shell cover is provided with a crimping flange, the edge of the end surface of the rotary plate is provided with an annular crimping step, and the crimping step is lapped on the outer side of the crimping flange.

Furthermore, a first conductor and a second conductor are arranged in the rotary plate, the first conductor and the second conductor are arranged in parallel, and the first conductor and the second conductor are movably connected with the wiring terminals on the four square plates respectively.

Furthermore, the outer side of the connecting terminal is fixedly provided with a spring contact protruding out of the outer wall of the shell, and the end parts of the first conductor and the second conductor protrude out of the outer wall of the rotary plate;

when the screwing plate is in the screwing position, the end parts of the first conductor and the second conductor are respectively contacted with the two elastic sheet contacts simultaneously;

when the rotary plate is in the non-rotary position, the ends of the first conductor and the second conductor are separated from the two spring contact terminals simultaneously.

The utility model has the advantages as follows:

1. the utility model adopts the modularized structure for assembly, and the assembly process is simple and rapid through the sequential adjacent arrangement of the splicing block components and the screwing connection of the connecting block components, and the installation, maintenance and disassembly processes do not need professional operation, the construction period is short, and the cost investment can be effectively reduced;

2. the utility model realizes the sequential connection between the splicing block components through the connecting block components, after the corresponding connecting block components are removed, any splicing block can be locally and quickly replaced or integrally shaped, the normal use of other parts is not influenced, the maintenance and transformation operation is simple and safe, the requirement of diversified shapes is met, and the cost investment is not increased;

3. the utility model discloses a structure of assembling carries out the reutilization after can dismantling, avoids the waste of resource, has saved the cost input of later stage fitment.

Drawings

Fig. 1 is a schematic perspective view of the minimum splicing unit according to the present invention;

fig. 2 is a schematic view of the three-dimensional structure of the rear view angle of the minimum splicing unit of the present invention;

FIG. 3 is a schematic perspective view of a front view of the splice block assembly;

FIG. 4 is an exploded view of the splice block assembly at a front angle;

FIG. 5 is a schematic perspective view of a rear view angle of the tile assembly;

FIG. 6 is an exploded view of the rear view angle of the splice block assembly;

FIG. 7 is a schematic perspective view of the connecting block assembly from a front perspective;

FIG. 8 is an exploded view of the connecting block assembly from a front perspective;

fig. 9 is a schematic perspective view of a rear view angle of the connecting block assembly;

FIG. 10 is an exploded view of the rear view angle of the connecting block assembly;

FIG. 11 is a perspective view of the spatial relationship of the first and second conductors;

FIG. 12 is a schematic top view of the spatial relationship between the first and second conductors;

figure 13 is a perspective view of the corner assembly;

figure 14 is an exploded view of the corner assembly from a top down perspective;

figure 15 is an exploded view of the corner assembly from a bottom view.

In the figure: 1 splicing block component, 11 square plates, 111 clamping grooves, 112 arc-shaped screwing splicing notches, 12 covers, 121 clamping protrusions, 122 crimping flanges, 13LED lamps, 14 wiring terminals, 2 connecting block components, 21 screwing plates, 211 crimping steps, 22 cover plates, 23 screwing splicing columns, 24 first electric conductors, 25 second electric conductors, 26 screws, 3 corner components, 31 corner blocks and 32 corner cover plates.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Referring to fig. 1 and 2, an assembled decorative wall structure for indoor design includes splicing block assemblies 1 arranged adjacently in sequence, connecting block assemblies 2 detachably embedded at the joints of the four splicing block assemblies 1, and corner assemblies 3 detachably connected to the outer corners of the splicing block assemblies 1 at the edges.

Specifically, as shown in fig. 3 to 6, the splice block assembly 1 includes a square plate 11 and a housing 12 connected to the square plate 11 in a snap-fit manner. The square plate 11 and the housing 12 are made of environment-friendly plastic plates or wooden plates or stainless steel plates, and the size specifications of the square plate and the housing can be made into different series according to actual needs. In this embodiment, the square plate 11 is made of environment-friendly plastic, and the size of the square plate is 400mm x 10 mm; the housing 12 is made of translucent, environmentally friendly plastic, and has a profile dimension of 400mm x 30mm and a housing wall thickness of 3 mm. The housing 12 can be made in different colors to meet the color requirements of the wall surface modeling process.

All be provided with joint arch 121 in the four sides lateral wall center department of clamshell 12, square board 11's four sides lateral wall center department all is provided with joint recess 111, every joint arch 121 corresponds the joint in joint recess 111. The length of the clamping protrusion 121 is not greater than the thickness and width of the square plate 11 and the groove width of the clamping groove 111 are the same, so that the housing 12 can be reliably fastened on the square plate 11, and the four outer walls of the housing 12 are respectively overlapped with the four side walls of the square plate 11 to form a cubic block structure. A plurality of cube block structures are adjacently spliced in sequence to form a decorative wall with a large area.

Further, the side center department of square board 11 has seted up the mounting groove, installs the LED lamp 13 that is located the shell casing 12 inboard in the mounting groove for splice piece subassembly 1 possesses luminous function, forms the curtain wall construction that has the light efficiency. By setting the color and the brightness of the LED lamps 13 in each splicing assembly 1 and the light emitting time and the sequence of each LED lamp 13, various light effects can be realized, so that the decorative wall has more light effect combinations. Wherein, the profile of LED lamp 13 and the profile phase-match of mounting groove, and the panel edge of LED lamp 13 has seted up the counterpoint breach, be provided with on the inner wall of mounting groove with counterpoint breach assorted counterpoint arch, be convenient for LED lamp 13 inlay the dress fast in the mounting groove. Meanwhile, the back face of the panel of the LED lamp 13 is provided with a plurality of screw connecting columns, and the LED lamp 13 can be fixed on the square plate 11 through screws arranged in the screw connecting columns.

Four groups of wiring terminals 14 are fixedly arranged on the side face of the square plate 11, each group of wiring terminals 14 comprises a positive wiring terminal and a negative wiring terminal, the four positive wiring terminals are connected in parallel through a wire, the four negative wiring terminals are connected in parallel through a wire, and the four positive wiring terminals are connected with two electrode input ends of the LED lamp 13 to serve as power input ends of the LED lamp 13.

Four corners of the housing 12 are provided with inward quarter arc surfaces, the arc radius is 50mm, and after the square plates 11 of the four splice block assemblies 1 are abutted, a circular groove with the radius of 50mm is formed at the center of the four housing 12. The four corners of the square plate 11 are respectively provided with an arc-shaped screwing insertion notch 112 positioned outside the quarter arc surface. The section of the arc-shaped rotary-closing insertion groove 112 is in an inverted T shape, an insertion opening is arranged at the end part of the narrow opening at the top of the arc-shaped rotary-closing insertion groove, and the diameter of the insertion opening is the same as the width of the wide opening at the bottom of the arc-shaped rotary-closing insertion groove 112. The four arc-shaped screwing insertion notches 112 on the square plate 11 are distributed towards the same direction.

Two through holes are formed in the quarter arc surface of the shell 12, spring plate contacts protruding out of the outer wall of the shell 12 are fixedly arranged on the outer side of the wiring terminal 14, two groups of spring plate contacts are respectively and correspondingly located in the two through holes, and each group of spring plate contacts comprise an upper contact and a lower contact which are oppositely arranged.

As shown in fig. 7 to 10, the connecting block assembly 2 includes a screwing plate 21 and a cover plate 22 screwed on the screwing plate 21, the screwing plate 21 is a disc-shaped structure made of plastic material, and the radius of the screwing plate 21 is smaller than the radius of the quarter arc surface of the housing 12, so that the screwing plate 21 can be embedded into a circular groove formed by four quarter arc surfaces. The fixed inserting column 23 that closes soon that is provided with four evenly distributed of the bottom terminal surface of rotary plate 21, close inserting column 23 soon and close grafting notch 112 with four arcs of four square plate 11 vicinities respectively and correspond the cooperation, close inserting column 23's cross sectional shape and arc soon promptly and close the cross sectional shape phase-match of grafting notch 112, close inserting column 23 soon and insert four arcs simultaneously and close the inserted hole on grafting notch 112 soon, and then move down and rotatory rotary plate 21, make four close inserting column 23 soon and get into the arc simultaneously and close in the bottom wide mouth of grafting notch 112 soon, and rotatory removal closes the extreme position at the other end place of grafting notch 112 soon to the arc, thereby realize rotary plate 21 and four square plate 11 soon with closing the lock joint simultaneously.

Preferably, the screwing plate 21 is evenly provided with four groups of bolt connecting holes, and the edge of each square plate 11 is respectively provided with two threaded holes, so that after the screwing plate 21 is screwed into the arc-shaped screwing insertion groove 112 to the extreme position, the screwing plate 21 can be simultaneously fixedly connected with the four square plates 11 through 8 bolts 26, and the screwing plate 21 is prevented from being subjected to external stress or vibration to cause position deviation.

The edge of the quarter arc surface of the housing 12 is provided with a crimping flange 122, the edge of the end surface of the screwing plate 21 is provided with an annular crimping step 211, and after the screwing plate 21 and the four square plates 11 are screwed and fastened, the crimping step 211 is lapped on the outer side of the crimping flange 122, so that the housing 12 is pressed and fixed on the square plates 11, and the housing 12 is prevented from falling off from the square plates 11.

The spin plate 21 is provided with a first conductor 24 and a second conductor 25. As shown in fig. 11 and 12, the first conductor 24 and the second conductor 25 are disposed in parallel and are integrally formed in the spin plate 21 by thermal molding, and the end portions of the first conductor 24 and the second conductor 25 protrude from the outer wall of the spin plate 21. The first conductor 24 and the second conductor 25 both comprise copper rings and four uniformly distributed copper needles integrally arranged on the outer sides of the copper rings, and the copper needles of the first conductor 24 and the copper needles of the second conductor 25 are arranged in groups two by two. The first conductor 24 and the second conductor 25 are respectively and movably connected with the connecting terminals 14 on the four square plates 11, namely when the rotary plate 21 is in a screwing position, the ends of the first conductor 24 and the second conductor 25 are respectively contacted with the two spring contacts simultaneously; when the rotary plate 21 is in the non-rotary position, the ends of the first conductor 24 and the second conductor 25 are separated from the two spring contacts simultaneously.

Thus, after the plurality of splicing block assemblies 1 are connected through the plurality of connecting block assemblies 2, a built-in parallel circuit is formed. When a certain splicing assembly 1 needs to be disassembled and replaced, the four rotary plates 21 at the four corners of the splicing assembly reversely rotate to enable the four connecting block assemblies 2 to be removed, the splicing block assembly 1 is in a power-off state and can be directly disassembled, a new splicing block assembly 1 is installed, power-off operation is not needed in the whole process, and normal use of other splicing block assemblies 1 is not influenced.

The outer end face center department of revolving plate 21 is provided with the screw thread spliced pole, and apron 22 is the disc structure that the plastics material was made, and its bottom surface center department is provided with the screw thread sleeve, through the screw-thread fit of screw thread sleeve with the screw thread spliced pole, can apron 22 fixed connection on revolving plate 21. Preferably, the radius of the cover plate 21 is the same as the radius of the quarter arc surface of the housing 12, and after the cover plate 21 is fixed on the rotary plate 21, the outer wall of the cover plate 22 is simultaneously attached to the outer walls of the four housings 12, so that the rotary plate 21 is completely covered in the cover plate 21, which can form a continuously finished decorative wall surface and protect the internal circuit.

As shown in fig. 13 to 15, the corner module 3 includes a corner block 31 fixedly connected to an outer corner of the square plate 11, and a corner cover plate 32 snap-connected to the corner block 31. The corner block 31 and the corner cover plate 32 are both of quarter disc structures made of environment-friendly plastic materials, the radius of the corner cover plate 32 is the same as that of a quarter arc surface of the shell 12, the radius of the corner block 31 is smaller than that of the corner cover plate 32, and the corner block 31 is fixedly connected to the outer side corner of the square plate 11 at the edge through two screws 26; the top surface of the corner block 31 and the bottom surface of the corner cover plate 32 are respectively provided with an inserting groove which can be nested with each other, and the corner cover plate 32 is buckled on the corner block 31 through the inserting grooves. After the buckling, the side walls of the corner cover plates 32 are attached to the outer wall of the casing 12, and the end surfaces of the corner cover plates 32 and the end surfaces of the casing 12 form a continuous wall surface.

Similarly, the bottom arc-shaped edge of the corner block 31 is also provided with a crimping step similar to the screwing plate 21, and after the corner block 31 is fixedly connected to the square plate 11 through the bolt 26, the crimping step of the corner block 31 is overlapped on the outer side of the crimping flange 122 of the housing 12, so that the outer edge of the housing 12 is tightly pressed and fixed on the square plate 11, and the housing 12 at the outermost side is prevented from falling off from the square plate 11.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (9)

1. The utility model provides a pin-connected panel decorative wall structure for indoor decoration which characterized in that: the corner splicing device comprises splicing block assemblies (1) which are arranged adjacently in sequence, connecting block assemblies (2) are detachably embedded at the joints of the four splicing block assemblies (1), and corner assemblies (3) are detachably connected to the outer side corners of the splicing block assemblies (1) at the edges;

the splicing block assembly (1) comprises a square plate (11) and a shell cover (12) connected to the square plate (11) in a buckling mode;

the connecting block assembly (2) comprises a screwing plate (21) and a cover plate (22) in threaded connection with the screwing plate (21), the screwing plate (21) is screwed and fastened with the four square plates (11) at the same time, and the outer wall of the cover plate (22) is attached to the outer walls of the four shells (12) at the same time;

corner subassembly (3) are including corner piece (31), the corner cover board (32) of lock connection on corner piece (31) on square board (11) outside corner fixed connection, the lateral wall of corner cover board (32) and the outer wall laminating of clamshell (12).

2. The assembled decorative wall structure for indoor design according to claim 1, wherein: the LED lamp (13) that are located shell casing (12) inboard are installed to the side center department of square board (11), and four groups binding post (14) of fixed being provided with on the side of square board (11), and four groups binding post (14) are parallelly connected through the wire, and are connected with the electric input end of LED lamp (13).

3. The assembled decorative wall structure for indoor design according to claim 1, wherein: the four sides lateral wall center department of clamshell (12) all is provided with joint arch (121), the four sides lateral wall center department of square board (11) all is provided with joint recess (111), and every joint arch (121) correspond the joint in joint recess (111).

4. The assembled decorative wall structure for indoor design according to claim 1, wherein: the four corners of the shell cover (12) are provided with inwards concave quarter arc surfaces, and the four corners of the square plate (11) are respectively provided with arc-shaped rotary-closing inserting notches (112) located on the outer sides of the quarter arc surfaces.

5. The assembled decorative wall structure for interior design according to any one of claims 1 to 4, wherein: the shell cover (12) is made of semitransparent plastic materials.

6. The built-up type decorative wall structure for indoor design according to claim 4, wherein: the end face of the rotary plate (21) is fixedly provided with four uniformly distributed rotary-joint inserting columns (23), and the rotary-joint inserting columns (23) are correspondingly matched with four arc-shaped rotary-joint inserting notches (112) at adjacent positions of the four square plates (11) respectively.

7. The built-up type decorative wall structure for indoor design according to claim 4, wherein: the edge of the quarter arc surface of the shell cover (12) is provided with a crimping flange (122), the edge of the end surface of the rotary plate (21) is provided with an annular crimping step (211), and the crimping step (211) is lapped on the outer side of the crimping flange (122).

8. The assembled decorative wall structure for indoor design according to claim 2, wherein: the improved wire twisting plate is characterized in that a first conductor (24) and a second conductor (25) are arranged in the twisting plate (21), the first conductor (24) and the second conductor (25) are arranged in parallel, and the first conductor (24) and the second conductor (25) are movably connected with the wiring terminals (14) on the four square plates (11) respectively.

9. The assembled decorative wall structure for indoor design according to claim 8, wherein: the outer side of the connecting terminal (14) is fixedly provided with a spring contact protruding out of the outer wall of the shell cover (12), and the end parts of the first conductor (24) and the second conductor (25) protrude out of the outer wall of the rotary plate (21);

when the rotary plate (21) is in a rotary position, the ends of the first conductor (24) and the second conductor (25) are respectively contacted with the two spring contact terminals simultaneously;

when the rotary plate (21) is in a non-rotary position, the ends of the first conductor (24) and the second conductor (25) are respectively separated from the two spring contacts simultaneously.

Images