CN210152160U - Easily-assembled plate block - Google Patents

Abstract

The utility model discloses an easily assemble plate relates to building assembly plate technical field, aims at solving the difficult problem of assembling of current floor or wallboard. The key point of the technical scheme is that an extension block is arranged on the side surface of one side of a splicing plate, a convex block is arranged on the side surface of the other side of the splicing plate, and a non-drying glue layer is arranged on the bottom surface of the splicing plate; a limiting groove is formed between the bottom wall of the extension block and the side face, close to the extension block, of the splicing plate block, and the limiting groove is matched with the protruding block; a clamping block is arranged at one end of the extension block, which is far away from the splicing plate block, and a clamping groove matched with the clamping block is arranged on the side surface of the splicing plate block, which is close to the convex block and is positioned above the convex block; the inner side wall of the clamping groove close to the top surface of the splicing plate is obliquely arranged and is provided with an inclined plane facing the convex block, and the inclined plane is matched with the side surface of one side of the clamping block close to the top surface of the splicing plate. Can prevent through not dry glue film to assemble the concatenation plate of accomplishing and produce the displacement for the mounting surface, because the setting on inclined plane, the fixture block can easily insert corresponding draw-in groove and assemble the difference in height in order to control, has the advantage of easily assembling.

Description

Easily-assembled plate block

Technical Field

The utility model belongs to the technical field of the plate technique is assembled to the building and specifically relates to an easily assemble plate is related to.

Background

Floor panels are building materials for house floors or building surface coverings and wall panels are materials for wall surfaces, which are typically made of wood or other engineered board materials. The laying of large-area floor/wallboard is formed by laying small plates on the ground/wall surface, and before the user directly lays the splicing plate on the ground/wall surface, the user usually coats a layer of adhesive on the back of the splicing plate first, and then pastes the splicing plate on the ground/wall surface. However, this way of rubberizing flooring is not only costly but also rather environmentally unfriendly and therefore leaves room for improvement.

In order to solve the above problems, the existing floor manufacturers have proposed different floor splicing solutions, for example:

d1: chinese patent publication No. CN106032696A discloses a spliced floor, which comprises a plurality of spliced floor blocks and a plurality of fasteners, wherein each spliced floor block has a body with a substantially rectangular shape, two opposite sides of the body are respectively provided with a protruding rib and a slot, a first pressing block and a second pressing block are respectively arranged below the protruding rib and the slot, and a concave portion and a step portion are concavely arranged above the outer side of each pressing block; each fastener is provided with a base plate, two opposite sides of the top surface of the base plate are provided with a front baffle and a rear baffle which are raised upwards, a partition plate which is raised upwards is arranged between the front baffle and the rear baffle, and the top of the partition plate is provided with a fastening piece which is bent towards the rear baffle. The convex ribs and the inserting grooves are embedded and buckled, and the buckling pieces and the concave parts or the step parts are buckled, so that the assembled floor can be stably combined.

D2: chinese patent publication No. CN104220682A discloses solid wood building panels, each comprising an upper first element of solid wood secured to a lower second element of solid wood. The building panels are provided with a mechanical locking system comprising a locking strip at a first edge of a first building panel. The locking strip is provided with a locking element configured to cooperate with a locking groove at the second edge of the second building panel for horizontal locking of the first and second building panels when tension is applied.

As can be seen from the above documents, the stable connection between the split floor panels/building panels (which may be wall panels) by means of separate fasteners or by means of the cooperation of the locking element and the locking groove has been well established. However, when the individual fasteners or the lock structures are used to connect the panels (the floor tiles/the building panels), the connection can be completed only by using the assembling tools, for example, when the individual fasteners are used, tools such as a hammer are needed to facilitate the fasteners to be clamped into the grooves of the corresponding floor tiles, when the lock structures are used, the assembling tools such as a hammer are needed to enable the locking elements on the assembled floor tiles to be embedded into the locking grooves on the other assembled floor tiles, which is time-consuming, labor-consuming and difficult to assemble.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an easily assemble board piece, it has the advantage of easily assembling.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

an easily-spliced plate block comprises a spliced plate block, wherein an extension block is arranged on one side face of the spliced plate block, a convex block is arranged on the other side face of the spliced plate block, and a non-dry adhesive layer is arranged on the bottom face of the spliced plate block; a limiting groove is formed between the bottom wall of the extension block and the side face, close to the extension block, of the splicing plate block, and the limiting groove is matched with the protruding block; a clamping block is arranged at one end, far away from the splicing plate, of the extension block, and a clamping groove matched with the clamping block is arranged on the side surface, close to the convex block, of the splicing plate and above the convex block; the inner side wall of the clamping groove close to the top surface of the splicing plate is obliquely arranged and is provided with an inclined surface facing the convex block, and the inclined surface is matched with the side surface of one side of the clamping block close to the top surface of the splicing plate.

Through adopting above-mentioned technical scheme, fixture block and draw-in groove inlay card cooperation can control the difference in height between the splice plate piece for assemble the floor/wallboard surfacing of accomplishing. Due to the arrangement of the inclined plane, the clamping blocks can be easily inserted into the corresponding clamping grooves in a flat insertion or inclined insertion mode, and after the floor/wallboard assembly is completed, the splicing plate blocks are integrated with the ground through the non-stick glue layer, so that the transverse movement is avoided, and the floor/wallboard assembly jig has the advantage of being easy to assemble. In addition, for the hasp installation, this application has reduced mounting tool's use, and the installation effectiveness is higher. Compared with a gluing and paving mode, wet construction is avoided, and the disassembly is easier.

The utility model discloses further set up to: the fixture block is in an arc shape or a polygonal shape.

By adopting the technical scheme, the clamping blocks are easier to be clamped into the corresponding clamping grooves, and the floor/wallboard laying efficiency is further increased.

The utility model discloses further set up to: a gap is formed between the clamping block on the splicing plate and the inner side wall of the clamping groove on the corresponding splicing plate, and the gap is used for allowing the clamping block on the splicing plate to rotate along with the top side edge of one end, close to the clamping block, of the extending block along with the splicing plate in the axial direction outside the clamping groove on the corresponding splicing plate.

Through adopting above-mentioned technical scheme, when dismantling the concatenation plate, can use it to extend the top side arris that the piece is close to the one end of fixture block and rotate as the axial, it is more convenient to dismantle. In addition, when the splicing device is assembled, two splicing plates can be well paved in an inclined insertion mode at a larger inclination angle, so that the splicing device is more humanized and more comfortable to install.

The utility model discloses further set up to: the top surface of the bump is parallel to the top surface of the splicing plate, and the included angle between the inclined plane and the top surface of the bump is 10-75 degrees.

Through adopting above-mentioned technical scheme, under the certain circumstances of draw-in groove degree of depth, less inclined plane inclination is favorable to reducing draw-in groove open-ended size to can not make the thickness undersize that the concatenation plate is located the position of draw-in groove top and below, do benefit to the structural strength who guarantees the one end that the concatenation plate is close to the draw-in groove.

The utility model discloses further set up to: the length of the convex block along the depth direction of the clamping groove is smaller than that of the extension block along the depth direction of the clamping groove, and the top surface of the convex block and the end surface of the convex block far away from the splicing plate are in arc transition.

Through adopting above-mentioned technical scheme, the lug inserts in the spacing groove on another piece of assembling the plate after, and the lug is not contacted with this another piece of terminal surface of assembling the plate, can prevent that the lug from bumping with another piece of assembling the plate and causing the damage.

The utility model discloses further set up to: the bottom surface of concatenation plate is provided with the silence layer, the setting of not dry glue layer is kept away from on the side of concatenation plate on the silence layer.

By adopting the technical scheme, the sound insulation pad is compounded on the back surface of the bottom plate, so that the paved floor/wallboard has certain sound insulation performance.

The utility model discloses further set up to: the splicing plate comprises two long side surfaces and two short side surfaces, the extension block and the protruding block are respectively arranged on the two long side surfaces of the splicing plate, and the clamping groove extends to the two short side surfaces of the splicing plate along the length direction of the long side surfaces of the splicing plate.

Through adopting above-mentioned technical scheme, the whole long side of concatenation plate all is connected with the long side of another concatenation plate, has increased the stability of connecting. And because the clamping grooves are arranged in a penetrating manner, the splicing plates can be staggered to splice floor boards/wall boards in different shapes, and the floor boards/wall boards are more humanized.

The utility model discloses further set up to: an inserting block is arranged on one short side surface of the splicing plate block along the length direction of the short side surface, and a convex rib is arranged on the other short side surface of the splicing plate block along the length direction of the short side surface; the bottom surface of the convex rib is flush with the bottom surface of the splicing plate, and a first slot matched with the inserting block is formed between the top surface of the convex rib and the end surface of the splicing plate close to the convex rib; the top surface of the inserted block is flush with the top surface of the splicing plate block, and a second slot matched with the convex rib is formed between the bottom surface of the inserted block and the end surface of the splicing plate block close to the inserted block.

By adopting the technical scheme, after the clamping block on the assembling plate is inserted into the clamping groove on the other assembling plate by adopting a flat inserting or inclined inserting mode, the assembling plate corresponding to the clamping block is paved and pressed with the ground/wall surface, so that the inserting block corresponding to the clamping block is clamped into the first inserting groove on the corresponding assembling plate, and the connecting effect between the short side surfaces of the assembling plates can be enhanced. In addition, the flatness between the top surfaces of the two adjacent splicing plates close to the short side ends is also increased, and the height difference is further reduced.

The utility model discloses further set up to: the length of the convex ribs along the length direction of the long side face of the spliced plate is smaller than that of the inserted block along the length direction of the long side face of the spliced plate, the side face of the inserted block, far away from the spliced plate, is obliquely arranged and is formed with an inward face, and the included angle between the inward face and the top face of the spliced plate is 80-85 degrees.

Through adopting above-mentioned technical scheme, when adopting the mode of inserting or inserting to one side to assemble floor/wallboard, the condition of the inside wall contact of interior facing and corresponding first slot can not appear, is favorable to reducing the resistance when assembling to make and assemble the efficiency and improve greatly.

To sum up, the utility model discloses a beneficial technological effect does:

1. through the arrangement of the lug, the limiting groove, the clamping block, the clamping groove, the inclined plane and the non-dry adhesive layer, the effect of easy assembly is achieved;

2. through the arrangement of the inclined planes and the gaps, the floor/wallboard is more humanized in pavement, and workers are more comfortable and higher in efficiency when paving the floor/wallboard;

3. through the setting of inserted block, fin and interior facing, do benefit to and improve the planarization of assembling the back floor/wallboard surface.

Drawings

Fig. 1 is a schematic overall structure diagram of an easily-assembled plate block according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram for showing a connection relationship between a fixture block and a corresponding slot according to a first embodiment of the present invention;

fig. 3 is a schematic structural view for showing that the fixture block rotates outward of the corresponding fixture groove according to the first embodiment of the present invention;

fig. 4 is a schematic structural diagram illustrating a connection relationship between an insert block and a corresponding first slot according to a first embodiment of the present invention;

fig. 5 is a schematic structural diagram for showing the translation of the splicing plate towards another splicing plate in the first embodiment of the present invention;

fig. 6 is a schematic structural diagram for showing a connection relationship between a fixture block and a corresponding slot according to the second embodiment of the present invention;

fig. 7 is a schematic structural diagram for showing the translation of the splicing plate to another splicing plate direction in the third embodiment of the present invention;

fig. 8 is a schematic structural diagram for showing a connection relationship between a fixture block and a corresponding slot in the fourth embodiment of the present invention;

fig. 9 is a schematic structural diagram for showing a connection relationship between the insert block and the corresponding first slot according to the fifth embodiment of the present invention.

In the figure, 1, splicing plates; 11. an extension block; 12. a bump; 13. inserting a block; 14. a rib; 15. an inward facing surface; 16. a hook groove; 17. a first L-shaped block; 18. a second L-shaped block; 19. irregular surfaces; 2. a limiting groove; 3. a clamping block; 4. a card slot; 41. a bevel; 5. a gap; 6. a mute layer; 61. a non-drying glue layer; 7. a first slot; 8. a second slot; 9. an arc-shaped surface.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example one

Referring to fig. 1, for the utility model discloses an easily assemble plate, it includes concatenation plate 1, and one side integrated into one piece of concatenation plate 1 has extension piece 11, and the opposite side integrated into one piece of concatenation plate 1 has lug 12. Specifically, a limiting groove 2 is formed between the bottom wall of the extending block 11 and the side surface of the splicing plate block 1 close to the extending block 11, and the limiting groove 2 is matched with the protrusion 12, that is, the limiting groove 2 can be inserted by the protrusion 12 on another splicing plate block 1. When the projection 12 is inserted into the corresponding limiting groove 2, the top surface of the projection 12 abuts against the bottom surface of the extension block 11.

Referring to fig. 1, a clamping block 3 is integrally formed at one end of the extension block 11, which is far away from the splicing plate 1, a clamping groove 4 matched with the clamping block 3 is formed on the side surface, which is close to the convex block 12, of the splicing plate 1 and is positioned above the convex block 12, and the distance from the splicing plate 1 to the clamping groove 4 is 0-8mm (including 8mm and not 0 mm). Preferably, in this embodiment, the distance from the splice plate 1 to the slot 4 is 1.15mm, and the inner side wall of the slot 4 close to the bottom surface of the splice plate 1 is flush with the top surface of the protrusion 12. Draw-in groove 4 sets up and is formed with inclined plane 41 near the inside wall slope of 1 top surface of concatenation plate, and this inclined plane 41 is towards lug 12 and is close to one side phase-match of 1 top surface of concatenation plate with fixture block 3, promptly, after draw-in groove 4 is gone into to fixture block 3 complete card, one side and the 41 butts on inclined plane that fixture block 3 is close to 1 top surface of concatenation plate to can control the difference in height between the concatenation plate 1 of assembling each other, make the top surface of each concatenation plate 1 flush.

Specifically, the hook groove 16 is formed at the joint of the extending block 11 and the side wall of the clamping block 3 close to the top surface of the splicing plate block 1, and the hook groove 16 is used for preventing the side edge of the joint of the inclined surface 41 of the clamping groove 4 and the end surface of the splicing plate block 1 from being damaged when the clamping block 3 is inserted into the corresponding clamping groove 4. The top surface of the bump 12 is parallel to the top surface of the splice plate 1, the angle between the inclined surface 41 and the top surface of the bump 12 is 10-75 degrees, and in this embodiment, the angle between the inclined surface 41 and the top surface of the bump 12 is preferably 12 degrees. It should be noted that the latch 3 in the present embodiment is polygonal, and the area of one end of the latch 3 close to the extending block 11 is larger than the area of the other end of the latch 3, and in addition, the latch 3 may also be a cambered surface type, a conical shape, etc., which is not limited in this application.

Referring to fig. 1, the bottom surface of the spliced plate 1 is provided with a mute layer 6, the side surface of the mute layer 6 far away from the spliced plate 1 is provided with a non-drying adhesive layer 61, the thickness of the mute layer 6 is 0.5mm-5mm, and the thickness of the non-drying adhesive layer 61 is 0.05mm-3 mm. The splicing plates 1 in this embodiment can be spliced into floors on the ground and wallboards on the wall. Specifically, in this embodiment, the thickness of the mute layer 6 and the non-setting adhesive layer 61 is 0.5mm, and the mute layer 6 is a rubber pad, and it should be noted that the mute layer 6 may also be a silica gel pad, an EVA foam, an IXPE foam, a cork layer, a PS foam or a PVC foam leather or a paste resin foam pad, and the like, which is not specifically limited in this application. The self-adhesive layer 61 is formed by coating any one of rubber pressure-sensitive adhesive, hot-melt adhesive, PU adhesive and other water-soluble or solvent-based adhesive on the bottom surface of the splicing plate 1, in the embodiment, the self-adhesive layer 61 is formed by coating safe and environment-friendly water-based acrylic pressure-sensitive resin T-2803 on the bottom surface of the splicing plate 1, so that the floor/wallboard is integrally paved with the ground, the floor/wallboard is prevented from moving transversely relative to the ground, and the height difference caused by uneven ground is reduced.

Referring to fig. 2 and 3, the length of the protrusion 12 along the depth direction of the slot 4 is smaller than the length of the extension block 11 along the depth direction of the slot 4, and the top surface of the protrusion 12 and the end surface thereof far away from the splice plate 1 form an arc transition. After the fixture block 3 on the splicing plate block 1 is completely clamped into the clamping groove 4 on the other splicing plate block 1, a gap 5 is formed between the inner side walls of the fixture block 3 on the splicing plate block 1 and the clamping groove 4 on the corresponding splicing plate block 1, the gap 5 is used for enabling the fixture block 3 on the splicing plate block 1 to rotate along with the top lateral edge of one end, close to the fixture block 3, of the extension block 11 along with the extension block 11 and the splicing plate block 1 in the axial direction corresponding to the outer lateral direction of the clamping groove 4 on the splicing plate block 1, namely, the distance between the top lateral edge of one end, close to the fixture block 3, of the extension block 11 and each outer side wall of the fixture block 3 is smaller than the distance between. When assembling the floor/wallboard, the two splicing plates 1 can be installed in a translation way, and also can be installed in an inclined insertion way, so that the floor/wallboard is more humanized and more comfortable to install.

Referring to fig. 4 and 5, the splice plate 1 includes two long side surfaces and two short side surfaces, the extension block 11 and the projection 12 are respectively disposed on the two long side surfaces of the splice plate 1, and the locking groove 4 extends to the two short side surfaces of the splice plate 1 along the length direction of the long side surfaces of the splice plate 1. An insert block 13 is arranged on one short side surface of the splicing plate block 1 along the length direction of the short side surface, a convex rib 14 is arranged on the other short side surface of the splicing plate block 1 along the length direction of the short side surface, and the insert block 13 and the convex rib 14 are integrally formed with the splicing plate block 1. The bottom surface of the convex rib 14 is flush with the bottom surface of the splicing plate block 1, a first slot 7 is formed between the top surface of the convex rib 14 and the end surface, close to the convex rib 14, of the splicing plate block 1, and the first slot 7 is matched with the insert block 13. The top surface of inserted block 13 flushes with the top surface of concatenation plate 1, is formed with second slot 8 between the bottom surface of inserted block 13 and the terminal surface that concatenation plate 1 is close to inserted block 13, second slot 8 and fin 14 adaptation.

Referring to fig. 4 and 5, the length of the protruding rib 14 along the length direction of the long side of the splice plate 1 is less than the length of the insert 13 along the length direction of the long side of the splice plate 1, and after the insert 13 is inserted into the first slot 7 on the corresponding splice plate 1, a distance is formed between the protruding rib 14 corresponding to the first slot 7 and the end surface of the splice plate 1 corresponding to the insert 13. Specifically, the side face of the insert block 13 away from the splice plate 1 is obliquely arranged and is formed with an inward face 15, an included angle between the inward face 15 and the top face of the splice plate 1 is 80-85 degrees, and in this embodiment, the included angle between the inward face 15 and the top face of the splice plate 1 is preferably 85 degrees. When assembling the floor/wall board, the inserting block 13 is inserted into the first slot 7 on the corresponding splicing plate 1, and then the clamping block 3 is inserted into the clamping slot 4 by adopting a flat inserting or inclined inserting mode.

The implementation principle of the above embodiment is as follows:

when the floor/wallboard is paved, the clamping block 3 on the long side surface of the splicing plate 1 is inserted into the clamping groove 4 on the other splicing plate 1 in a flat insertion or inclined insertion mode, then the splicing plate 1 is paved and pressed with the ground/wall surface, and meanwhile, the inserting block 13 on the short side surface of the splicing plate 1 is clamped into the first inserting groove 7 of the corresponding splicing plate 1, so that the floor/wallboard is easy to assemble.

Take the floor/wallboard that four concatenation plates 1 assembled as the example (refer to fig. 5), four concatenation plates 1 assemble the back, because fixture block 3 and draw-in groove 4 inlay card cooperation, so controlled the difference in height between the adjacent concatenation plate 1 for the top surface of assembling the floor/wallboard of accomplishing levels. And because the floor/wall board is connected with the ground into a whole through the non-setting adhesive layer 61, the transverse movement of each splicing plate block 1 is avoided.

Example two

Referring to fig. 6, the difference between the present embodiment and the first embodiment is: an irregular surface 19 in a multi-section broken line shape is formed between the top side edge of one end, close to the convex block 12, of the splicing plate 1 and the bottom wall of the clamping groove 4, and the clamping block 3 at the other end of the splicing plate 1 is matched with the clamping groove 4 with the irregular surface 19. It should be noted that, as can be understood by those skilled in the art, the top side edge of one end of the splice plate 1 close to the protrusion 12 and the bottom wall of the card slot 4 may also be in an inclined plane shape, an arc shape or a multi-segment arc shape, which is not specifically limited in this application.

EXAMPLE III

Referring to fig. 7, the difference between the present embodiment and the first embodiment is: the structure on the short side of concatenation plate 1 is the same with the structure on the long side of concatenation plate 1, promptly, is provided with on the short side of concatenation plate 1 and extends piece 11, fixture block 3 and spacing groove 2, corresponds on another short side of concatenation plate 1 and is provided with lug 12 and draw-in groove 4. During installation, after the clamping block 3 on the long side surface of the splicing plate block 1 is inserted into the clamping groove 4 on the long side surface of another splicing plate block 1 in a flat insertion or inclined insertion mode, the splicing plate block 1 is paved, meanwhile, the splicing plate block 1 is pushed to translate, so that the clamping block 3 on the short side surface of the splicing plate block 1 is clamped into the clamping groove 4 on the short side surface of the corresponding splicing plate block 1, and finally, the splicing plate block 1 and the ground/wall surface are pressed. Or after the clamping block 3 on the short side surface of the splicing plate block 1 is inserted into the clamping groove 4 on the short side surface of another splicing plate block 1 by adopting a flat insertion or oblique insertion mode, the splicing plate block 1 is paved, meanwhile, the splicing plate block 1 is pushed to translate, so that the clamping block 3 on the long side surface of the splicing plate block 1 is clamped into the clamping groove 4 on the long side surface of the corresponding splicing plate block 1, and finally, the splicing plate block 1 and the ground/wall surface are pressed.

Example four

Referring to fig. 8, the difference between the present embodiment and the first embodiment is: the top side edge of one end of the extension block 11 close to the fixture block 3 and the top side edge of one end of the fixture block 3 far away from the extension block 11 form an arc transition and form an arc surface 9. Through the arrangement of the arc-shaped surfaces 9, the fixture blocks 3 can be easily inserted into the corresponding fixture grooves 4.

EXAMPLE five

Referring to fig. 9, the present embodiment is different from the first embodiment in that: a first L-shaped block 17 is arranged on one short side surface of the splicing plate 1 along the length direction of the short side surface, a second L-shaped block 18 is arranged on the other short side surface of the splicing plate 1 along the length direction of the short side surface, and the first L-shaped block 17 and the second L-shaped block 18 are integrally formed with the splicing plate 1. The top surface of the first L-shaped block 17 is flush with the top surface of the splice plate 1, and the bottom surface of the second L-shaped block 18 is flush with the bottom surface of the splice plate 1. A first slot 7 is formed between the first L-shaped block 17 and the corresponding splice plate 1, and the first slot 7 is adapted to the second L-shaped block 18. A second slot 8 is formed between the second L-shaped block 18 and the corresponding splice plate 1, and the second slot 8 is adapted to the first L-shaped block 17.

It should be noted that the first L-shaped block 17 and the second L-shaped block 18 are similar in structure. Taking the second L-shaped block 18 as an example, an included angle a between the bottom wall of the second slot 8 and the inner side wall thereof far away from the corresponding splice plate 1 is 85 to 175 degrees, and in this embodiment, the included angle a is preferably 100 degrees. In addition, the bottom wall of the second slot 8 is planar, circular arc or U-shaped, and an inward concave or outward convex chamfer is arranged between the top wall of the second L-shaped block 18 and the side wall of the second L-shaped block, so that the mutual inserting and adapting of the first L-shaped block 17 and the second L-shaped block 18 are facilitated.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. An easily-spliced plate block comprises a spliced plate block (1) and is characterized in that an extension block (11) is arranged on one side face of the spliced plate block (1), a convex block (12) is arranged on the other side face of the spliced plate block (1), and a non-dry adhesive layer (61) is arranged on the bottom face of the spliced plate block (1); a limiting groove (2) is formed between the bottom wall of the extension block (11) and the side face, close to the extension block (11), of the splicing plate block (1), and the limiting groove (2) is matched with the projection (12);

a clamping block (3) is arranged at one end, far away from the splicing plate block (1), of the extending block (11), and a clamping groove (4) matched with the clamping block (3) is arranged on the side face, close to the convex block (12), of the splicing plate block (1) and above the convex block (12); the inner side wall of the clamping groove (4) close to the top surface of the splicing plate block (1) is obliquely arranged and is provided with an inclined surface (41) facing the convex block (12), and the inclined surface (41) is matched with the side surface of one side of the clamping block (3) close to the top surface of the splicing plate block (1).

2. An easily assembled plate according to claim 1, wherein said fixture block (3) is in the shape of a circular arc or a polygon.

3. The easy-to-splice plate according to claim 1, wherein a gap (5) is formed between the clamping block (3) on the splice plate (1) and the inner side wall of the clamping groove (4) on the corresponding splice plate (1), and the gap (5) is used for allowing the clamping block (3) on the splice plate (1) to rotate axially outward relative to the clamping groove (4) on the splice plate (1) along with the extension block (11) and the splice plate (1) by using the top side edge of one end of the extension block (11) close to the clamping block (3).

4. An easily assembled plate according to claim 1, wherein the top surface of the projection (12) is parallel to the top surface of the assembled plate (1), and the angle between the inclined surface (41) and the top surface of the projection (12) is 10-75 degrees.

5. The easily-assembled plate block according to claim 1, wherein the length of the projection (12) along the depth direction of the clamping groove (4) is smaller than the length of the extension block (11) along the depth direction of the clamping groove (4), and an arc-shaped transition is formed between the top surface of the projection (12) and the end surface of the projection far away from the assembled plate block (1).

6. An easily assembled plate according to claim 1, wherein the bottom surface of the assembled plate (1) is provided with a mute layer (6), and the adhesive layer (61) is arranged on the side of the mute layer (6) far away from the assembled plate (1).

7. An easily assembled plate according to claim 1, wherein the assembled plate (1) comprises two long sides and two short sides, the extending block (11) and the protruding block (12) are respectively disposed on the two long sides of the assembled plate (1), and the locking groove (4) extends to the two short sides of the assembled plate (1) along the length direction of the long sides of the assembled plate (1).

8. An easily assembled plate according to claim 7, wherein an insert (13) is provided on one short side of the assembled plate (1) along the length direction of the short side, and a rib (14) is provided on the other short side of the assembled plate (1) along the length direction of the short side; the bottom surface of the convex rib (14) is flush with the bottom surface of the splicing plate block (1), and a first slot (7) matched with the inserting block (13) is formed between the top surface of the convex rib (14) and the end surface, close to the convex rib (14), of the splicing plate block (1); the top surface of inserted block (13) flushes with the top surface of concatenation plate (1), be formed with second slot (8) with fin (14) adaptation between the bottom surface of inserted block (13) and the terminal surface that concatenation plate (1) is close to inserted block (13).

9. An easily assembled plate according to claim 8, wherein the length of the convex rib (14) along the length direction of the long side of the assembled plate (1) is smaller than the length of the insert (13) along the length direction of the long side of the assembled plate (1), the side of the insert (13) far away from the assembled plate (1) is obliquely arranged and is formed with an inward surface (15), and the included angle between the inward surface (15) and the top surface of the assembled plate (1) is 80-85 degrees.

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