CN213268682U - Anti-seepage splicing structure for mosaic paving and pasting base layer unit - Google Patents

Abstract

The utility model belongs to the field of the mosaic concatenation and specifically relates to a mosaic is spread and is pasted basic unit prevention of seepage mosaic structure is related to, it includes a plurality of bottom plates, the first mosaic of a plurality of and a plurality of second mosaic, first mosaic can dismantle the decorative cover that sets up at the bottom plate with the second mosaic, the connection face of bottom plate sets up in corresponding mounted position, the first mosaic of a plurality of, the decorative cover that the length direction of bottom plate is connected in respectively along the bottom plate is followed to a plurality of second mosaic, the first mosaic of a plurality of, the decorative cover of width direction interval arrangement at the bottom plate is followed to a plurality of second mosaic, first mosaic is connected with adjacent first mosaic, the both sides of first mosaic respectively with the adjacent second mosaic sliding connection in both sides. The mosaic paving and splicing method has the effect of facilitating paving and splicing the mosaic by workers.

Description

Anti-seepage splicing structure for mosaic paving and pasting base layer unit

Technical Field

The application relates to the field of mosaic splicing, in particular to a mosaic paving and pasting base layer unit anti-seepage splicing structure.

Background

At present, mosaics, which are one of the oldest known decorative arts, are patterns created using small ceramic tiles or pieces. In modern times, the mosaic is more one of ceramic tiles, which is a special existing brick, and a relatively large brick is generally composed of dozens of small bricks. It is widely used for indoor small-area ground, wall surface and outdoor large-size wall surface and ground with the characteristics of small size, exquisite size and gorgeous color. The mosaic can be used as a plurality of jigsaw due to small volume, and the gradual change effect is generated.

In the existing paving and splicing of the mosaics, workers manually splice the mosaics together, and then fill a gap between adjacent mosaics with a gap filling agent, so that the independent mosaics are spliced into a whole, and the spliced mosaics are usually installed on a wall or a ground.

In view of the above-mentioned related technologies, the inventor believes that the color of the mosaic is numerous, and after one mosaic is spliced incorrectly, it is difficult for the worker to separate the wrong mosaic which is stuck by the caulking agent.

SUMMERY OF THE UTILITY MODEL

In order to facilitate paving, pasting and splicing of the mosaic by workers, the application provides the anti-seepage splicing structure for the mosaic paving base layer unit.

The application provides a mosaic is spread and is pasted basic unit prevention of seepage mosaic and splice structure adopts following technical scheme:

the utility model provides a mosaic is spread and is pasted basic unit prevention of seepage mosaic structure, includes a plurality of bottom plates, the first mosaic of a plurality of and a plurality of second mosaic, first mosaic can dismantle the decorative cover that sets up at the bottom plate with the second mosaic, the connection face of bottom plate sets up in corresponding mounted position, a plurality of first mosaic, a plurality of second mosaic are connected in the decorative cover of bottom plate, a plurality of along the length direction of bottom plate respectively first mosaic, a plurality of second mosaic are along the decorative cover of width direction interval arrangement at the bottom plate of bottom plate, first mosaic is connected with adjacent first mosaic, the both sides of first mosaic respectively with the adjacent second mosaic sliding connection in both sides.

By adopting the technical scheme, a worker firstly splices the first mosaic and the second mosaic on the bottom plate, if an error occurs, the mosaic corresponding to the error is separated from the bottom plate, and the correct mosaic is installed on the bottom plate; after the mosaic on a bottom plate is spliced, the staff can be connected the face and adhere to the mounted position that corresponds, pegs graft between a plurality of bottom plates to this makes things convenient for the staff to spread between first mosaic, second mosaic, the bottom plate and pastes, splices.

Optionally, the decorative surface of the bottom plate is provided with a plurality of sliding grooves, the sliding grooves penetrate through the top edge of the bottom plate, the linear distance between two opposite side walls of the sliding grooves, which are close to the groove bottoms, is greater than the linear distance between two opposite side walls of the sliding grooves, which are close to the notches, the length direction of the sliding grooves is the same as the length direction of the bottom plate, the plurality of sliding grooves are arranged on the decorative surface of the bottom plate along the width direction of the bottom plate, the side surfaces, which are far away from the decorative surface of the bottom plate, of the first mosaic and the second mosaic are connected to the sliding grooves in a sliding manner through sliding blocks, and the side surfaces, which are located on the.

By adopting the technical scheme, the sliding grooves limit the movement track of the sliding blocks, so that the first mosaics or the second mosaics can be arranged on the decorative surface of the bottom plate in order; the sliding blocks and the sliding grooves are arranged to strengthen the connection between the first mosaic and the bottom plate and between the second mosaic and the bottom plate.

Optionally, the two opposite clamping edges of the first mosaic are respectively provided with a clamping groove, two ends of each clamping groove respectively penetrate through the side edges adjacent to the clamping edge of the first mosaic, two opposite side edges of the second mosaic are respectively and fixedly connected with clamping blocks matched with the clamping grooves, and the clamping blocks are slidably connected with the corresponding clamping grooves.

Through adopting above-mentioned technical scheme, strengthened the joint strength between adjacent first mosaic and the second mosaic through joint piece and joint groove, reduced the condition that first mosaic and second mosaic drop from the bottom plate and taken place.

Optionally, the clamping groove wall is fixedly connected with a plurality of rubber blocks, and the side faces of the rubber blocks are abutted to the side faces of the clamping blocks.

Through adopting above-mentioned technical scheme, when the joint piece slided into the joint groove, mutual extrusion between rubber block and the joint piece has increased the gliding degree of difficulty of joint piece in the joint inslot, reduces the condition emergence that the joint piece slided out of the joint groove under the effect of gravitational potential energy.

Optionally, the top edge of the bottom plate and one of the side edges adjacent to the top edge of the bottom plate are fixedly connected with a plurality of insertion rods, the bottom edge of the bottom plate and the other side edge adjacent to the top edge of the bottom plate are provided with a plurality of insertion slots, and one of the insertion rods of the bottom plate is inserted into the insertion slot of the bottom plate adjacent to the insertion rod.

Through adopting above-mentioned technical scheme, the joint strength between the adjacent bottom plate is further strengthened through the cooperation of slot and inserted bar.

Optionally, the end of the inserted link away from the bottom plate is provided with a guide surface for guiding.

Through adopting above-mentioned technical scheme, the staff of being convenient for of the spigot rod of the spigot surface of play guide effect inserts in the slot.

Optionally, the top edge, the bottom edge and the two side edges of the bottom plate are provided with first sealing strips, the first sealing strips are provided with sockets for insertion of the insertion rods and corresponding to the slots, the insertion rods penetrate through the first sealing strips and are adjacent to the side faces of the first sealing strips between the bottom plates in an abutting mode, and the first sealing strips are further provided with inlets for sliding of the first mosaics and the second mosaics into the sliding grooves.

Through adopting above-mentioned technical scheme, leakproofness between bottom plate and the bottom plate can be strengthened to first sealing strip, and the wall body or ground are often installed to the bottom plate, and first sealing strip can reduce water and enter into in the wall body or the ground from the gap between bottom plate and the bottom plate, has certain protection to wall body or ground.

Optionally, a stabilizing block is inserted into the top edges of two adjacent bottom plates, a through hole for inserting the stabilizing block is formed in the corresponding first sealing strip, a second sealing strip is arranged on the side surface, far away from the bottom plate, of the stabilizing block, and two ends of the second sealing strip are respectively abutted to the end portions corresponding to the first sealing strip.

Through adopting above-mentioned technical scheme, firm piece is inserted simultaneously and is established two adjacent bottom plates, has further strengthened the joint strength between the adjacent bottom plate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. firstly, splicing a first mosaic and a second mosaic on a bottom plate by a worker, if an error occurs, separating the mosaic corresponding to the error from the bottom plate, and installing the correct mosaic on the bottom plate; after the mosaic on a bottom plate is spliced, the staff can be connected the face and adhere to the mounted position that corresponds, pegs graft between a plurality of bottom plates to this makes things convenient for the staff to spread between first mosaic, second mosaic, the bottom plate and pastes, splices.

Drawings

Fig. 1 is a schematic structural diagram of an anti-seepage splicing structure of a mosaic paving base layer unit according to an embodiment of the present application.

Fig. 2 is a cross-sectional view of two adjacent bottom plates of a mosaic paving base layer unit anti-seepage splicing structure according to an embodiment of the present application.

Fig. 3 is a partial structural sectional view of an anti-seepage splicing structure of a mosaic paving base layer unit according to an embodiment of the present application.

Fig. 4 is a partially enlarged schematic view of a portion a in fig. 2.

Description of reference numerals: 1. a base plate; 11. a decorative surface; 12. a connecting surface; 13. a top edge; 14. a bottom edge; 15. a chute; 2. a first mosaic; 21. a slider; 22. a clamping groove; 23. clamping and connecting edges; 24. a rubber block; 3. a second mosaic; 31. a clamping block; 4. inserting a rod; 41. a slot; 42. a guide surface; 5. a first seal strip; 6. a stabilizing block; 61. a first insertion part; 62. a second insertion part; 63. a connecting portion; 64. a stabilizing groove; 65. a second seal strip.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a mosaic is spread and is pasted basic unit prevention of seepage mosaic and splice structure. Referring to fig. 1, a mosaic paving base layer unit anti-seepage splicing structure comprises a plurality of bottom plates 1, a plurality of first mosaics 2 and a plurality of second mosaics 3, wherein the first mosaics 2 and the second mosaics 3 are arranged on one side surface of the bottom plates 1, the side surface is a decorative surface 11, the side surface opposite to the decorative surface 11 is a connecting surface 12, and the connecting surface 12 is bonded to a corresponding mounting position. The first mosaic 2 of a plurality of, a plurality of second mosaic 3 are connected in decorative cover 11 along the length direction of bottom plate 1 respectively, and a plurality of first mosaic 2, a plurality of second mosaic 3 are arranged at decorative cover 11 along the width direction interval of bottom plate 1. The first mosaic 2 is connected with the adjacent first mosaic 2, and two sides of the first mosaic 2 are respectively connected with the adjacent second mosaics 3 at two sides in a sliding way; the bottom plate 1 and the adjacent bottom plate 1 are mutually inserted.

Referring to fig. 1, a worker firstly splices a first mosaic 2 and a second mosaic 3 on a bottom plate 1, if an error occurs, the mosaic corresponding to the error is slid off the bottom plate 1, and the correct mosaic is slid into the bottom plate 1; after the mosaic splicing on one bottom plate 1 is completed, a worker can bond the connecting surface 12 to the corresponding mounting position, and the bottom plates 1 are connected in an inserting mode, so that the worker can conveniently pave, paste and splice the first mosaic 2, the second mosaic 3 and the bottom plates 1.

Referring to fig. 2 and 3, the decoration surface 11 is provided with a plurality of sliding grooves 15, the sliding grooves 15 penetrate through one side edge of the bottom plate 1, the side edge is a top edge 13, and the side edge opposite to the top edge 13 is a bottom edge 14. The straight distance between two opposite side walls of the sliding groove 15 close to the groove bottom is larger than that between two opposite side walls of the sliding groove 15 close to the notch, so that the condition that the sliding block 21 is separated from the sliding groove 15 is reduced. The length direction of the sliding grooves 15 is the same as the length direction of the bottom plate 1, and a plurality of sliding grooves 15 are arranged on the decorative surface 11 of the bottom plate 1 at equal intervals along the width direction of the bottom plate 1. The side surfaces of the first mosaic 2 and the second mosaic 3, which are close to the decorative surface 11, are fixedly connected with sliding blocks 21, the sliding blocks 21 are matched with the sliding grooves 15, the sliding blocks 21 are slidably connected with the sliding grooves 15, and the side surfaces of the sliding blocks 21, which are far away from the top edge 13, are abutted against the groove walls of the sliding grooves 15, which are far away from the top edge 13. The side surfaces of the first mosaic 2 and the second mosaic 3 adjacent to each other in pairs are abutted against each other, and the side surfaces of the first mosaic 2 or the second mosaic 3 located in the same slide groove 15 are abutted against each other. The adjacent bottom plates 1 are connected in pairs, the bottom edge 14 of one bottom plate 1 is abutted against the top edge 13 of the adjacent bottom plate 1, and when the bottom edges are in an abutting state, the situation that the first mosaic 2 or the second mosaic 3 is separated from the bottom plates 1 is reduced. The sliding grooves 15 limit the movement track of the sliding blocks 21, so that the first mosaics 2 or the second mosaics 3 can be arranged on the decorative surface 11 of the bottom plate 1 in order; the arrangement of the sliding blocks 21 and the sliding grooves 15 strengthens the connection between the first mosaic 2 and the second mosaic 3 and the bottom plate 1.

Referring to fig. 3, two opposite sides of the first mosaic 2 are respectively provided with a clamping groove 22, the sides are clamping sides 23, the clamping sides 23 are abutted against the sides of the adjacent second mosaics 3, and the length direction of the clamping sides 23 is consistent with the length direction of the sliding groove 15. The two ends of the clamping groove 22 respectively penetrate through the side edges adjacent to the clamping edges 23. Two opposite sides of the second mosaic 3 are fixedly connected with clamping blocks 31 respectively, the clamping blocks 31 are matched with the clamping grooves 22, the clamping blocks 31 are connected with the clamping grooves 22 corresponding to the first mosaic 2 in a sliding mode, one side edge of the first mosaic 2 or the second mosaic 3 close to the two opposite sides of the bottom plate 1 is clamped with the adjacent second mosaic 3 or the first mosaic 2, and the other side edge of the first mosaic 3 is not provided with the clamping grooves 22 or the clamping blocks 31. The connecting strength between the adjacent first mosaic 2 and the second mosaic 3 is enhanced through the clamping blocks 31 and the clamping grooves 22, and the condition that the first mosaic 2 and the second mosaic 3 fall off from the bottom plate 1 is reduced.

Referring to fig. 3, a plurality of rubber blocks 24 are fixedly connected to the groove wall of the clamping groove 22, the rubber blocks 24 have elasticity, in this embodiment, the rubber blocks 24 are semi-spherical, and the side surface of the rubber blocks 24 abuts against the side surface of the clamping block 31. When the clamping block 31 slides into the clamping groove 22, the clamping block 31 extrudes the rubber block 24, the difficulty of the movement of the clamping block 31 in the clamping groove 22 is increased, and the position of the clamping block 31 in the clamping groove 22 is further stabilized.

Referring to fig. 2, the top side 13 and one of the side edges adjacent to the top side 13 are fixedly connected with a plurality of inserted bars 4, the bottom side 14 and the other side edge adjacent to the top side 13 are provided with a plurality of slots 41, and the slots 41 are matched with the inserted bars 4 and correspond to the positions of the inserted bars 4. The insert rod 4 of one of the bottom plates 1 is inserted into the insert slot 41 of the bottom plate 1 adjacent to the insert rod, and the top edge 13 of the bottom plate 1 is abutted with the bottom edge 14 of the bottom plate 1 adjacent to the insert slot. The lowermost base plate 1 is free of the insert rods 4 or the insert grooves 41. The strength of the connection between the adjacent bottom plates 1 is further enhanced by the fitting of the insertion grooves 41 and the insertion rods 4.

Referring to fig. 3, in the present embodiment, the insert rod 4 is a cylinder, the end of the insert rod 4 away from the base plate 1 is provided with a guide surface 42, and the diameter of the end of the insert rod 4 away from the base plate 1 is smaller than the diameter of the shaft of the insert rod 4. The guiding surface 42 is provided to guide the insertion rod 4 into the insertion slot 41.

Referring to fig. 2 and 3, in order to enhance the sealing performance between the bottom plate 1 and the bottom plate 1, the top edge 13, the bottom edge 14 and two side edges of the bottom plate 1 are fixedly connected with the first sealing strip 5, the first sealing strip 5 is provided with an insertion opening for inserting the insertion rod 4, the insertion opening corresponds to the notch of the insertion slot 41, the insertion rod 4 penetrates through the first sealing strip 5, and the side surfaces of the first sealing strips 5 between the adjacent bottom plates 1 are abutted. The first sealing strip 5 is further provided with an inlet for the first mosaic 2 and the second mosaic 3 to slide into the sliding chute 15. In this embodiment, the first sealing strip 5 is a first rubber strip. The bottom plate 1 is often installed at wall body or ground, if the bottom plate 1 is installed in the bathroom, bottom plate 1 can often receive the shower of water, sets up first sealing strip 5 and reduces water and enters into in the wall body or the ground from the gap between bottom plate 1 and the bottom plate 1, has certain protection to wall body or ground.

Referring to fig. 2 and 4, the top edge 13 is provided with two stabilizing grooves 64, the first rubber strip is provided with a through hole corresponding to the notch of the stabilizing groove 64, the groove wall of one of the stabilizing grooves 64 penetrates through one of the side edges adjacent to the top edge 13, and the groove wall of the other stabilizing groove 64 penetrates through the other side edge adjacent to the top edge 13. The top edge 13 is inserted with the fixing block 6, the fixing block 6 includes a first inserting portion 61, a second inserting portion 62 and a connecting portion 63, one end of the first inserting portion 61 and one end of the second inserting portion 62 are fixedly connected to one side of the connecting portion 63, and the other end of the first inserting portion 61 and the other end of the second inserting portion 62 are respectively abutted to the bottom of the corresponding fixing groove 64. The first insertion part 61 is connected to the fixing groove 64 of one of the base plates 1, and the second insertion part 62 is connected to the fixing groove 64 of the adjacent base plate 1. The side face, far away from the first inserting portion 61, of the connecting portion 63 is in the same horizontal plane with the top edge 13, the side face, far away from the first inserting portion 61, of the connecting portion 63 is fixedly connected with a second sealing strip 65, the side face, far away from the connecting portion 63, of the second sealing strip 65 is in the same horizontal plane with the side face, far away from the top edge 13, of the first sealing strip 5, and two ends of the second sealing strip 65 are respectively abutted to the end portions, corresponding to the first sealing strip 5. In this embodiment, the second sealing strip 65 is a second rubber strip.

The implementation principle of the mosaic paving and pasting base unit anti-seepage splicing structure provided by the embodiment of the application is as follows: firstly, a worker slides the first mosaic 2 and the second mosaic 3 into the corresponding sliding grooves 15, if an error occurs, the corresponding error mosaic slides away from the bottom plate 1, and the correct mosaic slides into the sliding grooves 15; after the mosaic splicing on one bottom plate 1 is completed, a worker can bond the connecting surface 12 to the corresponding mounting position, and the inserted bar 4 and the slot 41 between the adjacent bottom plates 1 are mutually inserted, so that the worker can conveniently spread, stick and splice the first mosaic 2, the second mosaic 3 and the bottom plates 1.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a mosaic is spread and is pasted basic unit prevention of seepage mosaic concatenation structure which characterized in that: comprises a plurality of bottom plates (1), a plurality of first mosaics (2) and a plurality of second mosaics (3), the first mosaic (2) and the second mosaic (3) are detachably arranged on the decorative surface (11) of the bottom plate (1), the connecting surface (12) of the bottom plate (1) is arranged at a corresponding mounting position, the plurality of first mosaics (2) and the plurality of second mosaics (3) are respectively connected to the decorative surface (11) of the bottom plate (1) along the length direction of the bottom plate (1), the plurality of first mosaics (2) and the plurality of second mosaics (3) are arranged on the decorative surface (11) of the bottom plate (1) at intervals along the width direction of the bottom plate (1), the first mosaic (2) is connected with the adjacent first mosaic (2), two sides of the first mosaic (2) are respectively connected with the second mosaics (3) adjacent to the two sides in a sliding manner.

2. The mosaic paving base layer unit anti-seepage splicing structure of claim 1, wherein: the decorative surface (11) of the bottom plate (1) is provided with a plurality of sliding grooves (15), the sliding grooves (15) penetrate through the top edge (13) of the bottom plate (1), the linear distance between two opposite side walls, close to the groove bottom, of the sliding grooves (15) is larger than the linear distance between two opposite side walls, close to the groove openings, of the sliding grooves (15), the length direction of the sliding grooves (15) is the same as the length direction of the bottom plate (1), the sliding grooves (15) are arranged on the decorative surface (11) of the bottom plate (1) along the width direction of the bottom plate (1), the side faces, far away from the decorative surface (11) of the bottom plate (1), of the first mosaic (2) and the second mosaic (3) are connected to the sliding grooves (15) in a sliding mode through sliding blocks (21), and are located on the same side faces, far away from the first mosaic (2) or the second mosaic (3.

3. The mosaic paving base layer unit anti-seepage splicing structure of claim 2, wherein: the utility model discloses a mosaic structure, including first mosaic (2), joint groove (22) have been seted up respectively to double-phase to joint limit (23) of first mosaic (2), the both ends of joint groove (22) run through respectively with the joint limit (23) adjacent side of first mosaic (2), double-phase to the side respectively fixedly connected with of second mosaic (3) and joint piece (31) of joint groove (22) looks adaptation, joint piece (31) sliding connection is in corresponding joint groove (22).

4. The mosaic paving base layer unit anti-seepage splicing structure of claim 3, wherein: the wall of the clamping groove (22) is fixedly connected with a plurality of rubber blocks (24), and the side face of each rubber block (24) is abutted against the side face of the clamping block (31).

5. The mosaic paving base layer unit anti-seepage splicing structure of claim 2, wherein: the top edge (13) of the bottom plate (1) and one of the side edges adjacent to the top edge (13) are fixedly connected with a plurality of inserting rods (4), the bottom edge (14) of the bottom plate (1) and the other side edge adjacent to the top edge (13) are provided with a plurality of inserting grooves (41), and one inserting rod (4) of the bottom plate (1) is inserted into the inserting groove (41) of the bottom plate (1) adjacent to the inserting rod.

6. The mosaic paving base layer unit anti-seepage splicing structure of claim 5, wherein: the end part of the inserted bar (4) far away from the bottom plate (1) is provided with a guide surface (42) for guiding.

7. The mosaic paving base layer unit anti-seepage splicing structure of claim 5, wherein: topside (13), base (14) and two sides of bottom plate (1) are provided with first sealing strip (5), first sealing strip (5) are provided with and supply inserted bar (4) to insert, and correspond the socket of slot (41), first sealing strip (5) are worn to establish in inserted bar (4), and are adjacent first sealing strip (5) side butt between bottom plate (1), first sealing strip (5) still are provided with the entry that supplies first mosaic (2) and second mosaic (3) to slide in spout (15).

8. The mosaic tiled base unit impermeable mosaic structure of claim 7, wherein: two adjacent top edges (13) of the bottom plate (1) are inserted with one stabilizing block (6), corresponding first sealing strips (5) are provided with through holes for the stabilizing block (6) to be inserted, the side face, far away from the bottom plate (1), of each stabilizing block (6) is provided with a second sealing strip (65), and two ends of each second sealing strip (65) are abutted to end portions corresponding to the first sealing strips (5) respectively.

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