CN215368422U - But fast assembly's shape fast-assembling ceramic tile shingle nail of preapring for an unfavorable turn of events - Google Patents

Abstract

The utility model discloses an anti-deformation fast-assembly ceramic tile wall panel capable of being assembled quickly, which comprises a keel, a base plate, a ceramic tile and a connecting piece, wherein the outer side surface of the base plate is fixedly connected with the ceramic tile; the connecting piece comprises a leveling terminal, a first fixing arm and a second fixing arm which are respectively arranged on two sides of the leveling terminal, two openings of the two connecting female ports are respectively inserted into two sides of the leveling terminal and are butted, so that the leveling terminal is buckled in a connecting female cavity formed by the butt joint of the two openings of the two connecting female ports, the first fixing arm is used for fixing a base plate corresponding to one of the connecting female ports, and the second fixing arm is used for fixedly connecting with an installation surface. The utility model is assembled and fixed quickly by a plug-in mode; the back of the plate is provided with a plurality of metal keels for combination, so that the deformation of the plate is controlled, and the product quality is improved.

Description

But fast assembly's shape fast-assembling ceramic tile shingle nail of preapring for an unfavorable turn of events

Technical Field

The utility model belongs to the technical field of ceramic tile composite boards, and particularly relates to an anti-deformation quick-mounting ceramic tile wall panel capable of being quickly assembled.

Background

With the reduction of the number of the current manual craftsmen, the labor cost in the field of tile paving and pasting is higher and higher, so more and more manufacturers rotate to compound the base plates of the tiles and then quickly assemble the plate blocks, and the method is favorable for reducing the labor cost and the technical dependence of workers; however, the deformation of the composite plate is a common phenomenon in the existing products in the current market; this condition directly affects the quality of the installation of the shingle composite panels.

Because the ceramic tile linear expansion coefficient is lower in the present ceramic tile composite board technology, the composite substrate available at the back generally has two conditions: 1. the thermal expansion coefficient is higher; 2. the board has larger wet expansion deformation; the existing composite substrate basically has one of the two, so that the composite board is very obviously deformed when the temperature difference is large or the composite board is wet, and the surface mounting quality is influenced to a certain extent, so that the whole project cannot be performed as expected or needs to be rectified and repaired in later use.

At present, ceramic tiles are often selected to be compounded with aluminum honeycomb panels in the market, and the thermal linear expansion coefficient of the ceramic tiles is far smaller than that of aluminum, so that the finished composite boards are often deformed in long-term use; or the cement fiber board is adopted for compounding, the wet expansion deformation of the cement fiber board is obvious, and the ceramic tile basically has no wet expansion deformation, so the deformation risk can be caused in a wet environment.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an anti-deformation quick-installation ceramic tile wall panel capable of being quickly assembled, which is quickly assembled and fixed in an inserting mode; the back of the plate is provided with a plurality of metal keels for combination, so that the deformation of the plate is controlled, and the product quality is improved.

The technical scheme adopted for solving the technical problems is that the deformation-preventing fast-assembly ceramic tile wall panel capable of being assembled fast comprises a keel, a base plate, a ceramic tile and a connecting piece, wherein the outer side surface of the base plate is fixedly connected with the ceramic tile, a clamping groove is formed in the back side of the base plate, and the keel is matched with the clamping groove to be provided with a clamping piece, so that the keel and the base plate can be connected in a clamping manner; the base plate both ends all are provided with connects female mouthful, the connecting piece includes the leveling terminal, divides to locate the first fixed arm and the second fixed arm of leveling terminal both sides, two the opening of connecting female mouthful is pegged graft respectively and is in the both sides and the butt joint of leveling terminal make leveling terminal buckle is two connect the female intracavity of connection that the opening butt joint of female mouthful formed, first fixed arm is used for rather than one connect female mouthful corresponding the base plate is fixed, the second fixed arm is used for with the installation face rigid coupling.

Furthermore, the buckling groove comprises a first buckling cavity, a second buckling cavity and a filling piece, wherein the filling piece is of a rectangular frame structure, and the filling piece is flush with the back side surface of the substrate; the first buckle cavity and the second buckle cavity are symmetrically arranged on two sides of the filling piece by taking the filling piece as a center, the side wall of one side of the filling piece is obliquely arranged, and the oblique direction is close to the direction of the filling piece.

Further, the keel comprises a bottom plate, a first vertical plate and a second vertical plate, the first vertical plate and the second vertical plate are vertically and fixedly connected to the same side of the bottom plate, and an inner cavity can be enclosed by the first vertical plate, the second vertical plate and the bottom plate; the first vertical plate is provided with a fastener in the direction away from the inner cavity, and the second vertical plate is provided with a fastener in the direction away from the inner cavity.

Furthermore, the buckle piece can be connected in the first buckle cavity and the second buckle cavity in a clamped mode, the filling piece of the buckle groove can be inserted into the inner cavity of the keel, and the side wall of the filling piece is abutted to the first vertical plate and the second vertical plate.

Furthermore, a plurality of clamping grooves are formed in the back side of the base plate, and cross ribs are arranged at the end portions of the base plate.

Further, the connecting female port comprises an upper end wall and a lower end wall, a half cavity is formed between the upper end wall and the lower end wall, and the two half cavities are butted to form a connecting female cavity; the length of the upper end wall is larger than that of the lower end wall, so that a butt joint gap is reserved on the lower bottom wall of the connecting female cavity.

Furthermore, the first fixing arm comprises a first bottom wall, a first panel and a first abutting portion, the first bottom wall abuts against the lower end wall, a nail inserting groove is formed in the first panel, the first abutting portion is connected with the first bottom wall and the first panel and fixedly connected with the first bottom wall and the first panel, and the first abutting portion abuts against the mounting surface.

Furthermore, the second fixing arm comprises a second bottom wall, a second panel and a second abutting portion, the second bottom wall abuts against the mounting surface, a nail inserting groove is formed in the second panel, the second abutting portion is connected with the second bottom wall and the second panel and fixedly connected with the second bottom wall and the second panel, and the second abutting portion abuts against the back side surface of the substrate.

Further, the leveling terminal is including adjusting the flat joint, leveling terminal rectangular frame structure, the upper end intermediate position of leveling terminal has been seted up and has been adjusted the flat joint, and two lateral surface rigid couplings have the ceramic tile the base plate concatenation department leaves the joint seam, the joint seam with just right adjust the flat joint, the opening of adjusting the flat joint is greater than the joint seam for the leveling ware can pass through the joint seam inserts in adjusting the flat joint seam.

Furthermore, the connecting piece also comprises a main rib and an extension rib, wherein the extension rib extends upwards from the middle position of the upper surface of the main rib, and the extension rib is fixedly connected with the leveling terminal; the first fixing arm and the second fixing arm are fixedly connected to two sides of the main rib respectively, and the lower surface of the main rib is abutted to the mounting surface.

The utility model has the beneficial effects that:

1. the base plate is a flat plate type plate with a clamping groove in the back, the notch can achieve the effect of a stress groove in plate deformation, and the deformation of the plate in the width direction is reduced.

2. The base plate passes through the connecting piece and pegs graft in proper order, can accomplish laying of wall ceramic tile, and is convenient fast. One end and the base plate of connecting piece are connected, one end is connected with the installation face, and every base plate all forms fixed connection with the connecting piece, and every base plate all forms fixed connection, safety and stability through connecting piece and safe face.

3. The back of the plate is combined with the metal opposite keels, the back of the plate is combined by adopting a buckle type operation or a cross-insertion type operation, and the back of the plate is fixed by adopting an adhesive in an auxiliary way; because the thermal expansion coefficient of the metal keel is close to that of the ceramic tile, the deformation of the board can be reduced.

4. The base plate is provided with a connecting female port, and the rapid installation of the wall panel can be realized through the plugging action.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the utility model and together with the description, serve to explain the principles of the utility model. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the utility model. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

FIG. 1 is an assembly view of a quick-assembly ceramic tile wall panel capable of preventing deformation according to an embodiment of the present invention;

FIG. 2 is an exploded view of a quick-mounting ceramic tile wall panel for preventing deformation according to an embodiment of the present invention;

FIG. 3 is a schematic view of an end portion of a quick-mounting ceramic tile wall panel for preventing deformation according to an embodiment of the present invention;

FIG. 4 is a partial structure view of the fast-assembling ceramic tile wall panel of the present invention;

FIG. 5 is a keel structure view of a deformation-preventing quick-mounting ceramic tile wall panel which can be assembled quickly according to an embodiment of the utility model;

fig. 6 is a structural view of a connection member of a deformation-preventing quick-installation tile wall panel which can be quickly assembled according to an embodiment of the present invention.

In the figure: 1. a keel; 2. a substrate; 3. ceramic tiles; 4. connecting the female port; 5. a fastening groove; 6. a connecting member; 7. leveling terminals; 9. connecting seams; 11. a base plate; 12. a first vertical plate; 13. a second vertical plate; 14. an inner cavity; 15. a fastener; 21. cross ribs; 22. recessing; 41. an upper end wall; 42. a lower end wall; 51. a first snap cavity; 52. a second snap cavity; 53. a filling member; 61. a first fixed arm; 62. a second fixed arm; 63. a main rib; 64. extending the ribs; 71. leveling the seam; 611. a first bottom wall; 612. a first panel; 613. a first abutting portion; 621. a second bottom wall; 622. a second panel; 623. a second abutting portion.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention and the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is to be understood that the drawings in the following description are merely exemplary of the utility model and that other drawings and embodiments can be derived by those skilled in the art without undue burden. The designation of the design orientation merely indicates the relative positional relationship between the respective members, not the absolute positional relationship.

The embodiment of the utility model provides an anti-deformation fast-assembly ceramic tile wall panel capable of being assembled quickly, and please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the anti-deformation fast-assembly ceramic tile wall panel mainly comprises a keel 1, a base plate 2, a ceramic tile 3 and a connecting piece 6, wherein the outer side surface of the base plate 2 is fixedly connected with the ceramic tile 3, a buckling groove 5 is arranged on the back side of the base plate 2, and the keel 1 is provided with a buckling piece 15 in a way of being matched with the buckling groove 5, so that the keel 1 and the base plate 2 can be buckled and connected; 2 both ends of base plate all are provided with connects female mouthful 4, connecting piece 6 includes leveling terminal 7, divides to locate the first fixed arm 61 and the second fixed arm 62 of leveling terminal 7 both sides, two the opening of connecting female mouthful 4 is pegged graft respectively leveling terminal 7's both sides and butt joint make leveling terminal 7 buckle is two connect female mouthful of 4 opening butt joint in the female intracavity of connection that forms, first fixed arm 61 be used for with one of them connect female mouthful 4 and correspond base plate 2 is fixed, second fixed arm 62 is used for with the installation face rigid coupling.

The lateral surface of base plate 2 and ceramic tile 3 direct rigid coupling, ceramic tile 3 can the same setting with the side area size of base plate 2, during the equipment, do not produce conflict and than necessary striking, reduce the risk that the ceramic tile damaged.

A plurality of buckle grooves 5 can be seted up to the inboard of base plate 2, carry out the buckle with fossil fragments 1 and be connected, with base plate 2 (carry ceramic tile 3) buckle on fossil fragments 1, accomplish basic installation.

The latch groove 5 includes a first latch cavity 51, a second latch cavity 52, and a filler 53. The packing 53 may have a rectangular frame structure, and may be a through-length frame square tube. The upper side of the filling member 53 is fixed to the base plate 2, and the lower side is flush with the back side of the base plate 2. The left and right sides of the filling member 53 are respectively provided with a first buckling cavity 51 and a second buckling cavity 52, and the first buckling cavity 51 and the second buckling cavity 52 can be symmetrically arranged by taking the filling member 53 as a center.

In the same fastening groove 5, one side of the first fastening cavity 51 and the second fastening cavity 52 far from the filling member 53 can be set as an inclined side, and the inclined direction is the direction close to the filling member 53, as shown in fig. 3, so that the port of the fastening cavity is smaller, the inner cavity is larger, and a fastening structure and a sliding groove structure can be formed.

The keel 1 comprises a bottom plate 11, a first vertical plate 12 and a second vertical plate 13. As shown in fig. 5, the first vertical plate 12 and the second vertical plate 13 are vertically fixed to two ends of the bottom plate 11, and are located on the same side, and enclose an inner cavity 14. The cavity 14 is used for accommodating the filler 53.

The ends of the first vertical plate 12 and the second vertical plate 13 which are not fixedly connected with the bottom plate 11 can be provided with fasteners 15. The first vertical plate 12 can be to keeping away from the direction of inner chamber 14 sets up fastener 15, and the second vertical plate 13 can be to keeping away from the direction of inner chamber 14 sets up fastener 15, because first vertical plate 12 is parallel to each other with second vertical plate 13 for fastener 15 with inner chamber 14 in the symmetric center divide establish with first vertical plate 12, on the second vertical plate 13.

The catching piece 15 may be provided as a triangular-shaped elastic catching structure, as shown in fig. 2 and 5, in cooperation with the structure of the catching groove 5. The structure mode of the buckle structure and the buckle groove 5 can be combined in a mode of inserting from the end part, and can also be combined in a mode of direct buckling.

Wherein, when pegging graft from the tip, the width of inner chamber 14 can be the same with the width of packing 53, make packing 53 can peg graft and enter into after the inner chamber 14, the left side wall and the first riser 12 butt of packing 53, the right side wall and the second riser 13 butt, packing 53 can ensure keel 1's first riser 12, second riser 13 does not produce inside deformation, thereby drop in 5 from the buckle groove, can form the spout structure, base plate 2 (including ceramic tile 3) can rely on buckle groove 5 to slide on keel 1.

Wherein, when the mode of adopting direct buckle, the width of inner chamber 14 can be greater than the width of packing 53 for first riser 12, second riser 13 can inwards produce the deformation of certain degree, make buckle 15 can buckle and enter into the buckle intracavity that corresponds, promptly, buckle 15 buckle of first riser 12 enters into first buckle chamber 51, buckle 15 buckle of second riser 13 enters into second buckle chamber 52.

It will be appreciated that the assembly of the wall tiles 3 can be completed by placing the base plate 2 (including the tiles 3) in position on the keel 1.

In the present embodiment of the utility model, the connecting member 6 is used to assemble and connect two adjacent substrates 2 (including the tiles 3) and fix them. The connecting member 6 includes a first fixing arm 61, a second fixing arm 62, a main rib 63, an extension rib 64, and a leveling terminal 7. The middle position of the upper surface of the main rib 63 can extend upwards to form an extension rib 64, and the extension rib 64 is used for fixedly connecting the leveling terminal 7. The left and right sides of the main rib 63 are used for fixedly connecting the first fixing arm 61 and the second fixing arm 62. The first fixing arm 61 is used for fixedly connecting the connecting member 6 with the substrate 2, and the second fixing arm 62 is used for fixedly connecting the connecting member 6 with a mounting surface, or other connecting structures.

The overall structure of the first fixing arm 61 is a ladder frame structure. Wherein, one end of the first bottom wall 611 is connected to the main rib 63, and the other end is connected to the first abutting portion 613; one end of the first panel 612 is connected to the main rib 63, and the other end is connected to the first abutting portion 613, the length of the first panel 612 is longer than that of the first bottom wall 611, and the first panel 612 is located below the first bottom wall 611, so that the first abutting portion 613 is disposed obliquely with respect to the main rib 63.

It will be appreciated that the first bottom wall 611, the first panel 612 and the main rib 63 can be connected to each other in a vertical manner, as shown in fig. 6.

The first bottom wall 611 abuts against the lower end wall 42 of the connecting female port 4 at the end structure of the substrate 2, the height of the first bottom wall 611 can be partially raised, and the abutting position of the lower end wall 42 of the connecting female port 4 at the end structure of the substrate 2 is correspondingly provided with the recess 22, so that a butt joint structure can be formed between the first fixing arm 61 and the substrate 2, the mounting position is determined, and basic positioning of mounting can be realized.

It is understood that, for convenience of operation and positioning, the recesses 22 may be provided at both ends of the base plate 2, and the base plate 2 may be directly fixed without distinguishing a relative position with the connection member 6 when being mounted.

The end of the first abutting portion 613 is flush with the lower surface of the main rib 63, and the first bottom wall 611 is higher than the upper surface of the main rib 63, so as to raise the first fixing arm 61. It will be appreciated that the overall structure of the first retaining arm 61 is fixed, and when the first bottom wall 611 is raised, the overall structure of the first retaining arm 61 is correspondingly raised.

The second fixing arm 62 has substantially the same structure as the first fixing arm 61, and differs only in the relative mounting position and in the function. The second bottom wall 621 of the second fixing arm 62 is flush with the lower surface of the main rib 63, so that the contact surface is enlarged when the lower surface of the main rib 63 abuts against the mounting surface (or other connecting structures), which is beneficial to the connection stability of the connecting piece 6. The end of the second abutment 623 is flush with the upper surface of the main rib 63.

It will be appreciated that the overall dimensions of the first and second retaining arms 61, 62 may vary somewhat due to structural functionality issues, but the overall structure may be the same.

The leveling terminal 7 is of a rectangular frame structure and a through-long square tube structure, and a leveling seam 71 is arranged in the middle of the upper end of the leveling terminal 7. The position of the leveling seam 71 can be just opposite to the adjacent ceramic tiles 3, the connecting seam 9 can be spliced and assembled, the connecting seam 9 can be communicated with the leveling seam 71, the end part of the leveling device can be inserted into the leveling seam 71 through the connecting seam 9, and the leveling operation is further carried out.

It can be understood that the leveling terminal 7 is located at the center of the connecting member 6, and the first fixing arm 61 and the second fixing arm 62 are respectively disposed at two sides of the leveling terminal 7.

In the embodiment of the utility model, the connecting female port 4 is arranged at the end part of the substrate 2, and both ends are arranged and can be symmetrically arranged. The female connection port 4 includes an upper end wall 41 and a lower end wall 42. The upper end wall 41 and the lower end wall 42 form a half chamber therebetween, and the two half chambers can be butted to form a connecting female chamber. During butt joint, the leveling terminal 7 of the connecting piece 6 can be snapped into the connecting female cavity, and the leveling terminal 7 is located in the middle of the connecting female cavity, so that the leveling seam 71 is opposite to a butt joint seam of the two connecting female ports 4, namely the connecting seam 9, as shown in fig. 4.

It will be appreciated that, when the tiles 3 are tiled against the substrate 2:

the leveling terminal 7 of the connecting member 6 can be firstly snapped into the half-cavity of the connecting female port 4 at the right side end of the left substrate 2, the first bottom wall 611 of the first fixing arm 61 of the connecting member 6 is butted with the corresponding recess 22 at the lower end wall 42 of the connecting female port 4 at the right side end of the left substrate 2, the fixing position of the connecting member 6 is determined, and the connecting member 6 and the substrate 2 are fixedly connected according to the position of the nail inserting groove on the first panel 612.

Then, the fastening of the connector 6 is performed at the nail insertion groove position on the second panel 622 of the second fastening arm 62, and the connector 6 is fastened to the mounting surface (or other fastening structure).

Thereafter, the right end of the right side substrate 2 is fixedly connected to the connector 6, but the connector 6 is not fixed to the mounting surface (or other connection structure).

Next, the half chamber of the connection female port 4 at the left end of the right side substrate 2 is butted with the half chamber of the connection female port 4 at the right end of the left side substrate 2, thereby forming a connection female chamber, and the leveling terminal 7 is snapped in the connection female chamber; the connector 6 at the right end of the right substrate 2 is fixedly connected to the mounting surface (or other connecting structure).

And finally, sequentially connecting and assembling the base plates 2 (including the ceramic tiles 3) on the whole wall surface to the keel 1, thereby completing the assembly and the laying of the wall panel.

It can be understood that the length of the upper end wall 41 is greater than that of the lower end wall 42, so that when the two connecting female ports 4 are butted, a closed butt joint can be formed between the upper end walls 41, and a butt joint gap is always left between the lower end walls 42 to accommodate the extension rib 64.

Based on above-mentioned structure, in the actual operation in-process, the mounting means between base plate 2 and fossil fragments 1 can adopt the mode of pegging graft or buckle to be connected. The bottom plate 11 of the keel 1 can be embedded in the installation surface, or the keel 1 can be fixed by using a connecting structure, so that the base plate 2 and the ceramic tiles 3 on the outer side surface thereof can be stably supported.

The installation mode between the base plate 2 and the keel 1 can be determined according to the installation direction of the keel 1, when the base plate 2 is suitable for insertion, the clamping groove 5 of the base plate 2 is aligned with the clamping piece 15 of the keel 1, the base plate is inserted into the keel 1 from the end part of the keel 1, and then the base plate slides to a proper position; when being fit for the buckle, then aim at buckle 15 with the buckle groove 5 of base plate 2, press, accomplish the buckle can on suitable position to buckle 15.

It will be appreciated that an adhesive may be provided between the catch groove 5 and the catch 15 to assist in the securing. Suitable adhesives are well within the skill of those in the art and will not be described in detail herein.

It can be understood that the ceramic tile 3 and the substrate 2 are fixedly connected to form an integrated connection between the ceramic tile 3 and the substrate 2, and the position of the substrate 2 is the position of the ceramic tile 3, so that in the present application, the description about the substrate 2 can determine whether the ceramic tile 3 is attached according to the actual situation, which is convenient for description. When assembling the substrates 2 (carrying the tiles 3), the insertion can be performed through the female connection ports 4 and the connecting members 6.

The first fixing arm 61 of the connector 6 abuts against the lower end wall 42 of the female connection port 4 of the left-hand board 2. The first panel 612 of the first fixing arm 61 may be provided with a nail insertion groove for marking a nail insertion position for a screw, a fastening nail, or the like, so as to facilitate the nail insertion. The screw is taken as an example for explanation. As shown in fig. 4 and 6, the screw is screwed into the first fixing arm 61 from the screw-in groove position on the first panel 612, passes through the first fixing arm 61 to be fixedly connected with the substrate 2, and a cross rib 21 structure with a smaller cavity can be arranged at the end fixedly connected position of the substrate 2, so as to improve the fastening effect of the screw and enhance the structural strength of the end.

Further, the first bottom wall 611 of the first fixing arm 61 abuts against the lower end wall 42, so that the height of the first bottom wall 611 can be raised, and correspondingly, the recess 22 is formed at the corresponding position of the back side surface of the base plate 2 to match with the first bottom wall 611, so that the mounting position of the first fixing arm 61 is relatively fixed. It will be understood that the recesses 22 may be provided at corresponding positions on the lower end wall 42 of the end portion of the back side surface of the substrate 2, so as to form a positioning effect, determine the fixed connection position of the connecting member 6 and the substrate 2, and facilitate the connection and fixation.

The second fixing arm 62 of the connector 6 can be disposed in contact with the lower end wall 42 of the female connector 4 of the right-hand board 2. The second panel 622 of the second fixing arm 62 can be locked and inserted into the nail groove, so that the nail inserting position can be conveniently marked by screws, fastening nails and the like, and the nail inserting is convenient. The screw is taken as an example for explanation. As shown in fig. 4 and 6, the screw nail is driven into the second fixing arm 62 at the position of the nail driving groove on the second panel 622, and passes through the second fixing arm 62 to be fixedly connected with the mounting surface, or fixedly connected with other connecting structures, so as to fix the position of the connecting member 6 and enhance the assembling stability of the base plate 2 (including the ceramic tile 3).

Further, the second bottom wall 621 of the second fixing arm 62 abuts against the mounting surface or a plane of another connecting structure, thereby stabilizing the connection stability of the connecting member 6.

It will be appreciated that the basic structure of the first and second retaining arms 61, 62 is identical, except for the relative affixation location of the main bar 63, as shown in fig. 6. The first fixing arm 61 is used to fix the connecting element 6 and the substrate 2, and the second fixing arm 62 is used to fix the connecting element 6 and the mounting surface (or other connecting structure).

In the embodiment of the utility model, the connecting female port 4 of the left substrate 2 is inserted at the left side of the leveling terminal 7, the connecting female port 4 of the right substrate 2 is inserted at the right side of the leveling terminal 7, the two connecting female ports 4 are butted to form a connecting female cavity, the leveling terminal 7 is buckled in the connecting female cavity, and the extension rib 64 is positioned in the butt joint gap of the lower bottom wall of the connecting female cavity. The first retaining arm 61 supports the left side base plate 2 and the second retaining arm 62 supports the right side base plate 2 such that the two base plates 2 can be organized together and secured to a mounting surface (or other attachment structure).

After the two tiles 3 are assembled through the base plate 2, a gap is formed between the two tiles, which is a connecting gap 9. The leveling gap 71 of the leveling terminal 7 is opposite to the connecting gap 9, so that the leveling device can be inserted into the leveling gap 71 through the connecting gap 9 and further enter the leveling terminal 7 to perform corresponding leveling operation. The levelers are well known to those skilled in the art and will not be described in detail herein.

It can be understood that the base plate 2 is sequentially inserted and fixed with the connecting piece 6 to complete the assembly and splicing of the ceramic tiles 3 of the whole wall surface.

It will be appreciated that the joint 9 can mitigate thermal expansion and contraction of the tile 3. The special seam filling operation can be carried out, and the corresponding materials are used for filling the seam.

In the embodiment of the utility model, the keel 1 can be made of metal, and the thermal expansion coefficient of the keel is close to that of the ceramic tile on the premise of meeting the strength requirement. The substrate 2 may be a stone-plastic plate.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing is a more detailed description of the utility model in connection with specific preferred embodiments and it is not intended that the specific embodiments of the utility model be limited to these descriptions. For those skilled in the art to which the utility model pertains, several simple deductions or substitutions can be made without departing from the spirit of the utility model, and all shall be considered as belonging to the protection scope of the utility model.

Claims (10)

1. The deformation-preventing fast-assembly ceramic tile wall panel capable of being assembled quickly is characterized by comprising a keel (1), a base plate (2), ceramic tiles (3) and a connecting piece (6), wherein the outer side surface of the base plate (2) is fixedly connected with the ceramic tiles (3), a buckling groove (5) is formed in the back side of the base plate (2), and a buckling piece (15) is arranged on the keel (1) in a manner of being matched with the buckling groove (5), so that the keel (1) and the base plate (2) can be connected in a buckling manner; base plate (2) both ends all are provided with connects female mouthful (4), connecting piece (6) are located including leveling terminal (7), branch first fixed arm (61) and second fixed arm (62), two of leveling terminal (7) both sides the opening of connecting female mouthful (4) is pegged graft respectively the both sides and the butt joint of leveling terminal (7) make leveling terminal (7) buckle is two connect the female intracavity of connection that the opening butt joint of female mouthful (4) formed, first fixed arm (61) are used for rather than one connect female mouthful (4) and correspond base plate (2) are fixed, second fixed arm (62) are used for with the installation face rigid coupling.

2. The quick-assembly deformation-preventing quick-assembly ceramic tile wall panel as claimed in claim 1, wherein the fastening grooves (5) comprise a first fastening cavity (51), a second fastening cavity (52) and a filling member (53), the filling member (53) is of a rectangular frame structure, and the filling member (53) is flush with the back side surface of the base plate (2); first buckle chamber (51) second buckle chamber (52) with packing piece (53) set up in as central symmetry the both sides of packing piece (53), first buckle chamber (51) second buckle chamber (52) are kept away from the equal slope setting of lateral wall on one side of packing piece (53), and the incline direction is for being close to the direction of packing piece (53).

3. The quick-assembling deformation-preventing quick-assembling ceramic tile wall panel as claimed in claim 1, wherein the keel (1) comprises a bottom plate (11), a first vertical plate (12) and a second vertical plate (13), the first vertical plate (12) and the second vertical plate (13) are vertically and fixedly connected to the same side of the bottom plate (11), and the first vertical plate (12), the second vertical plate (13) and the bottom plate (11) can enclose an inner cavity (14); the first vertical plate (12) is provided with a fastener (15) in the direction away from the inner cavity (14), and the second vertical plate (13) is provided with a fastener (15) in the direction away from the inner cavity (14).

4. The quick-assembly deformation-preventing quick-assembly ceramic tile wall panel as claimed in claim 2 or 3, wherein the fastener (15) can be fastened in the first fastener cavity (51) and the second fastener cavity (52), the filler (53) of the fastener groove (5) can be inserted into the inner cavity (14) of the keel (1), and the side wall of the filler (53) is abutted to the first vertical plate (12) and the second vertical plate (13).

5. A quick-assembling deformation-preventing quick-assembling ceramic tile wall panel as claimed in claim 1, wherein said base plate (2) is provided at its back side with a plurality of fastening grooves (5), and said base plate (2) is provided at its end position with a cross rib (21).

6. A quick-assembling deformation-preventing quick-assembling ceramic tile wall panel according to claim 1, wherein said connecting female port (4) comprises an upper end wall (41) and a lower end wall (42), a half-cavity is formed between said upper end wall (41) and said lower end wall (42), and two half-cavities are butted to form a connecting female cavity; the length of the upper end wall (41) is larger than that of the lower end wall (42), so that a butt joint notch is reserved on the lower bottom wall of the connecting female cavity.

7. The quick-assembling deformation-preventing quick-assembling ceramic tile wall panel as claimed in claim 6, wherein said first fixing arm (61) comprises a first bottom wall (611), a first panel (612) and a first abutting portion (613), said first bottom wall (611) abuts against said lower end wall (42), said first panel (612) is provided with a nail inserting groove, said first abutting portion (613) is connected with said first bottom wall (611) and said first panel (612) and is fixedly connected, and said first abutting portion (613) abuts against a mounting surface.

8. The quick-assembling deformation-preventing quick-assembling ceramic tile wall panel as claimed in claim 1, wherein said second fixing arm (62) comprises a second bottom wall (621), a second panel (622), and a second abutting portion (623), said second bottom wall (621) abuts against the mounting surface, said second panel is provided with a nail insertion groove, said second abutting portion (623) is connected and fixed to said second bottom wall (621) and said second panel (622), and said second abutting portion (623) abuts against the back side of said substrate (2).

9. The quick-assembling deformation-preventing quick-assembling ceramic tile wall panel of claim 1, characterized in that leveling terminals (7) include leveling seams (71), leveling terminals (7) rectangular frame structure, leveling seams (71) have been seted up to the upper end intermediate position of leveling terminals (7), two lateral surface rigid couplings have ceramic tile (3) base plate (2) concatenation department leaves connecting seam (9), connecting seam (9) with just right leveling seams (71), the opening of leveling seams (71) is greater than connecting seam (9) for the leveling ware can pass through connecting seam (9) insert in leveling seams (71).

10. The quick-assembling deformation-preventing quick-assembling ceramic tile wall panel as claimed in claim 1, wherein the connecting member (6) further comprises a main rib (63) and an extension rib (64), the extension rib (64) extends upwards from the middle position of the upper surface of the main rib (63), and the extension rib (64) is fixedly connected with the leveling terminal (7); the first fixing arm (61) and the second fixing arm (62) are fixedly connected to two sides of the main rib (63) respectively, and the lower surface of the main rib (63) is abutted to the mounting surface.

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