CN113550523A

CN113550523A - Assembled ceramic tile wall surface and construction method thereof

Info

Publication number: CN113550523A
Application number: CN202110873678.0A
Authority: CN
Inventors: 林柳义; 陈杨; 柳仲怀
Original assignee: Wenzhou Liuyi Interior Decoration Design Office
Current assignee: Wenzhou Liuyi Interior Decoration Design Office
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2021-10-26
Anticipated expiration: 2041-07-30
Also published as: CN113550523B

Abstract

The invention discloses an assembled ceramic tile wall surface, which comprises a plurality of slideways arranged on the wall surface, wherein the length directions of the slideways arranged on the wall surface are horizontally arranged, and the adjacent slideways are sequentially arranged at intervals along the height direction of the wall surface; a laying mechanism is arranged between the adjacent slideways, the laying mechanism comprises main frame bodies which are symmetrically arranged, and a placing area for placing ceramic tiles is formed between the main frame bodies; the main frame body is provided with a pressing mechanism for pressing the ceramic tiles in the placing area, and the pressing mechanism is arranged on the main frame body in a sliding manner along the length direction of the slide way; the pressing mechanism also comprises a pressing rod which moves along the direction vertical to the length direction of the slideway. This application has and still fixes the ceramic tile before dry at cement, makes the ceramic tile be difficult for the effect that drops from the wall when receiving external collision.

Description

Assembled ceramic tile wall surface and construction method thereof

Technical Field

The invention relates to the field of wall decoration, in particular to an assembled ceramic tile wall surface and a construction method thereof.

Background

The fabricated building is a building which is fabricated by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories in the factory, transporting the components and accessories to a building construction site, and then assembling and installing the components and accessories on the site in a reliable connection mode.

There is a construction wall on the market, as shown in fig. 1, including construction wall 8, when needing to lay ceramic tiles on the surface of construction wall 8, usually adopt the cement to pour the mode and realize fixing the ceramic tiles. The concrete construction steps are as follows: firstly, cement is evenly coated on the mounting surface of the ceramic tile, then the ceramic tile is paved on the surface of the construction wall body 8 in a block mode, and the ceramic tile can be firmly fixed on the wall surface after the cement is solidified.

In view of the above construction method, the applicant believes that when a tile with a large area is laid, since the whole weight of the tile is relatively large, the tile laid on the wall surface is very easy to fall off from the wall surface once being collided by the outside when cement is not solidified, and the tile is broken once falling to the ground, thereby affecting the laying work of the tile.

Disclosure of Invention

In order to solve the problem that tiles fall off from the wall surface easily due to external collision when cement is not solidified, the application provides an assembly type tile wall surface and a construction method thereof.

An assembled ceramic tile wall surface comprises a plurality of slideways which are used for being installed on the wall surface, wherein the length directions of the slideways which are installed on the wall surface are horizontally arranged, and the adjacent slideways are sequentially arranged at intervals along the height direction of the wall surface; a laying mechanism is arranged between the adjacent slideways, the laying mechanism comprises main frame bodies which are symmetrically arranged, and a placing area for placing ceramic tiles is formed between the main frame bodies; the main frame body is provided with a pressing mechanism for pressing the ceramic tiles in the placing area, and the pressing mechanism is arranged on the main frame body in a sliding manner along the length direction of the slide way; the pressing mechanism also comprises a pressing rod which moves along the direction vertical to the length direction of the slideway.

By adopting the technical scheme, before the ceramic tiles are laid, the slide ways are sequentially arranged on the wall body along the height direction of the wall body; the paving mechanism is installed between the two adjacent slideways, after the paving mechanism is installed, a placing area is formed between the two adjacent main frame bodies, the paving position of the ceramic tile can be conveniently positioned through the placing area, and when workers lay the ceramic tile, the ceramic tile can be limited under the action of the main frame bodies on the two sides, so that the ceramic tile is not easy to deviate; after laying the ceramic tile on the wall body through cement, rethread pressing mechanism compresses tightly the ceramic tile on the wall body to just can fix the ceramic tile before cement still does not dry, make the ceramic tile be difficult for coming off from the wall when receiving external collision, improved the stability of ceramic tile greatly.

The pressing mechanism comprises an upper sliding plate and a lower sliding plate which are arranged on the main frame body in a sliding mode, the upper sliding plate and the lower sliding plate are arranged in a vertically symmetrical mode, and the upper sliding plate and the lower sliding plate are arranged on the main frame body in a sliding mode along the length direction of a sliding way; the pressure lever is respectively connected to the upper sliding plate and the lower sliding plate in a threaded mode, and the side wall of the upper sliding plate, away from the placement area, of the lower sliding plate is provided with a same connecting rod.

By adopting the technical scheme, the connecting rod is pulled towards the direction far away from the placing area, at the moment, the connecting rod drives the upper sliding plate and the lower sliding plate connected with the connecting rod to withdraw from the placing area, and then the ceramic tile can be smoothly placed in the placing area; after the position installation with the ceramic tile targets in place, the connecting rod of redriving makes top board and lower slide push again to placing the district in, can realize carrying on the ceramic tile spacing equally under the effect of top board and lower slide this moment to can further improve the fixed effect to the ceramic tile.

The main frame body comprises a first sliding frame and a second sliding frame, and the first sliding frame is arranged on the second sliding frame in a sliding mode along the direction perpendicular to the length direction of the slide way; the connecting rod comprises a first connecting rod, a second connecting rod and a hollow threaded sleeve, reverse threads are respectively arranged on the inner side walls of the two ends of the threaded sleeve, and one ends, close to each other, of the first connecting rod and the second connecting rod are respectively inserted into and in threaded connection with the threaded sleeve; one end, far away from the threaded sleeve, of the first connecting rod is connected with the upper sliding plate, and one end, far away from the threaded sleeve, of the second connecting rod is connected with the lower sliding plate.

By adopting the technical scheme, when the height of the ceramic tile to be laid is changed, the first connecting rod and the second connecting rod which are positioned on the two sides of the threaded sleeve move towards the direction of approaching to or separating from each other by rotating the threaded sleeve, and the first sliding frame and the second sliding frame synchronously slide towards the direction of approaching to or separating from each other under the driving of the connecting rods; thereby just can realize adjusting the height of the body frame body, and then can adapt to the work of laying of not co-altitude ceramic tile.

The locking device is characterized by further comprising a locking rod arranged between the second sliding carriages and transversely arranged on one side of the placing area, wherein the locking rod comprises a first rotating rod and a second rotating rod, and one ends of the first rotating rod and the second rotating rod, which are deviated from each other, are respectively and rotatably arranged on the respective adjacent second sliding carriages; be provided with the inserted block that sets up along first dwang length direction interval in proper order on the first dwang, be provided with on the second dwang along second dwang length direction interval in proper order and supply inserted block male slot.

By adopting the technical scheme, the first rotating rod and the second rotating rod are rotated towards the direction close to each other, and then the inserting block on the first rotating rod is inserted into the corresponding inserting groove on the second rotating rod, so that the first rotating rod and the second rotating rod can be inserted and fixed; the main frame bodies on the two sides are connected into a whole by connecting the first rotating rod and the second rotating rod, and the width of the placing area is fixed at the moment; when the width of the ceramic tile to be laid is changed, the connection between the first rotating rod and the second rotating rod is firstly released, the main frame body intervals on the two sides are adjusted to proper positions, and finally the first rotating rod and the second rotating rod are fixed to be adapted to the laying work of the ceramic tiles with different widths.

The locking rod is rotatably sleeved with a coil, and a rotating shaft of the coil is arranged along the length direction of the locking rod; and the outer side wall of the coil is provided with a storage plate positioned on one side of the storage area.

By adopting the technical scheme, when the ceramic tile with a large area is laid, because the whole weight of the ceramic tile is large, the lower end of the ceramic tile can be firstly placed on the object placing plate by a worker during laying, and the object placing plate can provide a supporting point for the ceramic tile, so that the labor is saved during laying the ceramic tile by the worker; then promote the ceramic tile upper end to the direction that is close to the wall body again, the ceramic tile will drive the coil rotation of below this moment, along with put the thing board and rotate to the direction that is close to the wall body gradually, the ceramic tile just can be laid smoothly to the wall on to enable laying of ceramic tile more accurate under the effect of putting the thing board and placing the wall in the district, reduced the skew of laying the time ceramic tile position.

The sliding device further comprises pulleys which are rotatably arranged on the side walls of the first sliding frame and the second sliding frame, wherein the side walls of the first sliding frame and the second sliding frame are mutually deviated, the pulleys are respectively inserted into the corresponding sliding ways, and the pulleys are abutted against the side walls of the sliding ways; the end of the slide way is provided with an inlet for the pulley to slide in, and the pulley slides into the slide way through the inlet.

By adopting the technical scheme, after the tiles in the designated area are solidified, the main frame body slides to the next laying area along the slide way, so that the next tile can be laid, and the pulley enables the main frame body to move more smoothly; after the tiles on the same horizontal plane are laid, the laying mechanism is withdrawn from the inlet of the slideway, and then the laying mechanism slides in from the inlet of the slideway of the next row of walls to be laid.

The wall body is characterized by also comprising mounting pieces arranged at two ends of the slide way, wherein each mounting piece comprises a fixing piece used for being mounted on a wall body and an assembly piece used for being mounted on the slide way; the assembly part is provided with an installation groove with an opening facing the fixing part, and two ends of the slide way are respectively inserted into the fixing part from top to bottom through the installation groove.

By adopting the technical scheme, when the slide way is installed, the installation piece is installed on the wall surface, and then the assembly pieces are respectively installed at the two ends of the slide way; then the slide ways are respectively installed on the corresponding fixing pieces through the assembling pieces on the two sides, so that the installation work of the slide ways is completed; because the slide adopts demountable installation on the wall, after the ceramic tile is laid, through demolish the slide can.

On the other hand, the application also provides a construction method of the assembly type tile wall surface, which is applied to the assembly type tile wall surface and comprises the following steps:

s1, sequentially installing the slide ways on the wall along the height direction of the wall according to the size of the ceramic tiles to be laid

And then, a paving mechanism for paving the tiles is arranged between the two adjacent slide ways, and the tiles are paved through the paving mechanism.

S2, adjusting the overall length of the first sliding frame and the second sliding frame on the laying mechanism according to the size of the tile to be laid, so that the pulleys on the first sliding frame and the second sliding frame are respectively inserted into the corresponding slideways, and the pulleys are guaranteed to be abutted against the side walls of the slideways.

S3, moving the upper sliding plate and the lower sliding plate on the main frame out of the placing area towards the directions respectively far away from the placing area, and ensuring that the ceramic tiles can be smoothly placed in the placing area.

And S4, rotating the first rotating rod and the second rotating rod in the direction of approaching each other, and then inserting the insertion block on the first rotating rod into the insertion groove on the second rotating rod so as to realize the fixation between two adjacent main frame bodies.

S5, placing the lower end of the ceramic tile coated with the cement on the storage plate, then gradually pushing the upper end of the ceramic tile to the direction close to the wall body, and laying the ceramic tile on the wall body.

And S6, finally, pushing the upper sliding plate and the lower sliding plate into the placing area, and pressing and fixing the ceramic tiles on the wall body through the pressing mechanism.

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

the laying position of the ceramic tile can be conveniently positioned through the placing area, and when workers lay the ceramic tile, the ceramic tile can be limited under the action of the main frame bodies on the two sides, so that the ceramic tile is not easy to deviate; fix the ceramic tile before cement is not dry yet, make the ceramic tile be difficult for droing from the wall when receiving external collision, improved the stability of ceramic tile greatly.

Drawings

FIG. 1 is a schematic view of the existing tile wall in the market

Fig. 2 is a schematic overall structure diagram of the first embodiment of the present application.

FIG. 3 is a schematic view of a portion of a bump-laying mechanism according to an embodiment of the present disclosure.

Fig. 4 is a partial structure schematic view after the slideway is hidden in fig. 2.

Fig. 5 is an exploded view of the portion of fig. 3 where the locking rod is highlighted.

Description of reference numerals:

1. a slideway; 2. a laying mechanism; 21. a main frame body; 211. a first carriage; 212. a second carriage; 22. a placement area; 3. a hold-down mechanism; 31. a pressure lever; 321. an upper slide plate; 32. a lower slide plate; 33. a connecting rod; 331. a first link; 332. a second link; 333. a threaded bushing; 4. a locking lever; 41. a first rotating lever; 411. inserting a block; 42. a second rotating lever; 421. a slot; 5. coiling; 51. a storage plate; 6. a pulley; 61. an inlet; 7. a mounting member; 71. a fixing member; 72. an assembly member; 721. mounting grooves; 8. and (5) constructing a wall body.

Detailed Description

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

The first embodiment is as follows:

the embodiment of the application discloses an assembled ceramic tile wall surface. Referring to fig. 2 and 3, the assembled tile wall surface includes a plurality of slide ways 1 horizontally disposed in a length direction and detachably mounted on the wall surface. The quantity of slide 1 can be according to the high proper motion setting of actual wall, is in proper order even interval arrangement along the direction of height of wall between the adjacent slide 1. Be provided with between two adjacent slides 1 and be used for assisting artifical laying mechanism 2 of laying the ceramic tile, the quantity of laying mechanism 2 can increase and decrease according to the demand of laying actually, lays mechanism 2 and slides along slide 1's length direction and sets up in wall body one side.

As shown in fig. 2 and 3, both ends of the slideway 1 in the length direction are provided with mounting pieces 7 for mounting both ends of the slideway 1 on a wall, and the mounting pieces 7 comprise fixing pieces 71 detachably mounted on the wall through bolts and assembling pieces 72 also detachably mounted on the slideway 1 through bolts. The assembly 72 is in the same horizontal plane as the slide 1, and the length direction of the assembly 72 is perpendicular to the length direction of the slide 1. A latch facing the assembly member 72 is formed on an upper end surface of the fixing member 71, and an installation groove 721 opened to the latch and into which the latch on the fixing member 71 is inserted is formed on the assembly member 72. When the slide way 1 is installed, the installation grooves 721 on the assembly parts 72 at the two ends of the slide way 1 are inserted into the corresponding blocks from top to bottom, so that the installation and fixation of the slide way 1 are completed.

As shown in fig. 3 and 4, the laying mechanism 2 located between the adjacent slideways 1 includes two main frame bodies 21 symmetrically disposed, and the two main frame bodies 21 are distributed along the length direction of the slideways 1. Be formed with the district 22 of placing that is used for placing the ceramic tile between two adjacent body frame bodies 21, body frame body 21 all rotates on the both ends lateral wall towards adjacent slide 1 and installs pulley 6, and pulley 6 rotates along slide 1's length direction. The upper and lower both ends of slide 1 all are provided with and supply pulley 6 male spout, and the spout sets up along slide 1's length direction, and pulley 6 inserts respectively and slides the setting in respective relative spout, and the one end that pulley 6 deviates from main frame body 21 contacts with the inside wall of spout. Both ends of the slideway 1 along the length direction are provided with inlets 61 communicated with the sliding grooves, and the pulley 6 slides into the slideway 1 through the inlets 61.

As shown in fig. 3 and 4, the main frame 21 located between the adjacent slideways 1 includes a first sliding frame 211 and a second sliding frame 212 which are vertically distributed, the first sliding frame 211 is slidably disposed at the upper end of the second sliding frame 212 along the direction perpendicular to the length direction of the slideway 1, and the pulleys 6 are symmetrically mounted on the side walls of the first sliding frame 211 and the second sliding frame 212 which are away from each other. The side walls of the first sliding frame 211 and the second sliding frame 212, which are away from the wall surface, are provided with a pressing mechanism 3 for pressing the tiles in the placing area 22, and the pressing mechanism 3 comprises an upper sliding plate 321 which is arranged on the first sliding frame 211 in a sliding manner along the length direction of the sliding way 1, and a lower sliding plate 32 which is also arranged on the second sliding frame 212 in a sliding manner along the length direction of the sliding way 1. All seted up the spacing groove on first balladeur train 211 and the second balladeur train 212, upper slide 321 slides and sets up in the spacing inslot of first balladeur train 211, and lower slide 32 slides and sets up in the spacing inslot of second balladeur train 212, makes upper slide 321 and lower slide 32 can only slide along the length direction of slide 1 under the effect of spacing groove.

As shown in fig. 3 and 4, the pressing mechanism 3 further includes a pressing rod 31 disposed on the upper sliding plate 321 and the lower sliding plate 32, and the pressing rod 31 is threaded through the upper sliding plate 321 or the lower sliding plate 32. And the length direction of the pressure lever 31 is arranged along the length direction vertical to the slideway 1, and by rotating the pressure lever 31, the pressure lever 31 moves towards the direction close to the wall surface or away from the wall surface. After laying the ceramic tile on placing the relative wall in district 22, through rotating the depression bar 31 on slide 321 and the lower slide 32, make depression bar 31 remove to the direction that is close to the ceramic tile gradually, through removing depression bar 31 to contradict with the ceramic tile surface to just can realize compressing tightly the ceramic tile.

As shown in fig. 3 and 4, the same connecting rod 33 is mounted on the side walls of the upper sliding plate 321 and the lower sliding plate 32 away from the placement area 22, and the connecting rod 33 includes a first connecting rod 331, a second connecting rod 332 and a hollow threaded sleeve 333. The inner side walls of the two ends of the threaded sleeve 333 are respectively provided with reverse threads, one end of the first connecting rod 331 is inserted into the threaded sleeve 333 and is connected with the inner threads of the threaded sleeve 333, and the other end of the first connecting rod 331 is fixedly connected with the upper sliding plate 321. The second link 332 has one end inserted from an end of the threaded sleeve 333 away from the first link 331, and the second link 332 is threadedly coupled to an inner sidewall of the threaded sleeve 333. The other end of the second link 332 is fixedly connected to the lower slide 32. By rotating the threaded sleeve 333, the first link 331 and the second link 332 will move toward or away from each other, and at the same time, the first carriage 211 and the second carriage 212 will be driven to move synchronously.

As shown in fig. 4 and 5, a locking lever 4 transversely crossing the placement area 22 is disposed between two adjacent second carriages 212, the locking lever 4 includes a first rotating lever 41 and a second rotating lever 42, and ends of the first rotating lever 41 and the second rotating lever 42, which end face away from each other, are respectively rotatably disposed on the respective adjacent second carriages 212. The rotation axes of the first rotation rod 41 and the second rotation rod 42 are arranged along the length direction of the pressure rod 31, a horizontally arranged limit block is arranged on the outer side wall of the second carriage 212, the limit block positioned below the first rotation rod 41 is used for keeping the first rotation rod 41 turned to the horizontal state to be horizontal, and the limit block positioned below the second rotation rod 42 is used for keeping the second rotation rod 42 turned to the horizontal state to be horizontal.

As shown in fig. 4 and 5, the first rotating rod 41 is integrally formed with a plurality of insertion blocks 411 that are sequentially and uniformly spaced along the length direction of the first rotating rod 41, the second rotating rod 42 is provided with a plurality of insertion slots 421 that are sequentially and uniformly spaced along the length direction of the second rotating rod 42, and the insertion slots 421 are used for the insertion of the corresponding insertion blocks 411. When first dwang 41 and second dwang 42 all overturn to the horizontality under, through inserting the inserted block 411 to the slot 421 that corresponds in to just can realize being connected first dwang 41 and second dwang 42 fixedly, along with first dwang 41 is fixed with being connected of second dwang 42, just can realize at this moment and will place the width of district 22 and confirm.

As shown in fig. 4 and 5, a coil 5 is rotatably sleeved on an outer side wall of the locking lever 4, and a rotating shaft of the coil 5 is arranged along a length direction of the locking lever 4. Fixed mounting has the thing board 51 of putting that is located to place district 22 one side on the lateral wall of coil 5, and the bottom of putting thing board 51 is formed with the support bar of buckling to the direction that is close to place district 22, and the manual work can place the ceramic tile lower extreme when laying on the support bar of putting thing board 51 below earlier, provides the strong point for the ceramic tile through the support bar to enable artifical laborsaving when laying the ceramic tile. Then promote the ceramic tile upper end to the direction that is close to the wall again, the ceramic tile will drive the 5 rotations of coil of below this moment, along with putting thing board 51 and rotate to the direction that is close to the wall gradually, the ceramic tile just can be laid smoothly to the wall on.

Example two:

the application also provides a construction method of the assembly type ceramic tile wall surface, which is applied to the ceramic tile laying of the assembly type ceramic tile wall surface recorded in the first embodiment.

The implementation principle of an assembled ceramic tile wall surface of the embodiment of the application is as follows: before the ceramic tiles are laid, the slide ways 1 are sequentially installed on the wall body along the height direction of the wall body. Then, the laying mechanism 2 is installed between two adjacent slideways 1, and after the laying mechanism 2 is installed, a placement area 22 is formed between two adjacent main frames 21. Then, the connecting rod 33 is pulled away from the placing area 22, and the connecting rod 33 drives the upper slide plate 321 and the lower slide plate 32 connected thereto to exit from the placing area 22. Then, the first rotating rod 41 and the second rotating rod 42 are rotated in a direction approaching to each other, and the insertion block 411 on the first rotating rod 41 is inserted into the corresponding insertion slot 421 on the second rotating rod 42, so that the first rotating rod 41 and the second rotating rod 42 can be inserted and fixed. Then the manual work is earlier placed the ceramic tile lower extreme on putting thing board 51, can provide the strong point for the ceramic tile through putting thing board 51 to enable artifical laborsaving when laying the ceramic tile, promote the ceramic tile upper end to the direction that is close to the wall body again after that, the ceramic tile will drive the 5 rotations of coil of below this moment, along with putting thing board 51 and rotate to the direction that is close to the wall body gradually, the ceramic tile just can be laid smoothly to the wall on. Then promote to the direction that is close to and places district 22 through the connecting rod 33 with both sides again, just can realize carrying out preliminary spacing fixed with the ceramic tile under the effect of last slide 321 and lower slide 32 this moment, the rethread rotates depression bar 31 at last and compresses tightly the ceramic tile in placing district 22 to just can fix the ceramic tile before cement is not done yet, make the ceramic tile difficult follow the wall when receiving external collision and drop, improved the stability of ceramic tile greatly. After the lower row of tiles are laid, the laying mechanism 2 is placed between the upper-layer slide ways 1 to carry out the laying work of the upper row of tiles until the laying work of the whole tiles on the wall surface is finished.

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

1. An assembled ceramic tile wall surface, its characterized in that: the wall surface installation structure comprises a plurality of slideways (1) which are used for being installed on a wall surface, wherein the slideways (1) which are installed on the wall surface are horizontally arranged along the length direction, and the adjacent slideways (1) are sequentially arranged at intervals along the height direction of the wall surface; a laying mechanism (2) is arranged between the adjacent slideways (1), the laying mechanism (2) comprises main frame bodies (21) which are symmetrically arranged, and a placing area (22) for placing ceramic tiles is formed between the main frame bodies (21); the main frame body (21) is provided with a pressing mechanism (3) for pressing the ceramic tiles in the placing area (22), and the pressing mechanism (3) is arranged on the main frame body (21) in a sliding manner along the length direction of the slide way (1); the pressing mechanism (3) also comprises a pressing rod (31) which moves along the direction vertical to the length direction of the slideway (1).

2. A fabricated tiled wall according to claim 1, wherein: the pressing mechanism (3) comprises an upper sliding plate (321) and a lower sliding plate (32) which are arranged on the main frame body (21) in a sliding mode, the upper sliding plate (321) and the lower sliding plate (32) are arranged in a vertically symmetrical mode, and the upper sliding plate (321) and the lower sliding plate (32) are arranged on the main frame body (21) in a sliding mode along the length direction of the slide rail (1); the pressing rod (31) is respectively in threaded connection with the upper sliding plate (321) and the lower sliding plate (32), and the same connecting rod (33) is arranged on the side wall of the upper sliding plate (321) and the side wall of the lower sliding plate (32) which are deviated from the placement area (22).

3. A fabricated tiled wall according to claim 2, wherein: the main frame body (21) comprises a first sliding frame (211) and a second sliding frame (212), and the first sliding frame (211) is arranged on the second sliding frame (212) in a sliding mode along the direction perpendicular to the length direction of the sliding rail (1); the connecting rod (33) comprises a first connecting rod (331), a second connecting rod (332) and a hollow threaded sleeve (333), reverse threads are respectively arranged on the inner side walls of two ends of the threaded sleeve (333), and one ends, close to each other, of the first connecting rod (331) and the second connecting rod (332) are respectively inserted into the threaded sleeve (333) and are in threaded connection with the threaded sleeve (333); one end of the first connecting rod (331) far away from the threaded sleeve (333) is connected with the upper sliding plate (321), and one end of the second connecting rod (332) far away from the threaded sleeve (333) is connected with the lower sliding plate (32).

4. A fabricated tiled wall according to claim 3, wherein: a locking rod (4) transversely erected on one side of the placement area (22) is arranged between the second sliding carriages (212), the locking rod (4) comprises a first rotating rod (41) and a second rotating rod (42), and one ends of the first rotating rod (41) and the second rotating rod (42) which are deviated from each other are respectively and rotatably arranged on the respective adjacent second sliding carriages (212); be provided with on first dwang (41) along first dwang (41) length direction in proper order inserted block (411) that the interval set up, be provided with on second dwang (42) along second dwang (42) length direction in proper order the interval set up and supply inserted block (411) male slot (421).

5. A fabricated tiled wall according to claim 4, wherein: a coil pipe (5) is rotatably sleeved on the locking rod (4), and a rotating shaft of the coil pipe (5) is arranged along the length direction of the locking rod (4); the outer side wall of the coil pipe (5) is provided with an object placing plate (51) positioned on one side of the placing area (22).

6. A fabricated tiled wall according to claim 3, wherein: pulleys (6) are rotatably arranged on the side walls of the first sliding frame (211) and the second sliding frame (212) which are away from each other, the pulleys (6) are respectively inserted into the corresponding sliding ways (1), and the pulleys (6) are abutted against the side walls of the sliding ways (1); the end of the slide way (1) is provided with an inlet (61) for the pulley (6) to slide in, and the pulley (6) slides in the slide way (6) through the inlet (61).

7. A fabricated tiled wall according to claim 6, wherein: mounting pieces (7) are arranged at two ends of the slide way (1), and each mounting piece (7) comprises a fixing piece (71) for mounting on a wall body and an assembly piece (72) for mounting on the slide way (1); the assembly part (72) is provided with an installation groove (721) with an opening facing the fixing part (71), and two ends of the slide way (1) are respectively inserted into the fixing part (71) from top to bottom through the installation groove (721).

8. A method of constructing an assembled tiled wall, using an assembled tiled wall according to any of claims 1 to 7, characterized in that:

s1, sequentially installing the slide ways (1) along the height direction of the wall body according to the size of the ceramic tiles to be laid

On the wall body, a laying mechanism (2) for laying tiles is arranged between two adjacent slideways (1), and the tiles are laid through the laying mechanism (2);

s2, adjusting the overall length of a first sliding frame (211) and a second sliding frame (212) on the laying mechanism (2) according to the size of the tile to be laid, so that pulleys (6) on the first sliding frame (211) and the second sliding frame (212) are respectively inserted into the corresponding slideways (1), and the pulleys (6) are guaranteed to be abutted against the side walls of the slideways (1);

s3, moving the upper sliding plate (321) and the lower sliding plate (32) on the main frame body (21) out of the placing area (22) towards the directions respectively far away from the placing area (22) to ensure that the ceramic tiles can be smoothly placed in the placing area (22);

s4, rotating the first rotating rod (41) and the second rotating rod (42) in the direction of approaching each other, and then inserting the inserting block (411) on the first rotating rod (41) into the inserting groove (421) on the second rotating rod (42) to realize the fixation between two adjacent main frames (21);

s5, placing the lower end of the ceramic tile coated with the cement on an object placing plate (51), then gradually pushing the upper end of the ceramic tile to the direction close to the wall body, and laying the ceramic tile on the wall body;

and S6, finally, pushing the upper sliding plate (321) and the lower sliding plate (32) into the placing area (22), and pressing and fixing the ceramic tiles on the wall body through the pressing mechanism (3).