CN220434120U - Interior decoration ceramic tile laying structure - Google Patents

Abstract

The utility model relates to the technical field of floor tile paving, in particular to an indoor decoration floor tile paving structure; including a plurality of fixed bolsters, a plurality of fixed bolsters are evenly laid subaerial in blank room, every fixed bolster all includes the base, the support column, the lifting column, elevating system, driving piece and place the board, utilize the screw evenly fix a plurality of bases subaerial back in blank room, will wait to lay the ceramic tile and splice in proper order on every place the board after, according to the roughness on ground, rotate the driving piece on every fixed bolster in proper order, because the output and the elevating system mechanical transmission of driving piece, thereby drive the elevating system operation, and then drive the inside slip of lifting column at the support column through elevating system, thereby adjust the height of fixed bolster, make the ceramic tile of concatenation on a plurality of fixed bolsters be in the coplanar, the laying effect is better.

Description

Interior decoration ceramic tile laying structure

Technical Field

The utility model relates to the technical field of floor tile paving, in particular to an indoor decoration floor tile paving structure.

Background

In house interior decoration process, lay floor brick and wall brick and be the indispensable link, current ceramic tile laying means is mostly laid by the master manual work that work experience is higher, and work efficiency is lower.

In order to solve the problems, in the prior art, a plurality of fixing brackets are directly arranged on a blank room, after the floor tiles to be paved are spliced on the fixing brackets, gaps between the floor tiles and a wall body are filled with high-strength insulating foam adhesive, so that the paving of the floor tiles is completed, and by adopting the technology, the paving efficiency of the floor tiles is higher.

However, since the floor of the blank house is not flat enough during the construction process, a fixing bracket capable of adjusting the height is required.

Disclosure of Invention

The utility model aims to provide an indoor decoration floor tile laying structure, which solves the problem that in the prior art, the ground of a blank room is not smooth enough in the building process, so that a fixing bracket capable of adjusting the height is needed.

In order to achieve the above object, the utility model provides an indoor decoration floor tile laying structure, which comprises a plurality of fixing brackets, wherein the fixing brackets are uniformly laid on the ground of a blank room, each fixing bracket comprises a base, a support column, a lifting mechanism, a driving piece and a placing plate, the upper surface of the base is fixedly connected with the support column, the lifting column is in sliding connection with the support column and is positioned at one end of the lifting column far away from the base, one end of the lifting column far away from the support column is provided with the placing plate, the floor tile to be laid is spliced on the placing plate, the lifting mechanism is further arranged in the support column, the lifting mechanism is used for driving the lifting column to slide on the support column, the driving piece is further arranged on the side surface of the support column, and the output end of the driving piece is mechanically driven with the lifting mechanism.

Each lifting mechanism comprises an annular plate, a rotating ring and a threaded rod, the annular plate is fixedly mounted inside the supporting column, the rotating ring is rotationally connected to the center of the annular plate, the threaded rod is connected to the inner threads of the rotating ring, one end, far away from the inner bottom of the supporting column, of the threaded rod is rotationally connected to the bottom of the lifting column through a bearing, a driven gear is arranged outside the rotating ring, and the output end of the driving piece is mechanically driven by the driven gear.

Each driving piece comprises a rotating shaft, a hand wheel and a transmission gear, the rotating shafts are rotationally connected with the side faces of the supporting columns, the transmission gear is arranged at one end of each rotating shaft located inside each supporting column, the hand wheel is arranged at one end of each rotating shaft located outside each supporting column, and the transmission gear is meshed with the driven gear.

Each lifting column comprises a column body and two sliding plates, sliding grooves are formed in two sides of the inside of each supporting column, the sliding plates are fixedly arranged on two sides of the column body, and the sliding plates are matched with the sliding grooves.

Each rotating ring comprises a ring body and two limiting rings, the ring body penetrates through the annular plate, two limiting rings are arranged outside the ring body, and the two limiting rings are respectively located on the upper surface and the lower surface of the annular plate.

And one surface of each limiting ring, which is close to the annular plate, is provided with an annular groove, and a plurality of balls are arranged in each annular groove.

Wherein, every the support column all is hollow structure setting, every the bottom of support column all is provided with the collar, the collar with the connection is dismantled to the base.

The utility model relates to an indoor decoration floor tile laying structure, which comprises a plurality of fixing brackets, wherein the fixing brackets are uniformly laid on the ground of a blank room, each fixing bracket comprises a base, a supporting column, a lifting mechanism, a driving piece and a placing plate, the bases are uniformly fixed on the ground of the blank room by using screws, after a floor tile to be laid is spliced on each placing plate in turn, the driving piece on each fixing bracket is sequentially rotated according to the flatness of the ground, and the lifting mechanism is driven to operate due to the mechanical transmission of the output end of the driving piece, so that the lifting column is driven to slide in the supporting column by the lifting mechanism, the height of the fixing brackets is adjusted, so that the floor tile spliced on the fixing brackets is positioned on the same plane.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of an indoor decoration tile paving structure according to the present utility model.

Fig. 2 is a schematic structural view of a fixing bracket provided by the utility model.

Fig. 3 is an enlarged view of a partial structure at a of fig. 2 provided by the present utility model.

Fig. 4 is a schematic diagram of a separation structure of a support column and a lifting column provided by the utility model.

Fig. 5 is an enlarged view of a partial structure at B of fig. 4 provided by the present utility model.

Fig. 6 is a schematic structural view of a rotary ring according to the present utility model.

Fig. 7 is a sectional view of the internal structure of the telescopic rod provided by the utility model.

101-fixed brackets, 102-bases, 103-supporting columns, 104-lifting columns, 105-lifting mechanisms, 106-driving pieces, 107-placing plates, 108-annular plates, 109-rotating rings, 110-threaded rods, 111-bearings, 112-driven gears, 113-rotating shafts, 114-hand wheels, 115-transmission gears, 116-columns, 117-sliding plates, 118-sliding grooves, 119-ring bodies, 120-limiting rings, 121-annular grooves, 122-balls, 123-mounting rings, 124-plate bodies, 125-telescopic rods, 126-clamping plates, 127-first rod bodies, 128-second rod bodies, 129-telescopic springs, 130-first connecting blocks and 131-second connecting blocks.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

Referring to fig. 1 to 7, the present utility model provides an indoor decoration tile paving structure, the indoor decoration tile paving structure includes a plurality of fixing brackets 101, the fixing brackets 101 are uniformly paved on the ground of a blank room, each fixing bracket 101 includes a base 102, a support column 103, a lifting column 104, a lifting mechanism 105, a driving member 106 and a placement plate 107, the support column 103 is fixedly connected to the upper surface of the base 102, the lifting column 104 is slidably connected with the support column 103 and is located at one end of the lifting column 104 far away from the base 102, the placement plate 107 is disposed at one end of the lifting column 104 far away from the support column 103, tiles to be paved are spliced on the placement plate 107, the lifting mechanism 105 is further disposed inside the support column 103, the lifting mechanism 105 is used for driving the lifting column 104 to slide on the support column 103, the driving member 106 is further disposed on the side surface of the support column 103, and the output end of the driving member 106 is mechanically driven by the lifting mechanism 105.

In this embodiment, ground heating water and electricity pipelines are laid on the basis of a blank room, all the pipelines are slightly fixed without slotting, then a plurality of bases 102 are uniformly fixed on the ground of the blank room by using screws, so that pipeline plates are arranged between the gaps of a plurality of fixing brackets 101, tiles to be laid are spliced on each placing plate 107 in turn, the driving piece 106 on each fixing bracket 101 is rotated in turn according to the flatness of the ground, and the output end of the driving piece 106 is mechanically driven by the lifting mechanism 105, so that the lifting mechanism 105 is driven to operate, and then the lifting column 104 is driven by the lifting mechanism 105 to slide in the support column 103, so that the height of the fixing brackets 101 is adjusted, and after the tiles spliced on the fixing brackets 101 are positioned on the same plane, the gaps between the tiles and the wall are filled with high-strength insulating foaming glue, so that the laying of the tiles is completed.

Further, each lifting mechanism 105 includes an annular plate 108, a rotating ring 109 and a threaded rod 110, the annular plate 108 is fixedly installed inside the supporting column 103, the rotating ring 109 is rotatably connected to the center of the annular plate 108, the threaded rod 110 is rotatably connected to the inner portion of the rotating ring 109, one end, away from the inner bottom of the supporting column 103, of the threaded rod 110 is rotatably connected to the bottom of the lifting column 104 through a bearing 111, a driven gear 112 is disposed outside the rotating ring 109, and the output end of the driving member 106 is mechanically driven with the driven gear 112.

In this embodiment, the driving member 106 is rotated, and the output end of the driving member 106 is mechanically driven by the driven gear 112, so as to drive the rotating ring 109 to rotate on the annular plate 108, and the threaded rod 110 is screwed into the rotating ring 109, and one end of the threaded rod 110, which is far away from the inner bottom of the supporting column 103, is rotatably connected to the bottom of the lifting column 104 through the bearing 111, so as to drive the lifting column 104 to slide in the supporting column 103, thereby lifting.

Further, each driving member 106 includes a rotation shaft 113, a hand wheel 114, and a transmission gear 115, the rotation shaft 113 is rotatably connected to a side surface of the support column 103, the transmission gear 115 is disposed at an end of the rotation shaft 113 located inside the support column 103, the hand wheel 114 is disposed at an end of the rotation shaft 113 located outside the support column 103, and the transmission gear 115 is meshed with the driven gear 112.

In this embodiment, the hand wheel 114 is rotated, and the transmission gear 115 is driven to rotate by the rotation shaft 113, so that the rotation ring 109 is driven to rotate on the annular plate 108 due to the engagement of the transmission gear 115 with the driven gear 112.

Further, each lifting column 104 includes a column 116 and two sliding plates 117, each sliding slot 118 is disposed on two sides of the interior of each supporting column 103, the sliding plates 117 are fixedly disposed on two sides of the column 116, and the sliding plates 117 are adapted to the sliding slots 118.

In this embodiment, since the sliding grooves 118 are formed on both sides of the inner portion of the supporting column 103, the sliding plates 117 are formed on both sides of the column 116, and the sliding plates 117 slide in the sliding grooves 118, so that the lifting column 104 is slidably connected with the supporting column 103.

Further, each of the rotating rings 109 includes a ring body 119 and two limiting rings 120, the ring body 119 penetrates through the annular plate 108, two limiting rings 120 are disposed outside the ring body 119, and the two limiting rings 120 are located on the upper surface and the lower surface of the annular plate 108 respectively.

In this embodiment, the ring 119 penetrates through the annular plate 108, two limiting rings 120 are disposed outside the ring 119, and the two limiting rings 120 are located on two sides of the annular plate 108, so that the structure is more stable when the rotating ring 109 rotates on the annular plate 108.

Further, an annular groove 121 is disposed on a surface of each of the limiting rings 120, which is close to the annular plate 108, and a plurality of balls 122 are disposed inside each annular groove 121.

In this embodiment, since the annular groove 121 is provided on each of the stop rings 120, a plurality of balls 122 are provided inside the annular groove 121, so that the rotation of the rotation ring 109 on the annular plate 108 is smoother.

Further, each supporting column 103 is arranged in a hollow structure, a mounting ring 123 is arranged at the bottom of each supporting column 103, and the mounting rings 123 are detachably connected with the base 102.

In this embodiment, since the support column 103 has a hollow structure, the lifting mechanism 105 may be installed inside the support column 103 through the bottom of the support column 103, and the mounting ring 123 may be fixed to the base 102 by screws, thereby fixing the support column 103 to the base 102.

Further, each placing plate 107 includes a plate body 124, a telescopic rod 125 and a clamping plate 126, where the plate body 124 is fixedly connected with the lifting column 104 and located at the top of the lifting column 104, the telescopic rods 125 are disposed on two sides of the plate body 124, one end of the telescopic rod 125, which is far away from the plate body 124, is provided with the clamping plate 126, and the clamping plate 126 is adapted to a bottom clamping groove of a tile to be laid.

In this embodiment, since the telescopic rods 125 are disposed on two sides of the plate 124, when the tile is laid, the length of the telescopic rods 125 can be adjusted according to the size of the tile to be laid, so that tiles with different sizes can be spliced on the placing plate 107, and the applicability is stronger.

Further, each of the expansion rods 125 includes a first rod 127, a second rod 128 and an expansion spring 129, one end of the first rod 127 is detachably connected to the side surface of the plate 124, the other end of the first rod 127 is slidably provided with the second rod 128, one end of the second rod 128 away from the first rod 127 is detachably connected to the clamping plate 126, the expansion spring 129 is fixedly arranged in the first rod 127, and one end of the second rod 128 located in the first rod 127 is connected to the expansion spring 129.

In this embodiment, since the telescopic rod 125 is composed of the first rod 127, the second rod 128 and the telescopic spring 129, the length of the telescopic rod 125 is variable under the action of the telescopic spring 129, so as to adapt to tiles to be paved with different sizes.

Further, a first connecting block 130 is disposed at an end of the first rod 127 near the plate 124, a second connecting block 131 is disposed at an end of the second rod 128 near the clamping plate 126, the first connecting block 130 is detachably connected with the plate 124, and the second connecting block 131 is detachably connected with the clamping plate 126.

In the present embodiment, the first connection block 130 is fixed to the side surface of the plate body 124 by a screw, and the second connection block 131 is fixed to the clamping plate 126 by a screw, thereby completing the installation of the telescopic rod 125.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims (7)

1. An indoor decoration floor tile laying structure is characterized in that,

including a plurality of fixed bolster, a plurality of the fixed bolster is evenly laid subaerial in blank room, every the fixed bolster all includes base, support column, lifting column, elevating system, driving piece and places the board, the last fixed surface of base is connected with the support column, the lifting column with support column sliding connection, and be located the lifting column is kept away from the one end of base, the lifting column is kept away from the one end of support column is provided with place the board, place the concatenation on the board and wait to lay the ceramic tile, the inside of support column still is provided with elevating system, elevating system is used for driving the lifting column is in slide on the support column, the side of support column still is provided with the driving piece, the output of driving piece with elevating system mechanical transmission.

2. The indoor decoration tile construction structure according to claim 1, wherein,

every elevating system all includes annular plate, swivel becket and threaded rod, annular plate fixed mounting is in the inside of support column, the center department rotation of annular plate is connected with the swivel becket, the inside threaded connection of swivel becket has the threaded rod, the threaded rod is kept away from the one end of the interior bottom of support column is rotated through the bearing and is connected the bottom of lift post, the outside of swivel becket is provided with driven gear, the output of driving piece with driven gear mechanical transmission.

3. The indoor decoration tile construction structure according to claim 2, wherein,

every the driving piece all includes axis of rotation, hand wheel and drive gear, the axis of rotation with the side rotation of support column is connected, the axis of rotation is located the one end of the inside of support column is provided with drive gear, the axis of rotation is located the one end of the outside of support column is provided with the hand wheel, drive gear with driven gear meshes mutually.

4. The indoor decoration tile construction structure according to claim 1, wherein,

every the lift post all includes cylinder and two sliding plates, every the inside both sides of support column all are provided with the spout, the both sides of cylinder are all fixed to be provided with the sliding plate, the sliding plate with spout looks adaptation.

5. The indoor decoration tile construction structure according to claim 2, wherein,

each rotating ring comprises a ring body and two limiting rings, the ring body penetrates through the annular plate, two limiting rings are arranged outside the ring body, and the two limiting rings are respectively located on the upper surface and the lower surface of the annular plate.

6. The indoor decorative floor tile structure of claim 5,

an annular groove is formed in one surface, close to the annular plate, of each limiting ring, and a plurality of balls are arranged in each annular groove.

7. The indoor decoration tile construction structure according to claim 1, wherein,

every the support column all is hollow structure setting, every the bottom of support column all is provided with the collar, the collar with the base dismantles to be connected.