CN113802820B

CN113802820B - Using method of surface leveling device for floor tiles with different thicknesses

Info

Publication number: CN113802820B
Application number: CN202111125049.6A
Authority: CN
Inventors: 姚雪儒
Original assignee: Chongqing Industry Polytechnic College
Current assignee: Chongqing Industry Polytechnic College
Priority date: 2021-09-25
Filing date: 2021-09-25
Publication date: 2022-09-16
Anticipated expiration: 2041-09-25
Also published as: CN113802820A

Abstract

The use method of the surface leveling device of the floor tiles with different thicknesses is characterized by comprising the following steps: step one, preparation work: identifying elevation lines and longitude and latitude lines for installing the floor tiles; step two, paving floor tiles: paving floor tiles consistent with the direction of the straight wall surface or the straight road edge by taking the corner of the longest straight wall surface or straight road edge as the starting point for paving the first floor tile; step three, paving reference floor tiles: accurately installing and positioning the reference floor tiles according to the preset elevation lines and the positions of the longitude and latitude lines; fourthly, paving adjacent floor tiles and leveling: embedding a hook head below the lifting head below the reference floor tile, placing the lifting head between the two floor tiles, inserting a wedge head into a gap between the two pull pieces, and extruding inwards; and repeating the fourth step until the floor bricks are laid. And fifthly, dismantling the lifting head and processing the floor tile gap. The technical scheme can be used for carrying out surface leveling construction on floor tiles with different thicknesses.

Description

Using method of surface leveling device for floor tiles with different thicknesses

Technical Field

The invention relates to the technical field of architectural decoration, in particular to a use method of a surface leveling device for floor tiles with different thicknesses.

Background

In the building decoration engineering, it is necessary to lay the floor tiles, and in the course of laying the floor tiles, it is necessary to use a floor tile leveling device to make the surfaces of two adjacent floor tiles be on the same plane. In addition, a gap should be left between two adjacent floor tiles, and the gap needs to be filled with marble glue after the floor tiles are laid and attached.

To ensure that floor tile construction is quick and smooth, a floor tile screed is typically used. However, the base and the pull piece below the leveling device in the prior art are in a T shape, even if the thicknesses of two adjacent floor tiles are the same, if the mortar below has larger particles, and when the larger particles are included between the base and the floor tile, the surface height of the floor tile is higher than that of the other floor tile, and the surface heights of the two floor tiles are difficult to level.

In the indoor decoration engineering, for the personalized demand, often need to carry out the parquet construction to the floor brick of more than two different brands, if the difference of thickness of different brand floor bricks is great, the floor brick of prior art ware of making level just can't use.

When the floor tiles with large thickness difference are constructed, the fine leveling of the surface of the floor tiles is difficult, and the device and the construction method for leveling the floor tiles with large thickness difference are necessary.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a use method of a surface leveling device for floor tiles with different thicknesses.

The use method of the surface leveling device of the floor tiles with different thicknesses is characterized by comprising the following steps;

step one, preparation work:

1) determining the width of a gap for installing the floor tiles, and selecting a gasket with corresponding thickness to clamp the side surface of the pull tab below the pulling head to be used;

2) tamping and leveling an area where the floor tiles are to be laid, achieving the basic requirement of laying the floor tiles, installing a high-precision highlight infrared ray floor tile laser striping instrument to project a display height line and a longitude and latitude line so as to assist in laying the floor tiles, and if the high-precision highlight infrared ray floor tile laser striping instrument is not available, adopting a traditional method to perform striping and marking the display height line and the longitude and latitude line of the floor tile installation;

3) marking a datum line for paving the surface of the ground brick on the edge of the area where the ground brick is to be paved; if the edge is an object with the height higher than the installation height of the floor tiles, such as a wall body, a road edge or a stair step, marking height line marks of the installation height of the floor tiles on the object; if the edge is lower than the height of the floor tiles after being laid, wood wedges are adopted for piling, and a stay wire marks the height line indication mark of the surface mounting height of the floor tiles;

4) marking the elevation lines and the longitude and latitude lines laid on the floor tiles by using a high-precision highlight infrared ray floor tile laser striping instrument at the edge of a straight wall surface or a straight edge as a reference, and popping up the elevation lines and the longitude and latitude line marks of the tiles by adopting a traditional method if the high-precision highlight infrared ray floor tile laser striping instrument is not used;

step two, setting the laying position of the reference floor tile:

1) taking the corner of the longest straight wall surface or straight road edge as a starting point for paving the first floor tile;

2) the floor tiles which are consistent with the direction of the straight wall surface or the straight road are laid along the longest straight wall surface or the straight road, so that the cutting of the floor tiles caused by the change of edges can be reduced;

step three, paving reference floor tiles:

accurately installing and positioning the benchmark floor tiles (the floor tiles which are installed first and used as leveling references of other floor tiles) according to the preset elevation lines and the positions of the longitude and latitude lines, and curing cement mortar under the floor tiles for about hours;

fourthly, paving adjacent floor tiles and leveling:

1) ensuring the edges of the reference floor tiles to be clean and free of dirt, respectively placing at least two lifting heads beside the edges of the floor tiles adjacent to the edges of the reference floor tiles and other floor tiles, and placing three or more lifting heads if the side length of the floor tiles exceeds a centimeter;

2) equally dividing the edge length of the reference floor tile according to the number of the lifting heads, and respectively placing the lifting heads in the middle of one equally divided edge;

3) embedding any one of the first hook head and the second hook head below the lifting head below the reference floor tile, and enabling the pull piece to lean against the edge of the reference floor tile;

4) after sand and ash are scraped from the lower part of another floor tile, the floor tile is aligned with the edge of the reference floor tile, and meanwhile, the floor tile is attached to the ground by referring to the elevation line and the longitude and latitude lines, so that the lifting head is positioned between the two floor tiles, and the width dimension of the gap between the two floor tiles is equal to the thickness dimension of the pulling piece;

5) if the surface of the floor tile is higher than the reference floor tile, the raised part is hit by a rubber installation hammer to lower the height of the floor tile;

6) if the surface of the floor tile is lower than the reference floor tile, the wedge is placed on the reference floor tile, the head of the wedge is inserted into a gap between the two pulling pieces and is extruded inwards, and the cutting edge below the pulling head is contacted with the small limiting groove;

7) a constructor stands on the reference floor tile, beats the tail part of the wedge to enable the small limiting groove to move forward continuously, and plays a role of extruding the cutting edge upwards to lift the first hook head and the second hook head upwards so as to achieve the purpose of raising the installation height of the floor tile;

8) if the thickness of the floor tile being installed is smaller than that of the installed floor tile, the trepanning of the pulling piece is required to be sleeved on the lifting head and is abutted against the cutting edge;

9) placing the push block on the protective sheet, and placing the pull sheet on the push block;

10) inserting a flat plug of a wrench into the large limiting groove through the sleeve hole;

the wrench is pulled backwards, the wedge is enabled to move forwards continuously by utilizing the lever principle, and the lifting belt drives the first hook head and the second hook head to rise continuously;

11) when one hook head is blocked by the floor tiles with large thickness and the height of the lifting head is continuously raised, the hook head blocked by the floor tiles with large thickness can deform, and the other hook head can drive the thinner floor tile to continuously raise the height until the heights of the two rotary surfaces are leveled to be consistent;

12) leaving the wedge in the gap between the two tabs;

repeating the fourth step until the floor bricks are laid

Step five, dismantling the puller, and processing the ground brick gap:

1) after all the floor tiles are installed and leveled, waiting for the mortar below the floor tiles to be completely cured;

2) striking the pulling head along the direction of the gap of the floor tile by using a rubber hammer to break the pulling piece at the opening until the pulling head is separated from the first hook head and the second hook head below;

3) cleaning all the pull heads, cleaning the surface of the floor tile, and sucking dust in the gaps of the floor tile by using a dust collector;

4) filling epoxy resin, also called as a joint beautifying agent, in gaps among the floor tiles by using a glue injection gun;

5) riding the two ceramic tiles by using a scraper to carry out strickling treatment on the epoxy resin filled in the gaps of the floor tiles;

6) after the epoxy resin is completely cured, a scraper knife is used for riding on the gaps of the ceramic tiles to scrape off the epoxy resin which affects the appearance, and the construction is finished.

The beneficial effects of the above technical scheme are that: the hook-shaped lifting head is utilized, when the hook-shaped lifting head is pulled upwards, the hook-shaped lifting head can deform differently to different resistances, and the aim of leveling floor tiles with different thicknesses is fulfilled; the bevel edge in front of the trepanning is matched with the bevel edge of the lower part of the pulling head, so that the pulling piece can be hung below the pulling head, and a wrench can conveniently push the wedge into the lower part of the pulling head to force the pulling head to lift; the protective plate arranged below the rear part of the wedge can prevent the wedge from touching the floor tiles when the wedge is knocked, and has good protective effect on the floor tiles; the pulling piece sleeved on the pulling head is pulled by using a wrench to pull the wedge, so that the lifting height of the pulling head can be finely adjusted conveniently; the thickened piece is clamped on the pulling piece, and can be used as a gasket for reserving gaps between floor tiles while adjusting the flatness of the surfaces of the floor tiles with different thicknesses, so that the lifting head realizes multiple functions.

Preferably, as a preferred mode of the basic mode, the size of the front end height of the push block is the same as the difference obtained by subtracting the thickness of the protection sheet from the size of the rear end height of the wedge.

Preferably, as a preferred aspect of the first preferred aspect, the length dimension of the pull tab is at least 10mm greater than the thickness dimension of the thick floor tile; the thickness dimension of the sheet is about 0.5 mm.

Preferably, the cutting edge below the lifting head can be placed in the small limiting groove.

Preferably, the width of the wedge is smaller than the distance between the two pull tabs.

Preferably, in a fifth aspect, as a preferred aspect of the fourth aspect, the lifting head, the pulling piece, the first hook head and the second hook head are integrated and made of a PP material with high toughness; the pulling-on piece, spanner adopt the PP material that has high tenacity to make, wedge, ejector pad adopt high tenacity PVC material to make.

Preferably, scheme six, as basic scheme or the preferred scheme of preferred scheme five, the draw-in groove has been seted up to one side of thickening piece, and the thickness of pulling-on piece matches with the opening of draw-in groove, and the thickening piece can press from both sides the side use at the pulling-on piece to change and control the ground and change the gap width between changeing.

Drawings

FIG. 1 is a schematic view of the construction of the components of the present invention;

FIG. 2 is a schematic view of floor tiles of different leveling thicknesses according to the present invention (the positions of the various components are shown by the floor tiles of different leveling thicknesses, and when the pull tab is pulled upward under the combined action of the pull tab and the wedge, the first hook head and the second hook head are in different deformation states due to the blocking of the floor tiles of different thicknesses);

FIG. 3 is a schematic view of the position of the various components of the present invention at the end of leveling floor tiles of different thicknesses;

fig. 4 is a schematic view of the floor tile of the present invention after the floor tile of different leveling thickness is leveled, the contact position of the floor tile and the leveling component is cut open (when the lifting head is lifted upwards under the combined action of the pulling piece and the wedge, the first hook head and the second hook head are in different deformation states due to the blocking of the floor tile of different thickness).

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the novel floor tile comprises a lifting head 10, a lifting head through hole 11, a small pulling piece 12, an opening 13, a first hook head 14, a second hook head 15, a cutting edge 16, a gasket 17, a clamping groove 18, a wedge 20, a small limiting groove 21, a wedge head 22, a protective sheet 23, a pushing block 30, a large limiting groove 31, a large pulling piece 40, a pulling piece head 41, a sleeve hole 42, a pulling strip-shaped hole 43, a circular hole 44, a wrench 50, a wrench through hole 51, an inserted bar 52, a flat plug 53, a thin floor tile 60 and a thick floor tile 70.

Examples

The use method of the surface leveling device of the floor tiles with different thicknesses is characterized by comprising the following steps:

step one, preparation work:

1) determining the width of a gap for installing the floor tiles, and if the gap between the floor tiles is required to be larger than the thickness of the small pull tab 12 below the lifting head 10, selecting a gasket 17 with corresponding thickness to clamp the gasket on the side surface of the small pull tab 12 below the lifting head 10 to be used;

selecting a gasket 17 with corresponding thickness to clamp the side surface of the small pulling piece 12 below the lifting head 10 to be used;

2) tamping and leveling an area where the floor tiles are to be laid, achieving the basic requirement of laying the floor tiles, installing a high-precision highlight infrared ray floor tile laser striping instrument to project a display height line and a longitude and latitude line so as to assist in laying the floor tiles, and if the high-precision highlight infrared ray floor tile laser striping instrument is used, adopting a traditional method to perform striping and marking the display height line and the longitude and latitude line of the floor tile installation;

the floor tile surface leveling device has the following specific structure:

as shown in fig. 1-4, the leveling device comprises a lifting head 10, a wedge 20, a push block 30, a large pull tab 40 and a wrench 50; the novel zipper is characterized in that a zipper head through hole 11 is formed in the upper end of the zipper head 10, small zipper pieces 12 are arranged below the zipper head 10, and a cutting edge 16 is arranged between the two small zipper pieces 12 below the zipper head 10; an opening 13 is arranged on the lower side surface of the small pulling piece 12, and a first hook head 14 and a second hook head 15 are connected to the lower surface of the small pulling piece 12; the outer ends of the first hook head 14 and the second hook head 15 are inclined upwards, and the angle formed between the top surfaces of the first hook head and the second hook head 15 and the vertical surface of the small pull tab 12 is about 60 degrees; one side of the thickened piece 17 is provided with a clamping groove 18, the thickness of the small pulling piece 12 is matched with the opening of the clamping groove 18, the thickened piece 17 can be clamped on the side face of the small pulling piece 12 for use, the upper surface of the wedge 20 is an inclined surface, a small limiting groove 21 is arranged on the inclined surface, the front end of the wedge 20 is provided with a wedge head 22, and a protection plate 23 is arranged below the rear end of the wedge 20; a large limiting groove 31 is arranged on the push block 30; the front end of the large pulling piece 40 is provided with a pulling piece head 41, a sleeve hole 42 is arranged in the pulling piece head 41, and the length and width of the sleeve hole 42 are larger than the length and thickness of the lifting head 10; a strip-shaped hole 43 is formed in the middle of the large pull piece 40, and a circular hole 44 is formed in the rear end of the large pull piece 40; a wrench through hole 51 is formed in the middle of the wrench 50, an insertion rod 52 is arranged below the wrench 50, and a flat plug 53 is arranged at the lower end of the insertion rod 52; the insert rod 52 can be inserted into the strip-shaped hole 43, and the width dimension of the strip-shaped hole 43 is 2 times the thickness dimension of the insert rod 52.

Step two, setting the laying position of the reference floor tile:

2) the floor tiles which are consistent with the direction of the straight wall surface or the straight road are laid along the longest straight wall surface or the straight road, so that the cutting of the floor tiles caused by the change of the edges can be reduced.

Step three, paving reference floor tiles:

the reference floor tiles (floor tiles which are installed first and used as leveling references of other floor tiles) are accurately installed and positioned according to the positions of the preset elevation lines and longitude and latitude lines, and cement mortar under the floor tiles is solidified for more than 2 hours.

Fourthly, paving adjacent floor tiles and leveling:

1) ensuring the edges of the reference floor tiles to be clean and free from dirt, respectively placing at least two lifting heads 10 beside the edges of the floor tiles adjacent to the edges of the reference floor tiles and other floor tiles, and placing three or more lifting heads 10 if the side length of the floor tiles exceeds 80 cm;

2) equally dividing the edge length of the reference floor tile according to the number of the lifting heads 10, and respectively placing the lifting heads 10 at the middle position of one equally divided edge;

3) embedding any one of the first hook head 14 and the second hook head 15 below the lifting head 10 below the reference floor tile, and enabling the small pull tab 12 to lean against the edge of the reference floor tile;

4) after sand and ash are scraped from the lower part of another floor tile, the floor tile is aligned with the edge of a reference floor tile, and meanwhile, the floor tile is attached to the ground by referring to the elevation line and the longitude and latitude lines, so that the lifting head 10 is positioned between the two floor tiles, and the width dimension of a gap between the two floor tiles is equal to the thickness dimension of the small pulling piece 12;

6) if the surface of the floor tile is lower than the reference floor tile, the wedge 20 is placed on the reference floor tile, the wedge head 22 is inserted into the gap between the two small pull tabs 12 and is extruded inwards, so that the cutting edge 16 below the lifting head 10 is contacted with the small limiting groove 21;

7) a constructor stands on the reference floor tile, beats the tail part of the wedge 20 to make the small limiting groove 21 continuously move forward to extrude the cutting edge 16 upwards, and lifts the first hook head 14 and the second hook head 15 upwards to achieve the purpose of lifting the installation height of the floor tile;

8) if the thickness of the floor tile being installed is less than the thickness of the installed floor tile, the trepanning 42 of the large pull tab 40 needs to be sleeved on the lifting head 10 and the trepanning 42 is abutted against the cutting edge 16;

9) placing the push block 30 on the protective sheet 23, and placing the large pull tab 40 on the push block 30;

10) inserting the flat plug 53 of the wrench 50 into the large limiting groove 31 through the trepan boring 42;

the wrench 50 is pulled backwards, the wedge 20 is continuously moved forwards by utilizing the lever principle, and the lifting head 10 drives the first hook head 14 and the second hook head 15 to be continuously lifted;

1) when one hook head is blocked by the floor tiles with large thickness and the height of the lifting head 10 is continuously raised, the hook head blocked by the floor tiles with large thickness can deform, and the other hook head can drive a thinner floor tile to continuously raise the height until the heights of the two rotary surfaces are leveled to be consistent;

12) leaving the wedge 20 in the gap between the two small tabs 12;

and repeating the fourth step until the floor bricks are laid.

Step five, dismantling the puller, and processing the ground brick gap:

2) striking the lifting head 10 along the direction of a floor tile gap by using a rubber hammer to break the small pulling piece 12 at the opening 13 until the lifting head 10 is separated from the first hook head 14 and the second hook head 15 below;

3) cleaning all the lifting heads 10, cleaning the surface of the floor tile, and sucking dust in the gaps of the floor tile by using a dust collector;

4) filling epoxy resin, namely a joint beautifying agent, in gaps among the floor tiles by using a glue injection gun;

The above are merely examples of the present invention, and common general knowledge of known specific structures and characteristics in the schemes is not described herein. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. The use method of the surface leveling device of the floor tiles with different thicknesses comprises a lifting head (10), a wedge (20), a push block (30), a large pull piece (40), a wrench (50) and a gasket (17); a lifting head through hole (11) is formed in the upper end of the lifting head (10), small pulling pieces (12) are arranged below the lifting head (10), and a cutting edge (16) is arranged between the two small pulling pieces (12) below the lifting head (10); an opening (13) is arranged on the side surface below the small pulling piece (12), and a first hook head (14) and a second hook head (15) are connected below the small pulling piece (12); the outer ends of the first hook head (14) and the second hook head (15) incline upwards, and the angle formed between the top surfaces of the first hook head and the second hook head (15) and the vertical surface of the small pull tab (12) is 60 degrees; one side of the gasket (17) is provided with a clamping groove (18), the thickness of the small pulling piece (12) is matched with the opening of the clamping groove (18), the gasket (17) can be clamped on the side surface of the small pulling piece (12) for use, the upper surface of the wedge (20) is an inclined surface, a small limiting groove (21) is arranged on the inclined surface, the front end of the wedge (20) is provided with a wedge head (22), and a protection sheet (23) is arranged below the rear end of the wedge (20); a large limiting groove (31) is arranged on the push block (30); the front end of the large pulling piece (40) is provided with a pulling piece head (41), a sleeve hole (42) is formed in the pulling piece head (41), and the length and width of the sleeve hole (42) are larger than those of the lifting head (10); a strip-shaped hole (43) is formed in the middle of the large pull piece (40), and a circular hole (44) is formed in the rear end of the large pull piece (40); a wrench through hole (51) is formed in the middle of the wrench (50), an insertion rod (52) is arranged below the wrench (50), and a flat plug (53) is arranged at the lower end of the insertion rod (52); the inserted rod (52) can be inserted into the strip-shaped hole (43), and the width of the strip-shaped hole (43) is 2 times of the thickness of the inserted rod (52);

the use method comprises the following steps of,

step one, preparation work:

1) determining the width of a gap for installing the floor tiles, and if the gap between the floor tiles is required to be larger than the thickness of a small pull tab (12) below a lifting head (10), selecting a gasket (17) with corresponding thickness to clamp the side surface of the small pull tab (12) below the lifting head (10) to be used;

3) marking the reference line of the floor brick on the edge of the area where the floor brick is to be laid; if the edge is an object with the height higher than the installation height of the floor tiles, marking the object with height line marks of the installation height of the floor tiles; if the edge is lower than the height of the floor tiles after being laid, wood wedges are adopted for piling, and a stay wire marks the height line indication mark of the surface mounting height of the floor tiles;

step two, setting the laying position of the reference floor tile:

step three, paving reference floor tiles:

accurately installing and positioning the reference floor tiles according to the preset positions of elevation lines, longitude and latitude lines, and curing cement mortar under the floor tiles for 2 hours;

fourthly, paving adjacent floor tiles and leveling:

1) ensuring the edges of the reference floor tiles to be clean and free from dirt, respectively placing at least two lifting heads (10) beside the edges of the floor tiles adjacent to the edges of the reference floor tiles and other floor tiles, and placing more than three lifting heads (10) if the side length of the floor tiles exceeds 80 cm;

2) dividing the edge length of the reference floor tile into equal parts according to the number of the lifting heads (10), and respectively placing the lifting heads (10) at the middle position of one of the equally divided edges;

3) any one of a first hook head (14) and a second hook head (15) below the lifting head (10) is embedded below the reference floor tile, and the small pull tab (12) is abutted against the edge of the reference floor tile;

4) after sand and ash are scraped from the lower part of another floor tile, the lower part of the other floor tile is aligned with the edge of a reference floor tile, and meanwhile, the floor tile is attached to the ground by referring to the elevation line and the longitude and latitude lines, so that the pulling head (10) is positioned between the two floor tiles, and the width dimension of a gap between the two floor tiles is equal to the thickness dimension of the small pulling sheet (12);

6) if the surface of the floor tile is lower than the reference floor tile, the wedge (20) is placed on the reference floor tile, the wedge head (22) is inserted into a gap between the two small pulling pieces (12) and is pressed inwards, and the cutting edge (16) below the pulling head (10) is contacted with the small limiting groove (21);

7) a constructor stands on the reference floor tile, beats the tail part of the wedge (20), enables the small limiting groove (21) to move forwards continuously, starts to extrude the cutting edge (16) upwards, and lifts the first hook head (14) and the second hook head (15) upwards to achieve the purpose of lifting the installation height of the floor tile;

8) if the thickness of the floor tile being installed is less than that of the installed floor tile, the trepanning (42) of the large pull piece (40) is required to be sleeved on the lifting head (10) and the trepanning (42) is abutted against the cutting edge (16);

9) placing a push block (30) on the protective sheet (23), and placing a large pull tab (40) on the push block (30);

10) inserting a flat plug (53) of a wrench (50) into the large limiting groove (31) through the strip-shaped hole (43);

the wrench (50) is pulled backwards, the wedge (20) is enabled to move forwards continuously by utilizing the lever principle, and the puller head (10) drives the first hook head (14) and the second hook head (15) to rise continuously;

11) when one hook head is blocked by the floor tiles with large thickness and the height of the lifting head (10) is continuously raised, the hook head blocked by the floor tiles with large thickness can deform, and the other hook head can drive the thinner floor tile to continuously raise the height until the surface heights of the two floor tiles are leveled to be consistent;

12) allowing the wedge (20) to remain in the gap between the two small tabs (12);

repeating the fourth step until the floor bricks are laid;

step five, dismantling the puller, and processing the ground brick gap:

2) striking the lifting head (10) along the direction of a gap of the floor tile by using a rubber hammer to break the small pulling piece (12) at the opening (13) until the lifting head (10) is separated from the first hook head (14) and the second hook head (15) below;

3) cleaning all the lifting heads (10), cleaning the surface of the floor tile, and sucking dust in the gaps of the floor tile by using a dust collector;

4) filling epoxy resin in gaps among the floor tiles by using a glue injection gun;

5) using a scraper to ride on the two floor tiles to carry out strickling treatment on the epoxy resin filled in the gaps of the floor tiles;

6) after the epoxy resin is completely cured, a scraper knife is used for riding on the floor tile gap to scrape off the epoxy resin which influences the appearance, and the construction is finished.

2. The use method according to claim 1, wherein the height of the front end of the push block (30) is equal to the height of the rear end of the wedge (20) minus the thickness of the protective sheet (23).

3. The method of use of claim 1 wherein the small pull tab (12) has a length dimension that is at least 10mm greater than the thickness dimension of the thick floor tile (70).

4. Use according to claim 1, characterized in that the small tab (12) has a thickness dimension of 0.5 mm.

5. Use according to claim 1, characterized in that the width dimension of the wedge (20) is smaller than the dimension between the spacing of two small tabs (12).

6. Use according to claim 1, characterized in that the lifting tab (10), the small pull tab (12), the first hook head (14) and the second hook head (15) are one piece, made of PP material with high toughness.

7. The use method according to claim 1, characterized in that the large pull tab (40) and the wrench (50) are made of PP material with high toughness.

8. The use method according to claim 1, characterized in that the wedge (20) and the push block (30) are made of high-toughness PVC material.