CN112982917B

CN112982917B - Construction method for laying floor tiles for building decoration

Info

Publication number: CN112982917B
Application number: CN202110226826.XA
Authority: CN
Inventors: 邹鸿
Original assignee: Shanghai Changpu Construction Engineering Co ltd
Current assignee: Shanghai Changpu Construction Engineering Co ltd
Priority date: 2021-03-01
Filing date: 2021-03-01
Publication date: 2022-04-19
Anticipated expiration: 2041-03-01
Also published as: CN112982917A

Abstract

The invention discloses a construction method for paving floor tiles for building decoration, which comprises the steps of clamping a feed hopper on a feed chute of paving equipment by using a first buckle and a second buckle, sequentially putting the floor tiles into the feed hopper, enabling the floor tiles to enter the inside of a sealed box body through the feed hopper, starting a first electric push rod by a user, enabling the first electric push rod to drive a movable push plate to reciprocate, pushing the floor tiles by using the movable push plate, enabling the floor tiles to transversely move in the sealed box body, enabling one end of each floor tile to be in contact with a buffer plate of an expansion plate after one group of floor tiles are arranged in the sealed box body, and enabling the expansion plates to move towards the inner sides of elastic clamping seats by using four groups of spring columns between the expansion plates and the elastic clamping seats; the working efficiency of the construction method for paving the building decoration floor tiles is effectively improved, so that the whole row of floor tiles can be paved at one time, meanwhile, the floor tiles are effectively prevented from inclining in the paving process, and the using effect of the construction method for paving the building decoration floor tiles is improved.

Description

Construction method for laying floor tiles for building decoration

Technical Field

The invention belongs to the technical field of floor tile laying construction, and particularly relates to a floor tile laying construction method for building decoration.

Background

The floor tile is a kind of ground decoration material, also called floor tile, and is made up by firing clay, and its specification is various, quality is strong, pressure-resisting and wear-resisting, and can resist moisture, and some floor tiles are glazed, so that it possesses the decorative function, and can be extensively used for floor and floor of public building and civil building.

The reference CN104818826B discloses an adjustable mortar-free floor tile and a paving method thereof, which aims to provide an adjustable mortar-free floor tile and a paving method thereof, wherein the adjustable mortar-free floor tile comprises a floor tile body, and a plurality of downward protrusions are arranged on the back surface of the floor tile body at intervals; the support assembly comprises a cylinder body, an easily-broken and fragile container, an end cover and support legs, wherein the upper end of the cylinder body is connected with the bulge, the lower end of the cylinder body is provided with an opening, the inner part of the cylinder body is provided with a cavity, the easily-broken and fragile container is placed in the cavity of the cylinder body, glue is filled in the easily-broken and fragile container, the end cover is arranged at the opening of the cylinder body, the support legs penetrate through the end cover and are supported on the ground, and the upper end of the support legs is placed in the cavity of the cylinder body and can move along the cavity of the cylinder body; the support legs are arranged at the upper end of the cylinder body and provided with pistons matched with the cavity of the cylinder body, and the support legs are provided with through holes penetrating through the upper end and the lower end along the central axis of the support legs.

The existing construction finishing floor tile laying construction method has certain disadvantages in the operation process, when a user carries out floor tile laying operation through the traditional construction finishing floor tile laying construction method, the user needs to manually place each floor tile to align the corners of each group of floor tiles, so that the integral floor tile laying operation is finished, the operation steps of the user are increased, meanwhile, the technical influence of the user is caused, the floor tiles are easy to incline in the laying process, and the work efficiency and the floor tile laying effect of the construction finishing floor tile laying construction method are reduced; meanwhile, the traditional construction method for paving the floor tiles for building decoration is easy to crack in the operation process, increases the loss in the floor tile paving operation, and cannot perform auxiliary protection operation on the floor tiles, so that the construction method for paving the floor tiles for building decoration is provided at present.

Disclosure of Invention

In order to overcome the defects that when a user carries out floor tile laying operation by the traditional building decoration floor tile laying construction method, the user needs to manually place each floor tile and align the corners of each group of floor tiles, so that the integral floor tile laying operation is finished, the operation steps of the user are increased, meanwhile, the floor tiles are influenced by the user technology, the floor tiles are easy to incline in the laying process, and the working efficiency and the floor tile laying effect of the building decoration floor tile laying construction method are reduced; meanwhile, the traditional construction method for paving the floor tiles for building decoration is easy to crack in the operation process, increases the loss in the floor tile paving operation, and cannot perform auxiliary protection operation on the floor tiles, thereby providing the construction method for paving the floor tiles for building decoration.

The purpose of the invention is realized by the following technical scheme:

a construction method for laying floor tiles for building decoration comprises the following specific steps:

firstly, clamping a feed hopper on a feed chute of paving equipment by using a first buckle and a second buckle, sequentially placing floor tiles into the feed hopper, enabling the floor tiles to enter the inside of a sealed box body through the feed hopper, starting a first electric push rod by a user, driving a movable push plate to reciprocate by the first electric push rod, pushing the floor tiles by the movable push plate, enabling the floor tiles to transversely move in the sealed box body, enabling one end of each floor tile to be in contact with a buffer plate of an expansion plate after a group of floor tiles are arranged in the sealed box body, and enabling the expansion plate to move towards the inner side of an elastic clamping seat by using four groups of spring columns between the expansion plate and the elastic clamping seat, so as to enable the group of floor tiles to finish corner alignment operation in the sealed box body;

step two, a user starts a second electric push rod to enable the second electric push rod to drive a positioning clamping plate to be drawn out from the inside of the sealed box body, one group of floor tiles are matched with a movable rolling rod of the sealed box body and slide to a conveying belt of the sealed box body, the conveying belt is started to enable the conveying belt to drive one group of floor tiles to move, one group of floor tiles are discharged to the discharge inclined plate, the user pulls the fixing pull rod through a fixing sleeve to enable a fixing bottom plate of paving equipment to move under the action of a movable trundle, when the other group of floor tiles are discharged to the discharge inclined plate, one group of floor tiles on the discharge inclined plate are ejected out to enable the floor tiles to be paved on the ground, and paving operation of the floor tiles is completed in cooperation with movement of the fixing bottom plate;

and step three, the user rotates the positioning bolt to loosen the positioning bolt and the inner sleeve plate, pulls the sealing box body, takes the inner sleeve plate out of the inner side of the sealing box body, adjusts the use height of the sealing box body, rotates the discharging inclined plate by utilizing the rotating shaft of the sealing box body, adjusts the angle between the sealing box body and the discharging inclined plate, and meanwhile, when the discharging inclined plate moves, the movable pulley at the bottom of the discharging inclined plate is in rolling contact with the ground.

As a further technical scheme, the paving equipment comprises a sealing box body and a fixed bottom plate, wherein the sealing box body is fixedly arranged on the outer surface of the upper end of the fixed bottom plate, a supporting inclined plate is fixedly arranged between the sealing box body and the fixed bottom plate, the whole structure of the sealing box body is of a cuboid hollow structure, a butt-joint inserting plate is fixedly arranged in the middle of the lower end of the sealing box body, the sealing box body and the fixed bottom plate are fixedly butted through the butt-joint inserting plate, an inner sleeve plate is movably sleeved at the upper position of the inner side of the sealing box body, and the sealing box body and the inner sleeve plate are butted through a sliding chute.

As a further technical scheme of the invention, a positioning clamping plate is movably sleeved at the middle position of the inner surface of the sealing box body, a first electric push rod is movably sleeved at the upper part of the inner surface of the sealing box body, which is close to the positioning clamping plate, a movable push plate is movably installed on the outer surface of one end of the first electric push rod, an elastic clamping seat is fixedly installed at one side of the inner surface of the sealing box body, which is close to the movable push plate, a conveyor belt is movably installed at the lower part of the inner surface of the sealing box body, which is close to the positioning clamping plate, four groups of movable rolling rods are movably installed at two sides of the inner surface of the sealing box body, which are close to the conveyor belt, and a side-rotating cover plate is movably installed at the front end of the sealing box body.

As a further technical scheme of the invention, a feeding groove is formed in the outer surface of the upper end of the sealing box body, a first buckle is fixedly installed on one side, close to the feeding groove, of the outer surface of the upper end of the sealing box body, a second buckle is fixedly installed on the other side, close to the feeding groove, of the outer surface of the upper end of the sealing box body, a feeding hopper is fixedly installed at the upper end of the sealing box body, the first buckle, the second buckle and the feeding hopper are all in butt joint through clamping grooves, and a fixed side box is fixedly installed on the outer surface of one side of the sealing box body.

As a further technical scheme, three groups of limiting buckles are fixedly mounted on one side, close to the positioning clamping plate, of the outer surface of the rear end of the sealing box body, two groups of second electric push rods are arranged on the outer surface of the bottom of the positioning clamping plate, the positioning clamping plate and the sealing box body are movably connected through the second electric push rods, a fixing clamp is fixedly mounted on the lower portion, close to the positioning clamping plate, of the outer surface of the rear end of the sealing box body, and the sealing box body and one end of the supporting inclined plate are fixedly connected in a butt joint mode through the fixing clamp.

As a further technical scheme of the invention, a discharging inclined plate is movably sleeved at the lower part of the sealing box body, the outer surface of the side edge of the discharging inclined plate is of an inclined surface structure, the inner sides of the two ends of the discharging inclined plate are respectively provided with a butt joint circular groove, the sealing box body and the butt joint circular grooves are in butt joint through a rotating shaft, the bottom of the discharging inclined plate is movably provided with a movable pulley, and the outer surface of the rear end of the discharging inclined plate is fixedly provided with a butt joint base plate.

As a further technical scheme of the invention, one end of the first electric push rod is movably provided with a movable push plate, the middle position of the outer surface of one side of the movable push plate is fixedly provided with a rotary clamping seat, and the outer surface of the other side of the movable push plate is fixedly provided with a second spongy cushion.

As a further technical scheme of the invention, a butt joint rotating shaft is movably sleeved on the inner side of the rotating clamping seat, the rotating clamping seat is movably connected with one end of the first electric push rod through the butt joint rotating shaft, and a rolling rod is movably mounted at the lower part of the movable push plate.

As a further technical scheme of the invention, four corners of the outer surface of the lower end of the fixed bottom plate are fixedly provided with movable casters, the rear end of the fixed bottom plate is movably provided with two groups of fixed pull rods, and the outer surface of the top end of each fixed pull rod is fixedly provided with a fixed sleeve handle.

As a further technical scheme of the invention, one end of the elastic clamping seat is movably provided with a buffer plate, the outer surface of one side of the buffer plate is fixedly provided with a first spongy cushion, the middle position of the outer surface of the other side of the buffer plate is fixedly provided with a telescopic plate, the buffer plate is movably connected with the elastic clamping seat through the telescopic plate, the outer surface of the side edge of the telescopic plate is fixedly provided with two groups of limiting clamping bolts, the telescopic plate is elastically connected with the elastic clamping seat through four groups of spring columns, and the inner side of the other end of the elastic clamping seat is sleeved with four groups of fixing bolts.

The invention has the beneficial effects that:

1. by arranging the positioning clamping plate and the movable push plate, when a user carries out floor tile paving operation by utilizing the building decoration floor tile paving construction method, the user can clamp the feed hopper on a feed chute of paving equipment by utilizing the first clamping buckle and the second clamping buckle, the floor tile feeding operation of the paving equipment is more convenient by additionally arranging the feed hopper, the user sequentially puts the floor tiles into the feed hopper, the floor tiles enter the sealed box body through the feed hopper, the user starts the first electric push rod to drive the movable push plate to reciprocate, the floor tiles are pushed by utilizing the movable push plate, meanwhile, the inclined structure of the movable push plate is adjusted by utilizing a butt joint rotating shaft between the first electric push rod and the movable push plate, the movable push plate can be correspondingly inclined and adjusted according to the side structure of the floor tiles, and therefore, the movable push plate can be suitable for floor tiles with different structures, the application range of the floor tile is widened, the floor tiles are transversely moved in the sealed box body by the movement of the movable push plate, a user repeatedly adds floor tiles into the sealed box body to align corners of a group of floor tiles in the sealed box body, the user starts the second electric push rod to drive the positioning clamping plate to be drawn out from the sealed box body, the positioning clamping plate can play an auxiliary fixing role on the floor tiles in the assembling process to prevent the floor tiles from moving downwards, a group of floor tiles are matched with the movable rolling rods of the sealed box body to slide to the conveying belt of the sealed box body, the friction force generated when the floor tiles at two ends fall can be reduced by the movable rolling rods to prevent the side edges of the floor tiles from being damaged, the user drives the group of floor tiles to move by starting the conveying belt, so that the group of floor tiles are discharged to the inclined discharge plate, and the user utilizes the fixing sleeve to pull the fixed pulling rods, the fixed bottom plate of the paving equipment is enabled to move under the action of the movable trundles, when another group of floor tiles are discharged to the discharge sloping plate, a group of floor tiles on the discharge sloping plate are ejected out, so that the floor tiles are paved on the ground, the assembled floor tiles are continuously discharged by matching with the movement of the fixed bottom plate, and the paving operation of the floor tiles is completed, thereby effectively improving the working efficiency of the construction method for paving the building decoration floor tiles, enabling the single time of the construction method to complete the paving operation of the whole row of floor tiles, effectively avoiding the inclination phenomenon of the floor tiles in the paving process, and improving the using effect of the construction method for paving the building decoration floor tiles.

2. By arranging the elastic clamping seat, when a user carries out floor tile paving operation by utilizing the building decoration floor tile paving construction method, the user can make one end of the floor tile contact with the buffer plate of the expansion plate after a group of floor tiles are arranged in the sealing box body, and make the expansion plate move towards the inner side of the elastic clamping seat by utilizing the four groups of spring columns between the expansion plate and the elastic clamping seat, so that an elastic buffer structure is formed between the expansion plate and the elastic clamping seat, the impact force when the floor tile moves is reduced, the floor tile in the sealing box body is buffered and protected, the floor tile is prevented from being cracked in the sealing box body, the corner aligning operation of the group of floor tiles in the sealing box body is completed, and the safety of the floor tile paving construction method for building decoration floor tile paving operation can be effectively improved and the floor tile is prevented from being cracked by utilizing the elastic clamping seat, reduce the consumption of the floor tiles and improve the use effect of the floor tiles.

3. By arranging the inner sleeve plate, when a user carries out floor tile paving operation by utilizing the building decoration floor tile paving construction method, the user can rotate the positioning bolt according to the size of the floor tile to loosen the positioning bolt and the inner sleeve plate, the user pulls the sealing box body to draw the inner sleeve plate out of the inner side of the sealing box body to adjust the use height of the sealing box body, so that the floor tiles with different heights can enter the sealing box body, the inner part of the sealing box body can complete the assembling operation of the floor tiles with different heights, the user carries out locking and fixing operation on the drawn inner sleeve plate by rotating the positioning bolt, simultaneously utilizes the rotating shaft of the sealing box body to rotate the discharge inclined plate to adjust the angle between the sealing box body and the discharge inclined plate, adjusts the output angle of the discharge inclined plate according to the floor tile structure, and simultaneously, when the discharge inclined plate moves, the movable pulley at the bottom of the discharge inclined plate is in rolling contact with the ground, the friction force when the bottom of the inclined material plate moves is reduced, and the arrangement of the inner sleeve plate is utilized, so that the construction method for paving the floor tiles for building decoration can be suitable for floor tile structures with different sizes, and the flexibility of the construction method during operation is improved.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is an overall configuration diagram of the assembling apparatus of the present invention.

Fig. 2 is an internal structure view of the sealed case of the present invention.

Fig. 3 is a rear end structural view of the sealed case of the present invention.

Fig. 4 is an overall structure view of the elastic clamping seat in the invention.

FIG. 5 is an overall view of the discharge chute of the present invention.

FIG. 6 is a plan view of a movable push plate according to the present invention

In the figure: 1. a discharge sloping plate; 2. fixing the bottom plate; 3. moving the caster; 4. supporting the inclined plate; 5. fixing a pull rod; 6. fixing the sleeve handle; 7. sealing the box body; 8. a side-spin cover plate; 9. a feed hopper; 10. fixing the side box; 11. A conveyor belt; 12. an elastic card holder; 13. positioning a clamping plate; 14. a first buckle; 15. a feed chute; 16. moving the push plate; 17. a second buckle; 18. a first electric push rod; 19. moving the rolling rod; 20. a limiting buckle; 21. Fixing the fixture; 22. butting plug boards; 23. positioning bolts; 24. an inner race plate; 25. a second electric push rod; 26. A fixing bolt; 27. a spring post; 28. a limiting clamping bolt; 29. a first foam-rubber cushion; 30. a retractable plate; 31. a buffer plate; 32. a movable pulley; 33. butting the circular grooves; 34. butt-jointing the base plates; 35. butting the rotating shafts; 36. a roll bar; 37. a second foam pad; 38. the cassette is rotated.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-6, a method for laying floor tiles for building decoration comprises the following steps:

firstly, clamping a feed hopper 9 on a feed chute 15 of paving equipment by using a first buckle 14 and a second buckle 17, sequentially putting floor tiles into the feed hopper 9, enabling the floor tiles to enter the inside of a sealed box body 7 through the feed hopper 9, starting a first electric push rod 18 by a user, enabling the first electric push rod 18 to drive a movable push plate 16 to reciprocate, pushing the floor tiles by using the movable push plate 16, enabling the floor tiles to transversely move in the sealed box body 7, enabling one end of each floor tile to be in contact with a buffer plate 31 of an expansion plate 30 after one group of floor tiles are arranged in the sealed box body 7, enabling the expansion plate 30 to move towards the inner side of the elastic clamping seat 12 by using four groups of spring columns 27 between the expansion plate 30 and the elastic clamping seat 12, and enabling one group of floor tiles to finish corner alignment operation in the sealed box body 7;

step two, a user starts the second electric push rod 25, so that the second electric push rod 25 drives the positioning clamping plate 13, the positioning clamping plate 13 is drawn out from the inside of the sealed box body 7, a group of floor tiles are matched with the movable rolling rod 19 of the sealed box body 7 and slide to the conveyor belt 11 of the sealed box body 7, the conveyor belt 11 is started, the conveyor belt 11 drives the group of floor tiles to move, the group of floor tiles are discharged to the discharge inclined plate 1, the user pulls the fixed pull rod 5 by using the fixed sleeve 6, the fixed bottom plate 2 of the paving equipment is made to move under the action of the movable caster 3, when another group of floor tiles are discharged to the discharge inclined plate 1, the group of floor tiles on the discharge inclined plate 1 are ejected, the floor tiles are paved on the ground, and the paving operation of the floor tiles is completed by matching with the movement of the fixed bottom plate 2;

and step three, the user rotates the positioning bolt 23 to loosen the positioning bolt 23 and the inner sleeve plate 24, pulls the sealing box body 7, takes the inner sleeve plate 24 out of the inner side of the sealing box body 7, adjusts the use height of the sealing box body 7, rotates the discharging inclined plate 1 by utilizing the rotating shaft of the sealing box body 7, adjusts the angle between the sealing box body 7 and the discharging inclined plate 1, and meanwhile, when the discharging inclined plate 1 moves, the movable pulley 32 at the bottom of the discharging inclined plate 1 is in rolling contact with the ground.

The equipment of mating formation is including sealed box 7 and PMKD 2, sealed box 7 fixed mounting is at PMKD 2's upper end surface, fixed mounting has support swash plate 4 between sealed box 7 and the PMKD 2, utilize support swash plate 4 can strengthen the structural strength between sealed box 7 and the PMKD 2, the overall structure of sealed box 7 is cuboid hollow structure, and the lower extreme middle part fixed mounting of sealed box 7 has butt joint picture peg 22, it is fixed to dock through butt joint picture peg 22 between sealed box 7 and the PMKD 2, inner sleeve plate 24 has been cup jointed in the inboard upper portion position activity of sealed box 7, and dock through the spout between sealed box 7 and the inner sleeve plate 24.

The middle position of the inner surface of the sealed box body 7 is movably sleeved with a positioning clamping plate 13, the inner surface of the sealed box body 7 is movably sleeved with a first electric push rod 18 close to the upper part of the positioning clamping plate 13, the outer surface of one end of the first electric push rod 18 is movably provided with a movable push plate 16, one side of the inner surface of the sealed box body 7 close to the movable push plate 16 is fixedly provided with an elastic clamping seat 12, the inner surface of the sealed box body 7 is movably provided with a conveyor belt 11 close to the lower part of the positioning clamping plate 13, four groups of movable rolling rods 19 are movably arranged on two sides of the inner surface of the sealed box body 7 close to the conveyor belt 11, and a side rotary cover plate 8 is movably arranged at the front end of the sealed box body 7.

Feed chute 15 has been seted up to the upper end surface of seal box 7, one side fixed mounting that the upper end surface of seal box 7 is close to feed chute 15 has first buckle 14, and the opposite side fixed mounting that the upper end surface of seal box 7 is close to feed chute 15 has second buckle 17, the upper end fixed mounting of seal box 7 has feeder hopper 9, all dock through the draw-in groove between first buckle 14, second buckle 17 and the feeder hopper 9, one side fixed mounting of surface of seal box 7 has fixed side case 10.

One side fixed mounting that the rear end surface of sealed box 7 is close to location cardboard 13 has three spacing buckles of group 20, the bottom surface of location cardboard 13 is provided with two sets of second electric push rods 25, and pass through second electric push rod 25 swing joint between location cardboard 13 and the sealed box 7, the lower part fixed mounting that the rear end surface of sealed box 7 is close to location cardboard 13 has fixed fixture 21, it is fixed to dock through fixed fixture 21 between the one end of sealed box 7 and support swash plate 4.

Discharge swash plate 1 has been cup jointed in the lower part activity of sealed box 7, and discharge swash plate 1's side surface is the inclined plane structure, and butt joint circular slot 33 has all been seted up to discharge swash plate 1's both ends inboard, butt joint through the pivot between sealed box 7 and the butt joint circular slot 33, and discharge swash plate 1's bottom movable mounting has a removal pulley 32, and discharge swash plate 1's rear end surface fixed mounting has butt joint backing plate 34.

One end of the first electric push rod 18 is movably provided with a movable push plate 16, the middle position of the outer surface of one side of the movable push plate 16 is fixedly provided with a rotary clamping seat 38, and the outer surface of the other side of the movable push plate 16 is fixedly provided with a second sponge cushion 37.

The inner side of the rotary clamping seat 38 is movably sleeved with a butt joint rotating shaft 35, the rotary clamping seat 38 is movably connected with one end of the first electric push rod 18 through the butt joint rotating shaft 35, and the lower part of the movable push plate 16 is movably provided with a rolling rod 36.

The four corners of the outer surface of the lower end of the fixed base plate 2 are fixedly provided with movable trundles 3, the rear end of the fixed base plate 2 is movably provided with two groups of fixed pull rods 5, and the outer surface of the top end of each fixed pull rod 5 is fixedly provided with a fixed sleeve handle 6.

One end movable mounting of elasticity cassette 12 has buffer board 31, one side fixed surface of buffer board 31 installs first foam-rubber cushion 29, opposite side surface middle part fixed mounting of buffer board 31 has expansion plate 30, through expansion plate 30 swing joint between buffer board 31 and the elasticity cassette 12, the side fixed surface of expansion plate 30 installs two sets of spacing bolts 28, spacing bolt 28 can prevent that the phenomenon of droing from appearing in expansion plate 30, through the 27 elastic connection of four group's spring posts between expansion plate 30 and the elasticity cassette 12, four group's gim peg 26 have been cup jointed to the other end inboard of elasticity cassette 12.

The invention aims to provide a construction method for paving floor tiles for building decoration, which comprises the steps that during operation, through arranging a positioning clamping plate 13 and a movable push plate 16, when a user conducts floor tile paving operation by using the construction method for paving floor tiles for building decoration, the user can clamp a feed hopper 9 on a feed chute 15 of paving equipment by using a first clamping buckle 14 and a second clamping buckle 17, the floor tile adding operation of the paving equipment can be more convenient and faster through the additional arrangement of the feed hopper 9, the user sequentially puts floor tiles into the feed hopper 9, the floor tiles enter the inside of a sealed box body 7 through the feed hopper 9, the user starts a first electric push rod 18, the first electric push rod 18 drives the movable push plate 16 to reciprocate, the movable push plate 16 is used for pushing, meanwhile, a butt joint rotating shaft 35 between the first electric push rod 18 and the movable push plate 16 is used for adjusting the inclined structure of the movable push plate 16, the movable push plate 16 can be correspondingly inclined and adjusted according to the side structure of the floor tile, so that the movable push plate 16 can be suitable for floor tiles with different structures, the application range of the floor tile is improved, the floor tile is transversely moved in the sealed box 7 by the movement of the movable push plate 16, a user repeatedly adds floor tiles into the sealed box 7 to complete corner alignment operation of a group of floor tiles in the sealed box 7, the user starts the second electric push rod 25 to drive the positioning clamping plate 13 by the second electric push rod 25, the positioning clamping plate 13 is drawn out from the sealed box 7, the floor tiles in the assembly process can be assisted and fixed by the positioning clamping plate 13 to avoid the floor tiles from moving downwards, the group of floor tiles are matched with the movable rolling rods 19 of the sealed box 7 and slide to the conveyor belt 11 of the sealed box 7, and the friction force generated when the floor tiles at two ends fall can be reduced by the movable rolling rods 19, the side edges of the floor tiles are prevented from being damaged, and a user starts the conveyor belt 11 to drive a group of floor tiles to move, thereby discharging a group of floor tiles into the discharging sloping plate 1, a user utilizes the fixing sleeve handle 6 to pull the fixing pull rod 5, the fixing bottom plate 2 of the paving equipment moves under the action of the movable caster wheel 3, when another group of floor tiles are discharged to the discharging sloping plate 1, one group of floor tiles on the discharging sloping plate 1 are ejected out, so that the floor tiles are laid on the ground, and the assembled floor tiles are continuously discharged by matching with the movement of the fixed bottom plate 2, thereby completing the paving operation of the floor tiles, effectively improving the working efficiency of the paving construction method of the floor tiles for building decoration, and completing the paving operation of the whole row of floor tiles once, meanwhile, the phenomenon of inclination of the floor tiles in the laying process is effectively avoided, and the using effect of the floor tile laying construction method for building decoration is improved;

by arranging the elastic clamping seat 12, when a user carries out floor tile paving operation by using the building decoration floor tile paving construction method, the user can make one end of the floor tile contact with the buffer plate 31 of the expansion plate 30 after a group of floor tiles are arranged in the sealing box body 7, and make the expansion plate 30 move towards the inner side of the elastic clamping seat 12 by using the four groups of spring columns 27 between the expansion plate 30 and the elastic clamping seat 12, so that an elastic buffer structure is formed between the expansion plate 30 and the elastic clamping seat 12, the impact force during floor tile moving is reduced, the floor tile in the sealing box body 7 is buffered and protected, the floor tile is prevented from being cracked in the sealing box body 7, the corner alignment operation of the group of floor tiles in the sealing box body 7 is completed, and the safety of the building decoration floor tile paving construction method during floor tile paving operation can be effectively improved by using the elastic clamping seat 12, the floor tiles are prevented from being broken, the consumption of the floor tiles is reduced, and the using effect of the floor tiles is improved;

by arranging the inner sleeve plate 24, when a user carries out floor tile paving operation by using the building decoration floor tile paving construction method, the user can rotate the positioning bolt 23 according to the size of the floor tile to loosen the positioning bolt 23 and the inner sleeve plate 24, the user pulls the sealing box body 7 to draw the inner sleeve plate 24 out of the inner side of the sealing box body 7 to adjust the use height of the sealing box body 7, so that floor tiles with different heights can enter the sealing box body 7, the inner part of the sealing box body 7 can assemble floor tiles with different heights, the user carries out locking and fixing operation on the drawn inner sleeve plate 24 by rotating the positioning bolt 23, simultaneously, the rotating shaft of the sealing box body 7 is utilized to rotate the discharge inclined plate 1 to adjust the angle between the sealing box body 7 and the discharge inclined plate 1, the output angle of the discharge inclined plate 1 is adjusted according to the floor tile structure, and when the discharge inclined plate 1 moves, the movable pulleys 32 at the bottom of the discharge inclined plate 1 are in rolling contact with the ground, so that the friction force when the bottom of the discharge inclined plate moves is reduced, and the arrangement of the inner sleeve plate 24 enables the construction method for paving the floor tiles for building decoration to be suitable for floor tile structures with different sizes, and improves the flexibility of the construction method during operation.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. Preferred embodiments are not exhaustive of all the details of the embodiments. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. A construction method for paving floor tiles for building decoration is characterized by comprising the following specific steps:

firstly, a feed hopper (9) is clamped on a feed chute (15) of paving equipment by utilizing a first buckle (14) and a second buckle (17), floor tiles are sequentially put into the feed hopper (9), so that the floor tiles enter the sealed box body (7) through the feed hopper (9), a user starts the first electric push rod (18), so that the first electric push rod (18) drives the movable push plate (16) to reciprocate, the movable push plate (16) is utilized to push the floor tiles, the floor tiles move transversely in the sealed box body (7), when a group of floor tiles are arranged in the sealed box body (7), one end of the floor tiles is contacted with the buffer plate (31) of the expansion plate (30), four groups of spring columns (27) between the expansion plate (30) and the elastic clamping seat (12) are utilized, the expansion plate (30) moves towards the inner side of the elastic clamping seat (12), so that a group of floor tiles can be aligned at the corners in the sealed box body (7);

step two, the user starts the second electric push rod (25) to enable the second electric push rod (25) to drive the positioning clamping plate (13) to enable the positioning clamping plate (13) to be drawn out from the inside of the sealed box body (7), a group of floor tiles are matched with the movable rolling rod (19) of the sealed box body (7) to slide to the conveyor belt (11) of the sealed box body (7), the conveyor belt (11) is started, so that the conveyor belt (11) drives a group of floor tiles to move, the floor tiles are discharged to the discharge sloping plate (1), a user pulls the fixed pull rod (5) by using the fixed sleeve handle (6) to make the fixed bottom plate (2) of the paving equipment move under the action of the movable caster wheels (3), when another group of floor tiles are discharged to the discharging sloping plate (1), one group of floor tiles on the discharging sloping plate (1) are ejected out, the floor tiles are paved on the ground, and the paving operation of the floor tiles is completed by matching the movement of the fixed bottom plate (2);

step three, the user rotates the positioning bolt (23), so that the positioning bolt (23) and the inner sleeve plate (24) are loosened, the sealing box body (7) is pulled, the inner sleeve plate (24) is drawn out from the inner side of the sealing box body (7), the use height of the sealing box body (7) is adjusted, the rotating shaft of the sealing box body (7) is utilized to rotate the discharging inclined plate (1), the angle between the sealing box body (7) and the discharging inclined plate (1) is adjusted, and meanwhile, when the discharging inclined plate (1) moves, the movable pulley (32) at the bottom of the discharging inclined plate (1) is in rolling contact with the ground.

2. The construction method for laying the building decoration floor tiles according to claim 1, wherein the laying equipment comprises a sealing box body (7) and a fixed bottom plate (2), the sealing box body (7) is fixedly arranged on the outer surface of the upper end of the fixed bottom plate (2), a supporting inclined plate (4) is fixedly arranged between the sealing box body (7) and the fixed bottom plate (2), the whole structure of the sealing box body (7) is of a cuboid hollow structure, a butt-joint inserting plate (22) is fixedly arranged at the middle of the lower end of the sealing box body (7), the sealing box body (7) and the fixed bottom plate (2) are fixedly butted through the butt-joint inserting plate (22), an inner sleeve plate (24) is movably sleeved at the upper position of the inner side of the sealing box body (7), and the sealing box body (7) and the inner sleeve plate (24) are butted through sliding chutes.

3. The method of laying floor tiles for building decoration according to claim 2, a positioning clamping plate (13) is movably sleeved at the middle part of the inner surface of the sealing box body (7), a first electric push rod (18) is movably sleeved on the inner surface of the sealing box body (7) close to the upper part of the positioning clamping plate (13), a movable push plate (16) is movably arranged on the outer surface of one end of the first electric push rod (18), an elastic clamping seat (12) is fixedly arranged on one side of the inner surface of the sealed box body (7) close to the movable push plate (16), the inner surface of the sealing box body (7) is movably provided with a conveyor belt (11) close to the lower part of the positioning clamping plate (13), two sides of the inner surface of the sealed box body (7) close to the conveyor belt (11) are respectively and movably provided with four groups of movable rolling rods (19), and the front end of the sealed box body (7) is movably provided with a side-rotating cover plate (8).

4. The construction method for laying the building decoration floor tiles according to claim 3, wherein a feed chute (15) is formed in the outer surface of the upper end of the sealed box body (7), a first buckle (14) is fixedly installed on one side, close to the feed chute (15), of the outer surface of the upper end of the sealed box body (7), a second buckle (17) is fixedly installed on the other side, close to the feed chute (15), of the outer surface of the upper end of the sealed box body (7), a feed hopper (9) is fixedly installed at the upper end of the sealed box body (7), the first buckle (14), the second buckle (17) and the feed hopper (9) are in butt joint through clamping grooves, and a fixed side box (10) is fixedly installed on the outer surface of one side of the sealed box body (7).

5. The construction method for laying the building decoration floor tiles according to claim 4, wherein three sets of limiting buckles (20) are fixedly installed on one side of the outer surface of the rear end of the sealing box body (7) close to the positioning clamping plate (13), two sets of second electric push rods (25) are arranged on the outer surface of the bottom of the positioning clamping plate (13), the positioning clamping plate (13) is movably connected with the sealing box body (7) through the second electric push rods (25), a fixing clamp (21) is fixedly installed on the outer surface of the rear end of the sealing box body (7) close to the lower part of the positioning clamping plate (13), and the sealing box body (7) and one end of the supporting inclined plate (4) are fixedly butted through the fixing clamp (21).

6. The construction method for laying the building decoration floor tiles according to claim 5, wherein the discharge sloping plate (1) is movably sleeved at the lower part of the sealed box body (7), the outer surface of the side edge of the discharge sloping plate (1) is of an inclined plane structure, the inner sides of the two ends of the discharge sloping plate (1) are respectively provided with a butt circular groove (33), the sealed box body (7) and the butt circular grooves (33) are butted through a rotating shaft, the bottom of the discharge sloping plate (1) is movably provided with a movable pulley (32), and the outer surface of the rear end of the discharge sloping plate (1) is fixedly provided with a butt backing plate (34).

7. The method for laying floor tiles for building decoration according to claim 1, wherein a movable push plate (16) is movably installed at one end of the first electric push rod (18), a rotary clamping seat (38) is fixedly installed at a middle position of an outer surface of one side of the movable push plate (16), and a second sponge pad (37) is fixedly installed at an outer surface of the other side of the movable push plate (16).

8. The method for laying and constructing floor tiles for building decoration according to claim 7, wherein the inner side of the rotary clamping seat (38) is movably sleeved with the butt joint rotating shaft (35), the rotary clamping seat (38) is movably connected with one end of the first electric pushing rod (18) through the butt joint rotating shaft (35), and the lower part of the movable pushing plate (16) is movably provided with the rolling rod (36).

9. The method for laying and constructing floor tiles for building decoration according to claim 3, wherein the four corners of the outer surface of the lower end of the fixed bottom plate (2) are fixedly provided with the movable casters (3), the rear end of the fixed bottom plate (2) is movably provided with two groups of fixed pull rods (5), and the outer surface of the top end of each fixed pull rod (5) is fixedly provided with the fixed sleeve handle (6).

10. The construction method for laying the floor tiles for building decoration according to claim 8, wherein a buffer plate (31) is movably installed at one end of the elastic clamping seat (12), a first spongy cushion (29) is fixedly installed on an outer surface of one side of the buffer plate (31), an expansion plate (30) is fixedly installed at a middle position of an outer surface of the other side of the buffer plate (31), the buffer plate (31) and the elastic clamping seat (12) are movably connected through the expansion plate (30), two sets of limiting clamping bolts (28) are fixedly installed on outer surfaces of side edges of the expansion plate (30), the expansion plate (30) and the elastic clamping seat (12) are elastically connected through four sets of spring posts (27), and four sets of fixing bolts (26) are sleeved on the inner side of the other end of the elastic clamping seat (12).