CN113006437A

CN113006437A - Construction method for laying indoor floor tiles

Info

Publication number: CN113006437A
Application number: CN202110236308.6A
Authority: CN
Inventors: 杨楚龙; 钟卫
Original assignee: Hefei Xiongteng Construction Engineering Co ltd
Current assignee: Hefei Xiongteng Construction Engineering Co ltd
Priority date: 2021-03-03
Filing date: 2021-03-03
Publication date: 2021-06-22

Abstract

The invention relates to a construction method for laying indoor floor tiles, which uses a tile laying device, the tile laying device comprises a base, a counterpoint disc, an adjusting device, a turnover device, a rolling device, a lifting counterpoint device and a blanking device, the adjusting device is adopted, the adjusting screw rod is rotated to drive a movable block to ascend so as to clamp tiles with different scales, the turnover device is adopted, a worm rotates to drive a worm wheel to rotate through synchronously rotating the worm, so that the rectangular box is turned over to drive the tiles to turn over the surface to be parallel to the ground, a pull rod is synchronously pulled to enable bottom clamping plates at two sides to be placed in the rectangular box so as to turn over the painted tiles to fall, the painted tiles are conveniently turned over and laid, and the rolling device is adopted, a press roller rolls back and forth under the action of a front reciprocating spring and a rear reciprocating spring, thereby realize the compression roller just jolt from top to bottom when carrying out the roll extrusion to the ceramic tile.

Description

Construction method for laying indoor floor tiles

Technical Field

The invention relates to the technical field of ceramic tiles, in particular to a construction method for laying indoor floor ceramic tiles.

Background

The ceramic tile is an acid and alkali resistant porcelain or stone and the like formed by grinding, mixing, pressing, glazing and sintering refractory metal oxides and semimetal oxides, is a building or decorative material called as a ceramic tile, is prepared by mixing raw materials such as clay and quartz sand through high-temperature compression and the like, has high hardness, and can be generally prepared by coating cement and other coatings on the back surface of the ceramic tile and then turning the ceramic tile to be attached to the ground and compacting the ceramic tile when the indoor ground is paved;

the existing brick paving equipment has the following problems:

(1) because the scales of the ceramic tiles are different, the existing device can not be suitable for clamping the ceramic tiles with different scales when the ceramic tiles are coated and fixed before being laid, so that limitation is brought to the laying;

(2) because the painted tile surface is attached to the ground when the tile is paved, the existing device can not overturn the painted tile surface, thereby bringing difficulty to paving;

(3) after laying the ceramic tile, need carry out the compaction to ceramic tile and ground, current device can't realize laying the back to ceramic tile and ground, shakes the compaction to the ceramic tile surface, increases workman intensity of labour.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose:

a laying construction method of indoor floor tiles uses a laying device which comprises a base, a positioning disc, an adjusting device, a turnover device, a rolling device, a lifting positioning device and a blanking device, and the laying construction method of the indoor floor tiles by adopting the laying device comprises the following steps:

s1, ceramic tile coating: the binding surface of the ceramic tile and the ground is blanked by a blanking device, so that the ceramic tile can be conveniently stuck to the binding surface after being turned over;

s2, tile overturning: turning the ceramic tile after coating to correspond to the ground through a turning device;

s3, descending the ceramic tile: the tile and the ground to be laid are corrected and descended through the lifting alignment device, so that the tile can accurately fall into a laying position when being laid;

s4, rolling the ceramic tile: rolling the surface of the ceramic tile after falling through a rolling device to compact the ceramic tile and the ground;

the middle part of the upper surface of the base is provided with a positioning disc, the positioning disc is provided with an adjusting device, a turning device is arranged below the adjusting device, two sides of the turning device are provided with rolling devices fixedly connected with the base, two sides of the rolling devices are provided with lifting alignment devices fixedly connected with the base, and the middle part of the lower surface of the positioning disc is fixedly provided with a blanking device;

the adjusting device comprises through grooves, moving circular plates, adjusting lead screws, moving blocks, circular rings and connecting rods, the through grooves are symmetrically formed in the left and right of the upper surface of the alignment disc, the moving circular plates are slidably mounted in the two through grooves, the adjusting lead screws are rotatably mounted in the middle of the upper surface of the alignment disc through bearings, the moving blocks are threadedly mounted on the adjusting lead screws, the circular rings are rotatably mounted on the outer sides of the moving blocks through bearings, the connecting rods are hinged to two sides of the circular rings, one ends of the two connecting rods, far away from the circular rings, are respectively hinged to the upper surfaces of the moving circular plates, the adjusting lead screws are rotated to drive the moving blocks to ascend, the moving blocks ascend and drive the circular rings to ascend, and the circular rings ascend and drive the two moving;

the turnover device comprises vertical plates, sliding grooves, L-shaped sliding plates, central rotating shafts, worm wheels, rectangular boxes, worms, top clamping plates, bottom clamping plates, pull rods, driving wedge blocks, electric push rods and fixed pushing units, wherein the vertical plates are arranged in the middle of the lower surface of a circular ring, the middle parts of two vertical plates close to one side are respectively provided with the sliding grooves, the sliding grooves are internally and slidably provided with the L-shaped sliding plates, the central rotating shafts are rotatably arranged in the middle parts of two opposite sides of the two L-shaped sliding plates through bearings, the worm wheels are fixedly arranged on the outer sides of the two central rotating shafts, the rectangular boxes are fixedly arranged on the opposite sides of the two central rotating shafts, the worms are rotatably arranged on the upper parts of the two vertical plates and meshed with the worm wheels, the electric push rods fixedly connected with the vertical plates are arranged on the tops of the L-shaped sliding plates, the top clamping plates are fixedly arranged, the two bottom clamping plates are fixedly provided with pull rods on the same side, the ends, away from each other, of the two pull rods are fixedly provided with driving wedge blocks, a fixed pushing unit is arranged below the top clamping plate, the worm rotates to drive the worm wheel to rotate through synchronous rotation of the worm, so that the rectangular box is overturned to drive the surface of the ceramic tile to be overturned to be parallel to the ground, and the bottom clamping plates on the two sides are placed in the rectangular box through synchronous pulling of the pull rods, so that the ceramic tile after coating is overturned to fall, and the ceramic tile after coating is overturned and laid conveniently;

the rolling press device comprises a rolling press frame, reciprocating springs, reciprocating plates, a sliding frame, an extension rod, driven wedges and a pressing roller, rolling press frames are fixedly mounted on the left and right sides of the upper surface of a base, reciprocating springs are fixedly mounted on the front and back of one side of the rolling press frame in opposite directions, reciprocating springs are fixedly mounted on one side of the reciprocating press frame in opposite directions, sliding frames are fixedly mounted on the front sides of the reciprocating plates in opposite directions, the extension rod is fixedly mounted on the front sides of the sliding frames in opposite directions, driven wedges are fixedly mounted on the front sides of the two extension rods in opposite directions, the pressing roller is arranged on one side of the two sliding frames in opposite directions, and a shaking spring is arranged on the upper side of the pressing roller. The pressing roller rolls back and forth under the action of the front reciprocating spring and the rear reciprocating spring, and the shaking springs in the sliding frame push the pressing roller when rolling, so that the pressing roller is driven to shake up and down when rolling the ceramic tile.

Preferably, the lifting alignment device comprises a threaded rod, a support plate, a lifting motor, belt wheels, a belt, hydraulic rods, a convex plate, a short support plate, a driving gear, an alignment motor and a driven gear, the threaded rod is rotatably installed at the rear parts of the left side and the right side of the base, the support plate fixedly connected with the base is arranged at the rear part of the threaded rod at the left side, the lifting motor is fixedly installed at the lower part of the support plate, the output end of the lifting motor is fixedly connected with the top part of the threaded rod at the left side, the belt wheels are fixedly installed at the upper parts of the two threaded rods, the belt wheels are driven by the belt, the hydraulic rods are fixedly installed at the front parts of the left side and the right side of the base, the convex plates are uniformly and threadedly installed on the two threaded rods, the top parts of, fixed surface installs the counterpoint motor under the short extension board, counterpoint motor output and center pin fixed connection, through opening the counterpoint motor, the counterpoint motor output drives the driving gear and rotates, the counterpoint dish rotates and lays the position to fixed good ceramic tile and ground and counterpoints, through opening elevator motor, elevator motor rotates and drives left side threaded rod and rotate, thereby the realization goes up and down to protruding type board, lay the department when protruding type board descends to ground, thereby the pulling pull rod makes two bottom grip blocks return and contracts the realization and lay the counterpoint of ceramic tile.

Preferably, unloader includes that the C type leads to the groove, the outer container, the inner box, discharge gate and actuating lever, the logical groove of C type has been seted up at counterpoint dish middle part, counterpoint dish lower surface middle part fixed mounting has the outer container, the inner box is installed to the outer container internal rotation, corresponding discharge gate has all been seted up with the outer container lower part to the inner box, inner box side fixed mounting has the actuating lever that is located the logical groove of C type, through rotating the actuating lever, the actuating lever rotates and drives the inner box and rotates, the inner box rotates the discharge gate that drives under the inner box and overlaps with the discharge gate of outer container, thereby realize that the coating of inner box inner chamber falls on the face of laying of ceramic tile, in.

Preferably, the annular spout has been seted up to counterpoint dish lower surface, and the equal fixed mounting of two protruding type board upper surfaces has gliding ball in the annular spout, and through setting up the ball in annular spout below, the counterpoint dish of being convenient for is more stable when sliding on protruding type board.

Preferably, the initiative wedge descends the back, stimulates the initiative wedge simultaneously, and two initiative wedges drive driven wedge and return backward when outwards stimulateeing, return backward through driven wedge and return the reciprocal spring through the extrusion rear side, loosen the initiative wedge, and two initiative wedges reset and cancel the conflict to driven wedge, and reciprocal spring is bounced forward and is driven the pressing roller on the carriage and press to the ceramic tile surface, makes ceramic tile and ground compaction.

Fixed propelling movement unit includes extrusion spring, the attaching plate, laminating lead screw and guide bar, top grip block lower surface middle part fixed mounting has the extrusion spring, the extrusion spring is kept away from top grip block one end fixed mounting and is had attaching plate, top grip block top screw thread is installed the laminating lead screw, laminating lead screw one end is rotated with attaching plate top and is connected, the equal fixed mounting in attaching plate top four corners has the guide bar, the guide bar slides and runs through in the top supporting rod, when carrying out the fixed before the coating to the ceramic tile, rotate the laminating lead screw, the laminating lead screw rotates and drives attaching plate and descend to contradict with the ceramic tile, thereby realize the fixed of ceramic tile when coating.

The invention has the beneficial effects that:

according to the adjusting device, the adjusting screw rod is rotated, the adjusting screw rod rotates to drive the moving block to ascend, the moving block ascends to drive the circular ring to ascend, and the circular ring ascends to drive the two moving circular plates to move oppositely or relatively through the two connecting rods, so that ceramic tiles of different scales are clamped;

according to the turnover device, the worm is synchronously rotated, the worm rotates to drive the worm wheel to rotate, so that the rectangular box is turned over to drive the ceramic tile to be turned over to be parallel to the ground, the bottom clamping plates on two sides are placed in the rectangular box by synchronously pulling the pull rod, the ceramic tile after coating is turned over and falls down, and the ceramic tile after coating is conveniently turned over and laid;

the rolling device adopted by the invention rolls back and forth under the action of the front and back reciprocating springs through the pressing roller, and meanwhile, the shaking spring in the sliding frame pushes the pressing roller when the pressing roller rolls, so that the pressing roller can be vibrated up and down when rolling the ceramic tile.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow diagram of a method of the tile installation of the present invention;

FIG. 2 is a schematic front perspective view of the tile installation of the present invention;

FIG. 3 is an enlarged view of the portion A of the tile installation of the present invention shown in FIG. 2;

FIG. 4 is an enlarged view of section B of the tile installation of the present invention shown in FIG. 2;

FIG. 5 is a sectional view taken along line C-C of FIG. 2 of the tile installation of the present invention;

FIG. 6 is a schematic view of a partial bottom view of the tile installation of the present invention;

FIG. 7 is a schematic front sectional view of the blanking device of the brick laying apparatus of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 7, a construction method for laying indoor floor tiles uses a tile laying device, the tile laying device includes a base 1, an alignment plate 2, an adjusting device 3, a turning device 4, a rolling device 5, a lifting alignment device 6 and a blanking device 7, and the construction method for laying indoor floor tiles by using the tile laying device includes the following steps:

s1, ceramic tile coating: the binding surface of the ceramic tile and the ground is blanked by a blanking device 7, so that the ceramic tile can be conveniently stuck to the binding surface after being turned over;

s2, tile overturning: turning the ceramic tile after coating to correspond to the ground through a turning device 4;

s3, descending the ceramic tile: the lifting alignment device 6 is used for correcting and descending the ceramic tiles and the ground to be paved, so that the ceramic tiles can accurately fall into the paving position when being paved;

s4, rolling the ceramic tile: rolling the surface of the ceramic tile after falling down by a rolling device 5 to compact the ceramic tile and the ground;

the middle part of the upper surface of the base 1 is provided with a positioning disc 2, the positioning disc 2 is provided with an adjusting device 3, a turning device 4 is arranged below the adjusting device 3, two sides of the turning device 4 are provided with rolling devices 5 fixedly connected with the base 1, two sides of the rolling devices 5 are provided with lifting positioning devices 6 fixedly connected with the base 1, and the middle part of the lower surface of the positioning disc 2 is fixedly provided with a blanking device 7;

the adjusting device 3 comprises through grooves 31, moving circular plates 32, adjusting lead screws 33, moving blocks 34, circular rings 35 and connecting rods 36, the through grooves 31 are symmetrically arranged on the left and right sides of the upper surface of the aligning disc 2, the moving circular plates 32 are slidably mounted in the two through grooves 31, the adjusting lead screws 33 are rotatably mounted in the middle of the upper surface of the aligning disc 2 through bearings, the moving blocks 34 are threadedly mounted on the adjusting lead screws 33, the circular rings 35 are rotatably mounted on the outer sides of the moving blocks 34 through bearings, the connecting rods 36 are hinged to two sides of the circular rings 35, one ends of the two connecting rods 36, far away from the circular rings 35, are respectively hinged to the upper surfaces of the moving circular plates 32, when tiles of different scales are clamped before being laid, the adjusting lead screws 33 are rotated clockwise, the adjusting lead screws 33 rotate forward to drive the moving blocks 34 to ascend, the moving blocks 34 drive the circular rings 35, thereby realizing the clamping of the ceramic tiles with different scales;

the turnover device 4 comprises vertical plates 41, sliding grooves 42, L-shaped sliding plates 43, central rotating shafts 44, worm gears 45, rectangular boxes 46, worms 47, top clamping plates 48, bottom clamping plates 49, pull rods 490, driving wedge blocks 491, electric push rods 492 and fixed push units 8, wherein the vertical plates 41 are arranged in the middle of the lower surface of the circular ring 35, the middle parts of one sides, close to the two vertical plates 41, of the two vertical plates are respectively provided with the sliding grooves 42, the L-shaped sliding plates 43 are slidably arranged in the sliding grooves 42, the middle parts of the two opposite sides of the two L-shaped sliding plates 43 are respectively provided with the central rotating shafts 44 through bearings, the outer sides of the two central rotating shafts 44 are respectively and fixedly provided with the worm gears 45, the upper parts of the two vertical plates 41 are respectively and rotatably provided with the worms 47, the worms 47 are meshed with the worm gears 45, the top parts of the sliding plates 43 are respectively provided with the electric push rods 492 fixedly connected with the vertical, the lower part of the top clamping plate 48 is provided with a bottom clamping plate 49 which is in sliding connection with the inner cavity of the rectangular box 46, one side of each of the two bottom clamping plates 49 is fixedly provided with a pull rod 490, one end of each of the two pull rods 490, which is far away from the other end, is fixedly provided with a driving wedge 491, a fixed pushing unit 8 is arranged below the top clamping plate 48, when the painted ceramic tiles are overturned and laid, the worm 47 is synchronously rotated, the worm 47 rotates to drive the worm wheel 45 to rotate, the worm wheel 45 rotates to drive the central rotating shaft 44 to rotate, the central rotating shaft 44 rotates to drive the rectangular box 46 to overturn, the rectangular box 46 overturns to drive the surface of the ceramic tiles to be parallel to the ground, and the pull rods 490 are synchronously pulled to enable the bottom clamping plates 49 at two sides;

rolling press 5 is including rolling frame 51, reciprocal spring 52, reciprocal board 53, carriage 54, extension bar 55, driven wedge 56 and press roller 57, the equal fixed mounting in the upper surface left and right sides of base 1 has rolling frame 51, equal fixed mounting has reciprocal spring 52 around two rolling frame 51 one side in opposite directions, two reciprocal springs 52 are close to the equal fixed mounting in one side and have reciprocating board 53 mutually, the equal fixed mounting in two reciprocal board 53 front sides of rear side has carriage 54, the equal fixed mounting in two carriage 54 front sides has extension bar 55, two extension bar 55 front sides fixed mounting has driven wedge 56, two carriage 54 are equipped with press roller 57 in opposite directions one side, two carriage 54 are equipped with the shake spring in opposite directions one side inner chamber, and the shake spring is located press roller 57 top. When the pressing roller 57 rolls the laid tile and shakes up and down, the pressing roller 57 rolls back and forth under the action of the front and back reciprocating springs 52, and meanwhile, the shaking springs in the sliding frame 54 push the pressing roller 57 when the pressing roller 57 rolls, so that the pressing roller 57 rolls the tile and shakes up and down.

The lifting alignment device 6 comprises a threaded rod 61, a support plate 62, a lifting motor 63, belt wheels 64, a belt 65, hydraulic rods 66, a convex plate 67, a short support plate 68, a driving gear 69, an alignment motor 690 and a driven gear 691, the threaded rods 61 are rotatably mounted on the rear portions of the left and right sides of the base 1, the support plate 62 fixedly connected with the base 1 is arranged on the rear portion of the threaded rod 61 on the left side, the lifting motor 63 is fixedly mounted on the lower portion of the support plate 62, the output end of the lifting motor 63 is fixedly connected with the top of the threaded rod 61 on the left side, the belt wheels 64 are fixedly mounted on the upper portions of the two threaded rods 61, the two belt wheels 64 are transmitted through the belt 65, the hydraulic rods 66 are fixedly mounted on the front portions of the left and right sides of the base 1, the convex plates 67 are respectively and threadedly mounted on, a central shaft which is rotatably connected with the convex plate 67 is arranged below the short support plate 68, a driving gear 69 is fixedly arranged on the outer side of the central shaft, an alignment motor 690 is fixedly arranged on the lower surface of the short support plate 68, the output end of the alignment motor 690 is fixedly connected with the central shaft, when the fixed ceramic tile is aligned with the ground to be laid, the alignment motor 690 is started, the output end of the alignment motor 690 drives the driving gear 69 to rotate, the driving gear 69 rotates to drive a driven gear 691 to rotate, the driven gear 691 rotates to drive an alignment disc 2 to rotate, the alignment disc 2 rotates to align the fixed ceramic tile with the ground laying position, then a lifting motor 63 is started, the lifting motor 63 rotates to drive a left threaded rod 61 to rotate, the left threaded rod 61 rotates to drive a right threaded rod 61 to rotate through a belt 65, so that the convex plate 67 is lifted, pulling the pull rod 490 retracts the two bottom gripping plates 49 to achieve the aligned laying of the tiles.

Unloader 7 includes that the groove 71 is led to the C type, outer container 72, inner box 73, discharge gate 74 and actuating lever 75, the groove 71 is led to the C type has been seted up at counterpoint dish 2 middle part, counterpoint 2 lower surface middle part fixed mounting has outer container 72, inner box 73 is installed to outer container 72 internal rotation, corresponding discharge gate 74 has all been seted up with outer container 72 lower part to inner box 73, inner box 73 side fixed mounting has the actuating lever 75 that is located the groove 71 is led to the C type, when carrying out coating to ceramic tile and ground binding face, rotate actuating lever 75, actuating lever 75 rotates and drives inner box 73 and rotate, inner box 73 rotates the discharge gate 74 that drives inner box 73 down and overlaps with the discharge gate 74 of outer container 72, thereby realize that the coating of inner box 73 inner chamber falls on the face of laying of ceramic tile, in order to realize the.

Annular spout 42 has been seted up to counterpoint dish 2 lower surface, and the equal fixed mounting of two convex plate 67 upper surfaces has gliding ball in annular spout 42, and through setting up the ball in annular spout 42 below, the counterpoint dish 2 of being convenient for is more stable when sliding on convex plate 67.

After initiative wedge 491 descends, stimulate initiative wedge 491 simultaneously, two initiative wedges 491 drive driven wedge 56 and retract backward when outwards pulling, when carrying out the roll extrusion to the ceramic tile after laying, driven wedge 56 is retracted backward through the reciprocal spring 52 of extrusion rear side, unclamps initiative wedge 491, two initiative wedge 491 resets and cancels the conflict to driven wedge 56, reciprocal spring 52 bounce forward drives the press roll 57 on the carriage 54 and presses down the ceramic tile surface, makes ceramic tile and ground compaction.

Fixed propelling movement unit 8 includes extrusion spring 81, attaching plate 82, laminating lead screw 83 and guide bar 84, 48 lower surface middle part fixed mounting in top grip block have extrusion spring 81, extrusion spring 81 keeps away from 48 one end fixed mounting in top grip block have attaching plate 82, 48 top screw threads in top grip block install the laminating lead screw, laminating lead screw 83 one end is rotated with attaching plate 82 top and is connected, the equal fixed mounting in attaching plate 82 top four corners has guide bar 84, guide bar 84 slides and runs through in the top grip block, when carrying out the fixed before the coating to the ceramic tile, rotate laminating lead screw 83, laminating lead screw 83 rotates and drives attaching plate 82 and descend to contradict with the ceramic tile, thereby realize the fixed of ceramic tile when coating.

The present invention is not limited to the above-described embodiments, which are described in the specification and illustrated only to illustrate the principle of the present invention, but various changes and modifications may be made within the scope of the present invention as claimed without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an indoor ground tile lays construction method, its has used a tiling equipment, and this tiling equipment includes base (1), counterpoint dish (2), adjusting device (3), turning device (4), rolling press (5), lift aligning device (6) and unloader (7), its characterized in that: the construction method for paving the tiles on the indoor floor by adopting the tile paving equipment comprises the following steps:

s1, ceramic tile coating: the attachment surface of the ceramic tile and the ground is blanked through a blanking device (7), so that the ceramic tile can be conveniently pasted with the attachment surface after being turned over;

s2, tile overturning: the ceramic tile after being coated is turned over to correspond to the ground through a turning device (4);

s3, descending the ceramic tile: the tile and the ground to be paved are corrected and descended through the lifting alignment device (6), so that the tile can accurately fall into the paving position when being paved;

s4, rolling the ceramic tile: rolling the surface of the ceramic tile after falling down by a rolling device (5) to compact the ceramic tile and the ground;

the middle part of the upper surface of the base (1) is provided with a counterpoint disc (2), the counterpoint disc (2) is provided with an adjusting device (3), a turning device (4) is arranged below the adjusting device (3), two sides of the turning device (4) are provided with rolling devices (5) fixedly connected with the base (1), two sides of each rolling device (5) are provided with lifting counterpoint devices (6) fixedly connected with the base (1), and the middle part of the lower surface of the counterpoint disc (2) is fixedly provided with a blanking device (7);

the adjusting device (3) comprises a through groove (31), moving circular plates (32), adjusting lead screws (33), moving blocks (34), circular rings (35) and connecting rods (36), the through groove (31) is symmetrically formed in the left and right of the upper surface of the alignment disc (2), the moving circular plates (32) are slidably mounted in the two through grooves (31), the adjusting lead screws (33) are rotatably mounted in the middle of the upper surface of the alignment disc (2) through bearings, the moving blocks (34) are mounted on the adjusting lead screws (33) in a threaded manner, the circular rings (35) are rotatably mounted on the outer sides of the moving blocks (34) through bearings, the connecting rods (36) are hinged to the two sides of the circular rings (35), and one ends, far away from the circular rings (35), of the two connecting rods (36;

the turnover device (4) comprises vertical plates (41), sliding grooves (42), L-shaped sliding plates (43), central rotating shafts (44), worm gears (45), rectangular boxes (46), worms (47), top clamping plates (48), bottom clamping plates (49), pull rods (490), driving wedge blocks (491), electric push rods (492) and fixed push units (8), wherein the vertical plates (41) are installed in the middle of the lower surface of a circular ring (35), the middle parts of two vertical plates (41) close to one side are respectively provided with the sliding grooves (42), the sliding grooves (42) are internally provided with the L-shaped sliding plates (43) in a sliding manner, the middle parts of two opposite sides of the two L-shaped sliding plates (43) are rotatably provided with the central rotating shafts (44) through bearings, the outer sides of the two central rotating shafts (44) are respectively and fixedly provided with the worm gears (45), the opposite sides of the two central rotating shafts (44) are respectively and fixedly provided with the rectangular, the worm (47) is meshed with the worm wheel (45), an electric push rod (492) fixedly connected with the vertical plate (41) is arranged at the top of the sliding plate of the L-shaped sliding plate (43), top clamping plates (48) are fixedly arranged at the upper parts of the opposite sides of the two rectangular boxes (46), a bottom clamping plate (49) slidably connected with the inner cavity of each rectangular box (46) is arranged at the lower part of each top clamping plate (48), pull rods (490) are fixedly arranged at the corresponding sides of the two bottom clamping plates (49), driving wedge blocks (491) are fixedly arranged at the ends, far away from the two pull rods (490), of the two pull rods, and a fixed pushing unit (8) is arranged below each top clamping plate (48);

the rolling device (5) comprises rolling frames (51), reciprocating springs (52), reciprocating plates (53), sliding frames (54), extension rods (55), driven wedge blocks (56) and pressing rollers (57), the rolling frames (51) are fixedly installed on the left side and the right side of the upper surface of the base (1), the reciprocating springs (52) are fixedly installed on the two rolling frames (51) in the front and back directions of one side in opposite directions, the reciprocating plates (53) are fixedly installed on one side in which the two reciprocating springs (52) are close to each other, the sliding frames (54) are fixedly installed on the front sides of the two reciprocating plates (53) on the rear side, the extension rods (55) are fixedly installed on the front sides of the two sliding frames (54), the driven wedge blocks (56) are fixedly installed on the front sides of the two extension rods (55), the pressing rollers (57) are arranged on one side in opposite directions of the two sliding frames (54), and shaking springs are arranged in, and the shaking spring is positioned above the pressing roller (57).

2. The indoor floor tile laying construction method according to claim 1, characterized in that: the lifting alignment device (6) comprises a threaded rod (61), a support plate (62), a lifting motor (63), belt wheels (64), a belt (65), a hydraulic rod (66), a convex plate (67), a short support plate (68), a driving gear (69), an alignment motor (690) and a driven gear (691), the threaded rod (61) is rotatably installed at the rear parts of the left side and the right side of the base (1), the support plate (62) fixedly connected with the base (1) is arranged at the rear part of the left side threaded rod (61), the lifting motor (63) is fixedly installed at the lower part of the support plate (62), the output end of the lifting motor (63) is fixedly connected with the top of the left side threaded rod (61), the belt wheels (64) are fixedly installed at the upper parts of the two threaded rods (61), the two belt wheels (64) are transmitted through the belt (65), the, protruding template (67) are all installed to the screw thread on two threaded rods (61), two hydraulic stem (66) tops and protruding template (67) lower surface fixed connection, left side protruding template (67) upper surface middle part fixed mounting has short extension board (68), short extension board (68) below is equipped with rotates the center pin of being connected with protruding template (67), center pin outside fixed mounting has driving gear (69), short extension board (68) lower surface fixed mounting has counterpoint motor (690), counterpoint motor (690) output and center pin fixed connection.

3. The indoor floor tile laying construction method according to claim 1, characterized in that: unloader (7) lead to groove (71) including the C type, outer container (72), inner box (73), discharge gate (74) and actuating lever (75), logical groove (71) have been seted up to the C type in counterpoint dish (2) middle part, counterpoint dish (2) lower surface middle part fixed mounting has outer container (72), inner box (73) are installed to outer container (72) internal rotation, corresponding discharge gate (74) have all been seted up to inner box (73) and outer container (72) lower part, inner box (73) side fixed mounting has actuating lever (75) that are located the logical groove (71) of C type.

4. The indoor floor tile laying construction method according to claim 2, characterized in that: annular chute (42) have been seted up to counterpoint dish (2) lower surface, and equal fixed mounting in two protruding template (67) upper surface has gliding ball in annular chute (42).

5. The indoor floor tile laying construction method according to claim 1, characterized in that: after the driving wedge blocks (491) descend, the driving wedge blocks (491) are pulled at the same time, and the two driving wedge blocks (491) drive the driven wedge blocks (56) to retract backwards when pulled outwards.

6. The indoor floor tile laying construction method according to claim 1, characterized in that: fixed propelling movement unit (8) are including extrusion spring (81), attaching plate (82), laminating lead screw (83) and guide bar (84), top grip block (48) lower surface middle part fixed mounting has extrusion spring (81), top grip block (48) one end fixed mounting is kept away from in extrusion spring (81) has attaching plate (82), attaching lead screw is installed to top grip block (48) top screw thread, attaching lead screw (83) one end is rotated with attaching plate (82) top and is connected, the equal fixed mounting in attaching plate (82) top four corners has guide bar (84), guide bar (84) slide and run through in top supporting rod.