CN114197837B - Improved ground decorative board mounting structure - Google Patents

Abstract

The invention relates to the technical field of installation of floor decorative plates, in particular to an improved floor decorative plate installation structure, which comprises a movable frame, movable wheels, an installation frame and an installation mechanism, wherein in the installation mechanism provided by the invention, two adsorption connecting frames are mutually matched with a sucker through the adsorption frame to carry out adsorption locking on the upper end surface of a ceramic tile in the ceramic tile installation process, so that the problem that the side wall of the ceramic tile is not tightly attached to the side wall of the ceramic tile in the installation process due to the fact that the traditional clamping equipment clamps and limits the side wall of the ceramic tile is solved, and the installation effect of the ceramic tile is improved; after the installation of the ceramic tile, the cleaning plate can clean impurities such as cement on the ceramic tile by being matched with the hairbrush in the moving process of the moving frame, so that the surface of the ceramic tile can still be kept clean after the installation is finished.

Description

Improved ground decorative board mounting structure

Technical Field

The invention relates to the technical field of ground decorative plate installation, in particular to an improved ground decorative plate installation structure.

Background

Floor decorative boards are commonly used as paving decorative materials for the interior of buildings or floor surfaces: the floor decorative board is used for effectively ensuring the cleaning degree of the floor and ensuring the convenience degree of manual cleaning in the cleaning process, wherein the ceramic tile is laid on the floor through the mutual cooperation of cement and adhesive.

At present, the following problems exist in the laying process of the ceramic tile: a. in the traditional ceramic tile paving process, the ceramic tiles are paved on the ground by manually holding the side walls of the ceramic tiles by workers, and because gaps among the ceramic tiles need to be clung in the ceramic tile paving process, the compactness among the ceramic tiles is easily influenced by manually holding the side walls of the ceramic tiles in the traditional ceramic tile paving process, and the aesthetic degree of ceramic tile paving is influenced; b. because the cement on the ground of the ceramic tile can scatter to the surface of the ceramic tile in the laying process, the ceramic tile is required to be cleaned manually after being laid, so that the time in the laying process of the ceramic tile is prolonged, and the laying efficiency of the ceramic tile is affected.

Disclosure of Invention

In order to solve the problems, the invention adopts the following technical scheme: the utility model provides an improved generation ground decorative board mounting structure, includes removes the frame, removes the wheel, installs frame and installation mechanism, remove four corners of terminal surface under the frame and seted up and remove the recess, remove recess internally mounted and remove the wheel, remove the installation frame that the L type structure was installed in the terminal surface left side on the frame, set up the connection slot on the installation frame horizontal segment, connection slot internally mounted has installation mechanism.

The installation mechanism comprises a rotating motor, a rotating frame, a fixed block, a locking bolt, a beating branched chain, a lifting cylinder, a lifting plate, an adsorption branched chain, an adsorption attachment plate and a sucker, wherein the rotating motor is installed on the rear end face of a connecting groove through a motor base, one end of the rotating frame is fixedly installed on an output shaft of the rotating motor, the other end of the rotating frame is installed on the front end face of the connecting groove through a bearing, the rotating frame is of a square structure, the lifting cylinder is installed on the upper end face and the lower end face of the rotating frame through a cylinder base, the lifting plate is installed on a driving shaft of the lifting cylinder, the beating branched chain is installed on the upper end face of the lifting plate, two adsorption attachment plates are arranged in the middle of the lower end face of the lifting plate below, the two adsorption attachment plates are hinged to each other and are installed on the lower end face of the lifting plate below, the sucker is installed on the lower end face of the adsorption attachment plate, the lower end face of the lifting plate below is located on the adsorption attachment plate, the upper end face of the installing frame is located on the rear side of the rotating frame, the locking block is installed on the fixing block through a thread, the locking bolt is installed on the upper end face and lower end face of the rotating frame, and the locking bolt is located inside the threaded hole.

Preferably, the beating branched chain comprises a fixed frame, a reciprocating electric slide block, a connecting plate, a fixed connecting block, a connecting shaft, a beating connecting rod, a beating rod and a return spring rod, wherein the upper part is symmetrically arranged in the middle of the upper end face of the lifting plate, the fixed connecting block is provided with the connecting shaft through a bearing, a plurality of groups of beating connecting rods are uniformly arranged on the connecting shaft from front to back, the beating rod is arranged on the right end of the upper end face of the beating connecting rod along the direction vertical to the upper end face of the beating connecting rod, the return spring rod is arranged between the beating connecting rod and the lifting plate through a spherical hinge, the fixed frame is arranged on the left side of the upper end face of the lifting plate and is provided with the reciprocating electric slide block, the connecting plate is arranged on the reciprocating electric slide block, and the right side of the upper end face of the connecting plate is propped against the beating connecting rod.

Preferably, the adsorption branched chain comprises an adsorption frame, a bidirectional cylinder, an adjusting block, a connecting frame, a fixed connecting frame and a reset spring rod, wherein the adsorption frame is of a type structure with an upward opening, the upper end face of the horizontal section of the adsorption frame is provided with the bidirectional cylinder through a cylinder seat, the telescopic end of the bidirectional cylinder is provided with the adjusting block, the front side wall and the rear side wall of the adjusting block are symmetrically provided with inclined planes, the connecting frame is arranged between the adjusting block and the adsorption connecting plate, one end of the connecting frame is propped against the inclined planes, the other end of the connecting frame is fixed on the side wall of the adsorption connecting plate, the lower end face of the lifting plate is provided with the fixed connecting frame which is positioned on the front side and the rear side of the hinging point of the adsorption connecting plate, one end of the reset spring rod is arranged on the left side wall and the right side wall of the fixed connecting frame through a spherical hinge, and the other end of the reset spring rod is arranged on the adsorption connecting plate through the spherical hinge.

Preferably, the electric slide block is installed on the right side of the upper end face of the movable frame, the horizontal frame is installed on the electric slide block, the electric slide block is installed on the upper end face of the horizontal frame, the left and right frames are installed on the electric slide block, the connecting spring rods are installed on the left and right frames in bilateral symmetry on the rear end face of the left and right frames, the pushing plate is installed on the rear end faces of the two connecting spring rods together, the reciprocating motor is installed on the upper end face of the left and right frames through the motor base, the rotating cam is installed on the upper end face of the output shaft of the reciprocating motor, and the rotating cam is located behind the pushing plate.

Preferably, the connecting groove is formed in the upper end face of the beating rod, the rolling block is arranged in the connecting groove through the bearing, and the rolling block synchronously moves rightwards in the beating process of the beating rod, so that the friction force between the beating rod and the ceramic tile can be reduced by using the rolling block, and the scratch of the beating rod to the ceramic tile is reduced.

Preferably, a cleaning plate is arranged between the fixed connecting blocks, a brush is arranged at the upper end of the cleaning plate, and the lifting plate moves rightwards synchronously in the beating process, so that the cleaning plate and the brush are matched with each other synchronously to clean impurities such as cement on the ceramic tile, and the surface of the ceramic tile is still kept clean after the installation is finished.

Preferably, the balancing weight is installed to the movable rack right side wall, avoids the movable rack left side overweight and causes the movable rack to take place to turn on one's side in the course of the work, guarantees the equilibrium between the movable rack.

Preferably, the scraper blade that leans upward from left to right is installed to the inside left side wall of removal recess, and the scraper blade supports and leans on and remove the wheel, and the scraper blade removes impurity such as cement of in-process with its wheel adhesion and strikes off, avoids removing impurity adhesion too much such as epaxial cement, influences the smoothness nature that removes the wheel.

The invention has the beneficial effects that:

1. in the mounting mechanism provided by the invention, the two adsorption connecting frames are matched with the sucker through the adsorption frame, so that the upper end face of the ceramic tile can be adsorbed and locked in the ceramic tile mounting process, the problem that the side walls of the ceramic tiles are not tightly attached in the mounting process due to the fact that the side walls of the ceramic tile are clamped and limited by the traditional clamping equipment is solved, and the mounting effect of the ceramic tile is improved; after the installation of the ceramic tile, the cleaning plate can clean impurities such as cement on the ceramic tile by being matched with the hairbrush in the moving process of the moving frame, so that the surface of the ceramic tile can still be kept clean after the installation is finished.

2. In the adsorption branched chain designed by the invention, according to the size of the ceramic tile, the bidirectional cylinder is started to drive the regulating block to move, so that the opening and closing degree of the adsorption plates can be changed through the mutual matching of the inclined planes and the connecting frame, the opening and closing area between the adsorption plates is changed, and the ceramic tile can be adsorbed through the mutual matching of the sucking disc and the adsorption frame.

3. In the beating branched chain designed by the invention, when the ceramic tile is placed, the rotating frame rotates to drive the beating branched chain to move to the upper end surface of the ceramic tile, and the reciprocating electric sliding block starts to drive the beating connecting rod to reciprocate along the connecting shaft through the connecting plate, so that the beating connecting rod is mutually matched with the return spring rod to beat the ceramic tile, the ceramic tile ground is tightly attached, and the paving effect of the ceramic tile is better.

Drawings

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

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic view of a second perspective structure of the present invention.

Fig. 3 is an enlarged view of a portion of fig. 1 of the present invention.

Fig. 4 is a front view of the present invention.

Fig. 5 is a top view of the present invention.

FIG. 6 is a top view of the mounting structure between the suction side chains, suction attachment plate, suction cup and lift plate of the present invention.

FIG. 7 is a schematic view of the internal structure of the moving groove according to the present invention.

Fig. 8 is a schematic perspective view of the adjusting block of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

1. a moving rack; 11. a first electric sliding block; 12. a horizontal frame; 13. a second electric sliding block; 14. left and right frames; 15. connecting a spring rod; 16. a pushing plate; 17. a reciprocating motor; 18. rotating the cam; 19. balancing weight; 2. a moving wheel; 21. a scraper; 3. a frame is installed; 4. a mounting mechanism; 41. a rotating motor; 42. rotating the frame; 43. a fixed block; 44. a locking bolt; 45. beating the branched chain; 451. a fixed frame; 452. a reciprocating electric slider; 453. a connecting plate; 454. fixing the connecting blocks; 4541. a cleaning plate; 4542. a brush; 455. a connecting shaft; 456. beating the connecting rod; 457. beating the rod; 4571. a rolling block; 458. a return spring rod; 46. a lifting cylinder; 47. a lifting plate; 48. adsorbing branched chains; 481. an adsorption rack; 482. a bidirectional cylinder; 483. an adjusting block; 484. a connecting frame; 485. a fixed connecting frame; 486. a reset spring lever; 49. a suction attachment plate; 410. an adsorption frame; 411. and a sucking disc.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings, in which it is evident that the embodiments described are only some embodiments of the present invention, but not all embodiments. Based on the embodiments of the present invention, it is intended that one of ordinary skill in the art could obtain other embodiments without undue burden.

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

Referring to fig. 1, an improved ground decorative board mounting structure comprises a movable frame 1, movable wheels 2, a mounting frame 3 and a mounting mechanism 4, wherein movable grooves are formed in four corners of the lower end face of the movable frame 1, the movable wheels 2 are mounted in the movable grooves, the mounting frame 3 with an L-shaped structure is mounted on the left side of the upper end face of the movable frame 1, a connecting slot is formed in the horizontal section of the mounting frame 3, and the mounting mechanism 4 is mounted in the connecting slot.

Referring to fig. 1 and 2, the mounting mechanism 4 includes a rotating motor 41, a rotating frame 42, a fixed block 43, a locking bolt 44, a beating branched chain 45, a lifting cylinder 46, a lifting plate 47, an adsorption branched chain 48, an adsorption connecting plate 49, an adsorption frame 410 and a suction cup 411, wherein the rotating motor 41 is mounted on the rear end surface of the connecting slot through a motor base, one end of the rotating frame 42 is fixedly mounted on an output shaft of the rotating motor 41, the other end of the rotating frame 42 is mounted on the front end surface of the connecting slot through a bearing, the rotating frame 42 is in a square structure, the lifting cylinder 46 is mounted on the upper end surface and the lower end surface of the rotating frame 42 through a cylinder seat, the lifting plate 47 is mounted on a driving shaft of the lifting cylinder 46, the lifting plate 47 on the upper end surface is mounted with the beating branched chain 45, the lower end surface of the lifting plate 47 on the upper side is provided with the beating branched chain 47, the lower end surface middle part of the lifting plate 47 on the lower side is provided with two adsorption connecting plates 49, the lower end surfaces of the two adsorption connecting plates 49 are hinged with each other and are rotatably mounted on the lower end surface of the lifting plate 47 on the lower side, the lower end surfaces of the adsorption connecting plates 49 are uniformly mounted with a plurality of adsorption frames 410, the lower end surfaces of the adsorption frames 410 are mounted on the lower end surfaces of the suction frames 411, the lower end surfaces of the lifting plates 47 are mounted on the side of the suction plates are symmetrically arranged on the upper end surfaces of the lifting plates 47 and located on the side of the upper end surfaces of the adsorption plates and the side of the adsorption plates and are located on the upper end surfaces of the side of the upper end surfaces of the lifting plates and are located on the side of the upper frame and 3 and are mounted on the side and fixed by the side of the side and is located on the side and opposite, and opposite side, and is mounted on the side and opposite, and opposite side, and fixed.

With continued reference to fig. 1 and 2, the beating branched chain 45 includes a fixed frame 451, a reciprocating electric slider 452, a connecting plate 453, fixed connecting blocks 454, a connecting shaft 455, beating connecting rods 456, beating rods 457 and return spring rods 458, wherein the fixed connecting blocks 454 are symmetrically installed in front and back of the middle of the upper end face of the lifting plate 47, the connecting shaft 455 is installed between the fixed connecting blocks 454 through bearings, multiple sets of beating connecting rods 456 are uniformly installed on the connecting shaft 455 from front to back, the beating rods 457 are installed on the right end of the upper end face of the beating connecting rods 456 along the direction perpendicular to the upper end face of the beating connecting rods 456, the return spring rods 458 are installed between the beating connecting rods 456 and the lifting plate 47 through spherical hinges, the fixed frame 451 is installed on the left side of the upper end face of the lifting plate 47, the reciprocating electric slider 452 is installed on the right end face of the fixed frame 451, and the connecting plates 453 are abutted against the beating connecting rods 456 on the right side of the upper end face of the reciprocating electric slider 452.

Referring to fig. 4 and 6, the suction branched chain 48 includes a suction frame 481, a bidirectional cylinder 482, an adjusting block 483, a connecting frame 484, a fixing connecting frame 485 and a restoring spring rod 486, wherein the suction frame 481 is of an upward opening type structure, the upper end surface of the horizontal section of the suction frame 481 is provided with the bidirectional cylinder 482 through a cylinder seat, the telescopic end of the bidirectional cylinder 482 is provided with the adjusting block 483, the front and rear side walls of the adjusting block 483 are symmetrically provided with inclined planes, a connecting frame 484 is arranged between the adjusting block 483 and the suction attachment plate 49, one end of the connecting frame 484 is abutted against the inclined planes, the other end of the connecting frame 484 is fixed on the side wall of the suction attachment plate 49, the lower end surface of the lifting plate 47 is provided with the fixing connecting frame 485 at the front and rear sides of the hinge point of the suction attachment plate 49, one end of the restoring spring rod 486 is provided with the fixing connecting frame 485 through spherical hinges, and the other end of the restoring spring rod 486 is provided with the spherical hinges on the suction attachment plate 49.

When the tile mounting device specifically works, the movable frame 1 is pushed to move the mounting frame 3 and the mounting mechanism 4 to a working position through the movable frame 1, the bidirectional cylinder 482 is started to drive the adjusting block 483 to move according to the specification of the tile, and then the opening and closing degree of the suction attachment plates 49 can be changed through the mutual matching of the inclined plane and the connecting frame 484, so that the opening and closing area between the suction attachment plates 49 is changed, the suction cups 411 are more stable in the tile adsorption process of different specifications, the risk of falling due to overlarge gravity of the suction cups 411 in the tile adsorption process is avoided, the reset spring rod 486 plays a reset role on the suction attachment plates 49 after the tile adsorption process is finished, then the existing air pump is matched with the suction cups 411 to adsorb the tile, the lifting cylinder 46 below starts to drive the lifting plates 47 to move downwards, the tile is paved on the ground through the mutual matching of the suction frame 410 and the suction cups 411, after the tile paving is finished, the rotation locking bolt 44 leaves a threaded hole, the rotation motor 41 starts to drive the rotary frame 42 to rotate 180 degrees, and then the locking bolt 44 is reversely rotated into the threaded hole, and the lifting cylinder 46 above the lifting cylinder 46 starts to drive the beating branched chain 45 to move to the working position through the lifting plate 47, and the beating branched chain 45 is located right above the beating branched chain 45; make the laminating of ceramic tile tighten more, promote to remove frame 1 and remove frame 3 and installation mechanism 4 backward through removing frame 1 in-process, reciprocal electronic slider 452 starts to drive through connecting plate 453 and beats connecting rod 456 and rotate along connecting shaft 455 is reciprocal to beat connecting rod 456 and mutually support through return spring rod 458 and connecting plate 453 and beat the processing to the ceramic tile, make the laminating on ceramic tile ground inseparabler, the laying effect of ceramic tile is better. And when the tapping branch 45 is in an operative state; the sucking disc 411 is fed through the externally arranged feeding mechanism, so that the continuity of the equipment can be improved, and the working efficiency is improved.

Referring to fig. 4 and 5, the first electric slider 11 is mounted on the right side of the upper end surface of the moving frame 1, the horizontal frame 12 is mounted on the first electric slider 11, the second electric slider 13 is mounted on the upper end surface of the horizontal frame 12, the left and right frames 14 are mounted on the second electric slider 13, the connecting spring rods 15 are symmetrically mounted on the rear end surfaces of the left and right frames 14, the push plates 16 are jointly mounted on the rear end surfaces of the two connecting spring rods 15, the reciprocating motor 17 is mounted on the upper end surfaces of the left and right frames 14 through a motor base, the rotating cam 18 is mounted on the upper end surface of the output shaft of the reciprocating motor 17, and the rotating cam 18 is located behind the push plates 16, when the tile is laid, the first electric slider 11 starts to drive the horizontal frame 12 to move, so that the rear end surfaces of the push plates 16 and the front end surfaces of the tiles are located on the same horizontal plane, the second electric slider 13 starts to drive the left and right frames 14 to move, so that the rear end surfaces of the push plates 16 are mutually attached to the front end surfaces of the tiles, at the moment, the reciprocating motor 17 starts to drive the rotating cam 18 to reciprocate, and then drive the push plates 16 to push the tiles backwards through the connecting spring rods 15, so that the tiles are closely attached to each other, and the mutually attached tiles are mutually, and the reset gaps between the tiles are prevented from being caused by the connecting spring rods, and the connecting rods 15, and the reset effect is avoided.

Referring to fig. 1, a connection groove is formed in the upper end surface of the striking rod 457, and a rolling block 457 is mounted in the connection groove through a bearing, and the rolling block 457 moves rightward synchronously in the striking process of the striking rod 457, so that friction force between the striking rod 457 and a ceramic tile can be reduced by using the rolling block 457, and scratch of the striking rod 457 to the ceramic tile is reduced.

With continued reference to fig. 1, a cleaning plate 4541 is installed between the fixing blocks 454, and a brush 4542 is installed at the upper end of the cleaning plate 4541, so that the cleaning plate 4541 and the brush 4542 cooperate with each other to clean impurities such as cement on the tile synchronously, and the tile surface is still clean after installation.

With continued reference to fig. 1, the counterweight 19 is mounted on the right side wall of the movable frame 1, so as to avoid rollover of the movable frame 1 in the working process caused by overweight left side of the movable frame 1, and ensure balance between the movable frames 1.

Referring to fig. 7, the left side wall inside the moving groove is provided with a scraper 21 which is inclined upwards from left to right, and the scraper 21 is abutted against the moving wheel 2, so that the scraper 21 can scrape off impurities such as cement adhered to the wheel edge of the moving wheel 2 in the moving process, and the phenomenon that the smoothness of the moving wheel 2 is affected due to excessive adhesion of the impurities such as cement on the moving wheel 2 is avoided.

The invention provides an improved ground decorative board mounting structure, which comprises the following steps: the first step: and (3) adjusting: according to the specification and the size of the ceramic tile, the bidirectional cylinder 482 is started to drive the adjusting block 483 to move, so that the opening and closing degree of the suction attachment plate 49 can be changed through the mutual matching of the inclined plane and the connecting frame 484, and then the ceramic tile is adsorbed through the mutual matching of the existing air pump and the suction cup 411.

And a second step of: and (3) paving: the lifting cylinder 46 below is started to drive the lifting plate 47 to move downwards, and the tile is paved on the ground through the mutual matching of the adsorption frame 410 and the suction disc 411.

And a third step of: and (3) beating: after the ceramic tile is paved, the rotating motor 41 is started to drive the rotating frame 42 to rotate 180 degrees, the lifting air cylinder 46 above is started to drive the beating branched chain 45 to move to a working position through the lifting plate 47, and the reciprocating electric sliding block 452 is started to drive the beating connecting rod 456 to rotate reciprocally along the connecting shaft 455 through the connecting plate 453 in the process that the moving frame 1 is pushed to move the mounting frame 3 and the mounting mechanism 4 backwards through the moving frame, so that the beating connecting rod 456 is mutually matched with the connecting plate 453 through the return spring rod 458 to beat the ceramic tile.

Fourth step: repeating paving: after the tile is laid, the mounting mechanism 4 is restored to the initial position, and the above steps are repeated to perform the laying process on other tiles.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides an improved generation ground decorative board mounting structure, includes removal frame (1), removal wheel (2), installation frame (3) and installation mechanism (4), its characterized in that: remove four corners of terminal surface under the frame and seted up and remove the recess, remove recess internally mounted and remove round (2), remove the installing support (3) of installing the L type structure of frame up end left side, have seted up the connection slot on installing support (3) horizontal segment, connection slot internally mounted has installation mechanism (4), wherein:

the mounting mechanism (4) comprises a rotating motor (41), a rotating frame (42), a fixed block (43), a locking bolt (44), a beating branched chain (45), a lifting cylinder (46), a lifting plate (47), an adsorption branched chain (48), an adsorption connecting plate (49), an adsorption frame (410) and a sucker (411), wherein the rotating motor (41) is mounted on the rear end face of a connecting slot through a motor seat, one end of the rotating frame (42) is fixedly mounted on an output shaft of the rotating motor (41), the other end of the rotating frame (42) is mounted on the front end face of the connecting slot through a bearing, the rotating frame (42) is of a square structure, the lifting cylinder (46) is mounted on the upper end face and the lower end face of the rotating frame (42) through a cylinder seat, the lifting plate (47) is mounted on a driving shaft of the lifting cylinder (46), two adsorption connecting plates (49) are arranged in the middle of the lower end face of the lifting plate (47) below, the two adsorption connecting plates (49) are mutually hinged and rotatably mounted on the lower end face of the lifting plate (47) below, the adsorption frame (410) is mounted on the lower end face of the sucker (410) evenly, the lower end face of the lifting plate (47) below is provided with an adsorption branched chain (48) on the adsorption attachment plate (49), the upper end face of the mounting frame (3) is provided with a fixed block (43) on the rear side of the rotating frame (42), the fixed block (43) is provided with a locking bolt (44) through threads, the front end face of the rotating frame (42) is provided with threaded holes matched with the locking bolt (44) in an up-down symmetry manner, and the rear end of the locking bolt (44) is positioned in the threaded holes;

the utility model provides a beat branch chain (45) including fixed frame (451), reciprocal electronic slider (452), connecting plate (453), fixed connecting block (454), connecting shaft (455), beat connecting rod (456), beat pole (457) and return spring rod (458), wherein the top fixed connecting block (454) are installed to lifter plate (47) up end middle part front and back symmetry, install connecting shaft (455) through the bearing between fixed connecting block (454), evenly install multiunit beat connecting rod (456) from the front to the back on connecting shaft (455), beat connecting rod (456) up end right-hand member and install beat pole (457) along the direction of perpendicular to beat connecting rod (456) up end, beat and install return spring rod (458) through the spherical hinge between connecting rod (456) and lifter plate (47), lifter plate (47) up end and be located and beat the left side of connecting rod (456) and install fixed frame (451), reciprocal electronic slider (452) are installed to fixed frame (451) right-hand member, install connecting plate (453) on reciprocal electronic slider (452), and connecting plate (453) up end are supported on right side and are beaten on (453).

2. An improved floor trim panel mounting structure as defined in claim 1 wherein: the adsorption branched chain (48) comprises an adsorption rack (481), a bidirectional cylinder (482), an adjusting block (483), a connecting frame (484), a fixed connecting frame (485) and a reset spring rod (486), wherein the adsorption rack (481) is of an upward-opening type structure, the upper end face of the horizontal section of the adsorption rack (481) is provided with the bidirectional cylinder (482) through a cylinder seat, the telescopic end of the bidirectional cylinder (482) is provided with the adjusting block (483), the front side wall and the rear side wall of the adjusting block (483) are symmetrically provided with inclined planes, a connecting frame (484) is arranged between the adjusting block (483) and the adsorption connecting plate (49), one end of the connecting frame (484) is abutted against the inclined planes, the other end of the connecting frame (484) is fixed on the side wall of the adsorption connecting plate (49), the lower end face of the lifting plate (47) is provided with the fixed connecting frame (485) on the front side and the rear sides of the hinging point of the adsorption connecting plate (49), one end of the reset spring rod (486) is provided with the left side wall and the right side wall of the fixed connecting frame (485) through a spherical hinge, and the other end of the reset spring rod (486) is provided with the spherical hinge on the adsorption connecting plate (49).

3. An improved floor trim panel mounting structure as defined in claim 1 wherein: the electric sliding block (11) is installed on the right side of the upper end face of the movable frame (1), the horizontal frame (12) is installed on the electric sliding block (11), the second electric sliding block (13) is installed on the upper end face of the horizontal frame (12), the left and right frames (14) are installed on the second electric sliding block (13), the connecting spring rods (15) are installed on the left and right frames (14) in a bilateral symmetry mode, the pushing plates (16) are installed on the rear end faces of the two connecting spring rods (15) jointly, the reciprocating motor (17) is installed on the upper end faces of the left and right frames (14) through motor bases, the rotating cam (18) is installed on the upper end face of an output shaft of the reciprocating motor (17), and the rotating cam (18) is located behind the pushing plates (16).

4. An improved floor trim panel mounting structure as defined in claim 1 wherein: a connecting groove is formed in the upper end face of the beating rod (457), and a rolling block (4571) is arranged in the connecting groove through a bearing.

5. An improved floor trim panel mounting structure as defined in claim 1 wherein: a cleaning plate (4541) is arranged between the fixed connecting blocks (454), and a hairbrush (4542) is arranged at the upper end of the cleaning plate (4541).

6. An improved floor trim panel mounting structure as defined in claim 1 wherein: the right side wall of the movable frame (1) is provided with a balancing weight (19).

7. An improved floor trim panel mounting structure as defined in claim 1 wherein: the left side wall inside the moving groove is provided with a scraper (21) which is inclined upwards from left to right, and the scraper (21) is abutted against the moving wheel (2).