CN113374231B - Construction method for laying ceramic tiles for house decoration engineering - Google Patents

Abstract

The invention relates to a method for laying and constructing ceramic tiles for house decoration engineering, which uses a device for laying and constructing the ceramic tiles for the house decoration engineering, the tile laying construction device for the house decoration project comprises a shifting frame, a shifting sliding plate, a supporting plate, a top plate, a positioning mechanism, universal wheels, a knocking mechanism and a square plate, can solve the problem that in the tile laying construction process of the house decoration project, a plurality of people need to carry out laying operation in a coordinated way, increases the labor intensity of workers, and the manual work is carried out the ceramic tile and is laid and be difficult to make all be in the level state placed in the middle between ceramic tile and the ceramic tile around the ceramic tile, has reduced the pleasing to the eye and the performance of ceramic tile, also is difficult to make the laminating gap both sides of ceramic tile receive even knocking force, has increased the marginal part of ceramic tile and has received the probability that strikes vibration and break off, has further reduced the operating efficiency scheduling problem of ceramic tile laying operation.

Description

Construction method for laying ceramic tiles for house decoration engineering

Technical Field

The invention relates to the technical field of house decoration, in particular to a construction method for laying ceramic tiles in house decoration engineering.

Background

The ceramic tile is made up by using refractory metal oxide and semimetal oxide through the processes of grinding, mixing, pressing, glazing and sintering, and is an acid-alkali-resistant building or decorative material made up by using porcelain or stone material, etc. and is called as ceramic tile. Its raw and other materials are formed by clay, quartz sand, through mixing such as high temperature after-compression, have very high hardness, and the ceramic tile is often used in house decoration engineering field for promote the comprehensive performance and the whole pleasing to the eye degree on house ground, however, carrying out the in-process that house ceramic tile laid the operation, often can have following problem:

1) the traditional ceramic tile laying operation is usually carried out manually, and after the ceramic tile is laid manually, the rubber hammer is required to be held by hand to carry out knocking and leveling operation on the ceramic tile, so that a large amount of repetitive labor exists in the operation mode, the operation intensity of workers is increased, the periphery of the ceramic tile and the space between the ceramic tile are difficult to be in a horizontal and centered state due to manual knocking, the operation efficiency of ceramic tile laying is reduced, and the attractiveness and the use performance of the ceramic tile are also reduced;

2) traditional ceramic tile laying operation, because of the floor area in the different rooms and the size of a dimension of different ceramic tiles, the manual work is beating the in-process of flattening operation, is difficult to make the laminating gap both sides of ceramic tile receive even power of beating, has increased the marginal part of ceramic tile and has received the phenomenon of beating the vibration and breaking occur, has further reduced the operating efficiency that the operation was laid to the ceramic tile, has also caused the wasting of resources to a certain extent.

Disclosure of Invention

In order to solve the problems, the invention provides a tile laying construction method for house decoration engineering, which can solve the problems in the background technology.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a house decoration engineering ceramic tile lays construction method, it has used a house decoration engineering ceramic tile to lay construction equipment, this house decoration engineering ceramic tile lays construction equipment includes the frame that shifts, aversion slide, backup pad, roof, positioning mechanism, universal wheel, knocking mechanism and square board, adopts above-mentioned house decoration engineering ceramic tile to lay construction equipment to house decoration engineering ceramic tile when laying the construction operation concrete method as follows:

s1, paving the ceramic tiles: firstly, carrying out tile laying operation on the floor of a house manually;

s2, positioning and moving: after the tiles in the house are laid, manually placing the shifting frame in the middle of the upper surface of the tiles, enabling the shifting frame to be parallel to the fit gaps between the tiles, manually installing the shifting sliding plate on the shifting frame, and further enabling the universal wheels at the lower end of the positioning mechanism to abut against the upper surface of the tiles;

s3, knocking and flattening: after the step S2 is finished, the manual pushing device is used for moving integrally, the knocking mechanism is further started to operate, and the knocking mechanism is used for knocking the joint part between the tiles so as to keep the heights between the tiles consistent;

s4, standing and forming: after the step S3 is finished, setting proper standing time to enable the tile and the cement to naturally stand and solidify, and finishing the laying and leveling operation of the tile;

the shift frame on install the aversion slide through sliding fit's mode, positioning mechanism is installed through articulated symmetry in the both sides of aversion slide, all installs the universal wheel on the positioning mechanism, the backup pad is installed to the upper end symmetry of aversion slide, the roof is installed jointly to the upper end of backup pad, and all be provided with the strengthening rib between backup pad and the aversion slide and between backup pad and the roof, install the square plate on the positioning mechanism, and install knocking mechanism jointly on square plate and the roof.

The knocking mechanism comprises fixing plates, a driving plate, a driving motor, a driving rotating shaft, a driving gear, a knocking rotating shaft, a knocking gear, a knocking cam, a transmission plate, a knocking sliding rod, a limiting sliding rod, a knocking spring, a knocking seat and a limiting unit, wherein a plurality of groups of fixing plates are arranged at the upper ends of the top plate and the square plate respectively, the fixing plates in the same group are respectively positioned on the top plate and the square plate, the knocking rotating shaft is arranged between the fixing plates in the same group in a rotating fit manner, the knocking cam is arranged on the knocking rotating shaft close to one side of the square plate through a spline, the knocking gear is arranged on the knocking rotating shaft close to one side of the top plate through a spline, the driving plate is symmetrically arranged in the middle of the upper end of the top plate, the driving rotating shaft is arranged between the driving plates through a bearing, the driving gear is arranged on the driving rotating shaft through a spline, the driving gear is respectively meshed with the knocking gears at two sides for transmission, the driving motor is arranged on the driving plate through a motor seat, and driving motor's output shaft is connected with the drive pivot through the shaft coupling, install through sliding fit's mode symmetry on the square plate and strike the slide bar, strike the lower extreme of slide bar and install and strike the seat, strike the upper end of slide bar and install the driving plate jointly, the driving plate is located the top of strikeing the cam and the driving plate supports and leans on strikeing the cam, install spacing slide bar on the driving seat, the upper end of spacing slide bar is connected with the square plate through sliding fit's mode, and be provided with between the middle part of spacing slide bar and the square plate and strike the spring, the both ends of striking the spring are connected with square plate and spacing slide bar respectively, the striking spring accessible self elasticity of setting makes the driving plate support all the time and leans on and strikes the cam, and provide certain vibration effect for strikeing the seat.

Further, the aversion frame including the aversion bottom plate, the aversion spout, sucking disc and aversion slider, the sucking disc is evenly installed to the lower extreme of aversion bottom plate, the aversion spout has been seted up to the upper end symmetry of aversion bottom plate, the lower extreme symmetry of aversion slide is provided with the aversion slider, the aversion slider is located the aversion spout and aversion slider and aversion bottom plate sliding fit, the aversion bottom plate through the movable mounting formula can further adapt to indoor ground dimensional change, the adsorption of through the sucking disc can further realize the quick location and the dismantlement of device, further promote the operating efficiency that the flattening operation was laid to the ceramic tile.

Furthermore, the positioning mechanism comprises a positioning chute, a positioning slide bar, a positioning cylinder, a positioning connecting rod, a transmission seat, a positioning bottom plate and a fixing rod, the lower end of the supporting plate is provided with the positioning chute, the positioning slide bar is arranged in the positioning chute in a sliding fit manner, the two sides of the shifting slide plate are symmetrically provided with the positioning bottom plate, the lower end of the positioning bottom plate far away from one side of the shifting slide plate is symmetrically provided with universal wheels, the upper end of the positioning bottom plate close to one side of the shifting slide plate is uniformly provided with the transmission seat, the transmission seat and the positioning slide bar are in transmission hinge joint through the positioning connecting rod, the middle part of the upper end of the shifting slide plate is provided with the positioning cylinder, the output shaft of the positioning cylinder is hinged with the positioning slide bar, the fixing rod is uniformly arranged around the upper end of the positioning bottom plate, the upper ends of the fixing rods are jointly provided with square plates which are respectively positioned at the two sides of the top plate, and the height of the upper ends of the square plates is equal to the top plate, the hinged transmission through the positioning connecting rod can further enable the knocking seat to adapt to the size change of the ceramic tile, and synchronous knocking and leveling are carried out on the two sides of the ceramic tile, so that the operation efficiency of the ceramic tile laying and leveling operation is further improved.

Furthermore, the square plate is symmetrically provided with knocking sliding grooves, and the middle part of the knocking sliding rod is positioned in the knocking sliding grooves and is in sliding fit with the square plate.

Further, strike the seat including strikeing piece, connecting rod and cushion, strike the seat and form through the connecting rod combination concatenation for the three piece that strikes that the structure is the same, strike the equal symmetry of lower extreme of piece and be provided with the cushion, the lower extreme of spacing slide bar is connected with the piece that strikes that is close to the location bottom plate outside, the lower extreme that strikes the slide bar is connected with the piece that strikes that is close to the location bottom plate middle part, the piece that strikes through the multistation setting can further carry out synchronous the striking to the ceramic tile of laminating gap both sides.

Furthermore, the strike pivot form for two sections slide bars concatenations, one of two sections slide bars is installed on the fixed plate of roof upper end through normal running fit's mode, another section of two sections slide bars is installed on the fixed plate of square slab upper end through normal running fit's mode, the slide bar that is located on the roof is connected through normal running fit's mode with the slide bar that is located on the square slab, and the section plane at two sections slide bar connection positions is regular polygon, can further adapt to the square slab through the strike pivot of normal running fit concatenation and remove the interval change between the in-process and the roof.

Further, spacing unit include spacing seat, spacing bottom plate, spacing pivot, spacing bull stick, waist type groove, spacing slide, gag lever post and spacing spout, strike the upper end on the seat and install spacing slide, spacing spout has been seted up at the middle part of spacing slide, install the gag lever post through the bearing in the spacing spout, spacing bottom plate is installed to the middle part bilateral symmetry of location bottom plate, install spacing pivot through the spline between the spacing bottom plate, spacing bull stick is installed through normal running fit's mode symmetry in the spacing pivot, waist type groove has been seted up to the one end of spacing bull stick, waist type trench is located spacing spout and waist type groove and gag lever post sliding fit, install spacing seat on the location bottom plate, spacing seat is located between the spacing bottom plate and spacing seat's bilateral symmetry installs spacing, and spacing bull stick sliding fit, sliding fit between through spacing bull stick and the spacing slide can make the piece that evenly sets up all carry out synchronous straight line toward the spacing seat And moving again to further enable the ceramic tiles on two sides of the joint gap to be stressed uniformly.

Furthermore, the limiting frame is provided with an arc-shaped groove, the end part of the limiting rotating rod is provided with a sliding rod, and the sliding rod is positioned in the arc-shaped groove and is in sliding fit with the limiting frame.

Furthermore, the positioning slide bar on install the sliding block through normal running fit's mode symmetry, the sliding block is located the positioning chute and sliding block and backup pad sliding fit.

The invention has the beneficial effects that:

1. the positioning mechanism arranged in the invention can further adapt to the indoor floor size change through the movably-mounted shifting bottom plate, can further realize the rapid positioning and dismounting of the device through the adsorption effect of the sucking disc, further improves the operation efficiency of the tile laying and leveling operation, can further adapt the knocking seat to the size change of the tile through the hinged transmission of the positioning connecting rod, and can synchronously knock and level the two sides of the tile, thereby further improving the operation efficiency of the tile laying and leveling operation and reducing the labor intensity of manual operation.

2. According to the knocking mechanism provided by the invention, the ceramic tiles on two sides of the joint gap can be further synchronously knocked by the knocking blocks arranged in multiple stations, the knocking blocks uniformly arranged can synchronously and linearly reciprocate through the sliding fit between the limiting rotating rod and the limiting sliding plate, the ceramic tiles on two sides of the joint gap are further uniformly stressed, the cushion pad arranged at the lower end of the knocking block can enable the knocking blocks to be in elastic contact with the ceramic tiles when the knocking blocks are in contact with the ceramic tiles, the phenomenon that the edge parts of the ceramic tiles are cracked due to knocking vibration is avoided, the driving plate can always abut against the knocking cam through the elastic force of the knocking spring, a certain vibration effect is provided for the knocking seat, the knocking effect of the cushion pad on the ceramic tiles is further enhanced, and the integral horizontal degree between the ceramic tiles is improved.

Drawings

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

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a front view of the overall structure of the present invention;

FIG. 3 is a schematic view of the working state structure of the present invention;

FIG. 4 is a cross-sectional schematic view of FIG. 3 of the present invention;

FIG. 5 is a schematic cross-sectional view taken along line A-A of FIG. 4 in accordance with the present invention;

FIG. 6 is an enlarged schematic view at B of FIG. 4 in accordance with the present invention;

FIG. 7 is an enlarged schematic view at C of FIG. 4 of the present invention;

FIG. 8 is an enlarged schematic view taken at D of FIG. 5 in accordance with the present invention;

FIG. 9 is a schematic view of a partial perspective view of the positioning mechanism of the present invention;

FIG. 10 is a partial perspective view of the striking mechanism of the present invention;

fig. 11 is a partial perspective view of the spacing unit of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments, it being understood that the specific embodiments described herein are only used for explaining the present invention and are not used for limiting the present invention.

Referring to fig. 1 to 11, a construction method for laying tiles for house decoration engineering uses a construction device for laying tiles for house decoration engineering, which comprises a shift frame 1, a shift slide plate 2, a support plate 3, a top plate 4, a positioning mechanism 5, universal wheels 6 and a knocking mechanism 7.

Shift frame 1 on install aversion slide 2 through sliding fit's mode, positioning mechanism 5 is installed through articulated symmetry in the both sides of aversion slide 2, all installs universal wheel 6 on positioning mechanism 5, backup pad 3 is installed to the upper end symmetry of aversion slide 2, roof 4 is installed jointly to the upper end of backup pad 3, and all be provided with the strengthening rib between backup pad 3 and the aversion slide 2 and between backup pad 3 and the roof 4, install knocking mechanism 7 jointly on positioning mechanism 5 and the roof 4.

The shifting frame 1 comprises a shifting bottom plate 1a, a shifting chute 1b, suckers 1c and shifting sliders 1d, the suckers 1c are evenly installed at the lower end of the shifting bottom plate 1a, the shifting chute 1b is symmetrically arranged at the upper end of the shifting bottom plate 1a, the shifting sliders 1d are symmetrically arranged at the lower end of the shifting slider 2, and the shifting sliders 1d are located in the shifting chute 1b and are in sliding fit with the shifting bottom plate 1 a.

During operation, place aversion bottom plate 1a through the manual work on laying the ceramic tile middle part after accomplishing, and make aversion bottom plate 1a parallel with the laminating gap of ceramic tile, after placing the completion, further press aversion bottom plate 1a, make the sucking disc 1c of aversion bottom plate 1a lower extreme adsorb on the ceramic tile, later, will set up in the aversion spout 1b is installed to aversion slider 1d joint that shifts 2 lower extremes through the manual work, further realize the location operation of aversion slide 2 (this moment, the location bottom plate 5f of symmetry installation is located the both sides of aversion bottom plate 1a respectively, and set up the universal wheel 6 that sets up in location bottom plate 5f lower extreme and all support at the upper surface at the ceramic tile).

The positioning mechanism 5 comprises a positioning chute 5a, a positioning slide bar 5b, a positioning cylinder 5c, a positioning connecting rod 5d, a transmission seat 5e, a positioning bottom plate 5f, a fixing rod 5g and a square plate 5h, the lower end of the support plate 3 is provided with the positioning chute 5a, the positioning slide bar 5b is arranged in the positioning chute 5a in a sliding fit manner, the positioning slide bar 5b is symmetrically provided with slide blocks in a rotating fit manner, the slide blocks are positioned in the positioning chute 5a and are in sliding fit with the support plate 3, the positioning bottom plates 5f are symmetrically arranged on two sides of the shifting slide plate 2, the lower end of the positioning bottom plate 5f far away from one side of the shifting slide plate 2 is symmetrically provided with universal wheels 6, the upper end of the positioning bottom plate 5f near one side of the shifting slide plate 2 is uniformly provided with the transmission seat 5e, and the transmission seat 5e and the positioning slide bar 5b are in transmission hinge joint through the positioning connecting rod 5d, the middle of the upper end of the shifting sliding plate 2 is provided with a positioning cylinder 5c, the output shaft of the positioning cylinder 5c is hinged with a positioning slide rod 5b, fixing rods 5g are uniformly arranged on the periphery of the upper end of a positioning bottom plate 5f, a square plate 5h is jointly arranged on the upper ends of the fixing rods 5g, and the square plates 5h are respectively positioned on two sides of the top plate 4, and the height of the upper end of the square plate 5h is equal to that of the upper end of the top plate 4.

When the ceramic tile fixing device works specifically, after the shifting sliding plate 2 is located, the positioning sliding rod 5b is further driven to slide downwards in the positioning sliding groove 5a through the positioning air cylinder 5c (the moving path of the positioning sliding rod 5b can be further limited through sliding fit between the sliding block and the positioning sliding groove 5a, the possibility that the positioning sliding groove 5a shakes leftwards and rightwards when lifting and moving is reduced), the positioning sliding rod 5b slides downwards, the positioning bottom plate 5f which is symmetrically installed is further synchronously moved outwards synchronously through hinged transmission of the positioning connecting rod 5d, and the knocking seat 7p is enabled to reach the upper position of a ceramic tile fitting gap.

The knocking mechanism 7 comprises a fixing plate 7a, a driving plate 7b, a driving motor 7c, a driving rotating shaft 7d, a driving gear 7e, a knocking rotating shaft 7f, a knocking gear 7g, a knocking cam 7h, a transmission plate 7j, a knocking sliding rod 7k, a limiting sliding rod 7m, a knocking spring 7n, a knocking seat 7p and a limiting unit 7q, wherein a plurality of groups of fixing plates 7a are installed at the upper ends of the top plate 4 and the square plate 5h, the fixing plates 7a in the same group are respectively located on the top plate 4 and the square plate 5h, the knocking rotating shaft 7f is installed between the fixing plates 7a in the same group in a rotation matching mode, the knocking rotating shaft 7f is formed by splicing two sections of sliding rods, one section of the two sections of sliding rods is installed on the fixing plate 7a at the upper end of the top plate 4 in a rotation matching mode, the other section of the two sections of sliding rods is installed on the fixing plate 7a at the upper end of the square plate 5h in a rotation matching mode, the slide bar on the top plate 4 is connected with the slide bar on the square plate 5h in a sliding fit mode, the section surfaces of the connecting parts of the two sections of slide bars are regular polygons, a knocking cam 7h is arranged on a knocking rotating shaft 7f close to one side of the square plate 5h through a spline, a knocking gear 7g is arranged on the knocking rotating shaft 7f close to one side of the top plate 4 through a spline, driving plates 7b are symmetrically arranged in the middle of the upper end of the top plate 4, a driving rotating shaft 7d is arranged between the driving plates 7b through a bearing, a driving gear 7e is arranged on the driving rotating shaft 7d through a spline and is respectively in meshing transmission with the knocking gears 7g on the two sides, a driving motor 7c is arranged on the driving plate 7b through a motor base, the output shaft of the driving motor 7c is connected with the driving rotating shaft 7d through a coupler, and knocking slide bars 7k are symmetrically arranged on the square plate 5h in a sliding fit mode, square plate 5h on the symmetry seted up and strikeed the spout, the middle part of strikeing slide bar 7k is located and strikees slide bar 7k and square plate 5h sliding fit in the spout, strike slide bar 7 k's lower extreme and install and strike seat 7p, strike slide bar 7 k's upper end and install driving plate 7j jointly, driving plate 7j is located and strikes cam 7 h's top and driving plate 7j and support and lean on strikeing cam 7h, install limit slide bar 7m on the driving seat 5e, limit slide bar 7 m's upper end is connected with square plate 5h through sliding fit's mode, and be provided with between limit slide bar 7 m's middle part and the square plate 5h and strike spring 7n, strike spring 7 n's both ends and be connected with square plate 5h and limit slide bar 7m respectively.

The knocking seat 7p comprises knocking blocks 7p1, connecting rods 7p2 and buffer pads 7p3, the knocking seat 7p is formed by combining and splicing three knocking blocks 7p1 with the same structure through connecting rods 7p2, the buffer pads 7p3 are symmetrically arranged at the lower ends of the knocking blocks 7p1, the lower end of a limiting slide rod 7m is connected with the knocking block 7p1 close to the outer side of the positioning bottom plate 5f, and the lower end of a knocking slide rod 7k is connected with the knocking block 7p1 close to the middle of the positioning bottom plate 5 f;

when the ceramic tile knocking device works specifically, in the process that the positioning bottom plate 5f drives the knocking seat 7p to move, the knocking rotating shaft 7f is driven by the square plate 5h to move synchronously, the knocking rotating shaft 7f spliced by sliding fit can further adapt to the change of the distance between the square plate 5h and the top plate 4 in the moving process, after the knocking seat 7p reaches the upper part of a tile fitting gap, the driving motor 7c is further started to rotate, the driving shaft 7d is further driven by the driving shaft 7d to rotate synchronously, the knocking rotating shaft 7f is further driven by the meshing transmission between the driving gear 7e and the knocking gear 7g to rotate synchronously, the knocking cam 7h is further driven to rotate synchronously, and the knocking sliding rod 7k is further driven to perform vertical linear reciprocating sliding in the knocking sliding chute by the abutting action between the knocking cam 7h and the transmission plate 7j when the knocking cam 7h rotates, further drive and strike seat 7p and carry out the reciprocal slip of straight line from top to bottom in step, strike piece 7p1 through the multistation setting can further carry out synchronous striking to the ceramic tile of laminating gap both sides, set up and carry out elastic contact when striking piece 7p1 and the ceramic tile contact in the blotter 7p3 that strikes the piece 7p1 lower extreme, avoid the edge part of ceramic tile to receive to strike vibration and the cracked phenomenon takes place, sliding fit through between spacing slide bar 7m and the square plate 5h can further carry on spacingly to the lift route of striking seat 7p, the strike spring 7n of setting accessible self elasticity makes driving plate 7j support all the time and lean on striking cam 7h, and provide certain vibration effect for striking seat 7p, further strengthen the operation effect that blotter 7p3 struck the ceramic tile.

The limiting unit 7q comprises a limiting seat 7q1, a limiting frame 7q2, a limiting bottom plate 7q3, a limiting rotating shaft 7q4, a limiting rotating rod 7q5, a waist-shaped groove 7q6, a limiting sliding plate 7q7, a limiting rod 7q8 and a limiting sliding groove 7q9, wherein the upper end of the knocking seat 7p is provided with the limiting sliding plate 7q7, the middle part of the limiting sliding plate 7q7 is provided with the limiting sliding groove 7q9, the limiting sliding groove 7q9 is internally provided with the limiting rod 7q8 through a bearing, the middle part of the positioning bottom plate 5f is symmetrically provided with the limiting bottom plate 7q3, the limiting rotating shaft 7q4 is arranged between the limiting bottom plates 7q3 through a spline, the limiting rotating rod 7q5 is symmetrically arranged on the limiting rotating shaft 7q4 in a rotating fit mode, one end of the limiting rotating rod 7q5 is provided with the waist-shaped groove 7q6, the waist-shaped groove 7q6 is arranged in the limiting sliding groove 7q6, the limiting seat 6 is slidably matched with the limiting rod 6857 q6, spacing 7q1 is located between the spacing bottom plate 7q3 and spacing 7q 1's bilateral symmetry installs spacing 7q2, spacing 7q2 on seted up the arc wall, the slide bar is installed to spacing bull stick 7q 5's tip, the slide bar is located the arc wall and slide bar and spacing 7q2 sliding fit.

During specific work, when the knocking seat 7p performs vertical reciprocating motion, the limiting rotary rod 7q5 rotates in a circular mode through the limiting rotary shaft 7q4 through sliding fit between the limiting rod 7q8 and the waist-shaped groove 7q6, the limiting rotary rod 7q5 can be further limited and supported through sliding fit between the sliding rod and the arc-shaped groove, deflection of the limiting rotary rod 7q5 caused by knocking vibration of the knocking seat 7p is avoided, the knocking blocks 7p1 which are uniformly arranged can perform synchronous linear reciprocating motion through sliding fit between the limiting rotary rod 7q5 and the limiting sliding plate 7q7, tile stress on two sides of a fit gap is further uniform, and the overall horizontal degree between tiles is improved.

In addition, when the building decoration engineering ceramic tile laying construction device is adopted to carry out the laying construction operation on the building decoration engineering ceramic tile, the concrete method is as follows:

s1, tile laying: firstly, carrying out tile laying operation on the floor of a house manually;

s2, positioning and moving: the shifting bottom plate 1a is manually placed on the middle part of the laid ceramic tile, the shifting bottom plate 1a is parallel to the joint gap of the ceramic tile, after the placement is finished, further pressing the shift base plate 1a to make the suction cup 1c at the lower end of the shift base plate 1a suck on the tile, and thereafter, the shifting slide block 1d arranged at the lower end of the shifting slide plate 2 is clamped and installed in the shifting slide groove 1b by manpower, the positioning operation of the shifting slide plate 2 is further realized, and then, further drives the positioning slide bar 5b to slide downwards in the positioning slide groove 5a through the positioning air cylinder 5c, when the positioning slide rod 5b slides downwards, the symmetrically arranged positioning bottom plates 5f synchronously move outwards synchronously through the hinged transmission of the positioning connecting rod 5d, so that the knocking seat 7p reaches the position above the tile attaching gap;

s3, knocking and flattening: carry out the bulk movement through artifical thrust unit, further start driving motor 7c and rotate, further drive gear 7e through drive pivot 7d and carry out synchronous rotation, further drive strike pivot 7f through the meshing transmission between drive gear 7e and the strike gear 7g and carry out synchronous rotation, further drive strike cam 7h and carry out synchronous rotation, further make strike slide bar 7k carry out straight reciprocating sliding from top to bottom in strikeing the spout through striking the support effect between 7h rotation and the driving plate 7j, further drive and strike seat 7p and carry out synchronous straight reciprocating sliding from top to bottom, strike piece 7p1 through multistation setting can further carry out synchronous strike to the ceramic tile of laminating gap both sides, make the ceramic tile after the laminating is accomplished all be in the level state between two parties, realize laying of ceramic tile and leveling operation, set up and connect elasticity when striking piece 7p3 and the ceramic tile when striking piece 7p1 lower extreme and can make and strike piece 7p1 and ceramic tile contact Further enhancing the working effect of the cushion pad 7p3 on the tile striking work;

s4, standing and forming: and S3, setting proper standing time to naturally stand and solidify the ceramic tiles and the cement, and finishing the laying and leveling operation of the ceramic tiles.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a house decoration engineering ceramic tile lays construction method, its has used a house decoration engineering ceramic tile to lay construction equipment, and this house decoration engineering ceramic tile lays construction equipment includes shift frame (1), aversion slide (2), backup pad (3), roof (4), positioning mechanism (5), universal wheel (6), knocking mechanism (7) and square slab (8), its characterized in that: the concrete method for laying the ceramic tiles for the house decoration engineering by adopting the ceramic tile laying construction device for the house decoration engineering comprises the following steps:

s1, tile laying: firstly, carrying out tile laying operation on the floor of a house manually;

s2, positioning and moving: after the tiles in the house are laid, the shifting frame (1) is manually placed in the middle of the upper surface of the tiles, the shifting frame (1) is made to be parallel to a joint gap between the tiles, then the shifting sliding plate (2) is further manually installed on the shifting frame (1), and the universal wheels (6) at the lower end of the positioning mechanism (5) are further made to abut against the upper surface of the tiles;

s3, knocking and flattening: after the step S2 is finished, the manual pushing device is used for moving integrally, the knocking mechanism (7) is further started to operate, and the knocking mechanism (7) is used for knocking the joint part between the tiles so as to keep the heights between the tiles consistent;

s4, standing and forming: after the step S3 is finished, setting proper standing time to enable the tile and the cement to naturally stand and solidify, and finishing the laying and leveling operation of the tile;

the shifting frame (1) is provided with a shifting sliding plate (2) in a sliding fit mode, two sides of the shifting sliding plate (2) are symmetrically provided with positioning mechanisms (5) through hinges, universal wheels (6) are arranged on the positioning mechanisms (5), a supporting plate (3) is symmetrically arranged at the upper end of the shifting sliding plate (2), the upper ends of the supporting plates (3) are jointly provided with a top plate (4), reinforcing ribs are arranged between the supporting plate (3) and the shifting sliding plate (2) and between the supporting plate (3) and the top plate (4), a square plate (8) is arranged on the positioning mechanisms (5), and a knocking mechanism (7) is arranged on the square plate (8) and the top plate (4) together;

the knocking mechanism (7) comprises a fixing plate (7a), a driving plate (7b), a driving motor (7c), a driving rotating shaft (7d), a driving gear (7e), a knocking rotating shaft (7f), a knocking gear (7g), a knocking cam (7h), a transmission plate (7j), a knocking sliding rod (7k), a limiting sliding rod (7m), a knocking spring (7n), a knocking seat (7p) and a limiting unit (7q), wherein a plurality of groups of fixing plates (7a) are arranged at the upper ends of the top plate (4) and the square plate (8), the fixing plates (7a) in the same group are respectively positioned on the top plate (4) and the square plate (8), the knocking rotating shaft (7f) is arranged between the fixing plates (7a) in the same group in a rotating matching mode, and the knocking cam (7h) is arranged on the knocking rotating shaft (7f) close to one side of the square plate (8) through splines, a knocking gear (7g) is arranged on a knocking rotating shaft (7f) close to one side of the top plate (4) through a spline, driving plates (7b) are symmetrically arranged in the middle of the upper end of the top plate (4), a driving rotating shaft (7d) is arranged between the driving plates (7b) through a bearing, a driving gear (7e) is arranged on the driving rotating shaft (7d) through a spline, the driving gear (7e) is respectively in meshing transmission with the knocking gears (7g) on two sides, a driving motor (7c) is arranged on the driving plate (7b) through a motor base, an output shaft of the driving motor (7c) is connected with the driving rotating shaft (7d) through a coupler, knocking sliding rods (7k) are symmetrically arranged on the square plate (8) in a sliding fit mode, a knocking seat (7p) is arranged at the lower end of the knocking sliding rod (7k), and a transmission plate (7j) is arranged at the upper end of the knocking sliding rod (7k), transmission plate (7j) are located the top of strikeing cam (7h) and transmission plate (7j) support and lean on strikeing cam (7h), install limit slide bar (7m) on transmission seat (5e), the upper end of limit slide bar (7m) is connected with square plate (8) through sliding fit's mode, and be provided with between the middle part of limit slide bar (7m) and square plate (8) and strike spring (7n), the both ends of striking spring (7n) are connected with square plate (8) and limit slide bar (7m) respectively.

2. The method for laying and constructing ceramic tiles for house decoration engineering according to claim 1, wherein: the shifting frame (1) comprises a shifting bottom plate (1a), a shifting sliding groove (1b), a sucker (1c) and a shifting sliding block (1d), the sucker (1c) is uniformly installed at the lower end of the shifting bottom plate (1a), the shifting sliding groove (1b) is symmetrically formed in the upper end of the shifting bottom plate (1a), the shifting sliding block (1d) is symmetrically arranged at the lower end of the shifting sliding plate (2), and the shifting sliding block (1d) is located in the shifting sliding groove (1b) and is in sliding fit with the shifting bottom plate (1 a).

3. The method for laying and constructing ceramic tiles for house decoration engineering according to claim 1, wherein: the positioning mechanism (5) comprises a positioning chute (5a), a positioning slide bar (5b), a positioning cylinder (5c), a positioning connecting rod (5d), a transmission seat (5e), a positioning bottom plate (5f) and a fixing rod (5g), the lower end of the supporting plate (3) is provided with the positioning chute (5a), the positioning slide bar (5b) is arranged in the positioning chute (5a) in a sliding fit mode, the two sides of the shifting slide plate (2) are symmetrically provided with the positioning bottom plates (5f), the lower end of the positioning bottom plate (5f) far away from one side of the shifting slide plate (2) is symmetrically provided with universal wheels (6), the upper end of the positioning bottom plate (5f) close to one side of the shifting slide plate (2) is uniformly provided with the transmission seat (5e), the transmission seat (5e) is hinged with the positioning slide bar (5b) through the positioning connecting rod (5d), the middle part of the upper end of the shifting slide plate (2) is provided with the positioning cylinder (5c), the output shaft of location cylinder (5c) is articulated mutually with location slide bar (5b), and dead lever (5g) are evenly installed all around to the upper end of location bottom plate (5f), and square slab (8) are installed jointly to the upper end of dead lever (5g), and square slab (8) are located the both sides of roof (4) respectively and the upper end height of square slab (8) equals with the upper end height of roof (4).

4. The method for laying and constructing ceramic tiles for house decoration engineering according to claim 1, wherein: the square plate (8) is symmetrically provided with knocking sliding grooves, the middle parts of the knocking sliding rods (7k) are located in the knocking sliding grooves, and the knocking sliding rods (7k) are in sliding fit with the square plate (8).

5. The method for laying and constructing ceramic tiles for house decoration engineering according to claim 3, wherein: knocking seat (7p) including knocking piece (7p1), connecting rod (7p2) and buffer pad (7p3), knocking seat (7p) and forming through connecting rod (7p2) combination concatenation for three that the structure is the same beats piece (7p1), the equal symmetry of lower extreme of knocking piece (7p1) is provided with buffer pad (7p3), the lower extreme of spacing slide bar (7m) is connected with the piece of knocking (7p1) that is close to the locating bottom plate (5f) outside, the lower extreme of knocking slide bar (7k) is connected with the piece of knocking (7p1) that is close to locating bottom plate (5f) middle part.

6. The method for laying and constructing ceramic tiles for house decoration engineering according to claim 1, wherein: the knocking rotating shaft (7f) is formed by splicing two sections of sliding rods, one section of the two sections of sliding rods is arranged on a fixing plate (7a) at the upper end of a top plate (4) in a rotation fit mode, the other section of the two sections of sliding rods is arranged on a fixing plate (7a) at the upper end of a square plate (8) in a rotation fit mode, the sliding rods positioned on the top plate (4) are connected with the sliding rods positioned on the square plate (8) in a sliding fit mode, and the section surfaces of the connecting parts of the two sections of sliding rods are regular polygons.

7. The method for laying and constructing ceramic tiles for house decoration engineering according to claim 3, wherein: the limiting unit (7q) comprises a limiting seat (7q1), a limiting frame (7q2), a limiting bottom plate (7q3), a limiting rotating shaft (7q4), a limiting rotating rod (7q5), a waist-shaped groove (7q6), a limiting sliding plate (7q7), a limiting rod (7q8) and a limiting sliding groove (7q9), wherein the limiting sliding plate (7q7) is installed at the upper end of the knocking seat (7p), the limiting sliding groove (7q9) is formed in the middle of the limiting sliding plate (7q7), the limiting rod (7q8) is installed in the limiting sliding groove (7q9) through a bearing, the limiting bottom plate (7q3) is installed in the left-right symmetrical mode in the middle of the positioning bottom plate (5f), the limiting rotating shaft (7q4) is installed between the limiting bottom plates (7q3) through splines, the limiting rotating rod (7q5) is symmetrically installed on the limiting rotating shaft (7q4) in a rotating fit mode, and one end of the limiting rotating rod (7q5) is provided with the waist-shaped groove (7q6), waist type groove (7q6) are located spacing spout (7q9) and waist type groove (7q6) and gag lever post (7q8) sliding fit, install spacing seat (7q1) on locating bottom plate (5f), spacing seat (7q1) are located between spacing bottom plate (7q3) and spacing seat (7q1) bilateral symmetry installs spacing frame (7q2), and spacing frame (7q2) and spacing bull stick (7q5) sliding fit.

8. The method for laying and constructing ceramic tiles for house decoration engineering according to claim 7, wherein: an arc-shaped groove is formed in the limiting frame (7q2), a sliding rod is installed at the end of the limiting rotating rod (7q5), the sliding rod is located in the arc-shaped groove, and the sliding rod is in sliding fit with the limiting frame (7q 2).

9. The method for laying and constructing ceramic tiles for house decoration engineering according to claim 3, wherein: the positioning slide rod (5b) is symmetrically provided with sliding blocks in a rotating fit mode, and the sliding blocks are positioned in the positioning slide grooves (5a) and are in sliding fit with the supporting plate (3).

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