CN112727031A - Automatic laying equipment of ceramic tile for building engineering - Google Patents

Abstract

The invention is suitable for the technical field of buildings, and provides automatic floor tile laying equipment for building engineering, which comprises a laying plate, wherein the laying plate is slidably arranged in a sliding mechanism, and the sliding mechanism is fixed on an indoor wall through a fixing component; the front surface of the laying plate is provided with a hollow groove, a position adjusting mechanism is arranged in the hollow groove, the position adjusting mechanism is connected with a motor box through a transverse automatic telescopic rod, and a direction rotating mechanism is arranged in the motor box and connected with a lifting grabbing and laying mechanism on the upper surface of the motor box; the automatic floor tile stacking device is characterized in that a floor tile stacking mechanism is installed at the top of the laying plate, and an automatic hammering mechanism is installed at the bottom of the laying plate. The invention has high automation degree and laying efficiency, is provided with the laying plate, can drive the laying plate to move on the air ground by utilizing the matching of the sliding mechanism and the laying plate, and can automatically lay the floor tiles on the air ground by being provided with the position adjusting mechanism, the direction rotating mechanism and the lifting grabbing and laying mechanism.

Description

Automatic laying equipment of ceramic tile for building engineering

Technical Field

The invention belongs to the technical field of buildings, and particularly relates to automatic floor tile laying equipment for constructional engineering.

Background

The building engineering refers to an engineering entity formed by the construction of various house buildings and auxiliary facilities thereof and the installation activities of lines, pipelines and equipment matched with the house buildings, wherein the house buildings comprise top covers, beam columns, walls and foundations, and can form internal spaces, so that the engineering required by production, living, learning and public activities of people is met.

After the outer wall of projects such as housing construction is built and is accomplished, need build and decorate inside, modern building engineering can lay the ceramic tile on ground usually, and the ceramic tile is a ground decorative material, burns with clay and forms, and the matter is firm, withstand voltage wear-resisting, can prevent damp, and some are glazed to handle, have the decorative effect, rely on constructor manual operation to lay the ceramic tile among the prior art mostly.

Carry out the ceramic tile through the manual work and lay working strength height, need low head work for a long time, lay moreover inefficiency, the effect of laying is not good.

Disclosure of Invention

The invention aims to provide automatic floor tile laying equipment for building engineering, which solves the problems that the floor tiles need to be manually laid in the prior art, the working strength is high, and the laying efficiency is low.

The embodiment of the invention is realized in such a way that the automatic paving equipment for the floor tiles for the building engineering comprises a paving plate, wherein the paving plate is installed in a sliding mechanism in a sliding way, and the sliding mechanism is fixed on an indoor wall body through a fixing component;

the front surface of the laying plate is provided with a hollow groove, a position adjusting mechanism is arranged in the hollow groove, the position adjusting mechanism is connected with a motor box through a transverse automatic telescopic rod, and a direction rotating mechanism is arranged in the motor box and connected with a lifting grabbing and laying mechanism on the upper surface of the motor box;

the automatic floor tile stacking device is characterized in that a floor tile stacking mechanism is installed at the top of the laying plate, and an automatic hammering mechanism is installed at the bottom of the laying plate.

As a further scheme of the invention: the sliding mechanism comprises a fixed sliding rail, a sliding groove is formed in the fixed sliding rail, sliding bottom grooves are formed in the top and the bottom of the sliding groove, pulleys are mounted at two ends of the laying plate through wheel shafts, and two ends of each pulley are clamped in the corresponding sliding bottom groove;

positioning grooves are respectively formed above and below the sliding groove, and two positioning plates are fixed at two ends of the laying plate and are slidably arranged in the positioning grooves;

the fixing component comprises a fixing plate, the fixing plate is located at two ends of the fixed slide rail, fixing holes are formed in the fixing plate, and fixing bolts are installed in the fixing holes.

As a further scheme of the invention: the position adjusting mechanism comprises a first motor, the first motor is installed on the outer side of the empty groove, the output end of the first motor is connected with a first rotating shaft in a driving mode through a coupler, a sliding block is installed on the first rotating shaft in a threaded connection mode, and a transverse automatic telescopic rod is fixedly connected with the sliding block.

As a further scheme of the invention: the direction rotating mechanism comprises a second motor, the second motor is installed inside the motor box, the output end of the second motor is in driving connection with a second rotating shaft through a coupler, heat dissipation holes are formed in the side wall of the motor box, and the second rotating shaft penetrates through the top of the motor box and is fixedly connected with the lifting grabbing and laying mechanism.

As a further scheme of the invention: the liftable snatchs lays mechanism and includes the dwang, the dwang with second pivot fixed connection, the top cover of dwang is equipped with the crossbearer, the lower surface on crossbearer top passes through vertical automatic telescopic link and links to each other with the adsorption plate, the sucking disc is installed in the four corners department of adsorption plate lower surface.

As a further scheme of the invention: the floor tile stacking mechanism comprises a protection plate fixed on the edge of the upper surface of the laying plate, a lifting plate is installed at the center of the upper surface of the laying plate through a first automatic telescopic rod, a limiting block is fixed on the inner wall of the protection plate, and limiting grooves corresponding to the limiting block are formed in two ends of the lifting plate.

As a further scheme of the invention: the automatic beating and knocking mechanism comprises a second automatic telescopic rod, one end of the second automatic telescopic rod is connected with the bottom of the laying plate, a hammer pressing plate is fixed to the other end of the second automatic telescopic rod, a hammer pressing rod is uniformly fixed to the bottom of the hammer pressing plate, a hammer pressing ball is arranged on the top cover of the hammer pressing rod, mounting seats are respectively arranged on opposite surfaces of the laying plate and the hammer pressing plate, folding arms are respectively hinged to the two mounting seats, and the two folding arms are movably connected through shaft pins.

Compared with the prior art, the invention has the beneficial effects that: this automatic equipment of laying of ceramic tile for building engineering, can be used to building engineering interior decoration usefulness, degree of automation is high, and lay efficiently, it lays to rely on artifical manually operation usually among the consideration prior art, not only intensity of labour is big and lay the problem of inefficiency, be provided with the board of laying very much, utilize glide machanism and lay the board cooperation, can drive the board of laying and move on the air, be provided with position adjustment mechanism simultaneously, direction slewing mechanism and liftable snatch the mechanism of laying and can lay the ceramic tile on the air automatically, still be provided with automatic knocking mechanism of beating in addition, can discharge the ceramic tile and lay the air between the face, further improve and lay the effect.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention.

Fig. 1 is a schematic structural view of an automatic floor tile laying apparatus for construction engineering.

Fig. 2 is a partially enlarged structural schematic view of a sliding mechanism in the automatic floor tile laying equipment for construction engineering.

Fig. 3 is a side view of a position adjusting mechanism in an automatic floor tile laying apparatus for construction engineering.

Fig. 4 is a front sectional view of the inside of a motor cabinet in the automatic floor tile installation for construction engineering.

Fig. 5 is a side view of an automatic hammering and striking mechanism in an automatic floor tile laying apparatus for construction engineering.

In the figure: 1-fixed slide rail, 2-fixed plate, 3-fixed hole, 4-fixed bolt, 5-laying plate, 6-sliding chute, 7-sliding bottom groove, 8-pulley, 9-wheel shaft, 10-positioning groove, 11-positioning plate, 12-empty groove, 13-first motor, 14-first rotating shaft, 15-slider, 16-horizontal automatic telescopic rod, 17-motor box, 18-second motor, 19-second rotating shaft, 20-heat dissipation hole, 21-rotating rod, 22-cross frame, 23-vertical automatic telescopic rod, 24-adsorption plate, 25-suction cup, 26-lifting plate, 27-first automatic telescopic rod, 28-stopper, 29-second automatic telescopic rod, 30-pressing plate, 31-hammer rod, 32-hammer ball, 33-mounting seat, 34-folding arm.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

Example 1

As shown in fig. 1, an embodiment of the present invention provides an automatic floor tile laying apparatus for building engineering, where the automatic floor tile laying apparatus includes a laying plate 5, the laying plate 5 is slidably installed in a sliding mechanism, and the sliding mechanism is fixed on an indoor wall through a fixing assembly; the front surface of the laying plate 5 is provided with an empty groove 12, a position adjusting mechanism is arranged in the empty groove 12, the position adjusting mechanism is connected with a motor box 17 through a transverse automatic telescopic rod 16, and a direction rotating mechanism is arranged in the motor box 17 and connected with a lifting grabbing and laying mechanism on the upper surface of the motor box 17; the top of the laying plate 5 is provided with a floor tile stacking mechanism, and the bottom of the laying plate 5 is provided with an automatic hammering mechanism.

This automatic equipment of laying of ceramic tile for building engineering, can be used to building engineering interior decoration usefulness, degree of automation is high, and lay efficiently, consider to rely on artifical manually operation to lay usually among the prior art, not only intensity of labour is big and lay the problem of inefficiency, be provided with very much and lay board 5, utilize glide machanism and lay 5 cooperations of board, can drive and lay board 5 and move on the air, be provided with position adjustment mechanism simultaneously, direction slewing mechanism and liftable snatch laying mechanism and can lay the ceramic tile on the air automatically, in addition still be provided with automatic knocking mechanism of beating, can discharge the air between ceramic tile and the face of laying, further improve and lay the effect.

When the automatic tile-paving machine is used, firstly, the sliding mechanisms are installed on an indoor wall body through fixed symmetry, the paving plate 5 is installed between the two sliding mechanisms in a sliding mode, then tiles are stacked on the tile stacking mechanism on the upper surface of the paving plate 5, the direction rotating mechanism and the position adjusting mechanism are utilized to drive the lifting grabbing paving mechanism to adsorb and grab the tiles at the top of the paving plate 5, then the automatic beating knocking mechanism is started to hammer the tiles after the tiles are paved on the ground, and the automatic paving process can be completed.

Further, the sliding mechanism comprises a fixed sliding rail 1, a sliding chute 6 is formed in the fixed sliding rail 1, sliding bottom grooves 7 are formed in the top and the bottom of the sliding chute 6, pulleys 8 are mounted at two ends of the laying plate 5 through wheel shafts 9, and two ends of each pulley 8 are clamped in the corresponding sliding bottom groove 7; positioning grooves 10 are respectively formed above and below the sliding groove 6, and two positioning plates 11 are fixed at two ends of the laying plate 5 and are slidably arranged in the positioning grooves 10; the fixing component comprises a fixing plate 2, the fixing plate 2 is located at two ends of the fixed slide rail 1, fixing holes 3 are formed in the fixing plate 2, and fixing bolts 4 are installed in the fixing holes 3.

Before laying, thereby pass fixing bolt 4 fixed slide rail 1 on the installation wall with fixed orifices 3, install in the slip kerve 7 of spout 6 through pulley 8, thereby pulley 8 rolls in slip kerve 7 and can drive and lay board 5 and remove between two fixed slide rail 1, and the cooperation of constant head tank 10 and locating plate 11 has improved the stability when laying board 5 and removing simultaneously, has improved the bearing capacity who lays board 5.

Further, position adjustment mechanism includes first motor 13, first motor 13 is installed the outside of dead slot 12, the output of first motor 13 passes through the shaft coupling and is connected with the drive of first pivot 14, install slider 15 with threaded connection mode on the first pivot 14, horizontal automatic telescopic link 16 and slider 15 fixed connection.

Further, direction slewing mechanism includes second motor 18, second motor 18 is installed the inside of motor case 17, the output of second motor 18 passes through the shaft coupling and is connected with 19 drives of second pivot, louvre 20 has been seted up on the lateral wall of motor case 17, second pivot 19 passes the top of motor case 17 is grabbed with the liftable and is laid mechanism fixed connection.

When utilizing the liftable to snatch laying mechanism and snatch the ceramic tile, start first motor 13, first motor 13 drives first pivot 14 and rotates in dead slot 12, thereby can drive slider 15 and remove about in dead slot 12, restart horizontal automatic telescopic link 16 and stretch out and draw back, can adjust the liftable and snatch the distance between laying mechanism and the ceramic tile, rethread starts second motor 18, thereby second motor 18 drives second pivot 19 and rotates and can drive the liftable and snatch laying mechanism and rotate, can drive from this and shift the ceramic tile to subaerial from laying board 5 and lay.

Further, the liftable snatchs laying mechanism includes dwang 21, dwang 21 with 19 fixed connection of second pivot, the top cover of dwang 21 is equipped with crossbearer 22, the lower surface on crossbearer 22 top links to each other with adsorption plate 24 through vertical automatic telescopic link 23, sucking disc 25 is installed to the four corners department of adsorption plate 24 lower surface.

When snatching the ceramic tile, start vertical automatic telescopic link 23 extension and drive adsorption plate 24 and be close the ceramic tile, recycle sucking disc 25 and adsorb the ceramic tile and fix, restart vertical automatic telescopic link 23 shrink and drive and shift the ceramic tile to subaerial, through the position that first motor 13, second motor 18 and vertical automatic telescopic link 23 adjustment were laid, lay the ceramic tile subaerial can.

Further, the floor tile stacking mechanism comprises a protection plate fixed on the edge of the upper surface of the laying plate 5, a lifting plate 26 is installed at the center of the upper surface of the laying plate 5 through a first automatic telescopic rod 27, a limiting block 28 is fixed on the inner wall of the protection plate, and limiting grooves corresponding to the limiting block 28 are formed in two ends of the lifting plate 26.

Pile up the ceramic tile at the upper surface of lifter plate 26, when adsorbing and snatching the ceramic tile, start first automatic telescopic link 27 extension and can drive lifter plate 26 and rise to can decide the jack-up with the ceramic tile, thereby improved the convenience degree and the efficiency of snatching the ceramic tile.

Example 2

As shown in fig. 5, in another embodiment of the present invention, the automatic hammering mechanism includes a second automatic telescopic rod 29, one end of the second automatic telescopic rod 29 is connected to the bottom of the paving board 5, the other end of the second automatic telescopic rod 29 is fixed with a hammering plate 30, the bottom of the hammering plate 30 is uniformly fixed with a hammering rod 31, the top of the hammering rod 31 is sleeved with a hammering ball 32, the opposite surfaces of the paving board 5 and the hammering plate 30 are respectively provided with a mounting seat 33, the two mounting seats 33 are respectively hinged with a folding arm 34, and the two folding arms 34 are movably connected through a shaft pin.

After laying the ceramic tile on the ground, start the extension of the automatic telescopic link 29 of second, when the automatic telescopic link 29 of second extends, two folding arms 34 are folded, hammer pressing plate 30 moves down, hammer ball 32 hammering of hammer pressing rod 31 bottom is on the ceramic tile, the effect of laying of ceramic tile has been improved, replaced the artifical step that needs to utilize the rubber hammer to beat and strike the ceramic tile, it stretches out and draws back to start the automatic telescopic link 29 of second ceaselessly, can drive two continuous folds and the expansion of folding arm 34, thereby can drive hammer ball 32 evenly spaced and strike on the ceramic tile.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The automatic paving equipment for the floor tiles for the building engineering is characterized by comprising a paving plate (5), wherein the paving plate (5) is installed in a sliding mechanism in a sliding manner, and the sliding mechanism is fixed on an indoor wall through a fixing component;

the front surface of the laying plate (5) is provided with an empty groove (12), a position adjusting mechanism is arranged in the empty groove (12), the position adjusting mechanism is connected with a motor box (17) through a transverse automatic telescopic rod (16), and a direction rotating mechanism is arranged in the motor box (17) and connected with a lifting grabbing and laying mechanism on the upper surface of the motor box (17);

the automatic floor tile stacking device is characterized in that a floor tile stacking mechanism is installed at the top of the laying plate (5), and an automatic hammering and knocking mechanism is installed at the bottom of the laying plate (5).

2. The automatic paving equipment of floor tiles for construction engineering according to claim 1, wherein the sliding mechanism comprises a fixed sliding rail (1), a sliding groove (6) is formed in the fixed sliding rail (1), a sliding bottom groove (7) is formed at the top and the bottom of the sliding groove (6), pulleys (8) are installed at two ends of the paving plate (5) through a wheel shaft (9), and two ends of each pulley (8) are clamped in the sliding bottom groove (7);

positioning grooves (10) are respectively formed above and below the sliding groove (6), and two positioning plates (11) are fixed at two ends of the laying plate (5) and are slidably arranged in the positioning grooves (10);

the fixing component comprises a fixing plate (2), the fixing plate (2) is located at two ends of the fixed sliding rail (1), a fixing hole (3) is formed in the fixing plate (2), and a fixing bolt (4) is installed in the fixing hole (3).

3. The automatic paving equipment of the floor tiles for the construction engineering according to claim 1, wherein the position adjusting mechanism comprises a first motor (13), the first motor (13) is installed at the outer side of the empty groove (12), the output end of the first motor (13) is in driving connection with a first rotating shaft (14) through a coupling, a sliding block (15) is installed on the first rotating shaft (14) in a threaded connection manner, and the transverse automatic telescopic rod (16) is fixedly connected with the sliding block (15).

4. The automatic floor tile laying equipment for the building engineering according to claim 3, wherein the direction rotating mechanism comprises a second motor (18), the second motor (18) is installed inside the motor box (17), the output end of the second motor (18) is in driving connection with a second rotating shaft (19) through a coupler, the side wall of the motor box (17) is provided with heat dissipation holes (20), and the second rotating shaft (19) penetrates through the top of the motor box (17) to be fixedly connected with the lifting grabbing and laying mechanism.

5. The automatic floor tile laying equipment for the building engineering according to claim 4, wherein the lifting grabbing and laying mechanism comprises a rotating rod (21), the rotating rod (21) is fixedly connected with the second rotating shaft (19), a cross frame (22) is sleeved on the top of the rotating rod (21), the lower surface of the top end of the cross frame (22) is connected with an adsorption plate (24) through a vertical automatic telescopic rod (23), and suction cups (25) are installed at four corners of the lower surface of the adsorption plate (24).

6. The automatic floor tile laying equipment for the constructional engineering according to claim 1, wherein the floor tile stacking mechanism comprises a protection plate fixed on the edge of the upper surface of the laying plate (5), the center of the upper surface of the laying plate (5) is provided with a lifting plate (26) through a first automatic telescopic rod (27), a limiting block (28) is fixed on the inner wall of the protection plate, and two ends of the lifting plate (26) are provided with limiting grooves corresponding to the limiting block (28).

7. The automatic floor tile laying equipment for the building engineering according to claim 6, wherein the automatic hammering mechanism comprises a second automatic telescopic rod (29), one end of the second automatic telescopic rod (29) is connected with the bottom of the laying plate (5), the other end of the second automatic telescopic rod (29) is fixed with a hammering plate (30), the bottom of the hammering plate (30) is uniformly fixed with a hammering rod (31), the top of the hammering rod (31) is sleeved with a hammering ball (32), the opposite surfaces of the laying plate (5) and the hammering plate (30) are respectively provided with a mounting seat (33), two mounting seats (33) are respectively hinged with a folding arm (34), and the two folding arms (34) are movably connected through a shaft pin.

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