CN216587563U - Brick tiling device for building construction - Google Patents

Abstract

A construction tiling apparatus comprising a base for placing tiles and a drive mechanism mounted on the base, and a vacuum chuck and positioning mechanism: the vacuum chuck is arranged above the base and used for sucking the ceramic tiles, and the driving mechanism is in driving connection with the vacuum chuck; the positioning mechanism comprises a first side plate, a second side plate, a first driving part and a second driving part; the first side plate is slidably arranged on the base, and the first driving part is arranged on the base and is in driving connection with the first side plate; the second side plate is slidably arranged on the base and is perpendicular to the first side plate, and the second driving part is arranged on the base and is in driving connection with the second side plate; during the use, place the ceramic tile on the base, order about first curb plate and ceramic tile front side through first drive division and offset, order about second curb plate and ceramic tile left side through second drive division and offset, can fix a position the ceramic tile, then order about the sucking disc through actuating mechanism and remove, can absorb the ceramic tile accurately and lay the ceramic tile to the wall.

Description

Brick tiling device for building construction

Technical Field

The utility model relates to a construction technical field specifically is a construction tiling device.

Background

At present in the building work progress, in order to keep the waterproof nature and the aesthetic property of wall, generally all can lay the ceramic tile on ground and wall, need consider the dead weight of ceramic tile when the ceramic tile is laid to the wall, especially when the ceramic tile volume that uses is great, the workman is at the in-process that supports the ceramic tile, still will accomplish the tiling operation to the ceramic tile, and artifical intensity is great.

Therefore, the invention patent with the application number of 202110146765.6 provides a tile sticking device for building construction, which is convenient for a user to operate on tiles by designing a tile carrier for clamping and fixing the tiles, and saves physical strength by designing a first moving assembly and a second moving assembly for controlling the tiles to be attached to a wall surface;

however, this device lacks a positioning device, and it is difficult for a user to accurately place tiles on the tile carrier, which causes variations in the height of the corners of the tiles and tends to cause defective tile quality.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a construction tiling device has solved the problem of proposing in the background art.

(II) technical scheme

In order to achieve the above purpose, the utility model provides a following technical scheme:

a construction tiling apparatus comprising a base for placing tiles and a drive mechanism mounted on the base, and a vacuum chuck and positioning mechanism: the vacuum chuck is arranged above the base and used for sucking the ceramic tiles, and the driving mechanism is in driving connection with the vacuum chuck; the positioning mechanism comprises a first side plate, a second side plate, a first driving part and a second driving part; the first side plate is slidably arranged on the base, and the first driving part is arranged on the base and is in driving connection with the first side plate so as to drive the first side plate to abut against the front side of the ceramic tile; the second side plate can be slidably arranged on the base and is perpendicular to the first side plate, and the second driving part is arranged on the base and is in driving connection with the second side plate so as to drive the second side plate to abut against the left side of the ceramic tile.

Preferably, a bracket is arranged on the base, and the driving mechanism comprises a transverse moving unit, a longitudinal moving unit and a rotating unit; the transverse moving unit is installed on the bracket, the longitudinal moving unit is installed on the transverse moving unit, the rotating unit is installed on the longitudinal moving unit, and the vacuum chuck is installed on the rotating unit.

Preferably, the lateral moving unit includes a first rail seat, a first guide block, a first screw, and a first motor; the first guide rail seat is horizontally arranged on the bracket, and the first guide block is slidably arranged on the first guide rail seat; the first screw rod is rotatably arranged on the first guide rail seat and is in threaded connection with the first guide block; the first motor is arranged on the first guide rail seat and is in driving connection with the first screw rod; the longitudinal moving unit comprises a second guide rail seat, a second guide block, a second screw and a second motor, the second guide rail seat is vertically arranged on the first guide block, and the second guide block is slidably arranged on the second guide rail seat; the second screw rod is rotatably arranged on the second guide rail seat and is in threaded connection with the second guide block; the second motor is arranged on the second guide rail seat and is in driving connection with the second screw rod; the rotary unit comprises a rotary seat and a third motor, the rotary seat is installed on the second guide block, the vacuum chuck is rotatably installed on the rotary seat, and the third motor is installed on the rotary seat and connected with the vacuum chuck in a driving mode.

Preferably, a first sliding groove and a second sliding groove are arranged on the base, and the second sliding groove is perpendicular to the first sliding groove; a first sliding block is arranged on the first side plate and is in sliding connection with the first sliding groove; a second sliding block is arranged on the second side plate and is in sliding connection with the second sliding groove; the first driving part comprises a driving motor and a driving screw rod, the driving motor is installed inside the base, the driving screw rod is installed on an output shaft of the driving motor, and the driving screw rod is in threaded connection with the first side plate; the second driving part has the same structure as the first driving part, and a driving screw of the second driving part is in threaded connection with the second side plate.

Preferably, the number of the first side plates is two, the two first side plates are respectively arranged on the front side and the rear side of the ceramic tile, the first sliding groove is provided with two groups corresponding to the two first side plates, and the first driving part is provided with two groups corresponding to the two first side plates; the second side plate is provided with two, and two the second side plate sets up respectively the left and right sides of ceramic tile, the second spout corresponds two the second side plate is equipped with two sets ofly, the second drive division corresponds two the second side plate is equipped with two.

Preferably, the bottom surface of the base is provided with a plurality of universal wheels.

Preferably, the brake device further comprises a brake mechanism, wherein the brake mechanism comprises an electric cylinder and a brake plate; the brake plate is movably arranged in the base, a brake column is arranged on the brake plate, and one end of the brake column can move along with the brake plate to penetrate through the base and abut against the ground; the electric cylinder is installed inside the base, and the output end of the electric cylinder is connected with the brake plate in a driving mode.

Preferably, the post of stopping runs through the one end tip of base is equipped with anti-skidding line.

Preferably, the brake device further comprises a control panel, wherein the control panel is installed on the base and is electrically connected with the driving mechanism, the positioning mechanism and the brake mechanism; the base is also provided with a plurality of control buttons electrically connected with the control panel.

(III) advantageous effects

The utility model provides a pair of construction tiling device is used for bearing the weight of the ceramic tile through designing the base, is used for absorbing the ceramic tile through designing vacuum chuck, is used for controlling vacuum chuck's shift position through designing actuating mechanism, is used for fixing a position the ceramic tile through designing positioning mechanism for place on the base ceramic tile accurately, the ceramic tile of avoiding vacuum chuck to absorb has the high deviation, improves the tiling quality.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description, do not constitute a limitation of the invention, in which:

fig. 1 shows a schematic diagram of the overall structure of the present invention;

FIG. 2 shows a top view of FIG. 1;

FIG. 3 shows a cross-sectional view A-A of FIG. 2;

FIG. 4 shows an enlarged view at A in FIG. 3;

fig. 5 shows a schematic diagram of the overall structure of the present invention;

fig. 6 shows a schematic view of the connection of the drive mechanism and the vacuum chuck of the present invention;

fig. 7 shows a schematic view of a part of the structure of the present invention;

FIG. 8 shows an enlarged view at B in FIG. 7;

FIG. 9 shows a top view of FIG. 7;

FIG. 10 shows a cross-sectional view B-B of FIG. 9;

fig. 11 shows a schematic structural diagram of the positioning mechanism of the present invention.

In the figure: the device comprises F tiles, a base 1, a support 11, a first sliding chute 11h, a second sliding chute 12h, a control button 1c, a universal wheel 1L, a driving mechanism 2, a transverse moving unit 21, a first guide rail seat 211, a first guide block 212, a first screw rod 213, a first motor 214, a longitudinal moving unit 22, a second guide rail seat 221, a second guide block 222, a second screw rod 223, a second motor 224, a rotating unit 23, a rotary seat 231, a third motor 232, a vacuum chuck 3, a positioning mechanism 4, a first side plate 41, a first slide block 41h, a second side plate 42, a second slide block 42h, a first driving part 43, a driving motor 431, a driving screw rod 432, a second driving part 44, a brake stopping mechanism 5, an electric cylinder 51, a brake plate 52, a brake column 520F, an anti-skid thread and a control plate 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-11, a construction tile installation includes a base 1 for placing a tile F and a driving mechanism 2 installed on the base 1, and a vacuum chuck 3 and a positioning mechanism 4: the vacuum chuck 3 is arranged above the base 1 and used for sucking the ceramic tile F, and the driving mechanism 2 is in driving connection with the vacuum chuck 3; the positioning mechanism 4 includes a first side plate 41, a second side plate 42, a first driving portion 43, and a second driving portion 44; the first side plate 41 is slidably mounted on the base 1, and the first driving part 43 is mounted on the base 1 and is in driving connection with the first side plate 41 so as to drive the first side plate 41 to abut against the front side of the ceramic tile F; the second side plate 42 is slidably installed on the base 1 and is designed to be perpendicular to the first side plate 41, and the second driving portion 44 is installed on the base 1 and is in driving connection with the second side plate 42 to drive the second side plate 42 to abut against the left side of the tile F.

When the ceramic tile F is used, the first side plate 41 and the second side plate 42 are firstly ensured to be away from each other, then the ceramic tile F is placed on the base 1, the first driving part 43 and the second driving part 44 are started to respectively drive the first side plate 41 and the second side plate 42, so that the first side plate 41 is abutted against the front side of the ceramic tile F, the second side plate 42 is abutted against the left side of the ceramic tile F, and therefore the ceramic tile F is positioned, at the moment, the first driving part 43 and the second driving part 44 are started to drive the first side plate 41 and the second side plate 42 to be away from the side wall of the ceramic tile F, and the driving mechanism 2 is started to drive the vacuum chuck 3 to move downwards, so that the ceramic tile F can be accurately sucked;

vacuum chuck 3 absorbs ceramic tile F after, drive vacuum chuck 3 through actuating mechanism 2 and shift up and make ceramic tile F lay in the wall parallel, scribble cement on wall or ceramic tile F this moment, drive 3 positions that the wall corresponds of vacuum chuck through actuating mechanism 2 at last and draw close for ceramic tile F lays on the wall can.

To sum up, the utility model discloses a design base 1 is used for bearing ceramic tile F, is used for absorbing ceramic tile F through design vacuum chuck 3, is used for controlling vacuum chuck 3's shift position through design actuating mechanism 2, is used for fixing a position ceramic tile F through design positioning mechanism 4 for ceramic tile F places on base 1 accurately, and the ceramic tile F of avoiding vacuum chuck 3 to absorb has the high deviation, improves the tiling quality.

Referring to fig. 1 to 6, the base 1 is provided with a bracket 11, and the driving mechanism 2 includes a transverse moving unit 21, a longitudinal moving unit 22 and a rotating unit 23; the traverse unit 21 is mounted on the support 11, the longitudinal moving unit 22 is mounted on the traverse unit 21, the rotating unit 23 is mounted on the longitudinal moving unit 22, and the vacuum chuck 3 is mounted on the rotating unit 23.

Before use, the vacuum chuck 3 is horizontally stopped above the ceramic tile F, and when the ceramic tile F is positioned by the positioning mechanism 4 and the first side plate 41 and the second side plate 42 are far away from the ceramic tile F, the longitudinal moving unit 22 is started to drive the rotating unit 23 to move downwards, so that the vacuum chuck 3 arranged on the rotating unit 23 is attached to and sucks the ceramic tile F; then start vertical moving unit 22 and order about rotary unit 23 and move up, then start rotary mechanism and order about vacuum chuck 3 and overturn to being parallel with the wall, smear cement on wall or ceramic tile F this moment, start horizontal moving unit 21 at last and drive vertical moving unit 22 lateral shifting, can make vacuum chuck 3 move toward the wall, until ceramic tile F and wall laminating, keep vacuum chuck 3 to stop in the current position, wait for the cement dry can.

Referring to fig. 1 to fig. 6, the transverse moving unit 21, the longitudinal moving unit 22 and the rotating mechanism may be of various types, and for convenience of understanding, in the embodiment of the present invention, the transverse moving unit 21 includes a first guide rail seat 211, a first guide block 212, a first screw 213 and a first motor 214; the first rail holder 211 is horizontally installed on the bracket 11, and the first guide block 212 is slidably installed on the first rail holder 211; the first screw 213 is rotatably installed on the first guide rail seat 211 and is in threaded connection with the first guide block 212; the first motor 214 is arranged on the first guide rail seat 211 and is in driving connection with the first screw rod 213; the longitudinal moving unit 22 includes a second rail base 221, a second guide block 222, a second screw 223, and a second motor 224, the second rail base 221 being vertically installed on the first guide block 212, the second guide block 222 being slidably installed on the second rail base 221; the second screw 223 is rotatably installed on the second rail seat 221 and is in threaded connection with the second guide block 222; the second motor 224 is installed on the second rail seat 221 and is in driving connection with the second screw 223; the rotating unit 23 includes a rotary base 231 and a third motor 232, the rotary base 231 is mounted on the second guide block 222, the vacuum chuck 3 is rotatably mounted on the rotary base 231, and the third motor 232 is mounted on the rotary base 231 and is drivingly connected to the vacuum chuck 3.

Specifically, the user starts the third motor 232 to drive the vacuum chuck 3 and the tile F mounted on the vacuum chuck 3 to turn over; the user starts the second motor 224 to drive the second screw 223 to rotate, so as to drive the second guide block 222 and the rotary seat 231 installed on the second guide block 222 to move up and down along the length direction of the second guide rail seat 221, so that the vacuum chuck 3 is close to or far from the tile F placed on the base 1; the user starts the first motor 214 to drive the first screw 213 to rotate, so as to drive the first guide block 212 and the second guide rail seat 221 installed on the first guide block 212 to move transversely along the length direction of the first guide rail seat 211, thereby making the vacuum chuck 3 approach or leave the wall surface.

Referring to fig. 5 to 11, the base 1 is provided with a first sliding groove 11h and a second sliding groove 12h, and the second sliding groove 12h is perpendicular to the first sliding groove 11 h; a first sliding block 41h is arranged on the first side plate 41, and the first sliding block 41h is connected with the first sliding groove 11h in a sliding manner; a second sliding block 42h is arranged on the second side plate 42, and the second sliding block 42h is connected with the second sliding groove 12h in a sliding manner; the first driving part 43 comprises a driving motor 431 and a driving screw 432, the driving motor 431 is installed inside the base 1, the driving screw 432 is installed on the output shaft of the driving motor 431, and the driving screw 432 is in threaded connection with the first side plate 41; the second driving portion 44 has the same structure as the first driving portion 43, and a driving screw 432 of the second driving portion 44 is threadedly coupled to the second side plate 42.

The first sliding block 41h and the first sliding groove 11h are designed in a matching manner, so that the first side plate 41 can be slidably mounted on the base 1, and a user starts the driving motor 431 of the first driving portion 43 to drive the driving screw 432 of the first driving portion 43 to rotate, so that the first side plate 41 can be driven to move along the length direction of the first sliding groove 11 h; similarly, the second sliding block 42h and the second sliding slot 12h are designed in a matching manner, so that the second side plate 42 can be slidably mounted on the base 1, and a user starts the driving motor 431 of the second driving portion 44 to drive the driving screw 432 of the second driving portion 44 to rotate, so as to drive the second side plate 42 to move along the length direction of the second sliding slot 12 h.

Referring to fig. 1 to 9, considering that the front side of the ceramic tile F may be shifted backwards when the first side plate 41 abuts against the front side of the ceramic tile F, and the front side of the ceramic tile F may be shifted right when the second side plate 42 abuts against the left side of the ceramic tile F, in order to avoid the shift of the ceramic tile F in the process of positioning the ceramic tile F, the first side plate 41 is provided with two first side plates 41, the two first side plates 41 are respectively disposed on the front side and the rear side of the ceramic tile F, the first sliding groove 11h is provided with two sets corresponding to the two first side plates 41, and the first driving portion 43 is provided with two sets corresponding to the two first side plates 41; the number of the second side plates 42 is two, and the two second side plates 42 are respectively disposed on the left and right sides of the tile F, two sets of the second sliding grooves 12h are disposed corresponding to the two second side plates 42, and two sets of the second driving portions 44 are disposed corresponding to the two second side plates 42.

Specifically, the design of two first curb plates 41 makes this positioning mechanism 4 can fix a position both sides around ceramic tile F simultaneously, and the design of two second curb plates 42 makes this positioning mechanism 4 can fix a position ceramic tile F's the left and right sides simultaneously, avoids ceramic tile F to take place the skew, and further improves the location precision.

Referring to fig. 1 to 3, a plurality of universal wheels 1L are provided on the bottom surface of the base 1; the design of a plurality of universal wheels 1L facilitates the user to move the base 1 to a proper position, and the flexibility of the device is improved.

Referring to fig. 3-10, after the tile F is attached to the wall surface, in order to avoid the tile F from loosening, it is necessary to ensure that the base 1 is fixed at the current position for a period of time to wait for the cement to be dried, and when the universal wheel 1L is used for stopping, the base 1 may still have the possibility of moving, and therefore, the utility model discloses a braking mechanism 5 is also included, the braking mechanism 5 includes an electric cylinder 51 and a braking plate 52; the brake plate 52 is movably arranged in the base 1, the brake column 520 is arranged on the brake plate 52, and one end of the brake column 520 can move along with the brake plate 52 and penetrate through the base 1 to be abutted against the ground; the electric cylinder 51 is installed inside the base 1, and the output end of the electric cylinder 51 is in driving connection with the brake plate 52.

Specifically, under the conventional condition, the brake column 520 is far away from the ground, and the base 1 can be moved normally at the moment; when the base 1 moves to a specific position, the electric cylinder 51 is started to drive the brake plate 52 to move downwards, and in the process, one end of the brake column 520 moves along with the brake plate 52 and abuts against the ground, so that the base 1 is fixed at the current position.

Referring to fig. 8, the anti-slip pattern 520f is disposed at an end of the brake column 520 penetrating through the base 1, and the anti-slip pattern 520f can increase friction between the brake column 520 and the ground, so as to improve the ground-holding capability of the brake column 520.

Referring to fig. 1-3, the brake device further comprises a control board 6, wherein the control board 6 is mounted on the base 1, and the control board 6 is electrically connected with the driving mechanism 2, the positioning mechanism 4 and the brake mechanism 5; the base 1 is also provided with a plurality of control buttons 1c which are electrically connected with the control panel 6; the operating states of the driving mechanism 2, the positioning mechanism 4 and the brake mechanism 5 can be respectively controlled by sending corresponding signals to the control panel 6 through the control buttons 1 c.

It should be noted that since the technology for controlling the operation of the electrical components through the control button 1c and the control board 6 is very available, it is understood by those skilled in the art, and therefore, the detailed description about the specific circuit structure thereof is not provided herein.

It should also be noted that while embodiments of the present application have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the application.

Claims (9)

1. A construction tiling device, including a base (1) for placing tiles (F) and a drive mechanism (2) mounted on the base (1), characterized in that it further comprises:

the vacuum sucker (3) is arranged above the base (1) and is used for sucking a ceramic tile (F), and the driving mechanism (2) is in driving connection with the vacuum sucker (3);

a positioning mechanism (4), the positioning mechanism (4) comprising a first side plate (41), a second side plate (42), a first drive portion (43), and a second drive portion (44);

the first side plate (41) is slidably mounted on the base (1), and the first driving part (43) is mounted on the base (1) and is in driving connection with the first side plate (41) so as to drive the first side plate (41) to be abutted against the front side of the ceramic tile (F);

the second side plate (42) is slidably mounted on the base (1) and is perpendicular to the first side plate (41), and the second driving portion (44) is mounted on the base (1) and is in driving connection with the second side plate (42) so as to drive the second side plate (42) to abut against the left side of the ceramic tile (F).

2. A construction tile device according to claim 1, wherein said base (1) is provided with a support (11), said driving mechanism (2) comprising a lateral moving unit (21), a longitudinal moving unit (22) and a rotating unit (23);

the transverse moving unit (21) is installed on the bracket (11), the longitudinal moving unit (22) is installed on the transverse moving unit (21), the rotating unit (23) is installed on the longitudinal moving unit (22), and the vacuum chuck (3) is installed on the rotating unit (23).

3. A construction tile device according to claim 2, wherein said lateral movement unit (21) comprises a first guide rail seat (211), a first guide block (212), a first screw (213) and a first motor (214); the first guide rail seat (211) is horizontally arranged on the bracket (11), and the first guide block (212) is slidably arranged on the first guide rail seat (211); the first screw (213) is rotatably arranged on the first guide rail seat (211) and is in threaded connection with the first guide block (212); the first motor (214) is arranged on the first guide rail seat (211) and is in driving connection with the first screw rod (213);

the longitudinal moving unit (22) comprises a second rail seat (221), a second guide block (222), a second screw (223) and a second motor (224), the second rail seat (221) is vertically installed on the first guide block (212), and the second guide block (222) is slidably installed on the second rail seat (221); the second screw rod (223) is rotatably arranged on the second guide rail seat (221) and is in threaded connection with the second guide block (222); the second motor (224) is arranged on the second guide rail seat (221) and is in driving connection with the second screw rod (223);

the rotating unit (23) comprises a rotary seat (231) and a third motor (232), the rotary seat (231) is installed on the second guide block (222), the vacuum chuck (3) is rotatably installed on the rotary seat (231), and the third motor (232) is installed on the rotary seat (231) and is in driving connection with the vacuum chuck (3).

4. A building construction tile device according to claim 1, characterized in that said base (1) is provided with a first runner (11h) and a second runner (12h), and said second runner (12h) is designed perpendicular to said first runner (11 h); a first sliding block (41h) is arranged on the first side plate (41), and the first sliding block (41h) is connected with the first sliding groove (11h) in a sliding manner; a second sliding block (42h) is arranged on the second side plate (42), and the second sliding block (42h) is in sliding connection with the second sliding groove (12 h);

the first driving part (43) comprises a driving motor (431) and a driving screw rod (432), the driving motor (431) is installed inside the base (1), the driving screw rod (432) is installed on an output shaft of the driving motor (431), and the driving screw rod (432) is in threaded connection with the first side plate (41);

the second driving part (44) and the first driving part (43) are identical in structure, and a driving screw rod (432) of the second driving part (44) is in threaded connection with the second side plate (42).

5. The construction tile device according to claim 4, wherein the first side plate (41) is provided with two, and the two first side plates (41) are respectively provided at the front and rear sides of the tile (F), the first sliding groove (11h) is provided with two sets corresponding to the two first side plates (41), and the first driving portion (43) is provided with two sets corresponding to the two first side plates (41);

the two second side plates (42) are respectively arranged at the left side and the right side of the ceramic tile (F), the two second sliding grooves (12h) correspond to the two second side plates (42) and are provided with two groups, and the two second driving portions (44) correspond to the two second side plates (42) and are provided with two groups.

6. A construction tile device according to claim 1, wherein said base (1) is provided with a plurality of universal wheels (1L) on its underside.

7. A construction tile device according to claim 6, further comprising a brake mechanism (5), said brake mechanism (5) comprising an electric cylinder (51) and a brake plate (52); the brake plate (52) is movably arranged in the base (1), a brake column (520) is arranged on the brake plate (52), and one end of the brake column (520) can move along with the brake plate (52) to penetrate through the base (1) and abut against the ground; the electric cylinder (51) is installed inside the base (1), and the output end of the electric cylinder (51) is in driving connection with the brake plate (52).

8. A construction tile device according to claim 7, wherein the braking column (520) is provided with anti-slip threads (520f) through one end of the base (1).

9. A construction tile device according to claim 7, further comprising a control panel (6), wherein said control panel (6) is mounted on said base (1), and said control panel (6) is electrically connected to said driving mechanism (2), positioning mechanism (4) and brake mechanism (5); the base (1) is also provided with a plurality of control buttons (1c) electrically connected with the control panel (6).

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