A tile pasting device facilitating feeding

By designing a tile-laying device that facilitates material feeding, and utilizing a combination of a feeding mechanism and a tile-laying mechanism, automated tile feeding and positioning are achieved, solving the problem of inconvenient material feeding on existing equipment and improving tile-laying efficiency.

CN224396010UActive Publication Date: 2026-06-23吴洪友

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
吴洪友
Filing Date
2025-07-29
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing tile-laying equipment is inconvenient to load materials during use, resulting in low tile-laying efficiency.

Method used

A device comprising a feeding mechanism, a tile-laying mechanism, and an auxiliary mechanism was designed. Through the coordinated work of components such as moving wheels, turntables, threaded screws, and suction cups, the device achieves automated feeding and positioning of tiles, simplifying the operation process.

Benefits of technology

It improves the efficiency of tile feeding, reduces the need for frequent tile position adjustments, and enhances overall tile laying efficiency.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224396010U_ABST
    Figure CN224396010U_ABST
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Abstract

The utility model relates to tile equipment technical field, concretely is a kind of tile equipment convenient to feed, including feeding mechanism, tile mechanism, auxiliary mechanism, the feeding mechanism is located above auxiliary mechanism, the tile mechanism is located feeding mechanism side, the feeding mechanism includes fixed plate, swingle bar.The utility model is rotated by base inside rotary motor, makes carousel and stand rotate to tile place, ground tile does not need to adjust and can be placed in corresponding place, if wall tile, can start the motor on cross bar, drive gear rotation, another gear is driven by toothed belt drive connecting rod rotation, make hollow column rotate to parallel state, erect to wall with porcelain tile, when high place tile, the motor on fixed plate side is started, drive the rotation of conical wheel and bottom gear on swingle bar, drive threaded rod rotation, make lifting block drive support plate and porcelain tile on support plate move upwards to the same height with suction cup, and it is convenient to feed, need not frequent adjustment up and down, improve the efficiency of tile feeding.
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Description

Technical Field

[0001] This utility model relates to the field of tile laying equipment technology, specifically a tile laying device that is easy to load. Background Technology

[0002] Wall tiles must be firmly adhered, with a hollow rate of less than 3%. There should be no defects such as skewing, missing edges, or cracks. The tiled surface should be flat, clean, with harmonious colors, a reasonable pattern arrangement, and no discoloration, efflorescence, stains, or significant gloss damage. Tile joints should be filled tightly, straight, uniform in width, and consistent in color, with correct overlap at inside and outside corners. Non-whole tiles should be used appropriately and arranged straight. Pre-drilled holes should be the correct size with neat edges. The flatness error should be less than 2 mm, the verticality error less than 2 mm, the joint height deviation less than 0.5 mm, and the straightness less than 2 mm. Before tiling, lines should be drawn on the ground, with a baseline perpendicular to the doorway. The drawing should start from the doorway to ensure that whole tiles are used at the entrance, while non-whole tiles are placed in corners or under furniture. The drawing should include both horizontal and vertical positioning control lines.

[0003] As disclosed in CN207348406U, an automatic tile-laying device includes a gripping mechanism, comprising an upper plate and a lower plate, with a protective sleeve and a servo motor between them. The upper plate has a circular through-hole in its center, and a rotating disk corresponding to the through-hole is rotatably mounted thereon. A rotating rod is fixedly mounted in the center of the rotating disk, with one end being a spherical end. A limiting device corresponding to the spherical end is located on the upper side of the lower plate. The drive rod of the servo motor is a hollow rod with threads inside. A threaded screw, with one end protruding from the upper plate and the other end resting on the upper side of the lower plate, is fitted inside the threads of the hollow rod. A telescopic rod is located on the lower side of the lower plate, with a sponge suction cup at its end. A pneumatic vibrator is mounted on the sponge suction cup, and a spring corresponding to the sponge suction cup is fitted on the telescopic rod, providing leveling capability and preventing collisions between bricks. However, this design is inconvenient for tile laying and feeding during use. Therefore, we propose a tile-laying device that facilitates feeding. Utility Model Content

[0004] The purpose of this utility model is to provide a brick-laying device that facilitates material feeding, so as to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution:

[0006] A convenient tile-laying device includes a feeding mechanism, a tile-laying mechanism, and an auxiliary mechanism. The feeding mechanism is located above the auxiliary mechanism, and the tile-laying mechanism is located to one side of the feeding mechanism. The feeding mechanism includes a fixed plate, a rotating rod, conical wheels, disc teeth, a threaded rod, a lifting block, and a support plate. The rotating rod is installed inside the fixed plate, and several conical wheels are installed outside the rotating rod. Disc teeth are installed at the bottom of the conical wheels, and a threaded rod is installed at the bottom of the disc teeth. A lifting block is installed outside the threaded rod, and a support plate is installed on one side of the lifting block.

[0007] Preferably, the tile-laying mechanism includes a drive motor, a toothed belt, gears, a connecting rod, a hollow column, an electrically controlled push rod, a piston, a suction cup, and a suction head. A toothed belt is installed on one side of the drive motor, and several gears are installed inside the toothed belt. A connecting rod is installed on one side of the gears, and a hollow column is installed on one side of the connecting rod.

[0008] Preferably, an electrically controlled push rod is installed at the top of the hollow column, a piston is installed inside the hollow column, a suction cup is installed at the bottom of the hollow column, and several suction heads are installed at the bottom of the suction cup.

[0009] Preferably, the auxiliary mechanism includes a base, a rotary motor, a turntable, a column, a slide groove, a threaded screw, a movable block, a sliding sleeve, a crossbar, a bracket, a controller, a touch screen, a button, and a moving wheel. The rotary motor has a turntable mounted on its top, the turntable has a column mounted on its top, the column has a slide groove, and the slide groove has a threaded screw installed inside it.

[0010] Preferably, a movable block is installed on the outside of the threaded screw, a sliding sleeve is installed on one side of the movable block, a crossbar is installed on one side of the sliding sleeve, and the crossbar has a groove.

[0011] Preferably, a controller is installed on one side of the base, a touch screen is installed on one side of the controller, several buttons are installed at the bottom of the touch screen, and several casters are installed at the bottom of the base.

[0012] Compared with the prior art, the beneficial effects of this utility model are:

[0013] This easy-to-load tile-laying equipment first moves the device to the tile-laying site using casters. The tile is placed on the tray on the base beforehand. The controller starts the motor inside the base to rotate, which drives the turntable to rotate above the tile. Then, the motor at the top of the column is started, which drives the threaded screw to rotate, causing the movable block and crossbar to descend and press the suction head at the bottom of the suction cup onto the tile. The electric push rod at the top is activated, pulling the piston inside the hollow tube upward to extract the air from the suction cup and suction head, making the suction head and the tile fit tightly together.

[0014] This is a convenient tile-laying device. An internal rotating motor in the base rotates the turntable and column to the tile-laying position. For floor tiling, no adjustment is needed; the tiles can be placed directly in the correct position. For wall tiling, the motor on the horizontal bar is activated, driving a gear that rotates. This gear, via a toothed belt, drives another gear, which in turn rotates the connecting rod, causing the hollow column to rotate to a parallel position. The tile is then erected and laid against the wall. For tiling at higher positions, the motor on one side of the fixed plate is activated, driving a conical wheel and a bottom gear on the rotating rod. This rotates a threaded rod, causing a lifting block to move the tray and the tiles on it upwards to the same height as the suction cup for convenient material feeding. Frequent adjustments are unnecessary, improving the efficiency of tile-laying and material feeding. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0016] Figure 2 This is a schematic diagram of the tile-laying mechanism of this utility model;

[0017] Figure 3 This is an enlarged schematic diagram of the feeding mechanism of this utility model. Figure 1 ;

[0018] Figure 4 This is an enlarged schematic diagram of the feeding mechanism of this utility model. Figure 2 .

[0019] In the diagram: 100, fixed plate; 101, rotating rod; 102, conical wheel; 103, disc gear; 104, threaded rod; 105, lifting block; 106, support plate; 200, drive motor; 201, toothed belt; 202, gear; 203, connecting rod; 204, hollow column; 205, electrically controlled push rod; 206, piston; 207, suction cup; 208, suction head; 300, base; 301, rotary motor; 302, turntable; 303, column; 304, slide groove; 305, threaded screw; 306, movable block; 307, sliding sleeve; 308, crossbar; 309, support groove; 310, controller; 311, touch screen; 312, button; 313, moving wheel. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0021] Please see Figures 1-4 As shown, this utility model provides a technical solution:

[0022] A tiling device for easy material feeding includes a feeding mechanism, a tiling mechanism, and an auxiliary mechanism. The feeding mechanism is located above the auxiliary mechanism, and the tiling mechanism is located to one side of the feeding mechanism. The feeding mechanism includes a fixed plate 100, a rotating rod 101, a conical wheel 102, a disc tooth 103, a threaded rod 104, a lifting block 105, and a support plate 106. The rotating rod 101 is installed inside the fixed plate 100, and several conical wheels 102 are installed outside the rotating rod 101. The disc tooth 103 is installed at the bottom end of the conical wheel 102, and the threaded rod 104 is installed at the bottom end of the disc tooth 103. The lifting block 105 is installed outside the threaded rod 104, and the support plate 106 is installed on one side of the lifting block 105.

[0023] In this embodiment, preferably, the tile-laying mechanism includes a drive motor 200, a toothed belt 201, gears 202, a connecting rod 203, a hollow column 204, an electrically controlled push rod 205, a piston 206, a suction cup 207, and a suction head 208. The toothed belt 201 is installed on one side of the drive motor 200, and a plurality of gears 202 are installed inside the toothed belt 201. The connecting rod 203 is installed on one side of the gears 202, and the hollow column 204 is installed on one side of the connecting rod 203.

[0024] In this embodiment, preferably, an electrically controlled push rod 205 is installed at the top of the hollow column 204, a piston 206 is installed inside the hollow column 204, a suction cup 207 is installed at the bottom of the hollow column 204, and a plurality of suction heads 208 are installed at the bottom of the suction cup 207.

[0025] In this embodiment, preferably, the auxiliary mechanism includes a base 300, a rotary motor 301, a turntable 302, a column 303, a slide groove 304, a threaded screw 305, a movable block 306, a sliding sleeve 307, a crossbar 308, a support groove 309, a controller 310, a touch screen 311, a button 312, and a moving wheel 313. The rotary motor 301 has a turntable 302 mounted on its top end, and the turntable 302 has a column 303 mounted on its top end. The column 303 has a slide groove 304, and the threaded screw 305 is installed inside the slide groove 304.

[0026] In this embodiment, preferably, a movable block 306 is installed on the outside of the threaded screw 305, a sliding sleeve 307 is installed on one side of the movable block 306, a crossbar 308 is installed on one side of the sliding sleeve 307, and the crossbar 308 has a groove 309.

[0027] In this embodiment, preferably, a controller 310 is installed on one side of the base 300, a touch screen 311 is installed on one side of the controller 310, a plurality of buttons 312 are installed at the bottom of the touch screen 311, and a plurality of casters 313 are installed at the bottom of the base 300.

[0028] In this embodiment, a tile-laying device that facilitates material loading is used by first moving the device to the tile-laying site using the moving wheels 313. The tile is placed on the tray 106 on the base 300 beforehand. The controller 310 starts the internal motor of the base 300 to rotate, driving the turntable 302 to rotate above the tile. Then, the motor at the top of the column 303 is started, driving the threaded screw 305 to rotate, causing the movable block 306 and the crossbar 308 to descend and press the suction head 208 at the bottom of the suction cup 207 onto the tile. The electrically controlled push rod 205 at the top is activated, pulling the piston 206 inside the hollow column to move upward, extracting the air from the suction cup 207 and the suction head 208, so that the suction head 208 and the tile are tightly adhered.

[0029] The internal rotating motor 301 of the base 300 rotates, causing the turntable 302 and column 303 to rotate to the tile-laying position. For floor tiling, no adjustment is needed as the tiles can be placed in the corresponding position. For wall tiling, the motor on the crossbar 308 can be activated, driving the gear 202 to rotate. Through the toothed belt 201, another gear 202 drives the connecting rod 203 to rotate, causing the hollow column 204 to rotate to a parallel state, allowing the tile to be erected and laid on the wall. When tiling at a high position, the motor on one side of the fixing plate 100 can be activated, driving the conical wheel 102 on the rotating rod 101 and the bottom gear 202 to rotate, driving the threaded rod 104 to rotate. This causes the lifting block 105 to move the support plate 106 and the tiles on the support plate 106 upward to the same height as the suction cup 207 for convenient material feeding. This eliminates the need for frequent adjustments and improves the efficiency of tile laying and material feeding.

[0030] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely preferred examples and are not intended to limit the utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A tile-laying device for easy material feeding, comprising a material feeding mechanism, a tile-laying mechanism, and an auxiliary mechanism, characterized in that: The feeding mechanism is located above the auxiliary mechanism, and the brick-laying mechanism is located on one side of the feeding mechanism. The feeding mechanism includes a fixed plate (100), a rotating rod (101), a conical wheel (102), a disc tooth (103), a threaded rod (104), a lifting block (105), and a support plate (106). The rotating rod (101) is installed inside the fixed plate (100), and several conical wheels (102) are installed outside the rotating rod (101). The disc tooth (103) is installed at the bottom end of the conical wheel (102), and the threaded rod (104) is installed at the bottom end of the disc tooth (103). The lifting block (105) is installed outside the threaded rod (104), and a support plate (106) is installed on one side of the lifting block (105).

2. The brick-laying equipment for easy material feeding according to claim 1, characterized in that: The tile-laying mechanism includes a drive motor (200), a toothed belt (201), a gear (202), a connecting rod (203), a hollow column (204), an electrically controlled push rod (205), a piston (206), a suction cup (207), and a suction head (208). The drive motor (200) has a toothed belt (201) installed on one side, and a plurality of gears (202) are installed inside the toothed belt (201). The gears (202) have a connecting rod (203) installed on one side, and the connecting rod (203) has a hollow column (204) installed on one side.

3. The tile-laying equipment for easy material feeding according to claim 2, characterized in that: An electrically controlled push rod (205) is installed at the top of the hollow column (204), a piston (206) is installed inside the hollow column (204), a suction cup (207) is installed at the bottom of the hollow column (204), and several suction heads (208) are installed at the bottom of the suction cup (207).

4. The tile-laying equipment for easy material feeding according to claim 1, characterized in that: The auxiliary mechanism includes a base (300), a rotary motor (301), a turntable (302), a column (303), a slide groove (304), a threaded screw (305), a movable block (306), a sliding sleeve (307), a crossbar (308), a bracket (309), a controller (310), a touch screen (311), a button (312), and a moving wheel (313). The rotary motor (301) has a turntable (302) mounted on its top end, and the turntable (302) has a column (303) mounted on its top end. The column (303) has a slide groove (304), and the threaded screw (305) is installed inside the slide groove (304).

5. The tile-laying equipment for easy material feeding according to claim 4, characterized in that: A movable block (306) is installed on the outside of the threaded screw (305). A sliding sleeve (307) is installed on one side of the movable block (306). A crossbar (308) is installed on one side of the sliding sleeve (307). The crossbar (308) has a groove (309).

6. The tile-laying equipment for easy material feeding according to claim 5, characterized in that: A controller (310) is installed on one side of the base (300), a touch screen (311) is installed on one side of the controller (310), a number of buttons (312) are installed at the bottom of the touch screen (311), and a number of casters (313) are installed at the bottom of the base (300).