Tile installation cleaning and painting machine
The tile installation, cleaning, and coating machine uses a conveyor belt to transport tiles, a roller brush to remove dust, a hopper to apply mortar, and a toothed scraper to create grooves in the mortar. This solves the problem of time-consuming and labor-intensive traditional manual construction, achieving efficient and safe tile installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- MCC22 GROUP CORP LTD THE FIRST CONSTRUCTION CO
- Filing Date
- 2025-02-25
- Publication Date
- 2026-07-03
AI Technical Summary
Traditional tile installation involves time-consuming and labor-intensive manual cleaning and application of adhesive materials, which can easily damage the materials, resulting in low construction efficiency, high costs, and poor quality.
The tile installation cleaning and coating machine includes a conveyor belt, a roller brush, a hopper, and a toothed scraper. The conveyor belt transports the tiles, the roller brush cleans the dust, the hopper applies mortar, and the toothed scraper creates grooves in the mortar to improve the adhesion.
It improves construction efficiency and quality, reduces labor intensity and costs, adapts to tiles of different heights, has a wide range of applications, and is convenient and safe to construct.
Smart Images

Figure CN224452165U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of tile installation, and in particular to a tile installation, cleaning and coating machine. Background Technology
[0002] When installing floor and wall tiles, the surface of the tiles needs to be cleaned to remove dust. In traditional installation, the surface is usually cleaned and adhesive is applied manually, which is time-consuming and labor-intensive. Manual cleaning can sometimes result in incomplete cleaning of the wall and floor tiles, insufficient mortar coverage, and poor quality. Furthermore, the installation of large wall and floor tiles requires multiple people to work together, and the materials can be easily damaged during cleaning and application of adhesive. This leads to low construction efficiency and high construction costs. Utility Model Content
[0003] This utility model provides a tile installation cleaning and coating machine, which improves the quality and efficiency of tile installation and reduces labor intensity.
[0004] A tile installation, cleaning, and coating machine adopts the following technical solution:
[0005] A tile installation, cleaning, and coating machine includes a conveyor belt for conveying tiles, a roller brush for cleaning dust on the tiles above the conveyor belt, a hopper for applying mortar to the tiles on one side of the roller brush, and a toothed scraper for scraping mortar from the tiles on the side of the hopper away from the roller brush.
[0006] Preferably, a first support plate is provided on both sides of the conveyor belt, and a roller brush is installed between the two first support plates. A first drive component for adjusting the height of the roller brush is provided on the first support plate.
[0007] Preferably, the first drive assembly includes a moving block and a lead screw. A through slot is provided on the first support plate. The moving block is located in the through slot and is slidably connected to the through slot. An inverted U-shaped fixing block is fixed to the top of the moving block. The bottom of the lead screw passes through the top of the fixing block and is fixed with an anti-detachment plate. The top of the lead screw passes through the first support plate and is threadedly connected to the first support plate. A handle is fixed to the bottom of the lead screw. The roller brush is rotatably connected between the two moving blocks. A motor that drives the roller brush to rotate is fixed on one of the roller brushes.
[0008] Preferably, a second support plate is provided on both sides of the conveyor belt, and the two ends of the feeding hopper are installed between the two second support plates. A second drive component capable of adjusting the height of the feeding hopper is provided on the second support plate.
[0009] Preferably, the bottom plate of the feeding hopper has a discharge port, a stop plate is provided below the feeding hopper, and connecting blocks are fixed at both ends of the feeding hopper. Slots are provided on the side of the two connecting blocks that are close to each other. Both ends of the stop plate are inserted into the slots. Pulling the stop plate can open or close the discharge port.
[0010] Preferably, a third support plate is provided on both sides of the conveyor belt, a toothed scraper is installed between the two third support plates, and a third drive assembly capable of adjusting the height of the toothed scraper is installed on the third support plate.
[0011] Preferably, a water spraying assembly for spraying water onto the roller brush is provided between the two first support plates.
[0012] Preferably, the water spray assembly includes a fixing block, a water outlet pipe, and spray nozzles. The fixing block is fixed to the side wall of the first support plate, the water outlet pipe is fixed to the fixing block, and multiple spray nozzles are evenly arranged along the length of the water spray pipe. A valve is installed at one end of the water outlet pipe.
[0013] Compared with the prior art, the present invention has the following technical effects:
[0014] This device is convenient to install, easy to operate, and highly safe, greatly accelerating material cleaning and coating speed and improving construction efficiency. The water spray component wets the roller brush, thereby wetting the tiles and improving their adhesion. The roller brush, hopper, and toothed scraper are height-adjustable, allowing the device to accommodate tiles of different heights. Attached Figure Description
[0015] The accompanying drawings, which are included to provide a further understanding of the present invention and constitute a part of it, do not constitute a limitation thereof. In the drawings:
[0016] Figure 1 A schematic diagram illustrating the overall structure of this utility model;
[0017] Figure 2 A schematic diagram illustrating the roller brush and water spray assembly in this utility model;
[0018] Figure 3 A schematic diagram illustrating the first driving component in this utility model;
[0019] Figure 4 A schematic diagram illustrating the feeding hopper and connecting block in this utility model;
[0020] Figure 5 This diagram illustrates the opening of the stop plate of this utility model.
[0021] Explanation of reference numerals in the attached drawings: 1. Base plate; 11. Caster wheel; 12. First support plate; 121. Through groove; 122. Slide groove; 13. Second support plate; 14. Third support plate; 2. Conveyor belt; 21. Mounting plate; 3. Roller brush; 4. First drive assembly; 41. Moving block; 411. Slider; 412. Motor; 42. Fixing block; 421. Connecting hole; 43. Anti-detachment plate; 44. Lead screw; 45. Handle; 5. Water spray assembly; 51. Mounting block; 52. Water outlet pipe; 53. Nozzle; 54. Valve; 6. Feed hopper; 61. Connecting block; 62. Discharge port; 63. Stop plate; 64. Slot; 65. Handle; 7. Second drive assembly; 8. Toothed scraper; 9. Third drive assembly. Detailed Implementation
[0022] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the embodiments and accompanying drawings. Here, the illustrative embodiments and descriptions of this utility model are used to explain the present utility model, but are not intended to limit the present utility model.
[0023] Reference Figures 1-5 A tile installation, cleaning, and painting machine includes a base plate 1, casters 11 mounted below the base plate 1, a conveyor belt 2 mounted above the base plate 1, and two mounting plates 21 fixed on the base plate 1. The conveyor belt 2 is installed between the two mounting plates 21. The conveyor belt 2 transports the tiles.
[0024] Two parallel first support plates 12 are fixed on the base plate 1. One first support plate 12 is located on one side of the conveyor belt 2, and the other first support plate 12 is located on the other side of the conveyor belt 2. A roller brush 3 is arranged between the two first support plates 12 to clean the tiles on the conveyor belt 2.
[0025] The first support plate 12 is provided with a first drive assembly 4 for driving the roller brush 3 to move up and down. The first drive assembly 4 can drive the roller brush 3 to move up or down, thereby adjusting the height of the roller brush 3 so that it can adapt to tiles of different thicknesses. Both first support plates 12 have through slots 121. The first drive assembly 4 includes a moving block 41, a lead screw 44, and a handle 45. The moving block 41 is located in the through slot 121 and can slide along the length of the through slot 121. Each through slot 121 on the first support plate 12 corresponds to a moving block 41. The roller brush 3 is rotatably connected between two moving blocks 41, and a motor 412 for driving the roller brush 3 to rotate is fixed on one of the moving blocks 41.
[0026] Slider blocks 411 are fixed on both sides of the movable block 41. A sliding groove 122 is provided on the groove wall of the through groove 121. The slider 411 is inserted into the sliding groove 122 and can slide up and down along the sliding groove 122. An inverted U-shaped fixing block 42 is fixed on the top of the movable block 41. A connecting hole 421 is provided on the top of the fixing block 42. The bottom of the lead screw 44 passes through the connecting hole 421 and is fixed with an anti-detachment plate 43. The top of the lead screw 44 passes through the first support plate 12 and is threadedly connected to the first support plate 12. The handle 45 is fixed on the top of the lead screw 44. When it is necessary to adjust the height of the roller brush 3 upward, the handles 45 on the two first support plates 12 are rotated together. The lead screw 44 drives the anti-detachment plate 43 to move upward. The anti-detachment plate 43 drives the movable block 41 to move upward. The movable block 41 drives the roller brush 3 to move upward.
[0027] A water spraying assembly 5 for spraying water onto the roller brush 3 is installed on the side wall of the first support plate 12. Some operators need to wet the tiles before applying mortar. Moderate wetting helps the cement mortar adhere better to the back of the tile, improving the bonding effect. The water spraying assembly 5 can spray an appropriate amount of water onto the roller brush 3, allowing the wet roller brush 3 to further wet the tile. When wetting, it is important to ensure that the tile surface is moist but without standing water.
[0028] The water spray assembly 5 includes a mounting block 51, a water outlet pipe 52, and a nozzle 53. Each first support plate 12 corresponds to one mounting block 51, and the mounting block 51 is fixed to the side wall of the first support plate 12. The water outlet pipe 52 is fixed between two mounting blocks 51, with one end of the water outlet pipe 52 extending out of one of the mounting blocks 51 and equipped with a valve 54. A water tank is provided on one side of the conveyor belt 2, and a water supply pipe is connected between the water tank and the water outlet pipe 52. A water pump is installed on the water supply pipe. When it is necessary to spray water on the roller brush 3, the valve 54 and the water pump are opened to spray an appropriate amount of water onto the roller brush 3, and then the valve 54 and the water pump are closed.
[0029] When the tiles placed on conveyor belt 2 pass under the roller brush 3, the roller brush 3 can clean the dust on the surface of the tiles. If wetting is required, water can be sprayed onto the roller brush 3. After the tiles pass through the roller brush 3, the surface of the tiles can be both cleaned and wetted.
[0030] A feeding hopper 6 is provided on one side of the roller brush 3, and a second support plate 13 is provided on one side of the first support plate 12. The feeding hopper 6 is installed between the two second support plates 13. A second drive assembly 7 for adjusting the height of the feeding hopper 6 is provided on the second support plate 13. The structure of the second drive assembly 7 is the same as that of the first drive assembly 4. Connecting blocks 61 are fixed at both ends of the feeding hopper 6. One connecting block 61 is fixed to one of the moving blocks 41 of the second drive assembly 7, and the other connecting block 61 is fixed to the other moving block 41 of the second drive assembly 7.
[0031] A discharge port 62 is provided on the bottom plate of the feeding hopper 6. A stop plate 63 is provided below the feeding hopper 6, and the stop plate 63 contacts the bottom of the feeding hopper 6. Slots 64 are provided on the sides of the two connecting blocks 61 that are close to each other. One end of the stop plate 63 is inserted into the slot 64 of one of the connecting blocks 61, and the other end of the stop plate 63 is inserted into the slot 64 of the other connecting block. A handle 65 is fixed on the stop plate 63. Pulling the handle 65 outward opens the discharge port 62; pushing the handle 65 inward closes the discharge port 62. By pulling the handle 65, the position of the stop plate 63 can be adjusted, thereby adjusting the size of the discharge port 62. When the tile passes under the feeding hopper 6, mortar is evenly applied to the tile through the discharge port 62. The height of the feeding hopper 6 can be adjusted according to the thickness of the tile.
[0032] A toothed scraper 8 is provided on the side of the feeding hopper 6 away from the roller brush 3, and is located above the conveyor belt 2. A third support plate 14 is provided on one side of the second support plate 13, and the toothed scraper 8 is located between the two third support plates 14. A third drive assembly 9 is installed on the third support plate 14, and the structure of the third drive assembly 9 is the same as that of the first drive assembly 4. The toothed scraper 8 is fixed between two moving blocks 41 of the third drive assembly 9, and the third drive assembly 9 can adjust the height of the toothed scraper 8, so that the toothed scraper 8 can adapt to tiles of different thicknesses. After the tiles pass through the toothed scraper 8, the mortar surface can be grooved, improving the adhesion quality of the tiles.
[0033] The operating principle of this utility model's tile installation, cleaning, and coating machine is as follows: When applying mortar to tiles, the heights of the roller brush 3, the hopper 6, and the toothed scraper 8 are adjusted in advance according to the tile's thickness. Then, the worker places the tile onto the conveyor belt 2, which transports the tile. The tile first passes under the roller brush 3. If the tile needs to be moistened, an appropriate amount of water is sprayed onto the roller brush 3 beforehand. After passing through the roller brush 3, the tile surface is cleaned.
[0034] Then the tiles pass under the hopper 6, and the mortar falls evenly from the discharge port 62. The mortar is applied to the tiles, and then the tiles pass under the toothed scraper 8. The mortar is scraped into grooves to ensure better adhesion when pasting. After the entire process is completed, the worker removes the tiles from the conveyor belt.
[0035] This device is convenient to install, easy to operate, and highly safe, greatly accelerating material cleaning and coating speed and improving construction efficiency. It significantly increases the efficiency of single-person operation for installing panel materials, greatly saving labor costs. Its high stability conserves resources, avoids material waste, and further reduces construction costs. This device can be flexibly adjusted to adapt to various construction environments based on actual site conditions. It can be applied to multiple fields such as surface cleaning and mortar application of decorative panels, wall tiles, and floor tiles, making it widely applicable and highly practical. The device has a high turnover rate and low maintenance costs, reducing operating costs.
[0036] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the scope of protection of the present utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model are included within the scope of protection of the present utility model.
Claims
1. A tile installation, cleaning, and coating machine, characterized in that, The conveyor belt (2) is used to transport the tiles. A roller brush (3) is provided above the conveyor belt to clean the dust on the tiles. A hopper (6) is provided on one side of the roller brush (3) to apply mortar to the tiles. A toothed scraper (8) is provided on the side of the hopper (6) away from the roller brush (3) to scrape the mortar on the tiles. The conveyor belt (2) is provided with a second support plate (13) on both sides. The two ends of the feeding hopper (6) are installed between the two second support plates (13). The second support plate (13) is provided with a second drive component (7) that can adjust the height of the feeding hopper (6).
2. The tile installation, cleaning, and coating machine according to claim 1, characterized in that, First support plates (12) are provided on both sides of the conveyor belt (2), and the roller brush (3) is installed between the two first support plates (12). A first drive assembly (4) for adjusting the height of the roller brush (3) is provided on the first support plate (12).
3. The tile installation, cleaning, and coating machine according to claim 2, characterized in that, The first drive assembly (4) includes a moving block (41) and a lead screw (44). A through groove (121) is provided on the first support plate (12). The moving block (41) is located in the through groove (121) and is slidably connected to the through groove (121). An inverted U-shaped fixing block (42) is fixed to the top of the moving block (41). The bottom of the lead screw (44) passes through the top of the fixing block (42) and is fixed with an anti-detachment plate (43). The top of the lead screw (44) passes through the first support plate (12) and is threadedly connected to the first support plate (12). A handle (45) is fixed to the bottom of the lead screw (44). The roller brush (3) is rotatably connected between the two moving blocks (41). A motor (412) for driving the roller brush (3) to rotate is fixed on one of the roller brushes (3).
4. The tile installation, cleaning, and coating machine according to claim 1, characterized in that, The bottom plate of the feeding hopper (6) is provided with a discharge port (62), and a stop plate (63) is provided below the feeding hopper (6). Both ends of the feeding hopper (6) are fixed with connecting blocks (61). The two connecting blocks (61) are provided with slots (64) on the side that is close to each other. Both ends of the stop plate (63) are inserted into the slots (64). Pulling the stop plate (63) can open or close the discharge port (62).
5. The tile installation, cleaning, and coating machine according to claim 1, characterized in that, The conveyor belt (2) is provided with a third support plate (14) on both sides, and a toothed scraper (8) is installed between the two third support plates (14). A third drive assembly (9) that can adjust the height of the toothed scraper (8) is installed on the third support plate (14).
6. The tile installation, cleaning, and painting machine according to claim 1, characterized in that, A water spraying assembly (5) for spraying water onto the roller brush (3) is provided between the two first support plates (12).
7. The tile installation, cleaning, and coating machine according to claim 6, characterized in that, The water spray assembly (5) includes a fixing block (42), a water outlet pipe (52) and a nozzle (53). The fixing block (42) is fixed on the side wall of the first support plate (12), the water outlet pipe (52) is fixed on the fixing block (42), and multiple nozzles (53) are evenly arranged along the length of the water spray pipe. A valve (54) is installed at one end of the water outlet pipe (52).