CN212859965U - Dust-free ceramic tile slotting equipment - Google Patents

Abstract

The utility model discloses a dustless ceramic tile fluting equipment. Dustless ceramic tile fluting equipment includes: a frame; the grooving device is detachably connected to the rack. The movable platform is connected to the rack in a sliding mode, and the grooving device is located in the sliding extending direction of the movable platform. The dustproof assembly is detachably connected to the rack and connected to the grooving device, and the dustproof assembly sprays liquid towards the cutting direction of the grooving device. The filtering component comprises a precipitation cavity and a water pumping cavity communicated to the precipitation cavity, the precipitation cavity is connected with the rack, the dustproof component is connected with the water pumping cavity, and the water pumping cavity is used for containing liquid. Dustproof subassembly, groover and movable platform all can dismantle in the frame and connect, realize each functional unit modularization processing, easy dismounting can be applied to job site, convenient operation with dustless ceramic tile fluting equipment. The dustproof assembly is used for washing dust generated in the process of covering the ceramic tile grooving, and is environment-friendly, sanitary and less in pollution.

Description

Dust-free ceramic tile slotting equipment

Technical Field

The utility model relates to a building technical field, concretely relates to dustless ceramic tile slotting device.

Background

In the decoration process, grooving operation needs to be carried out on materials such as ceramic tiles and the like, and particularly, grooving operation needs to be carried out on the side faces of the ceramic tiles. In the related art, the ceramic tile slotting equipment has a large and complex structure and is difficult to carry, and ceramic tile slotting machining operation cannot be carried out on a decoration site. Ceramic tile fluting equipment must use at fixed place, leads to the big intensity of the transport repeatability of ceramic tile high to the dimensional processing in each fitment space is different, leads to the fluting size of processing to mismatch easily, causes the wasting of resources. However, when the manual cutting device is used for slotting the ceramic tiles, the slotting size precision is extremely low, the ceramic tiles are easy to damage, and the operation risk is high, so that the improvement is needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a dustless ceramic tile slotting device.

To achieve the purpose, the utility model adopts the following technical proposal:

there is provided a dust free tile grooving apparatus comprising:

a frame;

the grooving device is detachably connected to the rack;

the movable platform is connected to the rack in a sliding mode, and the grooving device is located in the sliding extending direction of the movable platform;

the dustproof assembly is detachably connected to the rack and connected to the grooving device, and sprays liquid towards the cutting direction of the grooving device;

the filtering component comprises a precipitation cavity and a water pumping cavity communicated to the precipitation cavity, the precipitation cavity is connected with the rack, the dustproof component is connected with the water pumping cavity, and the water pumping cavity is used for containing liquid.

Optionally, the grooving device includes a first column and a second column detachably connected to the frame, a guide frame connecting the first column and the second column, and at least one grooving assembly slidably connected to the guide frame, the first column and the second column are parallel to each other and spaced apart from each other, the at least one grooving assembly is located between the first column and the second column, an extending direction of the guide frame is perpendicular to a sliding direction of the movable platform, and the dustproof assembly is connected to the grooving assembly.

Optionally, the slotting component comprises a sliding seat, a driving piece and a locking piece which are installed on the sliding seat, and a cutting blade which is installed on the driving piece, the sliding seat is connected to the guide frame in a sliding mode, the locking piece locks the sliding seat on the guide frame, and the cutting blade extends towards the direction of the movable platform.

Optionally, the driving member is slidably connected to the sliding seat.

Optionally, the sliding seat comprises a sliding plate, a mounting plate hinged to the sliding plate, and a locking member connected to the mounting plate, the locking member locking the relative position of the sliding plate and the mounting plate, and the driving member is mounted to the mounting plate.

Optionally, the guide frame is slidably connected to the first upright and the second upright.

Optionally, the guide frame includes a first slider, a second slider, and a connecting rod connecting the first slider and the second slider, the first slider is connected to the first column in a sliding manner, the second slider is connected to the second column in a sliding manner, and the slotting component is connected to the connecting rod in a sliding manner.

Optionally, the leading truck still include first rotation seat and with the seat is rotated to the second that first rotation seat set up relatively, the connecting rod is connected first rotation seat and second rotate the seat, first rotation seat rotatable coupling in first slider, second rotate seat rotatable coupling in the second slider.

Optionally, the movable platform comprises a plate-shaped platform main body, and a roller assembly and a scale assembly which are installed on the platform main body, wherein the roller assembly and the scale assembly are arranged back to back, and the roller assembly is erected on the frame.

Optionally, the rack includes a main frame, at least three foot rests rotatably connected to the main frame, and a waste rack installed on the main frame, the grooving device is installed on the main frame and located above the waste rack, the movable platform is slidably disposed on the main frame, and the waste rack is located in a sliding extending direction of the movable platform and connected to the movable platform.

The utility model has the advantages that: dustproof subassembly, groover and movable platform all can dismantle in the frame and connect, realize each functional unit modularization processing, easy dismounting can be applied to job site, convenient operation with dustless ceramic tile fluting equipment. The movable platform is connected to the rack in a sliding mode to place and push the ceramic tiles to be close to and far away from the grooving device, and the grooving precision is high and the safety is high. The dustproof assembly is used for washing dust generated in the process of covering the ceramic tile grooving, so that the dust is prevented from flying into the air, and the environment-friendly and sanitary effects are less. The filtering component can filter the liquid mixed with the waste residues so as to be recycled by the dustproof component, and the resource utilization rate is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below. It is obvious that the drawings described below are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be obtained from these drawings without inventive effort.

Fig. 1 is a schematic structural view of a dust-free ceramic tile slotting device of the present invention.

Fig. 2 is the structure schematic diagram of the dust-free ceramic tile slotting device of the utility model in the supporting state.

Fig. 3 is a schematic structural view of the dust-free ceramic tile grooving device of the present invention in a shrinking state.

Fig. 4 is a schematic structural diagram of the grooving apparatus of the present invention, in which the cutting blade is in a horizontal state.

Fig. 5 is a schematic structural diagram of the grooving apparatus according to the present invention, wherein the cutting blade is in an inclined state.

Fig. 6 is an enlarged schematic view of a structure at a in fig. 1.

Fig. 7 is a schematic view of the structure of the dust-free ceramic tile slotting device of the present invention.

In the figure: a frame 10; a main frame 11; a foot rest 12; a waste frame 13; a grooving device 20; a first upright 21; a second upright 22; a guide frame 23; a first slider 231; a second slider 232; a connecting rod 233; a second rotary base 234; a first rotating base 235; a slotted assembly 24; a slide base 241; a sliding plate 2411; a mounting plate 2412; a locking piece 2413; a connecting rod 2414; a drive member 242; a dicing sheet 243; a dust-proof assembly 30; a nozzle assembly 31; a movable platform 40; a platform main body 41; a roller assembly 42; a scale member 43; a lateral scale 431; a longitudinal scale 432; a stopper rod 44; a filter assembly 50; a settling chamber 51; a pumping chamber 52.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar parts; in the description of the present invention, it should be understood that if the terms "upper", "lower", "left", "right", "inner", "outer", etc. are used to indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not indicated or implied that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are used only for illustrative purposes and are not to be construed as limiting the present patent, and the specific meaning of the terms will be understood by those skilled in the art according to the specific circumstances.

In the description of the present invention, unless otherwise explicitly specified or limited, the term "connected" or the like, if appearing to indicate a connection relationship between the components, is to be understood broadly, for example, as being either a fixed connection, a detachable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through one or more other components or may be in an interactive relationship with one another. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 and 2, the dust-free tile grooving apparatus includes: the grooving device comprises a machine frame 10, a grooving device 20 and a dustproof assembly 30 which are detachably connected to the machine frame 10, and a movable platform 40 which is connected to the machine frame 10 in a sliding mode, wherein the grooving device 20 is located in the sliding extending direction of the movable platform 40. The movable platform 40 is provided with a processing platform for placing plate-shaped materials such as tiles, and the grooving device 20 is used for grooving or cutting the shapes of the tiles on the side walls or the surfaces of the tiles. When the movable platform 40 moves along the frame 10 and slides towards the grooving device 20, the side wall of the tile contacts with the cutting edge part of the grooving device 20, and the grooving device 20 machines a cutting groove with corresponding size and angle on the side wall of the tile, wherein the cutting groove can be a groove, a notch or a slope. The movable platform 40 is slidably connected to the frame 10 to place and push the tiles close to and away from the grooving apparatus 20, and the grooving accuracy is high and the safety is high.

The dustproof assembly 30 is connected to the grooving device 20, and the dustproof assembly 30 sprays liquid towards the cutting direction of the grooving device 20 so as to adsorb dust generated in the tile cutting process through the liquid, so that the dust is prevented from scattering in the air, and the environment-friendly and sanitary pollution is less. Dustproof subassembly 30, groover 20 and movable platform 40 all can dismantle in frame 10 and connect, realize each functional unit modularization processing, easy dismounting can be applied to job site, convenient operation with dustless ceramic tile fluting equipment.

As shown in fig. 3 and 4, in an embodiment, the rack 10 includes a main frame 11, at least three foot rests 12 rotatably connected to the main frame 11, and a scrap rack 13 mounted on the main frame 11, wherein the slot cutting device 20 is mounted on the main frame 11 and above the scrap rack 13. The movable platform 40 is slidably disposed on the main frame 11, and the waste rack 13 is located in the sliding extending direction of the movable platform 40 and connected to the movable platform 40.

The main frame 11 is a frame structure formed by connecting tubular profiles, wherein the main frame 11 is a plane frame or a frame structure with a step structure. The foot rest 12 is rotatably connected to the main frame 11 and includes a support state and a retracted state. When the slotting device is in use, the foot rest 12 rotates relative to the main frame 11 and is perpendicular or inclined relative to the main frame 11 to maintain the machine frame 10 in an upright use state. The overall size of the frame 10 is high, which is convenient for operators to construct slots. When the slotting equipment is in a transportation state, the foot rests 12 can be rotatably connected to the main frame 11 and close to the main frame 11 so as to keep the machine frame 10 in a stacked and folded transportation state. The overall size of the frame 10 is small, which facilitates the folding and transportation of the slotting equipment. Optionally, the foot rests 12 include four feet and are distributed on the main frame 11 in a quadrilateral shape.

Alternatively, the foot rest 12 is hingedly connected to the main frame 11 by a hinge shaft. The main frame 11 is provided with a bending frame similar to a U shape, and one end of the foot rest 12 is inserted into the bending frame and connected with the bending frame through a hinge shaft. The main frame 11 and the foot rest 12 are connected by a connecting rod 2414 to form a triangle fixing structure.

The waste rack 13 is fixed on the main frame 11 and used for receiving and gathering waste residues generated in the ceramic tile processing and liquid output by the dustproof assembly 30, and the height of the waste rack 13 is lower than that of the movable platform 40 used for placing the processing surface of the ceramic tile, so that the liquid mixed with the waste residues flows into the waste rack 13. Optionally, the scrap rack 13 includes a trough provided with a recessed reservoir. The material rack also comprises a flexible part for connecting the material groove and the movable platform 40, and the flexible part is made of materials such as rubber, thin films and the like. The flexible piece moves telescopically along with movable platform 40 to keep movable platform 40 to be connected with the silo, keep the last liquid of movable platform 40 can flow in the silo in succession, keep operational environment clean and tidy and improve movable platform 40 and carry the efficiency of material.

As shown in fig. 1 and 2, the cleanroom tile grooving apparatus further comprises a filter assembly 50, wherein the filter assembly 50 is connected to the waste rack 13 to receive the mixed liquid output from the waste rack 13 and separate the mixed liquid into liquid and waste slag. Optionally, the filtering assembly 50 comprises a settling chamber 51 and a pumping chamber 52 communicated with the settling chamber 51, a filter screen is arranged between the settling chamber 51 and the pumping chamber 52, the waste rack 13 is connected with the settling chamber 51, and the dustproof assembly 30 is connected with the pumping chamber 52 to form a cleaning pipeline with circulating flow. Alternatively, the dust prevention assembly 30 includes a motor assembly, a nozzle assembly 31 mounted to the grooving apparatus 20, and a pipe assembly connecting the motor assembly and the nozzle assembly 31, the nozzle assembly 31 spraying the liquid toward the machining direction of the grooving apparatus 20.

In one embodiment, the slot cutting apparatus 20 includes a first upright 21 and a second upright 22 detachably connected to the frame 10, a guide frame 23 connecting the first upright 21 and the second upright 22, and at least one slot assembly 24 slidably connected to the guide frame 23, wherein the first upright 21 and the second upright 22 are parallel to each other and spaced apart. The at least one slotted assembly 24 is located between the first upright column 21 and the second upright column 22, the extending direction of the guide frame 23 is perpendicular to the sliding direction of the movable platform 40, and the dust-proof assembly 30 is connected to the slotted assembly 24.

The first upright post 21 and the second upright post 22 are arranged in parallel with each other, and both the first upright post 21 and the second upright post 22 are detachably connected with the frame 10. Optionally, the first upright 21 and the second upright 22 are connected to the main frame 11 by bolts and located at two sides of the waste rack 13, and the guide frame 23 is mounted above the waste rack 13 in a spanning manner, so that the projection of the slotting component 24 in the direction of the rack 10 falls into the area of the waste rack 13, and the liquid mixed with the waste slag can flow into the waste rack 13 conveniently. The grooving device 20 can be integrally installed on the rack 10, and is convenient to disassemble and assemble, does not affect the matching relationship among all accessories of the grooving device 20, and is convenient to carry and groove ceramic tiles.

As shown in fig. 1 and 4, the slotting assembly 24 slides along the guide frame 23 to adjust the cutting position with respect to the tiles on the movable platform 40, adapting to the tiles of different working positions and working sizes. Optionally, the slotting component 24 includes a sliding seat 241, a driving element 242 and a locking element 2413 mounted on the sliding seat 241, and a cutting blade 243 mounted on the driving element 242, the sliding seat 241 is slidably connected to the guiding frame 23, the locking element 2413 locks the sliding seat 241 to the guiding frame 23, and the cutting blade 243 extends toward the movable platform 40.

The sliding base 241 is slidably coupled to the guide frame 23 to adjust a cutting position of the cutting blade 243 with respect to the movable platform 40. The driving member 242 is a power unit for driving the cutter 243 to rotate and process the tile, and for example, the driving member 242 is a cutter motor mounted on the sliding base 241, and the cutter 243 is mounted on an output shaft of the cutter motor. The surface of revolution of the cutting blade 243 extends towards the movable platform 40 to form a cutting slot range. Optionally, the plane of revolution of the cutting blade 243 is parallel to the moving direction of the movable platform 40.

The locking member 2413 locks the relative position of the sliding seat 241 and the guide frame 23 to keep the cutting blade 243 from being displaced during the tile processing. Alternatively, the locking member 2413 includes a bolt member screwed to the slide base 241, and the bolt member abuts against the guide frame 23 to lock the position of the slide base 241. Further, the end of the bolt member is mounted with a friction block, which abuts against the guide frame 23 to lock the position of the sliding seat 241. Alternatively, the locking member 2413 is provided as a clasping mechanism mounted to the sliding seat 241, and the clasping mechanism clamps the hoop guide frame 23 to lock the relative position of the sliding seat 241 and the guide frame 23. If the clasping mechanism comprises a first clamp member and a second clamp member hinged to the first clamp member, the first clamp member and the second clamp member are sleeved on the guide frame 23 and clasp the guide frame 23 when mutually locked.

The sliding seat 241 slides along the guiding frame 23 to adjust the horizontal position of the cutting blade 243, and further, to adjust the vertical height of the cutting blade 243 relative to the movable frame, it may include, but is not limited to, the following ways:

in the first mode, the driving element 242 is slidably connected to the sliding seat 241. In this embodiment, the driving member 242 of the grooving apparatus 20 is partially moved to adjust the vertical position of the cutting blade 243 relative to the movable platform 40, so as to realize grooving at different height positions of the tile.

In a second way, the guide frame 23 is slidably connected to the first upright 21 and the second upright 22, that is, the guide frame 23 and the grooving device 20 are integrally moved relative to the movable platform 40, so as to realize the grooving at different height positions of the ceramic tile. It should be noted that when the grooving apparatus 20 is provided with two or more grooving assemblies 24, the movable guide 23 can drive the grooving apparatuses 20 to move synchronously, so that the movement efficiency is high, the displacement amounts are the same, and the adjustment is convenient. The grooving device 20 is provided with two or more grooving assemblies 24, can process a plurality of grooving positions of a ceramic tile on the working platform simultaneously, and has accurate relative position, high processing efficiency and high processing precision.

In this embodiment, the guiding frame 23 includes a first sliding block 231, a second sliding block 232, and a connecting rod 233 connecting the first sliding block 231 and the second sliding block 232, the first sliding block 231 is slidably connected to the first upright 21, the second sliding block 232 is slidably connected to the second upright 22, and the slotted component 24 is slidably connected to the connecting rod 233. The first sliding block 231 is matched with the first upright post 21 for guiding and sliding, and the second sliding block 232 is matched with the second upright post 22 for guiding and sliding, so that the sliding precision is high, and the positioning and the adjustment are convenient. Alternatively, the guiding frame 23 comprises two lead screw nut assemblies mounted to the first upright 21 and the second upright 22, wherein the connecting rod 233 is connected to a sliding nut. The slotted assembly 24 slides along the connecting rod 233. Alternatively, the number of the connection rods 233 is set to one or more. For example, when the connecting rod 233 is provided as one, it may be provided as a rectangular or a profiled rail structure. When the connecting rods 233 are two, the sliding seat 241 is connected with the two connecting rods 233 in a sliding mode, and stability and torque resistance are good.

As shown in fig. 1, 4, 5 and 6, the above embodiment discloses the position adjustment of the grooving assembly 24 in the vertical height direction, and further, the cutting blade 243 is obliquely arranged with respect to the tile to form an inclined notch in the groove wall of the tile. To adjust the angle of inclination of the cutting blade 243 relative to the movable platform 40, it may include, but is not limited to, the following:

in the first mode, the relative inclination angle of the driving assembly is adjusted by the sliding seat 241, so that the cutting blade 243 is inclined relative to the movable platform 40. In this embodiment, the sliding seat 241 includes a sliding plate 2411, a mounting plate 2412 hingedly connected to the sliding plate 2411, and a locking member 2413 connected to the mounting plate 2412, wherein the locking member 2413 locks the relative positions of the sliding plate 2411 and the mounting plate 2412, and the driving member 242 is mounted to the mounting plate 2412. When the mounting plate 2412 is engaged with the sliding plate 2411, the cutting blade 243 is parallel to the sliding direction of the movable platform 40. When the mounting plate 2412 is rotated relative to the sliding plate 2411, the surface of revolution of the cutting blade 243 is tilted relative to the movable platform 40. Optionally, the mounting plate 2412 is provided with a link 2414, the link 2414 being remote from the hinge point of the mounting plate 2412. The link 2414 is provided with an arc-shaped long hole, and the locking member 2413 passes through the arc-shaped long hole and locks the mounting plate 2412 to the sliding plate 2411, thereby locking the inclination angle of the cutting blade 243.

In a second mode, the guide frame 23 further includes a first rotating seat 235 and a second rotating seat 234 opposite to the first rotating seat 235, the connecting rod 233 is connected to the first rotating seat 235 and the second rotating seat 234, the first rotating seat 235 is rotatably connected to the first sliding block 231, and the second rotating seat 234 is rotatably connected to the second sliding block 232. Both ends of the connecting rod 233 are connected to the first rotating base 235 and the second rotating base 234, respectively, and integrally rotate with the first rotating base 235 and the second rotating base 234. Accordingly, the slotting assembly 24 mounted to the connecting bar 233 adjusts the cutting angle of the cutting blade 243 as the connecting bar 233 rotates. It should be noted that when the grooving device 20 is provided with two or more grooving assemblies 24, the rotary guide frame 23 can drive the plurality of grooving devices 20 to synchronously rotate, so that the plurality of cutting blades 243 have the same inclination angle, the adjustment efficiency is high, the inclination angles are consistent, and the adjustment is convenient. The grooving device 20 is provided with two or more grooving assemblies 24, can process a plurality of grooving positions of a ceramic tile on the working platform simultaneously, and has accurate relative position, high processing efficiency and high processing precision.

The movable platform 40 is used for supporting and moving the ceramic tiles, the ceramic tiles can be disassembled and assembled at a safe position, and the movable platform 40 can be moved close to the grooving device 20 along with the sliding of the movable platform 40, so that the cutting blade 243 can be grooved on the side wall of the ceramic tiles. The movable platform 40 is slidably connected to the main frame 11 in a sliding manner, such as sliding connection or rolling connection. For example, the two can be connected in a relatively sliding manner through a guide rail and sliding block matching structure.

As shown in fig. 1 and 7, the movable platform 40 includes a plate-shaped platform main body 41, and a roller assembly 42 and a scale assembly 43 mounted on the platform main body 41, wherein the roller assembly 42 and the scale assembly 43 are oppositely disposed, and the roller assembly 42 is erected on the frame 10. The platform body 41 is a rigid structure for placing and supporting objects such as tiles. The platform main body 41 is connected with the main frame 11 through the roller assemblies 42 in a rolling manner, the moving flexibility is high, the roller assemblies 42 are connected with the main frame 11 in a rolling manner, the moving stability of the movable platform 40 can be kept, and the problem of abrasion caused by the fact that objects such as waste residues enter a sliding range is avoided. Alternatively, the main frame 11 includes a rail frame provided with a guide groove in which the roller assembly 42 is defined.

The scale assembly 43 is installed on the upward side of the platform body 41 to define the placement reference position of the tiles and to calibrate the slotting position and depth of the tiles. Optionally, the scale assembly 43 comprises a transverse scale 431 and a longitudinal scale 432 intersecting the transverse scale 431. For example, the lateral scale 431 and the longitudinal scale 432 form a vertical angle, a right angle for defining the tile is used as a reference angle, and the side wall opposite to the lateral scale 431 is the side wall needing to be grooved. The size and parameters of the ceramic tile can be visually obtained through the transverse scale 431 and the longitudinal scale 432, and the grooving position can be conveniently adjusted. Optionally, the scale assembly 43 further includes a limiting rod 44 movably mounted on the platform body 41, and the limiting rod 44 abuts against the main frame 11 when the movable platform 40 moves towards the grooving apparatus 20 and the grooving depth is equal to the preset depth, so as to limit the grooving depth of the grooving apparatus 20, so that the grooving accuracy is precise and uniform, and the processing effect is good.

It should be understood that the above-described embodiments are merely illustrative of the preferred embodiments of the present invention and the technical principles thereof. It will be understood by those skilled in the art that various modifications, equivalents, changes, and the like can be made to the present invention. However, these modifications are within the scope of the present invention as long as they do not depart from the spirit of the present invention. In addition, certain terms used in the specification and claims of the present application are not limiting, but are used merely for convenience of description.

Claims (10)

1. A dust-free ceramic tile grooving apparatus, comprising:

a frame;

the grooving device is detachably connected to the rack;

the movable platform is connected to the rack in a sliding mode, and the grooving device is located in the sliding extending direction of the movable platform;

the dustproof assembly is detachably connected to the rack and connected to the grooving device, and sprays liquid towards the cutting direction of the grooving device;

the filtering component comprises a precipitation cavity and a water pumping cavity communicated to the precipitation cavity, the precipitation cavity is connected with the rack, the dustproof component is connected with the water pumping cavity, and the water pumping cavity is used for containing liquid.

2. A dust-free tile grooving apparatus as claimed in claim 1, wherein the grooving device comprises a first upright and a second upright removably attached to the frame, a guide bracket connecting the first upright and the second upright, and at least one grooving assembly slidably attached to the guide bracket, the first upright and the second upright being parallel to and spaced apart from each other, the at least one grooving assembly being located between the first upright and the second upright, the guide bracket extending in a direction perpendicular to a sliding direction of the movable platform, the dust-proof assembly being attached to the grooving assembly.

3. The dust-free tile grooving apparatus of claim 2, wherein the grooving assembly comprises a sliding base, a driving member and a locking member mounted to the sliding base, the sliding base being slidably coupled to the guide frame, and a cutting blade mounted to the driving member, the locking member locking the sliding base to the guide frame, the cutting blade extending toward the movable platform.

4. A dust free tile grooving apparatus as claimed in claim 3, wherein the drive member is slidably connected to the slide block.

5. A dust free tile grooving apparatus as claimed in claim 3, wherein the sliding base comprises a sliding plate, a mounting plate hingedly connected to the sliding plate, and a locking member connected to the mounting plate, the locking member locking the relative position of the sliding plate and the mounting plate, the driving member being mounted to the mounting plate.

6. A dust free tile grooving apparatus as claimed in claim 2 wherein said guide frame is slidably connected to said first and second columns.

7. A dust free tile grooving apparatus as claimed in claim 6, wherein the guide frame comprises a first slide block, a second slide block, and a connecting rod connecting the first slide block and the second slide block, the first slide block slidably connected to the first column, the second slide block slidably connected to the second column, the grooving assembly slidably connected to the connecting rod.

8. A dust-free tile grooving apparatus as claimed in claim 7, wherein the guide frame further comprises a first rotating base and a second rotating base disposed opposite the first rotating base, the connecting rod connects the first rotating base and the second rotating base, the first rotating base is rotatably connected to the first sliding block, and the second rotating base is rotatably connected to the second sliding block.

9. A dust-free ceramic tile grooving apparatus as claimed in claim 1, wherein the movable platform comprises a plate-shaped platform main body, and a roller assembly and a scale assembly mounted to the platform main body, the roller assembly and the scale assembly being arranged in a back-to-back manner, the roller assembly being mounted to the frame.

10. A dust-free tile grooving apparatus as claimed in claim 1, wherein the frame comprises a main frame, at least three foot rests rotatably connected to the main frame, and a waste rack mounted to the main frame, wherein the grooving apparatus is mounted to the main frame above the waste rack, the movable platform is slidably mounted to the main frame, and the waste rack is connected to the movable platform in a sliding direction of the movable platform.

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