CN114227952A

CN114227952A - Cutting device for building ceramic tiles

Info

Publication number: CN114227952A
Application number: CN202111621318.8A
Authority: CN
Inventors: 叶提勇; 方海涛; 方海燕; 俞剑锋; 叶卓
Original assignee: Zhejiang Classic Building Decoration Co ltd
Current assignee: Zhejiang Classic Building Decoration Co ltd
Priority date: 2021-12-28
Filing date: 2021-12-28
Publication date: 2022-03-25
Anticipated expiration: 2041-12-28
Also published as: CN114227952B

Abstract

The invention discloses a cutting device for building ceramic tiles, which comprises a frame, a sliding plate and a cutting head assembly, wherein the sliding plate is connected with the frame in a sliding way through a pulley, and the cutting device also comprises: the suction component is arranged on the sliding plate, the sliding plate is sucked tightly when moving to a working area and is released when withdrawing from the working area; the water pumping assembly is arranged on the rack, drives the impeller to rotate through the sliding plate and pumps water to the cutting head assembly, so that dust is prevented from flying and the temperature of the cutting blade is reduced; the scraping plate component is used for scraping off the slurry on the surface of the ceramic tile after the ceramic tile is cut; the filtering and collecting component is used for filtering and collecting the cut water for reuse; and the rapping assembly is started after the water of the filtering and collecting assembly exceeds a certain liquid level, and the silt blocked in the filter screen is knocked down by rapping to prevent the filter screen from being blocked.

Description

Cutting device for building ceramic tiles

Technical Field

The invention relates to the field of ceramic tile processing, in particular to a cutting device for building ceramic tiles.

Background

The traditional ceramic tile cutting machine is characterized in that a water pump is usually started before a ceramic tile is cut, the water pump sprays water onto a cutting blade, on one hand, the cutting blade is cooled, on the other hand, dust generated in the cutting process is absorbed, the water pump is closed after cutting is finished, the water pump is stopped ceaselessly when the ceramic tile is replaced in the middle, and water resource waste is serious; after cutting, slurry dust is attached to the ceramic tile and needs to be further cleaned, and the working procedures are increased; the traditional ceramic tile cutting machine is usually pressed directly by hands, so that the traditional ceramic tile cutting machine is dangerous; in filtration system, the filter screen is often blockked up to the water of taking mud for water can't flow back to the water tank after filtering, and it is comparatively loaded down with trivial details to need artifical clearance again.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a cutting device for building tiles, which can realize automatic adsorption and automatic loosening of the tiles, can provide power for water spraying, can also clean the surfaces of the tiles after cutting is finished, and can ensure that a rapping component starts rapping to scatter solidified silt at a filter screen port so as to ensure that filtered water can flow back to a water tank when the liquid level in a collection basin is too high.

The technical scheme adopted by the invention for solving the technical problems is as follows: a cutting device for building tiles, comprising a frame, a sliding plate and a cutting head assembly, the sliding plate being slidably connected to the frame by means of pulleys, further comprising: the suction component is arranged on the sliding plate, the sliding plate is sucked tightly when moving to a working area and is released when withdrawing from the working area; the water pumping assembly is arranged on the rack, drives the impeller to rotate through the sliding plate and pumps water to the cutting head assembly, so that dust is prevented from flying and the temperature of the cutting blade is reduced; the scraping plate component is used for scraping off the slurry on the surface of the ceramic tile after the ceramic tile is cut; the filtering and collecting component is used for filtering and collecting the cut water for reuse; and the rapping assembly is started after the water of the filtering and collecting assembly exceeds a certain liquid level, and the silt blocked in the filter screen is knocked down by rapping to prevent the filter screen from being blocked.

In the above technical scheme, further, the tight suction assembly includes a gear set and a lifting rod of the rotary base machine, the gear set includes a first gear, a second gear and a third gear, the first gear is in meshing transmission with the rack on the rack, the first gear is connected with the second gear through a first transmission shaft, the first transmission shaft is arranged on the sliding plate through a bearing, the second gear is in meshing transmission with the third gear and drives the rotary base to rotate, and the lifting rod is internally provided with a positioning bump and is arranged in a guide recess of the rotary base.

In the above technical solution, further, when the positioning convex points are lowered vertically in the guide recesses, the lifting rods are lowered to increase the volume of air in the tiles and the sliding plate, and a negative pressure is formed to make the tiles be adsorbed on the surface of the sliding plate; when the vertical height of the positioning salient point in the guide recess rises, the lifting rod resets, and the ceramic tile is loosened; when the vertical height of the positioning salient point in the guide recess is unchanged, the positioning salient point keeps the previous state, if the positioning salient point is sucked, the suction is continuously kept, and if the positioning salient point is loosened, the positioning salient point is continuously kept.

In the above technical solution, further, the water pumping assembly includes a water tank, an impeller and a fourth gear, the fourth gear is in meshing transmission with the tooth portion of the sliding plate, the fourth gear is connected with a fifth gear through a second transmission shaft, the fifth gear is in meshing transmission with a sixth gear, the sixth gear drives the impeller to rotate, so as to pump the water in the water tank to the water outlet, and the water outlet is connected with the water pipe.

In the technical scheme, the scraper component comprises a movable convex point, a grooved pulley and a movable rod, the movable convex point is arranged on the sliding plate, the movable convex point is matched with a sliding groove of the grooved pulley, the grooved pulley drives a seventh gear to rotate through a third transmission shaft, the seventh gear is in meshing transmission with an eighth gear, the eighth gear drives the rotating disc to rotate, the movable rod is arranged above the rotating disc and ascends and descends along with a convex part on the edge of the rotating disc, and the movable rod is provided with a scraper.

In the above technical solution, further, the movable protruding point includes a limiting groove, an elastic component and an oblique cone protruding block, the limiting groove is disposed on the sliding plate, the elastic component and the oblique cone protruding block are disposed in the limiting groove, and an opening portion in the limiting groove contracts so that the oblique cone protruding block cannot be separated.

Among the above-mentioned technical scheme, furtherly, it includes collects basin, filter screen and unsteady storehouse to filter the collection subassembly, it passes through locating part fixed connection to collect the basin in the frame, it sets up certain tapering and makes the drainage can flow in the water tank to collect pelvic floor portion, the filter screen passes through the locating part to be fixed in collecting the basin, it sets up unsteady storehouse to collect basin edge, unsteady storehouse top sets up trigger switch, it follows to set up the floating ball in the storehouse of floating collect the liquid level lift in the basin.

Among the above-mentioned technical scheme, furtherly, the subassembly of shaking is including shaking and is beaten hammer, partition panel and electro-magnet, shake beat hammer with the frame is articulated, the partition panel pass through elastomeric element with collect the movable groove sliding connection on the basin, the break-make of trigger switch control electro-magnet, the electro-magnet can shake and beat the hammer and hold fixedly.

The invention has the beneficial effects that: 1. the suction and the release of the suction component are realized through the reciprocating motion of the sliding plate; 2. meanwhile, power is provided for the water pumping assembly, and water resources are saved; 3. in the process of pulling back the sliding plate, the scraper component scrapes off dust and slurry on the surface of the ceramic tile, so that the working procedures are reduced; 4. a filtering and collecting component is arranged to filter and recycle water generated in the working process; 5. and a rapping assembly is arranged to break up the solidified silt at the opening of the filter screen so that the filtered water can flow back to the water tank.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the elevation of the present invention.

Figure 2 is a schematic view of the construction of the suck assembly of the present invention.

FIG. 3 is a schematic view showing the internal structure of the suction assembly of the present invention.

Fig. 4 is a schematic structural view of the water pumping assembly of the present invention.

Fig. 5 is a schematic view of the internal structure of fig. 4 of the present invention.

Fig. 6 is a schematic view of the structure of the sliding panel of the present invention.

Fig. 7 is a schematic view of the internal structure of the movable bump according to the present invention.

FIG. 8 is a schematic view of the construction of the squeegee assembly of the invention.

Fig. 9 is a schematic view of the construction of the filter collection assembly and the rapping assembly of the present invention.

Fig. 10 is a schematic view of the internal partial structure of fig. 9 of the present invention.

In the drawing, 1, a frame, 11, a sliding groove, 12, a rack, 2, a sliding plate, 21, a pulley, 22, a tooth part, 3, a cutting head assembly, 4, a suction assembly, 41, a gear set, 411, a first gear, 412, a second gear, 413, a third gear, 42, a rotary base, 421, a guide recess, 43, a lifting rod, 431, a positioning bump, 44, a first transmission shaft, 45, a bearing, 5, a water pumping assembly, 51, a fourth gear, 52, a fifth gear, 53, a sixth gear, 54, a second transmission shaft, 55, a water tank, 56, an impeller, 57, a water inlet, 58, a water outlet, 59, a water pipe, 6, a scraper assembly, 61, a movable bump, 611, a limiting groove, 612, an elastic component, 613, a bevel cam, 62, a grooved pulley, 63, a movable rod, 64, a third transmission shaft, 65, a seventh gear, 66, an eighth gear, 67, a rotary disk, 671, 68. the device comprises a scraper 7, a filtering and collecting assembly 71, a collecting basin 72, a filter screen 73, a floating bin 74, a trigger switch 75, a floating ball 8, a rapping assembly 81, a rapping hammer 82, a partition plate 83 and an electromagnet.

Detailed Description

Referring to fig. 1 to 10, a cutting apparatus for building tiles, comprising a frame 1, a sliding plate 2 and a cutting head assembly 3, wherein the sliding plate 3 is slidably connected to the frame 1 by a pulley 21, further comprising: the suction component 4 is arranged on the sliding plate 2, and the sliding plate 2 is sucked tightly when moving to a working area and is released when exiting the working area; the water pumping 5 assembly is arranged on the frame 1, drives the impeller 56 to rotate through the sliding plate 2 and pumps water to the cutting head assembly 3, so that dust is prevented from flying and the temperature of the cutting blade is reduced; the scraping plate component 6 is used for scraping off the slurry on the surface of the ceramic tile after the ceramic tile is cut; the filtering and collecting component 7 is used for filtering and collecting the cut water for reuse; the rapping assembly 8 is started when the water in the filtering and collecting assembly 7 exceeds a certain liquid level, and the silt blocked in the filter screen 72 is knocked down by rapping to prevent the filter screen 72 from being blocked.

In order to automatically fix and release the tile, a tightening assembly 4 is provided, the tightening assembly 4 comprises a gear set 41 and a lifting rod 43 of a rotating base 42, the tightening assembly 4 slides in the sliding slot 11 of the frame 1, the gear set 41 comprises a first gear 411, a second gear 412 and a third gear 413, the first gear 411 is in meshing transmission with the rack 12 on the frame 1, the first gear 411 is connected with the second gear 412 through a first transmission shaft 44, the first transmission shaft 44 is arranged on the sliding plate 2 through a bearing 45, the second gear 412 is in meshing transmission with the third gear 413 and drives the rotating base 42 to rotate, a positioning bump 431 is arranged inside the lifting rod 43 and is arranged inside a guide recess 421 of the rotating base 42, when the positioning bump 431 is lowered vertically in the guide recess 421, the lifting rod 43 is lowered to increase the volume of air in the sliding plate 2 and the tile, forming a negative pressure so that the ceramic tile is adsorbed on the surface of the sliding plate 2; when the positioning salient point 431 is vertically raised in the guide recess 421, the lifting rod 43 is reset, and the ceramic tile is released; when the vertical height of the positioning salient point 431 in the guide recess 421 is unchanged, the former state is maintained, if the former state is absorbed, the absorption is continuously maintained, if the former state is released, the release is continuously maintained, the sliding plate 2 completes all actions, the rotating base 42 just rotates one circle through the gear set 41, so that the absorption state is maintained after the forward pushing and the absorption, the cutting and the subsequent work are realized, and the rotation is finally released after the backward movement to the initial position.

In order to save water resource, and enable the water outlet state to change with the working state, that is, water is discharged when the sliding plate is pushed forward and water is not discharged when the sliding plate is retracted, a water pumping assembly 5 is provided, the water pumping assembly comprises a water tank 55, an impeller 56 and a fourth gear 51, the fourth gear 51 is in meshing transmission with the tooth part 22 of the sliding plate 2, the fourth gear 51 is connected with a fifth gear 52 through a second transmission shaft 54, the fifth gear 52 is in meshing transmission with a sixth gear 53, the sixth gear 53 drives the impeller 56 to rotate, so as to pump the water in the water tank 55 to a water outlet, the water outlet 58 is connected with a water pipe 59, and when the sliding plate 2 is pushed forward, the fourth gear 51 rotates under the action of the tooth part 22 of the sliding plate 2, so that the impeller 56 rotates to pump the water in the water tank 55.

In order to clean the slurry on the ceramic tile after cutting, a scraper component 6 is provided, the scraper component 6 comprises a movable salient point 61, a grooved wheel 62 and a movable rod 63, the movable salient point 61 is arranged on the sliding plate 2, the movable salient point 61 is matched with a sliding groove of the grooved wheel 62, the grooved wheel 62 drives a fourth gear 65 to rotate through a second transmission shaft 64, the fourth gear 65 is in meshing transmission with a fifth gear 66, the fifth gear 66 drives a rotating disc 67 to rotate, the movable rod 63 is arranged above the rotating disc 67, the movable salient point 61 comprises a limiting groove 611, an elastic part 612 and a bevel cone projection 613, the limiting groove 611 is arranged on the sliding plate 2, the elastic part 612 and the bevel cone projection 613 are arranged in the limiting groove 611, the opening of the limiting groove 611 is contracted to enable the bevel cone projection 613 not to be separated, and the bevel cone projection 671 ascends and descends along with the edge projection 671 of the rotating disc 67, when the sliding plate 2 is pushed forward, the tapered convex block 613 on the movable convex point 61 contracts into the limiting groove 611 along the inclined surface, so that the grooved pulley 62 cannot be driven to rotate, when the sliding plate 2 retreats, the movable convex point 61 drives the grooved pulley 62 to rotate, so that the movable rod 63 moves up and down along the convex part 671 on the edge of the rotating disk 67, specifically, after the cutting is completed, the retreating sliding plate 2 drives the movable rod 63 and the scraper 68 on the movable rod 63 to descend to the surface of the tile, and when the tile completely leaves, the movable rod 63 ascends to the initial position.

For make full use of water resource, set up and filter collection subassembly 7, filter collection subassembly 7 is including collecting basin 71, filter screen 72 and unsteady storehouse 73, it is in through locating part fixed connection to collect basin 71 in frame 1, it sets up certain tapering and makes the drainage can flow in water tank 55 to collect basin 71 bottom, filter screen 72 passes through the locating part to be fixed collect in basin 71 for water after washing the dust flows back to water tank 55 after preliminary filtration makes enough reuse of water.

Considering that the filter screen 72 is easy to be blocked after the water with dust is precipitated, a rapping assembly 8 is arranged, the solidified mud cake is dissolved by repeatedly rapping, and then flows into the water tank 55, a floating bin 73 is arranged at the edge of the collection basin 71, a trigger switch 74 is arranged at the top of the floating bin 73, a floating ball 75 is arranged in the floating bin 73 and goes up and down along with the liquid level in the collection basin 71, the rapping assembly 8 comprises a rapping hammer 81, a partition plate 82 and an electromagnet 83, the rapping hammer 81 is hinged with the rack 1, the partition plate 82 is in sliding connection with a movable groove on the collection basin 71 through an elastic component, the trigger switch 74 controls the on and off of the electromagnet 83, the electromagnet 83 can fixedly suck the rapping hammer 81, the middle rod part of the rapping hammer 81 is made of iron, the specific motion process is as follows, the floating ball 75 goes up and floats along with the liquid level, when the filter screen 72 is partially blocked, when the floating ball 75 is pushed to the trigger switch 74, the electromagnet 83 is powered off, the rapping hammer 81 falls to impact the partition plate 82, so that the whole collection basin 71 vibrates, the partition plate 82 presses the floating ball 75 below the partition plate 82 under the action of the rapping hammer 81, the trigger switch 74 is switched off, the electromagnet 83 is powered on again, the rapping hammer 81 is attracted back to the initial position, the partition plate 82 loses the pressing of the rapping hammer 81, the partition plate 82 resets under the action of the spring, so that the floating ball 75 returns to the water surface again, the subsequent action is stopped if the liquid level drops, the rapping ball 75 cannot be pushed to the trigger switch 74, and the rapping is repeated if the floating ball is pushed to the trigger switch 74, and the partition plate 82 is positioned as follows: if the plane of the trigger switch 74 is set as a reference plane and the vertical direction is the positive direction, the upper surface position of the partition plate 82 needs to be larger than 0mm, and the lower surface position needs to be smaller than the radius of the floating ball, so that the floating ball 75 can be pressed below the partition plate.

The use method of the invention comprises the following steps: the operator places the ceramic tile on sliding plate 2, nudge forward makes to inhale tight subassembly 7 and inhales the ceramic tile tightly, pump water subassembly 5 begins the pump water when promoting, continue to push forward, cutting head subassembly 3 accomplishes the cutting, stop cutting head subassembly 3, pull back sliding plate 2, pump water subassembly 5 stops the pump water, scraper blade subassembly 6 whereabouts this moment, scrape the mud on the ceramic tile and fall, the ceramic tile leaves scraper blade subassembly 6, scraper blade subassembly 6 rises back initial condition, inhale tight subassembly 4 this moment and loosen the ceramic tile, the operator takes off the ceramic tile, the subassembly 8 that shakes is automatic to accomplish the control of liquid level and the reciprocating motion of shaking, need not artificial intervention.

According to the above design, the following functions are achieved by the reciprocating motion of the sliding plate: 1. the tile is tightly sucked and loosened by the sucking component; 2. meanwhile, power is provided for the water pumping assembly, and water resources are saved; 3. the scraper component is pulled back in the sliding plate process to scrape off the dust and slurry on the surface of the ceramic tile, so that the working procedures are reduced; 4. a filtering and collecting component is arranged to filter and recycle water generated in the working process; 5. the rapping component is arranged to prevent the filter screen from being blocked.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and simple modifications, equivalent changes and modifications may be made without departing from the technical scope of the present invention.

Claims

1. A cutting device for building ceramic tiles, includes frame, sliding plate and cutting head subassembly, the sliding plate pass through the pulley with frame sliding connection, its characterized in that still includes: the suction component is arranged on the sliding plate, the sliding plate is sucked tightly when moving to a working area and is released when withdrawing from the working area; the water pumping assembly is arranged on the rack, drives the impeller to rotate through the sliding plate and pumps water to the cutting head assembly, so that dust is prevented from flying and the temperature of the cutting blade is reduced; the scraping plate component is used for scraping off the slurry on the surface of the ceramic tile after the ceramic tile is cut; the filtering and collecting component is used for filtering and collecting the cut water for reuse; and the rapping assembly is started after the water of the filtering and collecting assembly exceeds a certain liquid level, and the silt blocked in the filter screen is knocked down by rapping to prevent the filter screen from being blocked.

2. The cutting device for building ceramic tiles as claimed in claim 1, wherein the tightening assembly comprises a gear set and a lifting rod of the rotary machine, the gear set comprises a first gear, a second gear and a third gear, the first gear is in meshed transmission with a rack on the rack, the first gear is connected with the second gear through a first transmission shaft, the first transmission shaft is arranged on the sliding plate through a bearing, the second gear is in meshed transmission with the third gear and drives the rotary base to rotate, and a positioning convex point is arranged inside the lifting rod and is arranged inside a guide concave of the rotary base.

3. The cutting device for building ceramic tiles as claimed in claim 2, wherein when the positioning protrusions are lowered vertically in the guide recesses, the lifting rods are lowered to increase the volume of air in the ceramic tiles and the sliding plate, and a negative pressure is formed to make the ceramic tiles adhere to the surface of the sliding plate; when the vertical height of the positioning salient point in the guide recess rises, the lifting rod resets, and the ceramic tile is loosened; when the vertical height of the positioning salient point in the guide recess is unchanged, the positioning salient point keeps the previous state, if the positioning salient point is sucked, the suction is continuously kept, and if the positioning salient point is loosened, the positioning salient point is continuously kept.

4. The cutting device for building tiles according to claim 1, wherein the water pumping assembly comprises a water tank, an impeller and a fourth gear, the fourth gear is in mesh transmission with the toothed part of the sliding plate, the fourth gear is connected with a fifth gear through a second transmission shaft, the fifth gear is in mesh transmission with a sixth gear, the sixth gear drives the impeller to rotate, water in the water tank is pumped to a water outlet, and the water outlet is connected with a water pipe.

5. The cutting device for building ceramic tiles as claimed in claim 1, wherein the scraper assembly comprises a movable salient point, a grooved pulley and a movable rod, the movable salient point is arranged on the sliding plate, the movable salient point is matched with the sliding groove of the grooved pulley, the grooved pulley drives a seventh gear to rotate through a third transmission shaft, the seventh gear is in meshed transmission with an eighth gear, the eighth gear drives a rotating disc to rotate, the movable rod is arranged above the rotating disc, and the movable rod is provided with a scraper as the convex part on the edge of the rotating disc ascends and descends.

6. The cutting device for building ceramic tiles as claimed in claim 5, wherein the movable protrusions comprise a limiting groove, an elastic member and a tapered protrusion, the limiting groove is disposed on the sliding plate, the elastic member and the tapered protrusion are disposed in the limiting groove, and the mouth of the limiting groove is contracted so that the tapered protrusion does not disengage.

7. The cutting device for building ceramic tiles as claimed in claim 1, wherein the filtering and collecting assembly comprises a collecting basin, a filtering net and a floating bin, the collecting basin is fixedly connected to the frame through a limiting part, the bottom of the collecting basin is provided with a certain taper to enable filtered water to flow into the water tank, the filtering net is fixed to the collecting basin through a limiting part, the edge of the collecting basin is provided with a floating bin, the top of the floating bin is provided with a trigger switch, and a floating ball is arranged in the floating bin and rises and falls along with the liquid level in the collecting basin.

8. The cutting device for building ceramic tiles as claimed in claim 7, wherein the rapping assembly comprises a rapping hammer, a partition plate and an electromagnet, the rapping hammer is hinged to the frame, the partition plate is slidably connected with a movable groove in the collection basin through an elastic component, the trigger switch controls on and off of the electromagnet, and the electromagnet can suck and fix the rapping hammer.