CN211616178U - Ceramic tile cutting machine is used to fitment - Google Patents

Abstract

The utility model provides a ceramic tile cutting machine for decoration, which comprises a first frame and a second frame, wherein the second frame is sequentially provided with a dust suction device, a first displacement component, a cutting component and a second displacement component from the rear end to the front end, and the two sides of the cutting component are symmetrically provided with dust blowing devices; the cutting assembly comprises a dust cover, the top end of the dust cover is connected with a dust collection device through a first plastic pipeline, and the outer walls of the bottoms of the two sides of the dust cover are respectively connected with the dust blowing device through a plurality of second plastic pipelines; the second displacement assembly comprises a horizontal sliding rail, an air cylinder assembly is arranged on the horizontal sliding rail, a supporting plate is fixed at the upper end of the air cylinder assembly, an infrared positioning instrument is fixed at one end of the supporting plate, and the horizontal distance between the supporting plate and the cutting assembly can be adjusted through the air cylinder assembly. The utility model has the advantages of reasonable design, environmental pollution when not only having reduced the cutting ceramic tile also can reduce cutting error simultaneously, improves cutting accuracy.

Description

Ceramic tile cutting machine is used to fitment

Technical Field

The utility model relates to a technical field of ceramic tile processing, it is very much, relate to a ceramic tile cutting machine is used to fitment.

Background

The ceramic tile is made up by using refractory metal oxide and semimetal oxide through the processes of grinding, mixing, pressing, glazing and sintering, and is an acid-resistant and alkali-resistant porcelain or stone material, etc. as building or decorative material, it is called ceramic tile, and its raw material is made up by mixing clay and quartz sand, etc. In the ceramic tile processing process, the ceramic tile cutting machine is required to be utilized to cut the ceramic tile, and two technical problems can exist in the ceramic tile cutting process.

Firstly, in the cutting process, due to the material of the ceramic tile, a large amount of smoke and dust can be generated in the cutting process of the ceramic tile, and the smoke and dust can cause great damage to a human body after being inhaled by the human body;

two, at the in-process that cuts, because equipment self motor during operation can produce the vibration, lead to, the ceramic tile can take place the displacement on the layer board, and then will cause phenomenons such as cutting error among the cutting process.

In the existing tile cutting machine structure, a plurality of cutting machines having a dust suction structure are provided, such as a dust suction and removal device (201611021828.0) in a tile cutting machine, a cutting machine (201820411801.0) for cutting stone and tiles, and the like, which are disclosed in the publications, the dust suction and removal device clearly shows a plurality of different dust suction structures of the tile cutting machine, however, in these published applications, only different dust suction structures are provided in detail, such as the following structures:

in a dust collecting and removing device (201611021828.0) in a tile cutting machine, a dust collecting device is arranged, dust generated by work is sucked into a dust collecting box through a dust suction cover and a pipeline through the work of a dust suction motor, the maximum dust suction purpose can not be realized through the design of the structure, and in addition, cutting chips in the shape of tiny particles can fall off and are not absorbed.

The above-mentioned problems are equally present in the applicant's document a cutting machine (201820411801.0) for cutting stones and tiles.

Therefore, a cutting machine structure capable of improving the dust collection effect of the cutting machine on the basis of the structure of the existing cutting machine needs to be developed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a ceramic tile cutting machine is used to fitment to solve the technical problem who proposes in the above-mentioned background art.

In order to solve the technical problem, the utility model provides a ceramic tile cutting machine for decoration, which comprises a first frame and a second frame which are symmetrically arranged, wherein a distribution box is fixed on the first frame, a dust suction device, a first displacement assembly, a cutting assembly and a second displacement assembly are sequentially arranged on the second frame from the rear end to the front end, and dust blowing devices are symmetrically arranged on two sides of the cutting assembly; the cutting assembly comprises a dust cover, the top end of the dust cover is connected with a dust collection device through a first plastic pipeline, and the outer walls of the bottoms of the two sides of the dust cover are respectively connected with the dust blowing device through a plurality of second plastic pipelines; the second displacement assembly comprises a horizontal sliding rail, an air cylinder assembly is arranged on the horizontal sliding rail, a supporting plate is fixed at the upper end of the air cylinder assembly, an infrared positioning instrument is fixed at one end of the supporting plate, and the horizontal distance between the supporting plate and the cutting assembly can be adjusted through the air cylinder assembly; the block terminal passes through wire and infrared locator electric connection, just be equipped with alarm device in the block terminal.

Furthermore, the dust collection device comprises a dust collection box, a dust collection motor is fixed at the top end of the dust collection box, a dust collection pipe port is formed in the bottom end of the outer wall of one side, close to the first displacement assembly, of the dust collection box, and one end of the first plastic pipe is connected with the dust collection pipe port in a sealing mode.

Furthermore, the first displacement assembly comprises a vertical plate and a first motor reversely fixed at the top end of the vertical plate, the output end of the first motor is connected with a lead screw, a fixed block is arranged on the outer wall of the rear end of the dust cover, and the lead screw is meshed with the fixed block and connected with the fixed block.

Furthermore, two vertical sliding rails are symmetrically arranged on the outer wall of one side, facing the cutting assembly, of the vertical plate, two L-shaped supporting plates are symmetrically fixed to the outer walls of the two sides of the dust cover, and the two L-shaped supporting plates are symmetrically arranged, one ends, not in contact with the dust cover, of the two L-shaped supporting plates are in sliding connection with the two vertical sliding rails which are symmetrically arranged one by one.

Furthermore, a plurality of air blowing holes are symmetrically and uniformly formed in the bottoms of the outer walls of the two sides of the dust cover.

Furthermore, L type connecting plates are fixed at two ends of the horizontal sliding track respectively, the L type connecting plates are sleeved at one end, which is not in contact with the horizontal sliding track, of each L type connecting plate and are connected to the sliding rod in a sliding mode, and two ends of each sliding rod are fixed to the first rack through fixing seats respectively.

Furthermore, the air cylinder assembly comprises two first air cylinders which are symmetrically arranged, the ends of the first air cylinders which are symmetrically arranged are connected through a fixing plate, supporting plates are respectively fixed at the bottoms of the two first air cylinders which are symmetrically arranged, a sliding block is fixed at one end, in contact with the horizontal sliding rail, of each supporting plate, and the sliding block is clamped with the horizontal sliding rail in a sliding mode.

Further, two symmetries set up the bottom of first cylinder is fixed with the draw runner respectively, the up end symmetry of backup pad is equipped with two spout tracks, and two symmetries set up the draw runner block one by one in two spout tracks, and can slide around.

Furthermore, two second cylinders are symmetrically arranged above two ends of the supporting plate, and the two symmetrically arranged second cylinders are fixed on the upper end face of the supporting plate through supporting angle steel respectively.

Furthermore, dust extraction includes the bracket that the symmetry set up, be equipped with the dust blowing motor on the bracket, the output that blows the dust motor is equipped with a plurality of dust blowing tuyere, every dust blowing tuyere pass through the second plastic conduit one by one with the hole for blowing is connected.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model has the advantages of reasonable structural design and convenient use, in the technical structure of the ceramic tile cutting machine, the added dust blowing device is superior to the design of the existing single dust absorption structure on the market, in the working process of the cutting machine, when the cutting machine of the existing single dust absorption structure absorbs dust, the dust amount absorbed in every minute is 400L, and in the absorbing process, a large amount of micro cutting particles are stored on the ground vertically below the cutting blade of the cutting machine; during the ceramic tile cutting process, the raised dust can be sucked into the dust suction device for centralized treatment under the action of the dust suction device; meanwhile, through the action of the dust blowing device, part of sunken particles can be blown to the dust collection device, so that the dust collection purpose of the dust collection device is further improved, and the health of operators is ensured to the greatest extent; meanwhile, under the action of the dust blowing device, dust can be blown and collected into the dust suction device, the dust suction efficiency of the dust suction device is promoted, the dust suction amount of the dust suction device can be increased to 800 plus 1000L under the action of the dust blowing structure, and no obvious small cutting particles are left on the ground below the cutting blade of the cutting machine;

furthermore, at the in-process of ceramic tile cutting machine cutting, through the effect of cylinder subassembly, can fix the ceramic tile of waiting to cut on the layer board to, through infrared positioning appearance's effect, can fix a position the ceramic tile position, after the ceramic tile position takes place the offset, the signal conversion that infrared positioning appearance will accept is the signal of telecommunication, conveys in the distribution box, and alarm device in the distribution box will send alarm information, thereby avoids taking place the phenomenon of cutting error and takes place.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

fig. 1 is a schematic overall structure diagram of the preferred embodiment of the present invention;

fig. 2 is a diagram showing a connection structure of the dust blowing device, the first displacement assembly, the cutting assembly and the dust blowing device according to the preferred embodiment of the present invention;

fig. 3 is a structural display view of part a of the preferred embodiment of the present invention;

fig. 4 is a structural display diagram of part B of the preferred embodiment of the present invention;

fig. 5 is a structural display view of part C of the preferred embodiment of the present invention;

fig. 6 is a structural display view of a cylinder assembly according to a preferred embodiment of the present invention.

In the figure: 1. a first bracket; 1a, a distribution box; 11. a dust blowing device; 11a bracket; 11 b-a dust blowing motor; 11c, a dust blowing air nozzle; 11d, a second plastic pipeline; 2. a second bracket; 2a, a front plate; 21. a dust collection device; 21a, a dust collection box; 21b, a dust collection motor; 21c, a dust collecting pipe port; 21d, a first plastic pipeline; 22. a first displacement assembly; 22a, a vertical plate; 22b, a first motor; 22c, a lead screw; 22d, a vertical sliding track; 23. a cutting assembly; 23a, a dust cover; 23a-1, a dust suction pipeline port; 23a-2 and air blowing holes; 23a-3, fixing blocks; 23b, a second motor; 23c, cutting slices; 23d, an L-shaped support plate; 24. a second displacement assembly; 24a, a horizontal sliding track; 24b, a cylinder assembly; 24b-1, a first cylinder; 24b-2, a fixing plate; 24b-3, a resisting plate; 24b-4, a support plate; 24b-5, a slide block; 24c, a pallet; 24c-1, an infrared locator; 24d, a second cylinder; 24e and supporting angle steel.

Detailed Description

The embodiments of the invention will be described in detail hereinafter with reference to the accompanying drawings, but the invention can be implemented in many different ways, which are defined and covered by the claims.

Referring to fig. 1-6, a decorating tile cutting machine comprises a first frame 1 and a second frame 2 which are symmetrically arranged, wherein a distribution box 1a is fixed on the first frame 1, a dust suction device 21, a first displacement assembly 22, a cutting assembly 23 and a second displacement assembly 24 are sequentially arranged on the second frame 2 from the rear end to the front end, and dust blowing devices 11 are symmetrically arranged on two sides of the cutting assembly 23;

the cutting assembly 23 comprises a dust cover 23a, the top end of the dust cover 23a is connected with the dust suction device 21 through a first plastic pipeline 21d, and the outer walls of the bottoms of the two sides of the dust cover 23a are respectively connected with the dust blowing device 11 through a plurality of second plastic pipelines 11 d;

the second displacement assembly 24 comprises a horizontal sliding rail 24a, a cylinder assembly 24b is arranged on the horizontal sliding rail 24a, a supporting plate 24c is fixed at the upper end of the cylinder assembly 24b, an infrared locator 24c-1 is fixed at one end of the supporting plate 24c, and the horizontal distance between the supporting plate 24c and the cutting assembly 23 can be adjusted through the cylinder assembly 24 b;

distribution box 1a passes through wire and infrared locator 24c-1 electric connection, just be equipped with alarm device in distribution box 1 a.

Referring to fig. 1 and 2 again, the dust suction device 21 includes a dust box 21a, a dust suction motor 21b is fixed to a top end of the dust box 21a, a dust collection pipe port 21c is formed in a bottom end of an outer wall of the dust box 21a on a side close to the first displacement assembly 22, and one end of the first plastic pipe 21d is connected to the dust collection pipe port 21c in a sealing manner. In the embodiment, the dust collection motor 21b can suck dust to be concentrated and stored through the first plastic pipeline 21d by the effect of the dust collection box 21a, so that the phenomenon of dust flying can be avoided, and the working environment is protected.

Please refer to fig. 2 and fig. 3 again, the first displacement assembly 22 includes a vertical plate 22a and a first motor 22b reversely fixed on the top end of the vertical plate 22a, an output end of the first motor 22b is connected to a lead screw 22c, a fixed block 23a-3 is arranged on the outer wall of the rear end of the dust cover 23a, and the lead screw 22c and the fixed block 23a-3 are engaged with each other. In this embodiment, through the structural design of the mutual insection meshing between the screw rod 22c and the fixed block 23a-3, after the first motor 22b drives the screw rod 22c to rotate, the fixed block 23a-3 can be driven to move on the screw rod 22c, so that the purpose of moving the cutting assembly 23 up and down is achieved.

Please refer to fig. 3 again, two vertical sliding rails 22d are symmetrically disposed on the outer wall of one side of the vertical plate 22a facing the cutting assembly 23, two L-shaped supporting plates 23d are symmetrically fixed on the outer walls of two sides of the dust cover 23a, and one ends of the two symmetrically disposed L-shaped supporting plates 23d, which are not in contact with the dust cover 23a, are slidably connected with the two symmetrically disposed vertical sliding rails 22d one by one. In this embodiment, the sliding rail 22d is arranged on the outer wall of the vertical plate 22a, and under the action of the two L-shaped supporting plates 23d, the stability of the cutting assembly 23 during the up-and-down movement of the cutting assembly 23 can be realized.

Please refer to fig. 3 again, the bottom of the outer walls of the two sides of the dust cover 23a is symmetrically and uniformly provided with a plurality of air blowing holes 23 a-2. In the embodiment, the plurality of air blowing holes 23a-2 can blow up the settled solid particles by the dust blowing assembly 11, and blow the raised dust toward the dust suction pipe port 23 a-1.

Please refer to fig. 4 and fig. 5 again, the two ends of the horizontal sliding track 24a are respectively fixed with an L-shaped connecting plate 24a-1, one end of the L-shaped connecting plate 24a-1, which is not in contact with the horizontal sliding track 24a, is sleeved on the sliding rod 24a-2 in a sliding manner, and the two ends of the sliding rod 24a-2 are respectively fixed on the first frame 1 through fixing seats 24 a-3. In the present embodiment, the L-shaped link plate 24a-1 is attached to the slide rod 24a-2, whereby the horizontal slide rail 24a can be adjusted in the left-right position at both ends thereof.

Please refer to fig. 6 again, the cylinder assembly 24b includes two first cylinders 24b-1 symmetrically disposed, the ends of the first cylinders 24b-1 symmetrically disposed are connected by a fixing plate 24b-2, and the bottoms of the first cylinders 24b-1 symmetrically disposed are respectively fixed with a supporting plate 24b-4, one end of the supporting plate 24b-4 contacting with the horizontal sliding rail 24a is fixed with a sliding block 24b-5, and the sliding block 24b-5 is slidably engaged with the horizontal sliding rail 24 a; the bottom parts of the two first cylinders 24b-1 which are symmetrically arranged are respectively fixed with sliding strips 24b-11, the upper end surface of the supporting plate 24b-4 is symmetrically provided with two sliding groove rails 24b-41, and the two sliding strips 24b-11 which are symmetrically arranged are clamped in the two sliding groove rails 24b-41 one by one and can slide back and forth. In this embodiment, through the structural design of the two first cylinders 24b-1, when the telescopic rod of the first cylinder 24b-1 extends in the direction of the second bracket 2, the two first cylinders 24b-1 will slide outwards, so as to drive the supporting plate 24c to move outwards, thereby adjusting the position of the tile to be cut.

Please refer to fig. 1 and fig. 4 again, two second cylinders 24d are symmetrically arranged above two ends of the supporting plate 24c, and the two symmetrically arranged second cylinders 24d are respectively fixed on the upper end surface of the supporting plate 24c through supporting angle steels 24 e. In this embodiment, the purpose of workpiece pressing can be achieved through the action of the two second cylinders 24d, so that the phenomenon that the position of the tile on the carriage 24c deviates due to the equipment preparation is avoided.

Referring again to fig. 1 and 2, the dust suction device 11 includes brackets 11a symmetrically disposed, a dust blowing motor 11b is disposed on the bracket 11a, an output end of the dust blowing motor 11b is provided with a plurality of dust blowing nozzles 11c, and each of the dust blowing nozzles 11c is connected to the air blowing hole 23a-2 through a second plastic pipe 11d one by one.

When the ceramic tile cutting machine works, the first motor 22b is started to work through the distribution box 1a, the first motor 22b is started to drive the screw rod 22c to rotate positively and negatively, the cutting assembly 23 is controlled to move up and down, and after the position of the cutting assembly 23 is determined, the first motor 22b can be closed through the distribution box 1 a.

After the position of the cutting assembly 23 is adjusted, the ceramic tile to be cut is placed on the supporting plate 24c, the infrared positioning lamp 24c-1 is started through the distribution box 1a, after the size of the ceramic tile to be cut is determined through the infrared positioning lamp 24c-1, the distribution box 1a controls the two second air cylinders 24d to start working, and after the two second air cylinders 24d work, the telescopic rods of the second air cylinders 24d press downwards to compress the ceramic tile.

After the second cylinder 24d compacts the ceramic tiles, the second motor 23b is started through the distribution box 1a, and when the second motor 23b is started, the cutting blade 23c is driven to start rotating to cut the ceramic tiles; when the second motor 23b is started through the distribution box 1a, the dust blowing motor 11b and the dust collection motor 21b are started, and during the cutting process, raised dust can be sucked into the dust collection box 21a under the action of the dust collection motor 21 b; meanwhile, the sinking dust is blown above the dust cover 23a by the dust blowing motor 11b, and is sucked into the dust box 21a from the dust suction pipe port 23a-1 through the first plastic pipe 21d by the dust suction motor 21 b.

In the cutting process, two first cylinders 24b-1 are controlled by a control main board in the distribution box 1a to shrink the telescopic rods according to a program, so that the ceramic tile is gradually close to the cutting piece 23c to be cut, in the cutting process, the position of the infrared positioning lamp 24c-1 is constant relative to the position of the ceramic tile, in the cutting process, the size of a cutting material is not constant, namely, due to equipment vibration, when the ceramic tile or the cutting assembly 23 is subjected to position deviation, the received signal is converted into an electric signal, the electric signal is transmitted to the distribution box 1a, an alarm device in the distribution box 1a gives an alarm, and therefore workers are reminded of paying attention to the fact that the ceramic tile is cut and the position deviation occurs.

In order to can further contrast the utility model discloses the structure is technical characteristic's superiority on the dust absorption effect, utilize the ceramic tile cutting machine that two contrast files that propose in the background art put forward and the utility model discloses the ceramic tile cutting machine who develops carries out the work efficiency contrast, lasts cutting 10 minutes, 30 minutes and 1 hour respectively, contrasts the collection dirt volume of equipment and the remaining cutting granule in ground, obtains following statistical data:

three devices are continuously cut for 10 minutes, and the obtained experimental data are compared with a table

Three devices are continuously cut for 30 minutes, and the obtained experimental data are compared with a table

Three devices are continuously cut for 1 hour, and the obtained experimental data are compared with a table

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A ceramic tile cutting machine for decoration comprises a first rack (1) and a second rack (2) which are symmetrically arranged, wherein a distribution box (1a) is fixed on the first rack (1), and is characterized in that a dust suction device (21), a first displacement assembly (22), a cutting assembly (23) and a second displacement assembly (24) are sequentially arranged on the second rack (2) from the rear end to the front end, and dust blowing devices (11) are symmetrically arranged on two sides of the cutting assembly (23);

the cutting assembly (23) comprises a dust cover (23a), the top end of the dust cover (23a) is connected with a dust suction device (21) through a first plastic pipeline (21d), and the outer walls of the bottoms of two sides of the dust cover (23a) are respectively connected with the dust blowing device (11) through a plurality of second plastic pipelines (11 d);

the second displacement assembly (24) comprises a horizontal sliding rail (24a), a cylinder assembly (24b) is arranged on the horizontal sliding rail (24a), a supporting plate (24c) is fixed at the upper end of the cylinder assembly (24b), an infrared locator (24c-1) is fixed at one end of the supporting plate (24c), and the horizontal distance between the supporting plate (24c) and the cutting assembly (23) can be adjusted through the cylinder assembly (24 b);

the distribution box (1a) is electrically connected with the infrared positioning instrument (24c-1) through a lead, and an alarm device is arranged in the distribution box (1 a).

2. A finishing tile cutter as claimed in claim 1, wherein the dust suction means (21) comprises a dust box (21a), a dust suction motor (21b) is fixed to a top end of the dust box (21a), a dust collection pipe port (21c) is formed at a bottom end of an outer wall of the dust box (21a) on a side close to the first displacement assembly (22), and one end of the first plastic pipe (21d) is hermetically connected to the dust collection pipe port (21 c).

3. A decorating tile cutting machine according to claim 1, wherein the first displacement assembly (22) comprises a vertical plate (22a) and a first motor (22b) reversely fixed at the top end of the vertical plate (22a), the output end of the first motor (22b) is connected with a lead screw (22c), the rear outer wall of the dust cover (23a) is provided with a fixed block (23a-3), and the lead screw (22c) is meshed with the fixed block (23 a-3).

4. A finishing tile cutter according to claim 3, characterized in that two vertical sliding rails (22d) are symmetrically arranged on the outer wall of one side of the vertical plate (22a) facing the cutting assembly (23), two L-shaped supporting plates (23d) are symmetrically fixed on the outer walls of two sides of the dust cover (23a), and one ends of the two L-shaped supporting plates (23d) which are symmetrically arranged and not contacted with the dust cover (23a) are respectively in sliding connection with the two vertical sliding rails (22d) which are symmetrically arranged.

5. A finishing tile cutter according to claim 4, wherein a plurality of blowing holes (23a-2) are symmetrically and uniformly formed in the bottom of the outer wall of the dust cover (23 a).

6. A finishing tile cutter according to claim 1, wherein the two ends of the horizontal sliding rail (24a) are respectively fixed with an L-shaped connecting plate (24a-1), one end of the L-shaped connecting plate (24a-1) which is not contacted with the horizontal sliding rail (24a) is sleeved on the sliding rod (24a-2) in a sliding manner, and the two ends of the sliding rod (24a-2) are respectively fixed on the first frame (1) through fixing seats (24 a-3).

7. A finishing tile cutter according to claim 1, wherein the cylinder assembly (24b) comprises two first cylinders (24b-1) which are symmetrically arranged, the ends of the first cylinders (24b-1) which are symmetrically arranged are connected through a fixing plate (24b-2), the bottoms of the two first cylinders (24b-1) which are symmetrically arranged are respectively provided with a supporting plate (24b-4), a sliding block (24b-5) is fixed at one end of the supporting plate (24b-4) which is contacted with the horizontal sliding rail (24a), and the sliding block (24b-5) is in sliding engagement with the horizontal sliding rail (24 a).

8. A finishing tile cutter according to claim 7, characterized in that the bottom of the first cylinders (24b-1) are fixed with sliding bars (24b-11), the upper end surface of the support plate (24b-4) is symmetrically provided with two sliding groove tracks (24b-41), and the two sliding bars (24b-11) are clamped in the two sliding groove tracks (24b-41) one by one and can slide back and forth.

9. A finishing tile cutter according to claim 7, characterized in that two second cylinders (24d) are symmetrically arranged above two ends of said supporting plate (24c), and two symmetrically arranged second cylinders (24d) are respectively fixed on the upper end surface of the supporting plate (24c) through supporting angle steel (24 e).

10. A ceramic tile cutter for decoration as claimed in claim 5, wherein said dust blowing means (11) comprises symmetrically arranged brackets (11a), said brackets (11a) are provided with dust blowing motors (11b), the output end of said dust blowing motors (11b) is provided with a plurality of dust blowing nozzles (11c), and each of said dust blowing nozzles (11c) is connected with said air blowing hole (23a-2) through a second plastic pipe (11d) one by one.

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