CN113263640A - Ceramic tile cutting device - Google Patents

Abstract

The invention relates to the field of constructional engineering, in particular to a tile cutting device, which is used for changing the position of a tile by adjusting a limiting plate so as to adjust the cutting size, and enabling the tile on a bottom plate to rotate through the rotation of the bottom plate so as to round the tile.

Description

Ceramic tile cutting device

Technical Field

The invention relates to the field of constructional engineering, in particular to a ceramic tile cutting device.

Background

For example, patent number CN202020403436.6 a ceramic tile cutting device for construction, small in size, convenient to carry, suitable for use in the building construction place, the cutting size is convenient to adjust and fix, can carry out batch cutting after the setting is finished, the ceramic tile is convenient to install, the ceramic tile cutting is efficient, the ceramic tile dismouting is swift, after the cutting size is once set up to be finished, the time of follow-up cutting the ceramic tile each time is shortened substantially, guarantee the construction progress, improve the efficiency of construction, but the shortcoming of this invention is that can not adjust accurate scale according to the demand, need measure the size of ceramic tile before last first piece, and this device can not carry out the tangent circle to the ceramic tile, need artifical handheld cutting machine to the ceramic tile tangent circle, not only waste time and energy, it is inaccurate to cut easily.

Disclosure of Invention

The invention aims to provide a tile cutting device, which can change the position of a tile by adjusting a limiting plate so as to adjust the cutting size, and can rotate the tile on a bottom plate by rotating the bottom plate so as to round the tile.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a ceramic tile cutting device, includes anchor clamps assembly, cutting assembly, transmission assembly, and the anchor clamps assembly is connected with the cutting assembly, and the anchor clamps assembly is connected with the transmission assembly, and the cutting assembly is connected with the transmission assembly.

As a further optimization of the technical scheme, the tile cutting device comprises a clamp assembly, and the clamp assembly comprises a base, a rack, a sliding groove, a first rotating shaft, a first straight gear, a first handle, a first threaded rod, a limiting plate, scales and a bottom plate, wherein the base is fixedly connected with the rack, the sliding groove is connected with the base, the first rotating shaft is rotatably connected with the base, the first straight gear is fixedly connected with the first rotating shaft, the bottom plate is fixedly connected with the first rotating shaft, the first handle is fixedly connected with the first threaded rod, the first threaded rod is meshed with the bottom plate, the limiting plate is rotatably connected with the first threaded rod, the limiting plate is slidably connected with the bottom plate, and the scales are fixedly connected with the bottom plate.

As a further optimization of the technical scheme, the invention relates to a tile cutting device, wherein a cutting assembly comprises a cutting outer frame, a motor output shaft, a first belt pulley, a second straight gear, a first support, a second rotating shaft, a blade, a second support, a second handle and a second threaded rod, the motor is connected with the motor output shaft, the motor output shaft is fixedly connected with the first belt pulley, the second straight gear is fixedly connected with the motor output shaft, the first support is rotatably connected with the motor output shaft, the second rotating shaft is meshed with the second straight gear, the blade is fixedly connected with the second rotating shaft, the second support is rotatably connected with the second rotating shaft, the second support is fixedly connected with the cutting outer frame, the second handle is fixedly connected with the second threaded rod, the second threaded rod is rotatably connected with the second rotating shaft, and the second threaded rod is meshed with the cutting outer frame.

As a further optimization of the technical scheme, the invention provides a tile cutting device, wherein the transmission assembly comprises a transmission outer frame, a belt I, a belt pulley II, a rotating shaft III, a bevel gear I, a bevel gear II, a rotating shaft IV, a support III, a straight gear III, a bevel gear IV, a straight gear IV, a rotating shaft V, a bevel gear V, a rotating shaft VI, a pushing frame I, a rotating shaft VII, a straight gear V, a support IV, a belt pulley III, a belt pulley II, a belt pulley IV, a rotating shaft eight, a belt pulley V, a belt III, a belt pulley VI, a worm, a bevel gear VI, a bevel gear VII, a rotating shaft nine, a bevel gear eight, a rotating shaft eleven, a pushing frame II, a support V, a belt pulley VII, a belt pulley IV, a belt pulley eight, a rotating shaft eleven, a belt fifth belt pulley, a rotating shaft twelve, a bevel gear thirteen, a gear belt, a rotating shaft fourteen and a slide bar, wherein the transmission outer frame is fixedly connected with the cutting outer frame, the first belt is connected with the first belt pulley, the second belt pulley is connected with the first belt pulley, the third rotating shaft is fixedly connected with the second belt pulley, the first bevel gear is fixedly connected with the third rotating shaft, the second bevel gear is meshed with the first bevel gear, the fourth rotating shaft is fixedly connected with the second bevel gear, the third support is rotatably connected with the fourth rotating shaft, the third support is fixedly connected with the outer transmission frame, the fourth bevel gear is fixedly connected with the fourth rotating shaft, the fourth bevel gear is fixedly connected with the fifth rotating shaft, the fifth bevel gear is fixedly connected with the sixth rotating shaft, the third bevel gear is meshed with the fifth bevel gear, the fourth bevel gear is meshed with the fifth bevel gear, the sixth rotating shaft is rotatably connected with the first pushing frame, the first pushing frame is slidably connected with the outer transmission frame, the sixth rotating shaft is fixedly connected with the first pushing frame, the fifth bevel gear is rotatably connected with the sixth rotating shaft, the fourth support is rotatably connected with the fifth rotating shaft, and the fourth support is fixedly connected with the outer transmission frame, a third belt pulley is fixedly connected with a fifth rotating shaft, a second belt pulley is connected with a third belt pulley, a fourth belt pulley is connected with a second belt pulley, a eighth rotating shaft is fixedly connected with a fourth belt pulley, a fifth belt pulley is fixedly connected with an eighth rotating shaft, a third belt pulley is connected with a fourth belt pulley, a sixth belt pulley is connected with a third belt pulley, a worm is fixedly connected with a sixth belt pulley, a sixth bevel gear is fixedly connected with a fourth rotating shaft, a seventh bevel gear is fixedly connected with a ninth rotating shaft, a ninth rotating shaft is rotatably connected with a fifth bracket, an eighth bevel gear is fixedly connected with a tenth rotating shaft, a second pushing frame is rotatably connected with a tenth rotating shaft, a second pushing frame is slidably connected with a transmission outer frame, a sixth bevel gear is meshed with an eighth bevel gear, an eighth bevel gear is fixedly connected with a seventh bracket, a seventh belt pulley is fixedly connected with a ninth rotating shaft, a fourth belt pulley is connected with a seventh belt pulley, an eighth belt pulley is fixedly connected with a fourth belt pulley, the belt wheel nine is fixedly connected with the rotating shaft eleven, the belt five is connected with the belt wheel nine, the belt wheel ten is connected with the belt five, the rotating shaft twelve is fixedly connected with the belt wheel ten, the rotating shaft twelve is rotatably connected with the transmission outer frame, the bevel gear nine is fixedly connected with the rotating shaft twelve, the bevel gear ten is meshed with the bevel gear nine, the rotating shaft thirteen is fixedly connected with the bevel gear ten, the rotating shaft thirteen is rotatably connected with the transmission outer frame, the gear belt is connected with the rotating shaft thirteen, the rotating shaft fourteen is connected with the gear belt, the gear belt is meshed with the straight gear one, and the sliding rod is in sliding connection with the sliding groove.

The beneficial effects of the invention are as follows:

according to the ceramic tile cutting device, the limiting plate is adjusted by rotating the handle, the position of a ceramic tile is changed according to the scale, so that the cutting size can be adjusted according to the requirement, the base does not move and the bottom plate rotates by adjusting the pushing frame, the ceramic tile on the bottom plate rotates, and the ceramic tile can be cut into a circle according to the requirement.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the clamp assembly of the present invention;

FIG. 3 is a schematic view of the clamp assembly of the present invention;

FIG. 4 is a schematic view of the cutting assembly of the present invention;

FIG. 5 is a schematic view of the cutting assembly of the present invention;

FIG. 6 is a schematic view of the cutting assembly of the present invention;

FIG. 7 is a schematic view of the transmission assembly of the present invention;

FIG. 8 is a schematic view of the transmission assembly of the present invention;

FIG. 9 is a schematic view of the transmission assembly of the present invention;

fig. 10 is a schematic view of the transmission assembly of the present invention.

In the figure: the fixture assembly 1: a base 1-1; a rack 1-2; 1-3 of a chute; 1-4 of a first rotating shaft; 1-5 parts of a straight gear I; 1-6 of a handle I; 1-7 parts of a first threaded rod; 1-8 parts of a limiting plate; 1-9 of scales; 1-10 of a bottom plate; cutting assembly 2: cutting the outer frame 2-1; a motor 2-2; 2-3 of a motor output shaft; 2-4 parts of a first belt pulley; 2-5 parts of a second straight gear; 2-6 of a first bracket; 2-7 parts of a second rotating shaft; 2-8 parts of blades; 2-9 parts of a second bracket; 2-10 parts of a second handle; 2-11 parts of a second threaded rod; the transmission assembly 3: a transmission outer frame 3-1; 3-2 parts of a first belt; 3-3 of a second belt pulley; 3-4 parts of a rotating shaft III; 3-5 parts of a first bevel gear; 3-6 parts of a second bevel gear; a fourth rotating shaft 3-7; 3-8 parts of a bracket III; 3-9 parts of a straight gear; bevel gears III 3-10; bevel gears four 3-11; 3-12 parts of straight gear; 3-13 parts of a rotating shaft; bevel gears five 3-14; 3-15 parts of a rotating shaft; pushing the frame I3-16; a rotating shaft seven is 3-17; 3-18 parts of a straight gear; bracket four 3-19; 3-20 parts of a belt pulley III; 3-21 parts of a second belt; pulley four 3-22; eight rotating shafts 3-23; 3-24 parts of a belt pulley; 3-25 parts of a third belt; six belt pulleys 3-26; worm screws 3-27; bevel gears six 3-28; bevel gears seven 3-29; nine 3-30 parts of rotating shaft; eight bevel gears 3-31; ten 3-32 of rotating shaft; pushing the second frame 3-33; 3-34 parts of a bracket; 3-35 parts of a belt pulley; belt four 3-36; eight belt pulleys 3-37; eleven rotating shafts 3-38; nine belt pulleys 3-39; 3-40 parts of a belt; ten pulley wheels 3-41; twelve rotating shafts 3-42; nine bevel gears 3-43; ten bevel gears 3-44; thirteen 3-45 of rotating shaft; gear belts 3-46; fourteen rotating shafts 3-47; and slide bars 3-48.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 10, and a tile cutting device includes a fixture assembly 1, a cutting assembly 2, and a transmission assembly 3, wherein the fixture assembly 1 is connected to the cutting assembly 2, the fixture assembly 1 is connected to the transmission assembly 3, and the cutting assembly 2 is connected to the transmission assembly 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-10, and the embodiment will be further described, where the fixture assembly 1 includes a base 1-1, a rack 1-2, a chute 1-3, a rotating shaft 1-4, a spur gear 1-5, a handle 1-6, a threaded rod 1-7, a limiting plate 1-8, a scale 1-9, and a bottom plate 1-10, the base 1-1 is fixedly connected to the rack 1-2, the chute 1-3 is connected to the base 1-1, the rotating shaft 1-4 is rotatably connected to the base 1-1, the spur gear 1-5 is fixedly connected to the rotating shaft 1-4, the bottom plate 1-10 is fixedly connected to the rotating shaft 1-4, and the handle 1-6 is fixedly connected to the threaded rod 1-7, the first threaded rod 1-7 is meshed with the first bottom plate 1-10, the limiting plate 1-8 is rotationally connected with the first threaded rod 1-7, the limiting plate 1-8 is slidably connected with the first bottom plate 1-10, the scale 1-9 is fixedly connected with the first bottom plate 1-10,

the first handle 1-6 is rotated to drive the first threaded rod 1-7 to rotate, the first threaded rod 1-7 is used for driving the limiting plates 1-8 to move, and the positions of the limiting plates 1-8 can be adjusted according to cutting requirements to adjust the cutting size.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-10, and the embodiment further describes the first embodiment, the cutting assembly 2 includes a cutting outer frame 2-1, a motor 2-2, a motor output shaft 2-3, a first belt pulley 2-4, a second spur gear 2-5, a first bracket 2-6, a second rotating shaft 2-7, a blade 2-8, a second bracket 2-9, a second handle 2-10, and a second threaded rod 2-11, the motor 2-2 is connected with the motor output shaft 2-3, the motor output shaft 2-3 is fixedly connected with the first belt pulley 2-4, the second spur gear 2-5 is fixedly connected with the motor output shaft 2-3, the first bracket 2-6 is rotatably connected with the motor output shaft 2-3, the second rotating shaft 2-7 is meshed with the second spur gear 2-5, the blades 2-8 are fixedly connected with the rotating shaft II 2-7, the supports II 2-9 are rotatably connected with the rotating shaft II 2-7, the supports II 2-9 are fixedly connected with the cutting outer frame 2-1, the handles II 2-10 are fixedly connected with the threaded rod II 2-11, the threaded rod II 2-11 is rotatably connected with the rotating shaft II 2-7, and the threaded rod II 2-11 is meshed with the cutting outer frame 2-1.

The fourth concrete implementation mode:

the first embodiment is further described with reference to fig. 1-10, and the first embodiment is further described, wherein the transmission assembly 3 includes a transmission outer frame 3-1, a first belt 3-2, a second belt pulley 3-3, a third rotating shaft 3-4, a first bevel gear 3-5, a second bevel gear 3-6, a fourth rotating shaft 3-7, a third support 3-8, a third spur gear 3-9, a third bevel gear 3-10, a fourth bevel gear 3-11, a fourth spur gear 3-12, a fifth rotating shaft 3-13, a fifth bevel gear 3-14, a sixth rotating shaft 3-15, a first push frame 3-16, a seventh rotating shaft 3-17, a fifth spur gear 3-18, a fourth support 3-19, a third belt pulley 3-20, a second belt pulley 3-21, a fourth belt pulley 3-22, a third belt pulley 3-20, a fourth belt pulley 3-22, a fourth belt pulley 3-3, Eight 3-23 parts of rotating shaft, five 3-24 parts of belt pulley, three 3-25 parts of belt, six 3-26 parts of belt pulley, 3-27 parts of worm, six 3-28 parts of bevel gear, seven 3-29 parts of bevel gear, nine 3-30 parts of rotating shaft, eight 3-31 parts of bevel gear, ten 3-32 parts of rotating shaft, two 3-33 parts of pushing frame, five 3-34 parts of bracket, seven 3-35 parts of belt pulley, four 3-36 parts of belt, eight 3-37 parts of belt pulley, eleven 3-38 parts of rotating shaft, nine 3-39 parts of belt pulley, five 3-40 parts of belt pulley, ten 3-41 parts of belt pulley, twelve 3-42 parts of rotating shaft, nine 3-43 parts of bevel gear, ten 3-44 parts of bevel gear, thirteen 3-45 parts of rotating shaft, 3-46 parts of gear belt, fourteen 3-47 parts of rotating shaft and 3-48 parts of sliding rod, wherein the driving frame 3-1 is fixedly connected with the cutting frame 2-1, the belt I3-2 is connected with the belt I2-4, the belt II 3-3 is connected with the belt I3-2, the rotating shaft III 3-4 is fixedly connected with the belt II 3-3, the bevel gear I3-5 is fixedly connected with the rotating shaft III 3-4, the bevel gear II 3-6 is meshed with the bevel gear I3-5, the rotating shaft IV 3-7 is fixedly connected with the bevel gear II 3-6, the support III 3-8 is rotatably connected with the rotating shaft IV 3-7, the support III 3-8 is fixedly connected with the transmission outer frame 3-1, the bevel gear III 3-10 is fixedly connected with the rotating shaft IV 3-7, the bevel gear IV 3-11 is fixedly connected with the rotating shaft IV 3-13, the spur gear IV 3-12 is fixedly connected with the rotating shaft IV 3-13, and the bevel gear V3-14 is fixedly connected with the rotating shaft IV 3-15, bevel gear three 3-10 is meshed with bevel gear five 3-14, bevel gear four 3-11 is meshed with bevel gear five 3-14, rotating shaft six 3-15 is rotationally connected with pushing frame one 3-16, pushing frame one 3-16 is slidably connected with transmission outer frame 3-1, rotating shaft six 3-15 is fixedly connected with pushing frame one 3-16, spur gear five 3-18 is rotationally connected with rotating shaft six 3-15, support four 3-19 is rotationally connected with rotating shaft five 3-13, support four 3-19 is fixedly connected with transmission outer frame 3-1, belt pulley three 3-20 is fixedly connected with rotating shaft five 3-13, belt pulley two 3-21 is connected with belt pulley three 3-20, belt pulley four 3-22 is connected with belt pulley two 3-21, rotating shaft eight 3-23 is fixedly connected with belt pulley four 3-22, belt wheel five 3-24 is fixedly connected with rotating shaft eight 3-23, belt three 3-25 is connected with belt wheel four 3-22, belt wheel six 3-26 is connected with belt three 3-25, worm 3-27 is fixedly connected with belt wheel six 3-26, bevel gear six 3-28 is fixedly connected with rotating shaft four 3-7, bevel gear seven 3-29 is fixedly connected with rotating shaft nine 3-30, rotating shaft nine 3-30 is rotatably connected with support five 3-34, bevel gear eight 3-31 is fixedly connected with rotating shaft ten 3-32, pushing frame two 3-33 is rotatably connected with rotating shaft ten 3-32, pushing frame two 3-33 is slidably connected with transmission outer frame 3-1, bevel gear six 3-28 is meshed with bevel gear eight 3-31, bevel gear eight 3-31 is connected with bevel gear seven 3-29, the support five 3-34 is fixedly connected with the transmission outer frame 3-1, the belt pulley seven 3-35 is fixedly connected with the rotating shaft nine 3-30, the belt pulley four 3-36 is connected with the belt pulley seven 3-35, the belt pulley eight 3-37 is connected with the belt pulley four 3-36, the rotating shaft eleven 3-38 is fixedly connected with the belt pulley eight 3-37, the belt pulley nine 3-39 is fixedly connected with the rotating shaft eleven 3-38, the belt pulley five 3-40 is connected with the belt pulley nine 3-39, the belt pulley ten 3-41 is connected with the belt pulley five 3-40, the rotating shaft twelve 3-42 is fixedly connected with the belt pulley ten 3-41, the rotating shaft twelve 3-42 is rotatably connected with the transmission outer frame 3-1, the bevel gear nine 3-43 is fixedly connected with the rotating shaft twelve 3-42, the bevel gear ten 3-44 is meshed with the bevel gear nine 3-43, a rotating shaft thirteen 3-45 is fixedly connected with a bevel gear thirteen 3-44, the rotating shaft thirteen 3-45 is rotatably connected with a transmission outer frame 3-1, a gear belt 3-46 is connected with the rotating shaft thirteen 3-45, a rotating shaft fourteen 3-47 is connected with the gear belt 3-46, the gear belt 3-46 is meshed with a straight gear I1-5, a sliding rod 3-48 is connected with a sliding chute 1-3 in a sliding way,

the pushing frames 3-16 and 3-33 can be adjusted so that the base 1-1 does not move and the bottom plate 1-10 rotates, and the tile can be rounded as required.

The working principle of the invention is as follows: starting a motor 2-2, driving a first belt pulley 2-4 to rotate through a motor output shaft 2-3, driving a second straight gear 2-5 to rotate through the motor output shaft 2-3, driving a second rotating shaft 2-7 to rotate through the second straight gear 2-5, driving a blade 2-8 to rotate through the second rotating shaft 2-7, driving a second threaded rod 2-11 to rotate through a second handle 2-10, driving a second rotating shaft 2-7 to move through the second threaded rod 2-11, driving a second belt pulley 3-3 to rotate through a first belt 3-2, driving a third rotating shaft 3-4 to rotate through a second belt pulley 3-3, driving a first bevel gear 3-5 to rotate through a third rotating shaft 3-4, and driving a second bevel gear 3-6 to rotate through a first bevel gear 3-5, the rotating shaft IV 3-7 is driven to rotate by the bevel gear II 3-6, the straight gear III 3-9 is driven to rotate by the rotating shaft IV 3-7, the bevel gear V3-14 is driven to rotate by the bevel gear III 3-9, the bevel gear IV 3-11 is driven to rotate by the bevel gear V3-14, the rotating shaft V3-13 is driven to rotate by the bevel gear IV 3-11, the pushing frame 3-16 is pulled to enable the straight gear III 3-9 to drive the straight gear V3-18 to rotate, the straight gear IV 3-12 is driven to rotate by the straight gear V3-18, the rotating shaft V3-13 is driven to rotate by the straight gear IV 3-12, the rotating direction of the rotating shaft V3-13 driven by the bevel gear IV 3-11 is opposite to the rotating direction of the rotating shaft V3-13 driven by the straight gear IV 3-12, pulling the pushing frame 3-16 to ensure that the straight gear three 3-9 is not meshed with the straight gear five 3-18, the bevel gear three 3-10 is not meshed with the bevel gear five 3-14, the worm 3-27 is not rotated, the base 1-1 is not moved, the rotating shaft five 3-13 drives the belt pulley three 3-20 to rotate, the belt pulley three 3-20 drives the belt pulley four 3-22 to rotate through the belt two 3-21, the rotating shaft eight 3-23 to rotate through the belt pulley four 3-22, the belt pulley five 3-24 to rotate through the rotating shaft eight 3-23, the belt pulley five 3-24 drives the belt pulley six 3-26 to rotate through the belt three 3-25, the worm 3-27 is driven to rotate through the belt pulley six 3-26, the base 1-1 is driven to move through the worm 3-27, the bevel gears six 3-28 are driven to rotate through the rotating shafts four 3-7, the bevel gears eight 3-31 are driven to rotate through the bevel gears six 3-28, the bevel gears seven 3-29 are driven to rotate through the bevel gears eight 3-31, the rotating shafts nine 3-30 are driven to rotate through the bevel gears seven 3-29, the belt pulleys seven 3-35 are driven to rotate through the rotating shafts nine 3-30, the belt pulleys seven 3-35 are driven to rotate through the belt four 3-36, the belt pulleys eight 3-37 are driven to rotate through the belt eight 3-37, the belt pulleys eleven 3-38 are driven to rotate through the rotating shafts eleven 3-38, the belt pulleys nine 3-39 are driven to rotate through the belt five 3-40, the belt pulleys ten 3-41 are driven to rotate through the belt pulleys ten 3-41, and the rotating shafts twelve 3-42 are driven to rotate through the belt ten 3-41, the rotating shafts twelve 3-42 drive the bevel gears nine 3-43 to rotate, the bevel gears nine 3-43 drive the bevel gears ten 3-44 to rotate, the rotating shafts thirteen 3-45 are driven to rotate by the bevel gears ten 3-44, the gear belts 3-46 are driven to move by the rotating shafts thirteen 3-45, the straight gear belts 3-46 drive the straight gear shafts 1-5 to rotate, the rotating shafts one 1-4 are driven to rotate by the straight gear shafts one 1-5, the bottom plates 1-10 are driven to rotate by the rotating shafts one 1-4, the push frames two 3-33 are pulled to ensure that the bevel gears six 3-28 are not meshed with the bevel gears eight 3-31, the bevel gears seven 3-29 are not rotated, the bottom plates 1-10 are not rotated, and the screw rods one 1-7 are driven to rotate by the rotating handles one 1-6, the first threaded rods 1-7 drive the limiting plates 1-8 to move, the positions of the limiting plates 1-8 can be adjusted according to cutting requirements to adjust the cutting size, the pushing frames 3-16 and the pushing frames 3-33 can also be adjusted, the base 1-1 does not move, the bottom plates 1-10 rotate, and the ceramic tiles can be rounded according to requirements.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. A ceramic tile cutting device which characterized in that: including anchor clamps assembly (1), cutting assembly (2), transmission assembly (3), anchor clamps assembly (1) is connected with cutting assembly (2), and anchor clamps assembly (1) is connected with transmission assembly (3), and cutting assembly (2) is connected with transmission assembly (3).

2. A tile cutting apparatus according to claim 1, wherein: the clamp assembly (1) comprises a base (1-1), a rack (1-2), a sliding groove (1-3), a rotating shaft I (1-4), a straight gear I (1-5), a handle I (1-6), a threaded rod I (1-7), a limiting plate (1-8), scales (1-9) and a bottom plate (1-10), wherein the base (1-1) is fixedly connected with the rack (1-2), the sliding groove (1-3) is connected with the base (1-1), the rotating shaft I (1-4) is rotatably connected with the base (1-1), the straight gear I (1-5) is fixedly connected with the rotating shaft I (1-4), the bottom plate (1-10) is fixedly connected with the rotating shaft I (1-4), the handle I (1-6) is fixedly connected with the threaded rod I (1-7), the threaded rod I (1-7) is meshed with the bottom plate (1-10), the limiting plate (1-8) is rotatably connected with the threaded rod I (1-7), the limiting plate (1-8) is slidably connected with the bottom plate (1-10), and the scale (1-9) is fixedly connected with the bottom plate (1-10).

3. A tile cutting apparatus according to claim 1, wherein: the cutting assembly (2) comprises a cutting outer frame (2-1), a motor (2-2), a motor output shaft (2-3), a first belt pulley (2-4), a second straight gear (2-5), a first support (2-6), a second rotating shaft (2-7), a blade (2-8), a second support (2-9), a second handle (2-10) and a second threaded rod (2-11), the motor (2-2) is connected with the motor output shaft (2-3), the motor output shaft (2-3) is fixedly connected with the first belt pulley (2-4), the second straight gear (2-5) is fixedly connected with the motor output shaft (2-3), the first support (2-6) is rotatably connected with the motor output shaft (2-3), and the second rotating shaft (2-7) is meshed with the second straight gear (2-5), the blades (2-8) are fixedly connected with the second rotating shaft (2-7), the second supports (2-9) are rotatably connected with the second rotating shaft (2-7), the second supports (2-9) are fixedly connected with the cutting outer frame (2-1), the second handles (2-10) are fixedly connected with the second threaded rods (2-11), the second threaded rods (2-11) are rotatably connected with the second rotating shaft (2-7), and the second threaded rods (2-11) are meshed with the cutting outer frame (2-1).

4. A tile cutting apparatus according to claim 1, wherein: the transmission assembly (3) comprises a transmission outer frame (3-1), a belt I (3-2), a belt pulley II (3-3), a rotating shaft III (3-4), a bevel gear I (3-5), a bevel gear II (3-6), a rotating shaft IV (3-7), a support III (3-8), a straight gear III (3-9), a bevel gear III (3-10), a bevel gear IV (3-11), a straight gear IV (3-12), a rotating shaft V (3-13), a bevel gear V (3-14), a rotating shaft VI (3-15), a pushing frame I (3-16), a rotating shaft VII (3-17), a straight gear V (3-18), a support IV (3-19), a belt pulley III (3-20), a belt II (3-21), a belt pulley IV (3-22), Eight (3-23) rotating shafts, five (3-24) belt pulleys, three (3-25) belts, six (3-26) belt pulleys, 3-27 worms, six (3-28) bevel gears, seven (3-29) bevel gears, nine (3-30) rotating shafts, eight (3-31) bevel gears, ten (3-32) rotating shafts, two (3-33) pushing frames, five (3-34) supports, seven (3-35) belt pulleys, four (3-36) belts, eight (3-37) belt pulleys, eleven (3-38) rotating shafts, nine (3-39) belt pulleys, five (3-40) belt pulleys, ten (3-41) belt pulleys, twelve (3-42) rotating shafts, nine (3-43) bevel gears, ten (3-44) bevel gears, thirteen (3-45) rotating shafts, A gear belt (3-46), a rotating shaft fourteen (3-47) and a sliding rod (3-48), wherein the transmission outer frame (3-1) is fixedly connected with the cutting outer frame (2-1), the belt I (3-2) is connected with the belt pulley I (2-4), the belt pulley II (3-3) is connected with the belt I (3-2), the rotating shaft III (3-4) is fixedly connected with the belt pulley II (3-3), the bevel gear I (3-5) is fixedly connected with the rotating shaft III (3-4), the bevel gear II (3-6) is meshed with the bevel gear I (3-5), the rotating shaft IV (3-7) is fixedly connected with the bevel gear II (3-6), the support III (3-8) is rotatably connected with the rotating shaft IV (3-7), the support III (3-8) is fixedly connected with the transmission outer frame (3-1), a bevel gear III (3-10) is fixedly connected with a rotating shaft IV (3-7), a bevel gear IV (3-11) is fixedly connected with a rotating shaft V (3-13), a spur gear IV (3-12) is fixedly connected with the rotating shaft V (3-13), a bevel gear V (3-14) is fixedly connected with a rotating shaft VI (3-15), a bevel gear III (3-10) is meshed with the bevel gear V (3-14), the bevel gear IV (3-11) is meshed with the bevel gear V (3-14), the rotating shaft VI (3-15) is rotatably connected with a pushing frame I (3-16), the pushing frame I (3-16) is slidably connected with a transmission outer frame (3-1), the rotating shaft VI (3-15) is fixedly connected with the pushing frame I (3-16), the spur gear V (3-18) is rotatably connected with the rotating shaft VI (3-15), the support IV (3-19) is rotationally connected with the rotating shaft IV (3-13), the support IV (3-19) is fixedly connected with the transmission outer frame (3-1), the belt pulley III (3-20) is fixedly connected with the rotating shaft IV (3-13), the belt II (3-21) is connected with the belt pulley III (3-20), the belt pulley IV (3-22) is connected with the belt II (3-21), the rotating shaft IV (3-23) is fixedly connected with the belt pulley IV (3-22), the belt pulley V (3-24) is fixedly connected with the rotating shaft IV (3-23), the belt III (3-25) is connected with the belt pulley IV (3-22), the belt pulley VI (3-26) is connected with the belt III (3-25), the worm (3-27) is fixedly connected with the belt pulley VI (3-26), a bevel gear six (3-28) is fixedly connected with a rotating shaft four (3-7), a bevel gear seven (3-29) is fixedly connected with a rotating shaft nine (3-30), the rotating shaft nine (3-30) is rotatably connected with a support five (3-34), a bevel gear eight (3-31) is fixedly connected with a rotating shaft ten (3-32), a pushing frame two (3-33) is rotatably connected with the rotating shaft ten (3-32), the pushing frame two (3-33) is slidably connected with a transmission outer frame (3-1), the bevel gear six (3-28) is meshed with the bevel gear eight (3-31), the bevel gear eight (3-31) is fixedly connected with the bevel gear seven (3-29), the support five (3-34) is fixedly connected with the transmission outer frame (3-1), a belt pulley seven (3-35) is fixedly connected with the rotating shaft nine (3-30), a belt IV (3-36) is connected with a belt pulley VII (3-35), a belt pulley VIII (3-37) is connected with the belt IV (3-36), a rotating shaft eleven (3-38) is fixedly connected with the belt pulley VIII (3-37), a belt pulley nine (3-39) is fixedly connected with the rotating shaft eleven (3-38), a belt V (3-40) is connected with the belt pulley nine (3-39), a belt pulley ten (3-41) is connected with the belt V (3-40), a rotating shaft twelve (3-42) is fixedly connected with the belt pulley ten (3-41), a rotating shaft twelve (3-42) is rotatably connected with a transmission outer frame (3-1), a bevel gear nine (3-43) is fixedly connected with the rotating shaft twelve (3-42), a bevel gear ten (3-44) is meshed with the bevel gear nine (3-43), a rotating shaft thirteen (3-45) is fixedly connected with a bevel gear thirteen (3-44), the rotating shaft thirteen (3-45) is rotatably connected with a transmission outer frame (3-1), a gear belt (3-46) is connected with the rotating shaft thirteen (3-45), a rotating shaft fourteen (3-47) is connected with the gear belt (3-46), the gear belt (3-46) is meshed with a straight gear I (1-5), and a sliding rod (3-48) is slidably connected with a sliding chute (1-3).

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