CN109016099B

CN109016099B - Ceramic tile edge cutting device

Info

Publication number: CN109016099B
Application number: CN201810964545.2A
Authority: CN
Inventors: 陈全民
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-08-23
Filing date: 2018-08-23
Publication date: 2022-02-08
Anticipated expiration: 2038-08-23
Also published as: CN109016099A

Abstract

The invention discloses a ceramic tile edge cutting device which comprises a control box, a driving motor, a rack, a conveying belt, two groups of working cutting machine assemblies, two groups of standby cutting machine assemblies and two groups of edge pressing plates, wherein the two groups of working cutting machine assemblies, the two groups of standby cutting machine assemblies and the two groups of edge pressing plates are arranged on the front side and the rear side of the rack. The ceramic tile trimming device is reasonable in design, and by arranging the two groups of cutting machine assemblies, namely the working cutting machine assembly and the standby cutting machine assembly, the cutting saw blade can be conveniently replaced in the production process, so that the ceramic tile trimming device is safer, the production process cannot be influenced, and the working efficiency is high; the installation heights of the cutting machine components are sequentially reduced from left to right, so that different cutting depths of the cutting machine components can be realized, and layered cutting is realized; the ceramic tile edge can be easily pressed and removed by pressing the edge pressing plate downwards, the ceramic tile is uniformly pressed and removed at the edge pressing plate, the ceramic tile edge waste can be intensively recycled, and the ceramic tile can not be damaged in the pressing and removing process.

Description

Ceramic tile edge cutting device

Technical Field

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

Background

At present, ceramic production line generally adopts edging device to edging ceramic brick, and it has a lot of shortcomings: the edge grinding device is adopted to grind the redundant parts on the blank brick little by little, the whole process not only generates a large amount of dust, but also needs to utilize a large amount of water for scouring, and simultaneously generates a large amount of brick mud, and the generated dust, sewage and brick mud are difficult to recycle, so that the resource waste is caused, and the environment is not protected; moreover, the generated dust can not only pollute the production environment, but also influence the health of workers in the workshop; and because the ceramic tile hardness is higher, the mode of adopting the edging also has the shortcoming that work efficiency is lower.

And the problem can be better avoided by adopting a cutting method to process the edge of the ceramic tile. However, the existing cutting device generally only has one group of cutting machine components, and the cutting device needs to be stopped when the saw blade needs to be replaced, so that the working efficiency is low. Meanwhile, the cutting is generally finished by one-time cutting, the tile edge is directly cut off, and the defect that the waste materials of the cut tile edge cannot be intensively recycled exists. Therefore, the invention provides the efficient and environment-friendly ceramic tile edge cutting device.

Disclosure of Invention

The invention aims to provide a ceramic tile edge cutting device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a ceramic tile edge cutting device comprises a control box, a driving motor, a rack, a conveyor belt, two groups of working cutter assemblies, two groups of standby cutter assemblies and two groups of edge pressing plates, wherein the two groups of working cutter assemblies, the two groups of standby cutter assemblies and the two groups of edge pressing plates are arranged on the front side and the rear side of the rack; the driving motor drives the driving wheel to move, and the driving wheel drives the conveying belt to move;

the working cutting machine assembly comprises a plurality of upper cutting machine assemblies and at least one lower cutting machine assembly, wherein the mounting heights of the upper cutting machine assemblies and the lower cutting machine assemblies are sequentially reduced from left to right; the spare cutting machine assembly comprises a plurality of spare upper cutting machine assemblies and at least one spare lower cutting machine assembly, wherein the installation heights of the spare upper cutting machine assemblies are sequentially reduced from left to right; a blank holder plate for pressing and removing the edges of the ceramic tiles is arranged on the right side of the spare lower cutting machine component;

the upper cutter assembly, the lower cutter assembly, the standby upper cutter assembly and the standby lower cutter assembly respectively comprise a cutting blade, a motor, a cutting blade up-and-down driving device and a saw blade sensor arranged on the cutting blade; the blade sensor is connected to the control box.

As a further scheme of the invention: the upper cutter assembly comprises a cutter assembly a, a cutter assembly b, a cutter assembly c, a cutter assembly d and a cutter assembly e; the spare upper cutter assembly comprises a spare cutter assembly a, a spare cutter assembly b, a spare cutter assembly c, a spare cutter assembly d and a spare cutter assembly e.

As a further scheme of the invention: the cutting blade up-and-down driving device comprises a motor mounting tray, a transmission guide plate, a fixed guide plate, a box body, a servo motor, a screw rod, a supporting and positioning rod and a lifting nut; a screw rod is arranged in the box body, a servo motor is fixedly arranged at the bottom of the box body, the bottom of the screw rod is fixedly connected with the output end of the servo motor, a lifting nut is connected onto the screw rod, and a transmission guide plate is fixedly connected to the outer side of the lifting nut; the upper ends of the four supporting and positioning rods are fixedly connected to the motor mounting tray, the middle parts of the four supporting and positioning rods are fixedly connected with the transmission guide plate, the bottoms of the four supporting and positioning rods penetrate through the fixed guide plate, and the fixed guide plate is fixedly connected with the box body; the motor is fixedly installed on the motor installation tray, and the output end of the motor is connected with a cutting blade.

As a further scheme of the invention: the driving motor, the servo motor and the motor are all connected to the control box.

As a further scheme of the invention: the blank holder comprises a pressing plate, a mounting bracket, two connecting rods, two horseshoe knife driving motors, two horseshoe knives and a plurality of return springs; the mounting bracket is fixedly mounted on the rack, the upper end of the mounting bracket is respectively and hingedly connected with the horseshoe knife through two connecting rods, the horseshoe knife driving motor is mounted on the connecting rods and drives the horseshoe knife to rotate, and the upper end of the mounting bracket is connected with the pressing plate through a plurality of return springs.

As a further scheme of the invention: the horseshoe knife driving motor is connected to the control box.

As a further scheme of the invention: and a blade shield is arranged outside the cutting blade.

Compared with the prior art, the invention has the beneficial effects that:

the ceramic tile trimming device is reasonable in design, the ceramic tile edges are processed in a cutting mode, more dust, sewage and brick mud cannot be generated, the ceramic tile trimming device is more environment-friendly, and by arranging the two groups of cutting machine assemblies, namely the working cutting machine assembly and the standby cutting machine assembly, the cutting saw blades can be conveniently replaced in the production process, the ceramic tile trimming device is safer, the production process cannot be influenced, and the working efficiency is high; the installation heights of the cutting machine components are sequentially reduced from left to right, so that different cutting depths of the cutting machine components can be realized, and layered cutting is realized; the rethread is pressed down and is realized the ceramic tile limit and easily press and remove, and the ceramic tile is unified to press in blank holder department and remove, can realize concentrating and retrieve ceramic tile limit waste material, and presses and remove the in-process and can not damage the ceramic tile, improves porcelain product quality, improves brick market competition.

Drawings

FIG. 1 is a schematic view of the overall structure of a ceramic tile trimming device.

Fig. 2 is a schematic structural diagram of a cutter assembly a in the ceramic tile trimming device.

FIG. 3 is a control diagram of the ceramic tile trimming apparatus.

FIG. 4 is a schematic structural view of an edge pressing plate in the ceramic tile edge cutting device.

Wherein: 1-a frame; 2-driving wheel; 3-a conveyor belt; 41-cutter assembly a; 42-spare cutter assembly a; 51-cutter assembly b; 52-spare cutter assembly b; 61-cutter assembly c; 62-spare cutter assembly c; 71-cutter assembly d; 72-Standby cutter assembly d; 81-cutter assembly e; 82-spare cutter assembly e; 91-lower cutter assembly; 92-spare lower cutter assembly; 10-edge pressing plate; 11-a cutting blade; 12-a motor; 13-motor mounting tray; 14-a drive shoe; 15-fixing the guide plate; 16-a box body; 17-a servo motor; 18-a screw rod; 19-supporting the positioning rod; 20-lifting nut; 21-a blade sensor; 22-a drive motor; 23-a control box; 24-a return spring; 25-horseshoe knife; 26-a press plate; 27-mounting a bracket; 28-connecting rod.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Example 1

Referring to fig. 1-3, a ceramic tile trimming device comprises a control box 23, a driving motor 22, a frame 1, a conveyor belt 3, two working cutter assemblies, two spare cutter assemblies and two trimming plates 10, wherein the two working cutter assemblies, the two spare cutter assemblies and the two trimming plates are arranged on the front side and the rear side of the frame 1; the driving motor 22 drives the driving wheel 2 to move, and the driving wheel 2 drives the conveying belt 3 to move;

the work cutter assembly includes cutter assembly a41, cutter assembly b51, cutter assembly c61, cutter assembly d71, cutter assembly e81, and lower cutter assembly 91;

the working cutter assemblies are all arranged on the machine frame 1, the cutter assembly a41, the cutter assembly b51, the cutter assembly c61, the cutter assembly d71 and the cutter assembly e81 are arranged from left to right, the installation heights are reduced from left to right, and the cutting blades 11 of the cutter assembly a41, the cutter assembly b51, the cutter assembly c61, the cutter assembly d71 and the cutter assembly e81 are arranged above the ceramic tile; the effect of the successive reduction of the installation heights of cutter assembly a41, cutter assembly b51, cutter assembly c61, cutter assembly d71 and cutter assembly e81 is that when a tile is cut, the cutting blade 11 of cutter assembly a41 moves downwards to cut the 1mm glazed layer with the highest hardness of the top layer of the tile, and the cutting blade 11 of cutter assembly b51 moves downwards to continue to cut the first tile layer 2mm below the glazed layer of the tile; the cutting blade 11 of cutter assembly c61 moves downwards, continuing to cut the second tile layer 2mm below the first tile layer; the cutting blade 11 of cutter assembly d71 moves downwards, continuing to cut the third tile layer 2mm below the second tile layer; the cutting blade 11 of the cutting machine assembly e81 moves downwards to continue to cut the fourth tile layer 2mm below the third tile layer of the tile, so that layered cutting can be realized; the cutting blades 11 of the lower cutter assembly 91 are arranged below the tiles; the cutting blade 11 of the lower cutting machine component 91 moves upwards from the lower part of the ceramic tile to cut the bottom layer of 2mm at the bottom of the ceramic tile, and after the upper step of layered cutting and bottom cutting, the middle part of the ceramic tile still remains 2mm and is not cut, so that the cut edge of the ceramic tile can not fall off;

the backup cutter assembly includes backup cutter assembly a42, backup cutter assembly b52, backup cutter assembly c62, backup cutter assembly d72, backup cutter assembly e82, and backup lower cutter assembly 92; the spare cutting machine assemblies are all arranged on the rack 1; the spare cutter assembly a42 is arranged on one side of the cutter assembly a41, the installation heights of the cutter assembly a41 and the spare cutter assembly a42 are consistent, and the spare cutter assembly a41 is the spare cutter assembly of the cutter assembly a 41; the spare cutter assembly b52 is arranged on one side of the cutter assembly b51, the installation heights of the cutter assembly b51 and the spare cutter assembly b52 are consistent, and the spare cutter assembly b51 is a spare cutter assembly of the cutter assembly b 51; the spare cutting machine assembly c62 is arranged on one side of the cutting machine assembly c61, the installation heights of the spare cutting machine assembly c62 and the cutting machine assembly c61 are consistent, and the spare cutting machine assembly c62 is the spare cutting machine assembly of the cutting machine assembly c 61; the spare cutting machine assembly d72 is arranged on one side of the cutting machine assembly d71, the installation heights of the spare cutting machine assembly d72 and the cutting machine assembly d71 are consistent, and the spare cutting machine assembly d72 is the spare cutting machine assembly of the cutting machine assembly d 71; the spare cutter assembly e82 is arranged on one side of the cutter assembly e81, the installation heights of the cutter assembly e81 and the spare cutter assembly e82 are consistent, and the spare cutter assembly is the spare cutter assembly of the cutter assembly e 81; the spare lower cutter assembly 92 is arranged at one side of the lower cutter assembly 91 and the installation heights of the spare lower cutter assembly 92 and the lower cutter assembly 91 are consistent, and the spare lower cutter assembly 92 is a spare cutter assembly of the lower cutter assembly 91; the right side of the spare lower cutting machine component 92 is provided with a blank holder plate 10 for pressing and removing the ceramic tile edges, the ceramic tile edges can be easily pressed and removed through the pressing of the blank holder plate 10, the ceramic tiles are uniformly pressed and removed at the blank holder plate 10, a recovery box can be arranged below the blank holder plate 10 to intensively recover the ceramic tile edge waste materials, and the ceramic tiles cannot be damaged in the pressing and removing process;

after the working cutter assembly works for a period of time, the control box 23 can control the working cutter assembly to stop working and control each cutting blade 11 of the working cutter assembly to move upwards to an initial state, and the control box 23 controls the standby cutter assembly to start working; the rest of one group of cutting machine components is realized, the blades are convenient to replace, the working process is not influenced, and the working efficiency is improved;

the cutter assembly a41, the cutter assembly b51, the cutter assembly c61, the cutter assembly d71, the cutter assembly e81, the lower cutter assembly 91, the spare cutter assembly a42, the spare cutter assembly b52, the spare cutter assembly c62, the spare cutter assembly d72, the spare cutter assembly e82 and the spare lower cutter assembly 92 have the same structure and respectively comprise a cutting blade 11, a motor 12, a motor mounting tray 13, a transmission guide plate 14, a fixed guide plate 15, a box 16, a servo motor 17, a screw rod 18, a supporting and positioning rod 19 and a lifting nut 20; a screw rod 18 is installed inside the box body 16, a servo motor 17 is fixedly installed at the bottom of the box body 16, the bottom of the screw rod 18 is fixedly connected with the output end of the servo motor 17, the servo motor 17 drives the screw rod 18 to rotate, a lifting nut 20 is connected onto the screw rod 18, the screw rod 18 drives the lifting nut 20 to move up and down, a transmission guide plate 14 is fixedly connected to the outer side of the lifting nut 20, and the lifting nut 20 drives the transmission guide plate 14 to move up and down; the upper ends of four supporting and positioning rods 19 are fixedly connected to a motor mounting tray 13, the middle parts of the four supporting and positioning rods 19 are fixedly connected with a transmission guide plate 14, the transmission guide plate 14 drives the motor mounting tray 13 to move up and down through the four supporting and positioning rods 19, the bottoms of the four supporting and positioning rods 19 penetrate through a fixed guide plate 15, through holes which play a role in guiding and facilitate the up and down movement of the four supporting and positioning rods 19 are arranged on the fixed guide plate 15, and the fixed guide plate 15 is fixedly connected with a box body; the motor 12 is fixedly arranged on the motor mounting tray 13, the output end of the motor 12 is connected with the cutting blade 11, and a blade shield is arranged outside the cutting blade 11; saw blade sensors 21 are mounted on the cutting blades 11; the saw blade sensor 21 has the following model: weck IME18-08 NNSZWZS.

The driving motor 22, the saw blade sensor 21, the servo motor 17 and the motor 12 are all connected to a control box 23; the cutting depth of each cutting blade 11 can be preset through the control box 23, the real-time cutting depth of each cutting blade 11 can be detected through the saw blade sensor 21, the detection data of the saw blade sensor 21 is transmitted to the control box 23, the control box 23 controls the servo motor 17 to work, and the real-time cutting depth of each cutting blade 11 is controlled to reach the preset value; the control box 23 may also control the switching of the drive motor 22, the servo motor 17 and the motor 12.

Example 2

On the basis of embodiment 1, please refer to fig. 4, the edge pressing plate 10 includes a pressing plate 26, a mounting bracket 27, two connecting rods 28, two horseshoe-shaped knife driving motors, two horseshoe-shaped knives 25, and a plurality of return springs 24; the mounting bracket 27 is fixedly mounted on the rack 1, the upper end of the mounting bracket 27 is respectively hinged with the horseshoe knife 25 through two connecting rods 28, the horseshoe knife driving motor is mounted on the connecting rods 28 and drives the horseshoe knife 25 to rotate, and the upper end of the mounting bracket 27 is connected with the pressing plate 26 through a plurality of return springs 24; when the ceramic tile edge removing machine works, the horseshoe knife driving motor drives the horseshoe knife 25 to rotate, the horseshoe knife 25 presses the pressing plate 26 downwards, the pressing plate 26 presses the ceramic tile edge, the cut ceramic tile edge is removed, and due to the fact that the upper portion and the bottom of the ceramic tile are cut, gaps cannot be formed on the upper surface and the lower surface of the ceramic tile when the ceramic tile is pressed downwards; after the horseshoe knife 25 returns, the spring drives the pressing plate 26 to return, one-time pressing is achieved, parameters of the horseshoe knife driving motor and the driving motor 22 can be adjusted in actual production, and when the tile is conveyed to the position below the pressing plate 26, the pressing plate 26 just presses down to remove the tile edge once. The horseshoe knife driving motor is connected to the control box.

The working principle of the invention is as follows: the driving motor 22 drives the driving wheel 2 to move, and the driving wheel 2 drives the conveying belt 3 to move; the effect of the successive reduction of the installation heights of cutter assembly a41, cutter assembly b51, cutter assembly c61, cutter assembly d71 and cutter assembly e81 is that when a tile is cut, the cutting blade 11 of cutter assembly a41 moves downwards to cut the 1mm glazed layer with the highest hardness of the top layer of the tile, and the cutting blade 11 of cutter assembly b51 moves downwards to continue to cut the first tile layer 2mm below the glazed layer of the tile; the cutting blade 11 of cutter assembly c61 moves downwards, continuing to cut the second tile layer 2mm below the first tile layer; the cutting blade 11 of cutter assembly d71 moves downwards, continuing to cut the third tile layer 2mm below the second tile layer; the cutting blade 11 of the cutting machine assembly e81 moves downwards to continue to cut the fourth tile layer 2mm below the third tile layer of the tile, so that layered cutting can be realized; the cutting blades 11 of the lower cutter assembly 91 are arranged below the tiles; the cutting blade 11 of the lower cutting machine component 91 moves upwards from the lower part of the ceramic tile to cut the bottom layer of 2mm at the bottom of the ceramic tile, and after the upper step of layered cutting and bottom cutting, the middle part of the ceramic tile still remains 2mm and is not cut, so that the cut edge of the ceramic tile can not fall off; the ceramic tile edge can be easily pressed and removed by pressing the edge pressing plate 10 downwards, and the ceramic tile cannot be damaged; after the working cutter assembly works for a period of time, the control box 23 can control the working cutter assembly to stop working and control each cutting blade 11 of the working cutter assembly to move upwards to an initial state, and the control box 23 controls the standby cutter assembly to start working; the rest of one group of cutting machine components is realized, the blades are convenient to replace, the working process is not influenced, and the working efficiency is improved; the servo motor 17 drives the screw rod 18 to rotate, the screw rod 18 drives the lifting nut 20 to move up and down, and the lifting nut 20 drives the transmission guide plate 14 to move up and down; the transmission guide plate 14 drives the motor installation tray 13 to move up and down through four supporting and positioning rods 19, the cutting depth of each cutting blade 11 can be preset through the control box 23, the real-time cutting depth of each cutting blade 11 can be detected through the saw blade sensor 21, the detection data of the saw blade sensor 21 is transmitted to the control box 23, the control box 23 controls the servo motor 17 to work, and the real-time cutting depth of each cutting blade 11 is controlled to reach the preset value; the control box 23 may also control the switching of the drive motor 22, the servo motor 17 and the motor 12. When the ceramic tile edge removing machine works, the horseshoe knife driving motor drives the horseshoe knife 25 to rotate, the horseshoe knife 25 presses the pressing plate 26 downwards, the pressing plate 26 presses the ceramic tile edge, the cut ceramic tile edge is removed, and due to the fact that the upper portion and the bottom of the ceramic tile are cut, gaps cannot be formed on the upper surface and the lower surface of the ceramic tile when the ceramic tile is pressed downwards; after the horseshoe knife 25 returns, the spring drives the pressing plate 26 to return, one-time pressing is achieved, parameters of the horseshoe knife driving motor and the driving motor 22 can be adjusted in actual production, and when the tile is conveyed to the position below the pressing plate 26, the pressing plate 26 just presses down to remove the tile edge once.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims

1. The ceramic tile edge cutting device is characterized by comprising a control box (23), a driving motor (22), a rack (1), a conveyor belt (3), two groups of working cutter assemblies, two groups of standby cutter assemblies and two groups of edge pressing plates (10), wherein the two groups of working cutter assemblies, the two groups of standby cutter assemblies and the two groups of edge pressing plates are arranged on the front side and the rear side of the rack (1); the driving motor (22) drives the driving wheel (2) to move, and the driving wheel (2) drives the conveying belt (3) to move;

the working cutting machine assembly comprises a plurality of upper cutting machine assemblies and at least one lower cutting machine assembly (91), wherein the mounting heights of the upper cutting machine assemblies are sequentially reduced from left to right; the spare cutting machine assembly comprises a plurality of spare upper cutting machine assemblies and at least one spare lower cutting machine assembly (92), wherein the installation heights of the spare upper cutting machine assemblies are sequentially reduced from left to right; a blank holder plate (10) for pressing and removing the edges of the ceramic tiles is arranged on the right side of the spare lower cutting machine component (92);

the upper cutter assembly, the lower cutter assembly (91), the standby upper cutter assembly and the standby lower cutter assembly (92) respectively comprise a cutting blade (11), a motor (12), a cutting blade up-and-down driving device and a saw blade sensor (21) arranged on the cutting blade (11); the saw blade sensor (21) is connected to the control box (23), and the cutting blade up-and-down driving device comprises a motor mounting tray (13), a transmission guide plate (14), a fixed guide plate (15), a box body (16), a servo motor (17), a screw rod (18), a supporting and positioning rod (19) and a lifting nut (20); a screw rod (18) is installed inside the box body (16), a servo motor (17) is fixedly installed at the bottom of the box body (16), the bottom of the screw rod (18) is fixedly connected with the output end of the servo motor (17), a lifting nut (20) is connected onto the screw rod (18), and a transmission guide plate (14) is fixedly connected to the outer side of the lifting nut (20); the upper ends of the four supporting and positioning rods (19) are fixedly connected to the motor mounting tray (13), the middle parts of the four supporting and positioning rods (19) are fixedly connected with the transmission guide plate (14), the bottoms of the four supporting and positioning rods (19) penetrate through the fixed guide plate (15), and the fixed guide plate (15) is fixedly connected with the box body; the motor (12) is fixedly arranged on the motor mounting tray (13), the output end of the motor (12) is connected with the cutting blade (11), and the blank holder (10) comprises a pressing plate (26), a mounting bracket (27), two connecting rods (28), two horseshoe knife driving motors, two horseshoe knives (25) and a plurality of return springs (24); installing support (27) fixed mounting is in frame (1), and the upper end of installing support (27) articulates respectively through two connecting rods (28) and is connected with horse shoe sword (25), and horse shoe sword driving motor installs on connecting rod (28), and horse shoe sword driving motor drive horse shoe sword (25) rotate, and the upper end of installing support (27) is connected with clamp plate (26) through a plurality of return spring (24).

2. The ceramic tile trimming apparatus according to claim 1, wherein the upper cutter assembly comprises a cutter assembly a (41), a cutter assembly b (51), a cutter assembly c (61), a cutter assembly d (71), a cutter assembly e (81); the spare upper cutter assembly includes a spare cutter assembly a (42), a spare cutter assembly b (52), a spare cutter assembly c (62), a spare cutter assembly d (72), and a spare cutter assembly e (82).

3. The ceramic tile trimming device according to claim 1, wherein the drive motor (22), the servo motor (17), the motor (12) are all connected to a control box (23).

4. Ceramic tile trimming device according to claim 1, characterized in that the horseshoe-knife drive motor is connected to a control box (23).

5. The ceramic tile trimming device according to any one of claims 1 to 4, wherein a blade guard is provided outside the cutting blade (11).