CN108189251B

CN108189251B - Ceramic tile chamfer cutting device for engineering

Info

Publication number: CN108189251B
Application number: CN201711497495.3A
Authority: CN
Inventors: 彭红星
Original assignee: Haitong Intelligent Equipment Jiangsu Co Ltd
Current assignee: Haitong intelligent equipment (Jiangsu) Co., Ltd
Priority date: 2017-12-31
Filing date: 2017-12-31
Publication date: 2019-12-13
Anticipated expiration: 2037-12-31
Also published as: CN108189251A

Abstract

The utility model provides a ceramic tile chamfer cutting device for engineering, belongs to the building engineering field, workstation rightmost rear side and controller fixed connection, workstation the place ahead downside and transmission fixed connection, the workstation downside is close to transmission department and is fixed with two second photoelectric sensor bases, second photoelectric sensor base and second photoelectric sensor fixed connection, transmission passes through the hub connection with the slide rail, cutting device just slides on the slide rail with sliding linkage, the slide rail is terminal with anti-drop stopper fixed connection. The transverse movement of the whole cutting device is adjusted through the transmission device, and chamfering and cutting are carried out on the ceramic tiles under the action of the cutting device, so that the efficiency of chamfering and cutting the ceramic tiles is greatly improved, a complicated method for manually cutting the ceramic tiles by workers is replaced, a large amount of manpower is saved, and the speed of engineering construction is greatly increased.

Description

Ceramic tile chamfer cutting device for engineering

Technical Field

The invention relates to a chamfer cutting device for engineering tiles, in particular to a device which adjusts the transverse movement of the whole cutting device through a transmission device and realizes chamfer cutting of the tiles through the action of the cutting device, belonging to the field of constructional engineering.

Background

Along with the development of economic society, social production activity is more frequent, social infrastructure has also accelerated the pace, in social infrastructure's in-process, can use a large amount of ceramic tiles when carrying out the construction, and in some constructions, ordinary ceramic tile can not satisfy the construction requirement, needs specific ceramic tile, needs to carry out various cutting processing to those specific ceramic tiles and can use, wherein, carry out the chamfer cutting to the ceramic tile and be a cutting mode of very difficult, need the workman to have a skilled skill, the pace of current social construction is so fast, need shorten engineering cycle greatly when the engineering construction, whether can cut the ceramic tile fast when the construction engineering construction becomes the important ring that influences engineering construction speed.

however, the chamfer cutting of the ceramic tile in the building construction process is mainly manually completed by workers at present, and because the manual cutting needs to be performed by the workers accurately, the technical requirement is high, and a large amount of working hours are needed during cutting, the manual cutting efficiency is very low, the progress of the building construction is seriously influenced, and the manual cutting method is against the current rapidly-developed social background and is not in accordance with the concept of efficient production.

Disclosure of Invention

Aiming at the defects, the invention provides a chamfer cutting device for engineering ceramic tiles.

The invention is realized by the following technical scheme: a ceramic tile chamfer cutting device for engineering comprises a first magnetic base, a first photoelectric sensor, a ceramic tile baffle, a second magnetic base, a workbench, a first ultrasonic sensor, a controller, supporting legs, a slide rail, a cutting device, an anti-falling plug, a second photoelectric sensor base, a first ultrasonic sensor base and a transmission device, wherein four corners of the workbench are fixedly connected with four supporting legs and are supported on the ground, two ceramic tile baffles on the workbench are mutually in a right angle, the upper edge of the ceramic tile baffle of a short edge is fixedly connected with the first photoelectric sensor near the right angle, the outer side of the ceramic tile baffle of the short edge is close to the first magnetic base, the outer side of the ceramic tile baffle of a long edge is close to the second magnetic base, the first magnetic base and the second magnetic base are both connected with the upper surface of the workbench through magnetic force, and the tail end of the ceramic tile baffle of the long edge is provided with the first ultrasonic sensor base which is fixed on the workbench, first ultrasonic sensor base and first ultrasonic sensor fixed connection, workstation back side and controller fixed connection furthest, workstation the place ahead downside and transmission fixed connection, the workstation downside is close to transmission department and is fixed with two second photoelectric sensor bases, second photoelectric sensor base and second photoelectric sensor fixed connection, transmission passes through the hub connection with the slide rail, cutting device and sliding connection just slide on the slide rail, the slide rail is terminal with anti-drop stopper fixed connection.

cutting device includes second ultrasonic sensor, water tank, fixation nut tank lid, slider, water pump, blade disc, first motor and spray pipe, slider lower extreme and first motor fixed connection, first motor downside pivot department and blade disc fixed connection, it has fixation nut to twist on the slider, water tank fixed connection above the slider, water tank upside opening to be covered with the tank lid, water tank upside and second ultrasonic sensor fixed connection, water tank side and water pump fixed connection, water pump and spray pipe fixed connection.

The transmission device comprises a screw base, a screw, a feed bar, a screw nut, a second motor base and a second motor, wherein the upper side of the screw base is in rolling connection with the head end of the screw, the lower side of the screw base is fixedly connected with the head end of the feed bar, the upper side of the screw nut is connected with the screw, the lower side of the screw nut is connected with the feed bar, the tail end of the screw is in rolling connection with the upper side of the second motor base, the tail end of the feed bar is fixedly connected with the second motor base, and the second motor base is fixedly connected with the second motor.

the first magnetic base and the second magnetic base can be freely fixed on the workbench.

The sliding rail is arc-shaped, the lower end of the sliding rail is fixedly connected with the lead screw nut, the fixing nut can be screwed into the sliding block to be in friction connection with the sliding rail, and the length of the rotating shaft of the first motor can be extended and contracted.

The second photoelectric sensor base is also fixed on the workbench through magnetic force.

The ceramic tile cutting machine has the beneficial effects that the sliding block of the cutting device is arc-shaped, and the length of the rotating shaft of the first motor can be extended and retracted, so that a fixed angle can be cut out when a ceramic tile is cut, different angles can be cut out flexibly, and the ceramic tile cutting machine is very convenient and flexible; the anti-falling plug is mounted at the top end of the sliding rail of the cutting device, so that the cutting device can be effectively prevented from falling off, the second ultrasonic sensor is mounted on the water tank, and cutting is automatically stopped when no water exists in the water tank, so that the safety coefficient of the whole device is greatly improved; the first magnetic base and the second magnetic base are fixed by magnetic force, so that the first magnetic base and the second magnetic base can be flexibly fixed on the workbench, and the posture of the ceramic tile baffle can be flexibly adjusted according to the size of the ceramic tile; the adjustment position that second photoelectric sensor below workstation can be nimble corresponds cutting device's starting point and terminal point, can carry out the cutting of different scopes to the ceramic tile and make the chamfer cutting of ceramic tile more nimble convenient.

Drawings

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

FIG. 2 is a schematic bottom view of FIG. 1 according to the present invention;

FIG. 3 is a schematic top view of the FIG. 1 embodiment of the present invention;

FIG. 4 is a schematic front side view of the FIG. 1 embodiment of the present invention;

FIG. 5 is an enlarged view of the cutting device of FIG. 1 according to the present invention;

FIG. 6 is an enlarged schematic view of the transmission of FIG. 1 of the present invention;

FIG. 7 is a schematic top view of the structure of FIG. 1 according to the present invention;

In the figure, 1, a first magnetic base, 2, a first photoelectric sensor, 3, a tile baffle, 4, a second magnetic base, 5, a workbench, 6, a first ultrasonic sensor, 7, a controller, 8, a support leg, 9, a slide rail, 10, a cutting device, 11, an anti-falling plug, 12, a second photoelectric sensor, 13, a second photoelectric sensor base, 14, a first ultrasonic sensor base, 15, a transmission device, 1001, a second ultrasonic sensor, 1002, a water tank, 1003, a fixing nut, 1004, a water tank cover, 1005, a slide block, 1006, a water pump, 1007, a cutter head, 1008, a first motor, 1009, a water spray pipe, 1501, a lead screw base, 1502, a lead screw, 1503, a polished rod, a lead screw nut, 1504, a second motor base, 1506 and a second motor.

Detailed Description

the invention is realized by the following technical scheme:

A ceramic tile chamfer cutting device for engineering comprises a first magnetic base 1, a first photoelectric sensor 2, a ceramic tile baffle 3, a second magnetic base 4, a workbench 5, a first ultrasonic sensor 6, a controller 7, supporting legs 8, a slide rail 9, a cutting device 10, an anti-falling plug 11, a second photoelectric sensor 12, a second photoelectric sensor base 13, a first ultrasonic sensor base 14 and a transmission device 15, wherein four corners of the workbench are fixedly connected with four supporting legs 8 and supported on the ground, two ceramic tile baffles 3 on the workbench 5 form a right angle, the upper edge of the ceramic tile baffle 3 on the short side is fixedly connected with the first photoelectric sensor 2 near the right angle, the outer side of the ceramic tile baffle 3 on the short side is close to the first magnetic base 1, the outer side of the ceramic tile baffle 3 on the long side is close to the second magnetic base 4, the first magnetic base 1 and the second magnetic base 4 are both connected with the upper surface of the workbench 5 through magnetic force, 3 end positions of ceramic tile baffle on long limit have first ultrasonic sensor base 14 to fix on workstation 5, first ultrasonic sensor base 14 and 6 fixed connection of first ultrasonic sensor, workstation 5 rear side and 7 fixed connection of controller the rightmost, 5 the place ahead downside of workstation and 15 fixed connection of transmission, 5 downside of workstation are close to 15 departments of transmission and are fixed with two second photoelectric sensor bases 13, second photoelectric sensor base 13 and 12 fixed connection of second photoelectric sensor, transmission 15 passes through the hub connection with slide rail 9, cutting device 10 is connected with slide rail 9 and slides on slide rail 9, slide rail 9 end and anti-drop stopper 11 fixed connection.

Cutting device 10 includes second ultrasonic sensor 1001, water tank 1002, fixation nut 1003, tank lid 1004, slider 1005, water pump 1006, blade disc 1007, first motor 1008 and spray pipe 1009, slider 1005 lower extreme and first motor 1008 fixed connection, first motor 1008 downside pivot department and blade disc 1007 fixed connection, it has fixation nut 1003 to screw on the slider 1005, water tank 1002 fixed connection above the slider 1005, water tank 1002 upside opening to covered tank lid 1004, water tank 1002 upside and second ultrasonic sensor 1001 fixed connection, water tank 1002 side and water pump 1006 fixed connection, water pump 1006 and spray pipe 1009 fixed connection.

The transmission device comprises a screw rod base 1501, a screw rod 1502, a feed bar 1503, a screw rod nut 1504, a second motor base 1505 and a second motor 1506, wherein the upper side of the screw rod base 1501 is connected with the head end of the screw rod 1502 in a rolling mode, the lower side of the screw rod base 1501 is fixedly connected with the head end of the feed bar 1503, the upper side of the screw rod nut 1504 is connected with the screw rod 1502, the lower side of the screw rod nut 1504 is connected with the feed bar 1503, the tail end of the screw rod 1502 is connected with the upper side of the second motor base 1505 in a rolling mode, the tail end of the feed bar 1503 is fixedly connected with the second motor base 1505, and the second.

The first magnetic base 1 and the second magnetic base 4 can be freely fixed on the workbench 5, and the position of the tile baffle 3 can be changed according to the first magnetic base 1 and the second magnetic base 4.

The slide rail 9 is arc-shaped, the lower end of the slide rail 9 is fixedly connected with a lead screw nut 1504, a fixing nut 1003 can be screwed into the slide block 1005 to be in friction connection with the slide rail 9, and the length of the rotating shaft of the first motor 1008 can be extended and contracted.

The second photosensor base 13 is also fixed to the table 5 by means of magnetic force, and its position can be moved according to the size of the tile to be cut.

the working principle is as follows: the initial state of the device is that the cutting device 10 is positioned at the leftmost end of the workbench 5, water is not contained in the water tank 1002, the slide block 1005 is positioned at the middle position of the slide rail 9, and the power supply is in a closed state, when the device is used, water is filled into the water tank 1002 firstly, if no water is contained in the water tank 1002, the second ultrasonic sensor 1001 cannot detect the water level, the whole cutting device 10 cannot be started, the back of a ceramic tile is placed on the workbench 5 upwards, the positions of the ceramic tile and the ceramic tile baffle plate 3 are adjusted, so that the ceramic tile can be cut by the cutting device 10, the long edge of the ceramic tile baffle plate 3 cannot be blocked in front of the first ultrasonic sensor 6, if the ceramic tile baffle plate is blocked, the whole device cannot be started, after the adjustment is finished, the first photoelectric sensor 2 can sense a corner of the ceramic tile, if the ceramic tile baffle plate cannot be started, the ceramic tile baffle plate 3 is fixed by the first magnetic base 1 and the second magnetic base 4, and the positions of the two second photoelectric sensors, the ceramic tile cutting device can cover the transverse edge of a ceramic tile, a fixing nut 1003 is screwed to adjust a sliding block 1005 in a cutting device 10 along a sliding rail 9, a cutter disc 1007 can cut the ceramic tile, the fixing nut 1003 is screwed down, the sliding block 1005 of the cutting device 10 is fixed, after the work is ready, a controller 7 is operated, a switch is turned on, the whole device is started, the cutter disc 1007 rotates at a high speed to perform chamfer cutting on the ceramic tile, a water pump 1006 pumps water to spray on the cutter disc 1007 so as to reduce the temperature of the cutter disc 1007, the whole cutting device 10 moves rightwards along a transmission device 15 to perform rapid cutting during cutting, when a second photoelectric sensor 12 below a right side workbench 5 senses the cutting device 10, a first motor 1008 stops rotating, the cutter disc 1007 stops rotating along with the cutter disc 1007, the whole cutting device 10 returns to an initial position, the next cutting is waited, the same ceramic tile is cut next time, and, the controller 7 is operated to start the apparatus.

It will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in the embodiments described above without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims.

Claims

1. The utility model provides a ceramic tile chamfer cutting device for engineering, includes first magnetic force seat, first photoelectric sensor, ceramic tile baffle, second magnetic force seat, workstation, first ultrasonic sensor, controller, landing leg, slide rail, cutting device, anti-drop stopper, second photoelectric sensor base, first ultrasonic sensor base and transmission, its characterized in that: four corners of the workbench are fixedly connected with four supporting legs and are supported on the ground, two tile baffles on the workbench are mutually in right angles, the upper edge of the tile baffle on the short side is close to the right angle and is fixedly connected with a first photoelectric sensor, the outer side of the tile baffle on the short side is close to a first magnetic base, the outer side of the tile baffle on the long side is close to a second magnetic base, the first magnetic base and the second magnetic base are both connected with the upper surface of the workbench through magnetic force, a first ultrasonic sensor base is arranged at the tail end of the tile baffle on the long side and is fixed on the workbench, the first ultrasonic sensor base is fixedly connected with a first ultrasonic sensor, the rightmost rear side of the workbench is fixedly connected with a controller, the lower side in front of the workbench is fixedly connected with a transmission device, and two second photoelectric sensor bases are fixed at the position of the lower side of the workbench, which is close to the transmission device, the second photoelectric sensor base is fixedly connected with the second photoelectric sensor, the transmission device is connected with the sliding rail through a shaft, the cutting device is connected with the sliding rail and slides on the sliding rail, and the tail end of the sliding rail is fixedly connected with the anti-falling plug; the sliding rail is arc-shaped, the lower end of the sliding rail is fixedly connected with the lead screw nut, the fixing nut can be screwed into the sliding block to be in friction connection with the sliding rail, and the rotating shaft of the first motor can stretch out and draw back.

2. the engineered tile chamfer cutting device of claim 1, wherein: cutting device includes second ultrasonic sensor, water tank, fixation nut, tank lid, slider, water pump, blade disc, first motor and spray pipe, slider lower extreme and first motor fixed connection, first motor downside pivot department and blade disc fixed connection, it has fixation nut to twist on the slider, above the slider with water tank fixed connection, water tank upside opening to be covered with the tank lid, water tank upside and second ultrasonic sensor fixed connection, water tank side and water pump fixed connection, water pump and spray pipe fixed connection.

3. The engineered tile chamfer cutting device of claim 1, wherein: the transmission device comprises a screw base, a screw, a feed bar, a screw nut, a second motor base and a second motor, wherein the upper side of the screw base is in rolling connection with the head end of the screw, the lower side of the screw base is fixedly connected with the head end of the feed bar, the upper side of the screw nut is connected with the screw, the lower side of the screw nut is connected with the feed bar, the tail end of the screw is in rolling connection with the upper side of the second motor base, the tail end of the feed bar is fixedly connected with the second motor base, and the second motor base is fixedly connected with the second motor.

4. The engineered tile chamfer cutting device of claim 1, wherein: the first magnetic base and the second magnetic base can be freely fixed on the workbench.

5. The engineered tile chamfer cutting device of claim 1, wherein: the second photoelectric sensor base is fixed on the workbench through magnetic force.