CN218776686U - Cutting machine of adjustable tectorial membrane position - Google Patents

Abstract

The utility model provides a cutting machine of adjustable tectorial membrane position, includes first equipment base, second equipment base, a plurality of feeding roller, first rotating electrical machines, connecting axle, a plurality of slitting tool bit and second rotating electrical machines, still including connecting in the detection device and the controller of second equipment base, detection device includes first infrared sensor and second infrared sensor, first infrared sensor and second infrared sensor are located the left and right sides of second equipment base respectively, distance and the initial width size looks adaptation of tectorial membrane between first infrared sensor and the second infrared sensor, the left and right sides of second equipment base is equipped with the slip recess respectively, first equipment base sliding connection is in the slip recess, the axial direction of slip recess is parallel with the axial direction of feeding roller, still be equipped with driving motor on the first equipment base, driving motor, first infrared sensor and second infrared sensor are connected with the controller electricity respectively.

Description

Cutting machine of adjustable tectorial membrane position

Technical Field

The utility model relates to a cutting machine technical field especially relates to a cutting machine of adjustable tectorial membrane position.

Background

Along with the continuous development of the material level of people, the requirements of people on products are higher and higher, the products are required to have good quality, and the outer package of the products is required to be exquisite, so that various films are required to be pasted on product packages, in the process of producing the films, the steps of film covering, slitting, film covering, printing and the like are required to be performed.

Disclosure of Invention

In order to solve the problem, the utility model provides a can improve the cutting precision, avoid the wasting of resources, guarantee that this equipment can satisfy the cutting machine in adjustable tectorial membrane position of the processing demand of the tectorial membrane raw materials of not unidimensional.

The technical scheme of the utility model: the utility model provides a cutting machine of adjustable tectorial membrane position, includes first equipment base, second equipment base, connects in a plurality of feeding roller of first equipment base, is used for driving the rotatory first rotating electrical machines of feeding roller, connects in the connecting axle of second equipment base, fixed connection in a plurality of slitting tool bit of connecting axle and is used for driving the rotatory second rotating electrical machines of connecting axle, still including connecting in the detection device and the controller of second equipment base, detection device includes first infrared sensor and second infrared sensor, first infrared sensor and second infrared sensor are located the left and right sides of second equipment base respectively, distance and the initial width size looks adaptation of tectorial membrane between first infrared sensor and the second infrared sensor, the left and right sides of second equipment base is equipped with the slip recess respectively, first equipment base sliding connection is in the slip recess, the axial direction of slip recess is parallel with the axial direction of feeding roller, still be equipped with the driving motor who is used for driving first equipment base along the motion of slip recess axial direction on the first equipment base, driving motor, first equipment base and second infrared sensor are connected with the infrared sensor electricity respectively.

By adopting the technical scheme, when equipment is debugged, the controller controls the first rotating motor to drive the feeding roller to rotate, the coating film moves towards the direction of the slitting tool bit through the feeding roller, the controller controls the second rotating motor to drive the connecting shaft to rotate, the slitting tool bit slits the coating film, when the position of the coating film deviates, because the first infrared sensor and the second infrared sensor are respectively positioned at the left side and the right side of the second equipment base, and the distance between the first infrared sensor and the second infrared sensor is matched with the initial width of the coating film, if the coating film deviates towards the left side, the first infrared sensor senses that the coating film exceeds a preset position, the first infrared sensor sends an electric signal to the controller, the controller controls the driving motor to drive the first equipment base to slide along the right side for a certain distance, so that an infrared signal sent by the first infrared sensor is not blocked by the coating film, at the moment, the controller controls the driving motor to stop moving, the same reason is that if the coating film deviates towards the right side, the second infrared sensor exceeds the preset position, the second infrared sensor sends an electric signal to the controller, the controller controls the driving motor to drive the first equipment base to move along the first equipment base, so that the second equipment base to drive the coating film to move along the right side, the second infrared sensor to deviate, the laminating film does not to reduce the fine-cutting precision, and the cutting precision of the cutting error of the cutting machine is guaranteed, and the cutting error of the cutting machine is reduced by the cutting error, and the cutting error of the cutting machine.

The utility model discloses a further setting: still be equipped with the alarm on the second equipment base, the alarm is connected with the controller electricity, and when first infrared sensor and second infrared sensor sent the signal of telecommunication to the controller simultaneously, the controller control alarm was reported to the police.

Adopt above-mentioned technical scheme, because when first infrared sensor and second infrared sensor send the signal of telecommunication to the controller simultaneously, explain the width of tectorial membrane both sides is greater than the default of adding man-hour, prove that the tectorial membrane raw materials is just in process of production problem, at this moment, it can satisfy the processing demand hardly to make the tectorial membrane through the position of adjusting first equipment base, therefore, controller control alarm reports to the police, and simultaneously, first rotating electrical machines of controller control and second rotating electrical machines stop work, the staff carries out manual debugging back to the scene, continue to carry out tectorial membrane and cut work, can further improve like this and cut the precision, avoid equipment to break down.

The utility model discloses a further setting: the inner wall of the sliding groove is provided with two rubber cushion blocks, the two rubber cushion blocks are respectively positioned on the sliding grooves on two sides of the second equipment base, and the two rubber cushion blocks are positioned on one side, away from the center of the second equipment base, of the two sliding grooves.

By adopting the technical scheme, the rubber cushion blocks are arranged on the inner wall of the sliding groove, so that the situation that the first equipment base vibrates due to the fact that the first equipment base collides with the inner wall of the sliding groove when moving to two sides can be avoided, the relative position between the film coating and the feeding roller is influenced, and the slitting precision of the equipment is further improved.

The utility model discloses a further setting: the left and right sides of second equipment base is equipped with first sliding guide and second sliding guide respectively, be equipped with head rod and second connecting rod on first sliding guide and the second sliding guide respectively, head rod and second connecting rod are respectively through first servo motor and second servo motor drive, first servo motor and second servo motor are connected with the controller electricity respectively, the direction of motion of head rod and second connecting rod is parallel with the axial direction of feeding roller, first infrared sensor and second infrared sensor are fixed connection in head rod and second connecting rod respectively.

Adopt above-mentioned technical scheme, because the size of tectorial membrane feeding probably exists the difference, consequently, drive head rod and second connecting rod along first sliding guide and second sliding guide motion respectively through first servo motor of controller control and second servo motor, thereby the position of adjustment head rod and second connecting rod, because first infrared sensor and second infrared sensor fixed connection respectively in head rod and second connecting rod, consequently, first infrared sensor and second infrared sensor's interval also obtains the adjustment, just so can guarantee that this equipment can adapt to the not work of cutting of unidimensional tectorial membrane, further reduce the wasting of resources.

Drawings

Fig. 1 is the utility model discloses a structural schematic of cutting machine of adjustable tectorial membrane position of embodiment.

1-a first equipment base, 2-a second equipment base, 3-a feeding roller, 4-a first rotating motor, 5-a connecting shaft, 6-a slitting cutter head, 7-a second rotating motor, 8-a detection device, 9-a controller, 10-a first infrared sensor, 11-a second infrared sensor, 12-a sliding groove, 13-a driving motor, 14-an alarm, 15-a rubber cushion block, 16-a first sliding guide rail, 17-a second sliding guide rail, 18-a first connecting rod, 19-a second connecting rod, 20-a first servo motor and 21-a second servo motor.

Detailed Description

As shown in fig. 1, a slitting machine capable of adjusting a film laminating position comprises a first device base 1, a second device base 2, a plurality of feeding rollers 3 connected to the first device base 1, a first rotating motor 4 used for driving the feeding rollers 3 to rotate, a plurality of slitting cutters 6 connected to the connecting shafts 5 of the second device base 2, and a second rotating motor 7 used for driving the connecting shafts 5 to rotate, wherein the slitting machine further comprises a detection device 8 connected to the second device base 2 and a controller 9, the detection device 8 comprises a first infrared sensor 10 and a second infrared sensor 11, the first infrared sensor 10 and the second infrared sensor 11 are respectively located on the left side and the right side of the second device base 2, the distance between the first infrared sensor 10 and the second infrared sensor 11 is matched with the size of the initial film laminating width, sliding grooves 12 are respectively arranged on the left side and the right side of the second device base 2, the first device base 1 is slidably connected to the sliding grooves 12, the axial direction of the sliding grooves 12 is parallel to the axial direction of the feeding rollers 3, a sliding groove 12 and a driving motor 13 used for driving the first device base 1 to be electrically connected to the driving motor 13, and a driving motor 13 for controlling the driving the infrared sensor 11 and the infrared sensor 11.

When the equipment is debugged, the controller 9 controls the first rotating motor 4 to drive the feeding roller 3 to rotate, a film passes through the feeding roller 3 to move towards the slitting tool bit 6, the controller 9 controls the second rotating motor 7 to drive the connecting shaft 5 to rotate, the slitting tool bit 6 slits the film, when the position of the film deviates, because the first infrared sensor 10 and the second infrared sensor 11 are respectively positioned at the left side and the right side of the second equipment base 2, and the distance between the first infrared sensor 10 and the second infrared sensor 11 is matched with the initial width of the film, if the film deviates towards the left side, the first infrared sensor 10 senses that the film exceeds a preset position, the first infrared sensor 10 sends an electric signal to the controller 9, the controller 9 controls the driving motor 13 to drive the first equipment base 1 to slide along the right side for a certain distance, so that an infrared signal sent by the first infrared sensor 10 is not blocked by the film, at this moment, the controller 9 controls the driving motor 13 to stop moving, and the like, if the film deviates towards the right side, the second infrared sensor 11 exceeds the preset position, the second infrared sensor 11 sends an electric signal, the controller 9 controls the first infrared sensor to drive the film to drive the slitting tool base 9 to drive the slitting tool base to drive the film, so that the slitting tool bit to drive the first infrared sensor 13 to stop moving, and the cutting machine to reduce the precision of the cutting machine, and further reduce the precision of the cutting machine.

Still be equipped with alarm 14 on the second equipment base 2, alarm 14 is connected with controller 9 electricity, and when first infrared sensor 10 and second infrared sensor 11 sent the signal of telecommunication to controller 9 simultaneously, controller 9 control alarm 14 reports to the police.

Because when first infrared sensor 10 and second infrared sensor 11 send the signal of telecommunication to controller 9 simultaneously, explain the width of tectorial membrane both sides is greater than the default of adding man-hour, prove that tectorial membrane raw materials is just problematic in the production process, at this moment, it can satisfy the processing demand to hardly make the tectorial membrane through the position of adjustment first equipment base 1, therefore, controller 9 control alarm 14 reports to the police, and simultaneously, controller 9 control first rotating electrical machines 4 and second rotating electrical machines 7 stop work, after the staff arrives the scene and carries out manual debugging, continue to carry out tectorial membrane cutting work, can further improve cutting precision like this, avoid equipment to break down.

The inner wall of the sliding groove 12 is provided with two rubber cushion blocks 15, the number of the rubber cushion blocks 15 is two, the two rubber cushion blocks 15 are respectively positioned on the sliding grooves 12 on two sides of the second equipment base 2, and the two rubber cushion blocks 15 are positioned on one side of the two sliding grooves 12 away from the central position of the second equipment base 2.

Because the inner wall of the sliding groove 12 is provided with the rubber cushion block 15, the first equipment base 1 can be prevented from vibrating due to the fact that the first equipment base 1 collides with the inner wall of the sliding groove 12 when moving to two sides, so that the relative position between the film coating and the feeding roller 3 is influenced, and the slitting precision of the equipment is further improved.

The left and right sides of second equipment base 2 is equipped with first sliding guide 16 and second sliding guide 17 respectively, be equipped with head rod 18 and second connecting rod 19 on first sliding guide 16 and the second sliding guide 17 respectively, head rod 18 and second connecting rod 19 are respectively through first servo motor 20 and the drive of second servo motor 21, first servo motor 20 and second servo motor 21 are connected with controller 9 electricity respectively, the direction of motion of head rod 18 and second connecting rod 19 is parallel with the axial direction of feed roller 3, first infrared sensor 10 and second infrared sensor 11 are fixed connection in head rod 18 and second connecting rod 19 respectively.

Because the size of tectorial membrane feeding probably has the difference, consequently, drive first connecting rod 18 and second connecting rod 19 along first sliding guide 16 and second sliding guide 17 motion respectively through controller 9 control first servo motor 20 and second servo motor 21 to the position of adjustment first connecting rod 18 and second connecting rod 19, because first infrared sensor 10 and second infrared sensor 11 are fixed connection in first connecting rod 18 and second connecting rod 19 respectively, consequently, the interval of first infrared sensor 10 and second infrared sensor 11 also obtains adjusting, just so can guarantee that this equipment can adapt to the work of cutting of the tectorial membrane of different sizes, further reduce the wasting of resources.

Claims (4)

1. The utility model provides a cutting machine of adjustable tectorial membrane position, includes first equipment base, second equipment base, connects in a plurality of feeding roller of first equipment base, is used for the rotatory first rotating electrical machines of drive feeding roller, connects in the connecting axle of second equipment base, fixed connection in a plurality of connecting axle cut the tool bit and be used for driving the rotatory second rotating electrical machines of connecting axle, its characterized in that: still including connecting in the detection device and the controller of second equipment base, detection device includes first infrared sensor and second infrared sensor, first infrared sensor and second infrared sensor are located the left and right sides of second equipment base respectively, distance and the initial width size looks adaptation of tectorial membrane between first infrared sensor and the second infrared sensor, the left and right sides of second equipment base is equipped with the slip recess respectively, first equipment base sliding connection is in the slip recess, the axial direction of slip recess is parallel with the axial direction of feeding roller, still be equipped with the driving motor who is used for driving first equipment base along the motion of slip recess axial direction on the first equipment base, driving motor, first infrared sensor and second infrared sensor are connected with the controller electricity respectively.

2. A slitting machine capable of adjusting the position of a mulching film according to claim 1, wherein: still be equipped with the alarm on the second equipment base, the alarm is connected with the controller electricity, and when first infrared sensor and second infrared sensor sent the signal of telecommunication to the controller simultaneously, the controller control alarm was reported to the police.

3. A slitting machine capable of adjusting the position of a mulching film according to claim 1, wherein: the inner wall of the sliding groove is provided with two rubber cushion blocks, the two rubber cushion blocks are respectively positioned on the sliding grooves on two sides of the second equipment base, and the two rubber cushion blocks are positioned on one side, away from the center of the second equipment base, of the two sliding grooves.

4. A slitting machine capable of adjusting the position of a mulching film according to claim 1, wherein: the left and right sides of second equipment base is equipped with first sliding guide and second sliding guide respectively, be equipped with head rod and second connecting rod on first sliding guide and the second sliding guide respectively, head rod and second connecting rod are respectively through first servo motor and second servo motor drive, first servo motor and second servo motor are connected with the controller electricity respectively, the direction of motion of head rod and second connecting rod is parallel with the axial direction of feeding roller, first infrared sensor and second infrared sensor are fixed connection in head rod and second connecting rod respectively.

Images