CN114906662B - Compression process based on conveying mechanism of longitudinal and transverse sand paper cutting machine - Google Patents

Abstract

The invention discloses a compression process based on a conveying mechanism of a longitudinal and transverse sand paper cutting machine, which comprises the following steps of: s1, mounting a sand paper coiled material on a material placing rack of a longitudinal and transverse sand paper cutting machine, and then mounting the end of the sand paper coiled material on a conveying assembly of the longitudinal and transverse sand paper cutting machine; s2, manually adjusting a pinch roller of the conveying assembly to enable the pinch roller to contact the upper surface of the sand paper coiled material; s3, starting a conveying assembly of the longitudinal and transverse sand paper cutting machine, and observing sand paper; s4, carrying out sand paper conveying, and observing the sand paper in the step S3 every 20M; s5, repeating the operations of the steps S1-S4 after the completion of dismantling and cutting each roll of sand paper roll. According to the invention, the visual observation system is adopted to observe the sand paper, when the sand paper does not move, skid or indentation, the alarm system is activated to alarm, and the screw is driven to rotate by the manual or forward-reverse rotation motor, so that the height of the pinch roller is adjusted more conveniently, and the manual adjustment by feeling is avoided, so that the accuracy of adjusting is higher.

Description

Compression process based on conveying mechanism of longitudinal and transverse sand paper cutting machine

Technical Field

The invention belongs to the technical field of biology, and particularly relates to a compression process based on a conveying mechanism of a longitudinal and transverse sand paper cutting machine.

Background

When the abrasive paper is processed, the abrasive paper needs to be cut according to actual needs, wherein the abrasive paper cutting machine is one of the conventional abrasive paper cutting equipment, and when the conveying mechanism of the abrasive paper cutting machine conveys the abrasive paper, the abrasive paper needs to be pressed on the belt conveyor by the pressing roller in order to ensure that the abrasive paper can move, the pressing force is insufficient to cause the abrasive paper to slip when the pressing roller is pressed, the cutting size is directly influenced, and the pressing force is excessive to cause the abrasive paper to be crushed on a grinding surface to form an indentation, so that the compression process based on the conveying mechanism of the abrasive paper cutting machine is provided.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a compression process based on a conveying mechanism of a longitudinal and transverse sand paper cutting machine.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a compression process based on a conveying mechanism of a longitudinal and transverse sand paper cutting machine comprises the following steps:

s1, mounting a sand paper coiled material on a material placing rack of a longitudinal and transverse sand paper cutting machine, and then mounting the end part of the sand paper coiled material on a conveying assembly of the longitudinal and transverse sand paper cutting machine;

s2, manually adjusting a pinch roller of the conveying assembly to enable the pinch roller to contact the upper surface of the sand paper coiled material;

s3, starting a conveying assembly of the longitudinal and transverse sand paper cutting machine, and observing sand paper, wherein the specific conditions are as follows:

1) The sand paper does not move, the conveying assembly of the vertical and horizontal sand paper cutting machine is suspended, the pressing roller of the conveying assembly is manually adjusted to ascend, then the conveying assembly of the vertical and horizontal sand paper cutting machine is started again, whether the sand paper moves or not is observed, and if the sand paper does not move, the pressing roller is repeatedly adjusted to ascend until the sand paper moves;

2) The sand paper moves, and simultaneously the pinch roller of the conveying assembly is manually adjusted to descend along with the slipping condition, then the conveying assembly of the longitudinal and transverse sand paper cutting machine is started again, whether slipping occurs or not is observed, and if slipping occurs, the pinch roller is repeatedly adjusted until the sand paper does not slip;

3) The sand paper moves, meanwhile, the pressing roller of the conveying assembly is manually adjusted to ascend, then the conveying assembly of the longitudinal and transverse sand paper cutting machine is started again, whether the sand paper moves or not and whether the pressing roller of the conveying assembly is still present or not is observed, if the sand paper slides, the pressing roller of the conveying assembly is manually adjusted to descend, and if the pressing roller of the conveying assembly is still present, the pressing roller of the conveying assembly is manually adjusted to ascend;

s4, carrying out sand paper conveying, and observing the sand paper in the step S3 every 20M;

s5, repeating the operations of the steps S1-S4 after the completion of dismantling and cutting each roll of sand paper roll.

Preferably, the material placing frame of the longitudinal and transverse sand paper cutting machine in step S1 includes:

two groups of bases and two groups of support columns symmetrically arranged on the bases;

the rollers are respectively arranged at the upper ends of the two groups of support columns, and each group of support columns is provided with two groups of rollers;

the sand paper coiled material is placed on the installation rod, wherein the installation rod is placed on the support column, two ends of the installation rod are located between the two groups of rollers, and the sand paper coiled material is placed on the installation rod.

Preferably, the conveying assembly of step S2 includes:

the belt conveyor, be provided with two sets of branches on the lateral wall of belt conveyor, the bar hole has all been seted up on two sets of branch lateral walls, and two sets of all seted up the screw hole on the branch, the screw hole in the inside intercommunication of bar hole, the inside threaded connection of screw hole has the screw rod, and the one end of screw rod in the downthehole wall rotation of bar is connected, the both ends of pinch roller all are provided with the plug block, the screw has been seted up on the plug block, the screw rod in screw threaded connection, the plug block slip peg graft in the downthehole portion of bar.

Preferably, a rotating assembly for rotating the screw is arranged at the upper end of the screw, and the rotating assembly is one of a forward and reverse rotating motor or a screwing block.

Preferably, the observation coated abrasive in step S3 is observed by a visual observation system, the visual observation system comprising:

the panoramic vision image acquisition subsystem comprises a hyperboloid reflector, an imaging lens and a panoramic camera, wherein the imaging lens is arranged on the panoramic camera, and the hyperboloid reflector is arranged above the imaging lens, so that the panoramic camera can shoot a range of 360 degrees in the horizontal direction and not less than 180 degrees in the vertical direction.

Preferably, the conventional visual angle image acquisition subsystem comprises a mounting frame, an industrial camera is mounted on the mounting frame, the conventional visual angle image acquisition subsystem is fixed at the top of the panoramic visual image acquisition subsystem, the embedded image acquisition processing and data transmission subsystem is respectively connected with the panoramic visual image acquisition subsystem and the conventional visual angle image acquisition subsystem, acquires and outputs image information of the panoramic camera and the industrial camera, and sends control commands to the panoramic camera and the industrial camera.

Preferably, the panoramic vision image acquisition subsystem further comprises:

the dustproof and waterproof glass shield, hyperboloid speculum, imaging lens, panoramic camera are all installed inside dustproof and waterproof glass shield.

Preferably, the visual observation system further comprises:

an alarm system, the alarm system comprising:

the intelligent panoramic vision image acquisition system is characterized in that at least one output port of the PLC is connected with an alarm unit, the alarm unit comprises a terminal strip connected with the output port of the PLC, the PLC is connected with an intermediate relay in the alarm unit through the terminal strip, an auxiliary contact of the intermediate relay is connected with an audible and visual alarm device, and the intermediate relay and the PLC form a loop.

Preferably, different output ports of the PLC are respectively connected with alarm units, and audible and visual alarm devices of the alarm units can respectively prompt different information.

The invention has the technical effects and advantages that: compared with the traditional compression process, the compression process based on the conveying mechanism of the longitudinal and transverse sand paper cutting machine provided by the invention adopts the visual observation system to observe the sand paper, when the sand paper does not move, slips or is indented, the alarm system is activated to alarm, and the screw is driven to rotate by a manual or positive and negative rotation motor, so that the height of the compaction roller is more convenient to adjust, and the manual dependence on the sense of adjustment precision is avoided.

Drawings

Fig. 1 is a production process flow chart of a compression process based on a conveying mechanism of a longitudinal and transverse sand paper cutting machine.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a compression process based on a conveying mechanism of a longitudinal and transverse sand paper cutting machine as shown in fig. 1, which is characterized by comprising the following steps:

s1, mounting a sand paper coiled material on a material placing rack of a longitudinal and transverse sand paper cutting machine, and then mounting the end part of the sand paper coiled material on a conveying assembly of the longitudinal and transverse sand paper cutting machine;

further, the material placement frame of the longitudinal and transverse sand paper cutting machine in the step S1 includes:

two groups of bases and two groups of support columns symmetrically arranged on the bases;

the rollers are respectively arranged at the upper ends of the two groups of support columns, and each group of support columns is provided with two groups of rollers;

the mounting rods are arranged on the support columns, the two ends of each mounting rod are positioned between the two groups of rollers, and the sand paper coiled material is arranged on the mounting rods;

s2, manually adjusting a pinch roller of the conveying assembly to enable the pinch roller to contact the upper surface of the sand paper coiled material;

the conveying assembly of step S2 includes:

further, the side wall of the belt conveyor is provided with two groups of supporting rods, the side walls of the two groups of supporting rods are provided with strip-shaped holes, the two groups of supporting rods are provided with threaded holes, the threaded holes are communicated with the inside of the strip-shaped holes, the threaded holes are internally connected with screw rods in a threaded manner, one ends of the screw rods are rotationally connected with the inner walls of the strip-shaped holes, the two ends of the compression roller are provided with plug-in blocks, the plug-in blocks are provided with screw holes, the screw rods are in threaded connection with the screw holes, and the plug-in blocks are in sliding plug-in connection with the inside of the strip-shaped holes;

the upper end of the screw rod is provided with a rotating assembly for rotating the screw rod, and the rotating assembly is one of a forward and reverse rotating motor or a screwing block;

s3, starting a conveying assembly of the longitudinal and transverse sand paper cutting machine, and observing sand paper, wherein the specific conditions are as follows:

1) The sand paper does not move, the conveying assembly of the vertical and horizontal sand paper cutting machine is suspended, the pressing roller of the conveying assembly is manually adjusted to ascend, then the conveying assembly of the vertical and horizontal sand paper cutting machine is started again, whether the sand paper moves or not is observed, and if the sand paper does not move, the pressing roller is repeatedly adjusted to ascend until the sand paper moves;

2) The sand paper moves, and simultaneously the pinch roller of the conveying assembly is manually adjusted to descend along with the slipping condition, then the conveying assembly of the longitudinal and transverse sand paper cutting machine is started again, whether slipping occurs or not is observed, and if slipping occurs, the pinch roller is repeatedly adjusted until the sand paper does not slip;

3) The sand paper moves, meanwhile, the pressing roller of the conveying assembly is manually adjusted to ascend, then the conveying assembly of the longitudinal and transverse sand paper cutting machine is started again, whether the sand paper moves or not and whether the pressing roller of the conveying assembly is still present or not is observed, if the sand paper slides, the pressing roller of the conveying assembly is manually adjusted to descend, and if the pressing roller of the conveying assembly is still present, the pressing roller of the conveying assembly is manually adjusted to ascend;

further, the observation sand paper in step S3 is observed by a visual observation system, which includes:

the panoramic vision image acquisition subsystem comprises a hyperboloid reflector, an imaging lens and a panoramic camera, wherein the imaging lens is arranged on the panoramic camera, and the hyperboloid reflector is arranged above the imaging lens, so that the panoramic camera can shoot a range of 360 degrees in the horizontal direction and not less than 180 degrees in the vertical direction;

specifically, conventional visual angle image acquisition subsystem includes the mounting bracket, installs industrial camera on the mounting bracket, and conventional visual angle image acquisition subsystem is fixed at panorama visual image acquisition subsystem top, and embedded image acquisition processing and data transmission subsystem connect panorama visual image acquisition subsystem and conventional visual angle image acquisition subsystem respectively, gather and output panorama camera and industrial camera image information and send control command to panorama camera and industrial camera, panorama visual image acquisition subsystem still includes:

the hyperboloid reflector, the imaging lens and the panoramic camera are all arranged in the dustproof and waterproof glass shield;

illustratively, the visual inspection system further comprises:

an alarm system, the alarm system comprising:

the system is characterized in that at least one output port of the PLC is connected with an alarm unit, the alarm unit comprises a terminal row connected with the output port of the PLC, the PLC is connected with an intermediate relay in the alarm unit through the terminal row, an auxiliary contact of the intermediate relay is connected with an audible and visual alarm device, the intermediate relay and the PLC form a loop, different output ports of the PLC are respectively connected with the alarm unit, and the audible and visual alarm devices of the alarm units can respectively prompt different information;

s4, carrying out sand paper conveying, and observing the sand paper in the step S3 every 20M;

s5, repeating the operations of the steps S1-S4 after the completion of dismantling and cutting each roll of sand paper roll.

To sum up: according to the invention, the visual observation system is adopted to observe the sand paper, when the sand paper does not move, skid or indentation, the alarm system is activated to alarm, and the screw is driven to rotate by the manual or forward-reverse rotation motor, so that the height of the pinch roller is adjusted more conveniently, and the manual adjustment by feeling is avoided, so that the accuracy of adjusting is higher.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (4)

1. The compression process based on the conveying mechanism of the longitudinal and transverse sand paper cutting machine is characterized by comprising the following steps of:

s1, mounting a sand paper coiled material on a material placing rack of a longitudinal and transverse sand paper cutting machine, and then mounting the end part of the sand paper coiled material on a conveying assembly of the longitudinal and transverse sand paper cutting machine; the material placing rack of the longitudinal and transverse sand paper cutting machine in the step S1 comprises:

two groups of bases and two groups of support columns symmetrically arranged on the bases;

the rollers are respectively arranged at the upper ends of the two groups of support columns, and each group of support columns is provided with two groups of rollers;

the mounting rods are arranged on the support columns, the two ends of each mounting rod are positioned between the two groups of rollers, and the sand paper coiled material is arranged on the mounting rods;

s2, manually adjusting a pinch roller of the conveying assembly to enable the pinch roller to contact the upper surface of the sand paper coiled material; the conveying assembly of step S2 includes:

the belt conveyor is characterized in that two groups of supporting rods are arranged on the side wall of the belt conveyor, strip-shaped holes are formed in the side walls of the two groups of supporting rods, threaded holes are formed in the two groups of supporting rods, the threaded holes are communicated with the inside of the strip-shaped holes, a screw is connected with the inside of the threaded holes in a threaded manner, one end of the screw is rotatably connected with the inner wall of the strip-shaped holes, plug-in blocks are arranged at the two ends of the compaction roller, screw holes are formed in the plug-in blocks, the screw is in threaded connection with the screw holes, and the plug-in blocks are in sliding plug-in connection with the inside of the strip-shaped holes; the upper end of the screw is provided with a rotating assembly for rotating the screw, and the rotating assembly is one of a forward and reverse rotating motor or a hand twisting block;

s3, starting a conveying assembly of the longitudinal and transverse sand paper cutting machine, and observing sand paper, wherein the specific conditions are as follows:

1) The sand paper does not move, the conveying assembly of the vertical and horizontal sand paper cutting machine is suspended, the pressing roller of the conveying assembly is manually adjusted to ascend, then the conveying assembly of the vertical and horizontal sand paper cutting machine is started again, whether the sand paper moves or not is observed, and if the sand paper does not move, the pressing roller is repeatedly adjusted to ascend until the sand paper moves;

2) The sand paper moves, and simultaneously the pinch roller of the conveying assembly is manually adjusted to descend along with the slipping condition, then the conveying assembly of the longitudinal and transverse sand paper cutting machine is started again, whether slipping occurs or not is observed, and if slipping occurs, the pinch roller is repeatedly adjusted until the sand paper does not slip;

3) The sand paper moves, meanwhile, the pressing roller of the conveying assembly is manually adjusted to ascend, then the conveying assembly of the longitudinal and transverse sand paper cutting machine is started again, whether the sand paper moves or not and whether the pressing roller of the conveying assembly is still present or not is observed, if the sand paper slides, the pressing roller of the conveying assembly is manually adjusted to descend, and if the pressing roller of the conveying assembly is still present, the pressing roller of the conveying assembly is manually adjusted to ascend;

the observation sandpaper in step S3 is observed by a visual observation system, which includes:

the panoramic vision image acquisition subsystem comprises a hyperboloid reflector, an imaging lens and a panoramic camera, wherein the imaging lens is arranged on the panoramic camera, and the hyperboloid reflector is arranged above the imaging lens, so that the panoramic camera can shoot a range of 360 degrees in the horizontal direction and not less than 180 degrees in the vertical direction;

the visual observation system further comprises:

an alarm system, the alarm system comprising:

the system is characterized in that at least one output port of the PLC is connected with an alarm unit, the alarm unit comprises a terminal row connected with the output port of the PLC, the PLC is connected with an intermediate relay in the alarm unit through the terminal row, an auxiliary contact of the intermediate relay is connected with an audible and visual alarm device, and the intermediate relay and the PLC form a loop;

s4, carrying out sand paper conveying, and observing the sand paper in the step S3 every 20M;

s5, repeating the operations of the steps S1-S4 after the completion of dismantling and cutting each roll of sand paper roll.

2. A compression process based on a conveying mechanism of a longitudinal and transverse sand paper cutting machine as claimed in claim 1, wherein: the conventional visual angle image acquisition subsystem comprises a mounting frame, an industrial camera is mounted on the mounting frame, the conventional visual angle image acquisition subsystem is fixed at the top of the panoramic visual image acquisition subsystem, the embedded image acquisition processing and data transmission subsystem is respectively connected with the panoramic visual image acquisition subsystem and the conventional visual angle image acquisition subsystem, acquires and outputs image information of the panoramic camera and the industrial camera, and sends control commands to the panoramic camera and the industrial camera.

3. A compression process based on a conveying mechanism of a longitudinal and transverse sand paper cutting machine as claimed in claim 1, wherein: the panoramic vision image acquisition subsystem further comprises:

the dustproof and waterproof glass shield, hyperboloid speculum, imaging lens, panoramic camera are all installed inside dustproof and waterproof glass shield.

4. A compression process based on a conveying mechanism of a longitudinal and transverse sand paper cutting machine as claimed in claim 1, wherein: different output ports of the PLC are respectively connected with alarm units, and audible and visual alarm devices of the alarm units can respectively prompt different information.