CN113001014B - A cigarette cartridge tube product code anti-counterfeiting marking production line and processing method thereof - Google Patents

Abstract

The invention discloses an anti-counterfeiting marking production line for commodity codes of a cigarette bullet tube and a processing method thereof, wherein the production line comprises a runner, the runner consists of parallel guide strips, and the runner plays a role in guiding a carrier; the flow channel is sequentially divided into a feeding section, a marking section and a discharging section, buffer conveyor belts are arranged below the feeding section and the discharging section flow channel, a group of laser marking machines are symmetrically arranged on two sides of the marking section flow channel, a material distributing mechanism is arranged at a discharging hole of the feeding section flow channel and used for judging whether a current carrier enters the marking section, a feeding roller is arranged at a feeding hole of the marking section flow channel, a positioning mechanism is arranged in the middle of the marking section flow channel, and a conveying mechanism is arranged below the marking section flow channel and used for conveying the carrier to the positioning mechanism. The invention also provides a corresponding production line and a using method thereof. The marking production line and the processing method thereof are convenient in marking, high in efficiency and good in marking effect.

Description

Cigarette bullet tube commodity code anti-counterfeiting marking production line and processing method thereof

Technical Field

The invention relates to the technical field of cooling systems, in particular to an anti-counterfeiting marking production line for a commodity code of a cartridge tube and a processing method thereof.

Background

To reduce harm to physical health, more and more smokers use electronic cigarettes instead of cigarettes. Electronic cigarettes are of various kinds, and manufacturers often set commodity codes on the cartridge tubes in order to distinguish them from each other. The commodity code is divided into spray printing, paper pasting and laser engraving, and the spray printing and paper pasting modes are gradually eliminated due to complicated process and long operation time. However, the laser engraving of the cartridge tube usually requires manual clamping, which is dangerous, and has poor positioning reference, low operation efficiency and poor engraving effect.

Disclosure of Invention

The invention aims to provide an anti-counterfeiting marking production line for a commodity code of a cigarette bomb tube and a processing method thereof, which are used for solving the problems of poor laser engraving positioning, low efficiency and poor engraving effect.

The invention provides an anti-counterfeiting marking production line for cigarette bullet tube commodity codes, which comprises a runner, wherein the runner is composed of parallel guide strips, the runner has a guiding function on a carrier, the runner is sequentially divided into a feeding section, a marking section and a discharging section, buffer conveyor belts are arranged below the feeding section runner and the discharging section runner, a group of laser marking machines are symmetrically arranged on two sides of the marking section runner, a material distributing mechanism is arranged at a discharging hole of the feeding section runner and used for judging whether the current carrier enters the marking section, a feeding roller is arranged at a feeding hole of the marking section runner and driven by a stepping motor, a positioning mechanism is arranged in the middle of the marking section runner and used for precisely positioning the carrier, and a conveying mechanism is arranged below the marking section runner and used for conveying the carrier to the positioning mechanism.

Preferably, the material distributing mechanism comprises a blocking cylinder and a material shortage detecting probe, wherein the material shortage detecting probe is closer to a discharge port of the feeding section flow channel than the blocking cylinder, the blocking cylinder is used for propping the carrier against the feeding section flow channel, and the material shortage detecting probe is used for judging whether the carrier is stopped at the discharge port of the feeding section flow channel.

Preferably, the positioning mechanism comprises a clamping cylinder and a positioning cylinder, wherein the positioning cylinder is closer to the discharge port of the marking section runner than the clamping cylinder, the clamping cylinder is used for propping the carrier against the marking section runner, and the positioning cylinder is used for intercepting and precisely positioning the carrier of the marking section runner.

The lifting mechanism comprises a lifting cylinder and a U-shaped clamp, the bottom of the lifting cylinder is fixed on the sliding plate, the middle of the bottom of the clamp is fixed on the lifting cylinder, and the clamps after lifting are clamped at two ends of the carrier.

Preferably, the distance between the blocking cylinder and the defect detecting probe is greater than one time of the carrier length and less than two times of the carrier length.

Preferably, a visual detection mechanism is further arranged at the tail end of the marking section flow channel.

Preferably, the guide strip is fixed by an adjustable locating pin.

Preferably, a reflux conveyor belt is arranged below the runner, the reflux conveyor belt is arranged below the buffer conveyor belt, two ends of the reflux conveyor belt exceed the buffer conveyor belt, and the running directions of the reflux conveyor belt and the buffer conveyor belt are opposite.

An anti-counterfeiting marking method for a commodity code of a cartridge tube comprises the following steps:

S1, filling a carrier, and then placing the carrier on a buffer conveyor belt of a runner of a feeding section;

S2, a carrier enters a material distributing mechanism of a material feeding section runner, a material shortage detection probe of the material distributing mechanism detects whether the carrier stays at the tail end of the material feeding section runner, and when the carrier stays, the carrier smoothly enters a marking section runner;

S3, after the carrier enters the marking section runner, a feeding roller at the inlet end of the marking section runner is started to feed the carrier into the marking section runner, and meanwhile, the next carrier is clamped at the inlet of the marking section runner;

S4, after the carrier passes through the feeding roller, starting a conveying mechanism below the marking section flow channel, jacking the clamp by a jacking mechanism of the conveying mechanism, and clamping two ends of the clamp at two ends of the carrier;

s5, a positioning cylinder of the positioning mechanism intercepts the carrier, and then the clamping cylinder tightly supports the carrier on the runner to wait for marking;

S6, carrying out marking operation on the outer wall and the inner wall of the cigarette bullet tube on the carrier at the same time by a plurality of groups of laser marking heads of the laser marking machine after the carrier is propped against;

S7, finishing marking, loosening the carrier by the positioning mechanism, and waiting for the next carrier to enter;

S8, continuously advancing a carrier of the extrusion positioning mechanism, gradually entering a flow passage of a discharging section, and waiting for sorting the cartridge tubes;

S9, the sorted carriers are put into the reflow conveyor belt again, and are conveyed to the lower portion of the flow channel of the feeding section by the reflow conveyor belt, and the next round of cigarette bullet pipe is waited for filling.

The cigarette bullet tube commodity code anti-counterfeiting marking production line and the processing method thereof have the advantages that automation is realized in the whole marking process, multiple groups of laser marking heads are used for marking simultaneously, manual holding is not needed, and marking efficiency is remarkably improved. The machine positioning replaces manual positioning, the engraving precision is obviously improved, and the marking effect is greatly improved.

Drawings

FIG. 1 is a top view of the overall structure of an embodiment of the present invention;

FIG. 2 is a workflow diagram of an embodiment of the present invention;

FIG. 3 is a schematic structural view of a runner of a feeding section according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of a flow channel feed inlet of a feeding section according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a discharge port of a runner of a feeding section according to an embodiment of the present invention;

FIG. 6 is a top view of a marking section flow path according to an embodiment of the present invention;

FIG. 7 is a front side elevational view of a marking section runner according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a positioning mechanism according to an embodiment of the present invention;

FIG. 9 is a schematic structural view of a flow channel feed inlet of a marking section according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of a conveying mechanism according to an embodiment of the present invention;

Fig. 11 is a schematic diagram of a conveying state of a conveying mechanism according to an embodiment of the present invention.

Reference numerals

1. The device comprises a backflow conveyor belt, a buffer conveyor belt, a material distributing mechanism, a marking section runner, a visual detection mechanism, a driving motor, a carrier, a runner, a blocking cylinder, a locating pin, a material shortage detection probe, a feeding roller, a clamping cylinder, a locating cylinder, a 16, a pad seat, a 17, a lifting cylinder, a 18, a clamp, a 19, a servo motor, a 20, a cartridge tube and a 21 linear module, wherein the backflow conveyor belt, the buffer conveyor belt, the material distributing mechanism, the marking section runner, the visual detection mechanism, the driving motor, the carrier, the runner, the blocking cylinder, the locating pin, the material shortage detection probe, the feeding roller, the 14, the clamping cylinder, the 15, the locating cylinder, the 16, the pad seat, the 17 and the lifting cylinder, the 18, the clamp, the servo motor, the 20 and the cartridge tube.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings and examples.

The commodity code anti-counterfeiting marking production line for the cigarette bomb tube comprises a runner 9, wherein the runner 9 consists of parallel guide strips, and the runner 9 plays a role in guiding a carrier 8. The guide strips are fixed by adjustable locating pins 11, and the width of the flow channel 9 can be adjusted by adjusting the locating pins 11.

The runner 9 is divided into a feeding section, a marking section and a discharging section in sequence, a buffer conveyer belt 2 is arranged below the feeding section runner and the discharging section runner, and a group of laser marking machines are symmetrically arranged on two sides of the marking section runner 4. The marking section runner 4 is suspended by a cushion seat 16.

The discharge port department of feed section runner is provided with feed divider 3, and feed divider 3 is used for judging current carrier 8 whether gets into marking section. The material distributing mechanism 3 comprises a blocking cylinder 10 and a material shortage detecting probe 12, wherein the material shortage detecting probe 12 is closer to a discharge port of the flow passage of the feeding section than the blocking cylinder 10. The blocking cylinder 10 is used for propping the carrier 8 against the flow passage of the feeding section, and the material shortage detection probe 12 is used for judging whether the carrier 8 is remained at the discharge port of the flow passage of the feeding section. The distance between the blocking cylinder 10 and the material shortage detection probe 12 is greater than the length of the carrier 8 by one time and less than the length of the carrier 8 by two times, so that the judgment of the carrier 8 is convenient, and repeated detection is prevented.

A feeding roller 13 is arranged at the feeding port of the marking section runner 4, and the feeding roller 13 is driven by a stepping motor. The stepping motor controls feeding and distributing through the rotation angle, rotates for a designated number of weeks, sends the current carrier 8 into the marking section runner 4, and then stays for a period of time. In the stopping process of the stepping motor, the next carrier 8 is clamped at the inlet of the marking section runner 4, so that the subsequent carriers 8 are blocked in a unified way.

The middle part of the marking section runner 4 is provided with a positioning mechanism which is used for precisely positioning the carrier 8. The positioning mechanism comprises a clamping cylinder 14 and a positioning cylinder 15, and the positioning cylinder 15 is closer to the discharge port of the marking section runner 4 than the clamping cylinder 14. The clamping cylinder 14 is used for propping the carrier 8 against the marking section runner 4, and the positioning cylinder 15 is used for intercepting and precisely positioning the carrier 8 of the marking section runner 4.

A conveying mechanism is arranged below the marking section runner 4 and is used for conveying the carrier 8 to a positioning mechanism. The conveying mechanism comprises a linear module 21 and a jacking mechanism, and the jacking mechanism reciprocates along the length direction of the linear module 21. The linear module 21 comprises a servo motor 19 and a threaded rod, wherein the threaded rod is fixed on an output shaft of the servo motor 19, and a sliding plate is connected to the threaded rod in a threaded manner. The jacking mechanism comprises a jacking air cylinder 17 and a U-shaped clamp 18, and the bottom of the jacking air cylinder 17 is fixed on the sliding plate. The middle part of the bottom end of the clamp 18 is fixed on the jacking cylinder 17, and the jacked clamp 18 is clamped at two ends of the carrier 8. After the clamp 18 clamps the carrier 8, the slide plate moves forward, the carrier 8 is sent to the positioning mechanism, and the positioning cylinder 15 of the positioning mechanism intercepts the carrier 8.

The end of the marking section runner 4 is also provided with a visual detection mechanism 5, and the visual detection mechanism 5 is used for detecting whether the cartridge tube 20 finishes marking.

In order to prevent the carrier 8 in the discharge section runner from falling from the runner 9, the end of the discharge section runner is provided with an interception cross bar.

And a backflow conveyor belt 1 is arranged below the flow passage 9, the backflow conveyor belt 1 is positioned below the buffer conveyor belt, two ends of the backflow conveyor belt 1 exceed the buffer conveyor belt 2, and the running directions of the backflow conveyor belt 1 and the buffer conveyor belt 2 are opposite. The carrier 8 after marking is unloaded from the cartridge tube 20 and then placed in the return conveyor 1 and guided into the starting position for the next filling. The buffer conveyor 2 and the return conveyor 1 are driven by a driving motor 6, respectively.

In order to facilitate the operation of the device, the application also provides an anti-counterfeiting marking method for the commodity code of the cartridge tube, which comprises the following steps:

s1, filling a carrier 8, and then placing the carrier on a buffer conveyor belt 2 of a runner of a feeding section;

S2, a carrier 8 enters a position of a distributing mechanism 3 of a feeding section runner 9, a material shortage detection probe 12 of the distributing mechanism 3 detects whether the carrier 8 stays at the tail end of the feeding section runner, and when the carrier 8 stays, the carrier 8 smoothly enters a marking section runner 4;

s3, after the carrier 8 enters the marking section runner 4, a feeding roller 13 at the inlet end of the marking section runner 4 is started to send the carrier 8 into the marking section runner 4, and meanwhile, the next carrier 8 is clamped at the inlet of the marking section runner 4, namely, the next carrier 8 stays in the runner 9 between the shortage detection probe 12 and the feeding roller 13.

S4, when the carrier 8 passes through the feeding roller 13, a conveying mechanism below the marking section runner 94 is started, a jacking mechanism of the conveying mechanism jacks up the clamp 18, two ends of the clamp 18 are clamped at two ends of the carrier 8, a linear module 21 of the conveying mechanism conveys the current carrier 8 to a positioning mechanism, and then the conveying mechanism returns to the original point again to wait for a next conveying instruction;

s5, a positioning cylinder 15 of the positioning mechanism intercepts the carrier 8, a clamping cylinder 14 tightly supports the carrier 8 on the runner 9, so that the precise positioning operation of the carrier 8 is completed, and then the completion of marking is waited;

S6, marking the outer wall and the inner wall of the cartridge tube 20 on the carrier 8 at the same time by a plurality of groups of laser marking heads of the laser marking machine after the carrier 8 is propped against, engraving anti-counterfeiting codes on the outer wall of the cartridge tube 20, and engraving anti-counterfeiting digital codes on the inner wall of the cartridge tube 20;

s7, finishing marking, loosening the carrier 8 by the positioning mechanism, and waiting for the next carrier 8 to enter;

S8, continuously advancing a carrier 8 of the extrusion positioning mechanism, gradually entering a flow passage 9 of the discharging section, and waiting for sorting the cartridge tubes 20;

s9, the sorted carriers 8 are put into the reflow conveyor belt 1 again, and are conveyed to the position below the flow channel 9 of the feeding section by the reflow conveyor belt 1, and the next round of cigarette bullet tubes 20 are waited for filling.

In summary, the cigarette bullet tube commodity code anti-counterfeiting marking production line adopting the structure and the processing method thereof have the advantages of high marking efficiency and good marking effect.

The foregoing is a specific embodiment of the present invention, but the scope of the present invention should not be limited thereto. Any changes or substitutions that would be obvious to one skilled in the art are deemed to be within the scope of the present invention, and the scope is defined by the appended claims.

Claims (4)

1. The cigarette bullet tube commodity code anti-counterfeiting marking production line is characterized by comprising a runner, wherein the runner consists of parallel guide strips, and plays a role in guiding a carrier, the runner is sequentially divided into a feeding section, a marking section and a discharging section, buffer conveyor belts are arranged below the feeding section runner and the discharging section runner, a group of laser marking machines are symmetrically arranged on two sides of the marking section runner, a material distributing mechanism is arranged at a discharging port of the feeding section runner and used for judging whether the current carrier enters the marking section, a feeding roller is arranged at a feeding port of the marking section runner and driven by a stepping motor, a positioning mechanism is arranged in the middle of the marking section runner and used for accurately positioning the carrier, and a conveying mechanism is arranged below the marking section runner and used for conveying the carrier to the positioning mechanism;

the blocking cylinder is used for propping the carrier against the feeding section flow channel, and the starved detection probe is used for judging whether the carrier is stopped at the discharging port of the feeding section flow channel;

The positioning mechanism comprises a clamping cylinder and a positioning cylinder, wherein the positioning cylinder is closer to a discharge port of the marking section runner than the clamping cylinder;

The conveying mechanism comprises a linear module and a jacking mechanism, wherein the jacking mechanism reciprocates along the length direction of the linear module, the linear module comprises a servo motor and a threaded rod, the threaded rod is fixed on an output shaft of the servo motor, and a slide plate is connected to the threaded rod in a threaded manner;

the tail end of the marking section flow channel is also provided with a visual detection mechanism which is used for detecting whether the cigarette bullet tube is marked;

And a reflux conveyor belt is arranged below the flow passage, the reflux conveyor belt is positioned below the buffer conveyor belt, two ends of the reflux conveyor belt exceed the buffer conveyor belt, and the running directions of the reflux conveyor belt and the buffer conveyor belt are opposite.

2. The anti-counterfeiting marking production line for the commodity codes of the cartridge tubes according to claim 1, wherein the distance between the blocking cylinder and the material shortage detection probe is greater than one time of carrier length and less than two times of carrier length.

3. The anti-counterfeiting marking production line for the commodity codes of the cartridge tubes according to claim 1, wherein the guide strips are fixed by the adjustable positioning pins.

4. The processing method of the cigarette bullet tube commodity code anti-counterfeiting marking production line according to claim 1, which is characterized by comprising the following steps:

S1, filling a carrier, and then placing the carrier on a buffer conveyor belt of a runner of a feeding section;

S2, a carrier enters a material distributing mechanism of a material feeding section runner, a material shortage detection probe of the material distributing mechanism detects whether the carrier stays at the tail end of the material feeding section runner, and when the carrier stays, the carrier smoothly enters a marking section runner;

S3, after the carrier enters the marking section runner, a feeding roller at the inlet end of the marking section runner is started to feed the carrier into the marking section runner, and meanwhile, the next carrier is clamped at the inlet of the marking section runner;

S4, after the carrier passes through the feeding roller, starting a conveying mechanism below the marking section flow channel, jacking the clamp by a jacking mechanism of the conveying mechanism, and clamping two ends of the clamp at two ends of the carrier;

s5, a positioning cylinder of the positioning mechanism intercepts the carrier, and then the clamping cylinder tightly supports the carrier on the runner to wait for marking;

S6, carrying out marking operation on the outer wall and the inner wall of the cigarette bullet tube on the carrier at the same time by a plurality of groups of laser marking heads of the laser marking machine after the carrier is propped against;

S7, finishing marking, loosening the carrier by the positioning mechanism, and waiting for the next carrier to enter;

S8, continuously advancing a carrier of the extrusion positioning mechanism, gradually entering a flow passage of a discharging section, and waiting for sorting the cartridge tubes;

S9, the sorted carriers are put into the reflow conveyor belt again, and are conveyed to the lower portion of the flow channel of the feeding section by the reflow conveyor belt, and the next round of cigarette bullet pipe is waited for filling.