CN220761424U - Double-end laser coding machine - Google Patents

Abstract

The utility model discloses a double-head laser coding machine, which comprises a feeding station for feeding products, and a double-head laser coding mechanism arranged at one side of the feeding station, wherein the double-head laser coding mechanism comprises a photoelectric sensor capable of triggering and sensing the fed products, a camera for photographing and positioning the fed products, a double-head laser machine for coding the photographed and positioned fed products, and a color code sensor for sensing the coded products; the double-end laser code-marking machine can improve the code-marking speed, reduce misoperation and improve code-marking accuracy and consistency.

Description

Double-end laser coding machine

Technical Field

The utility model particularly relates to a double-head laser coding machine.

Background

A laser marking machine is a device for marking and marking products. It uses laser technology to make the mark, print code or mark on the surface of product by means of laser beam. The laser coding machine uses laser beam to code, and has the characteristics of non-contact and high precision. The laser beam can be rapidly imprinted on various materials such as plastics, metals, paper and the like, and can realize clear and durable marking effect.

The laser coding machine is widely applied to various industries such as food packaging, medicine manufacturing, electronic products, automobile parts and the like. The method can be used for clearly and visually marking the product so as to provide important information such as traceability information, anti-counterfeiting verification, production date, batch number and the like.

Existing laser coders can provide efficient coding solutions in many applications, but can also suffer from drawbacks such as limited speed because the laser coding process requires each character to be written individually. The operation of a laser encoder requires a certain expertise and knowledge. The steps of correctly setting parameters, adjusting focal length and the like are important to obtain good coding effect, and the existing laser coding machine adopts manual feeding and operation, so that the problems of misoperation and coding accuracy errors are easy to occur.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide a double-head laser code-marking machine which can improve the code-marking speed, reduce misoperation and improve code-marking accuracy and consistency.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a double-end laser coding machine, including the material loading station that is used for the product material loading, and set up in the double-end laser coding mechanism of material loading station one side, its characterized in that, this double-end laser coding mechanism is including the photoelectric sensor that can trigger the response to the material loading product, and be used for taking a photograph the location the material loading product carry out the double-end laser machine of coding, and be used for accomplishing the color code sensor of the product of coding and carrying out the response.

Preferably, the feeding station comprises a feeding frame for placing products, a positioning railing arranged on one side of the feeding frame and used for positioning the products, an isolation guide bar arranged in the feeding frame and used for separating the products, and a conveying mechanism arranged below the feeding frame and used for transversely conveying the products.

Preferably, the isolating guide bars are provided with more than one and are longitudinally and uniformly distributed in the feeding frame.

Preferably, the positioning railing is arranged on one side and is positioned on one side of the feeding frame, which is close to the double-head laser coding mechanism.

Preferably, the double-head laser is located at a position above the feeding frame and faces the feeding frame.

Preferably, an electric cabinet is arranged below the double-head laser machine.

Preferably, both sides of the double-end laser machine are provided with man-machine operation control screens.

Preferably, the camera is located at the inlet position of the feeding frame.

Preferably, the color code sensor is arranged at the outlet position of the feeding frame, senses the coded product at the outlet position and feeds the product back to the conveying mechanism.

The beneficial effects of the utility model are as follows:

the double-head laser coding mechanism can simultaneously perform double coding, so that coding speed is improved; triggering induction is carried out on the feeding product through the photoelectric sensor, so that the code printing process can be started at a proper time, misoperation is reduced, and code printing accuracy is improved; the camera is used for photographing and positioning the feeding product, so that the position and the gesture of the product can be accurately determined, and the accuracy and the consistency of coding are ensured; the double-head laser machine is used for coding the shot and positioned feeding product, so that double marks can be simultaneously carried out on the product, and the marking effect and the readability are improved; the automatic code printing device is used for sensing a color code sensor of a product with codes being printed, so that the manual material receiving progress is confirmed, and if manual material receiving fails to timely receive materials, the feedback conveying mechanism is used for stopping suddenly.

Drawings

Fig. 1 is a schematic structural diagram of a dual-head laser coding machine according to the present utility model.

Detailed Description

The principles and features of the present utility model are described below in connection with the following examples which are provided for the purpose of illustrating the utility model and are not intended to limit the scope of the utility model. The utility model is more specifically described by way of example in the following paragraphs. Advantages and features of the utility model will become more apparent from the following description and from the claims.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Examples

Referring to fig. 1, a dual-head laser coding machine comprises a feeding station 1 for feeding products, and a dual-head laser coding mechanism 2 arranged at one side of the feeding station 1, wherein the dual-head laser coding mechanism 2 comprises a photoelectric sensor 21 capable of triggering and sensing the fed products, a camera 22 for photographing and positioning the fed products, a dual-head laser machine 23 for coding the photographed and positioned fed products, and a color code sensor 24 for sensing the products for finishing coding.

The manual positioning railing 12 is fed, two pieces of manual positioning railing are fed at a time, signals are triggered twice through the photoelectric sensor 21, the camera 22 of the non-directional detection system shoots, after the positioning, coordinates are sent to the laser machine to be coded, the rear end is used for receiving materials manually, the colored sensor 24 is arranged behind the motor, the progress of manual receiving materials can be sensed, if the manual receiving materials cannot be received timely, and the motor can be stopped suddenly.

The starting point of the scheme is a feeding station 1 for placing a product to be coded; the double-end laser coding mechanism 2 comprises a photoelectric sensor 21 which is used for triggering and sensing the feeding product. When the product reaches the feeding station 1, the photoelectric sensor detects the existence of the product and triggers the subsequent operation; in the double-headed laser coding mechanism 2, the camera 22 is used for photographing and positioning the feeding product. By shooting the image of the product, the position, the size, the shape and other information of the product can be identified so as to perform accurate coding.

The double-end laser machine 23 is used for coding the shot and positioned feeding product. According to the image data shot by the camera, the double-head laser machine can accurately code the product, so that high-quality identification is realized; finally, a color scale sensor 24 is provided for sensing the coded product. The color code sensor can detect the coded product and transmit a feedback signal to the next process or conveying mechanism.

The implementation process of the whole scheme is as follows: when the product reaches the loading station 1, the photoelectric sensor 21 is triggered to start the subsequent operation. The camera 22 photographs and positions the product, and the product information is transmitted to the double-head laser 23 after being acquired. And the double-head laser machine codes the product according to the received data. After the code is complete, the code scale sensor 24 detects and senses the completed code product and accordingly transfers to the next process or transport mechanism.

The feeding station 1 comprises a feeding frame 11 for placing products, a positioning railing 12 which is used for positioning the products and is arranged on one side of the feeding frame 11, an isolation guide bar 13 which is arranged in the feeding frame 11 and is used for separating the products, and a conveying mechanism 14 which is arranged below the feeding frame 11 and is used for transversely conveying the products, wherein the isolation guide bar 13 is provided with more than one and is longitudinally and uniformly distributed in the feeding frame 11, and the positioning railing 12 is arranged on one side and is positioned on one side of the feeding frame 11 close to the double-head laser coding mechanism 2.

By arranging the positioning railing 12 and the isolation guide bar 13, the accuracy of the position of the product in the feeding process can be ensured, and the problem of coding errors or marking quality caused by position deviation is avoided; the longitudinal uniform distribution of the isolation guide bars 13 can be adjusted according to specific product sizes so as to flexibly adapt to product separation requirements of different sizes.

The double-end laser machine 23 is located at the upper position of the feeding frame 11 and faces the feeding frame 11, an electric cabinet 25 is arranged below the double-end laser machine 23, and man-machine operation control screens are arranged on two sides of the double-end laser machine 23.

The double-end laser machine 23 is located the top position of material loading frame 11 for whole equipment occupation space is less in the vertical direction, can make full use of limited production space, and the both sides of double-end laser machine 23 are equipped with man-machine operation control screen, and operating personnel can conveniently control and monitor, knows the running state of equipment in real time, and carries out necessary adjustment and operation.

An electric cabinet 25 is arranged below the double-head laser machine 23, and various electric equipment and control elements can be placed in a concentrated mode, so that management, maintenance and maintenance are facilitated. Meanwhile, the wiring length of the cable is effectively reduced, the fault rate and the maintenance cost are reduced, and the double-head laser machine 23 is located at the upper position of the feeding frame 11 and faces the feeding frame 11, so that the laser beam can be effectively prevented from directly irradiating operators, and the safety of the operators is improved.

The camera 22 is located at an inlet position of the feeding frame 11, and the color code sensor 24 is disposed at an outlet position of the feeding frame 11, senses a coded product at the outlet position, and feeds back the coded product to the conveying mechanism 14.

The camera 22 is positioned at the inlet position of the feeding frame 11, can accurately capture the information and the position of the product, and provides accurate data and reference for the subsequent coding operation; the color code sensor 24 is arranged at the outlet of the upper material frame 11, which can timely sense the coded product and transmit a feedback signal to the conveying mechanism 14. Therefore, the products for coding can be ensured to smoothly leave the feeding frame 11, accumulation and confusion are avoided, and coding speed and efficiency are improved.

Through the connection with the conveyor mechanism 14, the sensor can automatically trigger the corresponding actions and controls without manual intervention. Therefore, the cost and error rate of manual operation can be reduced, and the automation degree and efficiency of the production line can be improved.

The beneficial effects of the utility model are as follows:

the double-head laser coding mechanism can simultaneously perform double coding, so that coding speed is improved; triggering induction is carried out on the feeding product through the photoelectric sensor, so that the code printing process can be started at a proper time, misoperation is reduced, and code printing accuracy is improved; the camera is used for photographing and positioning the feeding product, so that the position and the gesture of the product can be accurately determined, and the accuracy and the consistency of coding are ensured; the double-head laser machine is used for coding the shot and positioned feeding product, so that double marks can be simultaneously carried out on the product, and the marking effect and the readability are improved; the automatic code printing device is used for sensing a color code sensor of a product with codes being printed, so that the manual material receiving progress is confirmed, and if manual material receiving fails to timely receive materials, the feedback conveying mechanism is used for stopping suddenly.

The above-mentioned embodiments of the present utility model are not intended to limit the scope of the present utility model, and the embodiments of the present utility model are not limited thereto, and all kinds of modifications, substitutions or alterations made to the above-mentioned structures of the present utility model according to the above-mentioned general knowledge and conventional means of the art without departing from the basic technical ideas of the present utility model shall fall within the scope of the present utility model.

Claims (9)

1. The utility model provides a double-end laser coding machine, including the material loading station that is used for the product material loading, and set up in the double-end laser coding mechanism of material loading station one side, its characterized in that, this double-end laser coding mechanism is including the photoelectric sensor that can trigger the response to the material loading product, and be used for taking a photograph the location the material loading product carry out the double-end laser machine of coding, and be used for accomplishing the color code sensor of the product of coding and carrying out the response.

2. The dual-head laser marking machine according to claim 1, wherein: the feeding station comprises a feeding frame for placing products, a positioning railing arranged on one side of the feeding frame and used for positioning the products, an isolation guide bar arranged in the feeding frame and used for separating the products, and a conveying mechanism arranged below the feeding frame and used for transversely conveying the products.

3. The dual-head laser marking machine according to claim 2, wherein: the isolating guide bars are provided with more than one and are longitudinally and uniformly distributed in the feeding frame.

4. The dual-head laser marking machine according to claim 3, wherein: the positioning railing is arranged on one side and is positioned on one side of the feeding frame, which is close to the double-head laser coding mechanism.

5. The dual-head laser marking machine according to claim 2, wherein: the double-end laser machine is positioned above the feeding frame and faces the feeding frame.

6. The dual-head laser marking machine according to claim 5, wherein: an electric cabinet is arranged below the double-head laser machine.

7. The dual-head laser marking machine according to claim 6, wherein: two sides of the double-end laser machine are provided with man-machine operation control screens.

8. The dual-head laser marking machine according to claim 2, wherein: the camera is positioned at the inlet position of the feeding frame.

9. The dual-head laser marking machine according to claim 8, wherein: the color code sensor is arranged at the outlet position of the feeding frame, senses the coded product at the outlet position and feeds the product back to the conveying mechanism.