CN114131210A

CN114131210A - Automatic transcoding engraving device

Info

Publication number: CN114131210A
Application number: CN202111290682.0A
Authority: CN
Inventors: 张东升; 龙欢; 刘伟
Original assignee: Guangdong Evenwin Precision Technology Co Ltd; Dongguan Everwin Precision Technology Co Ltd
Current assignee: Guangdong Evenwin Precision Technology Co Ltd; Dongguan Everwin Precision Technology Co Ltd
Priority date: 2021-11-02
Filing date: 2021-11-02
Publication date: 2022-03-04

Abstract

The invention provides automatic transcoding carving equipment which comprises a control system, a rack, a rotating mechanism and a plurality of stations. The plurality of stations comprise a code scanning station, a carving station and a code reading station which are arranged in sequence; the code scanning station is provided with a first code scanner, and the first code scanner is used for scanning the original mark on the workpiece; the engraving station comprises an engraving machine, and the engraving machine is used for marking the workpiece; and the code reading station is provided with a second code scanner which is used for scanning a new mark of the workpiece marked by the engraving machine. The rotating mechanism is provided with a plurality of workpiece positioning devices, and the workpiece positioning devices are used for installing workpieces; the rotating mechanism can drive the workpiece positioning device to rotate along the horizontal direction, and the workpiece positioning device corresponds to the stations one by one. The automatic transcoding carving equipment can finish a plurality of procedures on one equipment, and improves the working efficiency and the processing precision.

Description

Automatic transcoding engraving device

Technical Field

The invention relates to the technical field of engraving equipment, in particular to automatic transcoding engraving equipment.

Background

In order to facilitate tracing and recording product information during the processing of a workpiece, a two-dimensional code is usually marked on the surface of the workpiece, and a computer or other reading equipment reads the two-dimensional code of the workpiece to inquire the product information corresponding to the workpiece. Because some surfaces of the workpiece can be machined in the machining process, the condition that the original two-dimensional code transcoding of the workpiece needs to be marked on other surfaces of the workpiece can exist in the whole machining process, transcoding of the workpiece is mostly completed by multiple devices in the prior art, such as a code scanning machine, an engraving machine, a code reading machine and the like, the number of the devices is large, the transcoding process needs to transfer the workpiece for multiple times, the process is complex, the working efficiency is low, the workpiece needs to be repeatedly clamped in the process of transferring the workpiece, the working efficiency is influenced, the precision is low due to repeated clamping, and errors are easy to occur.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide an automatic transcoding engraving device which can finish a plurality of working procedures on one device and improve the working efficiency and the processing precision.

In order to achieve the purpose, the invention adopts the technical scheme that:

an automatic transcoding engraving device comprises a control system, a frame, a rotating mechanism arranged on the frame and a plurality of stations arranged on the frame;

the plurality of stations comprise a code scanning station, a carving station and a code reading station which are sequentially arranged along the rotating direction of the rotating mechanism; the code scanning station is provided with a first code scanner, and the first code scanner is used for scanning the original identification on the workpiece and sending the scanning result to the control system; the engraving station comprises an engraving machine, the control system controls the scanning result of the first code scanner to be sent to the engraving machine, and the engraving machine conducts marking on the workpiece again according to the scanning result; the code reading station is provided with a second code scanner, the second code scanner scans a new mark of the carving machine after marking the workpiece again, and sends a scanning result to the control system;

the control system is used for receiving the scanning results of the first code scanner and the second code scanner, comparing the original identification scanned by the first code scanner with the new identification scanned by the second code scanner, judging the product to be qualified when the comparison result is within a preset range, and recording the new identification; when the comparison result exceeds a preset range, judging the product to be unqualified;

the rotating mechanism is provided with a plurality of workpiece positioning devices, and the workpiece positioning devices are used for installing workpieces; the rotating mechanism can drive the workpiece positioning device to rotate along the horizontal direction, and the workpiece positioning device corresponds to the stations one by one.

The further improvement of the technical scheme is as follows:

sweep sign indicating number station still includes coaxial light source and first clean device of blowing.

The automatic transcoding engraving device further comprises a safety grating arranged on the rack.

The automatic transcoding engraving equipment further comprises an installation station; the rotating sequence of the rotating mechanism is an installation station, a code scanning station, a carving station and a code reading station in sequence; the mounting station is also provided with a product floating detection device and a material existence sensing device; the floating detection device and the material existence sensing device are connected with the rack through a support, and the support can move up and down and can move towards the direction close to the center of the rotating mechanism and the direction far away from the center of the rotating mechanism.

The rotating mechanism comprises a driving device and a turntable fixedly connected with the output end of the driving device; the workpiece positioning device is arranged on the turntable; the driving device comprises a motor and a four-equal-part divider, and the four-equal-part divider is in transmission connection with the motor through a synchronous belt.

The workpiece positioning device comprises a supporting plate, a plurality of adjusting positioning blocks arranged at the outer edge of the supporting plate, positioning pins arranged on the supporting plate and a sucker device arranged on the supporting plate; the number of the positioning pins is more than two; the adjusting positioning block is detachably connected with the supporting plate; the suction cup device is used for grasping a workpiece.

The position of the adjusting positioning block relative to the supporting plate can be adjusted within a certain range.

The positioning pin is made of polyether ketone.

The automatic transcoding carving equipment further comprises a display; the display is used for displaying equipment progress and states.

The engraving machine is a laser engraving machine; and a second air blowing cleaning device is arranged on the code reading station.

According to the technical scheme, the automatic transcoding carving equipment disclosed by the invention drives the workpiece arranged on the workpiece positioning device to rotate to each station through the rotating mechanism, the original identification of the workpiece is scanned through the first code scanner of the code scanning station, the identification of the workpiece is transcoded through the carving machine of the next station, and the carved new identification is read through the second code scanner of the next station.

Drawings

Fig. 1 is a schematic general structural diagram of an automatic transcoding engraving apparatus according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the automatic transcoding carving apparatus of the embodiment of the present invention after removing the machine cover and a part of the rack.

Fig. 3 is a schematic structural diagram of the automatic transcoding carving apparatus of the embodiment of the present invention after removing the machine cover, a part of the machine frame, and the turntable.

Fig. 4 is a schematic structural diagram of a workpiece positioning device of an automatic transcoding engraving apparatus according to an embodiment of the present invention when a workpiece is installed.

Fig. 5 is a schematic structural diagram of the workpiece positioning device of the automatic transcoding engraving apparatus according to the embodiment of the present invention when no workpiece is installed.

The meaning of the reference symbols in the drawings is:

1-a frame; 2-scanning a code station; 3-a code reading station; 4-a rotating mechanism; 5-a display; 6-a workpiece positioning device; 7-mounting a station; 8-engraving station; 9-a workpiece; 21-a first scanner; 22-a first air blast cleaning device; 23-a coaxial light source; 31-a second scanner; 32-a second blow cleaning device; 41-a turntable; 42-quartering divider; 43-a sensor; 61-adjusting a positioning block; 62-a locating pin; 63-a support plate; 64-a suction cup device; 71-a security grating; 81-machine table cover; 82-laser engraving machine; 91-original identification; 92-new identity; 311-a code scanner protective cover; 312-fixed mount.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

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 invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Example 1: as shown in fig. 1 to 5, the automatic transcoding engraving apparatus of the present embodiment includes a frame 1, a rotating mechanism 4 disposed on the frame 1, and a plurality of stations disposed on the frame 1, where the number of the stations is four in the present embodiment.

As shown in fig. 3 and 4, the workpiece 9 in this embodiment is a rectangular plate-shaped workpiece, and the original mark 91 is provided on the side surface corresponding to the shorter side of the rectangular workpiece 9, and the new mark 92 is provided on the large front surface of the workpiece 9 near the longer side.

As shown in fig. 1 to 3, the rotating mechanism 4 includes a driving device (not shown) and a rotating disc 41 fixedly connected to an output end of the driving device; the workpiece positioning device 6 is arranged on the turntable 41; the driving device comprises a motor and a four-equal-part divider 42, and the four-equal-part divider 42 is in transmission connection with the motor through a synchronous belt. Four workpiece positioning devices 6 are arranged on the turntable 41, the four workpiece positioning devices 6 are evenly distributed on the circumference of the turntable 41, and the workpiece positioning devices 6 are used for installing workpieces 9; the rotating mechanism 4 can drive the workpiece positioning device 6 to rotate along the horizontal direction. The motor is a servo motor, and the servo motor can be further connected with a speed reducer to adjust the rotating speed of the servo motor. The rotating mechanism 4 may further comprise a sensor 43, and the sensor 43 is used for returning the quartering divider 42 to the original position. The quartering divider 42 can accurately control the angle of each rotation of the turntable 41 to be 90 °. The rotating mechanism 4 can drive the workpiece positioning device 6 to rotate along the horizontal direction, and the workpiece positioning device 6 corresponds to the stations one by one.

As shown in fig. 4 and 5, the workpiece positioning device 6 includes a supporting plate 63, a plurality of adjusting positioning blocks 61 disposed at an outer edge of the supporting plate 63, a positioning pin 62 disposed on the supporting plate 63, and a suction cup device 64 disposed on the supporting plate 63. The supporting plate 63 is used for placing the workpiece 9, the periphery of the supporting plate is rectangular, and the adjusting and positioning block 61 is arranged near the outer edge of the supporting plate 63 to roughly limit the workpiece placing area so as to form rough positioning. The number of locating pin 62 is more than two, and the material of locating pin 62 is polyether ketone (PEK), and the quantity of locating pin 62 is two in this embodiment, and the symmetry sets up on backup pad 63, and locating pin 62 that adopts the preparation of PEK material has wearability and pliability, can prevent to place work piece 9 time, takes place the bruise between locating pin 62 and the work piece 9, and its is very wear-resisting, long service life. The adjusting and positioning block 61 is detachably connected with the supporting plate 63, in this embodiment, a through hole is formed in the center of the adjusting and positioning block 61, a mounting hole is formed in the supporting plate 63, and the adjusting and positioning block 61 is connected with the supporting plate 63 through a connecting piece such as a bolt. To accommodate the installation of a plurality of workpieces of different sizes, the adjusting and positioning block 61 may be arranged to be adjustable in position relative to the supporting plate 63. For example, different adjustable positioning blocks 61 can be installed for different workpieces by arranging the adjustable positioning blocks 61 with different specifications to meet the size requirements of different workpieces. Alternatively, the through hole of the center of the adjusting positioning block 61 may be formed in a kidney shape, or a plurality of through holes may be formed in parallel, and the distance between the adjusting positioning block 61 and the outer edge of the supporting plate 63 may be adjusted by adjusting different positions of the connecting member in the through hole. The suction cup means 64 are used for gripping the workpiece 9. In this embodiment, the suction cup device 64 includes two suction nozzles, and when the workpiece 9 is placed on the support plate 63 and leveled, the suction cup device 64 is activated to fix the workpiece 9.

The workpiece 9 of this embodiment is provided with a positioning hole (not shown) corresponding to the positioning pin 62, and when the workpiece 9 is placed, the workpiece 9 is first placed in the area surrounded by the adjusting positioning block 61 to perform rough positioning on the workpiece 9, and then the positioning hole is sleeved on the positioning pin 62, so as to achieve accurate positioning of the workpiece 9.

As shown in fig. 2, in the present embodiment, the four stations include a mounting station 7, a code scanning station 2, an engraving station 8, and a code reading station 3, which are sequentially arranged in the rotation direction of the rotation mechanism 4.

The installation station 7 is used for installing the work piece 9, and is steady for guaranteeing the installation of work piece 9, still be provided with on the installation station 7 and float detection device (not shown), float detection device locates on the frame 1 below the work piece positioner 6 of installation station 7, and float detection device in this embodiment is TOF laser displacement measurement sensor, and when the work piece 9 on the backup pad 63 did not lay steadily, float detection device can report an alert suggestion, and automatic transcoding sculpture equipment can close equipment according to reporting to the police. A material existence sensing device (not shown) is further arranged beside the floating detection device, the material existence sensing device in the embodiment is a photoelectric slow reflection type sensor, the material existence sensing device can sense whether the workpiece 9 is placed on the supporting plate 63, when the workpiece 9 is detected to be placed, a signal is sent, the indicating device is started to operate, and when the workpiece 9 is not detected to be placed, the indicating device stops operating. The floating detection device and the material existence sensing device are connected with the rack 1 through a support, and the support can move up and down and can move towards the direction close to the center of the rotating mechanism 4 and the direction far away from the center of the rotating mechanism 4. The support drives the floating detection device and the material sensing device to move up and down and back and forth, so that the detection range of the sensor is larger, and the detection result is more accurate.

As shown in fig. 1 to 3, the scanning station 2 is provided with a first scanner 21, and the first scanner 21 is used for scanning the original mark on the workpiece 9. In order to enable the code scanning to be more accurate, the code scanning station 2 is further provided with a coaxial light source 23, so that the irradiating light is more uniform, and the conditions of errors in light reflection scanning and the like are avoided. In order to keep the surface cleanliness of the workpiece 9 and avoid affecting the engraving quality during engraving at the engraving station 8, a first air-blowing cleaning device 22 may be further disposed at the code scanning station 2, and the first air-blowing cleaning device 22 is started to clean the surface of the workpiece 9 before, during or after the code scanning of the workpiece 9 by the first code scanner 21. The first code scanner 21 and the coaxial light source 23 are arranged in parallel on the frame 1 near one end of the mounting station 7 and below the turntable 41, and the scanning and light source direction is the linear direction formed by connecting the engraving station 8 and the mounting station 7 so as to scan the original mark 91 on the side surface of the workpiece 9.

As shown in fig. 1 to 3, the engraving station 8 comprises an engraving machine for marking the workpiece 9. In this embodiment, the engraving machine is a laser engraving machine 82. A machine table cover 81 is arranged on the periphery of the laser etching machine 82 and used for protecting the laser etching machine 82 and guaranteeing safe operation of equipment. Radium carving machine 82 includes radium-shine laser head, radium-shine laser head is used for carrying out the sculpture to work piece 9, radium carving machine 82 can also set up mobile device, mobile device can drive radium-shine laser head reaches about in the predetermined limit and controls the removal to realize bigger radium carving scope.

The code reading station 3 is provided with a second code scanner 31, and the second code scanner 31 is used for reading a new mark 92 marked on the workpiece 9 by the engraving machine. And a second air blowing cleaning device 32 is arranged on the code reading station 3 so as to clean the workpiece 9 which is marked again. Second bar code scanner 31 upper portion is equipped with bar code scanner safety cover 311 to the bar code scanner is avoided by environmental pollution, influences the bar code accuracy. Second bar code scanner 31 passes through mount 312 and connects on the inside frame 1 of board cover 81, second bar code scanner 31 with the connection can be dismantled to frame 1, conveniently changes and carries out routine maintenance to second bar code scanner 31 when second bar code scanner 31 damages. The scanning direction of the second scanner 31 is vertically downward to read a new mark 92 on the upper surface of the workpiece 9.

In order to control more accurately and avoid the idle running phenomenon of the equipment when the workpiece 9 is not installed, a material sensing device can be arranged on the code scanning station 2, the carving station 8 and the code reading station 3 respectively.

In order to ensure that the equipment can run more safely and reliably, a safety grating 71 can be arranged on the frame 1 of the mounting station 7, when the equipment is in a running state, the safety grating 71 detects that an object approaches the turntable 41, namely, a command is sent, the equipment is indicated to stop running, and safety accidents are avoided.

The automatic transcoding carving device further comprises a display 5; the control system is used for controlling the automatic transcoding carving equipment and is electrically connected with the display 5, and the display 5 is used for displaying the progress and the state of the equipment. For example, the control system may receive the detection information sent by the detection device such as the sensor, the safety light barrier 71, etc., and display the detection information on the display 5. The machine frame 1 is also provided with a button for operating the equipment, so that the equipment can be operated conveniently.

When the workpiece 9 is installed at the installation station 7, manual installation can be adopted, and in order to improve the working efficiency, automatic installation can also be carried out by a manipulator, so that the automation of the whole working process is realized.

The working principle of the automatic transcoding carving equipment is as follows: the position of the adjusting and positioning block 61 of all the workpiece positioning devices 6 is adjusted to the size position suitable for the size of the workpiece, then the workpiece 9 is placed on the workpiece positioning device 6 of the installation station 7, the adjusting and positioning block 61 is used for rough positioning, and the positioning pin 62 and the positioning hole are used for accurate positioning in a matching mode, at the moment, the long edge of the workpiece 9 is arranged towards the direction of the connecting line of the code scanning station 2 and the code reading station 3, and the original two-dimensional code of the workpiece 9 is located on the side face corresponding to the short edge close to one side of the code reading station 3. After the workpiece 9 is placed, the placing position of the workpiece 9 is detected through the floating detection device, whether the workpiece 9 is installed stably and in place is checked, if the workpiece 9 is detected not to be installed in place, an alarm is given out to place the workpiece 9 again until the workpiece 9 is installed in place. Meanwhile, the material existence sensing device detects the installation station 7, and when the workpiece 9 is detected to be installed on the workpiece positioning device 6 of the installation station 7, the rotating mechanism 4 is started, and the rotating mechanism 4 rotates 90 degrees clockwise.

The driving device of the rotating mechanism 4 drives the turntable 41 and the workpiece 9 on the turntable 41 to rotate to the code scanning station 2. The coaxial light source 23 of the code scanning station 2 irradiates the original two-dimensional code on the side surface of the workpiece 9, and meanwhile, the first code scanner 21 scans the original two-dimensional code and transmits the scanning result back to the control system. Meanwhile, the first air-blowing cleaning device 22 performs an air-blowing cleaning process on the surface of the workpiece 9. Whether the material sensing device on the code scanning station 2 detects the workpiece positioning device 6 on the code scanning station 2, and when the workpiece positioning device 6 is detected to be provided with a workpiece 9, the rotating mechanism 4 is started, and the rotating mechanism 4 rotates 90 degrees clockwise.

The driving device of the rotating mechanism 4 drives the turntable 41 and the workpiece 9 on the turntable 41 to continuously rotate to the engraving station 8, and the laser head of the engraving station 8 performs laser engraving on the workpiece 9 according to the original two-dimensional code obtained by scanning the code scanning station 2. Whether the material sensing device on the engraving station 8 detects the workpiece positioning device 6 of the engraving station 8, if the workpiece 9 is detected to be installed on the workpiece positioning device 6, the rotating mechanism 4 is started, and the rotating mechanism 4 rotates 90 degrees clockwise.

The driving device of the rotating mechanism 4 drives the turntable 41 and the workpiece 9 on the turntable 41 to continue to rotate to the code reading station 3. The second air blowing cleaning device 32 on the code reading station 3 performs air blowing cleaning treatment on the surface of the workpiece 9, and the second code scanner 31 reads the information of the two-dimensional code which is marked again by the engraving station 8 and transmits the information back to the control system. And detecting the workpiece positioning device 6 of the code reading station 3 by a material sensing device on the code reading station 3, and starting the rotating mechanism 4 if detecting that the workpiece 9 is installed on the workpiece positioning device 6, wherein the rotating mechanism 4 rotates 90 degrees clockwise.

The control system compares the original identifier 91 scanned by the first code scanner 21 with the new identifier 92 scanned by the second code scanner 31, judges the product as a qualified product when the comparison result is within a preset range, and stores and records the new identifier 92; and when the comparison result exceeds a preset range, judging the product to be unqualified.

The driving device of the rotating mechanism 4 drives the rotating disc 41 and the workpiece 9 on the rotating disc 41 to rotate to the mounting station 7 again, the workpiece 9 which is marked is taken down, and the workpiece 9 is placed according to the qualified product and the unqualified product in a classified mode for subsequent treatment, and a new workpiece 9 to be marked is placed continuously.

The working principle is that the working process is clearly described only in the form of a single workpiece, the four stations circularly place the workpiece in actual work, namely, the work of the four stations is simultaneously carried out, the installation station 7 installs the workpiece, the code scanning station 2 scans the original code of the workpiece, the engraving station 8 carries out laser engraving on the workpiece, the code reading station 3 reads the code of the workpiece, the four workpieces are simultaneously processed in automatic code conversion engraving equipment, the working efficiency is very high, the workpiece is simple to transfer among the working procedures, repeated clamping is not needed, the processing precision is guaranteed, and the marking precision of the workpiece is improved.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only express preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. An automatic transcoding sculpture equipment which characterized in that: the device comprises a control system, a rack, a rotating mechanism arranged on the rack and a plurality of stations arranged on the rack;

2. The automatic transcoding carving device of claim 1 wherein: sweep sign indicating number station still includes coaxial light source and first clean device of blowing.

3. The automatic transcoding carving device of claim 1 wherein: the automatic transcoding engraving device further comprises a safety grating arranged on the rack.

4. The automatic transcoding carving device of claim 1 wherein: the automatic transcoding engraving equipment further comprises an installation station; the rotating sequence of the rotating mechanism is an installation station, a code scanning station, a carving station and a code reading station in sequence; the mounting station is also provided with a product floating detection device and a material existence sensing device; the floating detection device and the material existence sensing device are connected with the rack through a support, and the support can move up and down and can move towards the direction close to the center of the rotating mechanism and the direction far away from the center of the rotating mechanism.

5. The automatic transcoding carving device of claim 4 wherein: the rotating mechanism comprises a driving device and a turntable fixedly connected with the output end of the driving device; the workpiece positioning device is arranged on the turntable; the driving device comprises a motor and a four-equal-part divider, and the four-equal-part divider is in transmission connection with the motor through a synchronous belt.

6. The automatic transcoding carving device of claim 1 wherein: the workpiece positioning device comprises a supporting plate, a plurality of adjusting positioning blocks arranged at the outer edge of the supporting plate, positioning pins arranged on the supporting plate and a sucker device arranged on the supporting plate; the number of the positioning pins is more than two; the adjusting positioning block is detachably connected with the supporting plate; the suction cup device is used for grasping a workpiece.

7. The automatic transcoding carving device of claim 6 wherein: the position of the adjusting positioning block relative to the supporting plate can be adjusted within a certain range.

8. The automatic transcoding carving device of claim 6 wherein: the positioning pin is made of polyether ketone.

9. The automatic transcoding carving device of claim 1 wherein: the automatic transcoding carving device further comprises a display, and the display is used for displaying the progress and the state of the device.

10. The automatic transcoding carving device of claim 1 wherein: the engraving machine is a laser engraving machine; and a second air blowing cleaning device is arranged on the code reading station.