CN114670541B - Mark processing apparatus and control method thereof - Google Patents

Abstract

The invention provides an identification processing device and a control method thereof, wherein the identification processing device comprises: the screen printing device comprises a first rack, a first transfer rail, a first processing rail and a screen printing mechanism, wherein the first transfer rail, the first processing rail and the screen printing mechanism are arranged on the first rack; the gold stamping device comprises a second rack, and a second transfer track, a second processing track and a gold stamping mechanism which are arranged on the second rack; and the object placing table is suitable for being circulated between the first transfer track and the second transfer track. When the silk screen printing device and the gold stamping device are spliced together, the silk screen printing device and the gold stamping device form an integrated machine, the object placing table can be moved between the silk screen printing device and the gold stamping device through the first transfer track and the second transfer track, so that materials can be quickly subjected to silk screen printing and gold stamping processes (or only one process is carried out), and the processing efficiency is high. When the two are separated, the silk-screen device and the gold stamping device can be used as independent equipment, so that the using mode of the mark processing equipment is more flexible.

Description

Mark processing apparatus and control method thereof

Technical Field

The invention relates to the technical field of processing equipment, in particular to marking processing equipment and a control method thereof.

Background

At present, the importance of trademarks to enterprise brands is increasingly prominent, and trademarks are usually processed on panels through silk-screen or gold stamping (or silk-screen plus gold stamping). In the prior art, silk printing and gold stamping are two independent devices, so that a panel needs to be transferred between the two independent devices, the production flexibility is poor, and the efficiency is low.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is to overcome the defects of poor flexibility and low efficiency of product trademark processing equipment in the prior art, thereby providing the logo processing equipment and the control method thereof.

In order to solve the above problems, the present invention provides a logo processing device, including: the screen printing device comprises a first rack, a first transfer rail, a first processing rail and a screen printing mechanism, wherein the first transfer rail, the first processing rail and the screen printing mechanism are arranged on the first rack; the gold stamping device comprises a second rack, and a second transfer track, a second processing track and a gold stamping mechanism which are arranged on the second rack, wherein the second transfer track is connected with the second processing track, the second processing track passes through the gold stamping mechanism, and a splicing state and a separation state are formed between the first transfer track and the second transfer track; and the object placing table is suitable for being circulated between the first transfer track and the second transfer track.

Optionally, the screen printing device further comprises a first detection mechanism, and the first processing track passes through the first detection mechanism.

Optionally, the screen printing mechanism is located between the first transfer track and the first detection mechanism.

Optionally, the silk screen printing device further comprises a drying mechanism, the first processing track passes through the drying mechanism, and the drying mechanism is located on one side of the silk screen printing mechanism, which is deviated from the first detection mechanism.

Optionally, the gold stamping device further comprises a second detection mechanism, and the second processing track passes through the second detection mechanism.

Optionally, the gold stamping mechanism is located between the second transfer track and the second detection mechanism.

Optionally, the first and second detection mechanisms comprise visual detection mechanisms.

Optionally, the first transfer track and the first processing track are arranged vertically; and/or the second transfer track and the second processing track are vertically arranged.

Optionally, the mark processing equipment further comprises an industrial personal computer, and the industrial personal computer is connected with the screen printing device and the gold stamping device.

The invention also provides a control method of the mark processing equipment, which is used for controlling the mark processing equipment and comprises the following steps: placing the material on a placing table, and processing the material on one of a silk-screen device and a gold stamping device; detecting the processed material; if the detection result is qualified, the object placing table is transferred to the other one of the silk-screen printing device and the gold stamping device through the first transfer track and the second transfer track, and the object placing table is continuously processed; and if the detection is unqualified, stopping processing, and transferring the material to an unqualified area.

The invention has the following advantages:

1. by utilizing the technical scheme of the invention, the first transfer track of the silk-screen device and the second transfer track of the gold stamping device are in splicing and separating states. When the silk screen printing device and the gold stamping device are spliced together, the silk screen printing device and the gold stamping device form an integrated machine, the object placing table can be moved between the silk screen printing device and the gold stamping device through the first transfer track and the second transfer track, so that materials can be quickly subjected to silk screen printing and gold stamping processes (or only one process is carried out), and the processing efficiency is high. When the silk screen printing device and the gold stamping device are separated, the silk screen printing device and the gold stamping device can be used as independent devices, and the using mode of the identification processing device is more flexible. Therefore, the technical scheme of the invention overcomes the defects of poor flexibility and low efficiency of product trademark processing equipment in the prior art.

2. The object placing table is a rotatable object placing table. Put the thing platform and can adopt general mould, put the rotation parameter of thing platform and keep in the system through artifical input for the first time, directly call the parameter during later stage production.

3. Through setting up first detection mechanism and second detection mechanism, realized adding vision on-line measuring process in equipment, accomplish the detection trade mark of full flow, quantization. The visual detection adopts a defect detection model which is well trained by deep learning, the detection model is used for detecting images collected by a visual process, and a detection result is fed back in real time.

4. The equipment can early warn when abnormity occurs. When the unqualified products reach a certain quantity, equipment personnel can be informed in a telephone, mail or short message mode to stop production in time, early intervention can be found out early, and waste of equipment resources is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 shows a schematic structural diagram of the logo fabrication facility of the present invention;

fig. 2 is a schematic control flow diagram illustrating that the silk-screen device and the gold stamping device of the mark processing equipment in fig. 1 are integrated, and the silk-screen process and the gold stamping process are performed simultaneously;

fig. 3 is a schematic control flow diagram of the mark processing device in fig. 1 only performing a silk-screen printing or gold stamping process; and

fig. 4 shows a schematic view of detection control of the first detection mechanism and the second detection mechanism of the machining apparatus identified in fig. 1.

Description of the reference numerals:

10. a screen printing device; 11. a first frame; 12. a first transfer track; 13. a first processing track; 14. a screen printing mechanism; 15. a first detection mechanism; 16. a drying mechanism; 20. a gold stamping device; 21. a second frame; 22. a second transfer track; 23. a second processing track; 24. a gold stamping mechanism; 25. a second detection mechanism; 30. a placing platform.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

The present embodiment provides a logo processing device, and the specific structure of the logo processing device is described below first.

As shown in fig. 1, the mark processing apparatus of this embodiment includes a screen printing device 10, a gold stamping device 20, and an object placing table 30. The screen printing device 10 includes a first frame 11, and a first transfer rail 12, a first processing rail 13 and a screen printing mechanism 14 disposed on the first frame 11. The first transfer rail 12 is connected to a first processing rail 13, and the first processing rail 13 passes through a screen printing mechanism 14. The gold stamping device 20 comprises a second rack 21, and a second transfer track 22, a second processing track 23 and a gold stamping mechanism 24 which are arranged on the second rack 21. The second transfer track 22 is connected with the second processing track 23, the second processing track 23 passes through the gold stamping mechanism 24, and the first transfer track 12 and the second transfer track 22 are in a splicing state and a separation state; the object table 30 is adapted to be circulated between the first transfer rail 12 and the second transfer rail 22.

By using the technical solution of this embodiment, the first transfer track 12 of the screen printing device 10 and the second transfer track 22 of the gold stamping device 20 have a splicing state and a separation state. When the silk screen printing device 10 and the gold stamping device 20 are spliced together, the silk screen printing device 10 and the gold stamping device 20 form an integrated machine, and the object placing table 30 can be moved between the silk screen printing device 10 and the gold stamping device 20 through the first transfer track 12 and the second transfer track 22, so that materials can be quickly subjected to silk screen printing and gold stamping processes (or only one process is performed), and the processing efficiency is high. When the silk screen printing device 10 and the gold stamping device 20 are separated, the silk screen printing device and the gold stamping device can be used as independent devices, so that the using mode of the mark processing device is more flexible. Therefore, the technical scheme of the embodiment overcomes the defects of poor flexibility and low efficiency of product trademark processing equipment in the prior art.

It should be noted that the above-mentioned logo processing device can be used for processing trademarks, product descriptions, and the like. Usually, marks are processed on the panel and the shell of the product.

It should be noted that the silk-screen printing mechanism 14 refers to a mechanism capable of performing a silk-screen printing process on the surface of the material. Because the first processing track 13 passes through the silk-screen printing mechanism 14, after the material is placed on the object placing table 30, the object placing table 30 can drive the material to move to the silk-screen printing mechanism 14, and the silk-screen printing process is carried out on the material.

It should be noted that the gold stamping mechanism 24 refers to a mechanism capable of performing a gold stamping process on the surface of the material. Because the second processing track 23 passes through the gold stamping mechanism 24, after the material is placed on the placing table 30, the placing table 30 can drive the material to move to the gold stamping mechanism 24, and the gold stamping process is performed on the material.

Further, the ends of the first transfer rail 12 and the second transfer rail 22 may be detachably connected by an interface structure, and the first transfer rail 12 and the second transfer rail 22 may be selected to be retractable rails. When the first transfer track 12 and the second transfer track 22 are separated, the screen printing device 10 and the gold stamping device 20 are two independent devices. After the first transfer track 12 and the second transfer track 22 are connected, the object placing table 30 can slide between the first transfer track 12 and the second transfer track 22, so that the material can be transferred between the screen printing device 10 and the gold stamping device 20, and the screen printing process and the gold stamping process can be rapidly performed on the material.

It should be noted that, since the first transfer rail 12 and the first processing rail 13 are communicated, the object placing table 30 can be circulated between the first transfer rail 12 and the first processing rail 13. Since the second transfer rail 22 and the second processing rail 23 are communicated, the placement stage 30 can be circulated between the second transfer rail 22 and the second processing rail 23. Therefore, the placement table 30 can be circulated among the first transfer rail 12, the second transfer rail 22, the first processing rail 13, and the second processing rail 23.

Further, the above-mentioned shelf 30 is provided as a rotatable shelf. Compare in prior art, put thing platform 30 and can adopt general mould, put thing platform 30's rotation parameter and save at the system through manual input for the first time, directly call the parameter during later stage production.

As shown in fig. 1, in the technical solution of this embodiment, the screen printing apparatus 10 further includes a first detecting mechanism 15, and the first processing rail 13 passes through the first detecting mechanism 15. Specifically, the first detection mechanism 15 is configured to detect whether the mark after the screen printing is qualified.

Preferably, the screen printing mechanism 14 is located between the first transfer rail 12 and the first detection mechanism 15. Taking the position in fig. 1 as an example, after the material is subjected to the screen printing process at the screen printing mechanism 14, the object placing table 30 continues to move upward along the track of the first processing track 13, and the material is located below the first detection mechanism 15, so that the mark is detected by the first detection mechanism 15.

Of course, the relative position between the silk-screen printing mechanism 14 and the first detecting mechanism 15 can be adjusted by those skilled in the art according to actual needs.

As shown in fig. 1, in the technical solution of this embodiment, the screen printing apparatus 10 further includes a drying mechanism 16. The first processing track 13 passes through the drying mechanism 16, and the drying mechanism 16 is located on a side of the screen printing mechanism 14 away from the first detecting mechanism 15. Specifically, the drying mechanism 16 is used for drying the silk-screened logo. Taking the orientation in fig. 1 as an example, after the material is detected at the first detecting mechanism 15, the placing table 30 drives the material to move downward and move to the drying mechanism 16, so as to dry the silk-screen mark on the material.

As shown in fig. 1, in the technical solution of the present embodiment, the gold stamping device 20 further includes a second detection mechanism 25, and the second processing track 23 passes through the second detection mechanism 25. Specifically, the second detection mechanism 25 is configured to detect whether the gold stamped identifier is qualified.

Preferably, the gold stamping mechanism 24 is located between the second transfer track 22 and the second detection mechanism 25. Taking the orientation shown in fig. 1 as an example, after the gold stamping process is performed on the material at the gold stamping mechanism 24, the placing table 30 continues to move upwards along the track of the second processing track 23, and the material is located below the second detecting mechanism 25, so that the identifier is detected by the second detecting mechanism 25.

Of course, the relative position between the gold stamping mechanism 24 and the second detection mechanism 25 can be adjusted by those skilled in the art according to actual needs.

Preferably, the first detection means 15 and the second detection means 25 comprise visual detection means. The visual detection mechanism comprises a camera (CCD visual camera), a light source, a lens, an industrial personal computer and a server. The vision measuring device can measure the object distance of the injection molding part, adjust the distance between the camera and the light source and ensure the precision of the collected pictures. Furthermore, after the silk-screen or gold-stamping patterns of the materials collected by the camera are printed, the patterns are compared with the pre-checked patterns in the server, and whether the marks of the materials are qualified or not is judged.

As shown in fig. 1, in the solution of the present embodiment, the first transfer rail 12 and the first processing rail 13 are vertically disposed; and/or the second transfer track 22 and the second processing track 23 are vertically disposed. Specifically, when the screen printing device 10 and the gold stamping device 20 are arranged side by side, the first transfer rail 12 and the second transfer rail 22 extend in the same direction, and in the orientation shown in fig. 1, both are arranged along the horizontal direction, thereby facilitating the splicing of the first transfer rail 12 and the second transfer rail 22. In the orientation shown in fig. 1, the first processing track 13 extends vertically, i.e. perpendicularly to the first transfer track 12, and the second processing track 23 extends vertically, i.e. perpendicularly to the second transfer track 22.

Preferably, the mark processing equipment further comprises an industrial personal computer, and the industrial personal computer is connected with the silk screen printing device 10 and the gold stamping device 20. Specifically, the industrial personal computer is used as an independent main control device, the screen printing device 10 and the gold stamping device 20 insert the control line into the independent industrial personal computer, and the screen printing device 10 and the gold stamping device 20 are automatically hidden by the industrial personal computer. During separation, the first transfer track 12 and the second transfer track 22 of the silk screen printing device 10 and the gold stamping device 20 are disconnected and butted, the control lines are inserted back into the original equipment, and the hidden industrial personal computer automatically displays the control lines. Therefore, the separated silk-screen device 10 and the gold stamping device 20 can be respectively moved to other places needing to be used, and the resource utilization maximization is realized.

The control method of the above-described logo processing device is described below.

As shown in fig. 2, the method for controlling the logo processing equipment comprises the following steps:

placing the material on the object placing table 30, and processing the material on one of the screen printing device 10 and the gold stamping device 20;

detecting the processed material;

if the detection result is qualified, the object placing table 30 is transferred to the other one of the screen printing device 10 and the gold stamping device 20 through the first transfer track 12 and the second transfer track 22, and the processing is continued;

and if the detection result is unqualified, stopping processing, and transferring the material to an unqualified area.

The display processing equipment in this embodiment includes a screen printing operation, a gold stamping operation, and a screen printing gold stamping operation, which will be described in detail below.

1. Screen printing operation mode

As shown in fig. 3, when the screen printing device 10 and the gold stamping device 20 are not separated, a screen printing operation needs to be set on the main industrial personal computer to check the product coding information. If the product information does not exist, the manipulator needs to be set to place and get the original point, a new product code is established to be stored, then the product code is selected, and then the automatic operation is clicked. After the injection-molded part is placed on the placement table 30, the injection-molded part is conveyed to the lower part of the screen printing mechanism 14 for printing according to the pressure sensor, and after printing, the printing is carried out and then the detection is carried out under the first detection mechanism 15. After the pictures are collected, the pictures are transferred to a drying mechanism 16 for drying, and finally the pictures return to the position of the injection molding piece and send a signal that the silk screen printing is finished, and meanwhile, a manipulator acquires a silk screen printing finishing signal. The robot arm sorts according to the detection result signal of the first detection mechanism 15.

Further, if the screen printing device 10 and the gold stamping device 20 are separated, an industrial personal computer provided with the screen printing device 10 is started, meanwhile, operations related to gold stamping in the gold stamping device 20 cannot be used, and other operation steps are the same.

2. Gold stamping operation mode

As shown in fig. 3, when the screen printing device 10 and the gold stamping device 20 are not separated, a gold stamping operation needs to be set on the main industrial personal computer, product code information is checked, if the product information does not exist, a manipulator needs to be set to place and get an original point, a new product code is established for storage, and then the product code is selected and clicked to automatically operate. After the injection-molded part is placed on the object placing table 30, the object placing table is conveyed to the position below the gold stamping mechanism 24 to be subjected to gold stamping according to the pressure sensor, the object placing table is switched to the second detection mechanism 25 to be detected after the gold stamping is finished, the object placing table returns to the position for taking the injection-molded part after the picture is collected, and finally returns to the position for taking the injection-molded part and sends a signal that the gold stamping is finished, meanwhile, the manipulator acquires a gold stamping finishing signal, and the manipulator sorts the object placing table according to a detection result signal of the second detection mechanism 25.

Further, if the screen printing device 10 and the gold stamping device 20 are separated, an industrial personal computer provided by the gold stamping device 20 is started, meanwhile, the operation related to screen printing in the screen printing device 10 cannot be used, and the rest operation steps are the same.

3. Silk-screen gold stamping operation mode

As shown in fig. 2, when the device is in an integrated state, that is, the screen printing device 10 and the gold stamping device 20 are combined into an integrated machine, the screen printing and gold stamping operation needs to be set on the main industrial personal computer, the product code information is checked, and if the product information does not exist, the manipulator needs to be set to place and take the original point and establish a new product code for storage. And the silk-screen process and the gold stamping process are set according to the sequence of actual production, and the production mode is the same as that of independent silk-screen process and gold stamping, and the difference is that after the online detection of the silk-screen process or the gold stamping process is abnormal, the next process can be directly finished, the injection molding part is returned to the position for removing the injection molding part to send a finishing signal, and the manipulator directly places the defective product in the unqualified area. Normally, after completing a process, the object placing table 30 performs the next process through the first transfer track 12 and the second transfer track 22, and the manipulator sorts the object after sending the completion signal.

In addition, the logo processing device in this embodiment may also be set in a manual mode. In the manual mode, the function of placing and taking the injection molding part by a manipulator is replaced manually, silk-screen printing, gold stamping and silk-screen gold stamping operation selection is also needed, the position for placing the injection molding part and the position for taking the injection molding part are set, and the rest modes are the same as the operation modes.

As shown in fig. 1 and 4, after the silk-screen or gold-stamping process, the object placing table 30 will send the product to the detection position (the first detection mechanism 15 or the second detection mechanism 25) for visual detection, and after the photographed image is subjected to feature point acquisition and image registration for deep learning with the feature point of the template image, the online detection efficiency is greatly improved. And calculating by an algorithm to obtain whether the current picture and the template picture are defective, judging that the result is qualified if the current picture and the template picture are not defective, and simultaneously sending a detection result signal to the manipulator if the current picture and the template picture are not defective.

Furthermore, after the manipulator obtains the product, the product can be sorted to a qualified area or a production line according to a signal of a detection result, and then the product is packaged by related personnel. And unqualified product is placed in the district that does not pass, and the manipulator need reset letter sorting signal, when waiting for to receive an injection molding supplied materials, in time place the injection molding and put the thing platform and produce.

The handling of the defective products produced in this example is as follows:

1. when the number of products in the unqualified area reaches the specified number, the system can inform related personnel of reaching the position of the equipment in a mail or short message mode, the system checks and detects the pictures of the abnormal area of the injection molding part, and the injection molding part is directly unqualified and is discarded after the abnormal pictures are confirmed. If the product is qualified and is not printed, the equipment needs to wait for idling, manual operation is carried out in a manual mode, after one-time processing is completed, a processing button needs to be pressed, and the unqualified area is recalculated.

2. When unqualified products appear continuously and exceed the specified times, the equipment stops working immediately, sends alarm information, sends urgent mails and short messages to a user, informs related personnel to process immediately, and needs to detect whether the functions of the silk screen device 10 or the gold stamping device 20 are normal or not so as to prevent the equipment from producing continuously.

According to the above description, the present patent application has the following advantages:

1. the injection molding trademark defect is detected quantitatively and completely, and the injection molding trademark quality is ensured;

2. the screen printing and gold stamping integrated full-automatic printing is realized, and the labor cost is reduced;

3. the printing mode of various modes can be quickly and effectively switched, and the method can be applied in large-scale industrialization.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (8)

1. An identification processing apparatus, comprising:

the screen printing device (10) comprises a first rack (11), and a first transfer track (12), a first processing track (13) and a screen printing mechanism (14) which are arranged on the first rack (11), wherein the first transfer track (12) is connected with the first processing track (13), the first processing track (13) passes through the screen printing mechanism (14), the screen printing device (10) further comprises a first detection mechanism (15), and the first processing track (13) passes through the first detection mechanism (15);

the gold stamping device (20) comprises a second rack (21), and a second transfer track (22), a second processing track (23) and a gold stamping mechanism (24) which are arranged on the second rack (21), wherein the second transfer track (22) is connected with the second processing track (23), the second processing track (23) passes through the gold stamping mechanism (24), a splicing state and a separation state are formed between the first transfer track (12) and the second transfer track (22), the gold stamping device (20) further comprises a second detection mechanism (25), and the second processing track (23) passes through the second detection mechanism (25);

a storage table (30) adapted to circulate between the first transfer track (12) and the second transfer track (22).

2. Marking machine as claimed in claim 1, characterized in that the screen printing means (14) are located between the first transfer track (12) and the first detection means (15).

3. The marking device according to claim 1, characterized in that the screen printing device (10) further comprises a drying mechanism (16), the first processing track (13) passes through the drying mechanism (16), and the drying mechanism (16) is located on a side of the screen printing mechanism (14) facing away from the first detection mechanism (15).

4. The logo processing device according to claim 1, characterized in that the gold stamping means (24) are located between the second transfer track (22) and the second detection means (25).

5. The sign processing apparatus according to claim 1, characterized in that the first detection means (15) and the second detection means (25) comprise visual detection means.

6. The sign processing device according to claim 1, characterized in that the first transfer track (12) and the first processing track (13) are arranged vertically; and/or the second transfer track (22) and the second processing track (23) are arranged vertically.

7. The logo processing device as claimed in claim 1, further comprising an industrial personal computer connected to both the screen printing device (10) and the gold stamping device (20).

8. A control method of a mark processing apparatus for controlling the mark processing apparatus according to any one of claims 1 to 7, the control method comprising:

placing the material on an object placing table (30), and processing the material on one of the silk-screen device (10) and the gold stamping device (20);

detecting the processed material;

if the detection is qualified, the object placing table (30) is transferred to the other one of the screen printing device (10) and the gold stamping device (20) through the first transfer track (12) and the second transfer track (22) and is continuously processed;

and if the detection is unqualified, stopping processing, and transferring the material to an unqualified area.

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