CN116216029A - Processing equipment of carrier communication module - Google Patents

Abstract

The invention discloses a processing device of a carrier communication module, which comprises: the automatic labeling device is used for labeling the carrier communication module; the tag identification device is configured to sense the tag to acquire first information in the tag, scan the bar code of the tag to acquire bar code information of the tag, and send the first information and the bar code information to the upper computer; the laser etching device is configured to laser etch the second information on the surface of the carrier communication module; the detection device is configured to detect second information laser engraved on the surface of the carrier communication module so as to send the second information to the upper computer. From this, through the processing equipment of this application, can be with labeling process and radium carving process integration in an equipment go on to can acquire first information in the label, the bar code information of label and the second information of surperficial radium carving automatically, improve carrier communication module's processing rate, yield, alleviateed staff's burden moreover, be favorable to reducing the human cost.

Description

Processing equipment of carrier communication module

Technical Field

The invention relates to the field of processing equipment, in particular to processing equipment of a carrier communication module.

Background

In the related art, the processing of the carrier communication module comprises the labeling of the carrier communication module and the laser etching of the carrier communication module, however, the labeling of the carrier communication module and the laser etching are separately and independently carried out, in general, the laser etching is carried out on the carrier communication module through a laser etching machine, then the carrier communication module after laser etching is carried to a designated place through a manual carrying mode, the carrier communication module is manually labeled by a worker at the designated place, the bar code information of a label is required to be kept consistent with the information of the laser etching when the label is labeled, the worker is required to carry out information comparison through a manual code scanning mode after the label is labeled, the processing mode is low in efficiency, high in error rate, heavy in worker load, the processing rate and the yield of the carrier communication module are influenced, and the labor cost of processing the carrier communication module is high.

Disclosure of Invention

The present invention aims to solve, at least to some extent, one of the above technical problems in the prior art. Therefore, the invention provides the processing equipment of the carrier communication module, which can improve the processing speed and the yield of the carrier communication module and is beneficial to reducing the labor cost.

The processing device of the carrier communication module according to the present invention includes: the automatic labeling device is used for labeling the carrier communication module; the tag identification device is configured to sense the tag to acquire first information in the tag, and is further configured to scan a bar code of the tag to acquire bar code information of the tag, and is further configured to send the first information and the bar code information to an upper computer; the laser etching device is configured to laser etch the second information on the surface of the carrier communication module; the detection device is configured to detect the second information laser-engraved on the surface of the carrier communication module so as to send the second information to the upper computer.

According to the processing equipment of the carrier communication module, the labeling process and the laser etching process can be integrated into one equipment, and the first information in the label, the bar code information of the label and the second information of the laser etching on the surface can be automatically acquired, so that the processing rate and the yield of the carrier communication module are improved, the burden of staff is reduced, and the labor cost is reduced.

In some examples of the invention, the laser engraving device is further configured to position the carrier communication module prior to laser engraving the second information to the carrier communication module surface.

In some examples of the present invention, the automatic labeling device, the tag recognition device, the laser engraving device, and the detection device are sequentially arranged in a moving direction of the carrier communication module.

In some examples of the invention, the automatic labeling apparatus comprises: the negative pressure labeling head is rotatable, and the carrier communication module is labeled through the negative pressure labeling head.

In some examples of the present invention, the negative pressure labeling head may rotate by an angle θ, satisfying the relationship: θ is more than or equal to 0 and less than or equal to 90 degrees.

In some examples of the invention, the tag recognition apparatus includes: the label induction piece is used for inducing the label to acquire the first information in the label, and the infrared scanning piece is used for scanning the bar code of the label to acquire the bar code information of the label.

In some examples of the present invention, the processing apparatus of the carrier communication module further includes: and the tinfoil is wrapped outside the label sensing piece so as to control the sensing range of the label sensing piece.

In some examples of the invention, the laser engraving device includes: the laser carving head and the first CCD camera are used for positioning the carrier communication module, and after positioning is completed, the second information is laser-carved on the surface of the carrier communication module through the laser carving head.

In some examples of the invention, the laser engraving head is height adjustable.

In some examples of the present invention, the adjustable height of the laser engraving head is H, satisfying the relation: h is more than or equal to 50cm and less than or equal to 100cm.

In some examples of the invention, the detection device includes: the second CCD camera is used for photographing the carrier communication module to acquire the second information.

In some examples of the present invention, the processing apparatus of the carrier communication module further includes: the automatic labeling device is positioned between the feeding conveying device and the tag identification device, and the feeding conveying device is used for conveying the carrier communication module to the automatic labeling device; the middle conveying device is positioned between the automatic labeling device and the tag identification device and is used for conveying the carrier communication module with the tag to the tag identification device; the detection device is located between the laser carving device and the blanking conveying device, and the carrier communication module which is removed from the detection device and is attached with the tag is blanked through the blanking conveying device.

In some examples of the present invention, the processing apparatus of the carrier communication module further includes: the turnover device is positioned between the middle conveying device and the automatic labeling device, and the carrier communication module removed from the automatic labeling device is conveyed to the middle conveying device through the turnover device.

In some examples of the invention, the flipping means comprises: the automatic labeling device comprises a mounting block and a rotating shaft, wherein the rotating shaft is fixedly connected with the mounting block to drive the mounting block to rotate, a trough is formed in the mounting block, a carrier communication module moving out of the automatic labeling device moves into the trough, and the rotating shaft drives the mounting block to rotate so that the carrier communication module is conveyed to the middle conveying device.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

FIG. 1 is a schematic view of a processing apparatus according to an embodiment of the present invention;

fig. 2 is a schematic view of a flipping device according to an embodiment of the invention.

Reference numerals:

a processing apparatus 100;

an automatic labeling device 10;

a tag recognition device 20;

a laser engraving device 30;

a detecting device 40;

a loading conveyor 50; a middle conveyor 60; a blanking transfer device 70;

a flipping device 80; a mounting block 81; a rotation shaft 82; a trough 83; a fixing piece 84; a first sub-fixing piece 85; a second sub-fixing piece 86; a connector 87.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present invention and should not be construed as limiting the invention.

A processing apparatus 100 of a carrier communication module according to an embodiment of the present invention is described below with reference to fig. 1 and 2.

As shown in fig. 1, a processing apparatus 100 according to an embodiment of the present invention includes: the automatic labeling device 10, the label identification device 20, the laser carving device 30 and the detection device 40.

The automatic labeling device 10 is used for labeling a carrier communication module, alternatively, the carrier communication module may be a single-phase table carrier module, or the carrier communication module may be a three-phase table carrier module, or the carrier communication module may be a concentrator carrier module, which is not limited in this application. The automatic labeling device 10 is capable of automatically labeling a carrier communication module, that is, without requiring manual labeling by a worker.

The tag identification device 20 is configured to sense the tag to obtain first information within the tag, and the tag identification device 20 is further configured to scan the barcode of the tag to obtain barcode information of the tag. That is, the tag recognition device 20 can automatically sense the tag to acquire the first information in the tag, and the tag recognition device 20 can also automatically scan the bar code of the tag to acquire the bar code information of the tag. After the tag identification device 20 obtains the first information in the tag and the barcode information of the tag, the first information in the tag and the barcode information of the tag can be uploaded to the upper computer, alternatively, the tag identification device 20 and the upper computer can be in communication connection, and the upper computer can compare the received first information in the tag with the barcode information of the tag.

Alternatively, the carrier communication module may be labeled by the automatic labeling apparatus 10, and then the first information and the barcode information of the label already attached to the carrier communication module may be acquired by the label identification apparatus 20, or the first information and the barcode information of the label may be acquired by the label identification apparatus 20, and then the carrier communication module may be labeled by the automatic labeling apparatus 10. Preferably, the carrier communication module is labeled by the automatic labeling device 10, and then the first information of the label already attached to the carrier communication module and the barcode information are acquired by the label identifying device 20.

The laser etching device 30 is configured to laser etch the second information on the surface of the carrier communication module, and the detecting device 40 is configured to detect the second information laser etched on the surface of the carrier communication module to send the second information to the upper computer. That is, the laser etching device 30 can perform laser etching on the surface of the carrier communication module, after the laser etching device 30 performs laser etching on the surface of the carrier communication module with the second information, the detecting device 40 can detect the second information of the surface of the carrier communication module, and the detecting device 40 can send the detected second information to the upper computer, and optionally, the detecting device 40 and the upper computer can be connected in a communication manner. The host computer can compare the received second information, for example, an information template is stored in the host computer in advance, and the host computer can compare the received second information with the pre-stored information template.

It should be emphasized that "the information template is stored in the upper computer in advance" in the present application, the upper computer may compare the second information with the information template "is only an optional comparison method, and does not represent that the present application defines the comparison method of the upper computer.

Alternatively, the carrier communication module may be labeled by the automatic labeling device 10, and then laser etched on the surface of the carrier communication module by the laser etching device 30, or laser etched on the surface of the carrier communication module by the laser etching device 30, and then labeled by the automatic labeling device 10. Preferably, the carrier communication module is labeled by the automatic labeling device 10, and then laser etching is performed on the surface of the carrier communication module by the laser etching device 30.

Compared with the prior art, the processing equipment 100 can integrate the labeling process and the laser etching process into one equipment, does not need manual operation and intervention, and improves the processing rate and the equipment utilization rate of the carrier communication module. The processing equipment 100 of this application can acquire the second information of first information in the label, the bar code information of label and surperficial radium carving automatically to can compare through the host computer is automatic, do not need the staff to acquire the information through the mode of sweeping the code manually, also do not need the manual comparison, not only further improved carrier communication module's processing rate, compare with the mode of manual comparison moreover, compare the accuracy higher, thereby can improve carrier communication module's processing yield, in addition, still alleviateed staff's burden.

As a preferred embodiment of the present invention, first, the carrier communication module is automatically labeled by the automatic labeling device 10, after the carrier communication module is labeled, the label recognition device 20 automatically senses the label to obtain the first information in the label and automatically scans the barcode of the label to obtain the barcode information of the label, the label recognition device 20 uploads the obtained first information in the label and the barcode information of the label to the upper computer, and the upper computer compares the received first information in the label with the barcode information of the label.

If the comparison is wrong, the processing equipment 100 sends out an alarm, or the processing equipment 100 sends out an alarm and stops working, wherein the alarm can be an acoustic alarm, or the alarm can be a lamplight alarm, or the alarm can be an acoustic alarm plus a lamplight alarm, and the staff can be prompted to timely remove the problem by sending out the alarm. If the comparison is correct, laser etching is performed on the surface of the carrier communication module through the laser etching device 30, after the laser etching device 30 performs laser etching on the second information on the surface of the carrier communication module, the detection device 40 detects the second information on the surface of the carrier communication module, the detection device 40 sends the detected second information to the upper computer, the upper computer compares the received second information, if the comparison is correct, the processing equipment 100 sends an alarm, or the processing equipment 100 sends an alarm and stops working, and if the comparison is correct, the processing of the carrier communication module is completed.

From this, through the processing equipment 100 of this application, can carry out labeling process and radium carving process integration at an equipment to can acquire first information in the label, the bar code information of label and the second information of surperficial radium carving automatically, improve carrier communication module's processing rate, yield, alleviateed staff's burden moreover, be favorable to reducing the human cost.

In some embodiments of the present invention, laser engraving device 30 is further configured to position the carrier communication module prior to laser engraving the second information to the carrier communication module surface. That is, the laser carving device 30 needs to position the carrier communication module first, and then laser carve the second information on the surface of the carrier communication module. It can be appreciated that positioning the carrier communication module can obtain the accurate position of the carrier communication module, so that the setting can make the laser etching position of the laser etching device 30 accurate, and avoid deviation of the laser etching position, for example, the laser etching device 30 can be prevented from laser etching part of the second information to the surface of the carrier communication module, thereby improving the working reliability of the laser etching device 30. Moreover, the carrier communication modules with different shapes and sizes can be adapted to the laser etching device 30 through the arrangement, the application range of the laser etching device 30 can be improved, and therefore the processing equipment 100 can be adapted to various carrier communication modules.

In some embodiments of the present invention, as shown in fig. 1, the automatic labeling device 10, the tag recognition device 20, the laser engraving device 30 and the detection device 40 are sequentially arranged in the moving direction of the carrier communication module. For example, in the front-rear direction shown in fig. 1, the automatic labeling device 10, the tag recognition device 20, the laser engraving device 30, and the detection device 40 are arranged in this order from front to rear. It should be noted that, from the forward direction shown in fig. 1 to the backward direction shown in fig. 1, that is, from the upstream of the processing apparatus 100 to the downstream of the processing apparatus 100, that is, the automatic labeling device 10 is located upstream of the label identifying device 20, the label identifying device 20 is located upstream of the laser engraving device 30, and the laser engraving device 30 is located upstream of the detecting device 40. In other words, the processing apparatus 100 labels the carrier communication module by the automatic labeling device 10, and then performs laser etching on the surface of the carrier communication module by the laser etching device 30. The arrangement of the positions of the automatic labeling device 10, the label identification device 20, the laser engraving device 30 and the detection device 40 is reasonable, and the processing rate of the processing equipment 100 is improved.

In some embodiments of the present invention, the automatic labeling apparatus 10 may include: the negative pressure labeling head can rotate and can label the carrier communication module. It should be explained that the negative pressure labeling head can absorb the label, wherein the negative pressure parameter of the negative pressure labeling head is adjustable, and optionally, the negative pressure parameter is any value between-60 Kpa and-100 Kpa. And, the negative pressure labeling head can rotate, can drive the label that its absorbs together rotate when the negative pressure labeling head rotates to adjust the labeling position, when the negative pressure labeling head rotated suitable position, the negative pressure labeling head can be moved towards carrier communication module, and for example the negative pressure labeling head can be down-ward moved, in order to paste the label on the carrier communication module. Alternatively, the negative pressure labeling head can be moved downward by controlling the cylinder to move downward.

Further, the negative pressure labeling head can rotate by an angle theta, and the theta satisfies the relation: θ is more than or equal to 0 and less than or equal to 90 degrees. That is, the negative pressure labeling head can be rotated by an angle of any angle within 0 degrees to 90 degrees. The label of carrier communication module different angles can be satisfied in the setting like this to can make automatic labeling device 10 can adapt multiple carrier communication module, can improve automatic labeling device 10's application scope, thereby can make the processing equipment 100 of this application can adapt multiple carrier communication module. Moreover, the labeling position of the automatic labeling device 10 can be made accurate, and the operational reliability of the automatic labeling device 10 can be improved.

In some embodiments of the present invention, the tag recognition device 20 may include: the label sensing piece and the infrared scanning piece are arranged below the label sensing piece optionally. The tag induction piece is used for inducing the tag to acquire first information in the tag, the tag induction piece can upload the acquired first information in the tag to the upper computer, the infrared scanning piece is used for scanning the bar code of the tag to acquire bar code information of the tag, and the infrared scanning piece can upload the acquired bar code information of the tag to the upper computer. The arrangement can acquire the first information in the tag and the bar code information of the tag through the two components respectively, so that the accuracy of acquiring the information can be ensured, and the working reliability of the tag identification device 20 can be improved.

In some embodiments of the present invention, the processing apparatus 100 may further include a tinfoil sheet, and the tinfoil sheet may be wrapped around the outside of the tag sensing member, so that the sensing range of the tag sensing member can be controlled by wrapping the tinfoil sheet around the outside of the tag sensing member, and sensing errors can be prevented. It should be noted that, after the carrier communication module is labeled, the label sensing element can automatically sense the label to obtain the first information in the label. In this case, the number of carrier communication modules located within the sensing range of the tag sensing element may be one or more.

Optionally, a first partition may be disposed at the tag identification device 20, where the first partition may be configured as a partition board, at least a portion of the first partition is located in the sensing range of the tag identification device 20, and the first partition may separate a plurality of carrier communication modules located in the sensing range of the tag identification device 20, for example, if the number of carrier communication modules located in the sensing range of the tag identification device 20 is two, the first partition may separate the two carrier communication modules to avoid interference of other carrier communication modules to the tag sensing element.

In some embodiments of the present invention, laser engraving device 30 may include: the laser carving head and the first CCD camera can be used for positioning the carrier communication module through the first CCD camera, and after positioning is completed, the second information can be laser-carved on the surface of the carrier communication module through the laser carving head. The accurate position of carrier communication module can be obtained through first CCD camera, can make radium carving device 30 radium carving's position accuracy, avoids radium carving position to appear the deviation to can improve radium carving device 30's operational reliability.

Wherein, the number of radium carving head can be one, or the number of radium carving head also can be a plurality of, for example, radium carving device 30 can include 6 radium carving heads, 7 radium carving heads or 8 radium carving heads. The plurality of laser engraving heads can synchronously carry out laser engraving, so that the rate of laser engraving can be improved.

In some embodiments of the present invention, the laser engraving head may be height-adjustable, alternatively, the laser engraving head may be height-adjustable via a cylinder, or the laser engraving head may be height-adjustable via other means, which is not limited in this application. Through setting up the radium carving head to highly adjustable form, can satisfy the radium carving demand of the carrier communication module of not co-altitude to can make radium carving device 30 can adapt to multiple carrier communication module, can improve the application scope of radium carving device 30.

In some embodiments of the invention, the adjustable height of the laser engraving head is H, H satisfying the relationship: h is more than or equal to 50cm and less than or equal to 100cm. That is, the adjustable height of the laser engraving head is any value between 50cm and 100cm, for example, the adjustable height of the laser engraving head may be 50cm, 60 cm, 70 cm, 80 cm, 90 cm or 100cm. The adjustable height range that can make radium carving head is reasonable in this kind of setting, can make radium carving head can adapt to the carrier communication module of various heights.

Optionally, the laser etching power of the laser etching head is adjustable, and the laser etching power of the laser etching head can be any value within 2400W-4200W. Optionally, the laser engraving speed of the laser engraving head is adjustable, and the laser engraving speed of the laser engraving head can be any value within 500-2000 mm/s.

In some embodiments of the present invention, the detection device 40 may include: and the second CCD camera can be used for photographing the carrier communication module to acquire second information. The second CCD camera can be connected with the upper computer in a communication way, and can send the acquired second information to the upper computer, and the upper computer can compare the received second information. The second information is obtained by photographing with the second CCD camera, so that the accuracy of the second information obtained by the detecting device 40 can be ensured, and the working reliability of the detecting device 40 can be ensured.

It should be noted that, after the second information is laser engraved on the surface of the carrier communication module, the second CCD camera may take a picture of the carrier communication module to obtain the second information. At this time, the carrier communication modules located in the photographing range of the second CCD camera may be one or a plurality of carrier communication modules.

Alternatively, a second partition may be provided at the second CCD camera, and the second partition may be configured as a second partition, at least part of the structure of the second partition being located within the imaging range of the second CCD camera, the second partition being capable of partitioning the plurality of carrier communication modules located within the imaging range of the second CCD camera, for example, if the number of carrier communication modules located within the imaging range of the second CCD camera is two, the second partition may partition the two carrier communication modules. Through setting up the second separator, can carry out the regional division of making a video recording to make the second CCD camera can be accurate wait to detect carrier communication module and take a picture, avoid other carrier communication modules to produce the influence to the work of taking a picture of second CCD camera.

In some embodiments of the present invention, as shown in fig. 1, the processing apparatus 100 may further include a loading conveyor 50, a middle conveyor 60, and a discharging conveyor 70. The automatic labeling device 10 may be located between the feeding conveyor 50 and the tag identification device 20, where the feeding conveyor 50 is used for conveying the carrier communication module to the automatic labeling device 10. Specifically, the feeding conveyor 50 is located upstream of the automatic labeling device 10, the tag recognition device 20 is located downstream of the automatic labeling device 10, that is, in the front-rear direction shown in fig. 1, the feeding conveyor 50 is located at the front side of the automatic labeling device 10, the tag recognition device 20 is located at the rear side of the automatic labeling device 10, the feeding conveyor 50 is capable of conveying the carrier communication module located thereon to the automatic labeling device 10, and the automatic labeling device 10 is capable of adhering the tag to the carrier communication module conveyed by the feeding conveyor 50.

A central conveyor 60 may be located between the automatic labeling device 10 and the tag identification device 20, the central conveyor 60 being configured to transport the labeled carrier communication module to the tag identification device 20. Specifically, the middle conveyor 60 is located downstream of the automatic labeling device 10, and the middle conveyor 60 is located upstream of the tag recognition device 20, i.e., in the front-rear direction shown in fig. 1, the middle conveyor 60 is located at the rear side of the automatic labeling device 10, and the middle conveyor 60 is located at the front side of the tag recognition device 20, after the automatic labeling device 10 pastes the tag to the carrier communication module conveyed by the feeding conveyor 50, the middle conveyor 60 can convey the carrier communication module with the tag to the tag recognition device 20, the tag recognition device 20 can sense the tag to acquire first information in the tag, the tag recognition device 20 can also scan the bar code of the tag to acquire bar code information of the tag, and the tag recognition device 20 can send the acquired first information and bar code information to the host computer.

The detection device 40 may be located between the laser engraving device 30 and the blanking conveying device 70, and the labeled carrier communication module removed from the detection device 40 may be blanked by the blanking conveying device 70. Specifically, the detecting device 40 is located downstream of the laser engraving device 30, and the detecting device 40 is located upstream of the blanking conveying device 70, that is, in the front-rear direction shown in fig. 1, the detecting device 40 is located at the rear side of the laser engraving device 30, and the detecting device 40 is located at the front side of the blanking conveying device 70, and the blanking conveying device 70 is capable of blanking the labeled carrier communication module removed from the detecting device 40.

Through setting up, material loading conveyer 50, middle part conveyer 60 and unloading conveyer 70 can realize the automatic conveying to carrier communication module, need not artifical transport carrier communication module, have alleviateed staff's burden, are favorable to reducing the human cost.

Alternatively, the feeding conveyor 50, the middle conveyor 60 and the discharging conveyor 70 may be chain-shaped conveyors, i.e., the feeding conveyor 50, the middle conveyor 60 and the discharging conveyor 70 convey the carrier communication modules through the chains. Or the feeding conveyor 50, the middle conveyor 60 and the discharging conveyor 70 may be belt-shaped conveyors, i.e., the feeding conveyor 50, the middle conveyor 60 and the discharging conveyor 70 convey the carrier communication module through the belt, or the feeding conveyor 50, the middle conveyor 60 and the discharging conveyor 70 may be roller-shaped conveyors, i.e., the feeding conveyor 50, the middle conveyor 60 and the discharging conveyor 70 convey the carrier communication module through the roller. Of course, the feeding conveyor 50, the middle conveyor 60, and the discharging conveyor 70 may be of other types, which are not particularly limited in this application.

Alternatively, the feeding conveyor 50, the middle conveyor 60, and the discharging conveyor 70 may include one feeding channel, or the feeding conveyor 50, the middle conveyor 60, and the discharging conveyor 70 may include a plurality of feeding channels, which may be arranged in the width direction (i.e., the left-right direction as shown in fig. 1) of the processing apparatus 100, so that the feeding conveyor 50, the middle conveyor 60, and the discharging conveyor 70 may be capable of conveying a larger number of carrier communication modules.

When the quantity of pay-off passageway is many, first separator, second separator all can set up between two adjacent pay-off passageways, for example when the quantity of pay-off passageway is two, first separator, second separator all can set up between two pay-off passageways, when can avoid the label to respond to the piece and respond to the label like this, when the second CCD camera is photographed, carrier communication module on another pay-off passageway produces the influence to the work of label response piece, second CCD camera.

In some embodiments of the present invention, as shown in fig. 1 and 2, the processing apparatus 100 may further include: the flipping device 80, the flipping device 80 may be located between the middle conveyor 60 and the automatic labeling device 10, specifically, the flipping device 80 may be located downstream of the automatic labeling device 10, and the flipping device 80 may be located upstream of the middle conveyor 60, i.e., in the front-rear direction shown in fig. 1, the flipping device 80 may be located at the rear side of the automatic labeling device 10, and the flipping device 80 may be located at the front side of the middle conveyor 60. The flipping unit 80 is capable of transporting the carrier communication module removed by the automatic labeling unit 10 to the central conveyor 60, and the flipping unit 80 is capable of flipping the carrier communication module removed by the automatic labeling unit 10 by an angle, such as one hundred eighty degrees.

It should be explained that the labeling surface of the carrier communication module and the laser etching surface of the carrier communication module may not be the same surface, preferably, the labeling surface of the carrier communication module and the laser etching surface of the carrier communication module are surfaces opposite to each other, for example, the labeling surface of the carrier communication module is an upper surface of the carrier communication module, and the laser etching surface of the carrier communication module is a lower surface of the carrier communication module.

Through setting up turning device 80, after automatic labeling device 10 pastes the label on carrier communication module, turning device 80 not only can transport carrier communication module that automatic labeling device 10 shifted out to middle part conveyer 60, moreover, turning device 80 can also overturn carrier communication module to make carrier communication module's radium carving face upwards, thereby can realize the automatic upset to carrier communication module.

In some embodiments of the present invention, as shown in fig. 2, the flipping means 80 may comprise: the installation piece 81 and rotation axis 82, rotation axis 82 and installation piece 81 fixed connection can drive installation piece 81 and rotate when rotation axis 82 rotates, and installation piece 81 is formed with silo 83, and the carrier communication module that removes from automatic labeling device 10 can move into silo 83, then drives installation piece 81 through rotation axis 82 and rotates, can make carrier communication module upset and transport to middle part conveyer 60.

Alternatively, the rotating shaft 82 may be an output shaft of a motor, or the rotating shaft 82 may be connected to the output shaft of the motor, the mounting block 81 may be configured as a square structure, and the surfaces of the mounting block 81 capable of facing the automatic labeling apparatus 10 are each formed with a trough 83, that is, the four surfaces except for two surfaces facing the width direction of the processing apparatus 100 are each formed with a trough 83, so that the trough 83 where no carrier communication module is placed can correspond to the automatic labeling apparatus 10 when the turning apparatus 80 rotates ninety degrees, which is beneficial to improving the conveying rate of the turning apparatus 80.

Further, the depth, width and length of the trough 83 are all adjustable, so that the flipping unit 80 can adapt to different types of carrier communication modules.

Alternatively, as shown in fig. 2, the surface of the mounting block 81 on which the trough 83 is formed may be provided with two "L" -shaped fixing pieces 84, preferably titanium alloy steel sheets, and the two "L" -shaped fixing pieces 84 are disposed opposite to each other so as to form the trough 83 between the two "L" -shaped fixing pieces 84. As an alternative embodiment, the fixing piece 84 may include a first sub-fixing piece 85 and a second sub-fixing piece 86, where the first sub-fixing piece 85 is connected to the second sub-fixing piece 86, specifically, the first sub-fixing piece 85 is fixedly connected to the surface of the mounting block 81, and the surface of the first sub-fixing piece 85 faces the surface of the mounting block 81, which may be understood that the surface of the first sub-fixing piece 85 is parallel to the surface of the mounting block 81, the second sub-fixing piece 86 is connected to the end of the first sub-fixing piece 85, and the second sub-fixing piece 86 is perpendicular to the first sub-fixing piece 85. Alternatively, the first sub-fixing piece 85 may be fixed to the mounting block 81 by the connection member 87, for example, the first sub-fixing piece 85 may be fixed to the mounting block 81 by a rivet or screw. The fixing piece 84 can be stably arranged on the mounting block 81, so that the working reliability of the turnover device 80 is improved, and the turnover device is convenient to detach, so that the size of the trough 83 is convenient for workers to change.

As a specific embodiment of the present invention, referring to fig. 1, the present invention provides a processing apparatus 100 of a carrier communication module, where the processing apparatus 100 includes: automatic labeling device 10, label recognition device 20, radium carving device 30, detection device 40, material loading conveyer 50, middle part conveyer 60, unloading conveyer 70 and turning device 80.

The feeding conveyor 50, the automatic labeling device 10, the turning device 80, the middle conveyor 60, the tag identification device 20, the laser engraving device 30, the detection device 40 and the blanking conveyor 70 are arranged in sequence from the upstream of the processing equipment 100 to the downstream of the processing equipment 100 (i.e., from the front to the rear as shown in fig. 1), and the automatic labeling device 10 and the turning device 80 are arranged adjacently, and the tag identification device 20, the laser engraving device 30 and the detection device 40 are arranged adjacently.

The feeding conveyor 50 is used for conveying the carrier communication modules to the automatic labeling device 10, alternatively, the feeding conveyor 50 may include a distributing mechanism that can control the number of carrier communication modules entering the automatic labeling device 10, for example, the distributing mechanism may be an air cylinder that may extend toward the feeding conveyor 50 to block movement of the carrier communication modules. The negative pressure label head of the automatic labeling device 10 can absorb labels, and the negative pressure label head can move towards the carrier communication module to paste the labels onto the carrier communication module, then the automatic labeling device 10 can convey the labeled carrier communication module into the trough 83 of the turning device 80, the turning device 80 can rotate to turn over and convey the carrier communication module to the middle conveying device 60, and the carrier communication module can be conveyed to the surface of the middle conveying device 60 by the turning device 80.

The automatic labeling device 10 may transport the labeled carrier communication module into the trough 83 of the turning device 80 through its own transport structure, for example, the automatic labeling device 10 may transport the labeled carrier communication module into the trough 83 of the turning device 80 through its own conveyor belt, or the automatic labeling device 10 may transport the labeled carrier communication module into the trough 83 of the turning device 80 through its own manipulator structure, and of course, the automatic labeling device 10 may also transport the labeled carrier communication module into the trough 83 of the turning device 80 through other manners.

Preferably, the width of the trough 83 is smaller than the width of the conveyor belt of the automatic labeling device 10, and the surface of the bottom wall of the trough 83 is lower than the upper surface of the conveyor belt of the automatic labeling device 10, so that the carrier communication module can smoothly enter the trough 83.

The central conveyor 60 may carry carrier communication modules to the tag identification device 20, alternatively the central conveyor 60 may include a feed divider that is capable of controlling the number of carrier communication modules passing through the tag identification device 20, for example, the feed divider may be a cylinder that may extend toward the central conveyor 60 to block movement of the carrier communication modules. The tag sensing part of the tag recognition device 20 senses the tag to obtain first information in the tag, and uploads the obtained first information in the tag to the upper computer, and the infrared scanning part of the tag recognition device 20 scans the bar code of the tag to obtain bar code information of the tag, and uploads the obtained bar code information of the tag to the upper computer. The upper computer compares the received first information in the tag with the bar code information of the tag, and if the comparison is wrong, the processing equipment 100 gives an alarm.

The carrier communication module after being sensed and scanned by the tag recognition device 20 can enter the laser etching device 30, wherein the carrier communication module can be automatically conveyed to the laser etching device 30 through various ways, as an alternative, the tag recognition device 20 further comprises a conveying structure, the tag sensing part and the infrared scanning part are arranged on the conveying structure, the conveying structure is connected with the middle conveying device 60, the middle conveying device 60 can convey the carrier communication module to the conveying structure of the tag recognition device 20, the conveying structure can convey the carrier communication module to the laser etching device 30, the tag sensing part can sense the tag of the carrier communication module on the conveying structure to acquire first information in the tag, and the infrared scanning part can scan the bar code of the tag of the carrier communication module on the conveying structure.

The first CCD camera of radium carving device 30 can fix a position carrier communication module, after the location is accomplished, the radium carving head of radium carving device 30 can carry the carrier communication module after radium carving to detection device 40 at carrier communication module surface radium carving second information, then radium carving device 30, wherein, radium carving device 30 can carry the carrier communication module after radium carving to detection device 40 through its carrying structure from the area, for example, radium carving device 30 can carry the carrier communication module after radium carving to detection device 40 through its carrying belt from the area, of course, radium carving device 30 also can carry the carrier communication module after radium carving to detection device 40 through other modes.

The second CCD camera of the detecting device 40 can take a picture of the carrier communication module to obtain the second information, the second CCD camera can send the obtained second information to the upper computer, the upper computer compares the received second information, and if the comparison is wrong, the processing device 100 sends an alarm. The detecting device 40 may convey the carrier communication module after obtaining the second information to the blanking conveying device 70, where the detecting device 40 may convey the carrier communication module after obtaining the second information to the blanking conveying device 70 through its own conveying structure, for example, the detecting device 40 may convey the carrier communication module after obtaining the second information to the detecting device 40 through its own conveying belt, and of course, the detecting device 40 may convey the carrier communication module after obtaining the second information to the detecting device 40 through other manners, and the blanking conveying device 70 may blanking the carrier communication module to complete the processing procedure.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the description of the invention, a "first feature" or "second feature" may include one or more of such features.

In the description of the present invention, "plurality" means two or more.

In the description of the invention, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, and may also include the first and second features not being in direct contact but being in contact with each other by another feature therebetween.

In the description of the invention, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicates that the first feature is higher in level than the second feature.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (14)

1. A processing apparatus for a carrier communication module, comprising:

the automatic labeling device is used for labeling the carrier communication module;

the tag identification device is configured to sense the tag to acquire first information in the tag, and is further configured to scan a bar code of the tag to acquire bar code information of the tag, and is further configured to send the first information and the bar code information to an upper computer;

the laser etching device is configured to laser etch the second information on the surface of the carrier communication module;

the detection device is configured to detect the second information laser-engraved on the surface of the carrier communication module so as to send the second information to the upper computer.

2. The carrier communication module processing apparatus of claim 1, wherein the laser engraving device is further configured to position the carrier communication module prior to laser engraving the second information onto the carrier communication module surface.

3. The processing apparatus of claim 1, wherein the automatic labeling device, the tag recognition device, the laser engraving device, and the detection device are sequentially arranged in a moving direction of the carrier communication module.

4. The carrier communication module processing apparatus of claim 1, wherein the automatic labeling device comprises: the negative pressure labeling head is rotatable, and the carrier communication module is labeled through the negative pressure labeling head.

5. The processing apparatus of the carrier communication module according to claim 4, wherein the negative pressure label head is rotatable by an angle θ, satisfying the relation: θ is more than or equal to 0 and less than or equal to 90 degrees.

6. The processing apparatus of a carrier communication module according to claim 1, wherein the tag identifying means includes: the label induction piece is used for inducing the label to acquire the first information in the label, and the infrared scanning piece is used for scanning the bar code of the label to acquire the bar code information of the label.

7. The carrier communication module processing apparatus of claim 6, further comprising: and the tinfoil is wrapped outside the label sensing piece so as to control the sensing range of the label sensing piece.

8. The carrier communication module processing apparatus of claim 2, wherein the laser etching device comprises: the laser carving head and the first CCD camera are used for positioning the carrier communication module, and after positioning is completed, the second information is laser-carved on the surface of the carrier communication module through the laser carving head.

9. The carrier communication module processing apparatus of claim 8, wherein the laser engraving head is height adjustable.

10. The carrier communication module processing device of claim 9, wherein the laser engraving head has an adjustable height H satisfying the relation: h is more than or equal to 50cm and less than or equal to 100cm.

11. The processing apparatus of a carrier communication module according to any one of claims 1 to 10, wherein the detecting means includes: the second CCD camera is used for photographing the carrier communication module to acquire the second information.

12. A processing apparatus of a carrier communication module according to claim 3, further comprising: the automatic labeling device is positioned between the feeding conveying device and the tag identification device, and the feeding conveying device is used for conveying the carrier communication module to the automatic labeling device;

the middle conveying device is positioned between the automatic labeling device and the tag identification device and is used for conveying the carrier communication module with the tag to the tag identification device;

the detection device is located between the laser carving device and the blanking conveying device, and the carrier communication module which is removed from the detection device and is attached with the tag is blanked through the blanking conveying device.

13. The carrier communication module processing apparatus of claim 12, further comprising: the turnover device is positioned between the middle conveying device and the automatic labeling device, and the carrier communication module removed from the automatic labeling device is conveyed to the middle conveying device through the turnover device.

14. The carrier communication module processing apparatus of claim 13, wherein the flipping means comprises: the automatic labeling device comprises a mounting block and a rotating shaft, wherein the rotating shaft is fixedly connected with the mounting block to drive the mounting block to rotate, a trough is formed in the mounting block, a carrier communication module moving out of the automatic labeling device moves into the trough, and the rotating shaft drives the mounting block to rotate so that the carrier communication module is conveyed to the middle conveying device.

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