CN106927103B - Identification card automatic paste device - Google Patents

Abstract

The invention relates to an automatic sticking device for identification cards, comprising a conveying device for driving an adherend to move along a first traveling path, a first sensor and a second sensor arranged in sequence along the advancing direction of the first traveling path, and driving the identification card along a second traveling path. A labeling mechanism for moving the travel path, and a controller electrically connected to the conveying device, the first sensor, the second sensor and the labeling mechanism, the second travel path and the first travel path are arranged obliquely, and the second travel path faces the first travel path. The advancing direction of one side of the traveling path is the same as that of the first traveling path, and the end of the second traveling path meets the first traveling path and is located on the side of the first sensor facing away from the second sensor. The device automatically adheres the identification card to the adherend, and no manual operation is required during operation, thereby releasing manpower, reducing manpower and production costs, and improving sticking quality and work efficiency.

Description

Automatic identification card pasting device

Technical Field

The invention relates to the technical field of labeling, in particular to an automatic identification card pasting device.

Background

At present, in the whole production process of a plurality of products, in order to facilitate management and tracking, identification cards are required to be adhered to the products, particularly in the automobile industry, a frame number identification card is required to be adhered to the rear of a specific position of a plastic bag for use when being manually manufactured, so that a temporary post for manufacturing the frame number identification card is required to be additionally arranged, manpower waste is caused, the manufacturing cost is increased, and the manual work efficiency is low.

Disclosure of Invention

The invention aims to provide an automatic identification card pasting device which can reduce labor cost and improve working efficiency.

In order to realize the purpose of the invention, the technical scheme is as follows:

an automatic identification card pasting device comprises a conveying device for driving an adherend to move along a first traveling path, a first sensor and a second sensor which are sequentially arranged along the advancing direction of the first traveling path, a labeling mechanism for driving an identification card to move along a second traveling path, and a controller which is electrically connected with the conveying device, the first sensor, the second sensor and the labeling mechanism, wherein the second traveling path is obliquely arranged with the first traveling path, the advancing direction of the second traveling path towards one side of the first traveling path is the same as the advancing direction of the first traveling path, and the tail end of the second traveling path is connected with the first traveling path and is positioned on one side of the first sensor, which is back to the second sensor.

When the conveying device drives the adherend to move to the position of the first sensor along the first travelling path, the first sensor is triggered, the controller stops the conveying device and starts the labeling mechanism to work, the labeling mechanism drives the identification card to move along the second travelling path, the bonding surface of the identification card faces one side of the first travelling path, when the identification card moves to the tail end of the second travelling path, one end of the identification card is bonded with the adherend on the first travelling path, the labeling mechanism continues to drive the identification card to move forwards and gradually bond the identification card on the adherend, and the identification card simultaneously pushes the adherend to move along the first travelling path; when the adherend moves to the position of the second sensor, one identification card is completely adhered to the adherend, automatic adhesion of the identification card is realized, the second sensor is triggered, the controller stops the labeling mechanism and starts the conveying device to work, the conveying device sends out the adherend subjected to labeling, and adhesion of the next identification card is restarted. The device bonds the sign card is automatic at the adherend body, need not manual operation at the operation in-process to release the manpower, reduce manpower and cost of manufacture, and improve and paste quality and work efficiency.

The technical scheme is further explained as follows:

furthermore, the automatic identification card pasting device also comprises a third sensor positioned between the first sensor and the second sensor, the conveying device comprises a first driving mechanism positioned at the starting end of the first travel path and a second driving mechanism positioned between the third sensor and the second sensor, and the second sensor is positioned at the tail end of the first travel path. The first driving mechanism at the starting end of the first travel path drives the adherend to move along the first travel path, and when the adherend moves to the position of the first sensor, the controller stops the first driving mechanism and starts the labeling mechanism to adhere the identification card to the adherend; when the identification card pushes the adherend to move to the third sensor in the bonding process, the controller starts the second driving mechanism to work in advance; when the adherend is continuously pushed to the position of the second driving mechanism, the second driving mechanism drives the adherend to continuously move to the tail end side of the first travel path; when the adhered object moves to the position of the second sensor, the identification card finishes adhering, the controller stops the operation of the labeling mechanism, the first driving mechanism is started to bring the adhered object into the next adhered object, meanwhile, the second driving mechanism sends the adhered object which finishes labeling out of the first moving path, different mechanisms are started to operate at different stages, the whole labeling process is carried out orderly, and the operation cost is reduced.

Furthermore, the first driving mechanism comprises an emptying roller and a first motor for driving the emptying roller to rotate, and the second driving mechanism comprises a receiving roller and a second motor for driving the receiving roller to rotate. The adherend is driven to work along the first travelling path through the discharging roller and the receiving roller.

Further, the automatic identification card pasting device further comprises a tray obliquely arranged with the first travelling path, and a discharge hole of the tray is matched with a feed hole of the discharging roller. The adherend can be conveniently placed on the tray, manual labor is not needed to track feeding at any time, manpower is further released, and labor cost is reduced.

Furthermore, the automatic identification card pasting device further comprises a guide piece located at the tail end of the first traveling path, the guide piece comprises a first guide plate located above the first traveling path and arranged in parallel with the first traveling path and a second guide plate located below the first guide plate and arranged obliquely with the first guide plate, an arc transition section is connected between the first guide plate and the second guide plate, and an opening of the arc transition section is arranged opposite to the first traveling path. The adhered object which is labeled is received by the guide piece, so that the adhered object which is labeled is moved out along the first guide plate, the arc transition section and the second guide plate in sequence.

Further, the second sensor is provided on the first guide plate and is disposed toward the first travel path.

Further, the automatic identification card pasting device further comprises a material receiving box, a material outlet is formed in one side, away from the arc transition section, of the second guide plate, and the material receiving box and the material outlet are arranged in a matched mode. The adhered object which is labeled moves from the discharge hole of the second guide plate and then enters the material receiving box, and is convenient to store and arrange.

Furthermore, the automatic identification card pasting device further comprises a case, and the labeling mechanism, the first travel path and the material receiving box are sequentially arranged in the case from top to bottom. The structural layout of the whole device is more reasonable and compact, and the labeling mechanism, the first travel path and the material collecting box are all arranged in the case, so that the overall appearance is more attractive.

Furthermore, the identification card comprises anti-sticking paper and label paper adhered to the anti-sticking paper, the labeling mechanism comprises a supporting roller for winding the identification card, a supporting roller for winding the anti-sticking paper, a third driving mechanism for driving the supporting roller and the supporting roller to rotate, and a separating plate for separating the anti-sticking paper from the label paper, the separating plate is obliquely arranged with the first advancing path and is provided with a separating side close to the first advancing path, and the free end of the identification card winds around the separating side and then winds the anti-sticking paper positioned on the free end onto the supporting roller. When the identification card is installed, the identification card is wound on the supporting wheel, the free end of the identification card is pulled to the separation side of the separation plate, the label paper and the release paper at the free end are separated, and the separated release paper is wound on the supporting roller after being wound on the separation side of the separation plate; in the working process, after the third driving mechanism is started, the supporting roller rotates to release the identification card, the supporting roller rotates to recover the separated anti-sticking paper, and simultaneously the label paper is separated, so that the label paper moves along the second advancing path.

Further, the carrier roller and the separating plate are both located between the carrier roller and the first traveling path, and the carrier roller is located on the side, facing away from the first sensor, of the separating plate.

Compared with the prior art, the invention has the following beneficial effects:

when the conveying device drives the adherend to move to the position of the first sensor along the first travelling path, the first sensor is triggered, the controller stops the conveying device and starts the labeling mechanism to work, the labeling mechanism drives the identification card to move along the second travelling path, the bonding surface of the identification card faces one side of the first travelling path, when the identification card moves to the tail end of the second travelling path, one end of the identification card is bonded with the adherend on the first travelling path, the labeling mechanism continues to drive the identification card to move forwards and gradually bond the identification card on the adherend, and the identification card simultaneously pushes the adherend to move along the first travelling path; when the adherend moves to the position of the second sensor, one identification card is completely adhered to the adherend, automatic adhesion of the identification card is realized, the second sensor is triggered, the controller stops the labeling mechanism and starts the conveying device to work, the conveying device sends out the adherend subjected to labeling, and adhesion of the next identification card is restarted. The device bonds the sign card is automatic at the adherend body, need not manual operation at the operation in-process to release the manpower, reduce manpower and cost of manufacture, and improve and paste quality and work efficiency.

Drawings

FIG. 1 is a schematic structural diagram of an automatic identification card pasting device according to an embodiment of the present invention;

FIG. 2 is a schematic view of a first operating state of the automatic card-reading pasting apparatus according to the embodiment of the present invention;

FIG. 3 is a schematic diagram of a second operating state of the automatic card-identifying pasting device according to the embodiment of the present invention;

FIG. 4 is a schematic diagram of a third operating state of the automatic card-identifying pasting device according to the embodiment of the present invention;

fig. 5 is a diagram illustrating a fourth operating state of the automatic card-identifying pasting device according to the embodiment of the present invention.

Description of reference numerals:

10. the label comprises an adherend, 210, a first sensor, 220, a second sensor, 230, a third sensor, 30, a labeling mechanism, 310, a supporting wheel, 320, a supporting roller, 330, a separating plate, 340, a tensioning roller, 350, a first mounting plate, 360, a second mounting plate, 410, a first driving mechanism, 411, a discharging roller, 412, a first motor, 420, a second driving mechanism, 421, a receiving roller, 422, a second motor, 50, a tray, 60, a guide piece, 610, a first guide plate, 620, a second guide plate, 630, an arc transition section, 70, a receiving box, 80, a case, 90, an identification card, 910, label paper and 920 release paper.

Detailed Description

Embodiments of the present invention are described in detail below with reference to the accompanying drawings:

as shown in fig. 1 and 2, an automatic identification card pasting device includes a conveying device for driving an adherend 10 to move along a first travel path, a first sensor 210 and a second sensor 220 sequentially arranged along the advancing direction of the first travel path, a labeling mechanism 30 for driving an identification card 90 to move along a second travel path, and a controller (not shown in the figures) electrically connected to the conveying device, the first sensor 210, the second sensor 220 and the labeling mechanism 30, wherein the second travel path is obliquely arranged with respect to the first travel path, the advancing direction of the second travel path toward the first travel path is the same as the advancing direction of the first travel path, and the end of the second travel path intersects with the first travel path and is located on the side of the first sensor 210 facing away from the second sensor 220.

When the conveying device drives the adherend 10 to move to the position of the first sensor 210 along the first traveling path, as shown in fig. 2, the first sensor 210 is triggered, the controller stops the operation of the conveying device and starts the operation of the labeling mechanism 30, the labeling mechanism 30 drives the identification card 90 to move along the second traveling path, the bonding surface of the identification card 90 faces one side of the first traveling path, when the identification card 90 moves to the tail end of the second traveling path, one end of the identification card 90 is bonded with the adherend 10 on the first traveling path, the labeling mechanism 30 continues to drive the identification card 90 to move forwards and gradually bond on the adherend, and the identification card 90 simultaneously pushes the adherend 10 to move together along the first traveling path; and the distance between the first sensor 210 and the second sensor 220 is not less than the length of one identification card 90 along the second travel path, when the adherend 10 moves to the position of the second sensor 220, as shown in fig. 4, one identification card 90 is completely adhered to the adherend 10, the automatic adhesion of the identification card 90 is realized and the second sensor 220 is triggered, the controller stops the operation of the labeling mechanism 30 and starts the operation of the conveying device, the conveying device sends out the adherend 10 on which the labeling is finished and starts the adhesion of the next identification card 90 again. The device bonds the automatic bonding of identification card 90 at adherend 10 body, need not manual operation at the operation in-process to release the manpower, reduce manpower and cost of manufacture, and improve and paste quality and work efficiency.

As shown in fig. 2, the identification card automatic attaching apparatus further includes a third sensor 230 located between the first sensor 210 and the second sensor 220, the feeding means includes a first driving mechanism 410 located at the start end of the first travel path, and a second driving mechanism 420 located between the third sensor 230 and the second sensor 220, and the second sensor 220 is located at the end of the first travel path. The first driving mechanism 410 at the beginning of the first travel path drives the adherend 10 to move along the first travel path, and when the adherend 10 moves to the position of the first sensor 210, as shown in fig. 2, the controller stops the first driving mechanism 410 and starts the labeling mechanism 30 to adhere the identification card 90 to the adherend 10; when the identification card 90 pushes the adherend 10 to move to the third sensor 230 during the bonding process, as shown in fig. 3, the controller activates the second driving mechanism 420 to advance; when the adherend 10 continues to be pushed to the position of the second driving mechanism 420, as shown in fig. 4, the second driving mechanism 420 drives the adherend 10 to continue moving to the end side of the first travel path; when the adherend 10 moves to the position of the second sensor 220, the identification card 90 finishes adhering, the controller stops the operation of the labeling mechanism 30 and starts the first driving mechanism 410 to carry the adhered object 10 to the next adherend as shown in fig. 5, and simultaneously the second driving mechanism 420 sends the adhered object 10 which finishes adhering out of the first moving path, and starts different mechanisms to work at different stages, so that the whole labeling process is orderly carried out, and the operation cost is reduced.

In this embodiment, as shown in fig. 1 and fig. 2, the first driving mechanism 410 includes an emptying roller 411 and a first motor 412 for driving the emptying roller 411 to rotate, the second driving mechanism 420 includes a receiving roller 421 and a second motor 422 for driving the receiving roller 421 to rotate, the adherend 10 is driven to work along the first traveling path by the emptying roller 411 and the receiving roller 421, and the first driving mechanism 410 and the second driving mechanism 420 may also adopt other conveying manners according to actual needs. The first sensor 210, the second sensor 220, and the third sensor 230 are all infrared detection sensors, and the first sensor 210, the second sensor 220, and the third sensor 230 may also adopt other types of sensors according to actual needs.

As shown in fig. 1, the identification card automatic adhering device further comprises a tray 50 obliquely arranged with the first traveling path, and a discharge port of the tray 50 is matched with a feed port of the discharging roller 411, so that the adhered object 10 can be conveniently placed on the tray 50, manual tracking feeding is not needed, manpower is further released, and the labor cost is reduced.

As shown in fig. 2, the identification card automatic pasting apparatus further includes a guide 60 located at the end of the first travel path, the guide 60 includes a first guide plate 610 located above the first travel path and arranged parallel to the first travel path, and a second guide plate 620 located below the first guide plate 610 and arranged obliquely to the first guide plate 610, an arc transition section 630 is connected between the first guide plate 610 and the second guide plate 620, an opening of the arc transition section 630 is arranged opposite to the first travel path, and the second sensor 220 is arranged on the first guide plate 610 and arranged toward the first travel path. The labeled adherend 10 is collected by the guide member 60, and the labeled adherend 10 is moved out along the first guide plate 610, the arc transition section 630 and the second guide plate 620 in this order.

As shown in fig. 2, the identification card automatic pasting device further comprises a material receiving box 70, a material outlet is arranged on one side of the second guide plate 620, which is far away from the arc transition section 630, the material receiving box 70 is arranged in cooperation with the material outlet, and the adhered object 10 which is adhered with the label is moved from the material outlet of the second guide plate 620 and then enters the material receiving box 70, so that the adhered object can be conveniently stored and arranged. And the labeling mechanism 30, the first travel path and the material receiving box 70 are sequentially arranged in the case from top to bottom. The structural layout of the whole device is more reasonable and compact.

As shown in fig. 1, the automatic identification card pasting device further includes a case 80, and the labeling mechanism 30, the first travel path, the conveying device, the guide member 60, and the material receiving box 70 are all disposed in the case 80, so that the overall appearance is more beautiful.

As shown in fig. 1 and 2, the identification card 90 includes a release paper 920 and a label paper 910 adhered to the release paper 920, the labeling mechanism 30 includes a supporting roller 310 for winding the identification card 90, a supporting roller 320 for winding the release paper 920, a third driving mechanism (not shown in the drawings) for driving the supporting roller 310 and the supporting roller 320 to rotate, and a separating plate 330 for separating the release paper 920 from the label paper 910, the supporting roller 320 and the separating plate 330 are both located between the supporting roller 310 and the first traveling path, the supporting roller 310 is located on a side of the separating plate 330 facing away from the first sensor 210, the separating plate 330 is disposed obliquely to the first traveling path and is provided with a separating side adjacent to the first traveling path, and a free end of the identification card 90 passes behind the separating side and the release paper 920 located on the free end is wound on the supporting roller 320. When the identification card 90 is installed, the identification card 90 is wound on the supporting roller 310, the free end of the identification card 90 is pulled to the separation side of the separation plate 330, the label paper 910 and the release paper 920 at the free end are separated, and the separated release paper 920 is wound on the supporting roller 320 after being wound on the separation side of the separation plate 330; in operation, when the third driving mechanism is activated, the idler 310 rotates to release the identification card 90, the idler 320 rotates to retrieve the separated release paper 920 and simultaneously separate the label paper 910, such that the label paper 910 moves along the second travel path.

In this embodiment, the third driving mechanism is a motor, and the third driving mechanism may also adopt other driving forms according to actual needs.

As shown in fig. 1, the labeling mechanism 30 further includes a tension roller 340 disposed above the separating plate 330, and the free end of the identification card 90 is pulled to the separating side of the separating plate 330 after passing around the tension roller 340, so that the tension of the identification card 90 between the supporting roller 310 and the separating plate 330 is ensured during operation, and the label paper 910 and the release paper 920 are more easily separated.

As shown in fig. 1, the labeling mechanism 30 further includes a first mounting plate 350 and a second mounting plate 360 disposed opposite to each other, both ends of the idler 310 and both ends of the supporting roller 320 are rotatably connected to the first mounting plate 350 and the second mounting plate 360, respectively, and the separating plate 330 is disposed between the first mounting plate 350 and the second mounting plate 360.

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

The above-mentioned embodiments only express several 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 (10)

1. An automatic identification card pasting device is characterized by comprising a conveying device for driving an adherend to move along a first travelling path, a first sensor and a second sensor which are sequentially arranged along the advancing direction of the first travelling path, a labeling mechanism for driving an identification card to move along a second travelling path, and a controller which is electrically connected with the conveying device, the first sensor, the second sensor and the labeling mechanism, wherein the second travelling path is obliquely arranged with the first travelling path, the advancing direction of the second travelling path towards one side of the first travelling path is the same as the advancing direction of the first travelling path, and the tail end of the second travelling path is connected with the first travelling path and is positioned on the side of the first sensor, which is opposite to the second sensor;

the labeling mechanism is used for driving the identification card to move forwards and gradually adhere to the adhesive, and the identification card simultaneously pushes the adherend to move along the first travel path;

the conveying device comprises a first driving mechanism and a second driving mechanism, wherein the first driving mechanism is positioned at the starting end of the first traveling path, the second driving mechanism is positioned between the third sensor and the second sensor, and the second sensor is positioned at the tail end of the first traveling path.

2. The automatic identification card pasting device according to claim 1, wherein the first driving mechanism comprises a discharging roller and a first motor for driving the discharging roller to rotate, and the second driving mechanism comprises a receiving roller and a second motor for driving the receiving roller to rotate.

3. The automatic identification card pasting device according to claim 2, further comprising a tray obliquely disposed with respect to the first travel path, wherein a discharge port of the tray is disposed in cooperation with a feed port of the discharging roller.

4. The device for automatically attaching an identification card according to claim 1, further comprising a guide member located at an end of the first travel path, wherein the guide member comprises a first guide plate located above the first travel path and arranged parallel to the first travel path, and a second guide plate located below the first guide plate and arranged obliquely to the first guide plate, wherein an arc transition section is connected between the first guide plate and the second guide plate, and an opening of the arc transition section is arranged opposite to the first travel path.

5. The automatic identification card affixing apparatus according to claim 4, wherein said second sensor is provided on said first guide plate and is disposed toward said first traveling path.

6. The automatic identification card pasting device according to claim 4, further comprising a material receiving box, wherein a material outlet is provided on a side of the second guiding plate away from the circular arc transition section, and the material receiving box is arranged in cooperation with the material outlet.

7. The automatic identification card pasting device according to claim 6, further comprising a case, wherein the labeling mechanism, the first travel path and the material receiving box are sequentially disposed in the case from top to bottom.

8. The automatic identification card pasting device according to any one of claims 1 to 7, wherein the identification card comprises a release paper and a label paper adhered to the release paper, the labeling mechanism comprises a supporting roller for winding the identification card, a supporting roller for winding the release paper, a third driving mechanism for driving the supporting roller and the supporting roller to rotate, and a separating plate for separating the release paper and the label paper, the separating plate is arranged obliquely to the first advancing path and is provided with a separating side close to the first advancing path, and the free end of the identification card is wound behind the separating side and the release paper on the free end is wound on the supporting roller.

9. The identification card self-application apparatus of claim 8, wherein the idler and the separator plate are both positioned between the idler and the first travel path, and the idler is positioned on a side of the separator plate facing away from the first sensor.

10. The identification card self-application apparatus of claim 8, wherein the labeler further comprises a tension roller disposed above the separator plate, wherein the free end of the identification card is pulled to the separation side of the separator plate after passing around the tension roller.

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