CN111222591B - Method and system for manufacturing personalized certificate card - Google Patents

Abstract

The invention discloses a method and a system for manufacturing personalized certificate cards, wherein the method comprises the following steps: setting a material shortage point, acquiring the number of certificates to be manufactured, and inquiring the number of blank cards of the producible certificates; when the number of certificates to be manufactured is smaller than the number of certificates corresponding to the material shortage points, receiving a certificate data packet to be manufactured; when the number of the blank cards of the producible certificate is smaller than the corresponding number of the certificates of the material shortage points, and when the number of the certificates to be produced is larger than the number of the blank cards of the producible certificate, sending the information of the number of the blank cards of the producible certificate, and automatically increasing the number of the blank cards of the producible certificate according to the number of the blank cards of the producible certificate by a robot; and manufacturing the certificate card through a certificate manufacturing system based on the certificate information in the certificate data packet to be manufactured. The method and the device realize feeding control based on the robot, combine the data quantity to be made and the blank certificate quantity, improve the efficiency of unmanned certificate making, and reduce the processing work of the ending stage.

Description

Method and system for manufacturing personalized certificate card

Technical Field

The invention relates to the technical field of automatic control, in particular to a method and a system for manufacturing a personalized certificate card.

Background

Along with the development of artificial intelligence technology, the automation level is higher and higher, however, to the personalized production of credentials, current system of making credentials still is artifical the storage card situation of monitoring the draw-in groove of artifical material loading manual feeding, needs staff's frequent intervention in the whole system of making credentials, if need the operating personnel to remove the finished card in the draw-in groove to the target storage position when the card is accomplished or go out the draw-in groove and fill material, when play the draw-in groove and appear playing card phenomenon or other unusual phenomenon, need the operating personnel to carry out the manual handling and just can resume the card making again, its automation management level is not high enough, the cost of labor that needs to input is great, it is lower to make the efficiency of making credentials. Still needing excessive manual intervention, the existing certificate making system cannot continuously finish high-quality certificate making if no frequent operation is performed by an operator, for example, when no card is arranged in a card sending box of the certificate making system, the operator needs to go to a storehouse to get a certain number of blank certificates, then pausing the certificate making equipment, taking out a press clamping block, putting the blank cards into the card sending box, putting the press clamping block after finishing the discharging, and recovering the certificate making equipment to start the certificate making; when one packet of data is finished, operators need to manually classify the finished cards at the corresponding clamping grooves, pick out the clamping pieces with the defects in preparation, and place the finished cards with the defects in preparation and the finished cards with the defects at the respective storage points. The large amount of manual operation in the certificate making process has the problems of higher labor cost, easy error, lower working efficiency and the like, thereby seriously affecting the certificate making efficiency of a certificate making system.

At present, the personalized production of the identity card and the inbound certificate is mainly completed by using a certificate making integrated machine, and the certificate making integrated machine has the functions of electric writing, printing, OCR (optical character recognition), electric verification and the like, is simple to operate, and greatly improves the certificate making efficiency. However, the existing certificate making system needs frequent operation of an operator, for example, when a card issuing box does not have a card, the operator needs to go to a storehouse to get a blank certificate, the system needs to be suspended before discharging, the pressing clamping block is taken out, and after discharging, the pressing clamping block is placed again and the certificate making is resumed. When one packet of data is finished, the operator needs to go to the corresponding clamping groove to take out the finished card. With the development of artificial intelligence technology, the unmanned concept falls to the ground in various fields, and manual intervention is reduced as much as possible for personalized production of certificates, and the manual labor is replaced by machine labor.

Therefore, a technique is needed to enable automated production of personalized credential cards.

Disclosure of Invention

The technical scheme of the invention provides a method and a system for manufacturing personalized certificate cards, which are used for solving the problem of how to automatically manufacture personalized certificate cards.

In order to solve the above problems, the present invention provides a method for manufacturing a personalized credential card, the method comprising:

setting a material shortage point, acquiring the number of certificates to be manufactured, and inquiring the number of blank cards of the producible certificates;

when the number of the certificates to be manufactured is smaller than the number of the certificates corresponding to the material shortage points, receiving a certificate data packet to be manufactured;

when the number of blank cards of the producible certificate is smaller than the number of the corresponding certificates of the material shortage points, and when the number of the certificates to be produced is larger than the number of the blank cards of the producible certificate, sending the information of the number of the blank cards of the producible certificate, and automatically increasing the number of the blank cards of the producible certificate according to the number of the blank cards of the producible certificate by a robot;

and manufacturing the certificate card through a certificate manufacturing system based on the certificate information in the certificate data packet to be manufactured.

Preferably, the certificate data packet to be manufactured comprises a plurality of pieces of certificate information to be manufactured;

and automatically receiving the certificate data packet to be manufactured according to the ordering rule.

Preferably, the method further comprises:

and sequencing the certificate data packets to be manufactured based on an bubbling sequencing method, and automatically receiving the certificate data packets to be manufactured according to the sequence after sequencing.

Preferably, the method further comprises: and after the certificate card to be manufactured is manufactured, collecting the manufactured finished product card by a robot.

Preferably, the method further comprises: and controlling the robot by a robot scheduling system according to the information transmitted by the optical isolation exchange server, and controlling the robot to add blank cards or collect finished product cards.

Preferably, the method further comprises: setting a plurality of blank card quantity detection of the points, and selecting card manufacturing points according to the blank card quantity of the detected points.

In accordance with another aspect of the present invention, there is provided a system for personalizing a credential card, the system comprising:

the initial unit is used for setting material shortage points, acquiring the number of certificates to be manufactured, and inquiring the number of blank cards capable of manufacturing the certificates;

the receiving unit is used for receiving the certificate data packet to be manufactured when the number of the certificates to be manufactured is smaller than the number of the certificates corresponding to the material shortage points;

the feeding unit is used for sending the blank card shortage number information of the producible certificate when the number of the blank cards of the producible certificate is smaller than the number of the corresponding certificates of the material shortage points and when the number of the certificates to be produced is larger than the number of the blank cards of the producible certificate, and automatically increasing the blank cards of the producible certificate according to the blank card shortage number of the producible certificate through a robot;

and the execution unit is used for manufacturing the certificate card through the certificate manufacturing system based on the certificate information in the certificate data packet to be manufactured.

Preferably, the certificate data packet to be manufactured comprises a plurality of pieces of certificate information to be manufactured;

and automatically receiving the certificate data packet to be manufactured according to the ordering rule.

Preferably, the receiving unit is further configured to:

and sequencing the certificate data packets to be manufactured based on an bubbling sequencing method, and automatically receiving the certificate data packets to be manufactured according to the sequence after sequencing.

Preferably, the card manufacturing device further comprises a collecting unit, wherein the collecting unit is used for collecting finished cards after the certificate cards to be manufactured are manufactured through a robot.

Preferably, the system further comprises a control unit, wherein the control unit is used for controlling the robot according to the information transmitted by the optical isolation exchange server through the robot scheduling system, and controlling the robot to add blank cards or collect finished product cards.

Preferably, the card manufacturing device further comprises a setting unit, wherein the setting unit is used for setting the blank card quantity detection of multiple points, and selecting card manufacturing points according to the blank card quantity of the detected points.

The technical scheme of the invention provides a method and a system for manufacturing a personalized certificate card, wherein the method comprises the following steps: setting a material shortage point, acquiring the number of certificates to be manufactured, and inquiring the number of blank cards of the producible certificates; when the number of certificates to be manufactured is smaller than the number of certificates corresponding to the material shortage points, receiving a certificate data packet to be manufactured; when the number of the blank cards of the producible certificate is smaller than the number of the corresponding certificates of the material shortage points, and when the number of the certificates to be produced is larger than the number of the blank cards of the producible certificate, sending the information of the number of the blank cards of the producible certificate, and automatically increasing the number of the blank cards of the producible certificate according to the number of the blank cards of the producible certificate by a robot; and manufacturing the certificate card through a certificate manufacturing system based on the certificate information in the certificate data packet to be manufactured. According to the technical scheme, the feeding control is realized based on the robot, and the number of data to be made and the number of blank cards are combined, so that the automatic certificate making efficiency is improved, and the processing work in the ending stage is reduced.

Drawings

Exemplary embodiments of the present invention may be more completely understood in consideration of the following drawings:

FIG. 1 is a flow chart of a method of manufacturing a personalized credential card in accordance with a preferred embodiment of the present invention;

FIG. 2 is a block diagram of a personalized credential card production system in accordance with a preferred embodiment of the present invention; and

fig. 3 is a block diagram of a personalized credential card manufacturing system in accordance with a preferred embodiment of the present invention.

Detailed Description

The exemplary embodiments of the present invention will now be described with reference to the accompanying drawings, however, the present invention may be embodied in many different forms and is not limited to the examples described herein, which are provided to fully and completely disclose the present invention and fully convey the scope of the invention to those skilled in the art. The terminology used in the exemplary embodiments illustrated in the accompanying drawings is not intended to be limiting of the invention. In the drawings, like elements/components are referred to by like reference numerals.

Unless otherwise indicated, terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art. In addition, it will be understood that terms defined in commonly used dictionaries should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense.

FIG. 1 is a flow chart of a method for manufacturing a personalized credential card in accordance with a preferred embodiment of the present invention. The application provides a control method of a certificate personalized certification system, which is used for controlling and processing blank certificates and certification data. The certificate making system utilizes a robot to realize the placement of blank certificates and the taking of finished cards. In the control method, the system judges whether the blank certificates are in shortage or not by detecting the number of the blank certificates, if the blank certificates meet the shortage condition, a message is sent to the robot to request the feeding, the system provides the certificate number detection of multiple points, and a user selects the material shortage points according to the needs. The system certificate needs blank certificates on one hand, and needs certificate making data on the other hand, one data packet comprises a plurality of pieces of data to be certificate making, the data packet is displayed in the system, and a certificate making person needs to sign the data packet under a personal name to make a certificate by using the certificate making system. When the system meets the material shortage condition, the system firstly judges whether the number of the data to be made is less than the material shortage point position, if not less than the material shortage point position, the system requests the robot to feed a message, and at the moment, the evidence making equipment continues to make the evidence. If the number of the data to be made is less than the material shortage point, the data to be made is not provided, and the feeding is not triggered. The control method realizes feeding control based on the robot, combines the number of data to be made and the number of blank certificates, improves the efficiency of automatic certificate making, and reduces the processing work of the ending stage. As shown in fig. 1, the present application provides a method for manufacturing a personalized credential card, the method comprising:

preferably, in step 101: setting material shortage points, acquiring the number of certificates to be manufactured, and inquiring the number of blank cards capable of manufacturing the certificates. Preferably, the certificate data packet to be manufactured contains a plurality of pieces of certificate information to be manufactured; and automatically receiving the certificate data packet to be manufactured according to the ordering rule. Preferably, the method further comprises: and sequencing the certificate data packets to be manufactured based on the bubbling sequencing method, and automatically receiving the certificate data packets to be manufactured according to the sequence after sequencing. The card making system acquires the data quantity to be made, and if the data quantity is smaller than the material shortage point position, the data package is automatically signed and received according to the rule. The data to be made of the certificate is data used for making the certificate, one data packet comprises a plurality of pieces of data to be made of the certificate, the data are displayed in the system, and a certificate making person needs to sign the data packet under a personal name to make the certificate by using the certificate making system. The signing data packet rule of the application refers to that data packets needing to be made by an automatic certificate making system are screened out firstly according to the data packet command rule, then automatic signing is carried out according to the ordering rule, and signing is carried out under the current certificate making name. When the data packet is screened, the data packet which needs to be made by the making system is screened according to the making type number, and then is ordered based on conditions such as net points, time, serial numbers and the like, ordered based on an bubbling ordering method, and signed and received one by one according to the sequence.

Preferably, at step 102: and when the number of certificates to be manufactured is smaller than the number of certificates corresponding to the material shortage points, receiving a certificate data packet to be manufactured.

Preferably, in step 103: when the number of the blank cards of the producible certificate is smaller than the number of the corresponding certificates of the material shortage points, and when the number of the certificates to be produced is larger than the number of the blank cards of the producible certificate, the information of the number of the blank cards of the producible certificate is sent, and the number of the blank cards of the producible certificate is automatically increased according to the number of the blank cards of the producible certificate through a robot.

When the system meets the material shortage condition, if the number of the data to be made is smaller than the number of the material shortage points, the data to be made is not shown, and the material shortage feeding is not triggered; and if the number of the data to be prepared is not less than the number of the material shortage points, triggering material shortage and feeding, and sending a feeding message to the robot. The material shortage point position of the system provides a multi-point blank certificate quantity detection function, and a user sets the material shortage point position in the system.

Preferably, at step 104: and manufacturing the certificate card through a certificate manufacturing system based on the certificate information in the certificate data packet to be manufactured.

Preferably, the method further comprises: and after the certificate card to be manufactured is manufactured, collecting the manufactured finished product card by a robot.

Preferably, the method further comprises: and controlling the robot by the robot scheduling system according to the information transmitted by the optical isolation exchange server, and controlling the robot to add blank cards or collect finished product cards. According to the method, the robot is used for realizing the loading placement of the blank certificates and the collection and the taking of the finished product cards, when the number of the blank certificates is detected to meet the material shortage condition, if the number of the data to be prepared is smaller than the number of the material shortage points, the fact that the data to be prepared is not available is indicated, and the material shortage is not triggered; and if the number of the data to be verified is not less than the number of the material shortage points, triggering material shortage and sending a feeding message to the robot.

Preferably, the method further comprises: setting a plurality of blank card quantity detection of the points, and selecting card manufacturing points according to the blank card quantity of the detected points.

The application provides a control method of a certificate personalized certificate making system, as shown in fig. 2, which relates to the following parts: robot, wireless AP, robot dispatch system, light isolation exchange server (robot private network), light isolation exchange server (production private network) and certification system.

And (3) a robot: the feeding and discharging device is used for realizing the transportation of certificates and the feeding and discharging of a certificate making system;

wireless AP: the communication control device is used for realizing communication control of the robot;

robot scheduling system: the scheduling control method is used for realizing the scheduling control of the robot;

optical isolation switching server (robot private network): the processing method is used for the information exchange of the robot end;

optical isolation switching server (production private network): the method is used for processing information exchange of the certificate making system end;

and (3) a certificate making system: is used for realizing personalized production of certificates.

For a certificate personalized certificate making system, the certificate making system and the optical isolation exchange server are communicated in a WebService mode, and a json format is adopted as a data format.

Firstly, acquiring the number of data to be prepared, and if the number is smaller than the material shortage point position, automatically signing in a data packet according to a rule; when the card making system meets the material shortage condition, if the number of the data to be made is smaller than the number of the material shortage points, the data to be made is not shown, and the material shortage is not triggered; and if the number of the data to be verified is not less than the number of the material shortage points, triggering material shortage and sending a feeding message to the robot.

The data to be made of the application refers to data used for making the certificate, one data packet comprises a plurality of pieces of data to be made of the certificate, the data are displayed in the system, and a certificate making person needs to sign the data packet under a personal name to make the certificate by using the certificate making system.

The material shortage point position of the system provides a multi-point blank certificate quantity detection function, and a user sets the material shortage point position in the system.

The signing data packet rule of the application refers to that data packets needing to be made by an automatic certificate making system are screened out firstly according to the data packet command rule, then automatic signing is carried out according to the ordering rule, and signing is carried out under the current certificate making name. When the data packet is screened, the data packet which needs to be made by the evidence making system is screened according to the evidence making type number, and then is ordered based on conditions such as net points, time, serial numbers and the like, ordered based on an bubbling ordering method, and signed and received one by one according to the order.

According to the method, the robot is used for realizing the placement of the blank certificates and the taking of the finished product cards, when the system detects that the number of the blank certificates meets the material shortage condition, if the number of the data to be prepared is smaller than the number of the material shortage points, the fact that the data to be prepared is not available is indicated, and the material shortage is not triggered; and if the number of the data to be verified is not less than the number of the material shortage points, triggering material shortage and sending a feeding message to the robot.

The automatic certificate making device is based on the robot to realize feeding control, and combines the data quantity to be made with the blank certificate quantity, so that the automatic certificate making efficiency is improved, and the processing work of a ending stage is reduced.

Fig. 3 is a block diagram of a personalized credential card manufacturing system in accordance with a preferred embodiment of the present invention. As shown in fig. 3, the present application provides a personalized credential card production system, the system comprising:

the initial unit 301 is configured to set a material shortage point, and is configured to obtain the number of certificates to be manufactured, and inquire the number of blank cards capable of manufacturing the certificates. Preferably, the certificate data packet to be manufactured contains a plurality of pieces of certificate information to be manufactured; and automatically receiving the certificate data packet to be manufactured according to the ordering rule. Preferably, the receiving unit is further configured to: and sequencing the certificate data packets to be manufactured based on the bubbling sequencing method, and automatically receiving the certificate data packets to be manufactured according to the sequence after sequencing. The card making system acquires the data quantity to be made, and if the data quantity is smaller than the material shortage point position, the data package is automatically signed and received according to the rule. The data to be made of the certificate is data used for making the certificate, one data packet comprises a plurality of pieces of data to be made of the certificate, the data are displayed in the system, and a certificate making person needs to sign the data packet under a personal name to make the certificate by using the certificate making system. The signing data packet rule of the application refers to that data packets needing to be made by an automatic certificate making system are screened out firstly according to the data packet command rule, then automatic signing is carried out according to the ordering rule, and signing is carried out under the current certificate making name. When the data packet is screened, the data packet which needs to be made by the making system is screened according to the making type number, and then is ordered based on conditions such as net points, time, serial numbers and the like, ordered based on an bubbling ordering method, and signed and received one by one according to the sequence.

And the receiving unit 302 is configured to receive the certificate data packet to be manufactured when the number of certificates to be manufactured is smaller than the number of certificates corresponding to the material shortage point.

And the feeding unit 303 is configured to send information of the number of missing blank cards of the producible certificate when the number of blank cards of the producible certificate is smaller than the number of corresponding certificates of the material missing points, and automatically increase the number of blank cards of the producible certificate according to the number of missing blank cards of the producible certificate by the robot when the number of the to-be-produced certificates is greater than the number of the blank cards of the producible certificate. When the system meets the material shortage condition, if the number of the data to be made is smaller than the number of the material shortage points, the data to be made is not shown, and the material shortage feeding is not triggered; and if the number of the data to be prepared is not less than the number of the material shortage points, triggering material shortage and feeding, and sending a feeding message to the robot. The material shortage point position of the system provides a multi-point blank certificate quantity detection function, and a user sets the material shortage point position in the system.

And the execution unit 304 is used for making the certificate card through the certificate making system based on the certificate information in the certificate data packet to be made.

Preferably, the card collecting device further comprises a collecting unit, wherein the collecting unit is used for collecting finished cards after the certificate cards to be manufactured are manufactured through a robot.

Preferably, the system further comprises a control unit, wherein the control unit is used for controlling the robot according to the information transmitted by the optical isolation exchange server through the robot scheduling system, and controlling the robot to add blank cards or collect finished cards. According to the method, the robot is used for realizing the loading placement of the blank certificates and the collection and the taking of the finished product cards, when the number of the blank certificates is detected to meet the material shortage condition, if the number of the data to be prepared is smaller than the number of the material shortage points, the fact that the data to be prepared is not available is indicated, and the material shortage is not triggered; and if the number of the data to be verified is not less than the number of the material shortage points, triggering material shortage and sending a feeding message to the robot.

Preferably, the card manufacturing device further comprises a setting unit, wherein the setting unit is used for setting the blank card quantity detection of multiple points, and selecting card manufacturing points according to the blank card quantity of the detected points.

The application utilizes the robot to realize the placement of blank certificates and the taking of finished cards. In the control method, the system judges whether the blank certificates are in shortage or not by detecting the quantity of the blank certificates, if the blank certificates meet the shortage condition, the system requests the robot to feed the certificates, the system provides certificate quantity detection of multiple points, such as non-clamping points, 20 clamping points, 60 clamping points and the like, and a user selects the shortage of the certificates according to the needs. The system certificate needs blank certificates on one hand, and needs certificate making data on the other hand, one data packet comprises a plurality of pieces of data to be certificate making, the data packet is displayed in the system, and a certificate making person needs to sign the data packet under a personal name to make a certificate by using the certificate making system. The method can set a plurality of point digits, for example, 60 points are selected as material shortage points, the system acquires the number of data to be made during the making of the certificate, if the number of the data is smaller than 60, a data packet is automatically signed according to rules, when the number of the blank certificates is smaller than 60, the system firstly judges whether the number of the data to be made is smaller than 60, if the number of the data to be made is not smaller than 60, the system requests feeding, for example, 80 cards, to a robot message, and at the moment, the certificate making equipment continues to make the certificate. If the number of the data to be made is less than 60, the data to be made is not provided, and the feeding is not triggered. The automatic certificate making device is based on the robot to realize feeding control, and combines the data quantity to be made with the blank certificate quantity, so that the automatic certificate making efficiency is improved, and the processing work of a ending stage is reduced.

The invention has been described with reference to a few embodiments. However, as is well known to those skilled in the art, other embodiments than the above disclosed invention are equally possible within the scope of the invention, as defined by the appended patent claims.

Generally, all terms used in the claims are to be interpreted according to their ordinary meaning in the technical field, unless explicitly defined otherwise therein. All references to "a/an/the [ means, component, etc. ]" are to be interpreted openly as referring to at least one instance of said means, component, etc., unless explicitly stated otherwise. The steps of any method disclosed herein do not have to be performed in the exact order disclosed, unless explicitly stated.

Claims (12)

1. A method of making a personalized credential card, the method comprising:

setting a material shortage point, acquiring the number of certificates to be manufactured, and inquiring the number of blank cards of the producible certificates; the material shortage point is obtained by detecting the number of blank documents;

when the material shortage condition is met, if the number of certificates to be made is smaller than the number of certificates corresponding to the material shortage point, no certificates to be made exist, and material shortage feeding is not triggered;

if the number of certificates to be made is not less than the number of certificates corresponding to the material shortage point,

triggering the material shortage feeding; when the number of the certificates to be manufactured is smaller than the number of the certificates corresponding to the material shortage points, receiving a certificate data packet to be manufactured;

when the number of blank cards of the producible certificate is smaller than the number of the corresponding certificates of the material shortage points, and when the number of the certificates to be produced is larger than the number of the blank cards of the producible certificate, sending the information of the number of the blank cards of the producible certificate, and automatically increasing the blank cards of the producible certificate according to the number of the blank cards of the producible certificate by a robot;

and manufacturing the certificate card through a certificate manufacturing system based on the certificate information in the certificate data packet to be manufactured.

2. The method of claim 1, the credential data package to be made comprising a plurality of credential information to be made;

and automatically receiving the certificate data packet to be manufactured according to the ordering rule.

3. The method of claim 2, further comprising:

and sequencing the certificate data packets to be manufactured based on an bubbling sequencing method, and automatically receiving the certificate data packets to be manufactured according to the sequence after sequencing.

4. The method of claim 1, further comprising: and after the certificate card to be manufactured is manufactured, collecting the manufactured finished product card by a robot.

5. The method of claim 1, further comprising: and controlling the robot by a robot scheduling system according to the information transmitted by the optical isolation exchange server, and controlling the robot to add blank cards or collect finished product cards.

6. The method of claim 1, further comprising: setting a plurality of blank card quantity detection of the points, and selecting card manufacturing points according to the blank card quantity of the detected points.

7. A system for producing personalized credential cards, the system comprising:

the initial unit is used for setting material shortage points, acquiring the number of certificates to be manufactured, and inquiring the number of blank cards capable of manufacturing the certificates; the material shortage point is obtained by detecting the number of blank documents; when the material shortage condition is met, if the number of certificates to be made is smaller than the number of certificates corresponding to the material shortage point, no certificates to be made exist, and material shortage feeding is not triggered; triggering the material shortage feeding if the number of certificates to be prepared is not less than the number of certificates corresponding to the material shortage point; the receiving unit is used for receiving the certificate data packet to be manufactured when the number of the certificates to be manufactured is smaller than the number of the certificates corresponding to the material shortage points;

the feeding unit is used for sending the blank card shortage number information of the producible certificate when the number of the blank cards of the producible certificate is smaller than the number of the corresponding certificates of the material shortage points and when the number of the certificates to be produced is larger than the number of the blank cards of the producible certificate, and automatically increasing the blank cards of the producible certificate according to the blank card shortage number of the producible certificate through a robot;

and the execution unit is used for manufacturing the certificate card through the certificate manufacturing system based on the certificate information in the certificate data packet to be manufactured.

8. The system of claim 7, the credential data package to be made comprising a plurality of credential information to be made;

and automatically receiving the certificate data packet to be manufactured according to the ordering rule.

9. The system of claim 8, the receiving unit further to:

and sequencing the certificate data packets to be manufactured based on an bubbling sequencing method, and automatically receiving the certificate data packets to be manufactured according to the sequence after sequencing.

10. The system of claim 7, further comprising a collection unit for collecting finished cards after manufacture by a robot after manufacture of the identification cards to be manufactured.

11. The system of claim 7, further comprising a control unit for controlling the robot by the robot scheduling system according to the information transmitted by the optical isolation switching server, to control the robot to add a blank card or collect a finished card.

12. The system of claim 7, further comprising a setting unit configured to set a multi-point blank card number detection, and select a card manufacturing point according to the detected number of blank cards.