CN114285644A - Electronic lead sealing control method, system and device for block chain application technology - Google Patents

Abstract

The invention discloses an electronic lead sealing control method, system and device for a block chain application technology, and relates to the technical field of electronic lead sealing. The invention comprises the following steps: the method comprises the following steps: generating a dynamic encryption number, wherein the dynamic encryption number is generated through a block chain consensus encryption algorithm and by combining an induction control technology; step two: and sending the dynamic encryption number to a cloud system, and receiving and processing the dynamic encryption number by the cloud system to generate a key certificate. The invention can carry out identity verification on an operator, and lock the position of the electronic lead seal through GIS positioning, so that the electronic lead seal has the functions of tracing, tracing and inquiring, and the condition of tracing information tampering is reduced, thereby reducing dead angles in the management process.

Description

Electronic lead sealing control method, system and device for block chain application technology

Technical Field

The invention belongs to the technical field of electronic lead sealing, and particularly relates to an electronic lead sealing control method, system and device for a block chain application technology.

Background

The electronic lead seal is a new generation of electronic lead seal product developed based on the traditional one-time lead seal of simple codes, bar codes or two-dimensional codes which are popular in the market at present.

The disposable lead seal has the functions of preventing goods or information from being stolen, divulged, damaged and exchanged, and the opened lead seal can only be scrapped and cannot be reused as long as the lead seal is correctly locked. However, these conventional disposable lead seals have simple structures, are easy to copy and open, and need to be sealed, recorded and checked by multiple departments and multiple personnel in cooperation if the management is performed by simple lead seal coding, bar code and two-dimensional code lead seal modes. On the one hand, the labor cost of enterprises is increased, and on the other hand, corresponding dead angles exist in the practical process supervision, so that great potential safety hazards are easily caused.

At present, electronic lead sealing schemes in near-field communication modes such as Bluetooth, RFID, electronic two-dimensional codes and the like are adopted in the market. The method has the characteristics of incomplete tracing and searching, poor safety, relatively-falsifiable tracing information, dead angle in process management and high cost.

Disclosure of Invention

The invention aims to provide an electronic lead sealing control method, system and device for a block chain application technology, and solves the technical problems that tracing and searching are not completely provided, the safety is poor, tracing information can be tampered relatively, and dead angles exist in process management in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme:

an electronic lead sealing control method of a block chain application technology comprises the following steps:

the method comprises the following steps: generating a dynamic encryption number, wherein the dynamic encryption number is generated through a block chain consensus encryption algorithm and by combining an induction control technology;

step two: the dynamic encryption number is sent to a cloud system, the cloud system receives and processes the dynamic encryption number to generate a key certificate, the cloud system stores, calculates, matches, isolates and verifies the dynamic encryption number after receiving the dynamic encryption number to generate the key certificate, and an operator can access the cloud system by using any one of a mobile phone APP, an applet, a web page or a terminal web to obtain the key certificate;

step three: acquiring a key certificate, performing lead sealing and unsealing, acquiring current information data and uploading the current information data to a cloud end system, wherein the information data comprises the current running state of the electronic lead seal, operators, running serial numbers and GIS addresses;

step four: and when the lead seal needs to be sealed, the step one is executed again.

Optionally, when the electronic lead seal is normally sealed, the electronic lead seal generates a new dynamic encryption number through a block chain consensus encryption algorithm and by combining an induction control technology, and uploads the sealing state, the sealing operator, the sealing serial number and the sealing GIS address to the cloud end at the same time;

when the electronic lead seal is normally unsealed, the electronic lead seal can generate a new dynamic encryption number through a block chain consensus encryption algorithm and by combining an induction control technology, and the unsealing state, the unsealing operator, the unsealing sequence number and the unsealing GIS address are uploaded to the cloud.

An electronic lead sealing control system for block chain application technology comprises:

an encryption unit: the system is used for generating a dynamic encryption number through a block chain consensus encryption algorithm and by combining an induction control technology;

a transmission unit: the system is used for sending the dynamic encryption number to the cloud system;

a control unit: the system is used for acquiring the key certificate, unsealing or sealing and automatically uploading current information data to the cloud system;

wherein, the control unit includes:

the acquisition module is used for acquiring the key certificate;

the control module is used for controlling the electronic lead seal to be unsealed or sealed;

and the data transmission module is used for uploading the current information data to the cloud system.

Optionally, the cloud system includes:

a connection unit: the near field NB-LOT communication transmission device is used for carrying out near field NB-LOT low power consumption communication transmission with a user terminal;

a decryption unit: the system is used for storing, calculating, matching, isolating and verifying the dynamic encryption number and generating a key certificate.

An electronic lead sealing control device for block chain application technology comprises: the lead sealing shell is provided with a first steel cable fixing pile and a second steel cable fixing pile, a rod body is in sliding fit in the second steel cable fixing pile, and anti-backspacing grooves are formed in the periphery of the rod body;

the lower side of the rod body is provided with a longitudinal monitoring return rod, the lower side of the longitudinal monitoring return rod is provided with a longitudinal contact sensor, a lead sealing shell is internally provided with a transverse monitoring push rod matched with the rod body, and the lead sealing shell is internally provided with a limiting monitoring motor, a limiting sensor matched with the limiting monitoring motor and a lead sealing main board, wherein one side of the transverse monitoring push rod is provided with a trapezoidal bulge, and one end of the trapezoidal bulge is provided with an arc-shaped groove matched with the anti-returning groove.

Optionally, awakening button is fixedly arranged on one side of the inner cavity, a through hole is formed in one side of the lead capsule, the output end of the awakening button extends out of the through hole, and a button cover plate matched with the awakening button is arranged on one side of the through hole.

The embodiment of the invention has the following beneficial effects:

the invention can carry out identity verification on an operator, and lock the position of the electronic lead seal through GIS positioning, so that the electronic lead seal has the functions of tracing, tracing and inquiring, and the condition of tracing information tampering is reduced, thereby reducing dead angles in the management process.

Therefore, the electronic lead sealing product design is a novel electronic lead sealing developed on the basis of the existing lead sealing, and is also based on a hardware subsystem for deepened control in the tracing field of industries such as food, medicine and the like, so that the transportation process of the food, raw materials and the like is controlled, and multiple purposes of tracing, anti-cheating, cost saving and the like are achieved.

The principle of the electronic lead sealing system of the product is composed of a front-end service submission part, a back-end cloud system management part and a peripheral hardware subsystem. By utilizing an internet of things block chain technology, tracking and tracing the whole course of the vehicle corresponding to each transport order; the front end is connected with production traceability information, the rear end is connected with processing traceability information, the middle section tracks the track of a transport vehicle, the weight, the temperature, safety information of a transporter and the like, and source accurate information is provided for traceability of food, medicines and the like.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a flow chart of a control method according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of an electronic lead seal according to an embodiment of the invention;

fig. 3 is a schematic view of an internal structure of an electronic lead seal according to an embodiment of the invention;

fig. 4 is a schematic view of an electronic lead sealing structure according to an embodiment of the invention.

Wherein the figures include the following reference numerals:

the lead capsule 1, the button cover plate 2, awakening button 3, the cable wire spud pile 4, lead sealing bottom clamping seat 5, anti-rollback groove 6, vertical monitoring return rod 7, horizontal monitoring push rod 8, vertical contact sensor 9, limit sensor 10, battery 11, lead sealing mainboard 12, limit monitoring motor 13, second cable wire spud pile 20, rod body 21, trapezoidal protrusion 22, arc-shaped groove 23, partition plate 24, first standing groove 25, second standing groove 26, third standing groove 27, fourth standing groove 28, fifth standing groove 29, sixth standing groove 30 and through hole 31.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

To maintain the following description of the embodiments of the present invention clear and concise, a detailed description of known functions and known components of the invention have been omitted.

Example 1:

referring to fig. 1-4, in the present embodiment, a method for controlling an electronic lead seal of a block chain application technology is provided, wherein when the electronic lead seal is unsealed, the method includes the following steps:

the method comprises the following steps: generating a dynamic encryption number, wherein the dynamic encryption number is generated through a block chain consensus encryption algorithm and by combining an induction control technology;

step two: the dynamic encryption number is sent to a cloud system, the cloud system receives and processes the dynamic encryption number to generate a key certificate, the cloud system stores, calculates, matches, isolates and verifies the dynamic encryption number after receiving the dynamic encryption number to generate the key certificate, and an operator can access the cloud system by using any one of a mobile phone APP, an applet, a web page or a terminal web to obtain the key certificate;

step three: acquiring a key certificate, performing lead sealing and unsealing, acquiring current information data and uploading the current information data to a cloud end system, wherein the information data comprises the current running state of the electronic lead seal, operators, running serial numbers and GIS addresses;

step four: and when the lead seal needs to be sealed, the step one is executed again.

It should be noted that all the electric devices referred to in this application may be powered by a storage battery or an external power source.

The invention can carry out identity verification on an operator, and lock the position of the electronic lead seal through GIS positioning, so that the electronic lead seal has the functions of tracing, tracing and inquiring, and the condition of tracing information tampering is reduced, thereby reducing dead angles in the management process.

When a user needs to seal or unseal the electronic lead seal, the following two operation modes are provided:

1) when the electronic lead seal is normally sealed, the electronic lead seal generates a new dynamic encryption number through a block chain consensus encryption algorithm and by combining an induction control technology, and uploads the sealing state, the sealing operator, the sealing serial number and the sealing GIS address to the cloud end at the same time;

2) when the electronic lead seal is normally unsealed, the electronic lead seal generates a new dynamic encryption number through a block chain consensus encryption algorithm and by combining an induction control technology, and the unsealing state, the unsealing operator, the unsealing sequence number and the unsealing GIS address are uploaded to the cloud.

Example 2:

referring to embodiment 1, another aspect of the present invention provides an electronic lead seal control system for a block chain application technology, where the system is loaded with the method according to any one of embodiments 1 to implement electronic lead seal control on the block chain application technology, and specifically includes:

an encryption unit: the system is used for generating a dynamic encryption number through a block chain consensus encryption algorithm and by combining an induction control technology;

a transmission unit: the system is used for sending the dynamic encryption number to the cloud system;

a control unit: the system is used for acquiring the key certificate, unsealing or sealing and automatically uploading current information data to the cloud system;

wherein, the control unit includes:

the acquisition module is used for acquiring the key certificate;

the control module is used for controlling the electronic lead seal to be unsealed or sealed;

and the data transmission module is used for uploading the current information data to the cloud system.

The cloud system of this embodiment includes:

a connection unit: the near field NB-LOT communication transmission device is used for carrying out near field NB-LOT low power consumption communication transmission with a user terminal;

a decryption unit: the system is used for storing, calculating, matching, isolating and verifying the dynamic encryption number and generating a key certificate.

The electronic lead sealing hardware product of the embodiment is internally provided with a micro-processing chip, a block chain consensus encryption algorithm is stored, and different lead sealing encryption numbers are dynamically generated by combining an internal induction control technology of a lead sealing body;

and (4) storing, calculating, matching, isolating and verifying the obtained electronic lead seal ciphertext by using the mobile phone app or the applet in the cloud system software by operators with different authorities to obtain the lead seal data, and generating the key certificate. The electronic lead seal carries out sealing or unsealing through internal mechanical transmission after verifying the returned certificate;

and uploading the whole lead seal original data in the process of sealing or unsealing the electronic lead seal, and performing GIS landmark locking, service scene, time and the like on the positioning of the current node through the uploaded data to perform authentication and recording.

Example 3:

referring to embodiment 1, another aspect of the present invention provides an electronic lead sealing control device for a block chain application technology, including: the lead sealing device comprises a lead sealing shell 1, wherein a wake-up button 3 is arranged on one side of the lead sealing shell 1, a first steel cable fixing pile 4 and a second steel cable fixing pile 20 are arranged on the lead sealing shell 1, a rod body 21 is in sliding fit in the second steel cable fixing pile 20, anti-backspacing grooves 6 are formed in the periphery of the rod body 21, and a lead sealing bottom clamping seat 5 is arranged on the lower side of the lead sealing shell 1;

the lower side of the rod body 21 is provided with a longitudinal monitoring return rod 7, the lower side of the longitudinal monitoring return rod 7 is provided with a longitudinal contact sensor 9, a transverse monitoring push rod 8 matched with the rod body 21 is arranged in the lead sealing shell 1, and a limiting monitoring motor 13, a limiting sensor 10 matched with the limiting monitoring motor 13 and a lead sealing main board 12 are arranged in the lead sealing shell 1.

The application of one aspect of the embodiment is as follows: when sealing the lead seal, if cheating is carried out, other metal rods are inserted, the longitudinal contact sensor 9 and the limit sensor 10 are started, judgment is carried out in sequence, and when the judgment result is that the cheating is started, the electronic lead seal equipment is awakened and started, so that the electronic lead seal equipment generates a new abnormal lead seal encryption sequence to be stored, and meanwhile, alarming and recording corresponding logs are carried out;

when the electronic lead sealing equipment is sealed, after the contact sensor 9 receives a signal, the battery 11 and the lead sealing mainboard 12 drive the limit monitoring motor 13, the transverse monitoring push rod 8 is pushed by the limit monitoring motor 13, after the limit sensor 10 monitors that the sealing is in place, the sealing steel wire strip clamping groove is locked, the sealing strip is prevented from returning, and meanwhile, the electronic lead sealing equipment generates a new lead seal for encrypted storage and uploads the new lead seal to the cloud;

when the electronic lead seal equipment is subjected to lead seal deblocking, if the sealing is performed in a normal mode, the awakening button 3 is started during deblocking, whether a communication key certificate of a visiting terminal is consistent or not is verified through the electronic lead seal, when the verification result is consistent, the electronic lead seal sends a current encrypted lead seal ciphertext to the terminal, a terminal program and a cloud system analyze the ciphertext consensus algorithm to generate a decryption key, when the decryption key is consistent with the electronic lead seal, the limiting monitoring motor 13 is driven, the limiting monitoring motor 13 drives the transverse monitoring push rod 8 to move, and when the limiting sensor 10 monitors deblocking in place, the electronic lead seal generates a new lead seal sequence for encryption, and decapsulators, decapsulation numbers, decapsulation GIS places and the like are recorded.

The awakening button 3 of this embodiment is fixedly arranged at one side of the inner cavity, one side of the lead capsule 1 is provided with a through hole 31, the output end of the awakening button 3 extends out of the through hole 31, and one side of the through hole 31 is provided with a button cover plate 2 matched with the awakening button 3. Through the button cover plate 2 that sets up, can shelter from through-hole 31 on the one hand to improve the pleasing to the eye of electron lead sealing, on the other hand can carry on spacingly to awakening button 3, thereby improves awakening button 3's stability.

One side of the transverse monitoring push rod 8 of the embodiment is provided with a trapezoidal protrusion 22, and one end of the trapezoidal protrusion 22 is provided with an arc-shaped groove 23 matched with the anti-rollback groove 6. Through the arc wall 23 that sets up, can mutually support with prevent groove 6 that backs to carry out the joint, make horizontal monitoring push rod 8 spacing, fixed to the body of rod 21.

The lead sealing shell 1 of the embodiment is internally provided with a battery 11 matched with a longitudinal monitoring return rod 7, a longitudinal contact sensor 9, a transverse monitoring push rod 8, a limit monitoring motor 13, a limit sensor 10 and a lead sealing main board 12.

The lead sealing shell 1 of the embodiment is provided with an inner cavity, the inner cavity is provided with a plurality of partition boards 24, and the inner cavity is divided into a first placing groove 25, a second placing groove 26, a third placing groove 27, a fourth placing groove 28, a fifth placing groove 29 and a sixth placing groove 30 by the plurality of partition boards 21.

The transverse monitoring push rod 8 of the embodiment is arranged in a first placing groove 25, the rod body 21, the longitudinal monitoring return rod 7 and the longitudinal contact sensor 9 are all arranged in a second placing groove 26, the limit monitoring motor 13 is arranged in a third placing groove 27, the limit sensor 10 is arranged in a fourth placing groove 28, the lead sealing mainboard 12 is arranged in a fifth placing groove 29, and the awakening button 3 is arranged in a sixth placing groove 30;

the second placement groove 26, the third placement groove 27, the fourth placement groove 28, and the fifth placement groove 29 are sequentially disposed from a side close to the rod body 21 to a side far from the rod body 21 in the inner cavity, and the first placement groove 25 and the sixth placement groove 30 are respectively located on upper and lower sides of the second placement groove 26, the third placement groove 27, the fourth placement groove 28, and the fifth placement groove 29.

Specifically, the invention has the following technical characteristics and advantages:

1. binding and using, and agile deployment;

2. a high-performance PBFT and RAFT block chain consensus algorithm is adopted, electronic lead sealing hardware is matched to generate an encrypted lead sealing data uploading module, and data 'original package' uploading is guaranteed;

3. supporting cloud distributed storage expansion and bidirectional encrypted storage of software and hardware;

4. the privacy and isolation of a tracing matrix chain channel and software and hardware data are supported;

5. the privacy control supporting data column level/row level supports the key certificate management and the national cryptographic algorithm of hardware, software and a collaborative mode;

6. supporting trusted hardware block based node certificate validation;

7. position locking of node placement based on Beidou is supported;

8. hardware identity authentication is supported.

The above embodiments may be combined with each other.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.

In the description of the present invention, it is to be understood that the orientation or positional relationship indicated by the orientation words such as "front, rear, upper, lower, left, right", "lateral, vertical, horizontal" and "top, bottom", etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplicity of description, and in the case of not making a reverse description, these orientation words do not indicate and imply that the device or element being referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be considered as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.

Claims (10)

1. An electronic lead sealing control method of a block chain application technology is characterized by comprising the following steps:

the method comprises the following steps: generating a dynamic encryption number, wherein the dynamic encryption number is generated through a block chain consensus encryption algorithm and by combining an induction control technology;

step two: sending the dynamic encryption number to a cloud system, receiving and processing the dynamic encryption number by the cloud system, and generating a key certificate;

step three: acquiring a key certificate, performing lead sealing and unsealing, acquiring current information data, and uploading the current information data to a cloud end system;

step four: and when the lead seal needs to be sealed, the step one is executed again.

2. The method as claimed in claim 1, wherein the cloud system stores, calculates, matches, isolates, and verifies the dynamic encryption number after receiving the dynamic encryption number, so as to generate the key certificate.

3. The method as claimed in claim 1, wherein the information data includes current operation status of the electronic lead seal, operator, operation serial number, and GIS address.

4. The method as claimed in claim 3, wherein when the electronic lead seal is normally sealed, the electronic lead seal generates a new dynamic encryption number by using a blockchain consensus encryption algorithm in combination with an induction control technique, and uploads the sealing state, the sealing operator, the sealing serial number, and the sealing GIS address to the cloud.

5. The method as claimed in claim 3, wherein when the electronic lead seal is normally unsealed, the electronic lead seal generates a new dynamic encryption number by using a blockchain consensus encryption algorithm in combination with an induction control technique, and uploads the unsealing status, the unsealing operator, the unsealing serial number, and the unsealing GIS address to the cloud.

6. An electronic lead sealing control system for block chain application technology, comprising:

an encryption unit: the system is used for generating a dynamic encryption number through a block chain consensus encryption algorithm and by combining an induction control technology;

a transmission unit: the system is used for sending the dynamic encryption number to the cloud system;

a control unit: and the system is used for acquiring the key certificate, unsealing or sealing and automatically uploading current information data to the cloud end system.

7. The electronic lead seal control system of claim 6, wherein the cloud system comprises:

a connection unit: the near field NB-LOT communication transmission device is used for carrying out near field NB-LOT low power consumption communication transmission with a user terminal;

a decryption unit: the system is used for storing, calculating, matching, isolating and verifying the dynamic encryption number and generating a key certificate.

8. An electronic lead sealing control device for block chain application technology is characterized by comprising: the lead sealing device comprises a lead sealing shell (1), wherein a wake-up button (3) is arranged on one side of the lead sealing shell (1), a first steel cable fixing pile (4) and a second steel cable fixing pile (20) are arranged on the lead sealing shell (1), a rod body (21) is in sliding fit in the second steel cable fixing pile (20), and anti-rollback grooves (6) are formed in the peripheral side of the rod body (21);

the vertical monitoring return rod (7) is installed on the lower side of the rod body (21), the vertical contact sensor (9) is installed on the lower side of the vertical monitoring return rod (7), the horizontal monitoring push rod (8) matched with the rod body (21) is installed in the lead sealing shell (1), and the limit sensor (10) and the lead sealing main board (12) matched with the limit monitoring motor (13) and the limit monitoring motor (13) are installed in the lead sealing shell (1).

9. The electronic lead sealing control device of block chain application technology as claimed in claim 8, characterized in that the wake-up button (3) is fixedly installed at one side of the inner cavity, a through hole (31) is opened at one side of the lead sealing case (1), the output end of the wake-up button (3) extends out of the through hole (31), and a button cover (2) matched with the wake-up button (3) is installed at one side of the through hole (31).

10. The electronic lead sealing control device of block chain application technology as claimed in claim 8, characterized in that one side of the lateral monitoring push rod (8) is provided with a trapezoidal protrusion (22), and one end of the trapezoidal protrusion (22) is provided with an arc-shaped groove (23) matched with the anti-rollback groove (6).

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