CN115002208A - High-reliability multi-layer digital delivery method - Google Patents

Abstract

The invention relates to the field of networked information transmission, exchange and information security, in particular to a high-reliability multi-layer digital delivery method, which comprises the following specific steps: s1, the sending user and the receiving user agree on the delivery address on line; s2, establishing an electronic document delivery authorization relation between the sending user and the server; s3, sending and signing the electronic document; and S4, proving the delivery process of the electronic document. The invention aims at the electronic document delivery requirements with different importance degrees, combines anti-tampering and evidence fixing technologies such as digital signatures, block chains and the like, realizes the visual high-reliability multi-level digital delivery of the delivery process, is more legal and can self-prove and clear as a neutral third party compared with a privatized deployment delivery system, can download the high-reliability visual electronic receipt, can self-prove, and can leave marks on the whole flow evidences such as signing, delivering, reaching, receiving and the like, and can ensure that the delivery can not be repudiated and can be legally adopted with high reliability.

Description

High-reliability multi-layer digital delivery method

Technical Field

The invention relates to the field of networked information transmission, exchange and information security, in particular to a high-reliability multi-layer digital delivery method.

Background

Electronic document delivery systems for delivering electronic documents via networks such as the internet have long appeared, and the basic technologies of these systems are: a server is provided between a transmitter and a receiver of an electronic document, and when the server receives electronic data from the transmitter, the server sends a notification that the electronic data from the transmitter has been received to the receiver, and the receiver downloads the electronic document from the server. Communication between information devices connected to the internet is possible, for example, by an smtp (simple Mail Transfer protocol) -based email system that has become widespread worldwide. As a technique for confirming that an electronic document is surely transmitted on a network, there is mdn (message distribution notification) of an electronic mail system. On the basis of the technologies, a special client is used for communicating with a server in combination with an encryption and decryption tamper-proof technology, so that the safety and reliability of a receiving and sending process are ensured; the technology meets the requirements of electronic document delivery with low importance degree and serving the public, or a set of system is privately deployed by a user sending a document to meet the requirements of electronic document delivery with high importance degree and serving a few senders, the traditional electronic delivery system only delivers 'copies' of paper documents instead of 'originals', the sender needs to be identified in advance and afterwards, and otherwise, the receiver is difficult to pick up a letter; the delivered electronic document has no electronic signature, and the delivered electronic document cannot be transferred and is directly submitted by a third person (including a court); the delivery systems confirm that the identity of a recipient is not verified, the recipient can not receive and read, the electronic receipt is easy to forge without a CA signature and only a graphic seal, and the delivery process is not visualized in the whole process, so that the use is complex, the experience is poor, the certificate is not convenient to be issued (a user cannot perform self-help certificate issuing), and the requirements of visualization and high reliability cannot be met.

With the progress of IT technology and the relaxation of legal regulations, and the introduction of digital transformation into major development by governments, IT has been proposed to transmit important electronic documents such as decisions, treatises, transaction specifications, and financial institution notices via the internet. These kinds of electronic documents need to be not only ensured to be transmitted and received safely and reliably, but also convenient, easy to popularize and meet the requirements of visual and highly reliable delivery at different levels, and also need to prove the specific processes of transmitting and receiving the electronic documents with high reliability. In most of the prior art, the fact that the electronic document is transmitted and received is proved by establishing a log of letter transmission and letter reception, but the log is generally in a plaintext form, and a reliable safety measure is lacked, so that the log can be subjected to illegal tampering, and the log is unreliable and difficult to visually present as evidence for proving the fact that the electronic document is transmitted and received. With the popularization of visualization technologies such as electronic receipt and the like, part of systems adopt the mode that graphic stamps are synthesized on the receipt to achieve visualization effects, but the graphic stamps have no digital signatures and are easy to forge, and users can only inquire the delivery state, cannot quickly and visually inquire delivery flow and detailed process logs, cannot self-help prove, and cannot meet visualization and highly reliable delivery requirements. Even if the anti-tampering and anti-counterfeiting card fixing technology is adopted to achieve reliable flow in few cases, the verification of the mobile phone number is not reliable when the identity of the addressee is confirmed, the operation flow is complex, a special client is needed, the popularization is not facilitated, and the high-reliability delivery requirements of different levels cannot be met.

Therefore, in order to meet the certification requirements of electronic document sending and receiving facts in electronic document sending occasions with different levels of importance, a new convenient, high-reliability and multi-level intelligent mobile digital sending technology with visual sending process needs to be developed.

Disclosure of Invention

The invention aims to provide a high-reliability multi-layer digital delivery method aiming at the problems in the background technology.

The technical scheme of the invention is as follows: a high-reliability multi-layer digital delivery method comprises the following specific steps:

s1, the sending user and the receiving user agree on the delivery address on line;

s2, establishing an electronic document delivery entrusting relation between the sending user and the server;

s3, sending and signing the electronic document;

and S4, proving the delivery process of the electronic document.

Preferably, the method for the sending user and the receiving user to agree on the delivery address on line comprises the following specific steps:

s21, the sending user informs the receiving user to download the delivery address confirmation template and sign the appointed delivery address on line;

s22, respectively performing account registration and authentication on the sending user and the receiving user;

s23, receiving a delivery address confirmation from a user login account, taking the user login account as a signer, adding a sending user account as a receiver in the process, and initiating a signing process; wherein, the delivery address confirmation comprises the delivery address of the electronic document of the recipient; the address comprises the name, the mobile phone number and Email of the addressee;

s24, the receiving user completes the signature of the delivery address confirmation by the intelligent terminal by adopting the intelligent mobile distributed key signature technology;

s25, the service end sends the delivery address confirmation signed by the receiving user to the sending user;

s26, the sending user logs in the account to receive and read the delivery address confirmation book and then checks the appointed delivery address of the recipient.

Preferably, the method for establishing the electronic document delivery entrusting relationship between the sending user and the server comprises the following specific steps:

s31, the sending user uploads the electronic document to be sent through the intelligent terminal, fills in the address information and the electronic document receiving condition of the addressee, namely the addressee, when the electronic document needs to be signed, adds the signer information, and uploads the filled addressee information, receiving condition and signer information to the server; the receiving conditions are respectively ordinary delivery, password delivery and real person signing, and are selected according to different levels of electronic document delivery;

s32, the server side stores the electronic document after receiving the electronic document;

s33, the server judges whether the delivery process needs to sign the electronic document first,

when the electronic document needs to be signed firstly, the server side informs the signer to sign the document, and the signer logs in the intelligent terminal after receiving the notice to sign the electronic document by adopting an intelligent mobile distributed key signature technology;

when signing is not needed or the signing of the electronic document is finished, the server side respectively calculates the file content, the document name, the sending serial number and the sending flow information of the electronic document to generate hash values, the block chain service stores and returns a block chain certificate, and the file content hash values, the document name, the sending serial number and the sending flow information are combined and recorded into an electronic return-to-the-license;

s34, the server generates an electronic receipt with a digital signature and a trusted timestamp and returns the electronic receipt to the sending user;

s35, the server side updates the state of the electronic document to be a sent state;

s36, the sending user logs in the server to download the electronic receipt as a sending certificate, the sending flow and the time axis, namely the process log, are visually checked through the intelligent terminal in the sending process, and self-help evidence can be obtained by combining the downloaded electronic receipt.

Preferably, the method for electronic document delivery and receipt includes the following steps:

s41, the server side sends an electronic document delivery notice to the receiving user;

s42, when receiving the electronic document delivery notice, the receiving user opens the receiving link in the notice and fills the receiving condition to be verified when receiving in the receiving envelope page, and submits a signing verification request; the receiving conditions are three, namely ordinary delivery, password delivery and real person signing, so as to correspond to the highly reliable delivery of the electronic documents of different levels;

s43, the server side verifies the relevant information submitted by the receiving user; after passing the verification, the receiving user reads or downloads the electronic document again, and the receiving user indicates that the electronic document is delivered to the receiving user after reading or downloading is finished;

s44, the server updates the state of the electronic document to be read, namely, the electronic document is delivered, and simultaneously, the electronic receipt is added with the read certificate, and the hash value calculated in the process of signing the electronic document is uploaded to the block chain service certificate;

s45, the server side informs the sending user and the receiving user of the delivery state of the electronic document;

and S46, visually checking the state of the electronic document, delivery process information and a time axis, namely a process log, after the sending user and the receiving user receive the delivery notice of the electronic document, downloading the electronic receipt with the read-out badge, and performing self-help certificate delivery by combining the delivery certificate with the delivery full-process visualization after the electronic receipt is downloaded.

Preferably, the method for electronic document delivery process certification comprises the following steps:

s51, the sending user or the receiving user fills out the electronic document information which needs to be certified in the delivery process, and submits a request for certifying the delivery process; the electronic document information is any one or more of an electronic receipt number, a text sending serial number, a document name and a hash value;

s52, the server side receives the delivery process certification request submitted by the user and then verifies the request, and the delivery flow of the electronic document is inquired after the verification is passed;

s53, when the requesting user is the sending user or the receiving user in the delivery process, deriving a delivery process certificate; wherein, the delivery process certificate comprises an electronic receipt and a block chain certificate; the electronic receipt comprises the delivered electronic document, a hash value and flow information of the delivered electronic document, a sending certified electronic signature and a read certified electronic signature; the block chain certificate comprises the hash value of the delivered electronic document and the process thereof;

and S54, the service end returns the delivery process certificate to the user requesting the delivery process certificate.

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

the high-reliability multi-level digital delivery method provided by the invention does not need to use a special client, and receives and sends the electronic document notification through common channels such as mobile phone short messages, emails, WeChat and the like, thereby providing great convenience for both the receiving and sending parties, being beneficial to popularization and meeting the requirement on convenience of delivering the electronic document; the identity of a main body is verified through multi-level KYC technologies such as short message verification, face recognition and the like, so that the high-reliability delivery requirement of electronic documents of different levels is met; the electronic document signing is completed on line by adopting an intelligent mobile dispersed key signature technology, compared with the traditional paper signing, the certificate is easy to store and cannot be forged, the reliability is ensured, compared with other signing systems, the escrow certificate signing is more legal and reliable, compared with the traditional delivery system, the high-reliability electronic signature (the signature document can be directly collected by a third person (including a court) after being circulated) of the electronic document to be delivered is realized, the delivery address is signed on line, the appointed delivery address of the delivery address confirmation is also realized, and the online remote convenient and high-reliability appointment requirements of the content of the electronic document such as the delivery address confirmation are met; the electronic receipt is generated by the hash values of the document content, the delivery process and the receipt process, the digital signature certificate is combined, the whole delivery process is visually displayed by combining the mobile internet technology, a user can immediately inquire the delivery process and a time axis, namely a process log, after the receipt, the electronic receipt can be downloaded for self-help certificate output, compared with the electronic receipt of other delivery systems which only have no digital signature and are not visual in the whole process, the electronic receipt is more convenient, safer and more reliable, and meanwhile, the data in the whole process is stored in the delivery system and the authoritative block chain certificate;

compared with a privatized deployment delivery system, the high-reliability multi-level digital delivery method provided by the invention is more legal as a neutral third party, can self-verify the clearness, mark on-line the whole-process evidences such as signing, delivering, reaching, receiving and the like, and can ensure that the delivery cannot be repudiated and the delivery can be legally adopted by a judicial law with high reliability.

Drawings

Fig. 1 is a flowchart of an embodiment of the present invention.

Fig. 2 is a flowchart of user account registration and authentication according to an embodiment of the present invention.

Fig. 3 is a flow chart of signing an electronic document in one embodiment of the present invention.

Fig. 4 is a flow chart of sending an electronic document according to an embodiment of the present invention.

Fig. 5 is a flowchart illustrating a user's text reception according to an embodiment of the present invention.

FIG. 6 is a flow chart for viewing a visual delivery flow, timeline, and downloaded electronic response pieces in an embodiment of the present invention.

FIG. 7 is a flow chart illustrating a process for requesting proof of delivery in an embodiment of the present invention.

Detailed Description

Example one

As shown in fig. 1, the present invention provides a highly reliable multi-level digital delivery method, which is based on an intelligent mobile digital delivery system composed of a server, an intelligent terminal, a Web browser and communication software, wherein the intelligent terminal includes but is not limited to a smartphone equipped with APP; the communication software comprises short messages, emails and WeChat;

the method comprises the following specific steps:

s1, the sending user and the receiving user agree on the delivery address on line;

s2, establishing an electronic document delivery entrusting relation between the sending user and the server;

s3, sending and signing the electronic document;

and S4, proving the delivery process of the electronic document.

In the invention, a sending user can send the electronic document after carrying out account registration and an actual person logs in a mobile phone APP, a delivery address which is in online agreement with a delivery person is required to be added when sending a document, the delivery person, namely a receiving user, receives an electronic document receipt notification in a common communication software message after the document is successfully sent, and the receiving user can open and receive the electronic document by clicking a receipt link in the notification message.

Example two

As shown in fig. 2-3, compared to the first embodiment, the present invention provides a highly reliable multi-layer digital delivery method, in which the method for online agreement of delivery addresses between a sending user and a receiving user includes the following steps:

s21, the sending user informs the receiving user to download the delivery address confirmation template and sign the appointed delivery address on line;

s22, respectively performing account registration and authentication on the sending user and the receiving user;

the personal user completes real person authentication through a KYC technology based on face recognition; the organization user completes organization real-name authentication through a legal person authentication or money-making authentication technology;

s23, receiving a user login account, uploading a standby signature file, namely sending an address confirmation, taking the user as a signer, adding a sending user account as a receiver in the process, and initiating a signing process; the identity of the addressee and the number of the notification mobile phone can be confirmed through the account number of the addressee;

wherein, the delivery address confirmation comprises the delivery address of the electronic document of the recipient; the address comprises the name, the mobile phone number and Email of the addressee;

s24, the receiving user completes the signature of the delivery address confirmation by the intelligent terminal by adopting the intelligent mobile distributed key signature technology;

s25, the service end sends the delivery address confirmation signed by the receiving user to the sending user;

s26, the sending user logs in the account to receive and read the delivery address confirmation book and then checks the appointed delivery address of the recipient.

EXAMPLE III

As shown in fig. 4, compared with the first embodiment, the method for establishing an electronic document delivery entrusting relationship between a sending user and a service end in this embodiment of the present invention includes the following steps:

s31, the sending user uploads the electronic document to be sent through the intelligent terminal, fills in the address information and the electronic document receiving condition of the addressee, namely the addressee, when the electronic document needs to be signed, adds the signer information, and uploads the filled addressee information, receiving condition and signer information to the server; the receiving conditions are respectively ordinary delivery, password delivery and real person signing, and are selected according to different levels of electronic document delivery;

s32, the server side stores the electronic document after receiving the electronic document;

s33, the server judges whether the delivery process needs to sign the electronic document first,

when signing is needed first, the server side informs the signer to sign the document, and the signer logs in the intelligent terminal after receiving the notice to finish signing the electronic document by adopting an intelligent mobile distributed key signature technology;

when signing is not needed or the signing of the electronic document is finished, the server side respectively calculates the file content, the document name, the sending serial number and the delivery flow information of the electronic document to generate a hash value, the document name, the sending serial number and the delivery flow information are stored and returned by the block chain service, the file content hash value, the document name, the sending serial number and the delivery flow information are combined and recorded into an electronic receipt, and the electronic receipt is a receiving and sending certificate;

s34, the server generates an electronic receipt with a digital signature and a trusted time stamp and returns the electronic receipt to the sending user;

the server adds a special certificate on the electronic receipt, calculates a hash value in the sending process of the electronic document, stores the hash value into an authoritative block chain service certificate, and informs a sending user that the electronic document is sent; the special certificate issuing seal comprises a digital signature, a digital certificate and a trusted timestamp;

s35, the server side updates the state of the electronic document to be a sent state;

s36, the sending user logs in the server to download the electronic receipt as a sending certificate, and the sending flow and the time axis, namely the process log, are visually checked through the intelligent terminal or the Web browser in the sending process, so that self-help evidence can be obtained by combining the downloaded electronic receipt.

Example four

As shown in fig. 5-6, compared to the first embodiment, the present invention provides a highly reliable multi-level digital delivery method for electronic document delivery and receipt, which includes the following steps:

s41, the server side sends an electronic document delivery notice to the receiving user; the method for sending the notification comprises sending through a short message, sending through a WeChat and notifying through an email;

s42, when receiving the electronic document delivery notice, the receiving user opens the receiving link in the notice and fills the receiving condition to be verified when receiving in the receiving envelope page, and submits a signing verification request; the receiving conditions are three, namely ordinary delivery, password delivery and real person signing, so as to correspond to the highly reliable delivery of the electronic documents of different levels;

s43, the server side verifies the relevant information submitted by the receiving user;

if the receiving condition is common delivery, the mobile phone number of the receiving user needs to be verified when verification is carried out;

if the receiving condition is password delivery, the mobile phone number and the password of the receiving user need to be verified when verification is carried out;

if the receiving condition is that the real person signs for receipt, when verification is carried out, the mobile phone number, the identity card number and the living human face of the receiving user need to be verified and received;

after passing the verification, the receiving user reads or downloads the electronic document, and the receiving user indicates that the electronic document is delivered to the receiving user after reading or downloading is finished;

s44, the server updates the state of the electronic document to be a read state, namely, the electronic document is delivered, and meanwhile, a read-out certificate (comprising a digital signature, a digital certificate and a trusted timestamp) is added on the electronic receipt, and the hash value calculated in the process of signing the electronic document is uploaded to a block chain service certificate;

s45, the service end notifies the sending state of the electronic document to the sending user and the receiving user through the channels of mobile phone short messages, emails and the like;

and S46, after receiving the delivery notice of the electronic document, the sending user and the receiving user log in a website or visually check the state of the electronic document, the delivery flow information and a time axis, namely a process log, through intelligent equipment, and download the electronic receipt with the read-out badge, and the downloaded electronic receipt is used as a delivery certificate and is combined with the delivery full-process visualization to self-help demonstrate the certificate.

EXAMPLE five

As shown in fig. 7, compared to the first embodiment, the present invention provides a highly reliable multi-level digital delivery method, which includes the following steps:

s51, the sending user or the receiving user fills out the electronic document information which needs to be certified in the delivery process, and submits a request for certifying the delivery process; the electronic document information is any one or more of an electronic receipt number, a text sending serial number, a document name and a hash value;

s52, the server side receives the delivery process certification request submitted by the user and then verifies the request, and after the verification is passed, the server side inquires out the delivery flow of the electronic document;

s53, when the requesting user is the sending user or the receiving user in the delivery process, deriving a delivery process certificate; wherein, the delivery process certificate comprises an electronic receipt and a block chain certificate; the electronic receipt comprises the delivered electronic document, a hash value of the delivered electronic document, process information, a sending certified electronic signature and a read certified electronic signature; the block chain certificate comprises a hash value of the delivered electronic document and the process thereof;

and S54, the service end returns the delivery process certificate to the user requesting the delivery process certificate.

In the invention, a sending user can send an electronic document after carrying out account registration and logging in an APP (application) installed in an intelligent terminal by an actual person, a delivery address agreed with a delivery person on line needs to be added when sending the document, the delivery person, namely a receiving user, receives an electronic document receipt notification in a common communication software message after the document is successfully sent, and the receiving user can open and receive the electronic document by clicking a receipt link in the notification message;

the high-reliability multi-layer digital delivery method provided by the invention is used as a neutral third party, compared with a privatized deployment delivery system, the high-reliability multi-layer digital delivery method is more legal and can clear the self-certification, and the problems of unreliability or low reliability in the delivery process of the electronic document are effectively solved; the identity bodies of the receiving party and the sending party are verified by multi-level identity recognition technologies such as short message verification, face recognition and the like, so that the requirement of high reliability delivery of electronic documents of different levels is met; the electronic receipt with the digital signature certificate is combined with the whole delivery process visualization to self-help certificate delivery, so that the problems of inconvenience and low reliability in delivery certificate delivery are solved; the electronic document signing is completed on line by adopting an intelligent mobile dispersed key signature technology, so that high-reliability electronic signature of the electronic document to be sent is realized, the electronic document can be signed on line to confirm the sending address to complete the sending address agreement, the problems that the traditional paper signing is inconvenient, difficult to store certificates and easy to forge are solved, the problems that other signing systems only verify the intention by short messages and the signing of escrow certificates is low and reliable are solved, and the problem that the electronic document sent by the previous sending system cannot be transferred due to no electronic signature and then is directly picked up by a third person (including a court) is solved, so that the high-reliability online remote convenient agreement sending address and one-stop signing are realized; the receiving user is informed by multiple channels, so that the high reliability of document access is ensured, convenience and quickness are realized, the receiving user can complete reading and writing only by one of a mobile phone, an email and a WeChat, the popularization is easy, and the problem of mutual exclusion between the high reliability and convenience of electronic document access is effectively solved.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited thereto, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (5)

1. A high-reliability multi-layer digital delivery method is characterized by comprising the following specific steps:

s1, the sending user and the receiving user agree on the delivery address on line;

s2, establishing an electronic document delivery entrusting relation between the sending user and the server;

s3, sending and signing the electronic document;

and S4, proving the delivery process of the electronic document.

2. The method as claimed in claim 1, wherein the method for the sending user and the receiving user to agree on the delivery address on-line comprises the following steps:

s21, the sending user informs the receiving user to download the delivery address confirmation template and sign the appointed delivery address on line;

s22, the sending user and the receiving user respectively perform account registration and authentication;

s23, receiving a delivery address confirmation from a user login account, taking the user login account as a signer, adding a sending user account as a receiver in the process, and initiating a signing process; wherein, the delivery address confirmation comprises the delivery address of the electronic document of the recipient; the address comprises the name, the mobile phone number and Email of the addressee;

s24, the receiving user completes the signing of the delivery address confirmation by the intelligent terminal by adopting the intelligent mobile distributed key signature technology;

s25, the service end sends the delivery address confirmation signed by the receiving user to the sending user;

s26, the sending user logs in the account to receive and read the delivery address confirmation book and then checks the appointed delivery address of the recipient.

3. The method for digital delivery with high reliability and multiple layers as claimed in claim 1, wherein the method for establishing the electronic document delivery entrusting relationship between the sending user and the server comprises the following steps:

s31, the sending user uploads the electronic document to be sent through the intelligent terminal, fills in the address information and the electronic document receiving condition of the addressee, namely the addressee, when the electronic document needs to be signed, adds the signer information, and uploads the filled addressee information, receiving condition and signer information to the server; the receiving conditions are three, including common delivery, password delivery and real person sign-off, and are selected according to different levels of electronic document delivery

S32, the server side stores the electronic document after receiving the electronic document;

s33, the server judges whether the delivery process needs to sign the electronic document first,

when signing is needed first, the server side informs the signer to sign the document, and the signer logs in the intelligent terminal after receiving the notice to finish signing the electronic document by adopting an intelligent mobile distributed key signature technology;

when signing is not needed or the signing of the electronic document is finished, the server side respectively calculates the file content, the document name, the issuing serial number and the delivery flow information of the electronic document to generate hash values, the block chain service stores and returns a block chain certificate, and the file content hash values, the document name, the issuing serial number and the delivery flow information are recorded in an electronic return-to-the-license mode in a combined mode;

s34, the server generates an electronic receipt with a digital signature and a trusted time stamp and returns the electronic receipt to the sending user;

s35, the server side updates the state of the electronic document to be a sent state;

s36, the sending user logs in the server to download the electronic receipt as a sending certificate, the sending flow and the time axis, namely the process log, are visually checked through the intelligent terminal in the sending process, and self-help evidence can be obtained by combining the downloaded electronic receipt.

4. The method of claim 1, wherein the method for delivering and signing an electronic document comprises the steps of:

s41, the server side sends an electronic document delivery notice to the receiving user;

s42, when receiving the electronic document delivery notice, the receiving user opens the receiving link in the notice and fills the receiving condition to be verified when receiving in the receiving envelope page, and submits a signing verification request; the receiving conditions are three, namely ordinary delivery, password delivery and real person signing, so as to correspond to the highly reliable delivery of the electronic documents of different levels;

s43, the server side verifies the relevant information submitted by the receiving user; after passing the verification, the receiving user reads or downloads the electronic document, and the receiving user indicates that the electronic document is delivered to the receiving user after reading or downloading is finished;

s44, the server updates the state of the electronic document to be read, namely, the electronic document is delivered, and meanwhile, the electronic receipt is added with a read certificate, and the hash value calculated in the process of signing the electronic document is uploaded to the block chain service certificate;

s45, the service end informs the sending user and the receiving user of the delivery state of the electronic document;

and S46, visually checking the state of the electronic document, delivery process information and a time axis, namely a process log, after the sending user and the receiving user receive the delivery notice of the electronic document, downloading the electronic receipt with the read-out badge, and performing self-help certificate delivery by combining the delivery certificate with the delivery full-process visualization after the electronic receipt is downloaded.

5. The method as claimed in claim 1, wherein the method for proving the delivery process of the electronic document comprises the following steps:

s51, the sending user or the receiving user fills out the electronic document information which needs to be certified in the delivery process, and submits a request for certifying the delivery process; the electronic document information is any one or more of an electronic receipt number, a text sending serial number, a document name and a hash value;

s52, the server side receives the delivery process certification request submitted by the user and then verifies the request, and the delivery flow of the electronic document is inquired after the verification is passed;

s53, when the requesting user is the sending user or the receiving user in the delivery process, deriving a delivery process certificate; wherein, the delivery process certificate comprises an electronic receipt and a block chain certificate; the electronic receipt comprises the delivered electronic document, a hash value of the delivered electronic document, process information, a sending certified electronic signature and a read certified electronic signature; the block chain certificate comprises the hash value of the delivered electronic document and the process thereof;

and S54, the service end returns the delivery process certificate to the user requesting the delivery process certificate.

Images