CN112749954A - Method, system and application for recording work order flow based on small program - Google Patents

Abstract

The invention provides a method for recording work order flow based on an applet, which comprises the following steps: presetting a flow path of a work order according to a user role; detecting whether a next node user of a work order flow appointed by a current flow node is in accordance with a flow path, if so, forwarding the work order to the next node user for processing; receiving the confirmation information of the next node user, taking the node user as the current node, and updating the label state of the work order of the current node; and obtaining the flow record of the work order according to the preset flow path of the finished work order. The invention also provides a corresponding system, which is based on the WeChat applet operation and has strict safety guarantee and strong technical support; the system can be operated in mobile phones capable of operating WeChat, and the compatibility is good; the two-dimensional code can be used after being opened once by sharing or scanning without installation.

Description

Method, system and application for recording work order flow based on small program

Technical Field

The invention belongs to the field of dredging engineering, and particularly relates to a method, a system and application based on small program work order flow record.

Background

The main work content of the channel dredging project is that a dredger excavates channel silt in a construction area to be loaded to a dredge boat, and then the channel silt is transported to a designated mud blowing point to be delivered to the dredge boat for mud blowing treatment. The process involves a plurality of personnel, including constructors such as a dredger, a mud carrying boat, a mud blowing boat and the like, a project manager and the like,

at present, the project amount is recorded and settled mainly through the work orders in the same or different groups. The project management side provides a triple work order, the dredge boat holds the work order to the dredge boat to load mud, after the completion, a dredge boat person in charge records bottom mud handover information on the work order, and a work order is left; the mud-blowing ship is used for blowing mud to the mud-blowing ship, and after the mud-blowing ship is used for blowing mud, the mud-blowing completion information is recorded on the rest work orders by the mud-blowing ship, and a connection is left; and finally, the engineering quantity is settled by counting the work order union of each relevant ship by a manager.

The method has the following defects:

1. the paper work order union has the storage problem, and once lost, is difficult to make up.

2. Information inconsistency caused by wrong filling or malicious modification in a certain link of the multi-job list can occur, and subsequently, ripping and denifying can occur, so that the progress of the whole project is influenced.

3. After a large amount of paper work orders are formed, a large amount of manpower and time are consumed for subsequent statistics and arrangement, and the improvement of the working efficiency cannot be realized.

Disclosure of Invention

Based on the above, the first objective of the present invention is to provide a method for recording the small-program dredging engineering volume, which can realize multi-party confirmation recording by the work order circulation, query the relevant work order information of the constructors, ensure the consistency and irreparability of the workload, and finally provide effective service for statistical settlement.

The purpose of the invention is realized by the following technical scheme:

a method for recording work order flow based on small program is accessed to a small WeChat program and comprises the following steps:

presetting a flow path of a work order according to a user role; detecting whether a next node user of a work order flow appointed by a current flow node is consistent with a role corresponding to a flow path or not, if so, forwarding the work order to the next node user for processing; receiving the receiving information confirmed by the next node user, taking the node user as the current node, and updating the label state of the work order of the current node; and obtaining the flow record of the work order according to the preset flow path of the finished work order.

Preferably, the detecting whether a next node user of a work order flow specified by the current flow node coincides with a preset flow path, and if yes, before forwarding the work order to the next node user for processing, the method further includes:

configuring information of all related role users into a background system to establish users according to roles;

the identity of the initial role user is identified, corresponding service data and function authority are granted, and the small program initializes a corresponding preset work order template;

and receiving the work order information of the initial role user filling the preset work order template and the information of the user appointed to flow to the next node.

Preferably, the adjusting the node position and detecting whether a next node user of the work order flow specified by the current flow node is in line with the flow path, if so, forwarding the work order to the next node for processing, further includes: receiving a request of a current node user, wherein the request of the current node user carries work order information and specifies a user corresponding to a next node; and sending the work order information to a user corresponding to the next node, receiving work order flow confirmation information of the user corresponding to the next node, and taking the user of the next node as the current node of the work order information flow.

Preferably, the user of the current streaming node has the right to designate the user of the next node, roll back and withdraw.

The second purpose of the invention is to provide the application of the method based on the small program work order circulation record in the dredging engineering, and the role users comprise a dredger user, a mud transporting ship user and a mud blowing ship user, and the method comprises the following steps:

and step S1: logging in the small program by a dredger user to perform identity verification with a background system to obtain corresponding service data and function authority, and initializing a corresponding preset work order template by the small program;

and step S2: after the dredger finishes bottom mud loading of one dredger, a dredger user fills in work order information according to a preset work order template and appoints to flow to a dredger user of the next node;

and step S3: after a user of the dredger logs in the small program, checking the work order information, sending confirmation information to the user of the dredger through the small program, and updating the label of the work order of the current node to be in a receiving state;

and step S4: when the mud transporting ship sails to the mud blowing ship, the mud transporting ship user transfers the work order information to the appointed mud blowing ship user account, and the mud blowing ship user confirms the goods receiving through the small program to finish the transfer record of the work order.

Further, the sediment work order information comprises the square amount and the mileage range information.

Alternatively, in step S2, the dredge user may cancel without the work order being forwarded to the dredge user confirmation; for returned work orders, the dredge user may revise and resubmit or cancel.

Optionally, in the step S3, the method further includes: checking the work order information by a user of the mud transporting ship, checking whether the work order information is matched with the bottom mud material object information, returning work order circulation information if the work order information does not pass the check, and returning the work order to the previous node; if the check is passed, confirming the work order flow information and confirming that the user is the current node; for the work order which is delivered to the dredger but is not confirmed by the opposite side, the user of the dredger can be withdrawn and appointed again to finish delivery; if a problem is found with the work order at this step, the work order node is returned to the dredge user.

Optionally, in step S4, the method includes: a mud dredger user logs in the small program to be checked with the background system, corresponding service data and function authority are obtained, and the small program initializes a corresponding work order information interface;

and the mud blower user receives the work order sent by the mud transporting ship, can confirm the goods receiving after confirming that the work order is correct, and directly returns the work order node to the mud transporting ship user if the work order information is wrong.

Optionally, after the step of S4, the method further includes: a project manager user logs in the small program to be checked with the background system, and corresponding service data and function permission are obtained; checking the handover record information of each work order, counting the project quantity participated by each ship, and assisting the settlement of the project quantity.

The third objective of the present invention is to provide a system based on a method for recording a work order flow of an applet, which accesses a WeChat background through the applet, and includes:

the log-in module is used for configuring information of all related dredger, dredge boat, dredger and project manager to the background system and establishing a log-in entrance according to roles;

the path storage module is connected with the login module and is used for presetting a preset circulation path of the work order according to the role of the user; wherein, the sequence of the circulation path is a dredger user, a dredge boat user and a dredger user;

the path transfer module is connected with the path storage module and used for adjusting the node position and detecting whether a next node user of the work order transfer appointed by the current transfer node is in accordance with the role corresponding to the preset transfer path or not, if so, the work order is forwarded to the next node for processing;

the node confirmation and receiving module is connected with the path flow module and used for receiving a next node user confirmation receiving instruction, taking the node user as a current node and updating the label of the work order of the current node as receiving;

and the work order flow recording module is respectively connected with the flow path module and the node confirmation and work order receiving module and is used for storing the flow record of the work order according to the preset flow path for finishing the work order.

Furthermore, the login module comprises an identity checking submodule and a work order obtaining submodule which are connected,

the identity verification submodule is used for logging in the applet and performing identity verification with the background system to obtain corresponding service data and function permission;

and the work order obtaining submodule is used for obtaining the work order information of the current node corresponding to the identity applet initialization and appointing the next node user.

Furthermore, the work order flow inquiry module is further included, the work order flow inquiry module is respectively connected with the login module and the work order flow recording module, the login module identifies the characteristic information of project management personnel and outputs an authentication signal, the work order flow inquiry module receives the authentication signal and calls the work order flow record of the work order flow recording module, checks the handover record information of each work order, counts the work amount participated by each ship, and assists in settlement of the work amount.

Further, the system also comprises a withdrawing module and a withdrawing module which are respectively connected with the path circulation module,

the withdrawing module is used for receiving a withdrawing instruction of a current node user and recovering the work order information of the current flow node to the initial state of the current node;

and the return module is used for receiving a return instruction of the current node user and returning the work order information of the current transfer node to the previous node user.

Further, the path transfer module comprises a path allocation unit, a transfer execution unit and a node feedback unit, the node feedback unit is respectively connected with the path allocation unit and the transfer execution unit, and the path allocation unit is used for sending the work order information to the user of the next node according to the transfer instruction of the user of the current node; the node feedback unit is used for receiving a work order receiving instruction of a user of the next node and outputting a node flow-transfer execution instruction; and the node flow execution unit is used for receiving the node flow execution instruction, taking the next node user as the current node, and updating the label of the work order of the current node into the received goods.

In conclusion, the beneficial effects of the invention are as follows: the invention adopts the WeChat small program technology to develop a set of system for recording the dredging engineering quantity. The WeChat applet operates based on the WeChat APP and has strict safety guarantee and strong technical support; the system can be operated in mobile phones capable of operating WeChat, and the compatibility is good; the two-dimensional code can be used after being opened once by sharing or scanning without installation.

Drawings

FIG. 1 is a diagram of the connection of the WeChat applet of the handset terminal of the present invention to the backend system and database;

FIG. 2 is a flow chart of the method for recording the amount of dredging project based on small program in accordance with the present invention;

FIG. 3 is a design interface of the applet of the present invention;

FIG. 4 is yet another design interface for the applet of the present invention;

fig. 5 is a structural diagram of a system of the small program based dredging work volume recording method of the present invention.

Detailed Description

< method for transferring records based on small program work order >

A method for recording work order flow based on small program is accessed to a small WeChat program and comprises the following steps: presetting a flow path of a work order according to a user role; detecting whether a next node user of a work order flow appointed by a current flow node is consistent with a role corresponding to a flow path or not, if so, forwarding the work order to the next node user for processing; receiving the confirmation information of the next node user, taking the node user as the current node, and updating the label state of the work order of the current node; and obtaining the flow record of the work order according to the preset flow path of the finished work order. The role users comprise a dredger user, a dredge boat user, a dredger user and a project manager user, and the flow path sequence comprises the dredger user, the dredge boat user and the dredger user. It is worth mentioning that the user of the current node has the operation right to designate the user, the return and the withdrawal of the next node.

Preferably, after the presetting of the flow path of the work order according to the role of the user, the method further includes: configuring information of all related role users into a background system to establish users according to roles, identifying the identity of an initial role user, granting corresponding service data and function authority, and initializing a corresponding preset work order template by a small program; and receiving the work order information of the initial role user filling the preset work order template and the information of the user appointed to flow to the next node.

Preferably, the detecting whether a user of a next node of a work order flow specified by the current flow node coincides with the flow path, and if so, forwarding the work order to the next node for processing further includes:

receiving a request of a current node user, wherein the request of the current node user carries work order information and specifies a user corresponding to a next node; and sending the work order information to a user corresponding to the next node, receiving the flow confirmation information of the user corresponding to the next node, and taking the user corresponding to the next node as the current work order information flow node.

In one embodiment, before the receiving the request of the current node user, the method further includes:

the identity of an initial user is identified, corresponding service data and function authority are obtained, and a small program initializes a corresponding preset work order template; receiving work order information of an initial user filling a preset work order template and information of a user who appoints to flow to a next node; sending the work order information to a user corresponding to a next node, receiving the circulation confirmation information of the user corresponding to the next node, taking the user corresponding to the next node as a current work order information circulation node, and updating the label of the work order of the current node to be in a receiving state; detecting whether a next node user of a work order flow appointed by a current flow node is in accordance with a flow path, if so, forwarding the work order to the next node user for processing; receiving the confirmation information of the next node user, taking the node user as the current node, and updating the label state of the work order of the current node; and obtaining the flow record of the work order according to the preset flow path of the finished work order.

Preferably, the user of the current streaming node has the right to designate the user of the next node, roll back and withdraw.

Application of method for converting flow to record based on small program work order in dredging engineering

The application of the method based on the small program work order flow conversion record in the dredging engineering is disclosed, wherein role users comprise a dredger user, a mud transporting boat user and a mud blowing boat user, and the method comprises the following steps:

and step S1: logging in the small program by a dredger user to perform identity verification with a background system to obtain corresponding service data and function authority, and initializing a corresponding preset work order template by the small program;

and step S2: after the dredger finishes bottom mud loading of one dredger, a dredger user fills in work order information according to a preset work order template and appoints to flow to a dredger user of the next node;

and step S3: after a user of the dredger logs in the small program, checking the work order information and sending confirmation information to the user of the dredger through the small program, wherein the work order label is in a receiving state, and the user of the dredger is confirmed as a current node;

and step S4: when the mud transporting ship sails to the mud blowing ship, the mud transporting ship user transfers the work order information to the appointed mud blowing ship user account, and the mud blowing ship user confirms the goods receiving through the small program to finish the transfer record of the work order.

Further, the sediment work order information comprises the square amount and the mileage range information.

Alternatively, in step S2, the dredge user may cancel without the work order being forwarded to the dredge user confirmation; for returned work orders, the dredge user may revise and resubmit or cancel.

Optionally, in the step S3, the method further includes: checking the work order information by a user of the mud transporting ship, checking whether the work order information is matched with the bottom mud material object information, returning work order circulation information if the work order information does not pass the check, and returning the work order to the previous node; if the verification is passed, confirming the current circulation path and confirming that the user is the current node; for the work order which is delivered to the dredger but is not confirmed by the opposite side, the user of the dredger can be withdrawn and appointed again to finish delivery; if a problem is found with the work order at this step, the work order node is returned to the dredge user.

Optionally, in step S4, the method includes: a mud dredger user logs in the small program to be checked with the background system, corresponding service data and function authority are obtained, and the small program initializes a corresponding work order information interface;

and the mud blower user receives the work order sent by the mud transporting ship, can confirm the goods receiving after confirming that the work order is correct, and directly returns the work order node to the mud transporting ship user if the work order information is wrong.

Optionally, after the step of S4, the method further includes: a project manager user logs in the small program to be checked with the background system, and corresponding service data and function permission are obtained; checking the handover record information of each work order, counting the project quantity participated by each ship, and assisting the settlement of the project quantity.

The invention is further illustrated, but not limited, by the following specific examples.

The method comprises the following specific steps:

(1) configuring information of all related personnel such as a dredger, a dredge boat, a dredger and project management into a background system to establish a user according to roles;

(2) after the dredger finishes the bottom mud loading of one mud transporting ship, a user of the dredger initiates a bottom mud work order through a small program and transfers the bottom mud work order to the mud transporting ship; a dredger user logs in the small program to be checked with a background system, corresponding service data and function authority are obtained, and the small program initializes a corresponding interface; the dredger appoints a dredger, fills in information such as the amount of the prescription, the mileage range and the like, and finishes delivery, as shown in FIG. 3; the dredger can be cancelled without the work order confirmed by the dredger; for returned work orders, the dredger may be modified and resubmitted or cancelled.

(3) After the dredger initiates the work order, the dredger can confirm the receiving through the small program; when the mud-blowing boat arrives, the work order is forwarded to the appointed mud-blowing boat; a user of the mud ship logs in the small program to be checked with the background system, corresponding service data and function authority are obtained, and the small program initializes a corresponding interface; the user of the dredge boat receives the work order sent by the dredge boat, can confirm the receiving after confirming that no mistake exists, and can directly choose to return to the dredge boat if a problem exists; the confirmed work order can specify a dredger to finish delivery; if the work order is found to have problems in the step, the work order can be returned to the dredger; for work orders that have been shipped to the dredger but have not been confirmed by the other party, the withdrawal may be made and the dredger may then be reassigned.

(4) After receiving the work order sent by the mud-blowing ship, the mud-blowing ship can confirm the receiving through a small program, and the circulation record of the work order is completed; a dredger user logs in the small program to be checked with the background system, corresponding service data and function authority are obtained, and the small program initializes a corresponding interface; the user of the mud-blowing boat receives the work order sent by the mud-transporting boat, can confirm the goods receiving after confirming that no mistake is made, and can directly choose to return to the mud-transporting boat if a problem exists.

(5) Checking the handover record information of each work order, counting the project quantity participated by each ship, and assisting the settlement of the project quantity. The information of the single work order handover record, which ships participate, the specific time, the volume, the mileage range and the like can be inquired, as shown in fig. 4; ship personnel can count data of respective involved engineering quantities to form a report which is used as auxiliary settlement data to better guarantee self benefits; project management personnel can count the project quantities of all ships, form reports and serve as important bases for project management and project settlement.

< System of method for transferring records based on applet work order >

For example, a system based on a method for recording a work order flow of an applet, which accesses a WeChat background through the applet, includes:

the log-in module is used for configuring information of all related dredger, dredge boat, dredger and project manager to the background system and establishing a log-in entrance according to roles;

the path storage module is connected with the login module and is used for presetting a preset circulation path of the work order according to the role of the user; wherein, the sequence of the circulation path is a dredger user, a dredge boat user and a dredger user;

the path circulation module is connected with the path storage module and used for detecting whether a next node user of the work order circulation appointed by the current circulation node is in accordance with the circulation path or not, if so, forwarding the work order to the next node for processing;

the node confirmation and receiving module is connected with the path flow module and used for receiving a next node user confirmation receiving instruction, taking the node user as a current node and updating the label of the work order of the current node as receiving;

and the work order flow recording module is respectively connected with the flow path module and the node confirmation and work order receiving module and is used for storing the flow record of the work order according to the preset flow path for finishing the work order.

In one embodiment, the login module comprises an identity verification submodule and a work order acquisition submodule, the identity verification submodule is connected with the work order acquisition submodule, and the identity verification submodule is used for logging in an applet and performing identity verification with a background system to acquire corresponding service data and function permission; and the work order obtaining submodule is used for obtaining the work order information of the current node corresponding to the identity applet initialization and appointing the next node user.

In one embodiment, the system further comprises a work order circulation query module, the work order circulation query module is respectively connected with the login module and the work order circulation recording module, the login module identifies project manager characteristic information and outputs an authentication signal, the work order circulation query module receives the authentication signal and retrieves the work order circulation record of the work order circulation recording module, checks the handover record information of each work order, counts the project quantity of each ship, and assists in settlement of the project quantity.

In one embodiment, the system further includes a withdrawal module and a return module, the withdrawal module and the return module are respectively connected to the path flow module, and the withdrawal module is configured to receive a withdrawal instruction of a current node user and restore the work order information of the current flow node to the initial state of the current node; and the return module is used for receiving a return instruction of the current node user and returning the work order information of the current transfer node to the previous node user.

In one embodiment, the path transfer module includes a path allocation unit, a transfer execution unit and a node feedback unit, the node feedback unit is respectively connected with the path allocation unit and the transfer execution unit, and the path allocation unit is configured to send the work order information to a user of a next node according to a transfer instruction of a user of a current node; the node feedback unit is used for receiving a work order receiving instruction of a user of the next node and outputting a node flow-transfer execution instruction; and the node flow execution unit is used for receiving the node flow execution instruction, taking the next node user as the current node, and updating the label of the work order of the current node into the received goods.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (16)

1. A method for recording work order flow based on small programs is characterized by comprising the following steps:

presetting a flow path of a work order according to a user role;

adjusting the node position and detecting whether a next node user of the work order flow appointed by the current node user is consistent with the role corresponding to the flow path, if so, forwarding the work order to the next node user for processing;

receiving a work order receiving instruction of the next node user, taking the next node user as a current node, and updating the label of the work order of the current node into a receiving state;

and obtaining the flow record of the work order according to the preset flow path of the finished work order.

2. The method according to claim 1, wherein the detecting whether a next node user of the work order flow specified by the current flow node coincides with a preset flow path, and if so, before forwarding the work order to the next node user for processing, the method further comprises:

configuring information of all related role users into a background system to establish users according to roles;

the identity of the initial role user is identified, corresponding service data and function authority are granted, and the small program initializes a corresponding preset work order template;

and receiving the work order information of the initial role user filling the preset work order template and the information of the user appointed to flow to the next node.

3. The applet-based work order flow record method as claimed in claim 1, characterized in that the user of the current node has the operation right to specify the user of the next node, return and withdraw.

4. The method for applet-based work order flow record according to claim 1, wherein the receiving a work order receiving instruction of a next node user and updating the label of the work order of the current node to be in a receiving state with the user of the next node as the current node comprises:

sending the work order information to a user of a next node according to a flow instruction of the user of the current node;

receiving a work order receiving instruction of the user of the next node and outputting a node flow-to-execution instruction;

and according to the node flow execution instruction, taking the user of the next node as the current node, and updating the label of the work order of the current node as the receiving.

5. The application of the method based on small program work order flow conversion record in the dredging engineering, wherein the user roles comprise a dredger user, a dredge boat user, a dredger user and a project manager, and the method comprises the following steps:

and step S1: logging in the small program by a dredger user to perform identity verification with a background system to obtain corresponding service data and function authority, and initializing a corresponding preset work order template by the small program;

and step S2: after the dredger finishes bottom mud loading of one dredger, a dredger user fills in work order information according to a preset work order template, and transfers the work order information to a dredger user of the next node;

and step S3: after a user of the dredger logs in the small program, checking work order information, sending work order receiving information to the user of the dredger through the small program, taking the user of the dredger as a current node, and updating a label of the work order of the current node to be in a receiving state;

and step S4: when the mud transporting ship sails to the mud blowing ship, the mud transporting ship user transfers the work order information to the appointed mud blowing ship user account, and the mud blowing ship user confirms the goods receiving through the small program to finish the transfer record of the work order.

6. The applet-based work order flow record method in dredging engineering applications according to claim 5, characterized in that the sediment work order information comprises volume and mileage range information.

7. The use of the applet-based work order flow record method in dredging engineering according to claim 5, characterized in that in step S2, the dredger user can cancel the work order that is not confirmed by the user of the flow to the dredger;

for returned work orders, the dredge user may revise and resubmit or cancel.

8. The application of the method for small work order transfer recording based on claim 5 in dredging engineering, wherein in step S3, the method further comprises:

checking the work order information by a user of the mud transport ship, checking whether the work order information is matched with the bottom mud material object information, returning to work order circulation if the work order information does not pass the detection, and returning the work order to the previous node; if the checking is passed, confirming the receipt of the work order so that the user is the current node;

for the work order which is delivered to the dredger but is not confirmed by the opposite side, the user of the dredger can be withdrawn and appointed again to finish delivery; if a problem is found with the work order at this step, the work order node is returned to the dredge user.

9. The application of the method based on small program work order transfer recording of claim 5 in dredging engineering, wherein in step S4, the method comprises:

a mud dredger user logs in the small program to be checked with the background system, corresponding service data and function authority are obtained, and the small program initializes a corresponding work order information interface;

and the mud blower user receives the work order sent by the mud transporting ship, can confirm the goods receiving after confirming that the work order is correct, and directly returns the work order node to the mud transporting ship user if the work order information is wrong.

10. The application of the method for small work order transfer recording based on claim 5 in dredging engineering, which further comprises, after the step of S4:

a project manager user logs in the small program to be checked with the background system, and corresponding service data and function permission are obtained;

checking the handover record information of each work order, counting the project quantity participated by each ship, and assisting the settlement of the project quantity.

11. A system based on a method for recording a small program work order flow is accessed to a WeChat background through a small program, and is characterized by comprising the following steps:

the login module is used for configuring information of all related role users into the background system and establishing a login entry according to roles;

the path storage module is connected with the login module and used for presetting a preset circulation path of the work order according to the role of the user;

the path circulation module is connected with the path storage module and used for adjusting the node position and detecting whether a next node user of the work order circulation appointed by the current node role user is consistent with a preset role or not, if so, the work order information is forwarded to the next node user for processing;

the node confirmation and receiving module is connected with the path flow module and used for receiving the work order receiving instruction of the next node user, taking the next node user as the current node and updating the label of the work order of the current node as receiving;

and the work order flow recording module is respectively connected with the flow path module and the node confirmation and work order receiving module and is used for storing the flow record of the work order according to the preset flow path for finishing the work order.

12. The system of the applet-based work order flow recording method according to claim 11, characterized in that the login module comprises an identity check submodule and a work order obtaining submodule, the identity check submodule is connected with the work order obtaining submodule, the work order obtaining submodule is connected with the path storage module,

the identity verification submodule is used for logging in the applet and performing identity verification with the background system to obtain corresponding service data and function permission;

and the work order obtaining submodule is used for obtaining the work order information of the current node corresponding to the identity applet initialization and appointing the user of the next node.

13. The system of the applet work order flow recording based method according to claim 11, characterized in that the character users include a dredge, a dredge and project manager, and the sequence of the flow paths are dredge user, dredge user and dredge user.

14. The system of the applet work order flow recording-based method according to claim 11 or 12, further comprising a work order flow query module, wherein the work order flow query module is respectively connected with the login module and the work order flow recording module, the login module identifies identity information of project managers and outputs an authentication signal, the work order flow query module receives the authentication signal and retrieves the work order flow record of the work order flow recording module, checks handover record information of each work order, counts the amount of work participated by each ship, and assists settlement of the amount of work.

15. The system of applet work order flow record based method according to claim 11 or 12, further comprising a withdrawal module and a return module, the withdrawal module and the return module being connected to the path flow module respectively,

the withdrawing module is used for receiving a withdrawing instruction of a current node user and recovering the work order information of the current flow node to the initial state of the current node;

and the return module is used for receiving a return instruction of the current node user and returning the work order information of the current transfer node to the previous node user.

16. The system of the applet work order flow recording based method according to claim 11, characterized in that the path flow module comprises a path allocation unit, a flow execution unit and a node feedback unit, the node feedback unit is connected with the path allocation unit and the flow execution unit respectively,

the path distribution unit is used for sending the work order information to the user of the next node according to the flow instruction of the user of the current node;

the node feedback unit is used for receiving a work order receiving instruction of a user of the next node and outputting a node flow-transfer execution instruction;

and the node flow execution unit is used for receiving the node flow execution instruction, taking the next node user as the current node, and updating the label of the work order of the current node into the received goods.

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