CN113506122A - Task system and task rewarding method for charging new energy automobile - Google Patents

Abstract

The invention provides a task system for charging a new energy automobile, which comprises a task providing and automatic checking module, a task module, a reward module and a display module, wherein the task module comprises a task receiving module and a task configuration module, the reward module comprises a task configuration reward module and a task distribution reward module, the task providing and automatic checking module is used for creating, checking and distributing tasks, the task receiving module is used for receiving the tasks distributed by the task providing and automatic checking module, the task configuration module is used for reading the tasks received by the task receiving module, the task configuration reward module is used for setting reward content of task completion, and the task distribution reward module is used for distributing rewards to users according to the reward content set by the task configuration reward module. The invention solves the problems of low activity participant enthusiasm, passive activity organizer, lagged activity effect and inflexible activity strategy in the charging operation activity of the new energy automobile, which leads to non-ideal activity income.

Description

Task system and task rewarding method for charging new energy automobile

Technical Field

The invention relates to the technical field of new energy automobile charging, in particular to a task system and a task rewarding method for charging a new energy automobile.

Background

Currently, passive rewards are generally adopted in reward modes on the market, namely corresponding rewards are given according to user payment conditions or product use conditions of users and the like. The rewarding mode ensures that the user is not active enough when participating in the activity, the merchant is in a passive position in the activity and is difficult to dominate in the operation activity, the activity effect can be known only after the activity is finished, hysteresis exists, the operation activity strategy is difficult to adjust in time, and the flexibility is reduced. Therefore, it is necessary to provide a mission system and a mission reward method for charging a new energy vehicle to overcome the above problems.

Disclosure of Invention

The invention provides a task system and a task rewarding method for charging a new energy automobile, and aims to solve the problems of large workload and low working efficiency of charging operators of the new energy automobile at present.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

a task rewarding method for charging a new energy automobile comprises the following steps:

s1, formulating different task contents according to users with different label types;

s2, the task providing and automatic checking module checks the personal information and the vehicle information;

s3, after the verification is successful, the task providing and automatic verification module issues the task;

s4, after receiving the task, the task receiving module sends the task to a task configuration module;

s5, a task configuration module reads the task and sends the task to a corresponding user;

and S6, after the task is completed, the task allocation reward module performs task reward allocation according to the task execution condition of the user, and the task distribution reward module issues task rewards to the user according to the task rewards allocated by the task allocation reward module.

Further, in step S2, the personal information and the vehicle information are entered into the system by the user, the task providing and automatic verification module compares the personal information and the vehicle information, and the verification is successful when the comparison result is 100% identical; otherwise, the verification fails.

Further, the task providing and automatic checking module optimizes task content and a task distribution mechanism according to the task execution condition of the user. When the task effectively increases the charge, the task is given higher execution weight, and more exposure display and user recommendation are performed.

A task system for charging a new energy automobile comprises a task providing and automatic checking module, a task module, a reward module and a display module,

the task providing and automatic checking module is used for creating, checking and distributing tasks, the task receiving module is used for receiving the tasks distributed by the task providing and automatic checking module, the task configuration module is used for reading the tasks received by the task receiving module and issuing the tasks to a user, the task configuration reward module is used for setting reward content of task completion, the task distribution reward module is used for issuing rewards to the user according to the condition that the user completes the tasks and the reward content set by the task configuration reward module, and the display module is used for displaying all task content and rewards thereof and displaying user behaviors.

Further, the task type created by the task providing and automatic checking module comprises an information richness class which comprises a personal information class, a vehicle information class and other information classes.

Further, the task types created by the task providing and automatic checking module further comprise a marketing feedback class, and the marketing feedback class comprises marketing activities, questionnaires and APP use tasks.

Further, the task type created by the task providing and automatic checking module further comprises a social class, and the social class comprises a social task, an invited new task and other tasks.

Further, the task types created by the task providing and automatic checking module further include an order completion class, and the order completion class includes a charging task, an order task, and other tasks.

Further, the task type created by the task providing and automatic checking module further comprises a charging class, and the charging class comprises a charging task, a power station task and other tasks.

Further, the task types created by the task providing and automatic checking module also include other types of tasks besides the information enrichment type, the marketing feedback type, the social type, the order completion type and the charging type.

Compared with the prior art, the invention has the following beneficial effects: the task system and the task rewarding method for charging the new energy automobile establish, verify and distribute tasks through the task providing and automatic verifying module, the task receiving module receives the tasks distributed by the task providing and automatic verifying module, the task configuring module reads the tasks received by the task receiving module and sends the tasks to a user, the task configuring and rewarding module sets rewarding contents for task completion, the task distributing and rewarding module distributes rewards to the user according to the condition that the user completes the tasks and the rewarding contents set by the task configuring and rewarding module, the display module displays all task contents and the rewards thereof and displays user behaviors, corresponding rewards can be automatically distributed according to the condition that the user executes the tasks, the workload of operators is saved, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a mission system for charging a new energy vehicle according to the present invention.

Fig. 2 is a schematic diagram illustrating steps of a mission reward method for charging a new energy vehicle according to the present invention.

Fig. 3 is a schematic system architecture diagram of a mission system for charging a new energy vehicle according to the present invention.

Fig. 4 is a schematic structural diagram of a task checking module of a task system for charging a new energy vehicle according to the present invention.

Detailed Description

The technical solutions of the present invention are further described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the embodiments of the present invention will be described in detail and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

The present invention will be further described with reference to the following examples, which are intended to be illustrative of only some, but not all, of the present invention. Based on the embodiments of the present invention, other embodiments used by those skilled in the art without any creative effort belong to the protection scope of the present invention.

Referring to fig. 1 to 4, an embodiment of the present invention is shown, which is for illustration purposes only and is not limited to this structure.

Example one

As shown in fig. 1 and 3, a task system for charging a new energy vehicle includes a task providing and automatic checking module, a task module, a reward module and a display module, wherein the task providing and automatic checking module is respectively connected with the task module and the reward module, and the task providing and automatic checking module and the reward module are both connected with the display module;

the task module comprises a task receiving module and a task configuration module, the reward module comprises a task configuration reward module and a task distribution reward module, the task providing and automatic checking module is respectively connected with the task receiving module and the task configuration reward module, the task receiving module is connected with the task configuration module, and the task configuration reward module is respectively connected with the task distribution reward module and the display module;

the task providing and automatic checking module is used for creating, checking and distributing tasks, the task receiving module is used for receiving the tasks distributed by the task providing and automatic checking module, the task configuration module is used for reading the tasks received by the task receiving module and issuing the tasks to a user, the task configuration reward module is used for setting reward content of task completion, the task distribution reward module is used for issuing rewards to the user according to the condition that the user completes the tasks and the reward content set by the task configuration reward module, and the display module is used for displaying all task content and rewards thereof and displaying user behaviors.

The task type created by the task providing and automatic checking module comprises an information enrichment class which comprises a personal information class, a vehicle information class and other information classes.

The task types created by the task providing and automatic verification module further comprise marketing feedback types, and the marketing feedback types comprise marketing activities, questionnaires and APP use tasks.

The task types created by the task providing and automatic verification module also include social classes, which include social tasks, invited tasks, and other tasks.

The task types created by the task providing and automatic checking module also comprise an FCP order completion class, and the order completion class comprises a charging task, an order task and other tasks.

The task types created by the task provisioning and automatic verification module also include charging types, including charging tasks, station tasks, and other tasks.

The task types created by the task providing and automatic checking module also comprise other types of tasks besides the information enrichment type, the marketing feedback type, the social contact type, the order completion type and the charging type.

As shown in fig. 2, a method for rewarding mission for charging a new energy vehicle includes the following steps:

s1, formulating different task contents according to users with different label types;

s2, the task providing and automatic checking module checks the personal information and the vehicle information;

s3, after the verification is successful, the task providing and automatic verification module issues the task;

s4, after receiving the task, the task receiving module sends the task to a task configuration module;

s5, a task configuration module reads the task and sends the task to a corresponding user;

and S6, after the task is completed, the task allocation reward module performs task reward allocation according to the task execution condition of the user, and the task distribution reward module issues task rewards to the user according to the task rewards allocated by the task allocation reward module.

In step S2, the personal information and the vehicle information are input into the system by a user, the task providing and automatic checking module compares the personal information and the vehicle information, and the checking is successful when the comparison result is 100% identical; otherwise, the verification fails.

And the task providing and automatic checking module optimizes the task content and the task distribution mechanism according to the task execution condition of the user. The user will obtain more exposure displays and recommendations for tasks that are performed more times and that effectively increase the amount of charge or revenue.

Example two

The second embodiment is a further optimization of the first embodiment.

The invention is implemented as follows:

as shown in fig. 1, 2 and 3, step 1, according to different tag types, users make different task contents; the method comprises the following specific steps:

the invention discloses an application of a task system for charging a new energy automobile, which comprises the following steps:

and 2, the task providing and automatic checking module comprises a task checking module and a task providing module, and the task checking module checks according to conditions, such as personal information, vehicle information and the like. Personal information and vehicle information enter the system through user input, the task verification module compares the information contents, if the comparison result is 100%, the verification is successful, otherwise, the verification is failed. After passing the verification, the task enters a task providing module;

and step 3, the task providing module issues tasks, wherein the task sources comprise marketing activities, questionnaires, APP usage, social tasks, invited new tasks, charging tasks, order tasks, power station tasks, other tasks and the like. And the task content in the release task is the same as the task content in the step one. After the background operator adds user tasks in the task providing module in a classified manner, the tasks are audited and issued and received by the task receiving module;

step 4, after receiving the task, the task receiving module reads the task;

step 5, the task configuration module reads the task received by the task receiving module, and the user executes the task;

and 6, the reward module gives corresponding rewards according to the task execution condition of the user. The reward content is set by a task configuration reward module at the background of the system, and the set content comprises the type and the number of discount coupons, the type and the number of voucher, a special charging strategy and the like;

and 7, optimizing the task content and the task distribution mechanism by the task providing and automatic checking module according to the task execution condition

EXAMPLE III

The third embodiment is further optimized by the second embodiment.

As shown in fig. 4, the task verification module includes an information acquisition module 1, a platform server 2, an identity verification module 3, and a face recognition terminal 4, and the platform server 2 is in communication connection with the information acquisition module 1, the identity verification module 3, and the face recognition terminal 4, respectively.

The information acquisition module 1 is used for acquiring authorization information of a user and sending the authorization information to the platform server 2; optionally, the authorization information is collected through a mobile networking terminal, and the information collection module 1 is a mobile networking terminal, including: the mobile communication equipment such as cell-phone or panel computer, the authorization information includes: the user fills in the identity information such as the name, the identity card number, the mobile phone number and the face information of the user and the vehicle information, shoots the face information of the user to form personal authorization information and the vehicle information, and sends the authorization information and the vehicle information to the platform server 2.

The platform server 2 is used for receiving the authorization information and the vehicle information sent by the information acquisition module 1 and sending the authorization information and the vehicle information to the identity verification module 3; the platform server 2 is in butt joint with the information acquisition module 1, the face recognition terminal 4 and the identity verification module 3, so that timely and effective information synchronization can be realized among the modules.

The identity verification module 3 is used for verifying the authorization information and the vehicle information of the user and returning a verification result to the platform server 2; illustratively, the identity verification module 3 includes a platform and a traffic management platform which can verify the validity of user information, the identity verification module 3 receives authorization information of a user, verifies basic information such as a name, an identity card, a mobile phone number and the like in the authorization information, face information and vehicle information, verifies whether each piece of information is matched, verifies whether a user corresponding to the authorization information is an illegal person, if each piece of information is successfully matched and the corresponding user is not an illegal person, the authorization information of the user passes verification, and returns a verification result to the platform server 2.

Optionally, the platform server 2 is further configured to send authorization information for verifying legitimacy to the face identification terminal 4 when the identity verification module 3 passes the verification. After receiving the successful verification result sent by the identity verification module 3, the platform server 2 sends the authorization information passing the verification to the face recognition terminal 4.

Optionally, the platform server 2 is further configured to send authorization information for verifying legitimacy to the face identification terminal 4 when the identity verification module 3 passes the verification.

Specifically, the face recognition terminal 4 is configured to collect face information of a user, match the collected face information with face information in authorization information for verifying legitimacy, and enter a task providing module after the verification is passed.

After receiving the face information, the face recognition terminal 4 stores the face information as an offline face base for face comparison. The face recognition terminal 4 illustratively includes a face recognition camera or other devices capable of capturing a face. After the face recognition terminal 4 collects the face image of the user, the collected face image is matched with face information in a face base through a deep learning algorithm, when the matching is successful, the face recognition terminal 4 sends a signal, and a task enters a task providing module. For users with unsuccessful face matching, the task does not enter the task providing module.

According to the technical scheme of the embodiment, the authorization information and the vehicle information of the user are acquired through the information acquisition module 1, and are sent to the platform server 2; the platform server 2 receives the authorization information sent by the information acquisition module and the vehicle information, and sends the authorization information and the vehicle information to the identity verification module 3; the identity verification module 3 verifies the identity of the user through the authorization information and the vehicle information, and illegal personnel cannot pass the identity verification, so that the legality of the authorization information is guaranteed; checking the basic information of the user through the identity checking module 3, and returning a checking result to the platform server; the platform server 2 is further configured to send the authorized information to the face recognition terminal 4 when the identity verification module passes verification, so that information synchronization is achieved between the face recognition terminal 4 and the platform server 2, and the face recognition terminal 4 can timely and effectively perform identity verification on the user through the authorized information and screen illegal persons.

The above-described embodiments are intended to be illustrative, not limiting, of the invention, and therefore, variations of the example values or substitutions of equivalent elements are intended to be within the scope of the invention.

From the above detailed description, it will be apparent to those skilled in the art that the foregoing objects and advantages of the invention are achieved and are in accordance with the provisions of the patent statutes.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including the preferred embodiment and all such alterations and modifications as fall within the scope of the invention. The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, it should be noted that any modifications, equivalents and improvements made within the spirit and scope of the present invention should be considered as being included therein.

Claims (10)

1. A task rewarding method for charging a new energy automobile is characterized by comprising the following steps:

s1, formulating different task contents according to users with different label types;

s2, the task providing and automatic checking module checks the personal information and the vehicle information;

s3, after the verification is successful, the task providing and automatic verification module issues the task;

s4, after receiving the task, the task receiving module sends the task to a task configuration module;

s5, a task configuration module reads the task and sends the task to a corresponding user;

and S6, after the task is completed, the task allocation reward module performs task reward allocation according to the task execution condition of the user, and the task distribution reward module issues task rewards to the user according to the task rewards allocated by the task allocation reward module.

2. The method for rewarding the mission for charging the new energy vehicle as claimed in claim 1, wherein in step S2, the personal information and the vehicle information are entered into the system by the user, the mission providing and automatic checking module compares the personal information and the vehicle information, and if the comparison result is 100% the same, the checking is successful; otherwise, the verification fails.

3. The method for rewarding the new energy vehicle charging task as claimed in claim 1, wherein the task providing and automatic verification module optimizes task content and task distribution mechanism according to task execution conditions of the user.

4. A task system for charging a new energy automobile is characterized by comprising a task providing and automatic checking module, a task module, a reward module and a display module;

the task providing and automatic checking module is used for creating, checking and distributing tasks, the task receiving module is used for receiving the tasks distributed by the task providing and automatic checking module, the task configuration module is used for reading the tasks received by the task receiving module and issuing the tasks to a user, the task configuration reward module is used for setting reward content of task completion, the task distribution reward module is used for issuing rewards to the user according to the condition that the user completes the tasks and the reward content set by the task configuration reward module, and the display module is used for displaying all task content and rewards thereof and displaying user behaviors.

5. The task system for charging the new energy automobile according to claim 4, wherein the task types created by the task providing and automatic checking module comprise information-rich classes, and the information-rich classes comprise a personal information class, a vehicle information class and other information classes.

6. The task system for charging a new energy vehicle of claim 5, wherein the task types created by the task providing and automatic verification module further comprise marketing feedback classes, and the marketing feedback classes comprise marketing campaigns, questionnaires, and APP usage tasks.

7. The task system for charging the new energy automobile according to claim 6, wherein the task type created by the task providing and automatic checking module further comprises a social class, and the social class comprises a social task, an invited new task and other tasks.

8. The task system for charging the new energy vehicle according to claim 7, wherein the task types created by the task providing and automatic checking module further include an order completion class, and the order completion class includes a charging task, an order task and other tasks.

9. The task system for charging the new energy automobile according to claim 8, wherein the task types created by the task providing and automatic checking module further include charging classes, and the charging classes include charging tasks, power station tasks and other tasks.

10. The task system for charging the new energy vehicle according to claim 9, wherein the task types created by the task providing and automatic checking module further include other types of tasks besides the information enrichment class, the marketing feedback class, the social class, the order completion class, and the charging class.

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