CN112508650A

CN112508650A - Method for sharing door of automobile during car delivery

Info

Publication number: CN112508650A
Application number: CN202011453190.4A
Authority: CN
Inventors: 杨静
Original assignee: Beijing Shouqi Zhixing Technology Co Ltd
Current assignee: Beijing Shouqi Zhixing Technology Co Ltd
Priority date: 2020-12-11
Filing date: 2020-12-11
Publication date: 2021-03-16

Abstract

The invention relates to a method for sharing a car delivery door, which comprises a step S110, wherein a server receives first request data of a user terminal, the first request data at least comprises a car taking point selected by an order user, and the user terminal is a terminal held by the order user; step S120, the server generates a delivery order according to the first request data at least; step S130, the server generates a delivery service work order according to the delivery service order; step S140, the server sends the door work order for sending the order to a car service terminal, the door work order for sending the order to a car taking point by operation and maintenance or crowdsourcing, and the car service terminal is a terminal held by the operation and maintenance or crowdsourcing. The invention solves the problem that users get the car at a far distance and no car at a network point by adopting the service of sending the car to the door, and the like, and the mode can greatly facilitate the users to get the car.

Description

Method for sharing door of automobile during car delivery

Technical Field

The invention relates to the field of automobile sharing, in particular to a method for sharing the door of an automobile during the automobile sending.

Background

The GoFun trip is a shared automobile product which is released by the first automobile group aiming at the mobile trip, aims at integrating the fragmented automobile using requirements of users by relying on the industrial experience and the superior resources of the first automobile group, and provides convenient, green, quick and economic trip service. The GoFun trip is an emerging car renting mode in the sharing industry, the car is unattended, the whole car using process App is operated, the ready-to-use and time-sharing renting services of the car are provided, and a consumer can book the car according to the personal car using requirements. The GoFun trip has completed the layout of more than 80 cities in the country in succession, wherein the first-line and second-line cities such as Beijing, Wuhan and Chengdu are not lacked, and the important tourist areas such as Xian, Qingdao, Kunming, Guilin and Sansui are more available.

Due to the unattended characteristic, a user is required to check surrounding network points by himself to take and return vehicles. The actual conditions under the line are often complex, firstly, companies are difficult to cover all parking lots in the city, secondly, the actual physical parking conditions of the network points under the line are difficult to monitor, and the network point vehicles are possibly shielded by social vehicles and cannot be taken out. Under the background, the support of the car delivery and the door getting-on can greatly facilitate the user to get the car.

The current solution is to continue to increase the investment of cooperative network points and cover the user demand as much as possible with high-density network point distribution. Or the operation and maintenance carries out high-frequency scheduling, and the network points where the users have requirements are guaranteed to have available vehicles as far as possible.

First, there is an upper limit to the investment of the network points, and the cooperative network points cannot be larger than the actual off-line physical parking lot. And the parking lots in different areas have different distribution densities, so that the convenience of taking the car by a user still has randomness, and the network point laying needs to consume a large amount of cost.

Disclosure of Invention

In view of the above, the present invention has been developed to provide a method of sharing a door on a delivery car that overcomes or at least partially solves the above-mentioned problems.

According to an aspect of the present invention, a method for sharing a door of a car during a delivery process is provided, including step S110, in which a server receives first request data from a user terminal, the first request data at least including a car pick-up point selected by an order user, the user terminal being a terminal owned by the order user; step S120, the server generates a delivery order according to the first request data at least; step S130, the server generates a delivery service work order according to the delivery service order; step S140, the server sends the door work order for sending the order to a car service terminal, the door work order for sending the order to a car taking point by operation and maintenance or crowdsourcing, and the car service terminal is a terminal held by the operation and maintenance or crowdsourcing.

In a possible implementation manner, before step S120, the method further includes: step S111, the server judges whether the car taking point is in a car delivery supporting fence or not, if not, the step S112 is carried out, and if so, the step S113 is carried out; step S112, a server sends first feedback information to a user terminal, wherein the first feedback information is used for indicating the user terminal to show first prompt information to a user, and the first prompt information is used for prompting the user that a vehicle taking point does not support vehicle sending and door entering service; step S113, the server sends second feedback information to the user terminal, wherein the second feedback information is used for indicating the user terminal to display second prompt information, and the second prompt information displays selectable vehicle types.

In a possible implementation manner, after step S113, the method further includes: step S114, a server receives second request data of the user terminal, wherein the second request data comprises a vehicle type, a vehicle renting time and payment information selected by a user, the payment information comprises vehicle renting cost and door-to-door cost, the vehicle renting cost is generated according to the vehicle type and the vehicle renting time, and the second request data and the first request data are used for generating a vehicle-sending door-to-door order.

In a possible implementation manner, after step S140, the method further includes: step S210, the server sends third feedback information to the user terminal, wherein the third feedback information is used for indicating the user terminal to display third prompt information, and the third prompt information is used for prompting that the order placing user is waiting for the operation and maintenance order.

In a possible implementation manner, after step S210, the method further includes: step S211, the server sends fourth feedback information to the user terminal, where the fourth feedback information is used to instruct the user terminal to display fourth prompt information, and the fourth prompt information is used to prompt the user who made the order to receive the operation and maintenance order.

In a possible implementation manner, after step S211, the method further includes: step S212, the server sends fifth feedback information to the user terminal, wherein the fifth feedback information is used for indicating the user terminal to display fifth prompt information, and the fifth prompt information is used for prompting the user who gets the vehicle for operation and maintenance.

In a possible implementation manner, after step S212, the method further includes: step S213, the server sends sixth feedback information to the user terminal, where the sixth feedback information is used to instruct the user terminal to display sixth prompt information, and the sixth prompt information is used to prompt the user to dispatch the vehicle.

In a possible embodiment, after step S213, when the vehicle is delivered to the pick-up point, the method further includes: and step S214, the server sends first indication information to the vehicle service terminal, wherein the first indication information is used for indicating the vehicle service terminal to prompt operation and maintenance personnel to take a picture for confirmation after the vehicle arrives.

In a possible implementation manner, after step S210, when no person takes an order within a timeout, the method further includes: step S215, the server sends seventh feedback information to the user terminal, the seventh feedback information is used for indicating the user terminal to display seventh prompt information, the seventh prompt information is used for prompting the user to leave the order, no one receives the order within the specified time limit, and whether to continue waiting is inquired.

In a possible implementation manner, after step S215, the method further includes: step S216, the server sends eighth feedback information to the user terminal, wherein the eighth feedback information is used for indicating the user terminal to display eighth prompt information, and the eighth prompt information prompts that the user operation and maintenance has received an order and the order can obtain a coupon.

The invention solves the problem that users get the car at a far distance and no car at a network point by adopting the service of sending the car to the door, and the like, and the mode can greatly facilitate the users to get the car.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic flow chart of a method for sharing a door of a vehicle during a vehicle transportation according to an embodiment of the present invention;

fig. 2 is a specific interface diagram of an APP sharing door of a car during a door-to-door delivery according to an embodiment of the present invention.

Detailed Description

The terms "first," "second," and the like in the description and in the claims and in the drawings of the present invention are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprises" and "comprising," as well as any variations thereof, are intended to cover a non-exclusive inclusion, such as a list of steps or elements. A method, system, article, or apparatus is not necessarily limited to those steps or elements explicitly listed, but may include other steps or elements not explicitly listed or inherent to such process, system, article, or apparatus.

The technical solution of the present invention is further described in detail with reference to the accompanying drawings and embodiments.

Referring to fig. 1-2, an embodiment of the present invention provides a method for sharing a door of a vehicle, including:

step S110, a server receives first request data of a user terminal, wherein the first request data at least comprises a taxi taking point selected by an order placing user, and the user terminal is a terminal held by the order placing user;

for example, the user may drag the spot arbitrarily on the map as the pick-up point.

And step S120, the server generates a delivery order according to the first request data at least.

And step S130, the server generates a delivery service work order according to the delivery service order.

Step S140, the server sends the door work order for sending the order to a car service terminal, the door work order for sending the order to a car taking point by operation and maintenance or crowdsourcing, and the car service terminal is a terminal held by the operation and maintenance or crowdsourcing.

In one example, before step S120, further comprising

In step S111, the server determines whether the pick-up point is in the support delivery fence, and if not, the process proceeds to step S112, and if so, the process proceeds to step S113.

Step S112, the server sends first feedback information to the user terminal, wherein the first feedback information is used for indicating the user terminal to display first prompt information to the user, and the first prompt information is used for prompting the user that the pick-up point does not support the service of sending the car to the door.

Step S113, the server sends second feedback information to the user terminal, wherein the second feedback information is used for indicating the user terminal to display second prompt information, and the second prompt information displays selectable vehicle types.

Further included after step S113 is:

step S114, a server receives second request data of the user terminal, wherein the second request data comprises a vehicle type, a vehicle renting time and payment information selected by a user, the payment information comprises vehicle renting cost and door-to-door cost, the vehicle renting cost is generated according to the vehicle type and the vehicle renting time, and the second request data and the first request data are used for generating a vehicle-sending door-to-door order.

In one example, the second request data further includes a rental car time, and the user can select to use the car immediately or at some future time after selecting the service of sending the car to the door.

In one example, after step S140, the method further includes:

step S210, the server sends third feedback information to the user terminal, wherein the third feedback information is used for indicating the user terminal to display third prompt information, and the third prompt information is used for prompting that the order placing user is waiting for the operation and maintenance order.

In one example, after step S210, the method further includes:

step S211, the server sends fourth feedback information to the user terminal, where the fourth feedback information is used to instruct the user terminal to display fourth prompt information, and the fourth prompt information is used to prompt the user who made the order to receive the operation and maintenance order.

Illustratively, the fourth prompt message further includes a contact way and a real-time position of the operation and maintenance/crowdsourcing personnel, the operation and maintenance/crowdsourcing personnel performs order receiving operation after the user places an order, and the contact way and the real-time position of the operation and maintenance personnel can be seen by the user after the order is received.

In one example, after step S211, the method further includes:

step S212, the server sends fifth feedback information to the user terminal, wherein the fifth feedback information is used for indicating the user terminal to display fifth prompt information, and the fifth prompt information is used for prompting the user who gets the vehicle for operation and maintenance.

In one example, after step S212, the method further includes:

step S213, the server sends sixth feedback information to the user terminal, where the sixth feedback information is used to instruct the user terminal to display sixth prompt information, and the sixth prompt information is used to prompt the user to dispatch the vehicle.

In one example, after step S213, when the vehicle is delivered to the pick-up point, the method further includes:

step S214, the server sends first indication information to the car service terminal, the first indication information is used for indicating the car service terminal to prompt operation and maintenance personnel to take pictures and confirm after the car is delivered, the user confirms that the car receiving operation is carried out after confirming that no problem exists, and the user can drive the car through the APP after the car receiving is completed and starts to use the car.

In one example, after step S210, when no person takes an order due to timeout, the method further includes:

step S215, the server sends seventh feedback information to the user terminal, the seventh feedback information is used for indicating the user terminal to display seventh prompt information, the seventh prompt information is used for prompting the user to leave the order, no one receives the order within the specified time limit, and whether to continue waiting is inquired.

In one example, the seventh prompt message is also used to prompt the ordering user to leave the coupon if the coupon is continuously available.

In one example, after step S215, the method further includes:

step S216, the server sends eighth feedback information to the user terminal, wherein the eighth feedback information is used for indicating the user terminal to display eighth prompt information, and the eighth prompt information prompts that the user operation and maintenance has received an order and the order can obtain a coupon.

In one example, after step S216, the method further includes:

step S217, the server sends ninth feedback information to the user terminal, where the ninth feedback information is used to instruct the user terminal to display ninth prompt information, and the ninth prompt information is used to prompt the user that the operation and maintenance has cancelled the order, and the user can obtain the compensation coupon.

In one example, after step S211, the method further includes:

step S218, the server sends tenth feedback information to the user terminal, where the tenth feedback information is used to indicate the user to display tenth prompt information, and the tenth prompt information is used to prompt the user to wait for receiving orders again.

In one example, after step S212 or step S213, the method further includes:

after step S219, the server sends eleventh feedback information to the user terminal, where the eleventh feedback information is used to instruct the user to display eleventh prompting information, and the eleventh prompting information is used to prompt the user that the vehicle has been replaced.

According to an embodiment of another aspect, there is also provided a computer-readable storage medium having stored thereon a computer program which, when executed in a computer, causes the computer to perform the method described above.

According to an embodiment of yet another aspect, there is also provided a computing device comprising a memory and a processor, the memory having stored therein executable code, the processor implementing the method as described above when executing the executable code.

The method provided by the invention supports the car-sending and door-getting, the user can freely select the network point to get the car or the car-sending and door-getting when placing the order by the APP, after the car-sending and door-getting is selected, the user can drag the spot on the map as the car-getting spot, the operation and maintenance or crowdsourcing personnel can adjust the car to the car-getting spot of the user according to the appointed time, and the user can carry out the subsequent car-using after the car handover is completed.

After the user selects the service of sending the vehicle to the door, the user can select to use the vehicle immediately or at a certain time in the future. In the area range of the door-to-door delivery supported by the city, a user can randomly select a vehicle taking place, the mode can greatly facilitate the user to take the vehicle, for example, in the city of Western-An, the door-to-door delivery basically supports the area in three rings, and the vehicle taking in the city can basically be limited by a network point.

The process of sending the car to the door is opened, and the problem that the user gets the car at a far network point, no car at the network point and the like is solved. The vehicle using demand party (user) and the vehicle sending supply party (crowdsourcing) are connected, and the efficient utilization of resources is realized by the vehicle, the vehicle using user and crowdsourcing personnel. Meanwhile, the operation of the network is weakened, the platform is helped to reduce the pressure, and the satisfaction degree of the user in the vehicle taking link in the vehicle using experience is improved.

The above embodiments are provided to further explain the objects, technical solutions and advantages of the present invention in detail, it should be understood that the above embodiments are merely exemplary embodiments of the present invention and are not intended to limit the scope of the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A method of sharing a door on a vehicle, comprising:

step S120, the server generates a delivery order according to the first request data at least;

step S130, the server generates a delivery service work order according to the delivery service order;

2. The method of sharing a door on a delivery car of claim 1, further comprising, before step S120:

step S111, the server judges whether the car taking point is in a car delivery supporting fence or not, if not, the step S112 is carried out, and if so, the step S113 is carried out;

step S112, a server sends first feedback information to a user terminal, wherein the first feedback information is used for indicating the user terminal to show first prompt information to a user, and the first prompt information is used for prompting the user that a vehicle taking point does not support vehicle sending and door entering service;

3. The method for sharing a door on a delivery car of a car according to claim 2, further comprising, after step S113:

4. The method of sharing a door on a delivery car of claim 1, further comprising, after step S140:

5. The method of sharing a door on a delivery car of claim 4, further comprising, after step S210:

6. The method of sharing a door on a delivery car of claim 5, further comprising, after step S211:

7. The method of sharing a door on a delivery car of claim 6, further comprising, after step S212:

8. The method of claim 7, wherein after the step S213, when the vehicle is delivered to the pick-up point, the method further comprises:

and step S214, the server sends first indication information to the vehicle service terminal, wherein the first indication information is used for indicating the vehicle service terminal to prompt operation and maintenance personnel to take a picture for confirmation after the vehicle arrives.

9. The method of claim 1, wherein after step S210, when no person takes an order due to timeout, the method further comprises:

10. The method of sharing a door on a delivery car of claim 9, further comprising, after step S215: