CN111754277A - Rental article allocation system and method - Google Patents

Abstract

A rental article allocation system and method are disclosed, wherein the rental article allocation method comprises the steps of outputting the value of the rentable article of the rental article which can be rented currently by a rental station when the rental article is rented or returned, and then wirelessly broadcasting the return preferential message corresponding to the rental station for each rented article by a central control station when the value of the rentable article at the rental station is less than the corresponding preferential trigger value. Through the design of pushing the return preference message to the rental station when the value of the rentable item at the rental station is lower than the corresponding preference trigger value, the willingness of a renter to go to the rental station providing return preference immediately to return the rentable item can be effectively stimulated, and the operating efficiency of the rental station is improved.

Description

Rental article allocation system and method

Technical Field

The present invention relates to a rental system, and more particularly, to a rental article allocation system.

Background

In order to effectively and fully utilize various rental article resources and maximize the benefits of purchased rental articles, a plurality of stores provide rental services for specific rental articles, such as vehicles, video and audio navigation equipment, mobile devices, computers, wireless network sharers and the like, some large chain stores set rental stations in various places, and a central control station controls the renting and returning of the rental articles of the rental stations online, and even provides services for renting from first places and second places.

However, each rental station has a rated capacity for a specific rental article, and for example, the number of parking devices which can be returned and parked by the electric vehicle at each rental station is limited, when a large number of electric vehicles rush to a specific rental station for returning, a plurality of renters cannot find the parking devices for returning the electric vehicles, the renters are inconvenient, and the rental station full of the electric vehicles can only provide rental services, so that the service efficiency is reduced by half. Similarly, because each station has a limited number of electric vehicles that can be rented, when all electric vehicles at a station are lent, in addition to wasting resources due to the temporary time spent at the station, people around the location of the station may also be exposed to the situation where no electric vehicle can be rented for use. Therefore, how to effectively allocate and control the renting and returning of the rental goods at each rental station so as to improve the renting benefits of each rental station and each rental goods is the first task of many rental operators.

Disclosure of Invention

The present invention is directed to a rental article deployment system and method that ameliorates at least one of the disadvantages of the prior art.

The rental article allocation system is suitable for managing and controlling the rental and return of a plurality of rental articles capable of receiving the push message. The rental article allocation system comprises at least one rental station and a central control station which is in signal connection with the at least one rental station and can be in wireless communication with the rental articles. The station management unit receives and analyzes the borrowing and returning information, and statistically outputs a rentable article value with the number of the rentable articles which can be currently rented by the renting and returning unit to the central control station. The central control station comprises a site preferential setting unit and an information push control unit, wherein the site preferential setting unit can be operated to set a preferential trigger value smaller than the rated capacity and return preferential information for the at least one rental station, and the information push control unit receives the rentable item value of the at least one rental station and pushes the return preferential information for each rentable item which is lent when the rentable item value is smaller than the preferential trigger value.

In the rental article allocation system of the present invention, the site privilege setting unit may further be configured to set a privilege stop value that is greater than the privilege trigger value but smaller than the rated capacity, the central control station further includes a privilege denomination calculation unit, the privilege denomination calculation unit is triggered when the rentable article value is smaller than the privilege trigger value, and calculates a privilege denomination representing a difference between the privilege stop value and the rentable article value, and changes the privilege denomination when the rentable article value changes, and the message push control unit may carry the privilege denomination in the return privilege message pushed to each rental article.

In the rental item allocation system of the present invention, the site discount setting unit is further operable to set a discount time for the at least one rental station, the central control station further includes a timing unit, and the message push control unit drives the timing unit to start timing the discount time when the value of the rentable item is less than the discount trigger value, and carries the discount time in the returned discount message pushed for each rental item.

In the rental item allocation system of the present invention, the message push control unit pushes a discount ending message for each rental item that receives the return discount message when the discount title is equal to zero or the discount time is timed out.

The rental article allocation system comprises a plurality of rental stations, wherein a central control station is in signal connection with each rental station, the rated capacities of the rental return units of the rental stations are the same or different, the station preferential setting unit can be operated to respectively set the preferential trigger value, the return preferential message, the preferential time and the preferential stop value for each rental station, and the message push control unit receives the rentable article value of each rental station and pushes the return preferential message for each rentable article which is currently rented when the rentable article value of one rental station is less than the corresponding preferential trigger value.

In the rental article allocation system of the present invention, each rented rental article transmits position data representing its current position, wherein the central control station is further capable of receiving the position data transmitted by each rental article, the site preferential setting unit is further operable to set a screening distance value for each rental station, the central control station further includes a range screening unit built with a plurality of site coordinates respectively corresponding to the rental stations, the range screening unit is triggered when the value of the rentable article at one of the rental stations is less than the preferential trigger value, analyzes a distance from the position data of each rental article to the site coordinates of the one of the rental stations, and screens out each rental article whose distance is less than the screening distance threshold corresponding to the one of the rental stations, the message pushing control unit compares the return preferential message corresponding to one of the leasing stations and pushes the return preferential message to each leasing item screened by the range screening unit.

The rental article allocation method is suitable for managing the rental and return of a plurality of rental articles of a plurality of rental stations, the rental articles with rated capacity of each rental station can be rented and returned, and each rental article can receive push messages wirelessly. The rental article allocation method comprises the following steps: (A) enabling each leasing station to count and output the value of the rentable articles representing the number of the rentable articles which can be currently rented to a central control station when the leasing station receives the return of the leasing articles or the leasing articles of the leasing station are rented; and (B) enabling the central control station to receive and record the value of the rentable goods of each renting station, and wirelessly broadcasting return preference information corresponding to the renting station for each rentable goods which are rented currently when the value of the rentable goods of the renting station is less than the preference trigger value corresponding to the renting station.

The rental article allocation method of the present invention, wherein the step (B) includes the following substeps: (B1) causing the central station to calculate an offer amount representing a difference between the rentable item value of the rental station and an offer stop value set for the rental station when the rentable item value of the central station at the rental station is less than the offer trigger value, the offer stop value being greater than the offer trigger value but less than the rated capacity, and (B2) causing the central station to entrain the offer amount in the return offer message pushed for each rental item.

According to the rental article allocation method, each rented article sends position data representing the current position of the rented article, the step (B) further comprises a substep (B3) of enabling the central control station to receive the position data sent by each rental article, analyzing the distance from each position data to a station coordinate representing the rental station when the value of the rentable article at the rental station is less than the discount trigger value, and screening each rental article of which the distance is less than the screening distance threshold value corresponding to the rental station, wherein the substep (B2) of enabling the central control station to broadcast the returning message for each rental article screened by the substep (B3).

In the rental item allocation method of the present invention, the step (B) further includes a substep (B4) of enabling the central station to start timing an offer time when the value of the rentable item is less than the offer trigger value, and the substep (B2) of enabling the central station to carry the offer time in the return offer message pushed for each rental item.

The rental article allocation method of the present invention further comprises the step (C) of determining whether the corresponding offer denomination is equal to zero or not when the value of the rentable article at the rental station is changed at the central control station, re-executing the step (B) when the offer denomination is not equal to zero, and broadcasting an offer end message for each rental article which receives the return offer message when the offer denomination is equal to zero.

The invention has the beneficial effects that: through the design of pushing the return preference message to the leasing station when the value of the rentable item of one leasing station is lower than the corresponding preferential trigger value, the willingness of a leaser to go to the leasing station providing the return preference immediately to return the leasing item can be effectively stimulated, and the operating efficiency of the leasing station is improved.

Drawings

Other features and effects of the present invention will become apparent from the following detailed description of the embodiments with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of a rental article deployment system of an embodiment of the present invention, configured to be used with a plurality of rental articles of electric vehicle types;

FIG. 2 is a flow chart of the steps of the deployment method of the embodiment; and

fig. 3 is a functional block diagram of this embodiment.

Detailed Description

Referring to fig. 1 and 3, the embodiment of the rental article allocation system of the present invention is suitable for managing and controlling the allocation of the renting and returning of a plurality of rental articles 800, and can communicate with the rental articles 800 wirelessly through a general mobile communication network system or a wireless network system such as WiFi. Each rental article 800 is an electronic product with a positioning function and a wireless communication function, and can position its current position by GPS and/or network positioning technology, correspondingly send a position data, and wirelessly receive and display a push message, the rental article 800 can be a bicycle, an electric vehicle, an automobile, a video navigator, a mobile phone, or other electronic products known in the market that can be rented and can position, receive and display a push message.

The rental article allocation system comprises a plurality of rental stations 3 distributed at different places, and a central control station 4 which is in signal connection with the rental stations 3 and can be in wireless communication with the rental articles 800. The central control station 4 and the leasing station 3 can be connected by signals through a wireless network, a wired network and/or a mobile communication network. For convenience of description, the rental article 800 shown in the drawings is exemplified by an electric vehicle, that is, the rental station 3 in this embodiment is an electric vehicle rental station.

Each rental station 3 includes a rental return unit 31 and a site management unit 32. The rental and return unit 31 has a function of processing the rental and return of the rental item 800, can only accommodate the rental item 800 with a rated capacity, such as an electric vehicle capable of parking the rated capacity, can operate within the rated capacity to rent and return the rental item 800, and correspondingly transmits a return message to the site management unit 32 when a rental item 800 is rented or returned.

The site management unit 32 is built with the rated capacity, and receives and processes the lease return message to count the number of the lease items 800 currently available for lease by the lease return unit 31, and correspondingly outputs a value of the lease item to the central control station 4. And the site management unit 32 also causes the rental returning unit 31 to suspend the returning function when the value of the rentable item is equal to the rated capacity, and only operates to rent the rental item 800, but cannot be operated to return.

The central control station 4 includes a station benefit setting unit 41, a benefit denomination calculation unit 42, a range screening unit 44, a timing unit 43, and a message push control unit 45.

The station benefit setting unit 41 is operable to set a benefit trigger value, a benefit stop value, a benefit time, a screening distance threshold, and a return benefit message for each rental station 3, respectively. The offer trigger value and the offer stop value are both smaller than the rated capacity of the corresponding lease station 3, but the offer stop value is larger than the offer trigger value. The content setting of the return preference message mainly informs the renter that the preferential discount of the rent can be obtained if the rented rental item 800 is returned to the corresponding rental station 3 under the specific return preference condition carried by the return preference message, wherein the preferential return condition is, for example, returned within a specific time or immediately the first N bits finish the return procedure.

The discount name calculation unit 42 is triggered and started by the message broadcasting control unit 45, calculates a difference value between the discount stop value set by a specific rental station 3 and the rentable item value currently uploaded by the rental station 3, records a discount name corresponding to the rental station 3, and correspondingly adjusts the discount name along with the change of the rentable item value transmitted by the rental station 3, wherein the maximum value of the discount name is the discount stop value. For example, the rated capacity corresponding to one rental station 3 is twenty, the offer trigger value is five, the offer stop value is ten, the number of rentable items uploaded currently is three, the offer nominal amount is seven, when two rental items 800 are returned at the rental station 3, the number of rentable items changes to five, the offer nominal amount is reduced to five, and when the remaining three rental items 800 at the rental station 3 are rented, the number of rentable items changes to zero, the offer nominal amount increases to ten.

The range screening unit 44 is built with a plurality of site coordinates respectively representing the positions of the rental stations 3, and is triggered and activated by the message push control unit 45 to wirelessly communicate with each rental item 800 currently rented, drive each rental item 800 rented to correspondingly return the position data, and trigger to calculate the distance between each rental item 800 returning the position data and the rental station 3 according to the site coordinates of a specific rental station 3, and then screen each rental item 800 whose distance is less than the screening distance threshold corresponding to the rental station 3.

The timer unit 43 is triggered by the message push control unit 45 to start to time the offer time corresponding to a specific rental station 3.

The message push control unit 45 receives the rentable item values transmitted from the rental station 3 at any time and analyzes the magnitude relationship between each rentable item value and the corresponding offer trigger value. When the value of the rentable item of a rental station 3 is smaller than the corresponding preferential trigger value, the message push control unit 45 starts the push function of the returned preferential message to the rental station 3.

When the message push control unit 45 activates the offer message push function for the rental station 3, the offer denomination calculation unit 42, the range screening unit 44 and the timing unit 43 are triggered for the rental station 3. At this time, the triggered offer denomination calculation unit 42 calculates the offer denomination for the rental station 3. The range screening unit 44 drives each rented rental item 800 back to the location data, calculates the distance between the rental station 3 and each rented rental item 800, and screens each rental item 800 with the distance less than the screening distance threshold corresponding to the rental station 3. The timer unit 43 starts to count the preferential time corresponding to the rental station 3.

Then, the message push control unit 45 compares the returned offer message corresponding to the rental station 3, and carries the offer denomination and the offer time in the returned offer message. Then, the return offer is pushed to each rental item 800 screened by the range screening unit 44. By this design, when a rental article 800 receives the return offer message, the default offer discount is displayed, and the offer denomination and the offer time are also displayed. In practice, the preferential time display mode may be designed to drive the rental article 800 to display the timing result of the preferential time in real time, or to drive the rental article 800 to display the preferential time carried by the returned preferential message without a real-time timing function.

In addition, when determining that the value of the rentable item transmitted by the rental station 3 is changed, the message push control unit 45 drives the offer name calculation unit 42 to recalculate the offer name, drives the range screening unit 44 to re-screen the rental item 800, and then pushes the returned offer message carrying the changed offer name and the current timing result of the offer time to each newly screened rental item 800.

The message push control unit 45 sends a benefit end message to each rental item 800 that previously sent the return benefit message for the rental station 3 when the benefit denomination corresponding to the rental station 3 is equal to zero or the benefit time count ends.

Referring to fig. 1, 2 and 3, the allocation method of the rental article allocation system of the present invention comprises the following steps performed in sequence:

step 100, statistically outputting the value of the rentable goods. Each rental station 3 statistically outputs the value of the rentable item to the central station 4 when receiving the return of a rental item 800 or when a rental item 800 it has is rented.

Step 200, the central control station 4 starts the return preferential activity of the leasing station 3 when the value of the rentable item of one leasing station 3 is less than the corresponding preferential trigger value. Comprising the substeps 201 to 203:

substep 201 allows the central control station 4 to calculate the offer quota of the lending station 3.

Substep 202, the central control station 4 drives each leased item 800 to correspondingly return the position data representing its current position, analyzes the distance of the position data of each leased item 800 to the leasing station 3, and then screens out each leased item 800 whose distance is less than the range screening value corresponding to the leasing station 3.

Substep 203, making the central control station 4 compare the returning preferential message and the preferential time corresponding to the renting station 3, and entrain the preferential time and the preferential denomination in the returning preferential message, and then, broadcasting the returning preferential message to the rental item 800 screened by the substep 202.

Step 300, the central control station 4 analyzes whether the return offer activity of the renting station 3 is stopped. Comprising the substeps 301 to 305:

in the sub-step 301, the central station 4 determines whether the value of the rentable item of the rental station 3 is changed, if the value of the rentable item is not changed, the sub-step 302 is executed to determine whether the discount time is ended, if the discount time is not ended, the sub-step 301 is returned to be executed, and if the discount time is ended, the sub-step 303 is executed. In sub-step 303, the central station 4 broadcasts the offer ending message for each rental item 800 that was previously broadcast the return offer message for the rental station 3.

When the central station 4 determines in the sub-step 301 that the value of the rentable item is changed, the sub-step 304 is executed to determine whether the offer denomination after the value of the rentable item is changed is equal to zero, and when the offer denomination is equal to zero, the step 303 is executed continuously. When the offer denomination is not equal to zero, the sub-step 305 is executed to determine whether the offer time is over. If the central control station 4 determines that the discount time is timed out in the substep 305, the substep 303 is executed, if the discount time is not timed out, the process returns to the step 200, the discount denomination and each rental item 800 whose distance is less than the corresponding screening distance value are recalculated, and then the return discount message is retransmitted.

In this embodiment, the central control station 4 limits the valid time limit of the return offer message of each lending station 3 by the offer time, but in another implementation aspect of the present invention, the offer time function is not set, that is, the offer activity is not limited by time, and only the return offer is provided according to the offer name.

In addition, the range screening unit 44 screens out the rental items 800 within a specific distance range of the rental station 3, and then broadcasts the return benefit message to the screened rental items 800, but in another embodiment of the present embodiment, the return benefit message may be broadcast to all the rental items 800 without performing range screening.

In summary, through the design of sending the return preferential message to the rental item 800 located within a specific distance range of the rental station 3 when the value of the rentable item at one rental station 3 is lower than the corresponding preferential trigger value, the willingness of the renter to go to the rental station 3 providing the return preferential immediately to return the rental item 800 can be effectively stimulated, the rentable station 3 can be beneficial to keep a certain number of rental items 800 for renting, and the operating efficiency of the rental station 3 can be greatly improved. Therefore, the object of the present invention can be achieved.

It should be understood that the above description is only an example of the present invention, and the scope of the present invention should not be limited thereby, and all the simple equivalent changes and modifications made according to the claims and the contents of the patent specification should be included in the scope of the present invention.

Claims (11)

1. A rental article allocation system, which is suitable for managing and controlling the renting and returning of a plurality of rental articles capable of receiving push messages, and comprises at least one rental station and a central control station which is in signal connection with the at least one rental station and can be in wireless communication with the rental articles, wherein the at least one rental station comprises a rental returning unit and a site management unit in signal connection with the rental returning unit, the rental returning unit can accommodate the rental articles with rated capacity, can be operated to rent and return the rental articles, and can correspondingly send returning messages to the site management unit when the rental articles are rented or returned, and the rental article allocation system is characterized in that: the site management unit receives and analyzes the borrowing and returning information, and statistically outputs a rentable item value with the number of the rentable items which can be currently rented by the renting and returning unit to the central control station, the central control station comprises a site preferential setting unit and an information push control unit, the site preferential setting unit can be operated to set a preferential trigger value smaller than the rated capacity for the at least one rentable station and return preferential information, and the information push control unit receives the rentable item value of the at least one rentable station and pushes the returned preferential information for each rentable item which is already lent when the rentable item value is smaller than the preferential trigger value.

2. The rental article deployment system of claim 1, wherein: the station preferential setting unit can also be used for setting a preferential stop value which is larger than the preferential trigger value but smaller than the rated capacity in an operation mode, the central control station further comprises a preferential denomination calculation unit, the preferential denomination calculation unit is triggered when the value of the rentable article is smaller than the preferential trigger value, the preferential denomination calculation unit calculates the preferential denomination representing the difference value between the preferential stop value and the value of the rentable article, the preferential denomination is correspondingly changed when the value of the rentable article is changed, and the message broadcast control unit carries the preferential denomination in the return preferential message broadcast for each rentable article.

3. The rental article deployment system of claim 2, wherein: the station preferential setting unit can also be operated to set a preferential time for the at least one rental station, the central control station further comprises a timing unit, and the message push control unit drives the timing unit to start timing the preferential time when the value of the rentable item is less than the preferential trigger value, and carries the preferential time in the returned preferential message pushed to each rental item.

4. The rental article deployment system of claim 3, wherein: the message pushing control unit pushes a discount ending message to each rental article which receives the return discount message when the discount name is equal to zero or the discount time is timed out.

5. The rental article deployment system of claim 4, wherein: the center control station is in signal connection with each rental station, the rated capacities of the rental returning units of the rental stations are the same or different, the station preferential setting unit can be operated to set the preferential trigger value, the return preferential message, the preferential time and the preferential stop value for each rental station respectively, and the message broadcasting control unit receives the value of the rentable item of each rental station and broadcasts the return preferential message for each rentable item when the value of the rentable item of one rental station is less than the corresponding preferential trigger value.

6. The rental article deployment system of claim 5, wherein: each rented rental article sends position data representing the current position of the rented rental article, wherein the central control station can also receive the position data sent by each rental article, the site preferential setting unit can be further operated to set a filtering distance value for each rental station, the central control station further comprises a range filtering unit which is built with a plurality of site coordinates respectively corresponding to the rental stations, the range filtering unit is triggered when the value of the rentable article at one rental station is less than the preferential trigger value, a route distance of the position data of each rental article to the site coordinates of one rental station is analyzed and output, each rental article of which the route distance is less than the filtering distance threshold value corresponding to one rental station is filtered, and the message push control unit compares the returned preferential message corresponding to one rental station, and pushing the return preferential message to each rental item screened by the range screening unit.

7. A method for allocating rental goods is suitable for managing the rental and return of a plurality of rental goods at a plurality of rental stations, each rental station has a rated capacity of the rental goods for rental and return, each rental goods can receive push messages wirelessly, and the method is characterized in that: the rental article allocation method comprises the following steps: (A) enabling each leasing station to count and output the value of the rentable articles representing the number of the rentable articles which can be currently rented to a central control station when the leasing station receives the return of the leasing articles or the leasing articles of the leasing station are rented; and (B) enabling the central control station to receive and record the value of the rentable goods of each renting station, and when the value of the rentable goods of the renting station is less than the preferential trigger value corresponding to the renting station, wirelessly broadcasting return preferential information corresponding to the renting station for each rentable goods which are rented currently.

8. The rental article allocation method of claim 7, wherein: the step (B) includes the sub-steps of: (B1) causing the central station to calculate an offer amount representing a difference between the rentable item value of the rental station and an offer stop value set for the rental station when the rentable item value of the central station at the rental station is less than the offer trigger value, the offer stop value being greater than the offer trigger value but less than the rated capacity, and (B2) causing the central station to entrain the offer amount in the return offer message pushed for each rental item.

9. The rental article allocation method of claim 8, wherein: each leased item sends position data representing the current position of the leased item, wherein the step (B) further comprises a substep (B3) of enabling the central control station to receive the position data sent by each leased item, analyzing the distance from each position data to the coordinates representing the station of the leasing station when the value of the rentable item at the leasing station is less than the offer trigger value, and screening out each leased item with the distance less than the screening distance threshold corresponding to the leasing station, and the substep (B2) of enabling the central control station to broadcast the return benefit message for each leased item screened out by the substep (B3).

10. The rental article allocation method of claim 9, wherein: said step (B) further comprises the substep (B4) of causing said central station to start timing an offer time when said value of rentable items is less than said offer trigger value, said substep (B2) causing said central station to entrain said offer time in said return offer message advertised for each rental item.

11. The rental article allocation method of claim 9, wherein: the method also comprises the step (C) of judging whether the corresponding discount name is equal to zero or not when the value of the rentable goods of the rental station is changed by the central control station, re-executing the step (B) when the discount name is not equal to zero, and broadcasting a discount ending message for each rental goods which receive the return discount message when the discount name is equal to zero.

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