CN112036650A - Battery replacement management method and management system of parking space management device - Google Patents

Abstract

The invention relates to a battery replacement management method and a management system of a parking space management device, wherein the management method comprises the following steps: judging whether each battery of the parking space management device meets a preset replacement condition or not; acquiring position information of all batteries to be replaced and real-time positioning information of managers; calculating the shortest replacement time and the shortest replacement distance for replacing all the batteries to be replaced; performing optimal path planning on the battery replacement route based on the shortest replacement time, the time weight coefficient, the shortest replacement distance and the distance weight coefficient; and sending the optimal path as a recommended path to the manager. Through the arrangement, the problems that battery replacement management in the conventional parking space management device mainly depends on manpower to patrol and examine, and the labor cost is high, the management efficiency is low, and the time cost is high can be solved.

Description

Battery replacement management method and management system of parking space management device

Technical Field

The invention relates to the technical field of parking space management, in particular to a battery replacement management method and a battery replacement management system of a parking space management device.

Background

At present, management of the running state of a battery of a parking space management device is mainly realized in a manual inspection mode. Generally, a maintainer regularly or irregularly inspects equipment at a parking space site, such as battery inspection of a parking geomagnetic induction device for detecting a parking vehicle, and performs a series of manual maintenance and battery replacement operations to maintain normal work of the parking geomagnetic induction device and ensure normal functions of parking induction, parking detection and the like.

The management of the battery operation schedule mainly depends on regular inspection work, and a large amount of work in the inspection work needs to depend on manual participation, and a full-time maintenance worker is generally responsible for battery replacement work. Therefore, the battery operation management mode has the problems that the labor cost of routing inspection work is high, the battery is short of electricity and cannot be found in time, the battery operation management efficiency is low, and the labor time cost is high.

Disclosure of Invention

In order to solve the above technical problems, an object of the present invention is to provide a battery replacement management method and a battery replacement management system for a parking space management device, so as to solve the problems of high labor cost, low management efficiency, and high time cost caused by the fact that the battery replacement management in the current parking space management device mainly depends on a manual inspection mode.

In order to achieve one of the above objects, according to one embodiment of the present invention, there is provided a battery replacement management method for a parking space management device, including:

step a: judging whether each battery of the parking space management device meets a preset replacement condition or not;

step b: acquiring position information of all batteries to be replaced;

step c: acquiring real-time positioning information of a manager;

step d: calculating the shortest replacement time and the shortest replacement distance for replacing all the batteries to be replaced;

step e: performing optimal path planning on a battery replacement route based on the shortest replacement time, a preset time weight coefficient, the shortest replacement distance and a preset distance weight coefficient;

step f: and sending the optimal path as a recommended path to the manager.

As a further improvement of an embodiment of the present invention, the method further comprises:

step i: re-executing the step a after a preset time interval;

step j: when detecting that a new battery to be replaced is added, sending an alarm prompt;

step k: acquiring position information of the newly added battery to be replaced and real-time positioning information of the manager;

step l: calculating a first distance between the newly added battery to be replaced and the manager for real-time positioning and a second distance between the next battery to be replaced and the manager for real-time positioning;

step m: judging whether the first distance exceeds the second distance; if yes, keeping the current path unchanged; if not, returning to the step d and executing downwards to update the optimal path plan.

As a further improvement of an embodiment of the present invention, step a specifically includes: and when the residual electric quantity of any battery of the parking space management device is smaller than a preset electric quantity threshold value, judging that the battery meets the replacement condition.

As a further improvement of an embodiment of the present invention, step a specifically includes: and when the service life of the battery exceeds the preset service life, judging that the battery meets the replacement condition.

An embodiment of the present invention further provides a battery replacement management system for a parking space management apparatus, including:

the battery replacement judging device is used for judging whether each battery of the parking space management device meets a preset replacement condition or not;

the positioning acquisition device is used for acquiring the position information of all the batteries to be replaced and the real-time positioning information of the manager;

the calculating device is used for calculating the shortest replacing time and the shortest replacing distance for replacing all the batteries to be replaced;

the path planning device is used for optimally planning the battery replacement route according to the shortest replacement time, a preset time weight coefficient, the shortest replacement distance and a preset distance weight coefficient;

the communication device is used for sending the optimal path as a recommended path to the manager;

and the main control device is in signal connection with the judging device, the positioning acquiring device, the calculating device, the path planning device and the communication device respectively.

As a further improvement of an embodiment of the present invention, the system further includes:

the clock device is used for presetting a time interval so as to judge whether the battery of the parking space management device meets the preset replacement condition again;

the alarm prompting device is used for sending an alarm prompt when detecting that a newly added battery to be replaced is added;

the real-time distance calculation device is used for calculating a first distance between the newly added battery to be replaced and the manager for real-time positioning and a second distance between the next battery to be replaced and the manager for real-time positioning;

distance judging means for judging whether the first distance exceeds the second distance;

and the path updating device is used for keeping the current path unchanged when the first distance exceeds the second distance and updating the optimal path plan when the first distance does not exceed the second distance.

As a further improvement of an embodiment of the present invention, the system further includes a power detection device for detecting a remaining power of any one of the batteries of the parking space management device.

As a further improvement of an embodiment of the present invention, the system further includes a timing device, configured to count a usage duration of the battery, and when the usage duration of the battery exceeds a preset usage duration, the battery replacement determination device is configured to determine that the battery meets a replacement condition.

As a further improvement of an embodiment of the present invention, each battery of the parking space management device is provided with a GPS positioning device.

As a further improvement of an embodiment of the present invention, the parking space management apparatus is configured as a plurality of parking geomagnetic sensing apparatuses, and each parking geomagnetic sensing apparatus is disposed below a ground surface of the parking space area.

Compared with the prior art, the invention has the beneficial effects that: the method comprises the steps of obtaining position information of all batteries to be replaced and real-time positioning information of a manager, calculating to obtain the shortest replacement time and the shortest replacement distance required by replacing all the batteries to be replaced, planning a battery replacement path by combining corresponding preset time weight coefficients and preset distance weight coefficients, obtaining an optimal path considered based on two factors of time and distance, and sending the optimal path to the manager to facilitate the manager to replace the batteries, so that the battery replacement time and distance are reduced, the battery replacement management efficiency is improved, and the labor cost is saved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the description of the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is a flow chart illustrating a battery replacement management method according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a battery replacement management system according to an embodiment of the present invention.

Wherein the reference numbers referred to in the figures are as follows:

the system comprises a main control device 1, a battery replacement judging device 3, a positioning obtaining device 4, a calculating device 6, a path planning device 7 and a communication device 9.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail and completely with reference to the following detailed description of the invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope 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 embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

As shown in fig. 1, an embodiment of the present invention provides a battery replacement management method for a parking space management device, including:

step a: judging whether each battery of the parking space management device meets a preset replacement condition or not;

step b: acquiring position information of all batteries to be replaced;

step c: acquiring real-time positioning information of a manager;

step d: calculating the shortest replacement time and the shortest replacement distance for replacing all the batteries to be replaced;

step e: performing optimal path planning on the battery replacement route based on the shortest replacement time, the preset time weight coefficient, the shortest replacement distance and the preset distance weight coefficient;

step f: and sending the optimal path as a recommended path to a manager.

Specifically, the shortest replacement time and the shortest replacement distance required for replacing all batteries to be replaced are calculated by acquiring the position information of all the batteries to be replaced and the real-time positioning information of a manager, so that a battery replacement path is planned by combining the corresponding preset time weight coefficient and the corresponding preset distance weight coefficient, an optimal path considered based on two factors of time and distance is obtained, and the optimal path is sent to the manager to facilitate the manager to replace the batteries, thereby reducing the battery replacement time and distance, improving the battery replacement management efficiency and saving the labor cost.

Further, the method further comprises:

step i: re-executing the step a after a preset time interval;

step j: when detecting that a new battery to be replaced is added, sending an alarm prompt;

step k: acquiring position information of a newly added battery to be replaced and real-time positioning information of a manager;

step l: calculating a first distance between a newly added battery to be replaced and a manager for real-time positioning and a second distance between a next battery to be replaced and the manager for real-time positioning;

step m: judging whether the first distance exceeds the second distance; if yes, keeping the current path unchanged; if not, returning to the step d and executing downwards to update the optimal path plan.

In the actual operation process, when a manager inspects and replaces the battery within the time period of battery replacement, a newly added battery to be replaced may appear, so that whether the battery needs to be replaced is detected again at intervals of a preset time, and the sizes of a first distance between the current manager and the newly added battery and a second distance between the current manager and the next battery to be replaced are compared; when the first distance corresponding to the newly added battery is larger, the manager moves along the original replacement path; when the first distance corresponding to the newly-added battery is smaller, the newly-added battery is taken into consideration, the circuit is integrally re-planned and replaced, and the replacement path is updated in real time, so that the labor is saved to the maximum extent, the replacement time and distance are reduced, and the efficiency is improved.

Further, the step a specifically includes:

and when the residual electric quantity of any battery of the parking space management device is smaller than a preset electric quantity threshold value, judging that the battery meets the replacement condition.

Further, the step a specifically includes:

and when the service life of the battery exceeds the preset service life, judging that the battery meets the replacement condition.

Presetting an electric quantity threshold, detecting the residual electric quantity of the battery and judging whether the residual electric quantity is lower than the threshold, so that the battery to be replaced can be easily detected;

or, the service life of one battery is preset, and when the actual service life of the battery exceeds the preset service life, the battery needs to be replaced and updated, so that the battery is maintained regularly, and the normal power supply of the equipment is ensured.

As shown in fig. 2, another embodiment of the present invention provides a battery replacement management system for a parking space management device, including:

a battery replacement judging device 3 for judging whether each battery of the parking space management device meets a preset replacement condition;

the positioning acquisition device 4 is used for acquiring the position information of all the batteries to be replaced and the real-time positioning information of the manager;

a calculating device 6 for calculating the shortest replacement time and the shortest replacement distance for replacing all the batteries to be replaced;

the path planning device 7 is used for optimally planning the battery replacement route according to the shortest replacement time, the preset time weight coefficient, the shortest replacement distance and the preset distance weight coefficient;

a communication means 9 for sending the optimal path as a recommended path to a manager;

the main control device 1 is in signal connection with the determination device 3, the positioning acquisition device 4, the calculation device 6, the path planning device 7 and the communication device 9.

In actual use, the main control device 1 is arranged to control all modules to work. The positioning acquisition device 4 acquires the position information of all the batteries to be replaced and the real-time positioning information of the manager, and the calculation device 6 calculates the shortest replacement time and the shortest replacement distance required by replacing all the batteries to be replaced; the path planning device 7 plans a battery replacement path by combining the corresponding preset time weight coefficient and the preset distance weight coefficient according to the shortest replacement time and the shortest replacement distance, and finally obtains an optimal path considered based on two factors of time and distance; the communication device 9 sends the optimal path to the manager for facilitating the manager to perform battery replacement management. Therefore, the whole battery replacement management system can greatly reduce the battery replacement time and distance, improve the battery replacement management efficiency and save the labor cost.

Further, the system further comprises:

the clock device is used for presetting a time interval to judge whether the battery of the parking space management device meets the replacement condition again;

the alarm prompting device is used for sending an alarm prompt when detecting that a newly added battery to be replaced is added;

the real-time distance calculation device is used for calculating a first distance between a newly-added battery to be replaced and a manager for real-time positioning and a second distance between a next battery to be replaced and the manager for real-time positioning;

distance judging means for judging whether the first distance exceeds the second distance;

and the path updating device is used for keeping the current path unchanged when the first distance exceeds the second distance and updating the optimal path plan when the first distance does not exceed the second distance.

Therefore, in the time period of polling and replacing the battery by a manager, the newly added battery can be taken into consideration, the replacement circuit is integrally re-planned, and the replacement path is updated in real time, so that the labor is saved to the maximum extent, the replacement time and distance are reduced, and the efficiency is improved.

Further, the system further comprises:

and the electric quantity detection device is used for detecting the residual electric quantity of any battery of the parking space management device.

Further, the system further comprises:

and the timing device is used for counting the service life of the battery, and when the service life of the battery exceeds the preset service life, the battery replacement judgment device 3 is used for judging that the battery meets the replacement condition.

Presetting an electric quantity threshold, and comparing the residual electric quantity of the battery with the electric quantity threshold; when the residual electric quantity is less than the preset electric quantity threshold value, the battery replacement judging device is used for judging that the battery meets the replacement condition; thus, the battery to be replaced can be easily judged and detected.

In addition, the service life of one battery is preset, and the actual service life of the battery is compared, so that the battery can be maintained regularly, the battery can be replaced and updated regularly, and normal power supply of equipment is guaranteed.

Furthermore, each battery of the parking space management device is provided with a GPS positioning device.

Further, the parking space management device is constructed as a plurality of parking geomagnetic sensing devices, and each parking geomagnetic sensing device is arranged below the ground surface of the parking space area.

In the in-service use, parking stall management device is the integrated device that a plurality of parking earth magnetism induction system constitutes, and parking earth magnetism induction system is used for the response to detect the parking vehicle, and every parking earth magnetism induction system all is equipped with the battery and supplies power, installs GPS positioner on the battery, acquires the accurate position of every battery from this to carry out optimal path planning, make things convenient for managers to change the battery, guarantee the normal operating of parking earth magnetism induction system.

It should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description is for clarity only, and those skilled in the art should make the description as a whole, and the technical solutions in the embodiments can also be combined appropriately to form other embodiments understood by those skilled in the art.

The above-listed detailed description is only a specific description of a possible embodiment of the present invention and is not intended to limit the scope of the present invention, and equivalent embodiments or modifications made without departing from the technical spirit of the present invention are included in the scope of the present invention.

Claims (10)

1. A battery replacement management method for a parking space management device, comprising:

step a: judging whether each battery of the parking space management device meets a preset replacement condition or not;

step b: acquiring position information of all batteries to be replaced;

step c: acquiring real-time positioning information of a manager;

step d: calculating the shortest replacement time and the shortest replacement distance for replacing all the batteries to be replaced;

step e: performing optimal path planning on a battery replacement route based on the shortest replacement time, a preset time weight coefficient, the shortest replacement distance and a preset distance weight coefficient;

step f: and sending the optimal path as a recommended path to the manager.

2. The battery replacement management method for a parking space management apparatus according to claim 1, characterized by further comprising:

step i: re-executing the step a after a preset time interval;

step j: when detecting that a new battery to be replaced is added, sending an alarm prompt;

step k: acquiring position information of the newly added battery to be replaced and real-time positioning information of the manager;

step l: calculating a first distance between the newly added battery to be replaced and the manager for real-time positioning and a second distance between the next battery to be replaced and the manager for real-time positioning;

step m: judging whether the first distance exceeds the second distance; if yes, keeping the current path unchanged; if not, returning to the step d and executing downwards to update the optimal path plan.

3. The battery replacement management method for a parking space management device according to claim 1, wherein step a specifically includes:

and when the residual electric quantity of any battery of the parking space management device is smaller than a preset electric quantity threshold value, judging that the battery meets the replacement condition.

4. The battery replacement management method for a parking space management device according to claim 1, wherein step a specifically includes:

and when the service life of the battery exceeds the preset service life, judging that the battery meets the replacement condition.

5. A battery replacement management system for a parking space management device, comprising:

the battery replacement judging device is used for judging whether each battery of the parking space management device meets a preset replacement condition or not;

the positioning acquisition device is used for acquiring the position information of all the batteries to be replaced and the real-time positioning information of the manager;

the calculating device is used for calculating the shortest replacing time and the shortest replacing distance for replacing all the batteries to be replaced;

the path planning device is used for optimally planning the battery replacement route according to the shortest replacement time, a preset time weight coefficient, the shortest replacement distance and a preset distance weight coefficient;

the communication device is used for sending the optimal path as a recommended path to the manager;

and the main control device is in signal connection with the judging device, the positioning acquiring device, the calculating device, the path planning device and the communication device respectively.

6. The battery replacement management system for a parking space management apparatus according to claim 5, said system further comprising:

the clock device is used for presetting a time interval so as to judge whether the battery of the parking space management device meets the replacement condition again;

the alarm prompting device is used for sending an alarm prompt when detecting that a newly added battery to be replaced is added;

the real-time distance calculation device is used for calculating a first distance between the newly added battery to be replaced and the manager for real-time positioning and a second distance between the next battery to be replaced and the manager for real-time positioning;

distance judging means for judging whether the first distance exceeds the second distance;

and the path updating device is used for keeping the current path unchanged when the first distance exceeds the second distance and updating the optimal path plan when the first distance does not exceed the second distance.

7. The battery replacement management system for a parking space management apparatus according to claim 5, said system further comprising:

and the electric quantity detection device is used for detecting the residual electric quantity of any battery of the parking space management device.

8. The battery replacement management system for a parking space management apparatus according to claim 5, said system further comprising:

and the timing device is used for counting the service life of the battery, and when the service life of the battery exceeds the preset service life, the battery replacement judgment device is used for judging that the battery meets the replacement condition.

9. The system for managing replacement of battery in parking space according to claim 5, wherein a GPS positioning device is provided on each battery of the parking space management device.

10. The battery replacement management system for a parking space management apparatus according to claim 5, wherein the parking space management apparatus is configured as a plurality of parking geomagnetic sensing apparatuses, each of which is provided below a ground surface of a parking space area.

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