CN105656143A - Intelligent charging management system for public aided-bicycle - Google Patents

Abstract

The invention provides an intelligent charging management system for a public aided-bicycle and relates to the technical field of charge control. The intelligent charging management system comprises a rechargeable battery, a charging connector connected with the rechargeable battery, a charging device and a charging control unit, wherein the rechargeable battery and the charging connector are arranged on the aided-bicycle, the charging device is arranged on a service site, when the aided-bicycle is kept in a locking pile, the charging connector is in butt joint with the charging device for charging the rechargeable battery, the charging control unit is arranged on the service site, the identity of the aided-bicycle stored on the locking pile is recognized, whether charging is carried out or not is controlled according to the identity recognition result, and leasing of the corresponding aided-bicycle is controlled according to the electric quantity of the rechargeable battery. The system can charge the aided-bicycle after recognizing the identity of the aided-bicycle effectively and prevent public resources from being stolen and used, and meanwhile, charging safety is improved; moreover, only when the electric quantity is sufficient and can be used by a user normally, can the system allow the bicycle to be taken, and the user comfort level is improved.

Description

Intelligent charging management system for public moped

Technical field

The present invention relates to charging and control technical field, particularly relate to a kind of Intelligent charging management system for public moped.

Background technology

Along with expanding economy; China's private car quantity quickly increases; energy crisis is day by day serious with environmental problem; traffic congestion highlights day by day; for alleviating citizen's short distance trip difficult problem, public bike renting system fast development, this slow-moving traffic instrument of bicycle and public transport are plugged into; become the important component part of public transit system, play an important role.

In public bike renting system, there is two kinds of bicycle, for ordinary people's force bike and moped. Wherein, public moped is more laborsaving compared with ordinary bicycle, 1:1 power-assisted is provided, save manpower, this also will become future lease system development trend, but the problem that must solve of this process is the charging problems of public moped, it is necessary to carries out rationally reliably charging to it, and carry out electricity monitoring, in order to the normal use of people.

Therefore, a kind of Intelligent charging management system for public moped it is badly in need of to solve above-mentioned technical problem.

Summary of the invention

It is an object of the present invention to provide a kind of Intelligent charging management system for public moped, realize the moped at services sites place being unified charging and managing, rechargeable battery in moped is carried out the adaptability charging of reliable and stable ground, it is ensured that the normal use of moped.

Especially, the invention provides a kind of Intelligent charging management system for public moped, for the system that public moped is leased, described public moped leasing system includes moped, services sites and is arranged on described services sites place for depositing and lock the lock stud of described moped, and described Intelligent charging management system includes:

Rechargeable battery, is arranged on described moped place, for providing power for described moped;

Charging connector, is connected with described rechargeable battery, is arranged on described moped place;

Charging device, is arranged on described services sites place, and when described moped leaves described lock stud in, described charging connector docks with described charging device, and described rechargeable battery is charged;

Charging control unit, it is arranged on described services sites place, the described described moped leaving described lock stud in is carried out identification, whether the output control according to described identification charges, and the lease of corresponding described moped is controlled by the electricity according to described rechargeable battery.

Further, described moped place is provided with ID card, and described charging control unit reads described credit card information and verifies with servers' data verification, after authentication is passed through, described charging control unit sends charging controlling command by universal serial bus to described charging device, enables charging.

Further, described moped is provided with lock rod, described lock stud is provided with the slideway matched with described lock rod, described charging connector is arranged on described lock rod place, described lock rod is provided with the positive and negative polarities being connected with described rechargeable battery and turning on, the positive and negative polarities being connected with described charging device and turning on it are provided with in described slideway, described moped when being locked in described lock stud described lock rod grafting be fixed in described slideway, and realize the electrical connection of described rechargeable battery and described charging device, it is achieved charging.

Further, described moped is provided with lock, described lock includes tapered end and the dead bolt matched with it, described lock stud is provided with charge port, described charging connector is arranged on described dead bolt place, described dead bolt is provided with the positive and negative polarities being connected with described rechargeable battery and turning on, the positive and negative polarities being connected with described charging device and turning on it are provided with in described charge port, described moped when being locked in described lock stud described dead bolt be plugged in described charge port, realize the electrical connection of described rechargeable battery and described charging device, it is achieved charging.

Further, described charging control unit gathers the electricity of described rechargeable battery, and compares with the power threshold set, when the electricity of described rechargeable battery is lower than described power threshold, moped described in described lock stud locking is charged, and refuses to pick up the car;

When the electricity of described rechargeable battery is higher than described power threshold, after receiving the request of picking up the car, described lock stud stops charging and discharges described moped, it is allowed to pick up the car.

Further, described Intelligent charging management system also includes temperature sensor, described temperature sensor gathers the temperature of described rechargeable battery, the temperature data that described charging control unit arrives according to described temperature sensor monitors, adopts different current values that described rechargeable battery is charged.

Further; when the temperature of described rechargeable battery is between 0 DEG C to 45 DEG C, described rechargeable battery is charged by described charging device charging panel with constant current 3A constant voltage 29.4V; when the temperature of described rechargeable battery higher than 45 DEG C or during lower than 0 DEG C described charging device reduce charging current; with constant current 1A constant voltage 29.4V, described rechargeable battery is charged; when the temperature of described rechargeable battery, higher than 70 DEG C or during lower than subzero 7 DEG C, then described charging device is protected automatically, does not recharge.

Further, described temperature sensor is critesistor, is arranged at the rechargeable battery place of described moped.

Further, described rechargeable battery is installed on vehicle seat and the headstock junction of described moped, is fixed in vehicle body.

Further, being provided with velocity sensor in described moped, described velocity sensor detects speed in real time, and described speed reaches described discharging rechargeable battery drive motor during threshold value and rotates, moped described in process auxiliary drive;

Preferably, being additionally provided with gyroscope in described moped, described gyroscope is used for detecting vehicle body horizontal tilt degree, and when horizontal tilt degree being detected for going up a slope, described discharging rechargeable battery drive motor rotates, moped described in process auxiliary drive.

The Intelligent charging management system of the present invention, for public moped leasing system, it is possible to charging after carrying out the identity of moped effectively identifying, it is prevented that public resource is stolen use, also improves charging security simultaneously. , the electricity of rechargeable battery in moped is monitored meanwhile, only electricity abundance can for user normally time just allow to pick up the car, improve users'comfort.

Further, the rechargeable battery in moped is carried out monitoring temperature by temperature sensor by the present invention, adjusts the size of charging current in real time according to the temperature of rechargeable battery, and keep constant-voltage charge, charge efficiency is high, and relatively prior art reduces development difficulty, and cost is low.

Further, the live part of the present invention, the mode just having used lock rod charging to combine with dead bolt charging, improve reliability and stability that rechargeable battery is charged by charging device.

According to below in conjunction with the accompanying drawing detailed description to the specific embodiment of the invention, those skilled in the art will understand the above-mentioned of the present invention and other purposes, advantage and feature more.

Accompanying drawing explanation

Some specific embodiments of the present invention are hereinafter described in detail with reference to the accompanying drawings by way of example, and not by way of limitation. Accompanying drawing labelling identical in accompanying drawing denotes same or similar parts or part. It should be appreciated by those skilled in the art that what these accompanying drawings were not necessarily drawn to scale. In accompanying drawing:

Fig. 1 is the theory diagram of Intelligent charging management system according to an embodiment of the invention.

Detailed description of the invention

Fig. 1 is the theory diagram of Intelligent charging management system for public moped according to an embodiment of the invention.

Present embodiment describes a kind of Intelligent charging management system for public moped, for the system that public moped is leased, described public moped leasing system includes moped 3, services sites 1 and is arranged on described services sites 1 place for depositing and lock the lock stud 2 of described moped 3, as it is shown in figure 1, described Intelligent charging management system includes:

Rechargeable battery 6, is arranged on described moped 3 place, for providing power for described moped 3;

Charging connector 7, is connected with described rechargeable battery 6, is arranged on described moped 3 place;

Charging device 5, is arranged on described services sites 1 place, and when described moped 3 leaves described lock stud 2 in, described charging connector 7 docks with described charging device 5, and described rechargeable battery 6 is charged;

Charging control unit 4, it is arranged on described services sites 1 place, the described described moped 3 leaving described lock stud 2 in is carried out identification, whether the output control according to described identification charges, and the lease of corresponding described moped 3 is controlled by the electricity according to described rechargeable battery 6.

The vehicle at services sites 1 place is carried out identification by charging control unit 4 by the present embodiment, action can be charged after being only verified, avoiding problems the possibility that public resource is charged by private, and ensure that the vehicle leased is respectively provided with the situation of certain electricity and just can be allowed to lease and take out, improve user and use the comfort level of public moped leasing system.

Verify to realize the charging control unit 4 identification to vehicle, described moped 3 place is provided with ID card, described charging control unit 4 reads described credit card information and verifies with servers' data verification, after authentication is passed through, described charging control unit 4 sends charging controlling command by universal serial bus to described charging device 5, enables charging.

This ID card can adopt radio-frequency card, RFID tag, CPU card etc., only need to arrange corresponding identification in charging control unit part and read unit.

In concrete rechargeable battery 6 electricity monitoring, described charging control unit 4 gathers the electricity of described rechargeable battery 6, and compare with the power threshold set, when the electricity of described rechargeable battery 6 is lower than described power threshold, moped 3 described in described lock stud 2 locking is charged, and refuses to pick up the car;

When the electricity of described rechargeable battery 6 is higher than described power threshold, after receiving the request of picking up the car, described lock stud 2 stops charging and discharges described moped 3, it is allowed to pick up the car. The electricity of rechargeable battery 6 in moped 3 is monitored by the present embodiment, only electricity abundance can for user normally time just allow to pick up the car, improve users'comfort.

The described charging connector 7 being arranged on moped 3 there is no ad-hoc location restriction, both can be independently arranged, it is also possible to charging connector 7 is arranged on by the existing parts of transformation moped 3. But it is able to after car stowage completes namely to realize the electrical connection of rechargeable battery 6 and charging device 5, generally described charging connector 7 is arranged on described lock rod.

Further, on described moped 3, set lock rod is generally located on headstock or vehicle frame side, described lock stud 2 is provided with the slideway matched with described lock rod, described lock rod is provided with the positive and negative polarities being connected with described rechargeable battery 6 and turning on, the positive and negative polarities being connected with described charging device 5 and turning on it are provided with in described slideway, described moped 3 when being locked in described lock stud 2 described lock rod grafting be fixed in described slideway, and realize the electrical connection of described rechargeable battery 6 and described charging device 5, it is achieved charging.

In fact also have the set-up mode of a kind of charging connector 7, be that the lock dead bolt on moped 3 arranges charging connector 7.

Particularly, described moped 3 is provided with lock, described lock includes tapered end and the dead bolt matched with it, described lock stud 2 is provided with charge port, described charging connector 7 is arranged on described dead bolt place, described dead bolt is provided with the positive and negative polarities being connected with described rechargeable battery 6 and turning on, the positive and negative polarities being connected with described charging device 5 and turning on it are provided with in described charge port, when described moped 3 is locked in described lock stud 2, described dead bolt is plugged in described charge port, realize the electrical connection of described rechargeable battery 6 and described charging device 5, it is achieved charging.

It is understandable that, no matter charging connector 7 is arranged on lock rod, also it is provided in dead bolt, the set-up mode of both charging connectors 7 both can individually have been implemented also to be both to combine, certainly the mode that both combine can more be reliably achieved the charging action of rechargeable battery 6, when damage one of wherein or fault; The charging connector 7 that another way is arranged still can play a role.

Described Intelligent charging management system also includes temperature sensor, described temperature sensor gathers the temperature of described rechargeable battery 6, the temperature data that described charging control unit 4 arrives according to described temperature sensor monitors, adopts different current values that described rechargeable battery 6 is charged.

Further; when the temperature of described rechargeable battery 6 is between 0 DEG C to 45 DEG C, described rechargeable battery 6 is charged by described charging device 5 charging panel with constant current 3A constant voltage 29.4V; when the temperature of described rechargeable battery 6 higher than 45 DEG C or during lower than 0 DEG C described charging device 5 reduce charging current; with constant current 1A constant voltage 29.4V, described rechargeable battery 6 is charged; when the temperature of described rechargeable battery 6, higher than 70 DEG C or during lower than subzero 7 DEG C, then described charging device 5 is protected automatically, does not recharge.

Further, described temperature sensor is critesistor, is arranged at rechargeable battery 6 place of described moped 3.

Rechargeable battery 6 in moped 3 is carried out monitoring temperature by temperature sensor by the present invention, temperature according to rechargeable battery 6 adjusts the size of charging current in real time, and keeps constant-voltage charge, and charge efficiency is high, and relatively prior art reduces development difficulty, cost is low.

Rechargeable battery 6 is installed on vehicle seat and the headstock junction of described moped 3, is fixed in vehicle body. Like this, described rechargeable battery 6 is not easily stolen, be also not susceptible to clash into and damaged.

Moped 3, when normally using, combines to reach manpower and driven by power, and in order to realize rationally calling of rechargeable battery 6 electric power. Being provided with velocity sensor in described moped 3, described velocity sensor detects speed in real time, described speed when reaching threshold value described rechargeable battery 6 discharge drive motor rotate, moped 3 described in process auxiliary drive.

Preferably, being additionally provided with gyroscope in described moped 3, described gyroscope is used for detecting vehicle body horizontal tilt degree, when detect horizontal tilt degree for go up a slope time, described rechargeable battery 6 discharge drive motor rotate, moped 3 described in process auxiliary drive.

So far, those skilled in the art will recognize that, although the detailed multiple exemplary embodiments illustrate and describing the present invention herein, but, without departing from the spirit and scope of the present invention, still can directly determine according to present disclosure or derive other variations or modifications many meeting the principle of the invention. Therefore, the scope of the present invention is it is understood that cover all these other variations or modifications with regarding as.

Claims (10)

1. the Intelligent charging management system for public moped, for the system that public moped is leased, public moped leasing system includes moped, services sites and is arranged on described services sites place for depositing and lock the lock stud of described moped, it is characterized in that, described Intelligent charging management system includes:

Rechargeable battery, is arranged on described moped place, for providing power for described moped;

Charging connector, is connected with described rechargeable battery, is arranged on described moped place;

Charging device, is arranged on described services sites place, and when described moped leaves described lock stud in, described charging connector docks with described charging device, and described rechargeable battery is charged;

Charging control unit, it is arranged on described services sites place, the described described moped leaving described lock stud in is carried out identification, whether the output control according to described identification charges, and the lease of corresponding described moped is controlled by the electricity according to described rechargeable battery.

2. Intelligent charging management system according to claim 1, it is characterized in that, described moped place is provided with ID card, described charging control unit reads described credit card information and verifies with servers' data verification, after authentication is passed through, described charging control unit sends charging controlling command by universal serial bus to described charging device, enables charging.

3. Intelligent charging management system according to claim 1 and 2, it is characterized in that, described moped is provided with lock rod, described lock stud is provided with the slideway matched with described lock rod, described charging connector is arranged on described lock rod place, described lock rod is provided with the positive and negative polarities being connected with described rechargeable battery and turning on, the positive and negative polarities being connected with described charging device and turning on it are provided with in described slideway, described moped when being locked in described lock stud described lock rod grafting be fixed in described slideway, and realize the electrical connection of described rechargeable battery and described charging device, realize charging.

4. Intelligent charging management system according to claim 1 and 2, it is characterized in that, described moped is provided with lock, described lock includes tapered end and the dead bolt matched with it, described lock stud is provided with charge port, described charging connector is arranged on described dead bolt place, described dead bolt is provided with the positive and negative polarities being connected with described rechargeable battery and turning on, the positive and negative polarities being connected with described charging device and turning on it are provided with in described charge port, described moped when being locked in described lock stud described dead bolt be plugged in described charge port, realize the electrical connection of described rechargeable battery and described charging device, realize charging.

5. Intelligent charging management system as claimed in any of claims 1 to 4, it is characterized in that, described charging control unit gathers the electricity of described rechargeable battery, and compare with the power threshold set, when the electricity of described rechargeable battery is lower than described power threshold, moped described in described lock stud locking is charged, and refuses to pick up the car;

When the electricity of described rechargeable battery is higher than described power threshold, after receiving the request of picking up the car, described lock stud stops charging and discharges described moped, it is allowed to pick up the car.

6. Intelligent charging management system as claimed in any of claims 1 to 5, it is characterized in that, described Intelligent charging management system also includes temperature sensor, described temperature sensor gathers the temperature of described rechargeable battery, the temperature data that described charging control unit arrives according to described temperature sensor monitors, adopts different current values that described rechargeable battery is charged.

7. Intelligent charging management system according to claim 6, it is characterised in that described rechargeable battery is charged by described charging device charging panel with constant current 3A constant voltage 29.4V when the temperature of described rechargeable battery is between 0 DEG C to 45 DEG C;

When the temperature of described rechargeable battery higher than 45 DEG C or during lower than 0 DEG C described charging device reduce charging current, with constant current 1A constant voltage 29.4V, described rechargeable battery is charged;

When the temperature of described rechargeable battery, higher than 70 DEG C or during lower than subzero 7 DEG C, then described charging device is protected automatically, does not recharge.

8. the Intelligent charging management system according to claim 6 or 7, it is characterised in that described temperature sensor is critesistor, is arranged at the rechargeable battery place of described moped.

9. Intelligent charging management system as claimed in any of claims 1 to 8, it is characterised in that described rechargeable battery is installed on vehicle seat and the headstock junction of described moped, is fixed in vehicle body.

10. Intelligent charging management system as claimed in any of claims 1 to 8, it is characterized in that, it is provided with velocity sensor in described moped, described velocity sensor detects speed in real time, described speed reaches described discharging rechargeable battery drive motor during threshold value and rotates, moped described in process auxiliary drive;

Preferably, being additionally provided with gyroscope in described moped, described gyroscope is used for detecting vehicle body horizontal tilt degree, and when horizontal tilt degree being detected for going up a slope, described discharging rechargeable battery drive motor rotates, moped described in process auxiliary drive.