CN111833494A - Electronic fingerprint lock and bicycle - Google Patents

Abstract

The application discloses electron fingerprint lock is applied to the bicycle, includes: the system comprises a zero-power electronic fingerprint lock and a power supply device connected with the zero-power electronic fingerprint lock; wherein, zero-power consumption electronic fingerprint lock includes zero-power consumption fingerprint identification module, and zero-power consumption fingerprint identification module is used for gathering fingerprint information, when fingerprint information and preset fingerprint information match, controls zero-power consumption electronic fingerprint lock and opens. This application is through adopting zero-power consumption electronic fingerprint lock on the bicycle, and the standby energy consumption is low, does not need the user often to charge, and it is big to have avoided electronic fingerprint lock consumption on the correlation technique bicycle, and the drawback that the user needs the periodic charging makes the user reduce charge time and cost, improves the availability factor, improves user experience. This application still provides a bicycle simultaneously, has above-mentioned beneficial effect.

Description

Electronic fingerprint lock and bicycle

Technical Field

The application relates to the technical field of electronic information, in particular to an electronic fingerprint lock and a bicycle.

Background

Nowadays, the theory of low carbon environmental protection is deep in the people's mind, people also can select the vehicle with this kind of theory when going out, the bicycle is as a convenient environment-friendly vehicle, by more and more people's selection, but the user probably appears forgetting the condition of taking the car key, therefore, the application of electronic fingerprint lock is more and more on the bicycle, because electronic fingerprint lock consumption is big among the correlation technique, install battery module on the bicycle, long-term use or during the standby, battery power is not enough probably appears, lead to the condition of can not unblank the use, consequently, need the user to charge or change the battery regularly.

Disclosure of Invention

The utility model provides an electronic fingerprint lock and bicycle, through adopting zero-power consumption electronic fingerprint lock on the bicycle, the standby energy consumption is low, does not need the user often to charge, can make the user reduce charge time and cost, improves the availability factor, improves user experience. The specific scheme is as follows:

in a first aspect, the present application discloses an electronic fingerprint lock, including:

the system comprises a zero-power electronic fingerprint lock and a power supply device connected with the zero-power electronic fingerprint lock;

the zero-power-consumption electronic fingerprint lock comprises a zero-power-consumption fingerprint identification module, wherein the zero-power-consumption fingerprint identification module is used for collecting fingerprint information, and when the fingerprint information is matched with preset fingerprint information, the zero-power-consumption electronic fingerprint lock is controlled to be opened.

Optionally, the zero-power-consumption fingerprint identification module comprises a fingerprint sensor and an MCU; the fingerprint sensor is used for collecting the fingerprint information and sending the fingerprint information to the MCU; the MCU is used for processing the fingerprint information.

Optionally, the zero power consumption fingerprint identification module still includes: the touch detection module is used for controlling the fingerprint sensor to be powered on and initializing the MCU if the touch detection module detects that a user touches the zero-power-consumption fingerprint identification module in the dormancy period; and if the condition that the user touches the zero-power-consumption fingerprint identification module is not detected, the touch detection module is in an open circuit state.

Optionally, the MCU is further configured to control the fingerprint sensor to perform fingerprint registration, fingerprint deletion, and fingerprint matching.

Optionally, the standby current of the zero-power-consumption fingerprint identification module is smaller than the specific current of the power supply device.

Optionally, the zero power consumption fingerprint identification module still includes: and the Bluetooth module or the WiFi module is used for communicating with the terminal.

Optionally, the power supply device is a solar cell.

Optionally, the solar cell includes: a flexible solar cell.

Optionally, the power supply device is an energy collector, wherein the energy collector is configured to convert other energy into electric energy.

In a second aspect, the application discloses a bicycle, which comprises the electronic fingerprint lock.

The application provides an electron fingerprint lock is applied to the bicycle, includes: the system comprises a zero-power electronic fingerprint lock and a power supply device connected with the zero-power electronic fingerprint lock; the zero-power-consumption electronic fingerprint lock comprises a zero-power-consumption fingerprint identification module, wherein the zero-power-consumption fingerprint identification module is used for collecting fingerprint information, and when the fingerprint information is matched with preset fingerprint information, the zero-power-consumption electronic fingerprint lock is controlled to be opened.

Therefore, the zero-power-consumption electronic fingerprint lock is adopted on the bicycle, the standby energy consumption is low, the user does not need to charge frequently, the defects that the power consumption of the bicycle electronic fingerprint lock is large and the user needs to charge regularly in the related technology are overcome, the charging time and cost of the user are reduced, the use efficiency is improved, and the user experience is improved. This application still provides a bicycle simultaneously, has above-mentioned beneficial effect, no longer gives unnecessary details here.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an electronic fingerprint lock according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a zero-power-consumption fingerprint identification module according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the electron fingerprint lock device of common bicycle, electron fingerprint module consumption is big, and when long-term use or standby, the battery power is not enough probably appears, leads to the condition that can not unblank the use. Based on above-mentioned technical problem, this embodiment provides an electronic fingerprint lock, through adopting zero-power consumption electronic fingerprint lock on the bicycle, standby power consumption is extremely low, including certain energy memory, can satisfy the fingerprint electronic lock application of bicycle under all scenes, adopt the fingerprint electronic lock to provide thorough solution for the bicycle, bicycle user's pain point has been solved, need not to charge, have fine application prospect, greatly simplified the use custom, user experience has been promoted, please refer to fig. 1 specifically, fig. 1 is the structure schematic diagram of an electronic fingerprint lock that this application embodiment provided, specifically include:

the system comprises a zero-power-consumption electronic fingerprint lock 101 and a power supply device 102 connected with the zero-power-consumption electronic fingerprint lock 101; wherein, zero-power consumption electronic fingerprint lock 101 includes zero-power consumption fingerprint identification module, and zero-power consumption fingerprint identification module is used for gathering fingerprint information, and when fingerprint information and preset fingerprint information match, control zero-power consumption electronic fingerprint lock 101 is opened.

In the embodiment, the zero-power electronic fingerprint lock 101 is adopted, the standby power consumption is low, and the standby current is close to 0. The shape of the zero-power electronic fingerprint lock 101 is not limited in this embodiment, and the lock may be a U-shaped lock, a rectangular lock, or a circular lock, and a user may select a corresponding lock according to a requirement.

Wherein, zero-power consumption electronic fingerprint lock 101 constitutes the part, can have zero-power consumption fingerprint identification module and mechanical lock, certainly also can contain other devices, and the material of mechanical lock is not limited yet to this embodiment, for example, high strength alloy steel mechanical lock. The detailed structure of the mechanical lock will not be described in detail in this embodiment.

The number of preset fingerprint information is not limited in this embodiment, and may be 2 or 3, and at the same time, the source of the preset fingerprint information is also not limited, for example, the source may be the user himself, the family or the friend of the user, or the preset fingerprint information may be stored and used at the same time. When the fingerprint information is matched with the preset fingerprint information, the zero-power electronic fingerprint lock 101 is controlled to be unlocked. In this embodiment, the initial state of the zero-power-consumption electronic fingerprint lock 101 is not limited, and may be locked or unlocked, specifically, when the initial state of the power-consumption electronic fingerprint lock is locked, the zero-power-consumption electronic fingerprint lock 101 is unlocked; when the initial state of the zero-power electronic fingerprint lock 101 is open, the zero-power electronic fingerprint lock 101 maintains the open state. The application also does not limit the operation of the zero-power electronic fingerprint lock 101 after being opened, for example, the zero-power electronic fingerprint lock 101 is installed on a bicycle, and after being opened, the user can ride the lock or not ride the lock, or the user can enter new fingerprint information or delete existing fingerprint information. The embodiment does not limit the subsequent operation when the acquired fingerprint information is not matched with the preset fingerprint information, and if the initial state of the zero-power electronic fingerprint lock 101 is locked, the lock state is maintained, and the alarm information is sent out; if the initial state of the zero-power electronic fingerprint lock 101 is open, the zero-power electronic fingerprint lock 101 may continue to be open, or may immediately become a locked state, or, when fingerprint information is continuously collected for multiple times and matching is unsuccessful, the zero-power electronic fingerprint lock 101 is locked again, and simultaneously sends out warning information to prompt a user.

The power supply device 102 connected to the zero-power electronic fingerprint lock 101 is configured to provide electric energy to the zero-power electronic fingerprint lock 101, the type of the power supply device 102 is not limited in this embodiment, and the power supply device 102 may be a solar battery, may be an energy collector, may also be a dry battery or a lithium battery, and preferably, the power supply device 102 is a solar battery, because the solar battery is one of clean energy, and may collect at any time without polluting the environment. The size, i.e., the area, and the shape, may be rectangular or circular, and the color of the flexible substrate may not be limited, and may be set by a user according to actual conditions.

In this embodiment, the standby current of the zero-power electronic fingerprint lock 101 is not limited, the standby current of the zero-power fingerprint identification module 103 may be smaller than the specific current of the power supply device 102, or the standby current of the zero-power fingerprint identification module 103 may be equal to the specific current of the power supply device 102, preferably, the standby current of the zero-power fingerprint identification module 103 is smaller than the specific current of the power supply device 102, and certainly, the magnitude of the specific current is not limited in this embodiment. For example, under the condition of indoor weak light, the solar panel can only generate a current of about 2-3uA, when the stored energy is exhausted in a long-term standby state, the standby current of the zero-power-consumption electronic fingerprint lock 101 meets the requirement of a power supply current smaller than that of solar energy, the stored energy is not lost and is continuously increased, charging is not needed, and the user can be ensured to be free from charging and stably operate when the zero-power-consumption electronic fingerprint lock 101 is in the standby state.

Further, in order to protect the environment and improve the resource utilization, the power supply device 102 in this embodiment may be an energy collector, for example, a vibration energy collector is used as one of the energy collectors for converting mechanical energy into electric energy, and it is understood that vibration is a common and widely existing energy existing form, and vibration energy is collected by an energy collection technology using faraday's law of electromagnetic induction and is converted into electric energy for storage and use. Because the user is at the in-process of riding, the bicycle body also can produce the vibration, mechanical energy promptly, for make full use of resource, improves resource utilization, adopts vibration energy collector to collect vibration energy and change into the electric energy, supplies with zero-power consumption electron fingerprint lock 101 electric quantity, can satisfy the energy storage and continuously increase and do not lose, can realize that the user need not to charge, and zero-power consumption electron fingerprint lock 101 just can use for a long time.

Further, the zero-power-consumption fingerprint identification module comprises a fingerprint sensor and an MCU;

the fingerprint sensor is used for collecting fingerprint information and sending the fingerprint information to the MCU;

the MCU is used for processing fingerprint information.

The present embodiment is not limited to the type of fingerprint sensor, and may be a semiconductor fingerprint sensor, an optical fingerprint sensor, or another type of fingerprint sensor. The embodiment also does not limit the fingerprint information acquisition mode, the acquisition mode is determined by the type of the adopted sensor, and different sensor types have different fingerprint information acquisition modes. And the MCU receives and processes the fingerprint information sent by the fingerprint sensor.

Further, in some specific embodiments, the MCU is further configured to control the fingerprint sensor to perform fingerprint registration, fingerprint deletion, and fingerprint matching, that is, when a user enters new fingerprint information, the MCU controls the fingerprint sensor to perform fingerprint registration and store the new user fingerprint information; when a user needs to delete the stored fingerprint information, the MCU controls the fingerprint sensor to delete the fingerprint; when the fingerprint sensor collects the fingerprint information, the MCU completes matching work of the collected fingerprint information and the prestored fingerprint information.

Based on above-mentioned technical scheme, adopt zero-power consumption electronic fingerprint lock 101 in this embodiment, the standby energy consumption is low to supply power by solar energy or energy collector, can satisfy the energy storage and do not lose and continuously increase, the user need not to charge, also can long-term steady operation, avoided among the correlation technique electronic fingerprint lock consumption big, the drawback that the user needs regularly to charge has improved the availability factor, has improved user experience.

Based on the above embodiment, zero-power consumption electronic fingerprint lock 101 includes zero-power consumption fingerprint identification module, and in order to improve unblock efficiency, this embodiment provides a structural schematic diagram of zero-power consumption fingerprint identification module, please refer to fig. 2 specifically, fig. 2 is the structural schematic diagram of a zero-power consumption fingerprint identification module that this application embodiment provided, includes:

fingerprint sensor 1011, MCU1012, touch detection module 1013, and communication module 1014.

Please refer to the above embodiments specifically, and the fingerprint sensor 1011 and the MCU1012 are not described in detail in this embodiment.

This embodiment zero-power consumption fingerprint identification module still includes: the touch detection module 1013 is configured to control the fingerprint sensor to be powered on and initialize the MCU if it is detected that the user touches the zero-power fingerprint identification module during the sleep period; if the touch zero-power-consumption fingerprint identification module of the user is not detected, the touch detection module is in an open circuit state. Namely, during the dormant period or the standby state, the touch detection module is in an open circuit state, and the fingerprint sensor and the MCU are also in a power-off non-working state, namely, the power consumption of the zero-power-consumption fingerprint identification module or the zero-power-consumption electronic fingerprint lock 101 is close to zero; when the touch detection module detects that the user touches the zero-power-consumption fingerprint identification module during the dormancy, the touch detection module controls the fingerprint sensor to be powered on, and the MCU is initialized, and at the moment, the zero-power-consumption electronic fingerprint lock 101 starts to normally work.

Further, the present embodiment does not limit the type of the communication module 1014, and optionally, a bluetooth module or a WiFi module is used for communicating with the terminal. The embodiment also does not limit the type of the terminal, can be a mobile phone or an iPad, and can achieve the purpose of unlocking the zero-power electronic fingerprint lock 101 through terminal communication, improve unlocking efficiency, and improve user experience.

Based on the technical scheme, the zero-power-consumption fingerprint identification module adopts the communication module to communicate with the terminal, so that the purpose of unlocking can be realized, the unlocking efficiency is improved, and the user experience is improved.

The following describes a bicycle provided by embodiments of the present application, and the bicycle described below and the device described above are referenced with respect to each other.

The application also provides a bicycle, which comprises the electronic fingerprint lock of any one of the embodiments.

The electronic fingerprint lock is installed in the bicycle seat, and can be installed on the bicycle seat.

Since the embodiment of the bicycle portion and the embodiment of the electronic fingerprint lock portion correspond to each other, please refer to the description of the embodiment of the apparatus portion for the embodiment of the bicycle portion, and the detailed description thereof is omitted here.

The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. For the bicycle disclosed in the embodiment, the description is relatively simple because the bicycle corresponds to the device disclosed in the embodiment, and the relevant points can be obtained by referring to the description of the method part.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The electronic fingerprint lock and the bicycle provided by the application are described in detail above. The principles and embodiments of the present application are explained herein using specific examples, which are provided only to help understand the method and the core idea of the present application. It should be noted that, for those skilled in the art, it is possible to make several improvements and modifications to the present application without departing from the principle of the present application, and such improvements and modifications also fall within the scope of the claims of the present application.

Claims (10)

1. An electronic fingerprint lock is applied to a bicycle and is characterized by comprising:

the system comprises a zero-power electronic fingerprint lock and a power supply device connected with the zero-power electronic fingerprint lock;

the zero-power-consumption electronic fingerprint lock comprises a zero-power-consumption fingerprint identification module, wherein the zero-power-consumption fingerprint identification module is used for collecting fingerprint information, and when the fingerprint information is matched with preset fingerprint information, the zero-power-consumption electronic fingerprint lock is controlled to be opened.

2. The electronic fingerprint lock of claim 1, wherein the zero-power fingerprint identification module comprises a fingerprint sensor and an MCU;

the fingerprint sensor is used for collecting the fingerprint information and sending the fingerprint information to the MCU;

the MCU is used for processing the fingerprint information.

3. The electronic fingerprint lock of claim 2, wherein the zero-power fingerprint identification module further comprises:

the touch detection module is used for controlling the fingerprint sensor to be powered on and initializing the MCU if the touch detection module detects that a user touches the zero-power-consumption fingerprint identification module in the dormancy period; and if the condition that the user touches the zero-power-consumption fingerprint identification module is not detected, the touch detection module is in an open circuit state.

4. The electronic fingerprint lock of claim 2, wherein the MCU is further configured to control the fingerprint sensor to perform fingerprint registration, fingerprint deletion, and fingerprint matching.

5. The electronic fingerprint lock of claim 2, wherein the standby current of the zero-power fingerprint identification module is less than the specific current of the power supply device.

6. The electronic fingerprint lock of claim 2, wherein the zero-power fingerprint identification module further comprises:

and the Bluetooth module or the WiFi module is used for communicating with the terminal.

7. The electronic fingerprint lock according to any one of claims 1 to 6, wherein the power supply device is embodied as a solar cell.

8. The electronic fingerprint lock of claim 7, wherein the solar cell is in particular a flexible solar cell.

9. The electronic fingerprint lock of claim 1, wherein the power supply device is embodied as an energy scavenger, wherein the energy scavenger is configured to convert other energy into electrical energy.

10. A bicycle, characterized by comprising the electronic fingerprint lock of any one of the above 1 to 9.

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