CN105155941A - Smart lock and control method thereof - Google Patents

Abstract

The invention discloses a smart lock and a control method thereof. The smart lock comprises a plurality of optical sensors, and a processor, wherein the optical sensors are used for detecting changes of an optical signal to obtain a first optical signal with a change rule; and the processor is connected with the optical sensors, and used for comparing to determine whether the first optical signal is consistent with a pre-stored optical signal in the processor, and controlling the intelligent lock to open when the compared result indicates that the first optical signal is consistent with the pre-stored optical signal. The smart lock solves the technical problem that power consumption of the smart lock is relatively quick is solved.

Description

Smart lock and control method thereof

Technical field

The present invention relates to Smart Home field, in particular to a kind of smart lock and control method thereof.

Background technology

For existing smart lock, adopt touch-screen display cipher inputting keyboard than the smart lock of higher-end, recognition of face can also be adopted to unblank, use the display screen of touch-screen display keyboard or display face all to compare expense electricity, make the power consumption of smart lock very fast.Because smart lock generally adopts powered battery, also inconvenience frequently changes battery.

For the power consumption ratio problem faster of above-mentioned smart lock, at present effective solution is not yet proposed.

Summary of the invention

Embodiments provide a kind of smart lock and control method thereof, at least to solve the power consumption ratio technical problem faster of smart lock.

According to an aspect of the embodiment of the present invention, provide a kind of smart lock, comprising: multiple optical sensor, for the change of sensed light signal, obtain first optical signal with Changing Pattern; Processor, be connected with described multiple optical sensor, whether the optical signal for prestoring in more described first optical signal and described processor is consistent, and when described first optical signal of comparative result instruction is consistent with the optical signal prestored, controls described smart lock and open.

Further, described multiple optical sensor is arrayed.

Further, described first optical signal is change in optical signal track, the described optical signal prestored is desired guiding trajectory, whether described processor is also consistent with described desired guiding trajectory for more described change in optical signal track, and when described change in optical signal track is consistent with described desired guiding trajectory, controls described smart lock and open.

Further, described first optical signal is the light variable signal with default change frequency, after there is described in any one sensor in described multiple optical sensor detects the light variable signal of default change frequency, the described light variable signal with default change frequency is converted to Signal coding by described processor, and whether compare the Signal coding be converted to consistent with the Signal coding prestored, if consistent, then control described smart lock and open.

Further, described smart lock also comprises: lock body drive circuit, is connected with described processor, for controlling opening or locking of described smart lock.

Further, described smart lock also comprises: communicating circuit, is connected with described processor, for carrying out communication with server.

Further, described smart lock also comprises: display screen, is connected with described processor, for receiving unlocking pin; Brightness detecting sensor, is connected with described processor, and for detecting the light and shade change of light, wherein, when described brightness detecting sensor detects dim, described processor wakes described display screen up, is in display state to make described display screen.

Further, described brightness detecting sensor also for detecting light intensity, and in the light intensity detected by regulating the brightness of described display screen by bright dimmed when dying down by force, or, regulate the brightness of described display screen by secretly brightening when the light intensity detected changes from weak to strong.

Further, described brightness detecting sensor is any one sensor in described multiple optical sensor.

Further, one in described multiple optical sensor is infrared light transducer[sensor, for the infrared rays of human body, wherein, when described infrared sensor detects the infrared rays of described human body, described processor wakes described display screen up, is in display state to make described display screen.

Further, described smart lock also comprises: sound transducer, be connected with described processor, for receiving voice signal, wherein, described processor is after the described voice signal that described sound transducer receives being detected, and whether more described voice signal is consistent with the voice signal prestored, if consistent, then control described smart lock and open.

Further, described smart lock also comprises: electromagnetic wave receiver, be connected with described processor, for receiving electromagnetic wave signal, wherein, described processor is after the described electromagnetic wave signal that described electromagnetic wave receiver receives being detected, and whether more described electromagnetic wave signal is consistent with the electromagnetic wave signal prestored, if consistent, then control described smart lock and open.

According to an aspect of the embodiment of the present invention, provide a kind of control method based on above-mentioned smart lock, comprising: the optical signal detecting the change of multiple optical sensor, obtains first optical signal with Changing Pattern; Obtain the optical signal prestored; Whether more described first optical signal is consistent with the described optical signal prestored; If consistent, then control smart lock and open.

Further, obtain the optical signal prestored to comprise: receive the unblock optical signal from server or terminal; Store described unblock optical signal, and using described unblock optical signal as the described optical signal prestored.

Further, described unblock optical signal is change in optical signal track or the light variable signal with default change frequency.

In embodiments of the present invention, adopt multiple optical sensor, for the change of sensed light signal, obtain first optical signal with Changing Pattern, processor, be connected with described multiple optical sensor, whether the optical signal for prestoring in more described first optical signal and described processor is consistent, and when described first optical signal of comparative result instruction is consistent with the optical signal prestored, control the mode that described smart lock is opened, control smart lock by light sensors optical signal to open, do not need to be unblanked by display screen, power consumption due to optical sensor is less than the power consumption of display screen, solve the smart lock power consumption technical problem faster that the display screen power consumption be arranged in smart lock causes, reach the technique effect reducing smart lock power consumption

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the schematic diagram of the smart lock according to the embodiment of the present invention;

Fig. 2 is the schematic diagram of a kind of photosensor array according to the embodiment of the present invention;

Fig. 3 is the schematic diagram of another photosensor array according to the embodiment of the present invention;

Fig. 4 is the structural representation of the smart lock according to further embodiment of this invention;

Fig. 5 is the schematic diagram with the smart lock of display screen according to the embodiment of the present invention;

Fig. 6 is the schematic diagram with the smart lock of sound and electromagnetic sensor according to the embodiment of the present invention; And

Fig. 7 is the flow chart of the control method of smart lock according to the embodiment of the present invention.

Detailed description of the invention

The present invention program is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the embodiment of a part of the present invention, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, should belong to the scope of protection of the invention.

It should be noted that, term in manual of the present invention and claims and above-mentioned accompanying drawing " comprises " and " having " and their any distortion, intention is to cover not exclusive comprising, such as, contain those steps or unit that the process of series of steps or unit, method, system, product or equipment is not necessarily limited to clearly list, but can comprise clearly do not list or for intrinsic other step of these processes, method, product or equipment or unit.

According to the embodiment of the present invention, provide a kind of embodiment of smart lock.

Fig. 1 is the schematic diagram of the smart lock according to the embodiment of the present invention, and as shown in Figure 1, this smart lock comprises:

Multiple optical sensor 10, for the change of sensed light signal, obtains first optical signal with Changing Pattern.

Whether processor 20 is connected with multiple optical sensor, consistent for comparing the optical signal prestored in the first optical signal and processor, and when comparative result indicates the first optical signal consistent with the optical signal prestored, controls smart lock and open.

Control smart lock by light sensors optical signal to open, do not need to be unblanked by display screen, power consumption due to optical sensor is less than the power consumption of display screen, solve the smart lock power consumption technical problem faster that the display screen power consumption be arranged in smart lock causes, reach the technique effect saving smart lock power consumption.

Particularly, it can be the change in optical signal track that multiple sensor is formed according to certain rule change that multiple optical sensor 10 detects the first optical signal obtained, and can be the light variable signal with certain change frequency, as having the flicker of certain frequency.

Preferably, multiple optical sensor is arrayed.The array of 3*3 as shown in Figure 2, also can be 4*4 arrangement as shown in Figure 3, can also arrange the arrangement pattern of array as required, not limit herein.

Alternatively, first optical signal is change in optical signal track, and the optical signal prestored is desired guiding trajectory, and whether processor is also consistent with desired guiding trajectory for comparing change in optical signal track, and when change in optical signal track is consistent with desired guiding trajectory, controls smart lock and open.

Smart lock does not arrange keyboard with touch screen, but the multiple optical sensors arranged on front panel in arrayed, when user needs to unblank, finger streaks the array of multiple optical sensor composition successively, finger can cause optical sensor when streaking the optical sensor on panel and block, therefore point the light that the track streaked causes multiple light sensor to measure to change successively, utilize the rule of this multiple optical sensor light change as door-opening password, the track that light changes successively forms the figure as shown in Fig. 2 or Fig. 3.User is when arranging password, unlocking cipher figure can be set on mobile phone by mobile phone app, then be the Changing Pattern of optical sensor measurement light by unlocking cipher Graphic Exchanging by mobile phone app, by server, this Changing Pattern is issued to smart lock also to store in memory, when user opens the door, only need the figure streaking oneself setting on Door lock casing, the figure stored in the figure that processor contrast user streaks and memory, if unanimously just can realize unblanking.

As shown in Figure 2, the light Changing Pattern of this figure is the change that optical sensor A11-A12-A13-A23-A33-A32-A22 detects light successively, therefore, just obtains the figure of light change as shown in Figure 2 when pointing and streaking above-mentioned optical sensor successively.

Alternatively, first optical signal is the light variable signal with default change frequency, after any one sensor in multiple optical sensor detects the light variable signal with default change frequency, the light variable signal with default change frequency is converted to Signal coding by processor, and whether compare the Signal coding be converted to consistent with the Signal coding prestored, if consistent, then control smart lock and open.

Such as, client is by behind mobile terminal (smart mobile phone) reserving hotel room, server generates specific light intensity change modulates coding, and this particular light ray Strength Changes modulating-coding being sent to the mobile terminal of client by mobile terminal app, client can use the app being arranged on mobile terminal described modulating-coding to be converted into the illumination of one section of specific change frequency by the light-emitting device of mobile terminal; In addition, described light intensity change modulates coding is sent to smart lock by server, and smart lock by described light intensity change code storage in memory; When client needs to open the door, open mobile terminal app, the optical sensor of smart lock is irradiated in the illumination using mobile terminal to send, described illumination frequency variation data is also sent to processor by light sensors illumination, processor is encoded with the light intensity change modulates that stores in memory after treatment and is contrasted, if consistent, processor controls smart lock and opens.It should be noted that, in the process of password that smart lock is set, server can be adopted to generate light intensity change modulates coding, terminal also can be adopted to generate light intensity change modulates coding, and by terminal, generation light intensity change modulates coding is sent to smart lock, preserved by smart lock.When opening smart lock, the light intensity change sending modulating-coding corresponding by terminal is unblanked.

When adopting optical sensor to gather optical signal as the password of unblanking, track that change in optical signal is formed can be utilized as unlocking cipher, the change of frequency of optical signal itself can also be utilized as unlocking cipher, above-mentioned two kinds of optical signals as unlocking cipher all without the need to the display of display screen, and the electric quantity consumption of optical sensor is less, thus the electric quantity consumption brought when having saved display screen display, solve the technical problem that in prior art, the electric quantity consumption of smart lock is larger, avoid smart lock and frequently change the inconvenience that battery brings.

Alternatively, as shown in Figure 4, smart lock also comprises: lock body drive circuit 30 is connected with processor 20, for controlling opening or locking of smart lock.After the graphic verification that processor 20 is formed according to light change frequency or light variation track, determine to open smart lock, or send driving instruction when closing smart lock to lock body drive circuit 30, lock body drive circuit 30 is according to instruction unpack or locking smart lock.

Alternatively, in order to Long-distance Control smart lock, can communicating circuit 40 be set in smart lock, communication is carried out to make smart lock and remote server, namely as shown in Figure 4, smart lock also comprises: communicating circuit 40 is connected with processor 20, for carrying out communication with server.Smart lock receives the unlocking pin that remote server sends, and preserves unlocking pin so that terminal opens smart lock; Or remote server sends the instruction unblanked or lock directly to smart lock, smart lock carries out unblanking or locking according to the instruction of remote server.Remote server can be remote terminal, cloud server etc.

Alternatively, smart lock can also be inputted the modes such as password, recognition of face and gesture identification and unblank by display screen, as shown in Figure 5, smart lock also comprises: display screen 50 is connected with processor 20, for receiving unlocking pin; Brightness detecting sensor, is connected with processor 20, and for detecting the light and shade change of light, wherein, when brightness detecting sensor detects dim, processor wakes display screen up, is in display state to make display screen.

Display screen can comprise keyboard with touch screen, when not using, keyboard with touch screen is in and does not show state, saves the power consumption of display screen, brightness detecting sensor less energy intensive is held open, when user needs to open the door, because subscriber station can shut out the light before smart lock, the luminous intensity causing optical sensor to receive changes, therefore, when dim, wake keyboard with touch screen up, so that by keyboard with touch screen input password to unlock.

Alternatively, after waking display screen up, can also according to the brightness of the intensity adjustment display screen of light, i.e. brightness detecting sensor is also for detecting light intensity, and in the light intensity detected by regulating the brightness of display screen by bright dimmed when dying down by force, or, regulate the brightness of display screen by secretly brightening when the light intensity detected changes from weak to strong.Regulate the brightness of display screen can provide pleasant light for user, to make the brightness of display screen in the environment of dark can not be dazzling, in bright environment, the brightness of display screen can not be too dim and cause user to require great effort viewing.In addition, environmentally brightness regulates the brightness of display screen also can save the power consumption of display screen.

Alternatively, brightness detecting sensor can be any one optical sensor in multiple optical sensor.

Alternatively, in the smart lock with display screen, in order to improve the accuracy waking display screen up further, infrared sensor can be adopted to detect user, and judged whether to wake display screen up by processor, namely smart lock also comprises: infrared sensor, is connected with processor 20, for the infrared rays of human body, wherein, when infrared sensor detects the infrared rays of human body, processor 20 wakes display screen 50 up, is in display state to make display screen 50.

Smart lock comprises keyboard with touch screen and multiple optical sensor, multiple optical sensor comprises visible light sensor and infrared light transducer[sensor, wherein, infrared light transducer[sensor is used for responding to the infrared light that sends of human body, when have people close to time, wake keyboard with touch screen up, and according to visible light sensor adjustment screen intensity.

Alternatively, as shown in Figure 6, smart lock can also comprise sound transducer 60 and/or electromagnetic wave receiver 70.Wherein, sound transducer 60 is connected with processor 20, for receiving voice signal, wherein, processor, after the voice signal that sound transducer receives being detected, compares voice signal whether consistent with the voice signal prestored, if consistent, then control smart lock and open.

Voice signal can be the sound clip generated by server, and can be one section of sound clip that terminal is recorded, can also be the signal of the sound that user directly sends.

Such as, client is by behind mobile terminal (smart mobile phone) reserving hotel room, server generates specific sound clip, and this specific sound fragment being sent to the mobile terminal of client by mobile terminal app, client can use the app being arranged on mobile terminal to be play by the loudspeaker of described sound clip by mobile terminal; In addition, the coding of described sound clip is sent to smart lock by server, and smart lock by described sound clip code storage in memory; When client needs to open the door, open mobile terminal app, the loudspeaker of mobile terminal is used to play tut fragment, sound transducer or microphones to mobile terminal playing sound clip and send to processor, processor is encoded with the sound clip that stores in memory after treatment and is contrasted, if consistent, processor controls electronic lock body by lock body drive circuit and unblanks.

In addition, user can select recording one section of sound as unlocking cipher, when needing to unblank, user can select the sound of played pre-recorded, or, the sound recorded is one section of password that user says, and when user needs to open the door, only needs to say to the sound transducer of door lock the password prerecorded.

Alternatively, electromagnetic wave receiver 70 is connected with processor 20, for receiving electromagnetic wave signal, wherein, processor is after the electromagnetic wave signal that electromagnetic wave receiver receives being detected, relatively whether electromagnetic wave signal is consistent with the electromagnetic wave signal prestored, if unanimously, then controls smart lock and opens.When needs open the door, send predetermined electromagnetic wave signal by terminal, whether smart lock is consistent with the electromagnetic wave signal prestored after electromagnetic wave signal being detected, just controls smart lock open if consistent.

The embodiment of the present invention additionally provides a kind of control method of smart lock.The control method of this smart lock can control above-mentioned smart lock, and as shown in Figure 7, the control method of this smart lock comprises:

Step S702, detects the optical signal of multiple optical sensor change, obtains the first optical signal.

Step S704, obtains the optical signal prestored.

Whether consistent with the optical signal prestored step S706, compare the first optical signal.

Step S708, if unanimously, then controls smart lock and opens.

Control smart lock by light sensors optical signal to open, do not need to be unblanked by display screen, power consumption due to optical sensor is less than the power consumption of display screen, solve the smart lock power consumption technical problem faster that the display screen power consumption be arranged in smart lock causes, reach the technique effect saving smart lock power consumption.

First optical signal can be that the array detection consisted of multiple sensor obtains, and multiple sensor detects the optical signal according to certain rule change, also can be the optical signal according to certain rule change that a sensor detects.

Alternatively, obtain the optical signal prestored to comprise: receive the unblock optical signal from server or terminal; Store and unlock optical signal, and using unblock optical signal as the optical signal prestored.Server or terminal convert the optical signal with certain Changing Pattern to Signal coding and send to smart lock, and Signal coding, after receiving Signal coding, is stored in smart lock by smart lock, namely as the optical signal prestored.

Alternatively, unlocking optical signal is change in optical signal track or the light variable signal with default change frequency.Owing to adopting the form of coded optical signal to compare in the comparison procedure of smart lock, therefore, the unblock optical signal prestored is coded optical signal.

Pass through above-described embodiment, optical sensor is adopted to gather the change of optical signal, using the Changing Pattern of optical signal as unlocking pin, opening of smart lock is controlled with the optical signal prestored by the optical signal comparing optical sensor collection, thus the smart lock power consumption technical problem faster that the display screen power consumption solving smart lock in prior art causes, reach the technique effect saving smart lock power consumption.

It should be noted that, above-mentioned smart lock can arrange separately optical sensor and open the door to control smart lock, display screen, sound transducer, electromagnetic wave receiver etc. can also be set while optical sensor is set and control smart lock enabling, the mode of the extraneous door open command of above-mentioned multiple reception can exist simultaneously also can individualism, add the diversity that smart lock is unblanked, solve the technical problem that the Method compare of unblanking of prior art is single.In addition, the smart lock being provided with display screen can also arrange optical sensor, optical sensor can be visible light sensor, also can be infrared light transducer[sensor, display screen can be waken up when perception user unblanks, when not having user to unblank control display screen not displaying contents to save energy consumption, and the display brightness of display screen can be regulated according to the change of ambient light line strength, also part energy consumption can be saved, solve smart lock power consumption ratio technical problem faster in prior art, reach the technique effect of the power consumption reducing smart lock.

The invention described above embodiment sequence number, just to describing, does not represent the quality of embodiment.

In the above embodiment of the present invention, the description of each embodiment is all emphasized particularly on different fields, in certain embodiment, there is no the part described in detail, can see the associated description of other embodiments.

In several embodiments that the application provides, should be understood that, disclosed technology contents, the mode by other realizes.Institute

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the premise without departing from the principles of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (10)

1. a smart lock, is characterized in that, comprising:

Multiple optical sensor, for the change of sensed light signal, obtains first optical signal with Changing Pattern;

Processor, be connected with described multiple optical sensor, whether the optical signal for prestoring in more described first optical signal and described processor is consistent, and when described first optical signal of comparative result instruction is consistent with the optical signal prestored, controls described smart lock and open.

2. smart lock according to claim 1, is characterized in that, described multiple optical sensor is arrayed.

3. smart lock according to claim 1, it is characterized in that, described first optical signal is change in optical signal track, the described optical signal prestored is desired guiding trajectory, whether described processor is also consistent with described desired guiding trajectory for more described change in optical signal track, and when described change in optical signal track is consistent with described desired guiding trajectory, controls described smart lock and open.

4. smart lock according to claim 1, it is characterized in that, described first optical signal is the light variable signal with default change frequency, after there is described in any one sensor in described multiple optical sensor detects the light variable signal of default change frequency, the described light variable signal with default change frequency is converted to Signal coding by described processor, and whether compare the Signal coding be converted to consistent with the Signal coding prestored, if consistent, then control described smart lock and open.

5. smart lock according to claim 1, is characterized in that, described smart lock also comprises:

Lock body drive circuit, is connected with described processor, for controlling opening or locking of described smart lock.

6. smart lock according to claim 1, is characterized in that, described smart lock also comprises:

Communicating circuit, is connected with described processor, for carrying out communication with server.

7. smart lock according to claim 1, is characterized in that, described smart lock also comprises:

Display screen, is connected with described processor, for receiving unlocking pin;

Brightness detecting sensor, is connected with described processor, and for detecting the light and shade change of light, wherein, when described brightness detecting sensor detects dim, described processor wakes described display screen up, is in display state to make described display screen.

8. smart lock according to claim 7, it is characterized in that, described brightness detecting sensor is also for detecting light intensity, and in the light intensity detected by regulating the brightness of described display screen by bright dimmed when dying down by force, or, regulate the brightness of described display screen by secretly brightening when the light intensity detected changes from weak to strong.

9. smart lock according to claim 7, is characterized in that, described brightness detecting sensor is any one sensor in described multiple optical sensor.

10. based on a control method for the smart lock according to any one of claim 1 to 9, it is characterized in that, comprising:

Detect the optical signal of multiple optical sensor change, obtain first optical signal with Changing Pattern;

Obtain the optical signal prestored;

Whether more described first optical signal is consistent with the described optical signal prestored;

If consistent, then control smart lock and open.