CN205063572U - Energy -conserving electronic lock - Google Patents

Abstract

The utility model provides an energy -conserving electronic lock, including physics lock core, driver part, main control chip, power battery and input module, electric connection between main control chip and driver part, power battery and the input module, energy -conserving electronic lock still includes trigger module, trigger module and main control chip electric connection, energy -conserving electronic lock has mode and park mode, and when energy -conserving electronic lock was in mode, the power battery was driver part, main control chip, input module and trigger module power supply, when energy -conserving electronic lock was in the park mode, the power battery only was main control chip and trigger module power supply. The utility model discloses simple structure, when having guaranteed electronic lock normal function greatly reduced power consumption. Need not frequent dismouting and maintain, can consequently not cause the damage of electronic lock component, prolonged its life.

Description

Energy-saving electronic lock

Technical field

The utility model relates to a kind of energy-saving electronic lock.

Background technology

Electronic lock utilizes Electronic Coding technology to solve the not high defect of existing physical locks safety, more and more comes across in daily life.

Along with the development and progress of science and technology, the function that electronic lock has is also more and more abundanter.Existing electronic lock still uses battery to power usually, the function of electronic lock is more and more abundanter causes its structure to become increasingly complex, simultaneity factor power consumption also becomes large thereupon, the battery of existing capacity make the loss carrying out the battery of powering for electronic lock comparatively large, so that cannot ensure as electronic lock is powered for a long time.

Utility model content

Main purpose of the present utility model is to provide a kind of energy-saving electronic lock, is intended to the power attenuation reducing electronic lock supplying cell.

For achieving the above object, the utility model proposes a kind of energy-saving electronic lock, comprise physics lock core, the driver part that is connected with described physics lock core controls main control chip that described driver part starts or close, in order to the power-supply battery of powering and the input module in order to input unlocking signal, described driver part drives described physics lock core to switch between opened and closed conditions; Described main control chip and described driver part, to be electrically connected between power-supply battery and input module; Described energy-saving electronic lock also comprises trigger module, and described trigger module and described main control chip are electrically connected; Described energy-saving electronic lock has the mode of operation and the park mode that are controlled switching by described main control chip, and when described energy-saving electronic lock is in mode of operation, described power-supply battery is that described driver part, main control chip, input module and trigger module are powered; When described energy-saving electronic lock is in park mode, described power-supply battery is only described main control chip and trigger module is powered; Wherein, described trigger module, for generation of triggering signal; Described main control chip, for according to the described triggering signal that receives, controls described energy-saving electric and is locked between park mode and mode of operation and switches.

Preferably, described trigger module comprises contact panel, and described trigger module by described contact panel induction external touch signal, and exports triggering signal to described main control chip according to described external touch signal.

Preferably, described trigger module is vibrations assembly, and described trigger module by the vibrations of described vibrations assembly induction lock body, and exports triggering signal to described main control chip according to described vibrations assembly.

Preferably, described energy-saving electronic lock also comprises clock circuit, described clock circuit and described main control chip are electrically connected, described clock circuit is used for when described energy-saving electronic lock is switched to mode of operation by described park mode, start and start timing, and at timing time then, sending interrupt signal to described main control chip, described main control chip is used for, according to described interrupt signal, described energy-saving electronic lock is switched to park mode by described mode of operation.

Preferably, described input module is the finger-impu system being arranged at described energy-saving electronic lock appearance.

Preferably, described energy-saving electronic lock also comprises indicating module, and described indicating module is electrically connected with described main control chip and is switched to by park mode to trigger during mode of operation at described energy-saving electronic lock and opens, and is in mode of operation in order to point out described energy-saving electronic lock.

Preferably, described indicating module is indicator lamp, and when described energy-saving electronic lock is in described park mode, described indicator lamp is closed; When described energy-saving electronic lock is in described mode of operation, described indicator lamp is opened.

Preferably, described indicating module is acoustical generator, and when described energy-saving electronic lock is in described park mode, described acoustical generator cuts out; When described energy-saving electronic lock is in described mode of operation, described acoustical generator is opened.

Preferably, described energy-saving electronic lock also comprises electric power detection module, and described electric power detection module is communicated with described power-supply battery and monitors its dump energy, and described electric power detection module sends alarm signal when described power-supply battery is in low electricity.

Preferably, described energy-saving electronic lock also comprises the wireless communication module be electrically connected with described main control chip, the unlocking signal that described wireless communication module sends for receiving outside unlocking device, and described unlocking signal is sent to described main control chip.

The energy-saving electronic lock that the utility model proposes, park mode is switched to when usually without the need to working, only main control chip and trigger module are powered, switched to normal mode of operation when needs work by trigger module, while ensure that electronic lock normal function, greatly reduced power consumption.The utility model structure is simple, safeguards, therefore can not cause the damage of electronic lock element, extend its application life without the need to frequent dismounting.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, the structure according to these accompanying drawings can also obtain other accompanying drawing.

Fig. 1 is the energy-saving electronic lock one example structure block diagram that the utility model proposes;

Fig. 2 is the energy-saving electronic lock one preferred embodiment structured flowchart shown in Fig. 1.

Drawing reference numeral illustrates:

Label	Title	Label	Title
				1	Main control chip	2	Power-supply battery
3	Trigger module	4	Driver part
				5	Physics lock core	6	Input module
7	Indicating module	8	Electric power detection module
				9	Clock circuit	10	Wireless communication module
11	Unlocking device

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only a part of embodiment of the present utility model, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Need explanation, all directionality instruction (such as up, down, left, right, before and afters in the utility model embodiment ...) only for explaining the relative position relation, motion conditions etc. under a certain particular pose (as shown in drawings) between each parts, if when this particular pose changes, then directionality instruction also correspondingly changes thereupon.

In addition, in the utility model, relate to the description of " first ", " second " etc. only for describing object, and instruction can not be interpreted as or imply its relative importance or the implicit quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise at least one this feature.In addition; technical scheme between each embodiment can be combined with each other; but must be can be embodied as basis with those of ordinary skill in the art; when technical scheme combination occur conflicting maybe cannot realize time will be understood that the combination of this technical scheme does not exist, also not the utility model require protection domain within.

The utility model proposes a kind of energy-saving electronic lock.

As shown in Figure 1, in the utility model embodiment, this energy-saving electronic lock comprises main control chip 1, power-supply battery 2, physics lock core 5, driver part 4 and input module 6, and wherein driver part 4 is connected with physics lock core 5 and drives it to switch between opened and closed conditions; Main control chip 1 is electrically connected with power-supply battery 2, physics lock core 5, driver part 4 and input module 6 respectively; Power-supply battery 2 is with thinking that main control chip 1, driver part 4 and input module 6 are powered; Input module 6 is in order to input unlocking signal, and the unlocking signal inputted by input module 6 and the unlocking signal preset compare by main control chip 1, if identical, start driver part 4 and is opened by electronic lock; If different, then electronic lock is kept to close and give the alarm.

With existing electronic lock unlike, the trigger module 3 be electrically connected with main control chip 1 is also included in the energy-saving electronic lock that the utility model proposes, wherein, power-supply battery 2 pairs of main control chip 1 one direct power supplies, this energy-saving electronic lock has and controls by main control chip 1 power-supply battery 2 is driver part 4, input module 6, trigger module 3 and main control chip 1 are powered mode of operation and be only the park mode that main control chip 1 and trigger module 3 power, and mode of operation and park mode are controlled to switch by main control chip 1.

After electronic lock locking, the triggering signal that main control chip 1 can send according to trigger module 3 controls this energy-saving electronic lock and transfers park mode to by mode of operation, now power-supply battery 2 is only powered to main control chip 1 and trigger module 3, input module 6 cannot input unlocking signal, and electronic lock is locked; When needs unlocking electronic lock, then send triggering signal by trigger module 3, after main control chip 1 receives correct triggering signal, electronic lock is waken up by park mode and enters mode of operation.Now input unlocking signal by input module 6 again, then control driver part 1 by main control chip 1 and open, physics lock core 5 is opened by driver part 4, and therefore electronic lock is opened.

It should be noted that, in this embodiment, trigger module 3 has multiple choices, as touch-control trigger module, vibrations trigger module, voice triggering module, retina trigger module, fingerprint trigger module etc., as a preferred embodiment of the present utility model, trigger module 3 comprises contact panel, and user inputs external touch signal by this contact panel to trigger module 3.When needing to unblank, user only needs to touch trigger module with hand, trigger module 3 sends triggering signal to main control chip 1 according to the external touch signal that contact panel receives, and main control chip 1 controls electronic lock according to this triggering signal and switches to mode of operation by park mode.

Preferably, trigger module 3 can also comprise vibrations assembly, and trigger module 3 by these vibrations assembly induction lock body vibrations, and exports triggering signal to main control chip 1, and electronic lock is switched to mode of operation by park mode according to this triggering signal by main control chip 1.

No matter be touch-control trigger module, vibrations trigger module, voice triggering module, or fingerprint trigger module, equal identifiable design at least one external signal, output triggering signal corresponding after receiving external signal is to main control chip 1, and main control chip 1 controls electronic lock according to the triggering signal received and transfers mode of operation to by park mode.

Preferably, this energy-saving electronic lock also includes the clock circuit 9 be electrically connected with main control chip 1, clock circuit 9 is preset with the time, clock circuit 9 is switched to by park mode during work at energy-saving electronic lock and starts, this preset time, timing completed time, clock circuit 9 sends interrupt signal to main control chip 1, and electronic lock is switched to park mode by mode of operation according to this interrupt signal by main control chip 1.

Particularly, now in example, clock circuit 9 automatically sends an interrupt signal after timing completes, and the electronic lock being in mode of operation is switched to park mode according to this interrupt signal by main control chip 1.Complete by this clock circuit 9 automation that electronic lock mode of operation switches to park mode, eliminate the manually operated trouble of user, timing time can preset, and can meet the demand of different user.

Preferably, the input module 6 in this energy-saving electronic lock, for being arranged at the finger-impu system on electronic lock surface, keys in unlocking pin to carry out unlocking operation to electronic lock by this finger-impu system.

Input module 6 is not limited to finger-impu system, equally also can be finger print input device, acoustic input dephonoprojectoscope, retina input unit or IC recognition device, vibrations recognition device etc., its Main Function is to provide a kind of means and unlock method of identifying user identity, password authentification applicability is higher, and in this embodiment, input module is preferably finger-impu system.

If input module 6 is chosen as vibrations recognition device in this embodiment, vibration mode can be preset in main control chip 1, after this electronic lock enters mode of operation, identify that vibrations are as authentication information, as continuous print pat several under be used as authentication information, directly by the operation unblanked of vibrations recognition device.If same vibrations recognition device detects the vibrations being different from default vibration mode, then main control chip 1 has been identified as stranger and has swarmed into, and given the alarm by main control chip 1, call user's attention is antitheft.

Preferably, this energy-saving electronic lock also comprises indicating module 7, this indicating module 7 is electrically connected with main control chip 1, when this energy-saving electronic lock switches to mode of operation by park mode, indicating module 7 starts, in order to point out user, electronic lock is in mode of operation, inputs unlocking signal unlock electronic lock by input module 6.

Particularly, indicating module 7 can be chosen as indicating lamp structure, and when electronic lock is in mode of operation, indicator lamp is opened luminous, and prompting user electronic lock is in mode of operation.

Particularly, indicating module 7 can be chosen as acoustical generator structure, and when electronic lock is in mode of operation, sounding opened by acoustical generator, and prompting user electronic lock is in mode of operation.

When this energy-saving electronic lock is in park mode, only main control chip 1 and trigger module 3 are energized, electronic lock can not respond the unlocking operation of user, use for the convenience of the user, be necessary to provide an indicating module 7, the current status of electronic lock can being understood easily and fast by indicating module 7 user, avoiding the electronic lock facing to entering park mode to carry out meaningless unlocking operation, promote user's experience.

Preferably, this energy-saving electronic lock also comprises electric power detection module 8, electric power detection module 8 is communicated with power-supply battery 2 and detects power-supply battery 2 dump energy in real time, when power-supply battery 2 is in low state of charge, electric power detection module 8 sends warning reminding user and changes, and avoids causing unnecessary loss because not changing battery in time.

Preferably, see Fig. 2, this energy-saving electronic lock also includes the wireless communication module 10 be electrically connected with main control chip 01, and this wireless communication module 10 is for receiving the unlocking signal of extraneous unlocking device 10 transmitting and being sent to main control chip 01.Particularly, this unlocking device 10 can be the portable object such as mobile phone, mobile terminal or remote controller, wireless communication module 10 can use the wireless transmission methods such as bluetooth, wifi, Zigbee, Infrared Transmission, the unlocking signal that such unlocking device 11 sends directly can be sent to energy-saving electronic lock by wireless communication module 10, realize remote unlocking, fast simple, convenient.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure transformation utilizing the utility model manual and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. an energy-saving electronic lock, comprise physics lock core, the driver part be connected with described physics lock core, control main control chip that described driver part starts or close, in order to the power-supply battery of powering and the input module in order to input unlocking signal, described driver part drives described physics lock core to switch between opened and closed conditions; Described main control chip and described driver part, to be electrically connected between power-supply battery and input module; It is characterized in that, described energy-saving electronic lock also comprises trigger module, and described trigger module and described main control chip are electrically connected; Described energy-saving electronic lock has the mode of operation and the park mode that are controlled switching by described main control chip, and when described energy-saving electronic lock is in mode of operation, described power-supply battery is that described driver part, main control chip, input module and trigger module are powered; When described energy-saving electronic lock is in park mode, described power-supply battery is only described main control chip and trigger module is powered; Wherein, described trigger module, for generation of triggering signal; Described main control chip, for according to the described triggering signal that receives, controls described energy-saving electric and is locked between park mode and mode of operation and switches.

2. energy-saving electronic lock as claimed in claim 1, it is characterized in that, described trigger module comprises contact panel, and described trigger module by described contact panel induction external touch signal, and exports triggering signal to described main control chip according to described external touch signal.

3. energy-saving electronic lock as claimed in claim 1, is characterized in that, described trigger module is vibrations assembly, and described trigger module by the vibrations of described vibrations assembly induction lock body, and exports triggering signal to described main control chip according to described vibrations assembly.

4. the energy-saving electronic lock as described in any one of claim 1-3, it is characterized in that, described energy-saving electronic lock also comprises clock circuit, described clock circuit and described main control chip are electrically connected, described clock circuit is used for when described energy-saving electronic lock is switched to mode of operation by described park mode, start and start timing, and at timing time then, send interrupt signal to described main control chip, described main control chip is used for, according to described interrupt signal, described energy-saving electronic lock is switched to park mode by described mode of operation.

5. energy-saving electronic lock as claimed in claim 1, it is characterized in that, described input module is the finger-impu system being arranged at described energy-saving electronic lock appearance.

6. energy-saving electronic lock as claimed in claim 1, it is characterized in that, described energy-saving electronic lock also comprises indicating module, described indicating module is electrically connected with described main control chip and is switched to by park mode to trigger during mode of operation at described energy-saving electronic lock and opens, and is in mode of operation in order to point out described energy-saving electronic lock.

7. energy-saving electronic lock as claimed in claim 6, it is characterized in that, described indicating module is indicator lamp, and when described energy-saving electronic lock is in described park mode, described indicator lamp is closed; When described energy-saving electronic lock is in described mode of operation, described indicator lamp is opened.

8. energy-saving electronic lock as claimed in claim 6, it is characterized in that, described indicating module is acoustical generator, and when described energy-saving electronic lock is in described park mode, described acoustical generator cuts out; When described energy-saving electronic lock is in described mode of operation, described acoustical generator is opened.

9. energy-saving electronic lock as claimed in claim 1, it is characterized in that, described energy-saving electronic lock also comprises electric power detection module, described electric power detection module is communicated with described power-supply battery and monitors its dump energy, and described electric power detection module sends alarm signal when described power-supply battery is in low electricity.

10. energy-saving electronic lock as claimed in claim 1, it is characterized in that, described energy-saving electronic lock also comprises the wireless communication module be electrically connected with described main control chip, the unlocking signal that described wireless communication module sends for receiving outside unlocking device, and described unlocking signal is sent to described main control chip.