CN204157121U - Intelligence Worn type light fixture - Google Patents

Intelligence Worn type light fixture Download PDF

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Publication number
CN204157121U
CN204157121U CN201420581412.4U CN201420581412U CN204157121U CN 204157121 U CN204157121 U CN 204157121U CN 201420581412 U CN201420581412 U CN 201420581412U CN 204157121 U CN204157121 U CN 204157121U
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light fixture
sensing device
source assembly
light source
worn type
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李军波
汤萍萍
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B20/00Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
    • Y02B20/40Control techniques providing energy savings, e.g. smart controller or presence detection

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Abstract

The utility model discloses a kind of intelligent Worn type light fixture, comprising: for sensing the position sensing apparatus of whole light fixture; For sensing the action sensing device of the motion state of whole light fixture; Light source assembly; Be connected with described position sensing apparatus, action sensing device and light source assembly, described action sensing device is opened and closed according to the position jump signal data that described position sensing apparatus senses, and according to the motion state data that described action sensing device senses, generate the control command controlling described light source assembly corresponding function, and the processing unit controlling execution corresponding function is carried out to described light source assembly.The utility model is used for being worn on it user, and user, by the corresponding function of action control light fixture, realizes action Based Intelligent Control, do not need manual operation to control.

Description

Intelligence Worn type light fixture
Technical field
The utility model relates to lighting technical field, particularly relates to a kind of intelligent Worn type light fixture.
Background technology
Head lamp is for being worn on the head, the illuminations of liberation both hands.The generation of head lamp solves user when being with lamp operation, the problem that both hands cannot be worked simultaneously.At present the switch form of head lamp on the market mainly contains following two kinds: 1, mechanical switch, need user's manual toggle or the switch pressed on head lamp to realize the function such as change light, keying of head lamp; 2, infrared sensing switch, needs user to brandish before inductive probe with hand, makes inductive switch action, realizes the function such as change light, keying of head lamp.But these two kinds of on-off modes existing still need Non-follow control, do not realize the real both hands of liberation thoroughly object.When user is with head lamp operation, often there will be and run into accident and hand cannot be vacated to operate head lamp, dangerous situation may be caused like this to occur.
Utility model content
The technical problems to be solved in the utility model is, provides a kind of intelligent Worn type light fixture realizing action Based Intelligent Control.
The utility model solves the technical scheme that its technical problem adopts: provide a kind of intelligent Worn type light fixture, comprising:
For sensing the position sensing apparatus of the position of whole light fixture;
For sensing the action sensing device of the motion state of whole light fixture;
Light source assembly;
Be connected with described position sensing apparatus, action sensing device and light source assembly, described action sensing device is opened and closed according to the position jump signal data that described position sensing apparatus senses, and according to the motion state data that described action sensing device senses, generate the control command controlling described light source assembly corresponding function, and the processing unit controlling execution corresponding function is carried out to described light source assembly.
In intelligent Worn type light fixture of the present utility model, described light fixture is head lamp, and described processing unit, position sensing apparatus, action sensing device and light source assembly are integrated in a housing.
In intelligent Worn type light fixture of the present utility model, described position sensing apparatus is pyroelectric infrared sensor.
In intelligent Worn type light fixture of the present utility model, described pyroelectric infrared sensor comprise gather infrared signal probe, connect the amplifying circuit of described probe and connect the filter circuit of described amplifying circuit.
In intelligent Worn type light fixture of the present utility model, described light source assembly comprises at least one LED group, and described LED group comprises the LED drive circuit be connected with described processing unit.
In intelligent Worn type light fixture of the present utility model, described action sensing device comprise in acceleration transducer, gyroscope, magnetometer one or more.
In intelligent Worn type light fixture of the present utility model, this light fixture also comprises the supply unit be connected with described processing unit, position sensing apparatus, action sensing device and light source assembly respectively.
In intelligent Worn type light fixture of the present utility model, this light fixture also comprises and being connected with described processing unit, for the control assembly of light fixture corresponding function described in Non-follow control.
In intelligent Worn type light fixture of the present utility model, described control assembly to comprise in button, rocking bar one or more.
Implement the utility model and there is following beneficial effect: for being worn on it user, user, by the corresponding function of action control light fixture, realizes action Based Intelligent Control, do not need manual operation to control.When being head lamp for this light fixture, only need can being controlled it by headwork, thoroughly can discharge both hands to carry out operation.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:
Fig. 1 is the schematic block diagram of the intelligent Worn type light fixture of the utility model one embodiment;
Fig. 2 is the logic diagram of processing unit in intelligent Worn type light fixture shown in Fig. 1;
The circuit theory diagrams of Fig. 3 intelligent Worn type light fixture of the present utility model;
Fig. 4 is the flow chart of the control method of intelligent Worn type light fixture of the present utility model.
Embodiment
In order to there be understanding clearly to technical characteristic of the present utility model, object and effect, now contrast accompanying drawing and describe embodiment of the present utility model in detail.
As shown in Figure 1, the intelligent Worn type light fixture of the utility model one embodiment, comprises processing unit 10, the position sensing apparatus 20 be connected with processing unit 10, action sensing device 30 and light source assembly 40.Wherein, the position jump signal data sensed for sensing the position of whole light fixture, and are sent to processing unit 10 by position sensing apparatus 20; The motion state data sensed for sensing the motion state of whole light fixture, and are sent to processing unit 10 by action sensing device 30; Processing unit 10 is according to the position jump signal data switching motion sensing apparatus 30 received, and according to the motion state data that action sensing device 30 senses, generate the control command controlling light source assembly 40 corresponding function, and control execution corresponding function is carried out to light source assembly 40.
In embodiments more of the present utility model, position sensing apparatus 20 can comprise pyroelectric infrared sensor, this pyroelectric infrared sensor for sensing the infrared signal of light fixture periphery, and generates position jump signal data according to infrared signal, and exports processing unit 10 to.When light fixture be worn on user with it time, infrared signal that pyroelectric infrared sensor senses can become suddenly large; When light fixture is taken with it from user, the infrared signal that pyroelectric infrared sensor senses can diminish suddenly, judges whether light fixture is worn on it user with this.By judging that light fixture is worn on user and restarts the operate condition data that action sensing device 30 carries out sensing light fixture with it afterwards, light fixture sensing work of action sensing device 30 when not wearing can be avoided to cause unnecessary waste of energy.
In embodiments more of the present utility model, action sensing device 30 can comprise in acceleration transducer, gyroscope, magnetometer one or more, for sensing the motion state data of light fixture.The motion state data of light fixture comprise the data such as angular speed, linear acceleration.
Processing unit 10 can adopt single-chip microcomputer (MCU).As shown in Figure 2, processing unit 10 can comprise position signalling sampling module 11, control module 12, actuating signal acquisition module 13, actuating signal processing module 14, and calling module 15.Position signalling sampling module 11 is set with first threshold and Second Threshold, and wherein first threshold is greater than Second Threshold; This position signalling sampling module 11 carries the position jump signal data of coming for collection position sensing apparatus 20, and position jump signal data and first threshold and Second Threshold is compared.Further, position signalling sampling module 11 can continuous acquisition position jump signal data within a predetermined period of time, and the mean value that jump signal data are put in fetch bit compares with first threshold and Second Threshold.Control module 12 is connected with position signalling sampling module 11, when position jump signal data threshold is greater than first threshold, this control module 12 starting operation sensing apparatus 30, thus the intelligent control mode of opening light fixture, action sensing device 30 works the motion state sensing light fixture; When position jump signal data threshold is less than Second Threshold, this control module 12 closing motion sensing apparatus 30.The motion state data that actuating signal sampling module 13 senses for gathering action sensing device 30; Actuating signal processing module 14 is connected between actuating signal sampling module and 13 control modules 12, and it is invalid to be considered as the motion state data in the motion state data of filtering outside predetermined threshold value and/or the predetermined threshold value recurred in window interval time.Calling module 15 is connected with control module 12, according to control command corresponding in the motion state data call control module 12 after filtration.Control module 12 performs corresponding function according to control command driving light source assembly 40.Light source assembly 40 performs the functions such as light, extinguishing, change light according to control command.
Wherein, control module 12 is also set with control command threshold value, and the motion state data that collect compared with control command threshold value, when motion state data are greater than control command threshold value, are generated corresponding control command by it.
When light fixture be worn on user with it time, light fixture can along with user walk about or operation time move, and these motions are disturbed motion, and non-user will control the motor performance of light fixture, therefore, in order to avoid the misoperation that disturbed motion brings light fixture, in embodiments more of the present utility model, actuating signal processing module 14 comprises high pass filter and/or low pass filter, high pass filter and low pass filter respectively by the low-frequency noise threshold value of setting themselves and high-frequency noise threshold value, for filtering low-frequency noise and high-frequency noise.At light fixture with user static or when slowly moving, action sensing device 30 has lasting motion state data and exports on sensing direction, and the data of this output are considered as low-frequency noise; Walk about with user at light fixture, operation shake time, action sensing device 30 has lasting motion state data and exports on sensing direction, and the data of this output are considered as high-frequency noise.Therefore, as selection, high pass filter can select cut-off frequency to be 2Hz filter, and low pass filter can select cut-off frequency to be the filter of 20Hz.Actuating signal processing module 14, can by the motion state data filtering of frequency beyond 2-20Hz by the setting of high pass filter and low pass filter.
In addition, under special circumstances as user in bumpy sections walking or by bike etc., the motion state data frequency that action sensing device 30 senses is within 2-20Hz and also can cause misoperation to light fixture when being greater than control command threshold value.In order to these interference noises of further filtering, window interval time can be set in actuating signal processing module 14, by time window algorithm, it is invalid the motion state data of (low-frequency noise threshold value and high-frequency noise threshold value in) in predetermined threshold value that (as 300 milliseconds) recur in window in interval time of setting to be considered as.
Further, processing unit 10 also comprises actuating signal study module, organize acquiescence control command threshold value, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, default interval time window for presetting according to use crowd more, and select one group of immediate acquiescence control command threshold value, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, default interval time window according to the motion state data that the use first of user senses.In follow-up use, processing unit 10 can according to use first selected acquiescence control command threshold value, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, default interval time window to subsequent sense to motion state data judge.In the process that user uses, (violent according to the control action of user, soft etc.), action sensing device 30 senses angular speed, the data such as linear acceleration are different, therefore, the motion state data-optimized acquiescence control command threshold value that this actuating signal study module also can sense according to the repeatedly use of user, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, default interval time window, control command threshold value will be given tacit consent to, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, default interval time window is optimized for the data consistent obtained or more consistent used with user.
Processing unit 10 also comprises nonvolatile memory (not shown), for control store instruction and many group acquiescence control command threshold values, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, default interval time window, and memory storage is carried out to selected immediate acquiescence control command threshold value, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, default interval time window.
In embodiments more of the present utility model, this light fixture is head lamp, and processing unit 10, position sensing apparatus 20, action sensing device 30 and light source assembly 40 are integrated in a housing.When this light fixture is head lamp, user only can need be opened and closed it by headwork, become the functions such as light controls, and thoroughly can discharge both hands to carry out operation.Housing can be arranged according to partially light and handy, continuation of the journey partially, the partially different demand such as waterproof and inclined brightness, to be applicable to different occasion.Position sensing apparatus 20 on housing towards user.Action sensing device 30 can be 3-axis acceleration sensor, can record the acceleration information of three axis when user's head is shaken the head or nods; Action sensing device 30 also can be three-axis gyroscope, can record the angular velocity data of three axis when user's head is shaken the head or nods.
Be in the practical application of head lamp at intelligent Worn type light fixture, when this head lamp is worn on after on head by user, namely user controls this headlight switch by shaking the head or nodding or becomes light, thorough release both hands, facilitating both hands operation, can avoiding in case of emergency because rising manipulation head lamp and the situation such as cause danger or let slip a golden opportunity of not selling.
In other embodiments, this light fixture also can be and is worn on user as the light fixture on other positions such as arm, waist.
In addition, this light fixture also comprises supply unit 60, it is connected with processing unit 10, position sensing apparatus 20, action sensing device 30 and light source assembly 40 respectively, for processing unit 10, position sensing apparatus 20, action sensing device 30 and light source assembly 40 are powered.This supply unit 60 is also in the housing integrated.
As shown in Figure 3, in the circuit theory diagrams of intelligent Worn type light fixture of the present utility model, position sensing apparatus 20 is pyroelectric infrared sensor, this pyroelectric infrared sensor comprises the probe, amplifying circuit and the filter circuit that gather infrared signal, amplifying circuit connects probe, filter circuit connects amplifying circuit, and the signal after amplification, filtering process is delivered to processing unit 10 by output.Action sensing device 30 will sense motion state data and be delivered to processing unit 10 by output.Light source assembly 40 comprises at least one LED group; In embodiments more of the present utility model, light source assembly 40 can comprise three LED groups, and each LED group includes the LED drive circuit be connected with processing unit 10.Supply unit 60 is the power supplies such as processing unit 10, position sensing apparatus 20, action sensing device 30 and light source assembly 40.
In embodiments more of the present utility model, this intelligent Worn type light fixture also comprises and being connected with processing unit 10, for the control assembly 50 of Non-follow control light fixture corresponding function.Control assembly 50 is arranged on housing.Under general mode (non intelligent pattern), directly can be controlled the corresponding function of light fixture by control assembly 50.As selection, this control assembly 50 can to comprise in button, rocking bar etc. one or more, processing unit 10 can be sent a control signal to by pressing keys or shake rocking bar, control to perform corresponding function to light source assembly 40 by processing unit 10 sending controling instruction.
As shown in Figure 4, the control method of intelligent Worn type light fixture of the present utility model, comprises the following steps:
The wearing position of S1, sensing light fixture, generates position jump signal data;
S2, whether be in intelligent control mode according to position jump signal data setting light fixture;
S3, when lamp settings is in intelligent control mode, the motion state data of sensing light fixture, and according to motion state data, generate the control command controlling light fixture corresponding function;
S4, according to control command, drive light fixture perform corresponding function.
In step sl, by the infrared signal of pyroelectric infrared sensor sensing light fixture periphery, and position jump signal data are generated according to infrared signal.When light fixture be worn on user with it time, infrared signal that pyroelectric infrared sensor senses can become suddenly large; When light fixture is taken with it from user, the infrared signal that pyroelectric infrared sensor senses can diminish suddenly.In step s 2, become suddenly large setting light fixture according to infrared signal and be in intelligent control mode.
In step s 2, step is comprised:
S2-1: the first threshold of intelligent control mode is opened in setting;
S2-2: the Second Threshold of intelligent control mode is closed in setting; Wherein, first threshold is greater than described Second Threshold;
S2-3: in setting-up time section, continuous acquisition position jump signal data, and after averaging, compare with first threshold and Second Threshold; When the mean value of position jump signal data is greater than first threshold, setting light fixture is in intelligent control mode; When the mean value of position jump signal data is less than Second Threshold, setting light fixture exits intelligent control mode.This setting operation can avoid the frequent of intelligent mode to open and close by mistake.
Such as, A is set to the mean value of the position jump signal data of continuous acquisition in 1 second, B is set to first threshold, and C is set to Second Threshold, wherein B > C; As A > B, setting light fixture is in intelligent control mode; As A < C, setting light fixture exits intelligent control mode, enters ordinary control mode.
Composition graphs 1, in this step S2, by setting first threshold and Second Threshold in processing unit 10, position jump signal data compare with this first threshold and Second Threshold in processing unit 10, judge whether to open and close intelligent control mode by comparative result.In step s3, when intelligent control mode starts, action sensing device 30 works, the motion state data of sensing light fixture.
In step s3, the motion state data of light fixture are sensed by one or more in acceleration transducer, gyroscope, magnetometer; The motion state data of sensing comprise angular speed, linear acceleration etc.
This step S3 can comprise the following steps:
S3-1: setup control instruction threshold value;
S3-2: by motion state data compared with control command threshold value, when motion state data are greater than control command threshold value, generates corresponding control command.
The motion state data received and this control command threshold value, in this step S3, by setup control instruction threshold value in processing unit 10, are compared by composition graphs 1, generate the control command controlling light fixture corresponding function according to comparative result.In step s 4 which, light source assembly 40 performs the functions such as light, extinguishing, change light according to control command.
Further, further comprising the steps of in step S3:
S3-3: by setting low-frequency noise threshold value and high-frequency noise threshold value, the low-frequency noise in motion state data and high-frequency noise are filtered.
At light fixture with user static or when slowly moving, the motion state data sensed belong to low-frequency noise, walk about with user at light fixture, operation shake time, the motion state data sensed belong to high-frequency noise, motion state data under both of these case all belong to interference noise, control not to light fixture, therefore should filtering, to avoid causing misoperation to light fixture.This step S3-3 can carry out before step S3-2, was first filtered the low-frequency noise in motion state data and high-frequency noise respectively by high pass filter and low pass filter, then by the motion state data after filtration compared with control command threshold value.
As selection, high pass filter can select cut-off frequency to be 2Hz filter, and low pass filter can select cut-off frequency to be the filter of 20Hz.
Such as, in step s3, the data (X, Y, Z) of three axis when user's head is shaken the head or nods are recorded by 3-axis acceleration sensor or three-axis gyroscope; Because the installation site of action sensing device 30 in light fixture is controlled, and the usual method of light fixture is also fixing, and therefore suppose X to be considered as direction (double swerve) data of shaking the head, Y is considered as direction (teetertottering) data of nodding; M is set to the control command threshold value to inductive switch (light or extinguishing) control command, N is set to the control command threshold value to strain photocontrol instruction, as X > M, generate switching control instruction, generate as Y > N and become photocontrol instruction.
When containing high-frequency noise and low-frequency noise in the data (X, Y, Z) being recorded three axis when user's head is shaken the head or nods by 3-axis acceleration sensor or three-axis gyroscope, in order to accuracy of judgement, low-pass filtering and high-pass filtering process are carried out to the motion state data (X, Y, Z) gathered and obtains effective exercise status data between low-frequency noise threshold value and high-frequency noise threshold value (X ', Y ', Z '), as X ' > M, generate switching control instruction, generate as Y ' > N and become photocontrol instruction.
In step s3, further comprising the steps of:
S3-4: setting window interval time, in interval time of this setting in window, is consecutively detected the motion state data being greater than control command threshold value and is considered as invalid, do not generate control command.
Under special circumstances as user bumpy sections walking or by bike time, the motion state data sensed are between low-frequency noise threshold value and high-frequency noise threshold value, and be greater than control command threshold value, equally can to lamp operation misoperation, therefore, by the setting of window interval time, by the interval time of setting in window, the control command threshold value motion state data that are greater than be consecutively detected are considered as invalid, do not generate control command.
Such as, in particular cases above-mentioned, the motion state data sensed are interference signal, and the characteristic generally can not significantly rocked continuously when controlling light fixture according to user, the interval time that double light fixture operate condition data Rule of judgment is set up is set to T, window interval time of setting is set to W, use time window algorithm, as T<W, it is invalid the motion state data be consecutively detected to be considered as, and does not generate control command.
Due to custom and the operational environment difference to some extent of the user of different crowd (as Different age group), control command threshold value in this control method, low-frequency noise threshold value, high-frequency noise threshold value and interval time window requirement also difference to some extent, in order to reach each crowd user can this light fixture easy to use and to greatest extent reduce misoperation control object, this control method also includes intelligent learning pattern, comprises the following steps:
S4-1: preset many group acquiescence control command threshold values, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, default interval time window according to use crowd;
S4-2: the motion state data sensed that use first according to user select one group of immediate acquiescence control command threshold value, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, default interval time window;
S4-3: according to motion state Data Update and/or optimization acquiescence control command threshold value, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value, the default interval time window of sensing.
Wherein, step S4-1 can carry out before step S1, thus is preset in organizing acquiescence control command threshold value, acquiescence low-frequency noise threshold value, acquiescence high-frequency noise threshold value and default interval time window in light fixture more.After the first use, from above-mentioned many group default data, selected one group is immediately carried out memory storage to user, so as this user upper once use time directly select these selected data to compare judgement.
In step s 4 which, as selection, multiple default data can carry out arranging and storing according to the crowd of 10-20 age bracket, 20-30 age bracket, 30-40 age bracket, 40-50 age bracket, 50-60 age bracket and more than 60 age brackets respectively.After using acquiescence low-frequency noise threshold value and acquiescence high-frequency noise threshold value to filter motion state data during the use first of user, and acquiescence control command threshold value compares.Thus select immediate acquiescence control command threshold value, acquiescence low-frequency noise threshold value and acquiescence high-frequency noise threshold value.In user repeatedly use procedure, the regularity according to the many groups motion state data obtained optimizes each default threshold above-mentioned.
F1 is set to high-frequency noise threshold value, f2 is set to low-frequency noise threshold value, and M, N are set to control command threshold value, and W is window interval time; In the process that user uses, according to the parameters in the use habit of operate condition data analysis user gathered and operational environment dynamic micro-adjustments default set (f1, f2, M, N), easily manipulate light fixture accurately so that user is follow-up and reduces misoperation to greatest extent.
The update rule of M parameter:
As X ' >M, M=M+ [(X '-M)/2];
As X ' <M and (M-X ') <M ' time, M=M-[(M-X ')/2];
Certainly, M will be more than or equal to M ' all the time, and M ' is the minimum value of acquiescence control command threshold value.
And M will be less than or equal to M all the time ", M " is the maximum of acquiescence control command threshold value.
The update rule of N parameter:
As Y ' >N, N=N+ [(Y '-N)/2];
As Y ' <N and (N-Y ') <N ' time, N=N-[(N-Y ')/2];
Certainly, N will be more than or equal to N ' all the time, and N ' is the minimum value of acquiescence control command threshold value.
And N will be less than or equal to N all the time ", N " is the maximum of acquiescence control command threshold value.
The update rule of f1, f2: when having determined light fixture control action, calculates centre frequency F amendment f1, f2 of temporary raw motion data f1, f2, makes f1=F-7Hz, f2=F+7Hz.
From the above, the utility model is by sensing lamp position to start the intelligent control mode of light fixture, the motion state of light fixture is sensed under intelligent control mode working condition, perform by motion state data the corresponding function that corresponding control command controls light fixture, realize the action Based Intelligent Control of light fixture.
The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification and accompanying drawing content to do equivalent structure or equivalent flow process conversion; 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 (9)

1. an intelligent Worn type light fixture, is characterized in that, comprising:
For sensing the position sensing apparatus of the position of whole light fixture;
For sensing the action sensing device of the motion state of whole light fixture;
Light source assembly;
Be connected with described position sensing apparatus, action sensing device and light source assembly, described action sensing device is opened and closed according to the position jump signal data that described position sensing apparatus senses, and according to the motion state data that described action sensing device senses, generate the control command controlling described light source assembly corresponding function, and the processing unit controlling execution corresponding function is carried out to described light source assembly.
2. intelligent Worn type light fixture according to claim 1, is characterized in that, described light fixture is head lamp, and described processing unit, position sensing apparatus, action sensing device and light source assembly are integrated in a housing.
3. intelligent Worn type light fixture according to claim 1, is characterized in that, described position sensing apparatus is pyroelectric infrared sensor.
4. intelligent Worn type light fixture according to claim 3, is characterized in that, described pyroelectric infrared sensor comprise gather infrared signal probe, connect the amplifying circuit of described probe and connect the filter circuit of described amplifying circuit.
5. intelligent Worn type light fixture according to claim 1, is characterized in that, described light source assembly comprises at least one LED group, and described LED group comprises the LED drive circuit be connected with described processing unit.
6. intelligent Worn type light fixture according to claim 1, is characterized in that, described action sensing device comprise in acceleration transducer, gyroscope, magnetometer one or more.
7. intelligent Worn type light fixture according to claim 1, is characterized in that, this light fixture also comprises the supply unit be connected with described processing unit, position sensing apparatus, action sensing device and light source assembly respectively.
8. the intelligent Worn type light fixture according to any one of claim 1-7, is characterized in that, this light fixture also comprises and being connected with described processing unit, for the control assembly of light fixture corresponding function described in Non-follow control.
9. intelligent Worn type light fixture according to claim 8, is characterized in that, described control assembly to comprise in button, rocking bar one or more.
CN201420581412.4U 2014-10-08 2014-10-08 Intelligence Worn type light fixture Expired - Fee Related CN204157121U (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104333949A (en) * 2014-10-08 2015-02-04 汤萍萍 Intelligent worn type lamp and control method thereof
CN105120090A (en) * 2015-08-25 2015-12-02 腾讯科技(深圳)有限公司 Operation recognition method and apparatus
WO2016054791A1 (en) * 2014-10-09 2016-04-14 汤萍萍 Intelligent wearable lamp and controlling method thereof
TWI564503B (en) * 2015-06-10 2017-01-01 Head sensor headlight device
CN107238003A (en) * 2017-07-19 2017-10-10 广州新诚生物科技有限公司 Intelligent head lamp

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104333949A (en) * 2014-10-08 2015-02-04 汤萍萍 Intelligent worn type lamp and control method thereof
CN104333949B (en) * 2014-10-08 2020-07-24 嘉兴市恒泰化工科技有限公司 Intelligent wearable lamp and control method thereof
WO2016054791A1 (en) * 2014-10-09 2016-04-14 汤萍萍 Intelligent wearable lamp and controlling method thereof
TWI564503B (en) * 2015-06-10 2017-01-01 Head sensor headlight device
CN105120090A (en) * 2015-08-25 2015-12-02 腾讯科技(深圳)有限公司 Operation recognition method and apparatus
CN105120090B (en) * 2015-08-25 2018-05-25 腾讯科技(深圳)有限公司 Operate recognition methods and device
US10528149B2 (en) 2015-08-25 2020-01-07 Tencent Technology (Shenzhen) Company Limited Operation recognition method and apparatus
CN107238003A (en) * 2017-07-19 2017-10-10 广州新诚生物科技有限公司 Intelligent head lamp
WO2019015612A1 (en) * 2017-07-19 2019-01-24 广州新诚生物科技有限公司 Smart head-mounted light

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