CN205408221U - Illuminator and wearable article - Google Patents

Abstract

The utility model discloses an illuminator contains light emitting component group and controlling element, wherein controlling element electric connection light emitting component group. Controlling element has the motion sensor and stores the media, but motion sensor sensing controlling element's motion state and output movement parameter, and store the media and store a plurality of light emitting mode and at least one motion threshold value. Whether controlling element exceedes the motion threshold value according to the motion parameter who exports, and control light emitting component group is luminous with one of them kind light emitting mode. The utility model discloses also expose a wearable article, be provided with foretell illuminator on it.

Description

Light-emitting device and Wearable article

Technical field

This utility model system is about a kind of light-emitting device and Wearable article, and especially, this utility model system is about a kind of light-emitting device according to the luminous pattern of kinestate automatic switchover and the Wearable article applying this light-emitting device.

Background technology

Universal due to miniaturization light source in recent years, such as light-emittingdiode (LightEmittingDevice, LED), make the non-electronic articles for use that general people's life is conventional are installed light-emitting component, for instance on shoes, clothes, medicated cap, knapsack or any object carried with or dress.This kind utilizes miniature light sources to be installed on the form of carry-on object, except having the effect of security warning, also has the landscaping effect of distinctive visual outward appearance.Such as, if the shoes of pedestrian or child and medicated clothing can send light or the glare of different colours, can night or pitch-dark time remind vehicle drive people to have the existence of child or pedestrian unexpected to avoid occurring, it addition, may also function as the effect of decoration at ordinary times.

Decorate with oneself or the way of Wearable article with miniaturization light source or LED at present, it is generally all that the light-emitting device including LED or similar miniaturization light-emitting component is set directly in Wearable article, wherein the control circuit part of light-emitting device is buried inside Wearable article, and the light-emitting component that controlled circuit controls can be set directly at Wearable article surface, or be arranged under the light transmitting surface of Wearable article, or it be arranged at Wearable article inside and connect light-guide device.

Above-mentioned light-emitting device passes through control circuit, its light-emitting component can be made to carry out luminescence with different light-emitting modes, such as, control circuit has the light-emitting mode of the changeable light-emitting component of specific button, make multiple light-emitting component sequentially continuous illumination, sequentially luminescence once, continuous illumination or flicker etc. together together, strengthen the multiformity of decoration that Wearable article produces by light-emitting device or alarming effect.

Prior art is all through the wearer of user or Wearable article and control circuit is assigned instruction just reaches the effect of the different light-emitting modes of switching, for instance transmit switching command through the means such as button or remote controller.If but under the special status that user cannot assign instruction attentively, light-emitting component may be luminous with the form of mistake, causing the alarming effect that conveyed mistake.Such as, when wearer carry out running compete for speed or bicycle is competed for speed movable time, instruction cannot be assigned clearly to control circuit, and control circuit is likely to therefore carry out luminescence according to incorrect speed luminous alarming pattern so that other people judge the speed of wearer by accident and lead to thunder bolt.

Even if therefore, it is necessary to research and develop a kind of under the situation that control circuit cannot be assigned right instructions by wearer, remain to switch to required light-emitting mode and carry out light-emitting device and the Wearable article of luminescence, to solve the problems referred to above.

Utility model content

The purpose of this utility model is in that to provide a kind of light-emitting device, its simple in construction, handling facility, moreover it is possible to adjust light-emitting mode according to kinestate.

To achieve these goals, the utility model discloses a kind of light-emitting device, it is characterised in that comprise:

One light emitting device group；And

One controls element, be electrically connected this light emitting device group, kinestate that this control element comprises this control element of a sensing and export a kinematic parameter motion sensor, store the storing media of multiple light-emitting mode and one first threshold value and electrically connect kinematic parameter that this motion sensor and this storing media and this motion sensor of comparison export whether more than the processing unit of this first threshold value stored by this storing media thus this control element optionally drives this light emitting device group luminous with the one in multiple light-emitting modes according to this processing unit comparison result.

Wherein, this motion sensor is a speed sensor and this kinematic parameter is a speed parameter, or this motion sensor is a speed sensor and this kinematic parameter is an acceleration parameter.

Wherein, this motion sensor is a Vibration induction element, and this kinematic parameter is a vibration frequency parameter.

Wherein, this light emitting device group comprises at least one light-emitting component, and such light-emitting mode comprises one first light-emitting mode and one second light-emitting mode, wherein this this at least one light-emitting component of the first light-emitting mode system glimmers with one first flicker frequency, this this at least one light-emitting component of the second light-emitting mode system glimmers with one second flicker frequency, this first flicker frequency is more than this second flicker frequency, and this kind of this at least one light-emitting component that controls when this kinematic parameter is more than this motion threshold value of control element system with this first light-emitting mode luminescence and controls this at least one light-emitting component control element with this second light-emitting mode luminescence when this kinematic parameter is less than this motion threshold value.

Wherein, this light emitting device group comprises several light-emitting diodes body unit, each light-emitting diodes body unit comprises one first light-emittingdiode and one second light-emittingdiode of the light that can send different colours, such light-emitting mode comprises one the 3rd light-emitting mode and one the 4th light-emitting mode, this first light-emittingdiode of these several light-emitting diodes body units of 3rd light-emitting mode system is flashing mode luminous with the 3rd, this second light-emittingdiode of these several light-emitting diodes body units of 4th light-emitting mode system is flashing mode luminous with the 4th, wherein these a kind of these several light-emitting diodes body units that control when this kinematic parameter is more than this motion threshold value of control element system with the 3rd light-emitting mode luminescence and control this at least one light-emitting diodes body unit control element with the 4th light-emitting mode luminescence when this kinematic parameter is less than this motion threshold value.

Wherein, the control element that this kind of this first light-emittingdiode controlling these several light-emitting diodes body units when this kinematic parameter is more than this motion threshold value of control element system glimmers with sudden strain of a muscle mode after dodging so that elder generation is suitable.

Wherein, a kind of this first light-emittingdiode controlling these several light-emitting diodes body units when this kinematic parameter is more than this motion threshold value of this control element system is with along the control element dodged or glimmer with sudden strain of a muscle mode.

Wherein, this first light-emittingdiode and this second light-emittingdiode of each light-emitting diodes body unit lie in same encapsulation, and this first light-emittingdiode and this second light-emitting diodes system reversal connection.

The invention also discloses a kind of light-emitting device, it is characterised in that comprise:

One light emitting device group；And

One controls element, is electrically connected this light emitting device group, and this control element comprises:

One kinestate sensing this control element also exports the motion sensor of a kinematic parameter；

Store the storing media of multiple light-emitting mode, one first threshold value and one second threshold value and this second threshold value more than this first threshold value；And

Electrically connect processing unit that this motion sensor and this storing media and the kinematic parameter that exported by this motion sensor and this first threshold value stored by this storing media and this second threshold value compare thus this control element optionally drives this light emitting device group luminous with the one in multiple light-emitting modes according to the comparison result of this processing unit.

The invention also discloses a kind of Wearable article having lighting function, it is characterised in that comprise:

One body；And

One light-emitting device, is arranged on this body, and this light-emitting device comprises:

One light emitting device group；And

One controls element, be electrically connected this light emitting device group, kinestate that this control element comprises this control element of a sensing and export a kinematic parameter motion sensor, store the storing media of multiple light-emitting mode and one first threshold value and electrically connect kinematic parameter that this motion sensor and this storing media and this motion sensor of comparison export whether more than the processing unit of this first threshold value stored by this storing media thus this control element optionally drives this light emitting device group luminous with the one in multiple light-emitting modes according to the comparison result of this processing unit.

Wherein, this motion sensor is a speed sensor and this kinematic parameter is a speed parameter, or this motion sensor is a speed sensor and this kinematic parameter is an acceleration parameter.

Wherein, this motion sensor is a Vibration induction element, and this kinematic parameter is a vibration frequency parameter.

Wherein, this light emitting device group comprises at least one light-emitting component, and such light-emitting mode comprises one first light-emitting mode and one second light-emitting mode, wherein this this at least one light-emitting component of the first light-emitting mode system glimmers with one first flicker frequency, this this at least one light-emitting component of the second light-emitting mode system glimmers with one second flicker frequency, this first flicker frequency is more than this second flicker frequency, and this kind of this at least one light-emitting component that controls when this kinematic parameter is more than this motion threshold value of control element system with this first light-emitting mode luminescence and controls this at least one light-emitting component control element with this second light-emitting mode luminescence when this kinematic parameter is less than this motion threshold value.

Wherein, this light emitting device group comprises several light-emitting diodes body unit, each light-emitting diodes body unit comprises one first light-emittingdiode and one second light-emittingdiode of the light that can send different colours, such light-emitting mode comprises one the 3rd light-emitting mode and one the 4th light-emitting mode, this first light-emittingdiode of these several light-emitting diodes body units of 3rd light-emitting mode system is flashing mode luminous with the 3rd, this second light-emittingdiode of these several light-emitting diodes body units of 4th light-emitting mode system is flashing mode luminous with the 4th, wherein these a kind of these several light-emitting diodes body units that control when this kinematic parameter is more than this motion threshold value of control element system with the 3rd light-emitting mode luminescence and control this at least one light-emitting diodes body unit control element with the 4th light-emitting mode luminescence when this kinematic parameter is less than this motion threshold value.

Wherein, the control element that this kind of this first light-emittingdiode controlling these several light-emitting diodes body units when this kinematic parameter is more than this motion threshold value of control element system glimmers with sudden strain of a muscle mode after dodging so that elder generation is suitable.

Wherein, a kind of this first light-emittingdiode controlling these several light-emitting diodes body units when this kinematic parameter is more than this motion threshold value of this control element system is with along the control element dodged or glimmer with sudden strain of a muscle mode.

Wherein, this first light-emittingdiode and this second light-emittingdiode of each light-emitting diodes body unit lie in same encapsulation, and this first light-emittingdiode and this second light-emitting diodes system reversal connection.

The invention also discloses a kind of Wearable article having lighting function, it is characterised in that comprise:

One body；And

One light-emitting device, is arranged on this body, and this light-emitting device comprises:

One light emitting device group；And

One controls element, is electrically connected this light emitting device group, and this control element comprises:

One kinestate sensing this control element also exports the motion sensor of a kinematic parameter；

Store the storing media of multiple light-emitting mode, one first threshold value and one second threshold value and this second threshold value more than this first threshold value；And

Electrically connect processing unit that this motion sensor and this storing media and the kinematic parameter that exported by this motion sensor and this first threshold value stored by this storing media and this second threshold value compare thus this control element optionally drives this light emitting device group luminous with the one in multiple light-emitting modes according to the comparison result of this processing unit.

By said structure, luminous device structure of the present utility model is simple, can easily be positioned over suitable diverse location, is suitable for more extensive, moreover it is possible to sends the light of different pattern according to its quantity of motion, can automatically produce different visual effects.When the Wearable article that wearer wearing is provided with above-mentioned light-emitting device is moved, even if under the situation that control element cannot be assigned right instructions, light-emitting device remains to be automatically switched to required light-emitting mode, and receives good decoration or alarming effect.

Can be further understood by following creation detailed description and institute's accompanying drawings with spirit about advantage of the present utility model.

Accompanying drawing explanation

Fig. 1: illustrate the schematic diagram of light-emitting device according to a specific embodiment of the present utility model.

Fig. 2: illustrate the schematic diagram of light-emitting device according to another specific embodiment of the present utility model.

Fig. 3: illustrate the schematic diagram of Wearable article according to a specific embodiment of the present utility model.

Fig. 4: illustrate the schematic diagram of Wearable article according to another specific embodiment of the present utility model.

Detailed description of the invention

Refer to Fig. 1, Fig. 1 and illustrate the schematic diagram of the light-emitting device 1 according to a specific embodiment of the present utility model.As it is shown in figure 1, light-emitting device 1 comprises light emitting device group 10 and controls element 12, and control to be electrically connected mutually between element 12 and light emitting device group 10.Control element 12 to control light emitting device group 10 and send light, it is possible to control light emitting device group 10 and send light in what manner, for instance continuous illumination, short time be luminous or persistently flicker etc..

Control to have in element 12 motion sensor 120 and storing media 122, in addition, control that element 12 practice can also have a processing unit 124 and connect motion sensor 120, storing media 122 and light emitting device group 10, thereby control light emitting device group 10 luminous according to the light-emitting mode wanted.Motion sensor 120 can be used to the kinestate of measurement control element 12, and according to measuring the kinestate output kinematic parameter arrived.In one embodiment, motion sensor 120 can be speed sensor, speed when moving for measurement control element 12, and according to the result output speed parameter that measurement is arrived.Motion sensor 120 is alternatively acceleration sensor, and kinematic parameter is acceleration parameter.In another specific embodiment, motion sensor 120 can also be Vibration induction element (such as spring vibration switch), is used for sensing the control element 12 vibration frequency under kinestate, and according to the result output of vibration frequency parameter that measurement is arrived.In addition, in another specific embodiment, motion sensor 120 can also comprise simultaneously speed sensor and Vibration induction element can the vibrations of measurement control element 12 simultaneously with motion time speed, and output of vibration frequency parameter and speed parameter, or comprise simultaneously acceleration sensor and Vibration induction element can the vibrations of measurement control element 12 simultaneously with motion time acceleration, and output of vibration frequency parameter and acceleration parameter.

Storing media 122 can store multiple different light-emitting mode and at least one kinematic parameter threshold value.The kinematic parameter that kinematic parameter threshold value and motion sensor 120 export belongs to one species, and therefore controlling element 12 can directly compare kinematic parameter and kinematic parameter threshold value.Kinematic parameter threshold value represents a kind of specific quantity of motion, such as specific movement velocity, acceleration of motion or frequency of vibration, therefore whether the quantity of motion controlling element 12 comparing motion parameter current with kinematic parameter threshold value known control element exceedes this special exercise amount.Multiple different light-emitting mode stored in storing media 122 is used to be followed luminescence for light emitting device group.

Control element 12 or control kinematic parameter and the kinematic parameter threshold value stored by storing media 122 that the processing unit 124 comparison motion sensor 120 in element 12 exports, when the result of comparison be kinematic parameter more than motion threshold value time, controlling element 12, to control light emitting device group 10 luminous with the first light-emitting mode in the multiple light-emitting modes stored by storing media 122；Relatively, when the result of comparison be kinematic parameter less than motion threshold value time, control element 12 and control light emitting device group 10 with the second light-emitting mode luminescence in the multiple light-emitting modes stored by storing media 122, namely control element 12 according to processing unit 124 comparison result, optionally drive this light emitting device group luminous with the one in multiple light-emitting modes.Therefore, control element 12 and can reach automatically to change according to the kinestate controlling element 12 effect of the luminous pattern of light emitting device group 10.Light-emitting device 1 can be arranged in a Wearable article, such as medicated cap, clothes, knapsack, shoes etc., and when user or wearer are dressed this Wearable article and move, light-emitting device 1 can be driven by Wearable article and move together, and therefore the kinestate of light-emitting device 1 is actually the kinestate of Wearable article.

Control element 12 according to the optional a kind of light-emitting mode of its kinestate, and it is luminous with this light-emitting mode to control light emitting device group 10.Light-emitting mode can be different according to the design of light emitting device group 10 and the kinematic parameter measured.In being embodied as of Fig. 1, light emitting device group 10 comprises at least one light-emitting component 100 further, these light-emitting components 100 can be light-emittingdiode or similar element in actual applications, in addition, light-emitting component quantity is not limited with shown in Fig. 1 in practice, minimum only needs a light-emitting component.If motion sensor 120 is speed parameter for speed sensor and kinematic parameter, aforesaid first light-emitting mode can be that each light-emitting component 100 glimmers with higher first flicker frequency, and the second light-emitting mode can be then each light-emitting component 100 to carry out flicker frequency with relatively low second flicker frequency and glimmer.Therefore, when speed parameter is more than speed threshold value, when namely the movement velocity of Wearable article and light-emitting device is more than a specific speed, light-emitting device 1 can with higher frequency scintillation so that it is the light that other people can be sent by light-emitting device 1 learns that wearer is at present with higher speed motion.In another embodiment, the first light-emitting mode is that several light-emitting component 100 is sequentially suitable to be dodged, and the second several light-emitting component 100 of light-emitting mode glimmers simultaneously, and namely the first light-emitting mode and the second light-emitting mode flashing mode are different.

As it was previously stated, storing media 122 can store at least one motion threshold value, in other words, control element 12 and can produce multistage variations in light according to the kinestate control light emitting device group 10 that multiple motion threshold values and light-emitting device are current.For example, when the Wearable article that wearer wearing is provided with light-emitting device 1 carries out road-work, the frequency that the speed run according to wearer or hands or foot swing, the light emitting device group 10 of light-emitting device 1 can low frequency, medium frequency or altofrequency flicker mode luminous.The quantity of motion threshold value, namely the quantity in stage, does not limit in this, and can be designed according to actual demand.

The light-emitting mode of above-mentioned light emitting device group 10 is except its flicker frequency can determine according to kinestate (such as movement velocity or vibration frequency), and each light-emitting component 100 in light emitting device group 10 also can be worked in coordination and be glimmered.Such as, under low speed or harmonic motion frequency state, each light-emitting component 100 can be sequentially luminous with a relatively low frequency, and under fast state or high motion frequency, and each light-emitting component 100 can be sequentially luminous with a higher frequency.Or, in another specific embodiment, under low speed or harmonic motion frequency state, each light-emitting component 100 can be luminous with a relatively low frequency alternately, and at a high speed or under high motion frequency state, and each light-emitting component 100 can be luminous with a higher frequency alternately.

Refer to Fig. 2, Fig. 2 and illustrate the schematic diagram of the light-emitting device 2 according to another specific embodiment of the present utility model.As shown in Figure 2, this specific embodiment and a upper specific embodiment do not exist together, it is in that the light emitting device group 20 of the light-emitting device 2 of this specific embodiment further comprises at least one double-colored light-emitting diodes body unit 200, the first light-emittingdiode 202 and the second light-emittingdiode 204 of the light that can send different colours is contained again in each light-emitting diodes body unit 200, for example, first light-emittingdiode 202 can send HONGGUANG, and the second light-emittingdiode then can send green glow.Wherein the first light-emittingdiode 202 and the second light-emittingdiode 204 can in same encapsulation, it is also possible to be two different individual packages.And the first light-emittingdiode 202 and the second light-emittingdiode 204 can be just connecing (the first light-emittingdiode 202 positive pole and the second light-emittingdiode 204 positive pole connect) or reversal connection (the first light-emittingdiode 202 positive pole and the second light-emittingdiode 204 negative pole connect) time in same encapsulation, control element 22, motion sensor 220, storing media 222 and the processing unit 224 of this specific embodiment are substantially the same with the corresponding unit of a upper specific embodiment, therefore repeat no more in this.

In this specific embodiment, motion sensor 220 equally can the kinestate of measurement control element 22 export kinematic parameter, processing unit 224 then comparison kinematic parameter and kinematic parameter threshold value, and it is luminous with a kind of light-emitting mode stored in storing media 222 to control light emitting device group 20 according to comparison result.In this, light-emitting mode, except the luminous pattern comprising above-mentioned flicker, also can comprise the luminous pattern of different colours.For example, multiple light-emitting modes stored by storing media 222 can comprise the 3rd light-emitting mode and the 4th light-emitting mode, wherein the 3rd light-emitting mode is the first light-emittingdiode 202 luminescence of each light-emitting diodes body unit 200, and the second light-emittingdiode 204 that the 4th light-emitting mode is each light-emitting diodes body unit 200 is luminous.When kinematic parameter exceedes kinematic parameter threshold value, control element 22 and control light emitting device group 20 with the 3rd light-emitting mode luminescence, otherwise it is luminous with the 4th light-emitting mode then to control light emitting device group 20.In other words, when the Wearable article that wearer wearing is provided with light-emitting device 2 carries out road-work, if the frequency that speed swings more than a specific speed or trick is more than a characteristic frequency, controls element 22 and control the first light-emittingdiode 202 of each light-emitting diodes body unit 200 and send HONGGUANG；If the frequency that speed swings less than specific speed or trick is less than characteristic frequency, controls element 22 and control the second light-emittingdiode 204 of each light-emitting diodes body unit 200 and send green glow.Therefore, as long as other people one see the color of the light that light-emitting device 2 sent, can learn that the speed that wearer moves at present is higher speed or relatively low speed.

3rd light-emitting mode and the 4th light-emitting mode can be different with aforementioned flicker frequency (or flash pattern) the first light-emitting mode and the second light-emitting mode mix, such as, when the frequency that the speed of wearer swings more than a specific speed or trick is more than a characteristic frequency, controls element 2 and control the first light-emittingdiode 202 of each light-emitting diodes body unit 200 and send HONGGUANG with higher flicker frequency；When the frequency that speed swings lower than specific speed or trick is less than characteristic frequency, controls element 2 and control the second light-emittingdiode 204 of each light-emitting diodes body unit 200 and send green glow with relatively low flicker frequency.In another embodiment, when kinematic parameter exceedes kinematic parameter threshold value, control element 2 and control the first light-emittingdiode 202 of each light-emitting diodes body unit 200 with the 3rd light-emitting mode luminescence, otherwise control element 2 and control the second light-emittingdiode 204 of each light-emitting diodes body unit 200 with the 4th light-emitting mode luminescence, the flashing mode of the 3rd light-emitting mode and the 4th light-emitting mode identical or different (can be all example mutually with flashing mode, as when exceeding kinematic parameter threshold value, the first light-emittingdiode 202 of several light-emitting diodes body units 200 first dodges along sudden strain of a muscle is same again, otherwise the second light-emittingdiode 204 of several light-emitting diodes body units 200 is first along dodging again with dodging；Be not all example with flashing mode, the first light-emittingdiode 202 such as light-emitting diodes body units 200 several when exceeding kinematic parameter threshold value first glimmers along sudden strain of a muscle mode, otherwise the second light-emittingdiode 204 of several light-emitting diodes body unit 200 glimmers in same sudden strain of a muscle mode).

nullIn another specific embodiment，Controlling element 22 also can comparison movement velocity parameter and multiple movement velocity threshold value，Or comparison motion frequency parameter and multiple motion frequency threshold values are (such as the first threshold value、Second threshold value etc.)，And control the second light-emittingdiode 204 of each light-emitting diodes body unit 200 according to comparison result and send green glow with low frequency or send green glow with infra-low frequency rate，Or control the first light-emittingdiode 202 send HONGGUANG with secondary altofrequency or send HONGGUANG with altofrequency，That is，Light-emitting device 2 can according to its quantity of motion multistage produce different illumination effects，Namely the kinematic parameter of measurement and several threshold values are compared by this processing unit 224，As more luminous with the first pattern than the first low light-emitting device 2 of threshold value，Between the first threshold value and the second threshold value, light-emitting device 2 is luminous with the second pattern，During more than the second threshold value, light-emitting device 2 is then luminous with the third pattern.What is more, the first light-emittingdiode 202 and the second light-emittingdiode 204 also can be simultaneously luminous and produce light mixing effect in one of them in stage, can the luminous pattern of diversified light-emitting device 2 further.

In sum, light-emitting device of the present utility model sends the light of different pattern according to its quantity of motion, can automatically produce different visual effects.When the Wearable article that wearer wearing is provided with above-mentioned light-emitting device is moved, even if under the situation that control element cannot be assigned right instructions, light-emitting device remains to be automatically switched to required light-emitting mode, and receives good decoration or alarming effect.

Refer to Fig. 3, Fig. 3 and illustrate the schematic diagram of the Wearable article 3 according to a specific embodiment of the present utility model.As it is shown on figure 3, Wearable article 3 contains body 30 and the light-emitting device 32 being arranged on body 30.In this specific embodiment, Wearable article 3 is a sport shoes, and body 30 is then its shoe body.Light-emitting device 32 further comprises light emitting device group 320 and is electrically connected the control element 322 of light emitting device group 320, wherein light emitting device group 320 comprises at least one light-emitting component 3200, controls element 322 and then comprises motion sensor 3220, storing media 3222 and processing unit 3224.Control element 322 built-in among body 30, be therefore represented by dotted lines in figure 3.

When wearer dress this Wearable article 3 carry out various motion time, controlling element 322 can follow Wearable article 3 to move together, therefore motion sensor 3220 can sense this kinestate and export kinematic parameter, then control at least one kinematic parameter threshold value that element 322 comparison kinematic parameter is stored with storing media 3222, and the output control light emitting device group 320 according to comparison is come luminous according to the one in multiple light-emitting modes stored in storing media 3222.Therefore, even if control element 322 is not assigned instruction by wearer, light-emitting device 32 can also be automatically switched to required light-emitting mode, and receives good decoration or alarming effect.

In this specific embodiment, Wearable article system is sport shoes, but in practice, Wearable article can be any object being available for dressing or wearing such as clothes, trousers, overcoat, medicated cap, knapsack, purse, school bag, is not limited to sport shoes.Refer to Fig. 4, Fig. 4 and illustrate the schematic diagram of the Wearable article 4 according to another specific embodiment of the present utility model.As shown in Figure 4, Wearable article 4 is jacket, and light-emitting device 42 is arranged in coat body 40, and comprises light emitting device group 420 and control element 422.Light emitting device group 420 comprises at least one light-emitting component 4200, controls element 422 and then comprises motion sensor 4220, storing media 4222 and processing unit 4224.Such as an ibid specific embodiment, when wearer is dressed this jacket and carries out various motion, controlling element 422 can follow Wearable article 4 to move together, therefore motion sensor 4220 can sense this kinestate and export kinematic parameter, then control at least one kinematic parameter threshold value that element 422 comparison kinematic parameter is stored with storing media 4222, and the output control light emitting device group 420 according to comparison is come luminous according to the one in multiple light-emitting modes stored in storing media 4222.

Compared to prior art, light-emitting device that this utility model is proposed and Wearable article, when clearly can cannot assign instruction wearer motion, still required light-emitting mode can be automatically switched to according to quantity of motion, and then receive correct and good decoration and alarming effect, the problem solving prior art.

By the above detailed description of preferred embodiments, it would be desirable to clearly describe feature of the present utility model and spirit, and not with above-mentioned disclosed preferred embodiment, category of the present utility model is any limitation as.On the contrary, its objective is that this utility model that is arranged in wishing to contain various change and tool equality is intended in the category of the scope of the claims of application.Therefore, the category of the scope of the claims that this utility model is applied for should illustrate, according to above-mentioned, the explanation that work is the broadest, to cause it to contain all possible change and the arrangement of tool equality.

Claims (18)

1. a light-emitting device, it is characterised in that comprise:

One light emitting device group；And

One controls element, be electrically connected this light emitting device group, kinestate that this control element comprises this control element of a sensing and export a kinematic parameter motion sensor, store the storing media of multiple light-emitting mode and one first threshold value and electrically connect kinematic parameter that this motion sensor and this storing media and this motion sensor of comparison export whether more than the processing unit of this first threshold value stored by this storing media thus this control element optionally drives this light emitting device group luminous with the one in multiple light-emitting modes according to this processing unit comparison result.

2. light-emitting device as claimed in claim 1, it is characterised in that this motion sensor is a speed sensor and this kinematic parameter is a speed parameter, or this motion sensor is a speed sensor and this kinematic parameter is an acceleration parameter.

3. light-emitting device as claimed in claim 1, it is characterised in that this motion sensor is a Vibration induction element, and this kinematic parameter is a vibration frequency parameter.

4. light-emitting device as claimed in claim 1, it is characterized in that, this light emitting device group comprises at least one light-emitting component, and such light-emitting mode comprises one first light-emitting mode and one second light-emitting mode, wherein this this at least one light-emitting component of the first light-emitting mode system glimmers with one first flicker frequency, this this at least one light-emitting component of the second light-emitting mode system glimmers with one second flicker frequency, this first flicker frequency is more than this second flicker frequency, and this kind of this at least one light-emitting component that controls when this kinematic parameter is more than this motion threshold value of control element system with this first light-emitting mode luminescence and controls this at least one light-emitting component control element with this second light-emitting mode luminescence when this kinematic parameter is less than this motion threshold value.

null5. light-emitting device as claimed in claim 1，It is characterized in that，This light emitting device group comprises several light-emitting diodes body unit，Each light-emitting diodes body unit comprises one first light-emittingdiode and one second light-emittingdiode of the light that can send different colours，Such light-emitting mode comprises one the 3rd light-emitting mode and one the 4th light-emitting mode，This first light-emittingdiode of these several light-emitting diodes body units of 3rd light-emitting mode system is flashing mode luminous with the 3rd，This second light-emittingdiode of these several light-emitting diodes body units of 4th light-emitting mode system is flashing mode luminous with the 4th，Wherein these a kind of these several light-emitting diodes body units that control when this kinematic parameter is more than this motion threshold value of control element system with the 3rd light-emitting mode luminescence and control this at least one light-emitting diodes body unit control element with the 4th light-emitting mode luminescence when this kinematic parameter is less than this motion threshold value.

6. light-emitting device as claimed in claim 5, it is characterised in that the control element that this kind of this first light-emittingdiode controlling these several light-emitting diodes body units when this kinematic parameter is more than this motion threshold value of control element system glimmers with sudden strain of a muscle mode after dodging so that elder generation is suitable.

7. light-emitting device as claimed in claim 5, it is characterised in that this control element system is a kind of controls this first light-emittingdiodes of this several light-emitting diodes body units with along the control element dodged or glimmer with sudden strain of a muscle mode when this kinematic parameter is more than this motion threshold value.

8. light-emitting device as claimed in claim 5, it is characterised in that this first light-emittingdiode and this second light-emittingdiode of each light-emitting diodes body unit lie in same encapsulation, and this first light-emittingdiode and this second light-emitting diodes system reversal connection.

9. a light-emitting device, it is characterised in that comprise:

One light emitting device group；And

One controls element, is electrically connected this light emitting device group, and this control element comprises:

One kinestate sensing this control element also exports the motion sensor of a kinematic parameter；

Store the storing media of multiple light-emitting mode, one first threshold value and one second threshold value and this second threshold value more than this first threshold value；And

Electrically connect processing unit that this motion sensor and this storing media and the kinematic parameter that exported by this motion sensor and this first threshold value stored by this storing media and this second threshold value compare thus this control element optionally drives this light emitting device group luminous with the one in multiple light-emitting modes according to the comparison result of this processing unit.

10. the Wearable article having lighting function, it is characterised in that comprise:

One body；And

One light-emitting device, is arranged on this body, and this light-emitting device comprises:

One light emitting device group；And

One controls element, be electrically connected this light emitting device group, kinestate that this control element comprises this control element of a sensing and export a kinematic parameter motion sensor, store the storing media of multiple light-emitting mode and one first threshold value and electrically connect kinematic parameter that this motion sensor and this storing media and this motion sensor of comparison export whether more than the processing unit of this first threshold value stored by this storing media thus this control element optionally drives this light emitting device group luminous with the one in multiple light-emitting modes according to the comparison result of this processing unit.

11. Wearable article as claimed in claim 10, it is characterised in that this motion sensor is a speed sensor and this kinematic parameter is a speed parameter, or this motion sensor is a speed sensor and this kinematic parameter is an acceleration parameter.

12. Wearable article as claimed in claim 10, it is characterised in that this motion sensor is a Vibration induction element, and this kinematic parameter is a vibration frequency parameter.

13. Wearable article as claimed in claim 10, it is characterized in that, this light emitting device group comprises at least one light-emitting component, and such light-emitting mode comprises one first light-emitting mode and one second light-emitting mode, wherein this this at least one light-emitting component of the first light-emitting mode system glimmers with one first flicker frequency, this this at least one light-emitting component of the second light-emitting mode system glimmers with one second flicker frequency, this first flicker frequency is more than this second flicker frequency, and this kind of this at least one light-emitting component that controls when this kinematic parameter is more than this motion threshold value of control element system with this first light-emitting mode luminescence and controls this at least one light-emitting component control element with this second light-emitting mode luminescence when this kinematic parameter is less than this motion threshold value.

null14. Wearable article as claimed in claim 10，It is characterized in that，This light emitting device group comprises several light-emitting diodes body unit，Each light-emitting diodes body unit comprises one first light-emittingdiode and one second light-emittingdiode of the light that can send different colours，Such light-emitting mode comprises one the 3rd light-emitting mode and one the 4th light-emitting mode，This first light-emittingdiode of these several light-emitting diodes body units of 3rd light-emitting mode system is flashing mode luminous with the 3rd，This second light-emittingdiode of these several light-emitting diodes body units of 4th light-emitting mode system is flashing mode luminous with the 4th，Wherein these a kind of these several light-emitting diodes body units that control when this kinematic parameter is more than this motion threshold value of control element system with the 3rd light-emitting mode luminescence and control this at least one light-emitting diodes body unit control element with the 4th light-emitting mode luminescence when this kinematic parameter is less than this motion threshold value.

15. Wearable article as claimed in claim 14, it is characterized in that, the control element that this kind of this first light-emittingdiode controlling these several light-emitting diodes body units when this kinematic parameter is more than this motion threshold value of control element system glimmers with sudden strain of a muscle mode after dodging so that elder generation is suitable.

16. Wearable article as claimed in claim 14, it is characterized in that, this control element system is a kind of controls this first light-emittingdiodes of this several light-emitting diodes body units with along the control element dodged or glimmer with sudden strain of a muscle mode when this kinematic parameter is more than this motion threshold value.

17. Wearable article as claimed in claim 14, it is characterised in that this first light-emittingdiode and this second light-emittingdiode of each light-emitting diodes body unit lie in same encapsulation, and this first light-emittingdiode and this second light-emitting diodes system reversal connection.

18. the Wearable article having lighting function, it is characterised in that comprise:

One body；And

One light-emitting device, is arranged on this body, and this light-emitting device comprises:

One light emitting device group；And

One controls element, is electrically connected this light emitting device group, and this control element comprises:

One kinestate sensing this control element also exports the motion sensor of a kinematic parameter；

Store the storing media of multiple light-emitting mode, one first threshold value and one second threshold value and this second threshold value more than this first threshold value；And

Electrically connect processing unit that this motion sensor and this storing media and the kinematic parameter that exported by this motion sensor and this first threshold value stored by this storing media and this second threshold value compare thus this control element optionally drives this light emitting device group luminous with the one in multiple light-emitting modes according to the comparison result of this processing unit.