CN203120212U - Circuit device - Google Patents

Abstract

The utility model discloses a circuit device which can be embedded into an article. The circuit device comprises a sensor, a controller and a lighting element. The sensor is used for sensing action of the article and generating a triggering signal. The controller can receive the triggering signal and further comprises a counting unit for computing the number of times of received triggering signals. Furthermore, the controller can generate a control signal according to the number of times of the received triggering signal. The lighting element can emit light according to the control signal. The color and twinkling mode of the light correspond with the number of times of the received triggering signals.

Description

Circuit arrangement

Technical field

The utility model is about a kind of circuit arrangement and wearable object, and especially, about a kind of wearable object that can change the circuit arrangement of light-emitting mode and use this circuit arrangement according to triggering times.

Background technology

The not enough extremely unfavorable nocturnalism of illumination, and be easy to generate problems such as being difficult for identification or fail safe.People jogged or may be because not enough illumination and by Vehicular impact by bike the time at night.In addition, during as if the street lamp luminance shortage, may just can't carry out ball game in open place at night.Therefore, development can improve nocturnalism safety, and the device that nocturnalism can be carried out smoothly has its necessity.

Because above-mentioned safety is considered, multiple footwear with light-emitting component have been asked the city.This kind footwear generally include light source at least, and (Light-emitting diode LED), electric power source, as battery, and switch (Switch), in order to this battery is connected to this light source, triggers this light source luminescent with guiding electric power as light-emitting diode.Except shoes, for example wearable objects such as knapsack, cap, the arm collar, footmuff ring all can comprise the above-mentioned luminous device that is used for, and can send the light source of different flashing modes when making wearer dress these objects.

Because aforementioned light-emitting device can send light source by the mode of flicker, so its purposes has been not limited to simple illumination, and can be as decorating or the caution effect.In prior art, the color of the light source that the light-emitting device in the wearable object sends and flashing mode are fixed.For example, a sport footwear can arrange a plurality of light-emitting diodes thereon, and wearer is when dressing this sport footwear and running, and it is luminous and produce fixing color and flashing mode in regular turn that the light-emitting device in the sport footwear is controlled these light-emitting diodes.Yet the visual effect that the wearable thing of this kind constant color and flashing mode causes flows in standard, make us easily being weary of, in addition, more because the interactive function of its shortcoming makes the consumer lose the desire of buying gradually.

Summary of the invention

Therefore, a purpose of the present utility model is, a kind of circuit arrangement of novelty is provided, and to solve the problem of prior art, it can change color even flashing mode according to the action frequency of object, and diversified visual effect can be provided.

Circuit arrangement of the present utility model, it comprises: a sensor, in order to the action of sensing one object and produce a triggering signal according to this; One controller electrically connects this sensor to receive this triggering signal, and this controller comprises a counting unit, receives the number of times of this triggering signal in order to calculating, and this controller can produce a corresponding control signal that receives the number of times of this triggering signal; And a light-emitting component, electrically connecting this controller to receive this control signal, this light-emitting component is luminous according to this control signal, and luminous color and luminous flashing mode correspondence receive the number of times of this triggering signal.

Wherein, when this counting unit calculates the number of times that receives this triggering signal and is lower than a predetermined value, this controller produces this control signal to control this light-emitting component with one first colour light emitting, when this counting unit calculated the number of times that receives this triggering signal and is higher than this predetermined value, this controller produced this control signal to control this light-emitting component with one second colour light emitting.

Wherein, this light-emitting component has the led chip of a plurality of first colors and the led chip of a plurality of second colors, when this counting unit calculates the number of times that receives this triggering signal and is lower than this predetermined value, it is luminous in regular turn with this first color that this controller is controlled the led chip of these a plurality of first colors, and when this counting unit calculated the number of times that receives this triggering signal and is higher than this predetermined value, it is luminous in regular turn with this second color that this controller is controlled the led chip of these a plurality of second colors.

Wherein, when this counting unit calculated the number of times that receives this triggering signal and equals this predetermined value, the led chip that this controller is controlled these a plurality of first colors was once luminous or for several times simultaneously.

Perhaps, when this counting unit calculated the number of times that receives this triggering signal and equals this predetermined value, this controller was controlled the led chip of these a plurality of first colors, and luminous back is luminous in regular turn after luminous or simultaneously luminous earlier simultaneously in regular turn earlier.

Wherein, this light-emitting component has the led chip of a plurality of first colors and the led chip of a plurality of second colors, when this light-emitting component during for the first time with first colour light emitting, earlier luminous back is luminous in regular turn after luminous or simultaneously luminous earlier simultaneously in regular turn for the led chip that this controller is controlled these a plurality of first colors, and when this light-emitting component during for the first time with second colour light emitting, luminous back is luminous in regular turn after luminous or simultaneously luminous earlier simultaneously in regular turn earlier for the led chip that this controller is controlled these a plurality of second colors.

Wherein, this light-emitting component has the led chip of a plurality of first colors and the led chip of a plurality of second colors, when this light-emitting component during for the first time with second colour light emitting, the flashing mode of the led chip of these a plurality of second colors, the flashing mode of the led chip of these a plurality of first colors is inequality during with first colour light emitting with a preceding light-emitting component.

In the described circuit arrangement, this light-emitting component can further comprise: a plurality of luminescence units, and comprise a packaging body respectively and be arranged at one first luminous element in this packaging body, this first luminous physical efficiency is sent the light source with one first color.

Wherein, these luminescence units comprise respectively: one second luminous element, be arranged in this packaging body, and this second luminous physical efficiency is sent the light source with one second color.

Wherein, this first luminous element is one first light-emitting diode, and this second luminous element is one second light-emitting diode, and this first light-emitting diode and this second light-emitting diode carry out parallel connection in the mode that positive pole connects negative pole mutually.

Described circuit arrangement, can further comprise a storage unit and electrically connect this controller, store the number of times and the color of light source that this light-emitting component sends and the corresponding relation between flashing mode receive this triggering signal in this storage unit, and this controller produces this control signal according to number of times and this corresponding relation of received this triggering signal.

The beneficial effects of the utility model are as follows:

According to a specific embodiment, circuit arrangement of the present utility model can be embedded in the object, comprises sensor, controller and light-emitting component, and wherein, controller electrically connects sensor, and light-emitting component electrically connects controller.Sensor can be used to the action of sensing article, and produces triggering signal accordingly, and controller then can receive triggering signal.In addition, controller further comprises counting unit, is used for the number of times of the triggering signal that computing controller receives, and controller can produce corresponding control signal according to the number of times that receives triggering signal.Light-emitting component can receive the control signal that controller produces, and sends light source accordingly, and the number of times of the received triggering signal of the corresponding controller of the color of this light source and flashing mode.

In this specific embodiment, if counting unit calculates number of times that controller receives triggering signal when being lower than a predetermined value, controller can be controlled luminescence unit and send the light source with first color; If counting unit calculates number of times that controller receives triggering signal when being higher than this predetermined value, controller can be controlled luminescence unit and send the light source with second color.Therefore, the circuit arrangement of this specific embodiment can change color even flashing mode according to the action frequency of object, and diversified visual effect can be provided.

According to another specific embodiment, wearable object of the present utility model is available for users to dress, and it comprises sensor, controller and light-emitting component, and wherein, controller electrically connects sensor, and light-emitting component electrically connects controller.Sensor can be used to the action of the wearable object of sensing, and produces triggering signal accordingly, and controller then can receive triggering signal.Controller further comprises counting unit, be used for computing controller to receive the number of times of triggering signal, and controller can produce corresponding control signal according to the number of times of the triggering signal that receives.Light-emitting component can receive the control signal that controller produces, and sends light source accordingly, and the number of times of the received triggering signal of the corresponding controller of the color of this light source and flashing mode.

In this specific embodiment, if counting unit calculates number of times that controller receives triggering signal when being lower than a predetermined value, controller can be controlled luminescence unit and send the light source with first color; If counting unit calculates number of times that controller receives triggering signal when being higher than this predetermined value, controller can be controlled luminescence unit and send the light source with second color.Therefore, the wearable object of this specific embodiment, it can change color even flashing mode according to the action frequency of wearable object, and diversified visual effect can be provided.

Can describe in detail and appended graphic being further understood by following creation about advantage of the present utility model and spirit.

Description of drawings

Fig. 1: illustrate the functional block diagram according to the wearable object of a specific embodiment of the present utility model.

Fig. 2 A: the structural representation that illustrates the light-emitting component of Fig. 1.

Fig. 2 B: illustrate the structural representation according to the light-emitting component of another specific embodiment of the present utility model.

Fig. 2 C: the luminescence unit that illustrates Fig. 2 B is connected to the schematic diagram of controller.

Fig. 2 D: illustrate the schematic diagram that is connected to controller according to the luminescence unit of another specific embodiment.

Fig. 2 E: the circuit diagram that illustrates the luminescence unit of Fig. 2 D.

Fig. 3 A: illustrate the schematic diagram according to the light-emitting component of another specific embodiment of the utility model.

Fig. 3 B: illustrate the number of times of the corresponding received triggering signal of light-emitting component of Fig. 3 A and the light source sequences schematic diagram that sends.

Fig. 3 C: the schematic diagram that illustrates the light source sequences that the number of times according to the corresponding received triggering signal of the light-emitting component of another specific embodiment of the present utility model sends.

Embodiment

For making the utility model can clearer being illustrated, please refer to that following the utility model describes in detail and wherein included example can more easily understand the utility model.This specification is only made statement to necessary element of the present utility model, and specification only is used for a wherein possible example of explanation the utility model, yet the record of this specification should not limit the interest field of the technological essence that the utility model advocates.Unless get rid of its possibility clearly in specification, otherwise the utility model is not limited to ad hoc structure, material, function or means.Also should be appreciated that present possible embodiment during described only example the utility model can use any method, material, element, device or the means similar or equivalent with described method and material in practice of the present utility model or test.Moreover graphic it is only for reference that it paints the ratio of stating structure only for expressing spirit of the present utility model, and the user must be according to the common knowledge that belongs to technical field to amplify or to reduce to reach the described effect of this specification with the ratio of each structural detail freely.

In addition, unless otherwise defined, otherwise used all technology of this specification and scientific terminology all have and have the knack of the utility model and belong to the operator and understand the identical meaning of meaning usually.Although can use any method and the material similar or equivalent with the described method of they and material in practice of the present utility model or test, at present described is case method and material, and this method and example are only for reference.

See also Fig. 1, Fig. 1 illustrates the functional block diagram according to the wearable object 1 of a specific embodiment of the present utility model.As shown in Figure 1, comprise circuit arrangement 10 in the wearable object 1, and circuit arrangement 10 further comprises sensor 100, controller 102 and light-emitting component 104.Sensor 100 electrically connects with controller 102, and light-emitting component 104 electrically connects with controller 102.The wearable object 1 of this specific embodiment can be shoes, cap, knapsack, the arm collar or footmuff ring etc. in practice, can be for the user in moving or dressing during other similar stress-relieving activities.

Sensor 100 can be used to the action of the wearable object 1 of sensing, because wearable object 1 can be dressed by the user, therefore when the user moved, wearable object 1 can carry out the difference action thereupon.For example, be shoes as if wearable object, when user's walking, when running or jumping, shoes also can and be out of shape by user's pin and ground extruding along with user's pin moves.Similarly, if wearable object is capful or knapsack, also can be mobile together along with the motion of user's health.

When sensor 100 senses the action of wearable object 1, namely produce triggering signal one time.For example, if sensor 100 is a vibrations sensor, its once vibrations that sense wearable object 1 just produce triggering signal one time, and therefore, when user's persistent movement, sensor 100 can a plurality of triggering signals of output.In another specific embodiment, wearable object is shoes, and sensor can be the pedometer that is arranged in the shoes, whenever the capable pedometer that makes a move of user namely produces triggering signal one time.

Controller 102 electrically connects to receive the triggering signal that sensor 100 produces with sensor 100.Controller 102 further comprises counting unit 1020, and whenever controller 102 receives triggering signal one time, counting unit 1020 namely adds up and receives the number of times of triggering signal.Controller 102 can produce control signal, and control signal corresponds to counting unit 1020 number of times that receives triggering signal that calculates.In detail, controller 102 can produce control signal for the first time when receiving triggering signal for the first time, its corresponding number of times that receives triggering signal is " 1 ", then, controller 102 can produce control signal for the second time again when receiving triggering signal for the second time, its corresponding number of times that receives triggering signal is " 2 ", and below the rest may be inferred.

Light-emitting component 104 is electrically connected to controller 102, receives control signal with self-controller 102.Light-emitting component 104 can send the light source with particular color and flashing mode according to control signal, because control signal is the number of times that corresponding controller 102 receives triggering signal, so the color of light source and the same corresponding controller 102 of flashing mode receive the number of times of triggering signal.For example, when receiving triggering signal for the first time, controller 102 outputs control signals to light-emitting component 104 and makes light-emitting component 104 to send to have the light source of first color and first flashing mode, and when receiving triggering signal for the second time, controller 102 outputs control signals to light-emitting component 104 and makes light-emitting component 104 to send to have the light source of second color and second flashing mode.

In another specific embodiment, circuit arrangement also can further comprise the storage unit that electrically connects with controller, can in this storage unit, but be not limited to, the mode of the table of comparisons stores the color of the number of times that receives triggering signal and light source that light-emitting component sends and the corresponding relation between flashing mode.Controller is according to the number of times of received triggering signal, and the table of comparisons in the comparison storage unit can learn that corresponding triggering signal this time should control the light source that light-emitting component sends which kind of color or flashing mode, and produces control signal according to this.Therefore, light-emitting component 104 can be directly luminous according to its indication after receiving control signal.

See also Fig. 2 A and Fig. 2 B, Fig. 2 A illustrates the structural representation of the light-emitting component 104 of Fig. 1, and Fig. 2 B then illustrates the structural representation according to the light-emitting component 204 of another specific embodiment of the present utility model.Shown in Fig. 2 A, light-emitting component 104 comprises a plurality of luminescence units 1040, and 1040 of each luminescence units can comprise packaging body 1042 and be arranged at first luminous element 1044 or second luminous element 1046 in the packaging body, for example, and light-emitting diode.In Fig. 2 A, first luminous element 1044 that arranges in three luminescence units of left 1040 can send the light (as ruddiness) of first color, and second luminous element 1046 that arranges in right-hand three luminescence units 1040 then can send the light (as blue light) of second color.In addition, shown in Fig. 2 B, a plurality of luminescence units 2040 of light-emitting component 204 comprise packaging body 2042 respectively, can send first luminous element 2044 of light of first color and second luminous element 2046 that can send the light of second color.Above-mentioned light-emitting component 104,204 also includes battery and lead in order to each luminescence unit 1040 or 2040 power supplies, but for drawing for purpose of brevity, Fig. 2 A and Fig. 2 B have omitted the sign of battery and lead.As mentioned above, light-emitting component 104,204 all comprises a plurality of luminescence units, and the luminous element that comprises at least a color in each luminescence unit, so by the effect that makes each luminescence unit luminous, can reach the light source that sends particular color combination and flashing mode in regular turn.

First luminous element 1044 of the luminescence unit 1040 among Fig. 2 A or second luminous element 1046 can be light-emitting diode (being led chip), and therefore first luminous element 1044 and second luminous element 1046 all comprise electrode input end and negative input.In practice, can comprise two leads again in the lead of the connection luminescence unit 1040 of Fig. 2 A, it is connected to the both positive and negative polarity input of first luminous element 1044 or second luminous element 1046 respectively, so that luminous required positive back bias voltage is provided to first luminous element 1044 or second luminous element 1046.

First luminous element 2044 and second luminous element 2046 in the luminescence unit 2040 among Fig. 2 B also can be light-emitting diode, and therefore first luminous element 2044 and second luminous element 2046 all comprise electrode input end and negative input.See also Fig. 2 C, the luminescence unit 2040 that Fig. 2 C illustrates Fig. 2 B is connected to the schematic diagram of controller 202.Shown in Fig. 2 C, luminescence unit 2040 is connected to controller 202 by three leads 2060,2062,2064, note that these three leads also can be coated by a rectangular thread like body, and present luminescence unit 2040 among Fig. 2 B is connected to controller 202 with a connecting line sample attitude.Lead 2060 and lead 2062 are connected to positive pole and the negative pole of first luminous element 2044 respectively, and lead 2064 and lead 2062 are connected to positive pole and the negative pole of second luminous element 2046 respectively, therefore, controller 202 can be controlled first luminous element 2044 respectively and second luminous element 2046 is luminous by these three leads.

See also Fig. 2 D and Fig. 2 E, Fig. 2 D illustrates the schematic diagram that is connected to controller 202 according to the luminescence unit 2040 of another specific embodiment, and Fig. 2 E illustrates the circuit diagram of the luminescence unit 2040 of Fig. 2 D.Shown in Fig. 2 D and Fig. 2 E, luminescence unit 2040 is connected to controller 202 by two leads 2060 ' and 2062 ', wherein lead 2060 ' is connected with the positive pole of first luminous element 2044 and is connected with the negative pole of second luminous element 2046, and lead 2062 ' is connected with the negative pole of first luminous element 2044 and is connected with the positive pole of second luminous element 2046.In other words, first luminous element 2044 and second luminous element 2046 carry out parallel connection in the mode that positive pole connects negative pole.

In this specific embodiment, when controller 202 is imported back bias voltage (or ground connection) by lead 2060 ' input positive bias and by lead 2062 ', electric current first luminous element 2044 of flowing through makes the luminous element 2044 of winning send the light source of first color, and this moment, 2046 of second luminous elements presented off state and can be not luminous.Relatively, when controller 202 is imported positive bias by lead 2060 ' input back bias voltage (or ground connection) and by lead 2062 ', electric current second luminous element 2046 of flowing through makes second luminous element 2046 send the light source of second color, and this moment, 2044 of first luminous elements presented off state and can be not luminous.Therefore, can to control first luminous element 2044 and second luminous element 2046 of luminescence unit 2040 respectively by these two leads luminous for this specific embodiment middle controller 202.

In above-mentioned each specific embodiment, when the user dresses wearable object 1 and moves, but the action of the wearable object 1 of sensor 100 sensings of circuit arrangement 10 and export triggering signal continuously, 102 of controllers are with the number of times control light-emitting component 104 that receives triggering signal luminous color and flashing mode.Therefore, wearable object 1 can change the visual effect of its light source that sends according to the moving situation of user's motion, carries out interactive function so can reach with the user.

In practice, can set a predetermined value in the controller, and when its number of times that receives triggering signal surpassed this predetermined value, the control courier that controller changes output got the light source that light-emitting component sends different colours or flashing mode.See also Fig. 3 A and Fig. 3 B, Fig. 3 A illustrates the schematic diagram according to the light-emitting component 3 of another specific embodiment of the utility model, and Fig. 3 B then illustrates the number of times of light-emitting component 3 corresponding received triggering signals of Fig. 3 A and the schematic diagram of the light source sequences sent.As shown in Figure 3A, the detailed construction of light-emitting component 3 is identical substantially with the light-emitting component 104 of Fig. 2 A, repeats no more in this.Each luminescence unit of light-emitting component 3 is denoted as 30,32,34,30 ', 32 ' and 34 ' from left to right respectively, wherein luminescence unit 30,32,34 can produce the light source (for example green glow) of first color respectively, and luminescence unit 30 ', 32 ', 34 ' can produce the light source (for example ruddiness or gold-tinted) of second color respectively.The light-emitting component 3 of this specific embodiment is arranged in the circuit arrangement of above-mentioned specific embodiment equally and electrically connects controller, repeats no more in this.

It is N that controller can be set its predetermined value, and N is 6 in this specific embodiment, yet in the practice, N can be any positive integer more than or equal to 2.Shown in Fig. 3 A and Fig. 3 B, when the number of times that receives triggering signal when controller is less than 6, the luminescence unit 30,32 of light- emitting component 3,34 is controlled at every turn when receiving triggering signal and is luminous in regular turn, in other words, controller control light-emitting component 3 when receiving preceding 5 triggering signals sends light source with first color (as green) and first kind of flashing mode (as in regular turn along dodging).On the other hand, the number of times that receives triggering signal when controller is greater than 6 the time, the luminescence unit 30 ', 32 ' of light-emitting component 3,34 ' is controlled at every turn when receiving triggering signal and is luminous in regular turn, in other words, controller control light-emitting component 3 when receiving the 7th～11 triggering signal sends light source with second color (as redness) and first kind of flashing mode (as in regular turn along dodging).

When light-emitting component 3 will switch the color of the light source that sends or flashing mode, can change light source in advance and reach the early warning effect.Shown in Fig. 3 B, when controller receives the 6th time triggering signal, can control light-emitting component 3 and send light source (as flicker simultaneously with first color (as green) and second flashing mode, for example luminescence unit 30,32,34 simultaneously each luminous twice or repeatedly), by this, user or onlooker can be informed in advance light-emitting component 3 color or flashing mode with light source that conversion is sent when triggering next time.

Continue and trigger for above-mentioned the 11st time, when controller receives the 12nd time triggering signal, can control light-emitting component 3 and send light source (as flicker simultaneously with second color (as redness) and second flashing mode, luminescence unit 30 ', 32 ', 34 ' simultaneously each luminous twice or repeatedly), follow again, when controller receives the 13rd time triggering signal, can get back to A-stage (that is, trigger according to the 1st time for the 13rd time and trigger, below the rest may be inferred), or glisten (this moment, light-emitting component 3 can comprise led color more than three kinds) with the third color in addition.In another specific embodiment, controller also can be controlled light-emitting component 3 and send light source with first color or second color and one the 3rd flashing mode, for example, it is luminous in regular turn that controller is controlled the luminescence unit 34,32,30 of light-emitting component 3 when receiving the 13rd triggering signal.What is more, in another specific embodiment, light-emitting component also can comprise one group of luminescence unit that can send the light source of the 3rd color.By this group luminescence unit, make the light-emitting component can be in regular turn or send three kinds of light sources of different colors simultaneously, arrange in pairs or groups above-mentioned sensor and controller can make circuit arrangement reach more diversified visual effect in response to user's motion state, also can strengthen and the user between interaction.

In a last specific embodiment, controller control light-emitting component is with simultaneously luminous twice or repeatedly mode, and the advance notice user triggers next time and will change its glow color or flashing mode, yet the utility model is not as limit.For example, in another specific embodiment, above-mentioned controller is when receiving the 6th triggering signal, the luminescence unit 30,32,34 that can control light-emitting component 3 in regular turn luminous one or repeatedly more simultaneously luminous one or repeatedly (perhaps earlier simultaneously luminous one or repeatedly after, in regular turn luminous one or repeatedly), make the user can learn more clearly that will change glow color or flashing mode when triggering next time.

Except being about to change the luminous sample attitude with special illumination mode indication user when once triggering preceding, controller also can be controlled light-emitting component and inform the ensuing luminous sample attitude of user with special illumination mode in when time triggering the time.See also Fig. 3 A and Fig. 3 C, Fig. 3 C illustrates the schematic diagram of the light source sequences that the number of times according to the light-emitting component 3 corresponding received triggering signals of another specific embodiment of the present utility model sends.Shown in Fig. 3 C, this specific embodiment does not exist together with above-mentioned specific embodiment, the controller that is this specific embodiment when receiving the 1st triggering signal, control luminescence unit 30,32,34 (first color) earlier in regular turn once luminous or for several times after more simultaneously once luminous or for several times (also can be earlier simultaneously luminous one or repeatedly after, in regular turn luminous one or repeatedly), can indicate that the ensuing each triggering of user all sends the light source of first color, and its flashing mode is that luminescence unit 30,32,34 is luminous in regular turn.Similarly, controller when receiving the 7th triggering signal, can control luminescence unit 30 ', 32 ', 34 ' (second color) earlier in regular turn once luminous or for several times after more simultaneously once luminous or for several times (also can be earlier simultaneously luminous one or repeatedly after, in regular turn luminous one or repeatedly), can indicating that the ensuing each triggering of user all sends the light source of second color, and its flashing mode is that luminescence unit 30 ', 32 ', 34 ' is luminous in regular turn.

In the above-mentioned specific embodiment, the number of times of corresponding received triggering signal is controlled the method for glow color or flashing mode, also can be performed in the light-emitting component 204 as Fig. 2 B～Fig. 2 D.In other words, the luminescence unit 30,32 in the last specific embodiment, 34 can correspond to each first luminous element 2044 of light-emitting component 204 respectively, and luminescence unit 30 ', 32 ', 34 ' can correspond to each second luminous element 2046 of light-emitting component 204 respectively.

In the above-mentioned specific embodiment, light-emitting component has the led chip of a plurality of first colors and the led chip of a plurality of second colors, and the flashing mode of light-emitting component led chip of these a plurality of second colors during for the first time with second colour light emitting, the flashing mode of the led chip of these a plurality of first colors is inequality during with first colour light emitting with a preceding light-emitting component.

In sum, circuit arrangement of the present utility model can be installed in the wearable object, and wearable object is available for users to dress to move, and wherein, circuit arrangement comprises sensor, controller and light-emitting component.Sensor in the circuit arrangement can the wearable object of sensing action, and produce triggering signal according to this, color and the flashing mode of the light source that controller then can send according to the number of times control light-emitting component that receives triggering signal.Compared to prior art, circuit arrangement of the present utility model and wearable object can provide diversified visual effect in response to user's motion, and further produce interaction with the user.

By the above detailed description of preferred embodiments, hope can be known description feature of the present utility model and spirit more, and is not to come category of the present utility model is limited with above-mentioned disclosed preferred embodiment.On the contrary, its objective is that hope can contain in the category of the claim that is arranged in the desire application of the utility model institute of various changes and tool equality.

Claims (11)

1. a circuit arrangement is characterized in that, this circuit arrangement comprises:

One sensor is in order to the action of sensing one object and produce a triggering signal according to this;

One controller electrically connects this sensor to receive this triggering signal, and this controller comprises a counting unit, receives the number of times of this triggering signal in order to calculating, and this controller can produce a corresponding control signal that receives the number of times of this triggering signal; And

One light-emitting component electrically connects this controller to receive this control signal, and this light-emitting component is luminous according to this control signal, and luminous color and luminous flashing mode correspondence receive the number of times of this triggering signal.

2. circuit arrangement as claimed in claim 1, it is characterized in that, when this counting unit calculates the number of times that receives this triggering signal and is lower than a predetermined value, this controller produces this control signal to control this light-emitting component with one first colour light emitting, when this counting unit calculated the number of times that receives this triggering signal and is higher than this predetermined value, this controller produced this control signal to control this light-emitting component with one second colour light emitting.

3. circuit arrangement as claimed in claim 2, it is characterized in that, this light-emitting component has the led chip of a plurality of first colors and the led chip of a plurality of second colors, when this counting unit calculates the number of times that receives this triggering signal and is lower than this predetermined value, it is luminous in regular turn with this first color that this controller is controlled the led chip of these a plurality of first colors, and when this counting unit calculated the number of times that receives this triggering signal and is higher than this predetermined value, it is luminous in regular turn with this second color that this controller is controlled the led chip of these a plurality of second colors.

4. circuit arrangement as claimed in claim 3 is characterized in that, when this counting unit calculated the number of times that receives this triggering signal and equals this predetermined value, the led chip that this controller is controlled these a plurality of first colors was once luminous or for several times simultaneously.

5. circuit arrangement as claimed in claim 3, it is characterized in that, when this counting unit calculated the number of times that receives this triggering signal and equals this predetermined value, this controller was controlled the led chip of these a plurality of first colors, and luminous back is luminous in regular turn after luminous or simultaneously luminous earlier simultaneously in regular turn earlier.

6. circuit arrangement as claimed in claim 2, it is characterized in that, this light-emitting component has the led chip of a plurality of first colors and the led chip of a plurality of second colors, when this light-emitting component during for the first time with first colour light emitting, earlier luminous back is luminous in regular turn after luminous or simultaneously luminous earlier simultaneously in regular turn for the led chip that this controller is controlled these a plurality of first colors, and when this light-emitting component during for the first time with second colour light emitting, luminous back is luminous in regular turn after luminous or simultaneously luminous earlier simultaneously in regular turn earlier for the led chip that this controller is controlled these a plurality of second colors.

7. circuit arrangement as claimed in claim 2, it is characterized in that, this light-emitting component has the led chip of a plurality of first colors and the led chip of a plurality of second colors, when this light-emitting component during for the first time with second colour light emitting, the flashing mode of the led chip of these a plurality of second colors, the flashing mode of the led chip of these a plurality of first colors is inequality during with first colour light emitting with a preceding light-emitting component.

8. circuit arrangement as claimed in claim 1 is characterized in that, this light-emitting component further comprises:

A plurality of luminescence units comprise a packaging body respectively and are arranged at one first luminous element in this packaging body, and this first luminous physical efficiency is sent the light source with one first color.

9. circuit arrangement as claimed in claim 8 is characterized in that, these luminescence units comprise respectively:

One second luminous element is arranged in this packaging body, and this second luminous physical efficiency is sent the light source with one second color.

10. circuit arrangement as claimed in claim 9, it is characterized in that, this first luminous element is one first light-emitting diode, and this second luminous element is one second light-emitting diode, and this first light-emitting diode and this second light-emitting diode carry out parallel connection in the mode that positive pole connects negative pole mutually.

11. circuit arrangement as claimed in claim 1, it is characterized in that, further comprise a storage unit and electrically connect this controller, store the number of times and the color of light source that this light-emitting component sends and the corresponding relation between flashing mode receive this triggering signal in this storage unit, and this controller produces this control signal according to number of times and this corresponding relation of received this triggering signal.

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