CN107303408A - Use light emitting diode and the wearable device of vibrating motor - Google Patents

Abstract

A kind of wearable device includes：First LED source, is configured to launch the first light of first wave length；Second LED source, is configured to launch the second light of second wave length；Vibrating motor；Controller, it is configured to produce the first control signal in response to the first operating control signal, when the second operating control signal of input every time, the input number of times of second operating control signal is counted to increase count value, when three operating control signal of input every time, the input number of times of 3rd operating control signal is counted to reduce count value, second control signal corresponding with count value that is increased or reducing is produced；Battery, is configured to provide operating voltage to the first LED source, the second LED source, vibrating motor and controller；First switch circuit, at least one for being configured to control in response to the first control signal in the first LED source and the second LED source is turned on and off；And second switch circuit, the second control signal is configured to adjust the number of the vibrating motor operated in vibrating motor.

Description

Use light emitting diode and the wearable device of vibrating motor

The cross reference of related application

The korean patent application 10-2016-0047139 submitted this application claims on April 18th, 2016 priority, the Shen Disclosure please is herein incorporated by quoting in full.

Technical field

The embodiment of present inventive concept is related to a kind of wearable device for being used to reduce body fat, more particularly, to One kind reduces the wearable device of body fat using light emitting diode (LED) and vibrating motor.

Background technology

Fat different from subcutaneous fat, abdominal obesity refers to assemble excessive fat around the internal in abdomen area Fat.The closer liver of fat that fat ratio in abdomen area is dispersed in body other parts, and probably influence body Body health.

The main cause of abdominal obesity is the intake of overfeeding (or calorie).Especially, excessive fat (or fat The composition of formation) intake be abdominal obesity major reason.When the carbohydrate of people's excess intake, carbohydrate It is converted into fat, and the reason for therefore carbohydrate is also abdominal obesity.

Another reason for abdominal obesity, is to lack exercise.Lacking exercise makes muscle wealmess and causes fat in belly heap Product.When the amount increase of muscle, basal metabolic rate is also improved and fat is reduced.However, for people, regular fortune It is dynamic to be not as they imagine easily.The vibration waistband for reducing abdominal obesity has been proposed.However, working as user not Motion and only vibration waistband vibrate when, user hardly consumes calorie.Therefore, vibration waistband is to reducing abdominal obesity not Effectively.

The content of the invention

Present inventive concept some embodiments provides a kind of wearable device, is sent using light emitting diode (LED) Light effectively reduces and cause the body fat of abdominal obesity, and provides the user using vibrating motor the effect of aerobic exercise Really.

According to some embodiments of inventive concept there is provided wearable device, including：First LED source, is configured as transmitting The first light with first wave length；Second LED source, is configured as second light of the transmitting with second wave length；Vibrating motor；Control Device, is configured to respond to the first operating control signal to produce the first control signal, when the second operational control of input is believed every time Number when, the input number of times of the second operating control signal is counted to increase count value, when every time input the 3rd operational control During signal, the input number of times of the 3rd operating control signal is counted to reduce count value, and produce with it is increased or subtract The second corresponding control signal of small count value；Battery, be configured as to the first LED source, the second LED source, vibrating motor and Controller provides operating voltage；First switch circuit, is configured to respond to the first control signal to control the first LED source and At least one in two LED sources is turned on and off；And second switch circuit, it is configured as adjusting based on the second control signal The number of the vibrating motor operated in whole vibrating motor.

According to the other embodiments of inventive concept there is provided wearable device, including：First LED source, is configured as transmitting The first light with first wave length；Second LED source, is configured as second light of the transmitting with second wave length；Vibrating motor；Control Device, is configured to respond to the first operating control signal and is activated, and when the second operating control signal of input every time, is grasped to second The input number of times for making control signal is counted to increase count value, when three operating control signal of input every time, to the 3rd The input number of times of operating control signal is counted to reduce count value, and is produced relative with count value that is increased or reducing The first control signal and the second control signal answered；Battery, is configured as according to the control for the controller being activated come to institute State the first LED source, second LED source and the vibrating motor and operating voltage is provided；First switch circuit, is configured to respond to The number of the LED source operated in the first LED source and the second LED source is adjusted in the first control signal；And second switch circuit, It is configured as adjusting the number of the vibrating motor operated in vibrating motor based on the second control signal.

After count value reaches the first count value, when inputting the second operating control signal to controller, controller can To keep the first count value, also, after count value reaches the second count value, believe when inputting the 3rd operational control to controller Number when, controller can keep the second count value.Now, the first count value can be more than the second count value.First LED source can be with Including infrared LED lamp, and the second LED source can include near-infrared LED lamp.

Controller can produce the first of activation in response to the first operating control signal inputted at first time point Control signal.In response to the first control signal of activation, first switch circuit can be into the first LED source and the second LED source At least one provides the first operating voltage in operating voltage.When beginning to pass through the second of predetermined time from first time point Between at point, controller automatically can deactivate the first control signal, to disconnect into the first LED source and the second LED source extremely First operating voltage of a few offer.

Brief description of the drawings

Carry out detailed illustrative embodiment by referring to accompanying drawing, the above-mentioned and other feature and advantage of present inventive concept will be more clear In Chu, accompanying drawing：

Fig. 1 is the schematic diagram of the wearable device of some embodiments according to inventive concept；

Fig. 2 is the schematic diagram for the wearable device for being worn on user's waist；

Fig. 3 is to include the electricity in the wearable device that shows in fig. 1 and 2 according to some embodiments of inventive concept The block diagram of subsystem；

Fig. 4 is the conceptual schematic view of the operation of the controller shown in Fig. 3；

Fig. 5 is to include the electricity in the wearable device that shows in fig. 1 and 2 according to the other embodiments of inventive concept The block diagram of subsystem；And

Fig. 6 is the conceptual schematic view of the operation of the controller shown in Fig. 5.

Embodiment

Now structure of the present invention is described more fully with below with regard to there is shown with the accompanying drawing of the particular embodiment of the present invention Think.However, the present invention can embody in many different forms, and it is not construed as by embodiment set forth herein Limitation.More precisely, thesing embodiments are provided so that the disclosure will be fully and completely and abundant by the scope of the present invention Convey to those skilled in the art.In the accompanying drawings for the sake of clarity, can be with amplification layer and the size and relative size in region.Pass through Accompanying drawing is worn, similar mark represents similar element.

It will be appreciated that when referring to element " connection " or " coupled " to another element, it can be directly connected to or coupling Another element is closed, or there may be element between.By contrast, when referring to element " being directly connected to " or " straight Connect coupling " arrive another element when, in the absence of element between.As used in this article, term "and/or" includes correlation One or more of project listed is then any or all combines, and can be abbreviated as "/".

It will be understood that, although term first, second etc. can be used herein to describe each element, but these elements should not It is limited by these terms.These terms are only used for making a distinction an element and another element.For example, without departing substantially from the disclosure Religious doctrine in the case of, the first signal can be referred to as secondary signal, similarly, and secondary signal can be referred to as the first signal.

Term used herein limits this hair just for the sake of the purpose of description specific embodiment without being intended to It is bright.As used in this article, singulative " one " and " described " intention also include plural form, unless context is clearly given Go out opposite instruction.It is also understood that table when term " comprising " and/or " having " and/or "comprising" are used in this manual Show in the presence of stated feature, region, integer, step, operation, element and/or part, but be not precluded from existing or add one Or other multiple features, region, integer, step, operation, element, part and/or its combination.

Unless otherwise defined, otherwise all terms (including technology and scientific terminology) used herein have belonging to the present invention The identical meaning that the those of ordinary skill in field is generally understood.It should also be understood that art of the term such as defined in common dictionary Language should be interpreted that its implication is identical with the implication in the context of correlation technique and/or the application, without that should be construed as For preferable or excessively formal implication, unless be clearly so defined herein.

Fig. 1 is the schematic diagram of the wearable device 100 according to some embodiments of inventive concept.Fig. 2 is to be worn on user The schematic diagram of the wearable device 100 of waist.

Referring to Figures 1 and 2, wearable device 100 is worn on the waist of user 50 or waist, with the body for user 50 of burning Fatty (and more specifically, stomach fat).Wearable device 100 can be referred to as waist trimmer, wearable luminotherapeutic and set Standby or wearable health care devices.Light treatment be use with for health care, beauty, anti-aging, skin nursing, fat-reducing and/or The technology of the corresponding wavelength of the specific colors of disease prevention and cure.

The body of wearable device 100 can be made up of plastic material.Control user circle of the operation of wearable device 100 Face 110 can be located at the front side 101 of wearable device 100.User interface 110 can include multiple buttons 211,213 and 215.

For example, as shown in Fig. 2 can be by manipulating or pressing second in the user 50 that waist wears wearable device 100 Button 213 controls electric power starting or the closing of wearable device 100.User 50 can also be by manipulating or pressing button 211 And/or 215 change operator scheme or state.Although for the ease of description, three buttons are shown in Fig. 2, Fig. 3 and Fig. 5 211st, 213 and 215, the number for the button that can be related to according to design specification in the operation to wearable device 100 and press The position of button carries out a variety of modifications.Reference 103 represents the waist or abdomen for wearable device 100 to be fastened on to user 50 The waistband in portion.

Fig. 3 is including in the wearable device 100 that shows in fig. 1 and 2 according to some embodiments of inventive concept Electronic system 100A block diagram.Referring to figs. 1 to Fig. 3, the electronic system 100A of wearable device 100 can include：Controller 200；User interface 110, including button 211,213 and 215；Input equipment 210；Multiple first light emitting diode (LED) sources 230；Multiple second LED sources 240；Multiple vibrating motors 251,253 and 255；Battery 280；And multiple switch SW1, SW3, SW4 And SW5.

Controller 200 can be the microprocessor, processor or center processing for all operationss for controlling electronic system 100A Unit (CPU).The operation of controller 200 by with the behaviour of each in element 210,230,240,251,253,255 and 280 Describe together.Controller 200 can receive and analyze from input equipment 210 export operating control signal PWR, BTU or BTD, and the first control signal and the second control signal can be produced according to analysis result.

The user 50 for wearing wearable device 100 in waist can use including button 211 in the user interface 110, 213 and 215 come be turned on and off wearable device 100 power supply and/or change wearable device 100 operator scheme.Operation Pattern can include：First operator scheme, LED source 230 and 240 and the and of vibrating motor 251 that LED source 230 and 240 is operated The 3rd operation that the second operator scheme and LED source 230 and 240 and vibrating motor 251,253 and 255 of 255 operations are operated Pattern.

Input equipment 210 can be according to the manipulation (or pressing) sent to controller 200 according to button 211,213 or 215 Operating control signal PWR, BTU or BTD of generation.Input equipment 210 can according to by manipulate or pressing button 211,213 or 215 signals produced produce operating control signal PWR, BTU or BTD.

First LED source 230 is located at the rear side 102 of wearable device 100, with the user in face of wearing wearable device 100 50 waist or belly.First LED source 230 can be launched to waist through the first hole 230 ' formed in rear side 102 to be had There is the first light of first wave length.First LED source 230 can include multiple first LEDs 231.It is each in first LED 231 The individual infrared LEDs lamp that can be implemented as producing infrared light.

Second LED source 240 is located at the rear side 102 of wearable device 100, with the user in face of wearing wearable device 100 50 waist or belly.Second LED source 240 can be launched to waist through the second hole 240 ' formed in rear side 102 to be had There is the second light of second wave length.Second LED source 240 can include multiple second LEDs 241.It is each in second LED 241 The individual NIR LEDs that can be implemented as producing near-infrared (NIR) light.In first wave length it is a part of can with second wave length It is a part of overlapping.

Although in the ongoing illustrated embodiment, each in the first LED 231 is embodied as infrared LED lamp, and second Each in LED 241 is embodied as NIR LEDs, but the first LED source 230 can be by mutually similar with the second LED source 240 The LED of type is constituted.Infrared light and/or NIR light can penetrate the skin of the section of user 50 and reach in subcutaneous layer of fat Fat cell.

When the light (i.e. infrared light and/or NIR light) from each transmitting in LED 231 and/or 241 is in the waist of user 50 When portion (or belly) place is radiated, the mitochondria in light stimulus fat cell so that mitochondria produces the energy of burn fat.So Chemical change can accelerate to be degraded to triglyceride into the secretion of the lipase of aliphatic acid and glycerine.The fatty material of degraded It can be excluded, and be circulated by the lymphatic system of body by the hole in fat cell surfaces, and then by carrying out The natural degradation of user 50 of motion is burnt.

When waist (or belly) use of the user 50 while use LED 231 and/or 241 is in waist radiant light can In vibrating motor 251,253 and 255 in wearable device 100 at least one vibration when, the activity of fat cell can increase And the transmission for fatty material of degrading can also increase.Therefore, vibration can have similar to aerobic exercise reduce in belly The effect of fat.

The first LED source 230 and the second LED source 240 can be opened in response to the first source control signal CTR1-1 of activation. Here, the first control signal is the first source control signal CTR1-1.For example, when activating the first source control signal CTR1-1, the One switch SW1 provides source operating voltage VDDS to the first LED source 230 and the second LED source 240 simultaneously so that the first LED source 230 Launch light using source operating voltage VDDS with the second LED source 240.Controller 200 can be based on exporting from input equipment 210 First operating control signal PWR controls the sequential of the first source control signal CTR1-1 activation and deactivation.

Serve as micro-vibration device vibrating motor 251 and 255 can in response to activation the first motor control signal CTR2-1 To operate (or vibration).Vibrating motor 253 can be operated in response to the second motor control signal CTR2-2 of activation (or to shake It is dynamic).Second control signal generally represents motor control signal CTR2-1 and CTR2-2.It therefore, it can in response to the second control letter Number CTR2-1 or CTR2-2 enables or disables at least one in vibrating motor 251 and 255.

When activating the first motor control signal CTR2-1, the 3rd switch SW3 provides motor behaviour to the first vibrating motor 251 Make voltage VDDM, so as to enable the first vibrating motor 251 or can vibrate.In addition, when the first motor control signal of activation During CTR2-1, the 4th switch SW4 provides motor operation voltage VDDM to the 3rd vibrating motor 255, is shaken so as to enable the 3rd Dynamic motor 255 can vibrate.When activating the second motor control signal CTR2-2, the 5th switchs SW5 to the second vibrating motor 253 provide motor operation voltage VDDM, so as to enable the second vibrating motor 253 or can vibrate.

Although in the embodiment illustrated in figure 3, first motor control of two vibrating motors 251 and 255 in response to activation Signal CTR2-1 processed is operated, and a vibrating motor 253 grasps in response to the second electrode control signal CTR2-2 of activation Make, in other embodiments, the number of the vibrating motor in wearable device 100 and the operation order of vibrating motor can be with Carry out various modifications.Fig. 2 shows the vibrating motor 251,253 and 255 in wearable device 100.Controller 200 can be with Come controlled motor control signal CTR2-1 and CTR2-2 in response to the operating control signal BTU or BTD exported from input equipment 210 Activation and deactivation sequential.

Controller 200 can perform firmware (or software).Firmware (or software) can perform following functions：Set when wearable Standby 100 when starting operation, operating time of wearable device 100 is counted, by the count value corresponding with count results Compared with reference value and the automatic power supply closed to the offer of wearable device 100 when count value is identical with reference value VDDM, VDDS and PW1.For example, firmware (or software) can control the power supply of battery 280.

Controller 200 can receive operating control signal PWR, BTU or BTD from input equipment 210.Operation can be used to control Signal PWR, BTU or BTD processed change count value CNTV, as shown in Figure 4；And can be produced according to the count value CNTV of change Raw first control signal CTR1-1 and the second control signal CTR2-1 and CTR2-2.In other words, controller 200 can be according to base Control signal CTR1-1, CTR2-1 and CTR2-2 are controlled in the count value CNTV of operating control signal PWR, BTU or BTD determination In the activation of each and deactivate sequential.

Battery 280 can export operating voltage PW1, VDDM and VDDS.Operating voltage PW1 is supplied to controller 200.Point Not by switching SW3, SW4 and SW5 to the offer motor operation voltage of vibrating motor 251,255 and 253 VDDM.Pass through first switch SW1 provides source operating voltage VDDS to LED source 230 and 240.

Fig. 4 is the conceptual schematic view of the operation of the controller 200 shown in Fig. 3.Reference picture 3 and Fig. 4, controller 200 can With including counter 200-2.Realized in the software that counter 200-2 can be performed within hardware or in controller 200.Control Device 200 can also include power-on reset (POR) circuit 200-1.PRO circuits 200-1 can be in response to the first operating control signal PWR come control will to controller 200 provide operating voltage PW1.

When pressing the second button 213, input equipment 210 can export the first operation for representing power-up to controller 200 Control signal PWR.The por circuit 200-1 of controller 200 can be in response to representing that the first operating control signal PWR of power-up comes Power-up, and the count value CNTV with the first value CNT0 can be produced.

Controller 200 can also include control signal and occur circuit 200-3.There is the first value in response to count value CNTV CNT0, circuit 200-3, which occurs, for control signal can produce first source control signal CTR1-1 of the activation for high level, produce low electricity The first flat motor control signal CTR2-1, and produce low level second electrode control signal CTR2-2.Therefore, first The LED source 240 of LED source 230 and second can use source operating voltage VDDS to launch light.

When pressing the first button 211 during count value CNTV is the first value CNT0, input equipment 210 is to controller 200 outputs represent the second operating control signal BTU of operator scheme change.In operation sl 10, in response to the second operational control Signal BTU, counter 200-2 produce the count value CNTV with second value CNT1.Second value CNT1 is more than the first value CNT0.Ring There should be second value CNT1 in count value CNTV, circuit 200-3, which occurs, for control signal can produce the first source control of high level Signal CTR1-1, produces first motor control signal CTR2-1 of the activation for high level, and produce low level second electrode Control signal CTR2-2.Therefore, the first LED source 230 and the second LED source 240 can use source operating voltage VDDS to launch light, And vibrating motor 251 and 255 is operated (or vibration) using motor operation voltage VDDM.

When pressing the first button 211 during count value CNTV is second value CNT1, input equipment 210 is to controller 200 outputs represent the second operating control signal BTU of operator scheme change.In operation s 120, in response to the second operational control Signal BTU, counter 200-2 produce the count value CNTV with the 3rd value CNT2.3rd value CNT2 is more than second value CNT1.Ring There should be the 3rd value CNT2 in count value CNTV, circuit 200-3, which occurs, for control signal can produce the first source control of high level Signal CTR1-1, produces the first motor control signal CTR2-1 of high level, and produce second electrode of the activation for high level Control signal CTR2-2.Therefore, the first LED source 230 and the second LED source 240 can use source operating voltage VDDS to launch light, And all vibrating motors 251,253 and 255 are operated (or vibration) using motor operation voltage VDDM.

When count value CNTV is the first value CNT0, wearable device 100 is operated in the first mode of operation, works as count value CNTV is operated in the second mode of operation when being second value CNT1, and when count value CNTV is the 3rd value CNT2 in the 3rd behaviour Operated under operation mode.

However, when pressing three buttons 215 during count value CNTV is second value CNT1, input equipment 210 is to control The output of device 200 processed represents the 3rd operating control signal BTD of operator scheme change.In operation S150, in response to the 3rd operation Control signal BTD, counter 200-2 are produced with the count value CNTV from second value CNT1 the first value CNT0 being reduced to.Ring There should be the first value CNT0 in count value CNTV, circuit 200-3, which occurs, for control signal can produce the first source control of high level Signal CTR1-1, generation is deactivated to low level first motor control signal CTR2-1, and produces low level second electricity Pole control signal CTR2-2.Therefore, the first LED source 230 and the second LED source 240 launch light using source operating voltage VDDS, but It is that vibrating motor 251 and 255 is closed.

When pressing three buttons 215 during count value CNTV is the 3rd value CNT2, input equipment 210 is to controller 200 outputs represent the 3rd operating control signal BTD of operator scheme change.In operation S140, in response to the 3rd operational control Signal BTD, counter 200-2 are produced with the count value CNTV from the 3rd value CNT2 second value CNT1 being reduced to.In response to Count value CNTV has second value CNT1, and circuit 200-3, which occurs, for control signal can produce the first source control signal of high level CTR1-1, produces the first motor control signal CTR2-1 of high level, and generation is deactivated to low level second electrode control Signal CTR2-2 processed.Therefore, the first LED source 230 and the second LED source 240 launch light using source operating voltage VDDS, and only There is the 3rd vibrating motor 253 to close.

When pressing the first button 211 during count value CNTV is the 3rd value CNT2, input equipment 210 is to controller 200 outputs represent the second operating control signal BTU of operator scheme change.In operation S130, in response to the second operational control Signal BTU, counter 200-2 do not increase count value CNTV from the 3rd value CNT2, but count value CNTV is maintained at into the 3rd Value CNT2.

When pressing three buttons 215 during count value CNTV is the first value CNT0, input equipment 210 is to controller 200 outputs represent the 3rd operating control signal BTD of operator scheme change.In operation S160, in response to the 3rd operational control Signal BTD, counter 200-2 do not reduce count value CNTV from the first value CNT0, but count value CNTV is maintained at into first Value CNT0.

As described in reference picture 3 and Fig. 4, controller 200 produces the first control in response to the first operating control signal PWR to be believed Number CTR1-1, as the second operating control signal BTU of input every time, is carried out to the second operating control signal BTU input number of times Count to increase count value (or current count value), as the 3rd operating control signal BTD of input every time, to the 3rd operational control Signal BTD input number of times is counted to reduce count value (or current count value), and produces the meter with increaseing or decreasing The second corresponding control signal CTR2-1 and CTR2-2 of numerical value.

First switch circuit controls the first LED source 230 and the second LED source 240 in response to the first control signal CTR1-1 Be turned on and off.Now, first switch circuit includes first switch SW1.

Second switch circuit can adjust vibrating motor 251,253 and based on the second control signal CTR2-1 and CTR2-2 The number of the vibrating motor of operation in 255.Second switch circuit includes the 3rd switch SW3, the 4th switch SW4 and the 5th switch SW5。

When the backward controller 200 that the first count value (such as CNT2) is reached in count value CNTV inputs the second operational control During signal BTU, controller 200 keeps the first count value (such as CNT2).When reaching the second count value (for example in count value CNTV CNT0 when backward controller 200) inputs the 3rd operating control signal BTD, controller 200 keeps the second count value (for example CNT0).For example, the first count value (such as CNT2) is more than the second count value (such as CNT0).

Controller 200 can produce activation in response to the first operating control signal PWR inputted at first time point The first control signal CTR1-1.In response to the first control signal CTR1-1 of activation, first switch circuit is to the first LED source 230 and the second at least one in LED source 240 source in first operating voltage, i.e. operating voltage VDDM, VDDS and PW1 is provided Operating voltage VDDS.

Locate from first time point by the second time point of the scheduled time (such as 30 seconds), controller 200 is automatically by the One control signal CTR1-1 is deactivated, the provided with least one disconnected into the first LED source 230 and the second LED source 240 One operating voltage VDDS.In other words, controller 200 can be automatically stopped the operation of wearable device 100.First time point is Operating voltage PW1 time is provided to wearable device 100, due to the second button 213 of pressing, wearable device 100 has been closed Close.

Fig. 5 is including in the wearable device 100 that shows in fig. 1 and 2 according to the other embodiments of inventive concept Electronic system 100B block diagram.Fig. 6 is the conceptual schematic view of the operation of the controller 200 shown in Fig. 5.Reference picture 5, electronics System 100B can include controller 200；User interface 110, including button 211,213 and 215；Input equipment 210；First LED source 230；Second LED source 240；Vibrating motor 251,253 and 255；Battery 280；And switch SW1, SW2, SW3, SW4 and SW5。

It can open the first LED source 230 in response to the first source control signal CTR1-1 of activation, and can be in response to The second source control signal CTR1-2 opens the second LED source 240.Here, the first control signal is indicated generally by the control of the first source Signal CTR1-1 and the second source control signal CTR1-2.When activating the first source control signal CTR1-1, first switch SW1 is to the One LED source 230 provides source operating voltage VDDS so that the first LED source 230 launches light using source operating voltage VDDS.When sharp During the second source control signal CTR1-2 living, second switch SW2 provides source operating voltage VDDS to the second LED source 240 so that second LED source 240 launches light using source operating voltage VDDS.

When pressing the second button 213, input equipment 210 can export the first operation for representing power-up to controller 200 Control signal PWR.The por circuit 200-1 of controller 200 is powered up in response to representing the first operating control signal PWR of power-up, And produce the count value CNTV with the first value CNT0.There is the first value CNT0, control signal hair in response to count value CNTV Raw circuit 200-3 produces the first source control signal CTR1-1 for being activated to high level, and producing has the control of low level second source Signal CTR1-2, producing has low level first motor control signal CTR2-1, and produces with the low level second electricity Pole control signal CTR2-2.The first source control signal CTR1-1 in response to being activated to high level, first switch SW1 are to first LED source 230 provides source operating voltage VDDS so that the first LED source 230 can use source operating voltage VDDS to launch light.

When pressing the first button 211 during count value CNTV is the first value CNT0, input equipment 210 is to controller 200 outputs represent the second operating control signal BTU of operator scheme change.In operation S210, in response to the second operational control Signal BTU, counter 200-2 produce the count value CNTV with second value CNT1.There is second value in response to count value CNTV CNT1, control signal occurs circuit 200-3 and produces the first source control signal CTR1-1 with high level, and generation is activated to high electricity The second flat source control signal CTR1-2, producing has low level first motor control signal CTR2-1, and generation has Low level second electrode control signal CTR2-2.Therefore, the first LED source 230 and the second LED source 240 use source operating voltage VDDS launches light.

When pressing the first button 211 during count value CNTV is second value CNT1, input equipment 210 is to controller 200 outputs represent the second operating control signal BTU of operator scheme change.In operation S220, counter 200-2, which is produced, to be had 3rd value CNT2 count value CNTV.There is the 3rd value CNT2 in response to count value CNTV, circuit 200-3 productions occur for control signal Raw the first source control signal CTR1-1 with high level, produces the second source control signal CTR1-2 with high level, produces The first motor control signal CTR2-1 of high level is activated to, and is produced with low level second electrode control signal CTR2-2.Therefore, the first LED source 230 and the second LED source 240 launch light using source operating voltage VDDS, and use motor Operating voltage VDDM (or vibration) vibrating motors 251 and 255 operating.

When pressing the first button 211 during count value CNTV is the 3rd value CNT2, input equipment 210 is to controller 200 outputs represent the second operating control signal BTU of operator scheme change.In operation S230, in response to the second operational control Signal BTU, counter 200-2 produce the count value CNTV with the 4th value CNT3.3rd value CNT2 is more than second value CNT1.The Four value CNT3 are more than the 3rd value CNT2.There is the 4th value CNT3 in response to count value CNTV, circuit 200-3 productions occur for control signal Raw the first source control signal CTR1-1 with high level, produces the second source control signal CTR1-2 with high level, produces The first motor control signal CTR2-1 with high level, and produce the second electrode control signal for being activated to high level CTR2-2.Therefore, the first LED source 230 and the second LED source 240 launch light using source operating voltage VDDS, and use motor Operating voltage VDDM (or vibration) vibrating motors 251,253 and 255 operating.

The operator scheme of wearable device 100 can include：The first operator scheme that LED source 230 is operated；The He of LED source 230 The second operator scheme of 240 operations；The 3rd operator scheme that LED source 230 and 240 and vibrating motor 251 and 255 are operated；With And the 4th operator scheme that LED source 230 and 240 and vibrating motor 251,253 and 255 are operated.

When pressing the first button 211 during count value CNTV is the 4th value CNT3, input equipment 210 is to controller 200 outputs represent the second operating control signal BTU of operator scheme change.In operation S240, in response to the second operational control Signal BTU, counter 200-2 do not increase count value CNTV from the 4th value CNT3, but count value CNTV is maintained at into the 4th Value CNT3.

However, when count value CNTV have the 4th value CNT3 during pressing three buttons 215 when, input equipment 210 to The output of controller 200 represents the 3rd operating control signal BTD of operator scheme change.In operation S250, in response to the 3rd behaviour Make control signal BTD, counter 200-2 produces the count value CNTV with the 3rd value CNT2.Have in response to count value CNTV 3rd value CNT2, control signal occurs circuit 200-3 and produces the first source control signal CTR1-1 with high level, and generation has Second source control signal CTR1-2 of high level, produces the first motor control signal CTR2-1 with high level, and produce It is deactivated to low level second electrode control signal CTR2-2.Therefore, the first LED source 230 and the second LED source 240 use source Operating voltage VDD launches light, and in vibrating motor 251,253 and 255, only the second vibrating motor 253 is closed.

When pressing three buttons 215 during count value CNTV is the 3rd value CNT2, input equipment 210 is to controller 200 outputs represent the 3rd operating control signal BTD of operator scheme change.In operation S260, in response to the 3rd operational control Signal BTD, counter 200-2 produce the count value CNTV with second value CNT1.There is second value in response to count value CNTV CNT1, control signal occurs circuit 200-3 and produces the first source control signal CTR1-1 with high level, and producing has high level The second source control signal CTR1-2, generation is deactivated to low level first motor control signal CTR2-1, and produces and go It is activated to low level second electrode control signal CTR2-2.Therefore, the first LED source 230 and the second LED source 240 are grasped using source Make voltage VDDS and closed to launch all vibrating motors in light, and vibrating motor 251,253 and 255.

When pressing three buttons 215 during count value CNTV is second value CNT1, input equipment 210 is to controller 200 outputs represent the 3rd operating control signal BTD of operator scheme change.In operation S270, in response to the 3rd operational control Signal BTD, counter 200-2 produce the count value CNTV with the first value CNT0.There is the first value in response to count value CNTV CNT0, control signal occurs circuit 200-3 and produces the first source control signal CTR1-1 with high level, and generation is deactivated to low Second source control signal CTR1-2 of level, producing has low level first motor control signal CTR2-1, and produces tool There is low level second electrode control signal CTR2-2.Therefore, the first LED source 230 launches light using source operating voltage VDDS, And close the second LED source 240.

When pressing three buttons 215 during count value CNTV is the first value CNT0, input equipment 210 is to controller 200 outputs represent the 3rd operating control signal BTD of operator scheme change.In operation S280, in response to the 3rd operational control Signal BTD, counter 200-2 produce the count value CNTV with the first value CNT0.

In the embodiment illustrated in figure 3, when pressing the second button 213, default action (opens) the first LED source 230 and second LED source 240.These embodiments can be modified so that the electronic system when pressing the second button 213 100A keeps standby mode, and after electronic system 100A power-up, when pressing for first 211 very first time of button, first The LED source 240 of LED source 230 and second is operated and (opened).Now, when the first button 211 of pressing for the first time first, counter 200-2 can produce the count value CNTV with the first value CNT0.When pressing during count value CNTV is the first value CNT0 During one button 211, counter 200-2 can produce the count value CNTV with second value CNT1.When being in count value CNTV When pressing the first button 211 during two-value CNT1, counter 200-2 can produce the count value CNTV with the 3rd value CNT2.

Figure 5 illustrates embodiment in, when pressing the second button 213, default action (open) first LED source 230.These embodiments can be modified so that when pressing the second button 213, electronic system 100A keeps standby mode, And after electronic system 100A power-up, when first time the first button 211 of pressing, the first LED source 230, which is operated, (to be opened Open).Now, when the first button 211 of pressing for the first time first, counter 200-2 can produce the meter with the first value CNT0 Numerical value CNTV.When pressing the first button 211 during count value CNTV is the first value CNT0, counter 200-2 can be produced Count value CNTV with second value CNT1.When pressing the first button 211 during count value CNTV is second value CNT1, meter Number device 200-2 can produce the count value CNTV with the 3rd value CNT2.When during count value CNTV is the 3rd value CNT2 by When pressing the first button 211, counter 200-2 can produce the count value CNTV with the 4th value CNT3.

As described in reference picture 5 and Fig. 6, controller 200 is enabled in response to the first operating control signal PWR, when defeated every time When entering the second operating control signal BTU, the second operating control signal BTU input number of times is counted to increase count value, When inputting the 3rd operating control signal BTD, the 3rd operating control signal BTD input number of times is counted to reduce counting Value, and produce first control signal CTR1-1 and CTR1-2 and second control corresponding with the count value increased or decreased Signal CTR2-1 and CTR2-2.

First switch circuit adjusts the first LED source 230 and the 2nd LED in response to the first control signal CTR1-1 and CTR1-2 The number of the LED source operated in source 240.Now, first switch circuit includes first switch SW1 and second switch SW2.

Second switch circuit can adjust vibrating motor 251,253 and based on the second control signal CTR2-1 and CTR2-2 The number of the vibrating motor operated in 255.Second switch circuit includes the 3rd switch SW3, the 4th switch SW4 and the 5th switch SW5。

When the backward controller 200 that the first count value (such as CNT3) is reached in count value CNTV inputs the second operational control During signal BTU, controller 200 keeps the first count value (such as CNT3).When reaching the second count value (for example in count value CNTV CNT0 when backward controller 200) inputs the 3rd operating control signal BTD, controller 200 keeps the second count value (for example CNT0).First count value (such as CNT3) is more than the second count value (such as CNT0).

As described above, according to some embodiments of inventive concept, wearable device is subtracted by using LED and vibrating motor Few body fat.Wearable device radiates LED light at the belly of user, and triglyceride is degraded into aliphatic acid and sweet Oil, and aliphatic acid and/or glycerine that belly carrys out combustion degradation, abdomen of thus directly degrading can be vibrated by using vibrating motor Portion's fat.Thus, even if when user is without aerobic exercise, wearable device can also be brought imitates with aerobic exercise identical Really, thus maximize fat-reducing effect.

Although the exemplary embodiment by reference to present inventive concept is illustrated in detail in and described present inventive concept, but , can be with it will be understood by those skilled in the art that on the premise of the spirit and scope of the present invention being defined by the claims are not departed from Carry out the change in various forms and details.

Claims (7)

1. a kind of wearable device, including：

First LED source, is configured as first light of the transmitting with first wave length；

Second LED source, is configured as second light of the transmitting with second wave length；

Vibrating motor；

Controller, is configured to respond to the first operating control signal and produces the first control signal, when each input second is operated During control signal, the input number of times of the second operating control signal is counted to increase count value, when each input the 3rd is grasped When making control signal, the input number of times of the 3rd operating control signal is counted to reduce count value, and is produced and increase Count value or reduction corresponding the second control signal of count value；

Battery, is configured as providing operating voltage to the first LED source, the second LED source, vibrating motor and controller；

First switch circuit, is configured to respond to first control signal and controls first LED source and the 2nd LED At least one in source is turned on and off；And

Second switch circuit, is configured as adjusting the number of the vibrating motor operated in vibrating motor based on the second control signal Mesh.

2. wearable device according to claim 1, wherein, after the count value reaches the first count value, when to When the controller inputs the second operating control signal, the controller keeps the first count value, and, reached in the count value To after the second count value, when inputting three operating control signals to the controller, the controller keeps second to count Value, and first count value are more than second count value.

3. wearable device according to claim 1, wherein, first LED source includes infrared LED lamp, and described Second LED source includes near-infrared LED lamp.

4. wearable device according to claim 1, wherein, the controller in response to inputted in first time point One operating control signal produces the first control signal of activation, and the first switch circuit believes in response to the first control of activation At least one number come into first LED source and second LED source provides the first operating voltage in operating voltage, with And at second time point of the first time point by the scheduled time, controller is gone to first control signal automatically Activation, with least one described first operating voltage provided disconnected into first LED source and second LED source.

5. a kind of wearable device, including：

First LED source, is configured as first light of the transmitting with first wave length；

Second LED source, is configured as second light of the transmitting with second wave length；

Vibrating motor；

Controller, is configured to respond to the first operating control signal and is activated, when the second operating control signal of input every time, The input number of times of second operating control signal is counted to increase count value, when the 3rd operating control signal of each input When, the input number of times of the 3rd operating control signal is counted to reduce count value, and produce with increased count value or The count value of reduction corresponding the first control signal and the second control signal；

Battery, is configured as the control according to the controller being activated, to first LED source, second LED source and institute State vibrating motor and operating voltage is provided；

First switch circuit, is configured to respond to first control signal to adjust first LED source and described second The number of the LED source operated in LED source；And

Second switch circuit, is configured as adjusting the number of the vibrating motor operated in vibrating motor based on the second control signal Mesh.

6. wearable device according to claim 5, wherein, after the count value reaches the first count value, when to When the controller inputs the second operating control signal, the controller keeps the first count value, and is reached in the count value To after the second count value, when inputting three operating control signals to the controller, the controller keeps second to count Value, and first count value are more than second count value.

7. wearable device according to claim 5, wherein, the controller in response to inputted in first time point One operating control signal produces the first control signal of activation, and the first switch circuit believes in response to the first control of activation At least one number come into first LED source and second LED source provides the first operating voltage in operating voltage, with And at second time point of the first time point by the scheduled time, controller is gone to first control signal automatically Activation, with least one described first operating voltage provided disconnected into first LED source and second LED source.