CN102743820B - LED skin Caring lamp - Google Patents

Abstract

A kind of LED skin Caring lamp, this LED skin Caring lamp comprises LED group 10, control device 20 and lamp bracket 30, described control device 20 comprises far infrared remote controller 21, far infrared receiving element 22, control unit 23, voltage-adjusting unit 24 and indicating member 25, described control unit 23 respectively with LED group 10, far infrared receiving element 22, voltage-adjusting unit 24 and indicating member 25 connect, described far infrared receiving element 22 and LED group 10 are connected with voltage-adjusting unit 24, after remote signal launched by far infrared remote controller 21, far infrared receiving element 22 Received signal strength by signal transmission to control unit 23, control unit 23 is by the mode of operation of the duty of pulse signal that regulates it and export when frequency shift indicating member 25 and LED group 10.Flash rate when the present invention is flashed by changing LED group 10 and the time of flashing change mode of operation, thus reach the cosmetic result of expection.The present invention has use safety, convenience, irradiates the features such as even.

Description

LED skin Caring lamp

[technical field]

The present invention relates to LED technology, particularly relate to a kind of irradiation by LED and reach skin Caring effect, and the LED skin Caring lamp that mode of operation is adjustable.

[background technology]

Along with the development of society, the pursuit of modern female to beauty is more and more higher, the technology of various beauty and skin care also constantly promotes, phototherapy is a kind of advanced technology of skin being carried out to maintenance and treatment, this technology utilize the dynamic response of light luminous energy to be converted in cell can, thus accelerated cell growth, quickening blood circulation, stimulate fibrocyte to produce collagen protein, increase skin elasticity.Laser has the features such as good directionality, spectroscopic pure, monochromaticity is good, and be once widely used in skin treating and maintenance aspect, but it is little that the laser as phototherapy light source has the angle of divergence, well can not carry out uniform irradiation to skin, be easy to form uneven mottle.On the other hand, because laser energy density is high, brightness large, if improper use, be easy to cause damage to skin, form cicatrix.LED is as the popular light source of one, it has that caloric value is low, non-thermal radiation, can the advantage such as safe touch, and be widely used in the research of phototherapy, scientific experiments shows, when the fibroblast cultivated is under the irradiation of the yellow light LED lamp of 590nm, its ATP output increases sharply, thus make the metabolic activity of skin flbroblast be activated activation, produce a large amount of collagen fabrics, containing collagen protein in collagen fabric, collagen protein has the effect keeping skin moisturizing, increase skin density, reduce pore, reduce wrinkle and desalination microgroove.Equally, scientific experiments proves, the LED of other various wavelength also can play similar effect.Therefore, for meeting the pursuit of modern female to beauty, necessary development is a kind of by the beauty and skin care product of LED as phototherapy light source.

[summary of the invention]

The present invention is intended to solve the problem, and provides a kind of using LED as light source, by changing flash rate when LED group is flashed and the time of flashing changes mode of operation, and reaches the LED skin Caring lamp of the cosmetic result of expection.

For achieving the above object, the invention provides a kind of LED skin Caring lamp, this LED skin Caring lamp comprises control device, lamp bracket and the LED group be located on lamp bracket, described control device comprises far infrared remote controller, far infrared receiving element, control unit, voltage-adjusting unit and indicating member, described LED group, far infrared receiving element, voltage-adjusting unit and indicating member are connected with control unit respectively, described far infrared receiving element and LED group are also connected with voltage-adjusting unit respectively, and after far infrared remote controller sends remote signal, signal is also delivered to control unit by far infrared receiving element Received signal strength, the mode of operation of duty when frequency shift indicating member and the LED group of pulse signal of control unit by regulating it and exporting.

LED group comprises multiple LED, and the wavelength of described LED is 400 ~ 405nm, 465 ~ 470nm, 520 ~ 525nm, 570 ~ 575nm, 590 ~ 595nm, 605 ~ 610nm, 620 ~ 625nm, one or more the combination in 845 ~ 850nm.

LED is encapsulated by dual-in-line mode and is fixed on aluminium base.

LED group has multiplely flashes mode of operation, this LED group flash rate and flash in the cycle, its flash time regulates by control unit.

The flash rate of LED group is flash 1 ~ 15 time in every 3 ~ 7 seconds.

It is 1/10 ~ 1/1 that a flash time of LED group accounts for a ratio flashing the cycle.

Far infrared remote controller is provided with the frequency adjustment button regulating LED group flash rate and the duty cycle adjustment button regulating LED group flash time.

Indicating member is provided with the light emitting diode being used to indicate LED group mode of operation and changing.

The far infrared receiving element of control device, control unit, voltage-adjusting unit and indicating member are arranged at lamp bracket inside.

Contribution of the present invention is, which provides a kind of using LED as phototherapy light source, and flash rate when flashing by changing LED group and the time of flashing change mode of operation, and reach the LED skin Caring lamp of expection cosmetic result.The present invention has use safety, convenience, irradiates the features such as even.

[accompanying drawing explanation]

Fig. 1 is structural upright schematic diagram of the present invention.

Fig. 2 is structured flowchart of the present invention.

Fig. 3 is voltage-adjusting unit circuit theory diagrams of the present invention.

Fig. 4 is far infrared receiving element circuit theory diagrams of the present invention.

Fig. 5 is control unit circuit theory diagrams of the present invention.

Fig. 6 is LED lamp circuit group circuit theory diagrams of the present invention.

Fig. 7 is indicating member circuit theory diagrams of the present invention.

Fig. 8 is the perspective exploded view of LED group of the present invention.

[detailed description of the invention]

The following example is to further explanation of the present invention and supplements, and does not constitute any limitation the present invention.

As shown in Fig. 1 ~ Fig. 8, LED skin Caring lamp of the present invention comprises LED group 10, control device 20 and lamp bracket 30.Described LED group 10 comprises multiple LED 11, and multiple LED 11 can rule or to be irregularly shapedly arranged on aluminium base 12.

Embodiment 1

Main points of the present invention are, as shown in Figure 2, described control device 20 comprises far infrared remote controller 21, far infrared receiving element 22, control unit 23, voltage-adjusting unit 24 and indicating member 25.Described LED group 10, far infrared receiving element 22, voltage-adjusting unit 24 and indicating member 25 are connected with control unit 23 respectively, described far infrared receiving element 22 and LED group 10 are also connected with voltage-adjusting unit 24 respectively, after far infrared remote controller 21 sends remote signal, signal is also delivered to control unit 23 by far infrared receiving element 22 Received signal strength, and control unit 23 is by the mode of operation of the duty of pulse signal that regulates it and export when frequency shift indicating member 25 and LED group 10.

As shown in Figure 3, the voltage-adjusting unit 24 of described control device 20 comprises relay J 1, diode D1, voltage-stabilizing device LM7805M and electric capacity C4, C5, wherein, relay J 1 port 3 ground connection, port 2 is unsettled, port one is connected with the input Vin of voltage-stabilizing device LM7805M through diode D1, the output end vo ut of this voltage-stabilizing device LM7805M is provided with electric capacity C4, C5 in parallel between holding with ground, 12V voltage exports 5V voltage after voltage-stabilizing device LM7805M transformation, and this 5V voltage output end mouth is connected with far infrared receiving element 22 and control unit 23 respectively.

The far infrared remote controller 21 of described control device 20 comprises general far infrared remote control circuit, and in the present embodiment, this far infrared remote controller 21 is provided with frequency adjustment button and duty cycle adjustment button.Described frequency adjustment button is for regulating the flash rate of LED group 10, its regulated value is divided into 10 grades, and LED group 10 can be made to switch between following mode of operation: within every 5 seconds, flash within 1 time, every 5 seconds, to flash within 2 times, every 5 seconds, to flash within 3 times, every 5 seconds, to flash within 4 times, every 5 seconds, to flash within 5 times, every 5 seconds, to flash within 6 times, every 5 seconds, to flash within 7 times, every 5 seconds, to flash to flash for 8 times, every 5 seconds and flash 10 times in 9 times, every 5 seconds.Described duty cycle adjustment button is for regulating the fluorescent lifetime of LED group 10 within the cycle of flashing and the ratio of flash period, and its regulated value is also divided into 10 grades: 1/10,1/5,3/10,2/5,1/2,3/5,7/10,4/5,9/10,1/1.The advantage that described far infrared remote controller 21 has not to be affected surrounding enviroment, do not disturb other electric equipments, and simple operation, in time, be beneficial to raising Consumer's Experience.

As shown in Figure 4, the far infrared receiving element 22 of described control device 20 forms by having the circuit receiving far infrared remote controller 21 remote signal, this circuit comprises far infrared Receiver LF0038K, electric capacity C2, C3 and resistance R2, R2, described far infrared Receiver U3 port one is connected with the I/O port PB7 of microprocessing unit 23, and this I/O port PB7 is connected with 5V voltage output end mouth through resistance R3.Described far infrared Receiver U3 port 2 ground connection, its port 3 is connected with 5V voltage output end mouth through resistance R2, and is provided with shunt capacitance C2 and C3 of ground connection between port 3 and resistance R2.Described far infrared receiving element 22 receives the remote signal that far infrared remote controller 21 sends, and this remote signal is delivered to control unit 23.

As shown in Figure 5, the control unit 23 of described control device 20 is formed primarily of microprocessor U2, and described microprocessor U2 is the general purpose microprocessor that scalable exports the duty when frequency of pulse, in this example, adopts KS6P08 type microprocessor.The I/O port VSS ground connection of described microprocessor U2, reseting port RESET is connected with 5V output port through resistance R1, and between this reseting port RESET and resistance R1, be provided with the electric capacity C1 of ground connection.I/O port PA1, PA2 of described control unit 23 are connected with two input ports of indicating member 25 respectively, and the I/O port PA0 of this control unit 23 is connected with LED group 10, and its I/O port PB7 is connected with far infrared receiving element 22.After described control unit 23 receives the remote signal of far infrared receiving element 22 transmission, microprocessor U2 changes through its pulse signal exported of operation control, namely the duty of control wave when frequency change, this pulse signal is input to LED group 10, the mode of operation of LED group 10 is changed, and meanwhile, this control unit 23 controls the LED flash of light of indicating member 25, in order to the mode of operation of indication LED lamp group 10, comprise the time of flashing and frequency there occurs change.

In the present embodiment, described LED group 10 is provided with 60 LED 11 altogether, these 60 LED 11 form the LED lamp circuit group 10A that 20 groups have identical syndeton, as shown in Figure 6, often organize LED lamp circuit group 10A and be provided with 3 LED 11 altogether, be connected with the colelctor electrode of crystal triode Q1 through resistance R6 after 3 LED 11 serial connections, the emitter stage of described crystal triode Q1 is through resistance R5 ground connection, and its base stage is connected with control unit 23 through resistance R4.In the present embodiment, the wavelength of described LED 11 is 400 ~ 405nm, 465 ~ 470nm, 520 ~ 525nm, 570 ~ 575nm, 590 ~ 595nm, 605 ~ 610nm, 620 ~ 625nm, the one in 845 ~ 850nm, is preferably the one in 402nm, 468nm, 523nm, 573nm, 593nm, 608nm, 622nm, 848nm.Described LED 11 is fixedly welded on the aluminium base 12 of rectangular shape by dual-inline package, and this LED 11 is evenly fixed on aluminium base 12 with the array of 10 × 6, this aluminium base 12 has stronger heat dispersion, makes LED group 10 still keep function-stable when long-term irradiation.As shown in Figure 8, described LED group 10 also comprises lampshade 13 and lamp socket 14, and the shape of described lampshade 13 and lamp socket 14 and aluminium base 12 mating shapes, described lampshade 13 and lamp socket 14 are made up of engineering plastics, have the characteristics such as shock-resistant, heat-resisting, low temperature resistant.Described aluminium base 12 is fixedly installed between lampshade 13 and lamp socket 14.Described LED group 10 is provided with altogether multiplely flashes mode of operation, and this LED group 10 its flash time and flash rate within the cycle of flashing regulate by control unit 23.Flash rate when described LED group 10 is flashed comprises 10 kinds: within every 5 seconds, flash within 1 time, every 5 seconds, to flash within 2 times, every 5 seconds, to flash within 3 times, every 5 seconds, to flash within 4 times, every 5 seconds, to flash within 5 times, every 5 seconds, to flash within 6 times, every 5 seconds, to flash within 7 times, every 5 seconds, to flash to flash for 8 times, every 5 seconds and flash 10 times in 9 times, every 5 seconds.Described LED group 10 is flashed in the cycle each, and the time of its luminescence accounts for the ratio in the cycle of flashing and also comprises 10 kinds: 1/10,1/5,3/10,2/5,1/2,3/5,7/10,4/5,9/10,1/1.Worked under different working modes by far infrared remote controller 21 adjustable LED lamp group 10.

As shown in Figure 7, described indicating member 25 is made up of light emitting diode D5, D6 and resistance R7, R8, and described light emitting diode D5, D6 minus earth, positive pole is connected with port PA1, PA2 of control unit 23 through resistance R7, R8 respectively.When a certain button of far infrared remote controller 21 is pressed, when when frequency changes the duty of control unit 23 control output pulse, described light emitting diode D5, D6 are luminous, errorless with indicating circuit, mode of operation handover success.

Described lamp bracket 30 is have arbitrarily supporting role can be supported in structure in the plane such as ground or desktop, in the present embodiment, described lamp bracket 30 is rod-like structure, round bar primarily of 3 sections of movable rotations is formed by connecting, this lamp bracket 30 bottom is provided with the base making it be supported in ground, be provided with action roller below base, facilitate the present invention to move on the ground.

As shown in Figure 1, described LED illumination unit 10 is supported by lamp bracket 30, it is inner that the far infrared receiving element 22 of described control device 20, control unit 23, voltage-adjusting unit 24 and indicating member 25 are arranged at lamp bracket 30, and described LED group 10, control device 20 and lamp bracket 30 entirety forms skin Caring lamp agent structure.Described skin Caring lamp normally can work in up to 60 DEG C of environment.

LED skin Caring lamp of the present invention operationally, after far infrared remote controller 21 sends key command, described far infrared receiving element 22 Received signal strength, and this signal is delivered to control unit 23, control unit 23 controls the corresponding change of duty when frequency generation exporting pulse, and described pulse signal finally inputs to LED group 10, the mode of operation controlling LED 11 changes, meanwhile, the LED that this control unit 23 controls indicating member 25 is bright, in order to indicate mode of operation handover success.

Embodiment 2

The basic structure of described LED group is with embodiment 1, difference is, the wavelength of described LED 11 is 400 ~ 405nm, 465 ~ 470nm, 520 ~ 525nm, 570 ~ 575nm, 590 ~ 595nm, 605 ~ 610nm, 620 ~ 625nm, three kinds in 845 ~ 850nm, be preferably three kinds in 402nm, 468nm, 523nm, 573nm, 593nm, 608nm, 622nm, 848nm, and the wavelength often organizing the LED 11 in LED lamp circuit group 10A is different.

Although by above embodiment to invention has been announcement, protection scope of the present invention is not limited thereto, under the condition not departing from the present invention's design, all will fall in right of the present invention the distortion, replacement etc. that above each component does.

Claims (5)

1. a LED skin Caring lamp, comprise control device (20), lamp bracket (30) and the LED group (10) be located on lamp bracket (30), it is characterized in that, described control device (20) comprises far infrared remote controller (21), far infrared receiving element (22), control unit (23), voltage-adjusting unit (24) and indicating member (25), described LED group (10), far infrared receiving element (22), voltage-adjusting unit (24) and indicating member (25) are connected with control unit (23) respectively, described far infrared receiving element (22) and LED group (10) are also connected with voltage-adjusting unit (24) respectively, and

After far infrared remote controller (21) sends remote signal, signal is also delivered to control unit (23) by far infrared receiving element (22) Received signal strength, the mode of operation of duty when frequency shift indicating member (25) and the LED group (10) of pulse signal of control unit (23) by regulating it and exporting, described LED group (10) has multiplely flashes mode of operation, this LED group (10) its flash time and flash rate within the cycle of flashing regulate by control unit (23), described far infrared remote controller (21) is provided with the frequency adjustment button regulating LED group (10) flash rate and the duty cycle adjustment button regulating LED group (10) flash time, the flash rate of described LED group (10) is flash 1 ~ 15 time in every 3 ~ 7 seconds, it is 1/10 ~ 1/1 that a flash time of described LED group (10) accounts for a ratio flashing the cycle.

2. LED skin Caring lamp as claimed in claim 1, it is characterized in that, described LED group (10) comprises multiple LED (11), and the wavelength of described LED (11) is 400 ~ 405nm, 465 ~ 470nm, 520 ~ 525nm, 570 ~ 575nm, 590 ~ 595nm, 605 ~ 610nm, 620 ~ 625nm, one or more the combination in 845 ~ 850nm.

3. LED skin Caring lamp as claimed in claim 2, it is characterized in that, described LED (11) is encapsulated by dual-in-line mode and is fixed on aluminium base (12).

4. LED skin Caring lamp as claimed in claim 1, it is characterized in that, described indicating member (25) is provided with the light emitting diode being used to indicate LED group (10) mode of operation and changing.

5. the LED skin Caring lamp as described in any one of Claims 1 to 4, it is characterized in that, it is inner that the far infrared receiving element (22) of described control device (20), control unit (23), voltage-adjusting unit (24) and indicating member (25) are arranged at lamp bracket (30).