CN205127145U - Hand -held type eye care instrument - Google Patents

Abstract

The utility model provides a hand -held type eye care instrument (100), it is used for the nursing of the skin wave train kinetic energy around the eye, its characterized in that: hand -held type eye care instrument (100) include: inner support (101), shell body, PCB control panel (108), response electrode (8), infrared lamp (6) and vibration motor (11). Response electrode (8) is including the eye electrode (104) and the flashlight utmost point (105). The shell body includes hand casing (102) and head casing (103). PCB control panel (108) are including infrared lamp ON -OFF control circuit (4) and induction switch circuit (9) the utility model discloses an useful technological effect lies in lightly small and exquisite, multiple functional, suitable family and personal use.

Description

Hand-held eyes-nursing instrument

Technical field

This utility model relates to skin nursing and health care technology field, and particularly use the technical field of the eye part skin nursing of Wave energy, particularly, this utility model relates to hand-held eyes-nursing instrument.

Background technology

Wave energy comprises mechanical wave energy and Electromagnetic Wave energy, and wherein mechanical wave energy is such as produced by vibrations motor, and Electromagnetic Wave energy is such as produced by LED.Mechanical wave is at gravitation spatial transmission, and Electromagnetic Wave is propagated in electromagnetic space.

The fantasy of human body comprises gravitation space and electromagnetic space,

The Mass Distribution of human body forms the gravitational field of human body.People breathe, diet is all by external mass body input human body, certainly will cause the change that the gravitational field of human body distributes.In the Kongxiang of human body gravitational field in human body, distribution forms gravitation space.Mechanical wave is propagated in human body by the quality point such as biomacromolecule of human body, and the relative position of the quality point of human body is changed, and reaches the object changing human body gravitational field.In the traditional Chinese medical science, the change of human body gravitational field corresponds to the operation of cloudy gas in human body with motion.

The electron distributions of human body forms the electromagnetic field of human body.The thinking activities of people and conscious activity all will cause the change of the magnetic distribution of human body.Electromagnetic wave affects energy level variations and the motion of the atom of human body or the outer-shell electron of molecule usually, the change of the electromagnetic field that the inner electron that degree of depth thinking, meditation, subconsciousness may relate to atom or molecule produces.The people's electromagnetic space of electromagnetic light wave to human body typically of getting sun is exerted one's influence.It has often been said a people very sunlight, exactly because the human body electromagnetic space of this people stores more visible ray Electromagnetic Wave energy, thus seem very sunlight.In the traditional Chinese medical science, electromagnetic field corresponds to yang-energy, and the change of Human body electromagnetic field and motion correspond to the change of yang-energy in human body and operation.

The rejuvenation of eye part skin is the most important position allowing people seem young.Therefore, just extremely important to the nursing of eye part skin.Conventional medical means is the state of the gravitational field of eye part skin and transformation of electromagnetic field being got back at an early age, its key point allows the gravitation space of eye part skin be full of mechanical wave energy, and allow its electromagnetic space be full of Electromagnetic Wave energy, just can smooth the wrinkle of eye part skin.Therefore, allowing eye part skin can store more Wave energy is the target that technical development is pursued.

Patent documentation CN202366336U discloses a kind of Portable face beauty instrument device, it is characterized in that: involving vibrations device, negative ion generating device and optical wave generation device; The central upper portion of described beauty apparatus is provided with negative ion generating device, and negative ion generating device front end is flexibly connected vibrating device, is arranged with a circle optical wave generation device outside negative ion generating device.The bottom of described beauty apparatus is provided with display screen, and display screen is provided with on and off switch, skin quality selector switch and functional select switch.This utility model has easy to carry, complete function, the multiple advantage of successful.

Patent documentation CN202061265U discloses a kind of ion leading-in leading-out facial beautification nursing instrument, comprise the care instrument body be made up of shell and wiring board, shell is divided into shell and lower casing, described wiring board is arranged on waveform generator, wiring board has been installed and is connected with gauge tap, LED and supply hub; By fixing head, stainless steel metal head is installed in described lower casing; Described stainless steel metal head 1 has four stainless steel metal heads 1; The beneficial effects of the utility model: practical, production cost is low, uses, easy to operate, and the face of different wave bands to human body is nursed, and U.S. face is effective.

Patent documentation CN201179285Y discloses a kind of hand-hold nursing instrument with laser health care effect, comprise nursing device body, described nursing device body is provided with low power laser head, in described nursing device body, be provided with battery, described battery provides electric energy to described low power laser head.This utility model has laser health and electrical acupuncture or electronics beautifying face, and the multi-functional advantage that Electronic comb combines.

Designing the nursing device that better Wave energy can be imported eye part skin is still the direction that those skilled in the art research and develop.

Utility model content

The purpose of this utility model is to propose novel hand-held eyes-nursing instrument, the nursing function of infrared waves, blue light ripple, thermotherapeutic, anion importing, microseism massage integrates by it, and it is light small and exquisite, very convenient household person hand-held, Wave energy is imported in body whenever and wherever possible, be applicable to very much the nursing of all kinds of crowd's daily health caring.

For this reason, the utility model proposes hand-held eyes-nursing instrument, it, for carrying out Wave energy nursing to the skin of circumference of eyes, is characterized in that:

Described hand-held eyes-nursing instrument comprises: inner support, shell body, PCB panel, induction electrode, infrared lamp and vibrations motor;

Described PCB panel is positioned in described inner support;

Described inner support is positioned in described shell body;

Described induction electrode comprises an electrode and torch pole, wherein, described eye electrode can with the contact skin of the circumference of eyes of user, described torch pole can with the palm of user or finger contact, further, described eye electrode and described torch pole are electrically connected with described PCB panel respectively;

Described shell body comprises hand housing and head shell, wherein, described eye electrode is arranged on the first end of described head shell, so that can with the contact skin of the circumference of eyes of user, and, described torch pole is arranged between described hand housing and described head shell, is positioned at the palm of user or points the position that can touch;

Described infrared lamp and vibrations motor are arranged in described head shell, and the infrared light that described infrared lamp sends and the mechanical wave energy that described vibrations motor produces can be delivered to the skin of the circumference of eyes of user;

Described PCB panel comprises infrared lamp ON-OFF control circuit and inductive switch circuit, wherein, described infrared lamp be opened or be closed to described infrared lamp ON-OFF control circuit can, thus control infrared light to the nursing role of human body skin, further, described vibrations motor and anion import feature can be opened or close to described inductive switch circuit;

Described hand-held eyes-nursing instrument has three kinds of mode of operations: infrared NM, vibrations-anion import NM, infrared-vibrations-anion imports NM;

Described PCB panel is implemented as follows control:

Infrared NM: the skin of the circumference of eyes of described eye electrode contact user, the palm of user or finger and described torch pole disengage, described inductive switch circuit closes described vibrations motor and anion import feature, and, press the button, described infrared lamp ON-OFF control circuit opens described infrared lamp;

Vibrations-anion imports NM: the skin of the circumference of eyes of described eye electrode contact user, palm or the finger of user contact with described torch pole, described inductive switch circuit opens described vibrations motor and anion import feature, and, again press described button, described infrared lamp ON-OFF control circuit closes described infrared lamp;

Infrared-vibrations-anion imports NM: the skin of the circumference of eyes of described eye electrode contact user, palm or the finger of user contact with described torch pole, described inductive switch circuit opens described vibrations motor and anion import feature, and, again press described button, described infrared lamp ON-OFF control circuit opens described infrared lamp.

Advantageous Effects of the present utility model is that light small and exquisite, multiple functional, applicable family and individual use.

Accompanying drawing explanation

With reference to accompanying drawing, feature of the present utility model, advantage and characteristic are able to better understanding, in accompanying drawing by the description of detailed description of the invention hereafter:

Fig. 1: the schematic perspective view of the preferred embodiment of hand-held eyes-nursing instrument of the present utility model;

Fig. 2: another schematic perspective view of the preferred embodiment of hand-held eyes-nursing instrument of the present utility model;

The decomposing schematic representation of the hand-held eyes-nursing instrument of Fig. 3: Fig. 1;

The schematic diagram of the PCB panel of the hand-held eyes-nursing instrument of Fig. 4: Fig. 1, wherein, vibrations motor 11, first power spring 108a and the second power spring 108b is mounted thereon.

Another schematic diagram of the PCB panel of the hand-held eyes-nursing instrument of Fig. 5: Fig. 1;

The schematic diagram of the inner support 101 of the hand-held eyes-nursing instrument of Fig. 6: Fig. 1;

Another schematic diagram of the inner support 101 of the hand-held eyes-nursing instrument of Fig. 7: Fig. 1;

The PCB panel 108 of hand-held eyes-nursing instrument of Fig. 8: Fig. 1 and the assembling schematic diagram of inner support 101;

The PCB panel 108 of hand-held eyes-nursing instrument of Fig. 9: Fig. 1 and another assembling schematic diagram of inner support 101;

The assembling schematic diagram of the rechargeable battery 114 of the hand-held eyes-nursing instrument of Figure 10: Fig. 1, PCB panel 108, blue streak diode 10, infrared lamp 6 and inner support 101;

The assembling schematic diagram of the rechargeable battery 114 of the hand-held eyes-nursing instrument of Figure 11: Fig. 1, PCB panel 108, blue streak diode 10, infrared lamp 6, eye electrode 104, torch pole 105, USB charging inlet 110 and inner support 101;

The schematic perspective view of the head shell 103 of the hand-held eyes-nursing instrument of Figure 12: Fig. 1;

Another schematic perspective view of the head shell 103 of the hand-held eyes-nursing instrument of Figure 13: Fig. 1;

The schematic perspective view of the hand housing 102 of the hand-held eyes-nursing instrument of Figure 14: Fig. 1;

Another schematic perspective view of the hand housing 102 of the hand-held eyes-nursing instrument of Figure 15: Fig. 1;

The schematic perspective view of the eye electrode 104 of the hand-held eyes-nursing instrument of Figure 16: Fig. 1;

Another schematic perspective view of the eye electrode 104 of the hand-held eyes-nursing instrument of Figure 17: Fig. 1;

The schematic perspective view of the torch pole 105 of the hand-held eyes-nursing instrument of Figure 18: Fig. 1;

Another schematic perspective view of the torch pole 105 of the hand-held eyes-nursing instrument of Figure 19: Fig. 1;

The schematic perspective view of the Transparent lamp shade 106 of the hand-held eyes-nursing instrument of Figure 20: Fig. 1;

Another schematic perspective view of the Transparent lamp shade 106 of the hand-held eyes-nursing instrument of Figure 21: Fig. 1;

The circuit theory diagrams of the hand-held eyes-nursing instrument of Figure 22: Fig. 1;

The first surface schematic diagram of the PCB panel 108 of the hand-held eyes-nursing instrument of Figure 23: Fig. 1;

Second schematic diagram of the PCB panel 108 of the hand-held eyes-nursing instrument of Figure 24: Fig. 1;

In the drawings, same or similar element uses same figure notation, and different elements uses different figure notations, wherein:

Detailed description of the invention

With reference to Fig. 1-3, according to hand-held eyes-nursing instrument 100 of the present utility model, it is for carrying out Wave energy nursing to the skin of circumference of eyes.The skin of circumference of eyes is thinner, and easy loss moisture and other nutrient substance are as collagen protein etc., and therefore, often nursing is necessary.Wave energy is divided into mechanical wave energy and Electromagnetic Wave energy, and beating of eyelid is mechanical wave, and eyeball sees that foreign object is the fluctuation of electromagnetic wave visible ray.The change of molecular link, electron energy level can store Electromagnetic Wave energy, and blood or body fluid flowing can store mechanical Wave energy.Therefore, the main purpose of hand-held eyes-nursing instrument 100 is used to be mechanical wave energy and Electromagnetic Wave energy are imported in eye part skin.

With reference to Fig. 3, described hand-held eyes-nursing instrument 100 mainly comprises: inner support 101, shell body, PCB panel 108, induction electrode 8, infrared lamp 6 and vibrations motor 11.Hand-held eyes-nursing instrument 100 is on the whole in the elongate in shape being similar to marker pen, and the portion of the handle diameter of described shell body is comparatively large, is advisable to be applicable to being hold by one hand; Described shell body nearly eye portion diameter less, to adapt to ups and downs surface around eye socket.

As shown in Figure 8, described PCB panel 108 is positioned in described inner support 101.Described PCB panel 108 entirety is strip, can be arranged in described inner support 101.

Described inner support 101 is positioned in described shell body.Described shell body can be the form of upper and lower two and half housings, also can be the form of two sections of cylindrical shells, as shown in figs. 12-15.

With reference to Figure 11, described induction electrode 8 comprises an electrode 104 and torch pole 105, wherein, described eye electrode 104 can with the contact skin of the circumference of eyes of user, described torch pole 105 can with the palm of user or finger contact, further, described eye electrode 104 and described torch pole 105 are electrically connected with described PCB panel 108 respectively.Eye electrode 104 can with the contact skin of circumference of eyes, therefore, its size can design less, to adapt to ups and downs surface around eye socket.The current-carrying part of described eye electrode 104 can with the contact skin of circumference of eyes, and the current-carrying part of torch pole 105 can with the contact skin of the circumference of eyes of user, thus eye electrode 104, human body, torch pole 105 and PCB panel 108 can form galvanic circle.

With reference to Figure 12-15, described shell body comprises hand housing 102 and head shell 103, wherein, described eye electrode 104 is arranged on the first end of described head shell 103, so that can with the contact skin of the circumference of eyes of user, further, described torch pole 105 is arranged between described hand housing 102 and described head shell 103, is positioned at the palm of user or points the position that can touch.Being designed with of two sections of barrel-type housings is beneficial to the anti-of nursing device and beats performance.

With reference to Figure 10, described infrared lamp 6 and vibrations motor 11 are arranged in described head shell 103, and the infrared light that described infrared lamp 6 sends and the mechanical wave energy that described vibrations motor 11 produces can be delivered to the skin of the circumference of eyes of user.Described infrared lamp 6 can be such as LED, and it launches infrared ray and/or HONGGUANG.Vibrations motor 11 such as can be made up of micromotor and the eccentric be arranged on its turning cylinder.

With reference to Figure 22, described PCB panel 108 comprises infrared lamp ON-OFF control circuit 4 and inductive switch circuit 9, wherein, described infrared lamp 6 can be opened or close to described infrared lamp ON-OFF control circuit 4, thus control infrared light to the nursing role of human body skin, further, described vibrations motor 11 and anion import feature can be opened or close to described inductive switch circuit 9.The button 12 of described infrared lamp ON-OFF control circuit 4 is such as normal open switch, and first time presses, and lights or opens described infrared lamp 6, again press, extinguish or close described infrared lamp 6.Described inductive switch circuit 9 forms galvanic circle by means of human body, as eye electrode 104 or the first induction electrode and torch pole 105 or the second induction electrode and contact human skin, be equivalent to human induction switch close, human-body conduction, described vibrations motor 11 and anion import feature are opened, and when eye electrode 104 and/or torch pole 105 is not with contact human skin, is equivalent to human induction switch and disconnects, human body is non-conductive, and described vibrations motor 11 and anion import feature are closed.

Described hand-held eyes-nursing instrument 100 has three kinds of mode of operations: infrared NM, vibrations-anion import NM, infrared-vibrations-anion imports NM.Described three kinds of mode of operations are controlled by described button 12 and described human induction switch and are switched.Described button 12 controls the open and close of infrared lamp 6, and described human induction switch controls the open and close of described vibrations motor 11 and anion import feature.Wherein, described eye electrode 104 and/or described torch pole 105 do not correspond to described human induction switch with contact human skin and cut off, and described eye electrode 104 and/or described torch pole 105 both correspond to described human induction switch with contact human skin and closes.

Described PCB panel 108 is implemented as follows control:

Infrared NM: described eye electrode 104 contacts the skin of the circumference of eyes of user, the palm of user or finger and described torch pole 105 disengage, described inductive switch circuit 9 closes described vibrations motor 11 and anion import feature, and, press the button 12, described infrared lamp ON-OFF control circuit 4 opens described infrared lamp 6;

Vibrations-anion imports NM: described eye electrode 104 contacts the skin of the circumference of eyes of user, palm or the finger of user contact with described torch pole 105, described inductive switch circuit 9 opens described vibrations motor 11 and anion import feature, and, again press described button 12, described infrared lamp ON-OFF control circuit 4 closes described infrared lamp 6;

Infrared-vibrations-anion imports NM: described eye electrode 104 contacts the skin of the circumference of eyes of user, palm or the finger of user contact with described torch pole 105, described inductive switch circuit 9 opens described vibrations motor 11 and anion import feature, and, again press described button 12, described infrared lamp ON-OFF control circuit 4 opens described infrared lamp 6.

Described hand-held eyes-nursing instrument can design light small and exquisite, is convenient to the operation of adult's single-hand held.Wherein, micromotor selected by described vibrations motor 11, and a large amount of using function integrated chip of PCB panel 108, infrared lamp 6 uses LED, so just can realize product miniaturization.Described hand-held eyes-nursing instrument is multiple functional, and the functions such as the nursing of infrared therapeutic, HONGGUANG, vibration massage function, anion importing are complete.Described hand-held eyes-nursing instrument is simple to operate, and---button 12 and human induction switch---just can control repertoire only to use two switches.Described hand-held eyes-nursing instrument mode of operation is various.

According to preferred implementation of the present utility model, as illustrated in figures 4-5, described hand-held eyes-nursing instrument 100 comprises blue streak diode 10, wherein, described blue streak diode 10 is arranged in described head shell 103, described inductive switch circuit 9, can open or close described blue streak diode 10, further, the blue streak that described blue streak diode 10 sends can be delivered to the skin of the circumference of eyes of user;

Described hand-held eyes-nursing instrument 100 has three kinds of mode of operations: infrared NM, blue streak-vibrations-anion import NM, infrared-blue streak-vibrations-anion imports NM;

Described PCB panel 108 is implemented as follows control:

Infrared NM: described eye electrode 104 contacts the skin of the circumference of eyes of user, the palm of user or finger and described torch pole 105 disengage, described inductive switch circuit 9 closes described blue streak diode 10, described vibrations motor 11 and anion import feature, and, press the button 12, described infrared lamp ON-OFF control circuit 4 opens described infrared lamp 6;

Blue streak-vibrations-anion imports NM: described eye electrode 104 contacts the skin of the circumference of eyes of user, palm or the finger of user contact with described torch pole 105, described inductive switch circuit 9 opens described blue streak diode 10, described vibrations motor 11 and anion import feature, and, again press described button 12, described infrared lamp ON-OFF control circuit 4 closes described infrared lamp 6;

Infrared-blue streak-vibrations-anion imports NM: described eye electrode 104 contacts the skin of the circumference of eyes of user, palm or the finger of user contact with described torch pole 105, described inductive switch circuit 9 opens described blue streak diode 10, described vibrations motor 11 and anion import feature, and, again press described button 12, described infrared lamp ON-OFF control circuit 4 opens described infrared lamp 6.

This preferred embodiment adds blue streak nursing function, and its control principle is the same with vibrations motor 11.Blue streak is conducive to activating cell core, and the phenyl ring in human body molecule, DNA, RNA can both absorb blue streak and have more activity.

According to another preferred implementation of the present utility model, with reference to Figure 22, described inductive switch circuit 9 comprises audion Q2, audion Q3, electric capacity C7, electric capacity C8, resistance R9, resistance R10, resistance R11, resistance R13 and resistance R14, wherein, the base stage of described audion Q2 is connected with the colelctor electrode of described audion Q3, and described resistance R11 is connected between the base stage of described audion Q2 and the colelctor electrode of described audion Q3; The described emitter stage of audion Q2 is connected with the positive pole of induction electrode, and the base stage of described audion Q3 is connected with the negative pole of described induction electrode; Between the base stage that described electric capacity C7 is connected to described audion Q3 and emitter stage, between the colelctor electrode that described electric capacity C8 is connected to described audion Q3 and emitter stage.The induction electrode 8 of described inductive switch circuit 9 is electrically connected with eye electrode 104 and torch pole 105 respectively by the first power spring 108a and the second power spring 108b, thus forms human induction switch by means of human body.Described inductive switch circuit 9 had both played human induction switch effect, commensurabilityly play anion importing effect, this is because, human body and inductive switch circuit 9, eye electrode 104 and torch pole 105 define conductive path, and have micro-electric current from torch pole 105, staff, human body, to human eye, eye electrode 104, thus be equivalent to ion flow electronegative in a large number around human eye.

Those skilled in the art can obtain multiple modification based on the principle of above-mentioned inductive switch circuit 9, are understandable that, as long as the circuit that can realize above-mentioned human induction switch and anion import feature may be used to this utility model.

As shown in figure 22, according to another embodiment of the present utility model, described infrared lamp ON-OFF control circuit 4 comprises logical gate U2, three end regulator U4, audion Q1, electric capacity C1, electric capacity C3, resistance R1 and resistance R2, wherein, described button 12 is connected between the 2nd foot of described logical gate U2 and the 6th foot, described electric capacity C3 is connected between the 2nd foot and the 4th of described logical gate U2,5 feet, and the base stage of described audion Q1 is connected to the 1st foot of described logical gate U2.Logical gate U2, three end regulator U4 are integrated chips, and this is conducive to product miniaturization.

Those skilled in the art can obtain multiple modification based on the principle of above-mentioned infrared lamp ON-OFF control circuit 4, are understandable that, as long as the circuit that can realize the function of above-mentioned infrared lamp Push And Release may be used to this utility model.

Preferably, as shown in figure 22, described blue streak diode 10 and described vibrations motor 11 are parallel to A point and B point, wherein B point ground connection.Being configured with the while of being beneficial to inductive switch circuit 9 so synchronously controls mechanical Wave energy and blue streak Electromagnetic Wave energy output.

Be understandable that described blue streak diode 10 and described vibrations motor 11 in series can access A point and B point, prerequisite to be carried out calculating to the voltage of described blue streak diode 10 and described vibrations motor 11 and electric current and to design.

According to another preferred implementation of the present utility model, as shown in figure 22, described blue streak diode 10 is connected with the colelctor electrode of the audion Q2 of described inductive switch circuit 9 at A point place with described vibrations motor 11, and at B point, place is connected with the ground wire of described inductive switch circuit 9; The colelctor electrode of the audion Q3 of described inductive switch circuit 9 is connected with resistance R11, and is connected to C point with the base stage of described audion Q2, the grounded emitter of described audion Q3; 1st foot of described electric capacity C8 is connected to C point, its 2nd foot ground connection; Described resistance R13 the 1st foot is connected to C point, and the emitter stage of its 2nd foot and described audion Q2 is connected to E point; 1st foot of described electric capacity C7 and the base stage of described audion Q3 are connected to D point, its 2nd foot ground connection; Described resistance R9 is in parallel with described electric capacity C7, and its 1st foot is connected to D point, its 2nd foot ground connection; 1st foot of described resistance R10 is connected to D point, and its 2nd foot is connected with the negative pole of described induction electrode; 1st foot of described resistance R14 and the emitter stage of described audion are connected to E point, and its 2nd foot is connected with the positive pole of described induction electrode; Described inductive switch circuit 9 is parallel to E point and F point with described rechargeable battery 7.Like this be configured to very simple circuit realiration human induction switch function and anion import feature.

Preferably, described eye electrode 104 is negative poles of described induction electrode, and described torch pole 105 is positive poles of described induction electrode.Such configuration guarantees that anion flows through the skin of the circumference of eyes of user, human activin cell and tissue function.

Advantageously, described PCB panel 108 also comprises infrared lamp booster circuit 5, wherein, described infrared lamp booster circuit 5 comprises: boost chip U3, electric capacity C4, electric capacity C5, electric capacity C6, resistance R3 and resistance R5, wherein, described electric capacity C6 is connected between the 4th foot of described boost chip U3 and the 6th foot, and described electric capacity C4 is connected to the 5th of described boost chip U3 the between foot and ground wire, and described electric capacity C5 is connected to the 1st of described boost chip U3 the between foot and ground wire.Being configured with like this is beneficial to and uses various voltage requirements or the different infrared lamp of power.

Preferably, use for convenience or carry, described PCB panel 108 also comprises USB charging inlet circuit 1, charge protector 2 and charging indication 3.Such configuration ensures also can use described hand-held eyes-nursing instrument 100 when not having alternating current on the scene.

As shown in fig. 6-7, according to another preferred implementation of the present utility model, described inner support 101 has First chamber 101a, second chamber 101b, 3rd chamber 101c, first bearing 101d, second bearing 101e, with three abutments 101f, wherein, described First chamber 101a is for settling described PCB panel 108, described second chamber 101b is for settling described rechargeable battery 7, described 3rd chamber 101c is for settling USB socket 108c and battery socket 108d, described first bearing 101d is for settling USB charging inlet, described second bearing 101e is for settling described infrared lamp 6, and, described three abutments 101f is for settling blue streak diode 10.Described inner support 101 is made up of macromolecular material, can be one-body molded by injection-molded.Other structure of described inner support 101 refers to Fig. 6-7.

As illustrated by figs. 12-13, preferably, described head shell 103 has the first socket part 103e, the first shell portion 103a and the second shell portion 103b, wherein, the cross-sectional area of described first shell portion 103a is greater than the cross-sectional area of described second shell portion 103b, further, described first shell portion 103a surrounds the first cavity 103c, and described second shell portion 103b surrounds the second cavity 103d; Described eye electrode 104 is positioned in described second cavity 103d, and a part for described inner support 101 is positioned in described first cavity 103c.Described head shell 103 is made up of macromolecular material, can be one-body molded by injection-molded.Other structure of described head shell 103 refers to Figure 12-13.

As shown in figs. 14-15, described hand housing 102 has the shape of basic cylinder, and described hand housing 102 surrounds the 3rd cavity 102c, and described 3rd cavity 102c is for settling a part for described inner support 101; The first end of described hand housing 102 has the first cavity 102a and button tabletting 102d, and wherein, described button tabletting 102d is used for pressing described button 12, and described first cavity 102a is for settling button inscription plate 111; The second end of described hand housing 102 has the second cavity 102b, and described second cavity 102b is for settling described bottom inscription plate 112.Described hand housing 102 is made up of macromolecular material, can be one-body molded by injection-molded.Other structure of described hand housing 102 refers to Figure 14-15.

Preferably, as shown in figs. 16-17, described eye electrode 104 has conductive part 104a, connecting portion 104b and the 4th cavity 104d, wherein, the surface of described conductive part is coated with conducting metal chromium, described connecting portion 104b is formed the first buckle 104c, and described 4th cavity 104d is for settling described Transparent lamp shade 106.Described eye electrode 104 is made up of macromolecular material, can be one-body molded by injection-molded, then forms described conductive part by electroplating surface.Other structure of described eye electrode 104 refers to Figure 16-17.

Preferably, as depicted in figs. 18-19, described torch pole 105 has conducting ring circle body 105a, conduction contiguous block 105b and pillar 105c, wherein, described conducting ring circle body 105a is coated with conducting metal chromium with the surface of described conduction contiguous block 105b, described second power spring 108b is resisted against on described conduction contiguous block 105b through described pillar 105c, thus described conducting ring circle body 105a, described conduction contiguous block 105b, described second power spring 108b form conductive path.Described torch pole 105 is made up of macromolecular material, can be one-body molded by injection-molded, then forms described conductive part by electroplating surface.Other structure of described torch pole 105 refers to Figure 18-19.

Advantageously, see Fig. 8-11, each main parts size installation steps of described hand-held eyes-nursing instrument 100 are as follows:

Described PCB panel 108 is positioned in the First chamber 101a of described inner support 101, described rechargeable battery 7 is positioned in described second chamber 101b, described USB socket 108c and described battery socket 108d is positioned in described 3rd chamber 101c, described USB charging inlet is positioned in described first bearing 101d, described infrared lamp 6 is positioned in described second bearing 101e, and, described blue streak diode 10 is positioned in described three abutments 101f, wherein, described USB socket 108c and described battery socket 108d, described USB charging inlet 110, described infrared lamp 6, described blue streak diode 10 is electrically connected with described PCB panel 108,

Described inner support 101 is positioned in the 3rd cavity 102c of described hand housing 102 and the first cavity 103c of described head shell 103;

Described eye electrode 104 is positioned in the second cavity 103d of described head shell 103, described torch pole 105 is sleeved on the first socket part 103e of described head shell 103, described Transparent lamp shade 106 is positioned in the 4th cavity 104d of described eye electrode 104, wherein, described eye electrode 104 is electrically connected with described PCB panel 108 by described first power spring 108a, and described torch pole 105 is electrically connected with described PCB panel 108 by described second power spring 108b;

First socket part 103e of described head shell 103 is inserted in the 3rd cavity 102c of described hand housing 102, and is linked together by draw-in groove-snap.

Such hand-held eyes-nursing instrument 100 is easy to assembly, without the need to using erecting tools, is conducive to reducing labor cost.

Preferably, as shown in figures 20-21, Transparent lamp shade 106 is injection molded by transparent polymer material.Transparent lamp shade 106 is installed in an electrode 104, and stamp glue reach local seal completely, stop user and use the skin lotions such as gel to be seeped into instrument internal.Transparent lamp shade 106 is made up of transparent PS material, and light resistance rate is low.It faces the wall and meditates as 0.5MM is thick, and heat insulation rate is very low.

Infrared lamp is assembled on inner support 101, is then welded on PCB panel 108 by lamp base.

Advantageously, as shown in Figure 3, a waterproof grommet 107 is on described eye electrode.Waterproof grommet 107 is made up of food grade silicone.

Eye electrode 104 is installed in head shell 103, and stamps glue sealing and cement.

With screw 113, inner support 101 is fixed on hand housing 102.

Bottom inscription plate 112 is adhered on hand housing 102.

Button inscription plate 111 is adhered on hand housing 102.

Described macromolecular material is ABS material.

The light and heat of infrared lamp conducts to cause human body from the transparent area of Transparent lamp shade 106, and LED blue light is also that this face conducts.

As shown in figure 22, hand-held eyes-nursing instrument 100 operation principle is as follows:

Infrared lamp function

Button 12 is pressed, and sends low level pulse, and logical gate U2 the 6th foot low level, the 1st foot current potential is dragged down.Switch triode Q1 conducting, the boosting of boost chip U3 the 1st foot exports 5V voltage, and infrared lamp is lighted.

Button 12 is pressed again, sends low level pulse, logical gate U2 the 6th foot high level, the base stage of switch triode Q1 and launch very high level, and switch triode Q1 end, booster circuit no-voltage, stops exporting, infrared lamp extinguishing.

Three terminal regulator U4 stabilizes to 3V voltage, exports logical gate U2 to.

Electric capacity C1 is filter function, ensures that logical gate U2 has voltage stabilization.

Electric capacity C3 is filter function, prevents the interference of vibrating to other circuit part.

Electric capacity C6 vibrates and supplies boost chip U3, makes its 1st foot export 5V alternating current, under electric capacity C5 filter action, forms 5V unidirectional current export at G point.

Switch triode Q1 normality is cut-off, base stage high potential, and emitter stage and colelctor electrode block; During switch triode Q1 conducting, base stage electronegative potential, emitter stage and colelctor electrode conducting.

Inductive switch function

In Figure 22, the E point induction electrode of labelling HAND is positive pole, and the D point induction electrode being labeled as HEAD is negative pole.

In the disconnected situation of the both positive and negative polarity of induction electrode

Audion Q2 base stage high potential, emitter stage and collector cut-off, inductive switch circuit 9, blue streak diode 10, vibrations motor 11 do not power up, and do not work.

Audion Q2 is metal-oxide-semiconductor, as switch, under normality, and its base stage electronegative potential, emitter stage and colelctor electrode conducting; Under duty, its base stage high potential, emitter stage and collector cut-off.

When the both positive and negative polarity of induction electrode is communicated with

The base stage high potential of audion Q3, emitter stage and colelctor electrode conducting, the base stage electronegative potential of audion Q2, the emitter stage of audion Q2 and colelctor electrode conducting, inductive switch circuit 9, blue streak diode 10, vibrations motor 11 power up, and start working.

Electric capacity C8 ensures that the base stage of audion Q2 is interference-free.

Electric capacity C7 has filter function, ensures that the base stage of audion Q3 is interference-free.

Resistance R10, resistance R14 current-limiting function.

Resistance R4, resistance R12 current-limiting function.

Anion output services principle

Eye electrode 104 is electronegative potential, and torch pole 105 is high potential, and eye electrode 104, human eye, human body, staff, torch pole 105 form current loop, and negatron flows to human eye from staff, play the effect of anion shuttling movement.

Charging circuit operation principle

During charging, the 5th foot high potential of charging protecting module U1, its 1st foot electronegative potential, charging instruction red light LED2-R lights, and charging instruction blue light LED2-B extinguishes.

When being full of, the 5th foot electronegative potential of charging protecting module U1, its 1st foot high potential, charging instruction red light LED2-R extinguishes, and charging instruction blue light LED2-B lights.

Charging protecting module U1 has constant-current charging function, and, automatically disconnect charging after charging to 4.2V, prevent overcharge.

Electric capacity C2 has filter function, prevents circuit disturbed.

Hand-held eyes-nursing instrument of the present utility model or ocular region cosmetic instrument integrate infrared waves, blue light ripple, thermotherapeutic, anion importing, microseism massage, inductive switch control, built-in Large Copacity rechargeable battery, and in conjunction with a golden allusion quotation MINI ocular region cosmetic device of human engineering configuration design, and merge mutually with the base of uniqueness.Instrument simplicity generosity, powerful practicality.

Control mode:

Infrared ray/thermotherapeutic function: simultaneously open, presses the button 12 switches, and send out switching signal to making switch triode Q1 conducting by logical gate U2, infrared power boost chip U3 exports constant 5V voltage, lights infrared lamp.This function of 12 closedowns can be pressed the button after being used to complete.

Blue light/motor/anion imports: work, instrument head is ion negative pole simultaneously, and hand plated conductive ring is ion positive pole.

Micro-current ion loop can be formed between two electrodes when user does eye-care.When loop is formed, inductive switch Circuit activation, blue light is lighted, and vibrations motor is started working.Leave arbitrarily an electrode, this function is closed automatically.All functions all can simultaneously compound use.

Low standby current: select low-power chip and on-off circuit to arrange in pairs or groups, instrument standby current < 20uA, standby opportunity is more lasting.

Automatic charger: 5V type USB charging port design, easy to use.Constant-current charge, saturated rear automatic stopping charging of charging.Charged state red led is bright, and after electricity is full of, green indicating lamp is bright.Charging interval: 3-4 hour.

Large Copacity built-in lithium battery: 1400MA internal battery, is full of once electricity and recycles and reach 10 hours.Battery carries short circuit, overcurrent, over plate, use safer, the life-span is more lasting.

Major function:

One, infrared light-wave

Two, thermotherapy, infrared lamp heating effects, realizes eye hot compress effect.Temperature 40-45 degree

Three, blue light ripple,

Four, motor vibration massage

Five, anion imports

Six, human body induction type switching function.

Seven, charge function.

Eight, the full waterproof of ocular region massaging head

Patent documentation CN2678681Y, CN101107042A, CN200998525Y, CN101438865A, CN201179285Y, CN201586180U, CN202061265U, CN202366336U, CN202751572U, CN202942538U, CN203123355U, CN103211698A, CN203280714U, CN103948490A discloses the part relevant to the invention, element, parts or device, therefore, the part do not mentioned in this article, structural relation between element and parts, position relationship, active force relation, movement relation, energy relationship, momentum relationship, information relationships etc. all can refer to the above-mentioned patent documentation quoted and understand.Thus the technology contents of the described patent documentation quoted herein becomes a part for present patent application file.In case of need, all patent documentations announced in the technical field involved by the invention all can provide prior art reference to present patent application.

More than describe the preferred of the invention or specific embodiment in detail.Should be appreciated that those skilled in the art just can make many modifications and variations according to the design concept of the invention without the need to creative work.Therefore; all technical staff in the art pass through the available technical scheme of logical analysis, reasoning, or a limited experiment on the basis of existing technology according to the design concept of the invention, all should within the scope of the invention and/or by the determined protection domain of claims.

Claims (15)

1. hand-held eyes-nursing instrument (100), it, for carrying out Wave energy nursing to the skin of circumference of eyes, is characterized in that:

Described hand-held eyes-nursing instrument (100) comprising: inner support (101), shell body, PCB panel (108), induction electrode (8), infrared lamp (6) and vibrations motor (11);

Described PCB panel (108) is positioned in described inner support (101);

Described inner support (101) is positioned in described shell body;

Described induction electrode (8) comprises an electrode (104) and torch pole (105), wherein, described eye electrode (104) can with the contact skin of the circumference of eyes of user, described torch pole (105) can with the palm of user or finger contact, further, described eye electrode (104) and described torch pole (105) are electrically connected with described PCB panel (108) respectively;

Described shell body comprises hand housing (102) and head shell (103), wherein, described eye electrode (104) is arranged on the first end of described head shell (103), so that can with the contact skin of the circumference of eyes of user, and, described torch pole (105) is arranged between described hand housing (102) and described head shell (103), is positioned at the palm of user or points the position that can touch;

Described infrared lamp (6) and vibrations motor (11) are arranged in described head shell (103), further, the mechanical wave energy that the infrared light that sends of described infrared lamp (6) and described vibrations motor (11) produce can be delivered to the skin of the circumference of eyes of user;

Described PCB panel (108) comprises infrared lamp ON-OFF control circuit (4) and inductive switch circuit (9), wherein, described infrared lamp (6) can be opened or close to described infrared lamp ON-OFF control circuit (4), thus control infrared light to the nursing role of human body skin, further, described vibrations motor (11) and anion import feature can be opened or close to described inductive switch circuit (9);

Described hand-held eyes-nursing instrument (100) has three kinds of mode of operations: infrared NM, vibrations-anion import NM, infrared-vibrations-anion imports NM.

2. hand-held eyes-nursing instrument (100) according to claim 1, it is characterized in that: described hand-held eyes-nursing instrument (100) comprises blue streak diode (10), wherein, described blue streak diode (10) is arranged in described head shell (103), described inductive switch circuit (9), can open or close described blue streak diode (10), further, the blue streak that described blue streak diode (10) sends can be delivered to the skin of the circumference of eyes of user;

Described hand-held eyes-nursing instrument (100) has three kinds of mode of operations: infrared NM, blue streak-vibrations-anion import NM, infrared-blue streak-vibrations-anion imports NM.

3. hand-held eyes-nursing instrument (100) according to claim 2, it is characterized in that: described inductive switch circuit (9) comprises audion Q2, audion Q3, electric capacity C7, electric capacity C8, resistance R9, resistance R10, resistance R11, resistance R13 and resistance R14, wherein, the base stage of described audion Q2 is connected with the colelctor electrode of described audion Q3, and described resistance R11 is connected between the base stage of described audion Q2 and the colelctor electrode of described audion Q3; The described emitter stage of audion Q2 is connected with the positive pole of induction electrode, and the base stage of described audion Q3 is connected with the negative pole of described induction electrode; Between the base stage that described electric capacity C7 is connected to described audion Q3 and emitter stage, between the colelctor electrode that described electric capacity C8 is connected to described audion Q3 and emitter stage.

4. hand-held eyes-nursing instrument (100) according to claim 3, it is characterized in that: described infrared lamp ON-OFF control circuit (4) comprises logical gate U2, three end regulator U4, audion Q1, electric capacity C1, electric capacity C3, resistance R1 and resistance R2, wherein, button (12) is connected between the 2nd foot of described logical gate U2 and the 6th foot, described electric capacity C3 is connected between the 2nd foot and the 4th of described logical gate U2,5 feet, and the base stage of described audion Q1 is connected to the 1st foot of described logical gate U2.

5. hand-held eyes-nursing instrument (100) according to claim 4, is characterized in that: described blue streak diode (10) and described vibrations motor (11) are parallel to A point and B point, wherein B point ground connection.

6. hand-held eyes-nursing instrument (100) according to claim 5, it is characterized in that: described blue streak diode (10) is connected with the colelctor electrode of the audion Q2 of described inductive switch circuit (9) at A point place with described vibrations motor (11), be connected with the ground wire of described inductive switch circuit (9) at B point place; The colelctor electrode of the audion Q3 of described inductive switch circuit (9) is connected with resistance R11, and is connected to C point with the base stage of described audion Q2, the grounded emitter of described audion Q3; 1st foot of described electric capacity C8 is connected to C point, its 2nd foot ground connection; Described resistance R13 the 1st foot is connected to C point, and the emitter stage of its 2nd foot and described audion Q2 is connected to E point; 1st foot of described electric capacity C7 and the base stage of described audion Q3 are connected to D point, its 2nd foot ground connection; Described resistance R9 is in parallel with described electric capacity C7, and its 1st foot is connected to D point, its 2nd foot ground connection; 1st foot of described resistance R10 is connected to D point, and its 2nd foot is connected with the negative pole of described induction electrode; 1st foot of described resistance R14 and the emitter stage of described audion are connected to E point, and its 2nd foot is connected with the positive pole of described induction electrode; Described inductive switch circuit (9) and rechargeable battery (7) are parallel to E point and F point.

7. hand-held eyes-nursing instrument (100) according to claim 6, is characterized in that: described eye electrode (104) is the negative pole of described induction electrode, and described torch pole (105) is the positive pole of described induction electrode.

8. hand-held eyes-nursing instrument (100) according to claim 7, it is characterized in that: described PCB panel (108) also comprises infrared lamp booster circuit (5), wherein, described infrared lamp booster circuit (5) comprising: boost chip U3, electric capacity C4, electric capacity C5, electric capacity C6, resistance R3, with resistance R5, wherein, described electric capacity C6 is connected between the 4th foot of described boost chip U3 and the 6th foot, described electric capacity C4 is connected to the 5th of described boost chip U3 the between foot and ground wire, described electric capacity C5 is connected to the 1st of described boost chip U3 the between foot and ground wire.

9. hand-held eyes-nursing instrument (100) according to claim 8, is characterized in that: described PCB panel (108) also comprises USB charging inlet circuit (1), charge protector (2) and charging indication (3).

10. hand-held eyes-nursing instrument (100) according to claim 6, it is characterized in that: described inner support (101) has First chamber (101a), second chamber (101b), 3rd chamber (101c), first bearing (101d), second bearing (101e), with three abutments (101f), wherein, described First chamber (101a) is for settling described PCB panel (108), described second chamber (101b) is for settling rechargeable battery (7), described 3rd chamber (101c) is for settling USB socket (108c) and battery socket (108d), described first bearing (101d) is for settling USB charging inlet, described second bearing (101e) is for settling described infrared lamp (6), and, described three abutments (101f) is for settling blue streak diode (10).

11. hand-held eyes-nursing instruments (100) according to claim 10, it is characterized in that: described head shell (103) has the first socket part (103e), the first shell portion (103a) and the second shell portion (103b), wherein, the cross-sectional area in described first shell portion (103a) is greater than the cross-sectional area in described second shell portion (103b), and, described first shell portion (103a) surrounds the first cavity (103c), and described second shell portion (103b) surrounds the second cavity (103d); Described eye electrode (104) is positioned in described second cavity (103d), and a part for described inner support (101) is positioned in described first cavity (103c).

12. hand-held eyes-nursing instruments (100) according to claim 11, it is characterized in that: described hand housing (102) has the shape of basic cylinder, and described hand housing (102) surrounds the 3rd cavity (102c), described 3rd cavity (102c) is for settling a part for described inner support (101); The first end of described hand housing (102) has the first cavity (102a) and button tabletting (102d), wherein, described button tabletting (102d) is for pressing described button (12), and described first cavity (102a) is for settling button inscription plate (111); The second end of described hand housing (102) has the second cavity (102b), and described second cavity (102b) is for settling bottom inscription plate (112).

13. hand-held eyes-nursing instruments (100) according to claim 12, it is characterized in that: described eye electrode (104) has conductive part (104a), connecting portion (104b) and the 4th cavity (104d), wherein, the surface of described conductive part is coated with conducting metal chromium, described connecting portion (104b) is formed the first buckle (104c), and described 4th cavity (104d) is for settling Transparent lamp shade (106).

14. hand-held eyes-nursing instruments (100) according to claim 13, it is characterized in that: described torch pole (105) has conducting ring circle body (105a), conduction contiguous block (105b), with pillar (105c), wherein, described conducting ring circle body (105a) be coated with conducting metal chromium with the surface of described conduction contiguous block (105b), second power spring (108b) is resisted against on described conduction contiguous block (105b) through described pillar (105c), thus, described conducting ring circle body (105a), described conduction contiguous block (105b), described second power spring (108b) forms conductive path.

15. hand-held eyes-nursing instruments (100) according to claim 14, is characterized in that:

Described PCB panel (108) is positioned in the First chamber (101a) of described inner support (101), described rechargeable battery (7) is positioned in described second chamber (101b), described USB socket (108c) and described battery socket (108d) are positioned in described 3rd chamber (101c), described USB charging inlet is positioned in described first bearing (101d), described infrared lamp (6) is positioned in described second bearing (101e), and, described blue streak diode (10) is positioned in described three abutments (101f), wherein, described USB socket (108c) and described battery socket (108d), described USB charging inlet (110), described infrared lamp (6), described blue streak diode (10) is electrically connected with described PCB panel (108),

Described inner support (101) is positioned in the 3rd cavity (102c) of described hand housing (102) and first cavity (103c) of described head shell (103);

Described eye electrode (104) is positioned in second cavity (103d) of described head shell (103), described torch pole (105) is sleeved on first socket part (103e) of described head shell (103), described Transparent lamp shade (106) is positioned in the 4th cavity (104d) of described eye electrode (104), wherein, described eye electrode (104) is electrically connected with described PCB panel (108) by the first power spring (108a), described torch pole (105) is electrically connected with described PCB panel (108) by described second power spring (108b),

First socket part (103e) of described head shell (103) is inserted in the 3rd cavity (102c) of described hand housing (102), and is linked together by draw-in groove-snap.