CN103221004B - Eye massaging device - Google Patents

Abstract

According to one aspect of the invention, there is provided an eye massaging device including: a visor; a light source connected to the visor and configured to illuminate the visor; an audio module connected to the visor, the audio unit adapted to produce a sound; a first massager connected to the visor, the first massager for massaging an eye area; and a control module electrically coupled to the light source, the audio unit and the first massager, wherein the control module is adapted to control the light source, the audio unit and the first massager.

Description

Ocular region massaging equipment

Technical field

The present invention relates to ocular region massaging equipment.

Background technology

A kind of mode alleviating eye strain passes through massaging eyes.

What existing ocular region massaging equipment was mainly paid close attention to is by massaging the fatigue alleviating eye physics aspect to eye transmission.This massage is caused by the equipment of the air bag of such as vibrating motor or expansion and contraction and so on.

An object of ocular region massaging equipment of the present invention improves the relaxation effect of ocular region massaging equipment further.

Summary of the invention

According to an aspect of the present invention, provide a kind of ocular region massaging equipment, it comprises: eyeshield (visor); Light source, described light source is connected to described eyeshield and is configured to illuminate described eyeshield; Be connected to the audio-frequency module of described eyeshield, described audio-frequency module is suitable for producing sound; Be connected to the first masseur of described eyeshield, described first masseur is used for massaging eyes; And control module, described control module is electrically coupled to described light source, described audio-frequency module and described first masseur, and wherein, described control module is suitable for controlling described light source, described audio-frequency module and described first masseur.

Under the environment of various embodiment, term " eyeshield " refers to the equipment at least being covered eyes of user when wearing.Under the environment of various embodiment, term " light source " refers to and is suitable for luminous any device.In various embodiments, the light launched has different colors.Light emitted wave-length coverage is selected from the one or more scopes in visible spectrum, and what make light emitted wave-length coverage can be selected from red color band, green wavestrip or blue wavestrip is one or more.Any one or multiple different colours in red, green or blueness have following corresponding wave-length coverage: approximately 620nm to about 750nm, approximately 495nm to about 570nm and approximately 450nm to about 495nm.

Under the environment of various embodiment, term " audio-frequency module " can refer to and be suitable for processing audio data and sonorific equipment.The example of audio-frequency module will comprise the system with speaker.Under the environment of various embodiment, term " masseur " can refer to the equipment of the pressure upon being activated user being applied to various degree.

Under the environment of various embodiment, term " control module " can refer to the unit that can control other assembly that light source, audio-frequency module, the first masseur and ocular region massaging equipment may have.Control module can perform the instruction for actuating logic sequence, and wherein, instruction can be embedded by user or programme.Logic sequence can refer to the implementation of instruction flow, described flow process circulates at one or more part place, and control module starts one or more assemblies of described ocular region massaging equipment according to one or more operator schemes, e.g., light source, audio-frequency module and the first masseur.User can carry out pre-programmed or programming to operator scheme, is then stored in memorizer.

Control module can also be suitable for according to the sequence stored in described control module operate in described light source, described audio-frequency module and described first masseur at least one.

Described light source can also be suitable for the light that emission wavelength falls into one or more different wavelength range, and described control module can be suitable for selecting described one or more different wavelength range.

Described control module can also be suitable for changing light emitted wave-length coverage during performing the sequence stored in described control module.Described control module can also be further adapted for the sound type produced according to described audio-frequency module and select light emitted wave-length coverage.In addition, described control module can be further adapted for the peripheral storage device being connected to and being suitable for storing music.

Memory module can be electrically coupled to described control module, and described memory module is suitable for storing the sound being obtained (access) by described audio-frequency module.

Described different wavelength range can comprise the scope of scope, the approximately 495nm to about 570nm of about 450nm to about 495nm and the scope of about 620nm to about 750nm.

Light guide structure (arrangement) can be configured to receive light from described light source, and wherein, described light guide structure can be connected to described eyeshield and be configured to transillumination to illuminate described eyeshield.

Described light guide structure can comprise light-guide device, and described light-guide device extends along a part for the major axis (longitudinal axis) of described eyeshield, so that the distance between user's temple to extend.

Described light source can comprise at least one light-emitting component, and one end of at least one light-emitting component described and described light-guide device is adjacent to locate.

Described light source can comprise two light-emitting components, wherein, a light-emitting component in described two light-emitting components can be adjacent to locate with one end of described light-guide device, and another light-emitting component in described two light-emitting components can be adjacent to locate with the other end of described light-guide device.

Described light guide structure can comprise two light-guide devices, a light-guide device in described two light-guide devices is connected to the Part I of described eyeshield, another light-guide device in described two light-guide devices is connected to the Part II of described eyeshield, wherein, the described Part I of described eyeshield be described eyeshield from the part to the left part of described axle around the vertical pivot being positioned at center of described eyeshield, and wherein, the described Part II of described eyeshield be described eyeshield from the part to the right part of described axle around the vertical pivot being positioned at center of described eyeshield.

Described light source can comprise at least one light-emitting component, and at least one light-emitting component described can be adjacent with each respective end in described two light-guide devices as follows: couple light to described two light-guide devices from least one light-emitting component described.

Described light source can comprise two light-emitting components, a light-emitting component in described two light-emitting components can be adjacent with the respective end of a light-guide device in described two light-guide devices, and another light-emitting component in described two light-emitting components can be adjacent with the respective end of another light-guide device in described two light-guide devices.

Described light guide structure can comprise at least one light pipe.

Described eyeshield can comprise the shell being connected with described light source; And be connected to the diffusing globe of described shell.Described shell can be made up of trnaslucent materials, and wherein, described light source can be configured to illuminate the surface being connected with described light source of described shell and the surface contrary with the surface being connected with described light source.Described light guide structure can be connected to described shell.

Described first masseur can comprise air bag.

Described air bag can be arranged against described diffusing globe.

The ocular that described air bag can be suitable for extending to the adjacent temple from the eye socket of eyes to described eyes provides massage.

Second masseur can be connected to eyeshield, and wherein, described control module can be electrically coupled to described second masseur and be suitable for operating described second masseur according to the sequence stored in described control module.

Described second masseur can comprise the vibrating elements be connected between described diffusing globe and described air bag.Described vibrating elements can be flat motor.

Described light source can comprise at least one light emitting diode.Described light source can be connected to the inner surface of described eyeshield, and wherein, described first masseur is contained in inside described eyeshield also in the face of described light source.

Described light source can be connected to the inner surface of described eyeshield, and wherein, described ocular region massaging equipment can also comprise the diffusing globe be contained in inside described eyeshield.Described diffusing globe can in the face of described light source, and described first masseur can be accommodated in inside described eyeshield and in the face of described diffusing globe.

Described eyeshield can comprise: the first frame part; Second frame part; And pivot, described pivotally connected described first frame part and described second frame part, described light guide structure is connected to described first frame part and described second frame part.

Described light guide structure comprises the eyeglass (lens) at each place be arranged in described first frame part and described second frame part.Can arrange housing along a part for the periphery of described eyeglass, described housing holds described light source.

Described light source can comprise at least one light emitting diode.

Described light guide structure can be fixed on described first frame part by the first covering; And second covering described light guide structure can be fixed on described second frame part.

Described first masseur can comprise air bag.

Second masseur can be connected to described eyeshield, and wherein, described control module can be electrically coupled to described second masseur and be suitable for operating described second masseur according to the sequence stored in described control module.Described second masseur can comprise the vibrating motor be contained in described pivot.

First masseur can be positioned between a pair packed layer.

One end of restraint zone can be fixed on described first frame part of described eyeshield and the other end can be fixed on described second frame part of described eyeshield.

The outer surface of described first frame part and described second frame part can spread all over and have layer.Described layer allows printing opacity.Described layer can be manufactured by any one or more in material beneath: fabric, textile or rubber.Described layer can be perforated.

Accompanying drawing explanation

In the accompanying drawings, in all different views, like reference numerals typically refers to same parts.Accompanying drawing needs not to be pro rata, but focuses on generally principle of the present invention is shown.In the following description, with reference to accompanying drawing below, various embodiment of the present invention is described, in the accompanying drawings:

Figure 1A is the schematic representation of the ocular region massaging equipment according to an embodiment of the invention.

Figure 1B is the decomposition view of a part for ocular region massaging equipment according to an embodiment of the invention.

Fig. 2 is the perspective view with the shell of the eyeshield of light guide structure according to an embodiment of the invention.

Fig. 3 A is the perspective view with the shell of the eyeshield of light guide structure according to an embodiment of the invention.

Fig. 3 B is the perspective view with the shell of the eyeshield of light guide structure according to an embodiment of the invention.

Fig. 4 is the perspective view of the air bag according to an embodiment of the invention.

Fig. 5 illustrates and to represent according to the block level of the ocular region massaging equipment of an embodiment of the invention.

Fig. 6 A and Fig. 6 B is front view according to the ocular region massaging equipment of an embodiment of the invention and side view respectively.

Fig. 6 C and Fig. 6 D is the different perspective views of the ocular region massaging equipment according to an embodiment of the invention.

Fig. 7 is the decomposition view of the ocular region massaging equipment according to an embodiment of the invention.

Fig. 8 A and Fig. 8 B illustrates the decomposition view of the ocular region massaging equipment according to an embodiment of the invention.

Perspective view when Fig. 8 C and Fig. 8 D illustrates not folding according to the ocular region massaging equipment of an embodiment of the invention respectively and top view.

Fig. 8 E and Fig. 8 F illustrates perspective view when folding according to the ocular region massaging equipment of an embodiment of the invention and top view respectively.

Fig. 8 G illustrates the exploded view of the ocular region massaging equipment according to an embodiment of the invention.

Detailed description of the invention

Although illustrate with reference to detailed description of the invention and describe embodiments of the present invention, but it should be appreciated by those skilled in the art, when not departing from the spirit and scope of the present invention as appended claims restriction, the various changes in form and details can be carried out in this article.Therefore, scope of the present invention is represented by appended claims, and is therefore intended to comprise all changes in the implication of the equivalent falling into claims and scope.

Should be appreciated that the same reference numerals used in relevant drawings refers to the assembly for similar or identical object.

Figure 1A is the schematic representation of the ocular region massaging equipment 100 according to an embodiment of the invention.

Ocular region massaging equipment 100 comprises eyeshield 102.Light source 104 is connected to eyeshield, to illuminate eyeshield 102.Ocular region massaging equipment 100 comprises audio-frequency module 106, and this audio-frequency module 106 is suitable for producing sound.Audio-frequency module 106 can be connected to eyeshield 102.

First masseur 108 is connected to eyeshield 102.First masseur 108 is suitable for ocular or eyes and every only circumocular region and provides massage.

Control module 110 is electrically coupled to light source 104, audio-frequency module 106 and the first masseur 108.Control module 110 is suitable for operating at least one in light source 104, audio-frequency module 106 and the first masseur 108 upon being activated.It is each that the such as parts of electric wire 152 and so on may be used for control module 110 to be connected in light source 104, audio-frequency module 106 and the first masseur 108.

When being suitable for when making control module 110 operating in light source 104, audio-frequency module 106 and the first masseur 108, the first masseur 108 can with light source 104 and audio-frequency module 106 serial operation.Respectively from the wholistic therapy effect that light source 104 and the vision of audio-frequency module 106 and the combination of auditory stimulus stand together with the user that the physical massage from the first masseur 108 enhances ocular region massaging equipment 100.

Control module 110 be suitable for according to the sequence stored in control module 110 operate in light source 104, audio-frequency module 106 and the first masseur 108 at least one.

Light source 104 is suitable for the light of one or more different wavelength range of launching in visible spectrum, makes launched light can have wave-length coverage from the one or more selections red color band, green wavestrip or blue wavestrip.The corresponding wave-length coverage of the different colours of any one or more in redness, green or blueness is about 620nm to about 750nm; About 495nm to about 570nm; And about 450nm to about 495nm.Light source 104 can have multiple light-emitting component.Each light-emitting component can be the light emitting diode of any one in redness, green or blueness.Alternatively, each light-emitting component can be the lamp or the bulb that are provided with color filter (e.g., red color filter, green color filter or blue color filter), makes light source 104 produce the light of different colours.Therefore, each light-emitting component can launch the light with another light-emitting component different colours.Control module 110 is suitable for selecting one or more different wave-length coverage, and light source 104 launches the light of described wave-length coverage.Such as, control module 110 can send suitable signal to light source 104, makes light source 104 launch the light of selected wave-length coverage.Therefore, from light source 104 launch light can be a part launch the first color (as, red) the light-emitting component of light and another part launch the second color (as, blue) the product of combination of light-emitting component of light, thus cause the wavelength spectrum of launched light to be made up of (in this example, light emitted color is purple) two discontinuous wave-length coverages.Each light-emitting component in multiple light-emitting component can also launch the light with another light-emitting component in multiple light-emitting component with same color.Each light-emitting component can also launch the light with another light-emitting component in multiple light-emitting component with different frequency scope, and these two different frequency ranges are enough close, to be identified as the different shades of same color.

Control module 110 is suitable for changing light emitted wave-length coverage during performing the sequence stored in control module 110.Such as, the beginning of the sequence stored in control module 110, light source 104 can launch the light from first wave length scope.Along with the carrying out of sequence, control module 110 will send signal to light source 104, and to launch the light from second wave length scope, wherein, second wave length scope is different from first wave length scope.

Control module 110 is suitable for selecting radiative wave-length coverage according to the sonorific type of audio-frequency module 106.The sound music that audio-frequency module 106 sends preferably has the musical works of melody, harmony and rhythm structure.But sound music is not only limited to musical works, but it can also be the mixing of each layer of dissimilar such as musical works, natural sound and original sound (as womb sounds, body sounds and the sound from the external space).Such as, when audio-frequency module 106 sends the sound of the first kind, light source 104 can launch the light from first wave length scope.When audio-frequency module 106 sends the sound of Second Type, control module 110 will send signal to light source 104, to launch the light from second wave length scope.The sound of the first kind can be the music categories of such as classical music, and the sound of Second Type can be the different music categories of such as natural sound.Therefore, the sound of the first kind can be different from the sound of Second Type.First wave length scope can be different from second wave length scope.

Except selecting except radiative wave-length coverage according to the sonorific type of audio-frequency module 106, control module 110 can also according to the first masseur 108 execute stressed intensity and select light emitted wave-length coverage.Such as, when the first masseur 108 applies lower pressure, light source 104 can launch blue light, and when the first masseur 108 applies higher pressure, light source 104 can launch orange-colored light.Therefore, control module 110 can be suitable for the operation of synchronous light source 104, audio-frequency module 106 and the first masseur 108.

By periodically imposing pulse to from the varying strength of light source 104 and/or the light of color, pulsed light is attended by from the appropriate sound music of audio-frequency module 106 and the massage from the first masseur 108, thus provides therapeutic effect.By using ocular region massaging equipment 100, by non-intruding mode and for user introduces the behavior and mentality benefit of deserved beneficial when without the need to absorbing chemical drugs.

Find the frequency dependence within the scope of many underlying biological phenomenons and 0.01Hz and 100Hz, wherein, light-brain ripple carries research display secretly, and when people is exposed to the light pulse of (roughly 2Hz to 30Hz) within the scope of general frequency of brain wave, brain tends to final and optical pulse synchronization.Because different frequency of brain wave is correlated with from the different mental status, therefore known light pulse can have an impact to emotion and the mental status.In addition, psychology physiological research display, shades of colour to wake up, loosen, realize that to strengthen or console Behavioral effect relevant.Well-established, cool colour (in bluish-green spectrum) tends to the parasympathetic nervous division stimulating autonomic nervous system (ANS), thus causes pulse rate to decline and cause loosening.On the contrary, warm colour (in reddish orange yellow spectrum) tends to the sympathetic division stimulating ANS, thus causes pulse rate to increase and cause waking up.Neutral colour (pistac and magenta) is tended to make to reach balance and equilibrium between these two parts of ANS.By contributing to the state that the introducing degree of depth is loosened, they can also confirm that be especially effective in reduction stress level.By making ocular region massaging equipment 100 by the recurrent pulses light of varying strength and/or color and suitable sound music and massage combined, provide the treatment experience of enhancing.

Control module 110 can perform the instruction for actuating logic sequence, wherein, starts one or more assemblies (e.g., light source 104, first masseur 108 and audio-frequency module 106) of ocular region massaging equipment 100 according to one or more operator schemes.User can carry out pre-programmed or programming to these operator schemes, is then stored in memorizer.

For often kind of operator scheme, the colourama of the multiple patterns that light source 104 is launched may be there is.These patterns can produce by random, make light source 104 can not be identical for the pattern that the second operational circumstances is light emitted with light source 104 for the pattern that the first operational circumstances is light emitted, the first situation and the second situation have the identical or different persistent period.Therefore, the pattern that light source 104 is light emitted can be nonmonotonic.Speed (that is, the speed of often kind of color change in light emission pattern of light emitted color change; Or in light emission pattern, show the persistent period of often kind of color) attribute of each sound music in multiple sound musics that audio-frequency module 106 sends can be depended on, this means, determine by the attribute relevant to often kind of sound music or determine light emitted color pattern.The example of attribute includes but not limited to the velocity interval of often kind of sound music, timbre and tone.Velocity interval can refer to speed or the rhythm of sound music, usually represents with beat number (bpm) per minute.Timbre refers to tone quality or the tone color of often kind of sound music.Tone refers to the tune of each sound music in muli-sounds music.Relation can be make in each sequence, different pattern light emitted relevant with each specific community set.Such as, during execution sequence, for the first paragraph of sound music, light source 104 can launch the colourama of the first pattern, and for the second segment of sound music, the colourama (emission rate is different from the colourama of the first pattern) of the second pattern can be shown.Described first paragraph can have First Speed, and described second segment can have second speed.Second speed can be identical with First Speed, but the speed of colourama of launching the second pattern can be different from the speed of the colourama of transmitting first pattern, and this is such as because the timbre of the second segment of sound music is different from the timbre of the first paragraph of sound music.

In various embodiments, there is direct relation in the velocity interval that light source 104 changes the sound music that the speed of color of light emitted can be corresponding to the muli-sounds music that sound module 106 sends, this means that the speed that light source 104 changes color of light emitted changes in the mode identical with the velocity interval of sound music.In muli-sounds music, the velocity interval of a corresponding sound music is slower, and light emitted color change is slower.Similarly, in muli-sounds music, the velocity interval of a corresponding sound music is faster, and light emitted color change is faster.

The velocity interval of muli-sounds music comprises: First Speed scope, and it is relevant to any one E.E.G activated in α, β and γ E.E.G group; Second speed scope, it is relevant to any one E.E.G activated in θ, δ and ε E.E.G group; Or third speed scope, it is relevant to any one E.E.G activated in δ and ε E.E.G group.Often kind in muli-sounds music can have specific speed instead of velocity interval.α, β, γ, θ, δ and ε E.E.G is as the electromagnetic oscillation under lower frequency range: α: 7-13Hz; β: 13-30Hz; γ: 40-80Hz; θ: 3.5-7Hz; δ: 0.5-3.5Hz and ε: lower than 0.5Hz.Find according to electroencephalogram (EEG) research, in various state of consciousness, E.E.G is carried pulse secretly and will be presented the correlated components of α, β, γ, θ, δ and ε E.E.G.Also find, the sound music that α, β, γ, θ, δ and ε E.E.G is exposed in response to object and colourama.Therefore, by carefully suitable sound being mixed into sound music and by launching the colourama carefully selecting pattern, forming the various state of consciousness of user.

So, often kind of sound music can be made up of the set of continuous segment, every section have can be identical or different with other section speed.For every section, same color or different light color will be launched.When launching different light color, two interval scopes in succession or between continuous print light color can be identical or can be different, causes the light color pace of change of constant or change respectively thus.The example values of interval is first scope of about 0.05s to about 5s; 3rd scope of second scope of about 0.5s to about 10s and about 3s to about 60s.As an example, using in an embodiment of multiple light-emitting component for light source 104, one section of the sound music that audio-frequency module 106 sends can be along with: the light-emitting component interval scope of launching wherein between two continuous light colors changes of the first quantity is the light of about 15s; And the light-emitting component of the second quantity interval scope of launching wherein between two continuous light color changes is the light of about 2s.Should be appreciated that the light-emitting component for the first quantity, the interval scope between two continuous light color changes falls into the exemplary 3rd interval scope of about 3s to about 60s; And for the light-emitting component of the second quantity, the interval between two continuous light colors changes falls into the exemplary very first time interval of about 0.05s to about 5s or the exemplary second interval scope of about 0.5s to about 10s.

Control module 110 can be suitable for being connected to the peripheral storage device being suitable for storing music.Ocular region massaging equipment 100 can also comprise the memory module 150 being electrically coupled to control module 110, and this memory module 150 is suitable for storing the sound obtained by audio-frequency module 106.Memory module 150 can be suitable for storing further the light emitted color of light source 104, the first masseur 108 execute the sequence of the sound that stressed intensity and audio-frequency module 106 produce.

Figure 1B is the decomposition view of a part for the ocular region massaging equipment 100 schematically shown in Figure 1A.Relatively Figure 1B and Figure 1A, should be appreciated that (in order to for simplicity) not shown audio-frequency module 106, control module 110 and memory module 150 in fig. ib.

Can see from Figure 1B, light source 104 is connected to the inner surface 118i of eyeshield 102.In eyeshield 102, also hold diffusing globe 114, wherein, diffusing globe 114 is between light source 104 and the first masseur 108.Diffusing globe 114 is in the face of light source 104, and the first masseur 108 is accommodated in inside eyeshield 102, in the face of diffusing globe 114.By the first masseur 108 and diffusing globe 114 being contained in inside eyeshield 102, achieve compact device.

Ocular region massaging equipment 100 does not have in the alternative arrangement (not shown) of diffusing globe 114 wherein, and light source 104 is connected to the inner surface 118i of eyeshield 102.First masseur 108 is accommodated in inside eyeshield 102, in the face of light source 104.

Light source 104 can be suitable for launching red, green and blue color.Therefore, the different wavelength range that light source 104 can work is the scope of scope, the approximately 495nm to about 570nm of about 450nm to about 495nm and the scope of about 620nm to about 750nm.Light source 104 preferably uses at least one light emitting diode (LED), and wherein, Figure 1B illustrates the situation of use two LED.

LED can have one or more light-emitting component, and wherein, each element is designed to the light of a scope in the scope of scope, the approximately 495nm to about 570nm launching about 450nm to about 495nm and the scope of about 620nm to about 750nm.Therefore, when two or more in these light-emitting components operationally, each LED by emission source from the light-emitting component that just working launch the colourama of the combination of color.In this way, light source 104 can launch the light crossing over whole visible-range.

Ocular region massaging equipment 100 comprises the light guide structure 112 for receiving light from light source 104.Light guide structure 112 is connected to eyeshield 102, illuminates eyeshield 102 with transillumination.Can see from Figure 1B, light guide structure 112 is connected to the inner surface 118i of eyeshield 102.Light guide structure 112 is in the face of the first masseur 108.

Light guide structure 112 be provided for eyeshield 102 evenly illumination means.Therefore, light guide structure 112 is optional features, this is because by suitably arranging light source 104 directly to illuminate eyeshield 102, still may illuminate eyeshield 102.But, directly illuminate and cause producing speck in the position of eyeshield 102 in light emitted directapath.Illuminate intensity to weaken along with away from speck.Therefore, when not adopting light guide structure 112, eyeshield 102 can not be illuminated equably.

In fig. ib, light guide structure 112 is implemented as two light-guide device 112a and 112b.

These two light-guide device 112a and 112b locate around the center 118c of the vertical pivot 140 being positioned at center of eyeshield 102.One (112a) in two light-guide devices (112a and 112b) is connected to the Part I 102a of eyeshield 102.Another (112b) in two light-guide devices (112a and 112b) is connected to the Part II 102b of eyeshield 102.The Part I 102a of eyeshield 102 is that eyeshield is from the part to axle 140 left part near the vertical pivot 140 being positioned at center of eyeshield 102.The Part II 102b of eyeshield 102 is that eyeshield 102 is from the part to axle 140 right part near the vertical pivot 140 being positioned at center of eyeshield.The vertical pivot 140 being positioned at center is positioned at the stage casing of the distance of the bending section 102c along eyeshield 102, makes the area of the Part I 102a of eyeshield 102 approximately identical with the area of the Part II 102b of eyeshield 102.

Light source 104 comprises two light-emitting component 104a and 104b.First (104a) in these two light-emitting components (104a and 104b) is adjacent with the respective end 112ae of first (112a) in two light-guide devices (112a and 112b).Second (104b) in these two light-emitting components (104a and 104b) is adjacent with the respective end 112be of second (112b) in two light-guide devices (112a and 112b).Each in two light-emitting components (104a and 104b) is arranged on PCB (printed circuit board (PCB)) 120 respectively.PCB 120 provides circuit, to make installed light-emitting component (104a or 104b) work.Therefore, two light-guide device 112a and 112b and light-emitting component 104a form the lighting unit be arranged symmetrically with the vertical pivot 140 being positioned at center.

Each in two light-guide device 112a and 112b has arcuate shape.With reference to the first light-guide device 112a, arcuate shape starts from the end 112ae adjacent with corresponding light-emitting component 104a.First light-guide device 112a extends into the vertical pivot 140 being in substantially parallel relationship to and being positioned at center from end 112ae, and ends at curve 112ac subsequently, and curve 112ac extends away from the vertical pivot 140 being positioned at center.Similarly, for the second light-guide device 112b, arcuate shape starts from the end 112be adjacent with corresponding light-emitting component 104b.Second light-guide device 112b extends into the vertical pivot 140 being in substantially parallel relationship to and being positioned at center from end 112be, and ends at curve 112bc subsequently, and curve 112bc extends away from the vertical pivot 140 being positioned at center.

The layout of two light-emitting components (104a and 104b) and two light-guide devices (112a and 112b) provides many merits.Such as, eyeshield 102 will be illuminated equably, because every half of eyeshield 102 (Part I 102a or Part II 102b) has its single light-emitting component of oneself and the layout of single light-guide device.

Eyeshield 102 comprises shell 118 and diffusing globe 114.Light source 104 is connected to shell 118.Diffusing globe 114 is connected to shell 118.Diffusing globe 114 provides Uniform Illumination in conjunction with light guide structure 112 for eyeshield 102.

Shell 118 can be made up of trnaslucent materials, and the surperficial 118e being connected with the surperficial 118i of light source 104 and the contrary with the surface being connected with light source 104 of shell 118 of shell 118 is illuminated by light source 104.Surface 118e is a part for the outside of ocular region massaging equipment 100, and this outside is visible.In this way, at light source 104 duration of work, a part for the outside of ocular region massaging equipment 100 is also illuminated.The outside illuminating ocular region massaging equipment 100 is allowed to have the advantage showing that ocular region massaging equipment 100 is in use.In addition, the outside illuminating ocular region massaging equipment 100 adds the aesthetic feeling of ocular region massaging equipment 100.

Light guide structure 112 is connected to shell 118.First masseur 108 can be air bag 130.Air bag 130 is arranged against diffusing globe 114.Use air pump (being illustrated schematically as the Reference numeral 510 in Fig. 5) to supply air by conduit 128, thus by nozzle 126, air bag 130 is expanded.Conduit 128 is placed between shell 118 and diffusing globe 114.Conduit 128 is connected to air bag nozzle 126, and nozzle 126 is given prominence to from the hole 160 diffusing globe 114.

Ocular region massaging equipment 100 comprises the second masseur 116.Second masseur 116 is connected to eyeshield 102.Control module 110 is electrically coupled to the second masseur 116 and the sequence be suitable for according to storing in control module 110 operates the second masseur 116.

Second masseur 116 can be connected to the vibrating elements between diffusing globe 114 and air bag 130.Use flat motor 158 as vibrating elements, the second masseur 116 can be made to become compact.

In order to make ocular region massaging equipment 100 compacter, can arrange opening 162 on diffusing globe 114, wherein the second masseur 116 is partially or completely placed in opening 162.This makes the second masseur 116 can be connected between diffusing globe 114 and air bag 130, and the second masseur 116 is positioned at diffusing globe 114 that side in the face of air bag 130 thus.Second masseur 116 is arranged on diffusing globe 114 that side in the face of air bag 130, also makes the second masseur 116 closer to the eyes of user or eyes and user's eyes or two circumocular region.Place closer to the massage enhancing user and experience.

Fig. 2 and Fig. 3 A to Fig. 3 B illustrates the specific implementation of light guide structure 112.

Fig. 2 is perspective Figure 200 of an eyeshield part.A part for shown eyeshield 218 has the shape of shell 248, and wherein, shell 248 is parts of the ocular region massaging equipment according to an embodiment of the invention.

In the embodiment shown in figure 2, light guide structure 112 has light-guide device 212, and light-guide device 212 extends along a part for the major axis 202 of eyeshield 218, to cover the distance between user's temple.In the embodiment shown in figure 2, should be appreciated that the bending section 206c that major axis 202 is parallel to eyeshield 218 extends, and light-guide device 212 to be positioned at eyeshield 218 along bending section 206c inner.

Light-guide device 212 from around user's left eye 230 and the distance ended at around user's right eye 232 extend.

In the embodiment shown in figure 2, light source 104 comprises at least one light-emitting component 204.At least one light-emitting component 204 is adjacent to arrange with one end 212e of light-guide device 212.In addition, at least one light-emitting component 204 is arranged on pcb board 220, and pcb board 220 provides circuit, and at least one light-emitting component 104 is worked.

Fig. 3 A illustrates the alternative arrangement of light source 104.

Fig. 3 A is the perspective view 300 of a part for eyeshield 318.A part for shown eyeshield 318 has the shape of shell 348, and wherein, shell 348 is parts of the ocular region massaging equipment according to an embodiment of the invention.

Light source 104 has two light-emitting component 304a and 304b.One (304a) in these two light-emitting components (304a and 304b) is adjacent to arrange with one end 312f of light-guide device 312.Another (304b) in these two light-emitting components (304a and 304b) is adjacent to arrange with the other end 312s of light-guide device 312.Each in these two light-emitting components (304a and 304b) is respectively installed on PCB (420a and 420b).Each PCB (420a and 420b) provide circuit, to make installed light-emitting component (304a or 304b) work.

Compared with only using Fig. 2 of a light-emitting component, two light-emitting components are used more uniformly to illuminate eyeshield 318.Compared with arranging with the light source 104 of Fig. 2, the light source 104 of Fig. 3 A is arranged and is reduced production and maintenance cost.

In addition, the embodiment shown in Fig. 2 eliminates the interference of less desirable color.When illuminating eyeshield by less desirable color, occur that less desirable color is disturbed.In the eyeshield 218 of Fig. 2, less desirable color is there will not be to disturb, because only have a light-emitting component 104 to control to illuminate the color of eyeshield 218.In figure 3 a, control with two light-emitting component 304a and 304b the color illuminating eyeshield 318.If two light-emitting component 304a and 304b do not have accurate synchronization required to illuminate color to launch, then can cause less desirablely illuminating color in eyeshield 318.On the other hand, the equipment of Fig. 3 A can be used to realize color gradient better.

The light-guide device 312 of Fig. 3 A extends along a part for the major axis 302 of eyeshield, to cover the distance between user's temple.Light-guide device 312 also from around user's left eye 330 and the distance ended at around user's right eye 332 extend.

Light guide structure 112 (that is, light-guide device 212 and 312) only uses discrete component (as shown in Fig. 2 and Fig. 3 A) to mean ocular region massaging equipment for ease of maintenaince.

Fig. 3 B is the perspective view 350 that light source 104 uses the situation of a light-emitting component 354 (as compared to using two light-emitting components [104a with 104b] in Figure 1B).At least one light-emitting component 354 is adjacent with the respective end (112ae and 112be) of each light-guide device in two light-guide devices (112a and 112b) as follows: coupling light in two light-guide devices from least one light-emitting component 354.Compared with two light-emitting components, single light-emitting component advantage is used to be that it is more cheap.In addition, two light-guide devices (112a and 112b) of comparing the light guide structure 112 of Figure 1B and light guide structure 112, Fig. 3 B of Fig. 3 B are placed each other more adjacent to each other than two light-guide devices (112a and 112b) of Figure 1B.Two light-guide devices (112a and 112b) of Fig. 3 B near make can with two light-guide devices (112a and 112b) of same light-emitting component 354 illuminated picture 3B.

In the embodiment shown in Figure 1A to Fig. 3 B, the one or more light pipes be made up of the material of such as transparent plastic can be used to realize light-guide device (112a and 112b of light guide structure 112; 212 and 312).

Fig. 4 is the perspective view of the air bag 130 according to an embodiment of the invention.Air bag 130 is designed to expand to the region between user's temple, and covers the eyes of user.Air bag 130 has Part I 404 and Part II 406.Part I 404 is suitable for massaging eye socket, and Part II 406 is suitable for massaging the temple adjacent with each eye.Therefore, air bag 130 is suitable for provides massage from eye frame to adjacent temporal region.Air bag 130 also has opening 402, for observing diffusing globe 114 (see Figure 1B) with not stopped, therefore allows eyes of user to see by the bright diffusing globe 114 of the illumination from light source 104 (see Figure 1B).

Fig. 5 illustrates that the block level of ocular region massaging equipment 100 represents.

Fig. 5 illustrates and realize control module 110 in hand held controller 502.Hand held controller 502 comprises twisted nematic (TN) screen 506 (such as, LCD screen), battery case 508, pump motor 510 and valve 512.Pump motor 510 is couple to valve 512 by corresponding air hose 514.Then by air hose connection 530, valve 512 is connected to Part I 404 and the Part II 406 of air bag 130.Should be appreciated that can each by the independent Control Component of control module 110 510,512,106,116,104 and 130.

Control module 110 also comprises microcontroller (MCU) unit 504 and submodule 516,518,520,522,524,526 and 528.

Speaker submodule 516 is electrically coupled to audio-frequency module 106, with the operation allowing MCU 504 to control audio-frequency module 106.Vibrating motor control submodule 518 is electrically coupled to the second masseur 116, with the operation allowing MCU 504 to control the second masseur 116.LED driver submodule 520 is electrically coupled to light source 104, with the operation allowing MCU 504 to control light source 104.TN screen 506 is electrically coupled to TN screen control submodule 528.Battery case 508 is electrically coupled to battery control 526, and battery control 526 is powered for control module 110.Valve 512 is controlled by electromagnetic air valve control 522, and pump 510 is controlled by motor control 524.

Fig. 6 A and Fig. 6 B is front view and the side view of the embodiment of the ocular region massaging equipment 600 schematically shown in Figure 1A respectively, and Fig. 6 C and Fig. 6 D provides different perspective views.

Fig. 7 is the decomposition view of ocular region massaging equipment 600.

Comparison diagram 7 and Figure 1A, should be appreciated that (in order to for simplicity) not shown control module 110 and memory module 150 in the figure 7.

The eyeshield 102 of ocular region massaging equipment 600 has two frame parts, the first frame part 702a and the second frame part 702b.Pivot 740 connects the first frame part 702a and the second frame part 702b.In the embodiment shown in figure, pivot 740 is center bridge fittings that the first frame part 702a is connected via corresponding hinge 742 with the second frame part 702b.Corresponding hinge 742 makes the first frame part 702a and the second frame part 702b around center bridge fitting pivotable, makes massage apparatus 600 collapsible thus is easy to carry and ensure that frame part 702a and 702b meets the shape of user's face.In one embodiment, the pivoting angle of each frame part 702a and 702b is approximately 30 °, although other folding angles any making frame part 702a and 702b cross on user's ear is possible.Flexibility each in these two frame part 702a and 702b also contributes to ocular region massaging equipment 600 further and meets user's face.

The light guide structure 712 receiving light from light source 104 is connected to eyeshield 102, illuminates eyeshield 102 with transillumination.Light guide structure 712 is connected to the first frame part 702a and the second frame part 702b of eyeshield 102.In the embodiment shown in figure, light guide structure 712 is set to the first eyeglass 712a and the second eyeglass 712b, and each eyeglass 712a and 712b is arranged in each frame section office in the first frame part 702a and the second frame part 702b.Each in eyeglass (712a and 712b) has the surface comprising protuberance (744a and 744b), the shape of these protuberances is suitable for being contained in the hole (747a and 747b) of the corresponding size in the interior surface of the frame part (702a and 702b) being formed in eyeshield 102, to contribute to the connection of eyeglass (712a and 712b) and corresponding frame part (702a and 702b).In addition, the each whole thickness in the frame part (702a and 702b) of eyeshield 102 is run through in hole 747, make when illuminating the first eyeglass 712a and the second eyeglass 712b, the light that can leave protuberance 744 according to passing hole 747 is observed in outside and is illuminated.

Each surf zone with covering eye socket in eyeglass (712a and 712b), and be arranged in visual field when user wears ocular region massaging equipment 600.Each eyeglass (712a and 712b) can be made up of transparent or semitransparent material (e.g., Merlon or acrylic plastics).In order to reflected light, surface is preferably polished, and in order to obtain illuminating of uniformity, surface preferably has diffusive.Therefore, in order to illuminate eyeglass (712a and 712b) equably with the light introduced along any point on eyeglass (712a and 712b) periphery, eyeglass (712a and 712b) can have diffusion or irregular surface.In order to contribute to uniform illumination further, each eyeglass (712a and 712b) is also made to bend, as shown in Figure 7.

Housing (748a and 748b) is arranged along a part for each eyeglass (712a and 712b) periphery, to hold light source 104.Housing (748a and 748b) guarantees that light source 104 (being set at least one light emitting diode (704a and 704b) in the present embodiment) is fixed on optimum position, in this position, eyeglass (712a and 712b) is illuminated the most equably by the light from corresponding light emitting diode (704a and 704b), user is seen when wearing ocular region massaging equipment 600 and illuminates uniformly.

Light guide structure 104 (eyeglass 712a) is fixed to the first frame part 702a by the first covering 760a, and light guide structure 104 (eyeglass 712b) is fixed to the second frame part 702b by the second covering 760b.

In the embodiment shown in figure, the first masseur 108 is between a pair packed layer 764a and 764b.First masseur 108 can be air bag 708.Use air pump (not shown) to supply air by nozzle 728, expand to make air bag 708.Air bag 708 has Part I 708f and two Part II 708s.Part I 708f is suitable for massaging eye socket, and Part II 708s is suitable for massaging the temple adjacent with each eye.Adopt this layout, the sequence that air bag 708 is designed to according to storing in control module 110 provides more vibration massage to the region extended between user's temple (comprising eyes).

Pair of holes ring structure (766a and 766b) is for aliging the first frame part 702a of packed layer (764a and 764b), air bag 708 and covering (760a and 760b) and eyeshield 102 and the second frame part 702b.Orifice ring structure (766a and 766b) has enough degree of depth running through the corresponding opening (764bh, 708h, 764ah and 760h) of packed layer 764a, air bag 708, packed layer 764b and covering (760a and 760b).In this way, opening (764bh, 708h, 764ah and 760h) aligns with eyeglass (712a and 712b), and make when user wears ocular region massaging equipment 600, eyeglass (712a and 712b) is in visual field.One end of described pair of holes ring structure (766a and 766b) has flange, to extend beyond the periphery of outermost opening (that is, the opening 764bh of packed layer 764b).

Second masseur 716 is connected to eyeshield 102.Control module 110 is electrically coupled to the second masseur 716, and the sequence be suitable for according to storing in control module 110 operates the second masseur 716.In the embodiment shown in figure, the second masseur 716 can be contained in the vibrating motor in pivot 740.Pivot 740 can also hold heater.

One end 768a of restraint zone 768 is fixed to the first frame part 702a of eyeshield 102, and its other end 768b is fixed to the second frame part 702b of eyeshield 102.In the embodiment shown in figure, audio-frequency module 106 is implemented as a pair speaker 706a and 706b, and this is connected to eyeshield 102 corresponding first frame part 702a and the second frame part 702b to speaker.

Fig. 8 A provides the perspective view of ocular region massaging equipment 600.As shown in Figure 8 A, layer 802 is wound on the external surface peripheral of eyeshield 102 front portion.Layer 802 by any one in following material or multiplely can be made: fabric, textile or rubber.In the embodiment shown in Fig. 8 A, layer 802 is throughout the outer surface of the first frame part 702a and the second frame part 702b.Except improving the aesthetic feeling of ocular region massaging equipment 600, layer 802 (in one embodiment, being manufactured by soft fabric) also protects ocular region massaging equipment 600 (especially eyeshield 102) from impact and scraping.Layer 802 can also be perforated or be made up of trnaslucent materials, to allow the Transmission light of the protuberance (744a and 744b) from eyeglass (712a and 712b) to spill, thus can from outward attention to eyeshield 102 illuminate.

Fig. 8 B provides another perspective view of ocular region massaging equipment 600, and wherein fabric 802 is wound on the external surface peripheral of eyeshield 102 front portion.

Fig. 8 C to Fig. 8 F illustrates the perspective view of ocular region massaging equipment 600.In order to for simplicity (comparison diagram 7), in Fig. 8 C to Fig. 8 F, eliminate packed layer 764a and 764b, air bag 708 and restraint zone 768.

Perspective view when Fig. 8 C and Fig. 8 D illustrates that ocular region massaging equipment 600 is folding respectively and top view.

Fig. 8 E and Fig. 8 F illustrates perspective view and the top view of ocular region massaging equipment 600 respectively.Compare with the ocular region massaging equipment 600 shown in Fig. 8 D with Fig. 8 C, the ocular region massaging equipment 600 when Fig. 8 E and Fig. 8 F illustrates folding.As mentioned above, folding by the convenient ocular region massaging equipment 600 of pivot 740.

The exploded view of the ocular region massaging equipment 600 when Fig. 8 G illustrates compared with the decomposition view shown in Fig. 7.Fig. 8 G and Fig. 8 C to Fig. 8 F is made comparisons, should be appreciated that packed layer 764a and 764b, air bag 708 and restraint zone 768 are made up of flexible material, make them that ocular region massaging equipment 600 can be made to fold, as shown in Fig. 8 E and Fig. 8 F.

Paragraph below provide the massage apparatus as shown in Figure 1A to Fig. 8 G the further details of the structural configuration that uses and material.

With reference to Figure 1A to Fig. 8 G, light source 104 comprises at least one light emitting diode (LED).Therefore, LED can be used to realize light-emitting component (104a and 104b; 304a and 304b; 704a and 704b).

Forward Fig. 2 to Fig. 3 A and Fig. 3 B to, light source 104 is connected to shell 248/348/358.Shell 248/348/358 can be made up of trnaslucent materials.This makes the surperficial 218e/318e/358e being connected with the surperficial 218i/318i/358i of light source 104 and the contrary with the surface being connected with light source 104 of shell 248/348/358 of shell 248/348/358 be illuminated by light source 104.In addition, light guide structure 112 is connected to shell 248/348/358.Audio-frequency module 106 can be a pair earphone or one group of speaker.

Although not shown in Fig. 2 to Fig. 3 A, feature below can be comprised:

I) diffusing globe of shell 248/348/358 is connected to.

Ii) be connected to the first masseur of diffusing globe, the first masseur is air bag; And

Iii) be placed in the second masseur between diffusing globe and the first masseur, the second masseur is flat motor.

Rigidity plastics can be used to manufacture shell 118/248/348/358.Similarly, rigidity plastics can also be used for diffusing globe 114, wherein, diffusing globe 114 can be made up of the trnaslucent materials identical with the trnaslucent materials for shell 118/248/348/358.Fabric can be used to cover a part for ocular region massaging equipment 100, but at least major part leaving the surperficial 118e/218e/318e/358e of shell 118/248/348/358 is not capped.Audio-frequency module 106 can be attached to the fabric covering ocular region massaging equipment 100.

Forward Fig. 6 A to Fig. 8 G to, also can use rigidity plastics to manufacture the first frame part 702a, the second frame part 702b, the first covering 760a and the second covering 760b.Fabric can be used for packed layer 764a and 764b.Elastomeric material can be used for restraint zone 768.

Claims (39)

1. an ocular region massaging equipment, described ocular region massaging equipment comprises:

Eyeshield;

Light source, described light source is connected to described eyeshield and is configured to illuminate described eyeshield;

Audio-frequency module, described audio-frequency module is suitable for producing sound;

First masseur, described first masseur is connected to described eyeshield, and described first masseur is used for massaging eyes region; And

Control module, described control module is electrically coupled to described light source, described audio-frequency module and described first masseur, and wherein, described control module is suitable for controlling described light source, described audio-frequency module and described first masseur; And

Light guide structure, described light guide structure is configured to receive light from described light source, and wherein, described light guide structure extends along a part for described eyeshield, and is configured to the Uniform Illumination providing described eyeshield.

2. ocular region massaging equipment according to claim 1, wherein, described control module be also suitable for according to the sequence stored in described control module operate in described light source, described audio-frequency module and described first masseur at least one.

3. ocular region massaging equipment according to claim 1 and 2, wherein, described light source is also suitable for launching the light with the wavelength falling into one or more different wavelength range, and wherein, described control module is suitable for selecting described one or more different wavelength range.

4. ocular region massaging equipment according to claim 3, wherein, described control module is also suitable for changing radiative wave-length coverage during performing the sequence stored in described control module.

5. ocular region massaging equipment according to claim 3, wherein, the type that described control module is also suitable for the sound produced according to described audio-frequency module selects radiative wave-length coverage.

6. ocular region massaging equipment according to claim 1, wherein, described control module is also suitable for being connected to the peripheral storage device being suitable for storing music.

7. ocular region massaging equipment according to claim 1, described ocular region massaging equipment also comprises the memory module being electrically coupled to described control module, and described memory module is suitable for storing the sound obtained by described audio-frequency module.

8. ocular region massaging equipment according to claim 3, wherein, described different wavelength range comprises the scope of the scope of 450nm to 495nm, the scope of 495nm to 570nm or 620nm to 750nm.

9. ocular region massaging equipment according to claim 1, wherein, described light guide structure comprises light-guide device, and described light-guide device extends along a part for the major axis of described eyeshield, so that the distance between user's temple to extend.

10. ocular region massaging equipment according to claim 9, wherein, described light source comprises at least one light-emitting component, and one end of at least one light-emitting component described and described light-guide device is adjacent to locate.

11. ocular region massaging equipment according to claim 9, wherein, described light source comprises two light-emitting components, wherein, a light-emitting component in described two light-emitting components and one end of described light-guide device are adjacent to locate, and the other end of another light-emitting component in described two light-emitting components and described light-guide device is adjacent to locate.

12. ocular region massaging equipment according to claim 1, wherein, described light guide structure comprises two light-guide devices, a light-guide device in described two light-guide devices is connected to the Part I of described eyeshield, another light-guide device in described two light-guide devices is connected to the Part II of described eyeshield, wherein, the described Part I of described eyeshield be described eyeshield from the part to the left part of described axle around the vertical pivot being positioned at center of described eyeshield, and wherein, the described Part II of described eyeshield be described eyeshield from the part to the right part of described axle around the vertical pivot being positioned at center of described eyeshield.

13. ocular region massaging equipment according to claim 12, wherein, described light source comprises at least one light-emitting component, and at least one light-emitting component described is adjacent with each respective end in described two light-guide devices as follows: couple light to described two light-guide devices from least one light-emitting component described.

14. ocular region massaging equipment according to claim 12, wherein, described light source comprises two light-emitting components, the respective end of a light-guide device in a light-emitting component in described two light-emitting components and described two light-guide devices is adjacent, and the respective end of another light-emitting component in described two light-emitting components and another light-guide device in described two light-guide devices is adjacent.

15. ocular region massaging equipment according to claim 1, wherein, described light guide structure comprises at least one light pipe.

16. ocular region massaging equipment according to claim 1, wherein, described eyeshield comprises shell and is connected to the diffusing globe of described shell, and described light source is connected to described shell.

17. ocular region massaging equipment according to claim 16, wherein, described shell is made up of trnaslucent materials, and wherein, described light source is configured to illuminate the surface being connected with described light source of described shell and the surface contrary with the surface being connected with described light source.

18. ocular region massaging equipment according to claim 16 or 17, wherein, described light guide structure is connected to described shell.

19. ocular region massaging equipment according to claim 16 or 17, wherein, described first masseur is arranged against described diffusing globe.

20. ocular region massaging equipment according to claim 1, wherein, the ocular that described first masseur is suitable for extending to the adjacent temple from the eye socket of eyes to described eyes provides massage.

21. ocular region massaging equipment according to claim 16, described ocular region massaging equipment also comprises the second masseur being connected to described eyeshield, wherein, described control module is electrically coupled to described second masseur and is suitable for operating described second masseur according to the sequence stored in described control module.

22. ocular region massaging equipment according to claim 21, wherein, described second masseur comprises the vibrating elements be connected between described diffusing globe and air bag.

23. ocular region massaging equipment according to claim 22, wherein, described vibrating elements is flat motor.

24. ocular region massaging equipment according to claim 1, wherein, described light source is connected to the inner surface of described eyeshield, and wherein, described first masseur is contained in inside described eyeshield also in the face of described light source.

25. ocular region massaging equipment according to claim 1,

Wherein, described light source is connected to the inner surface of described eyeshield,

Wherein, described ocular region massaging equipment also comprises the diffusing globe be contained in inside described eyeshield, described light source faced by described diffusing globe, and

Wherein, described first masseur is contained in inside described eyeshield also in the face of described diffusing globe.

26. ocular region massaging equipment according to claim 1, wherein, described eyeshield comprises:

First frame part;

Second frame part; And

Pivot, described pivotally connected described first frame part and described second frame part, described light guide structure is connected to described first frame part and described second frame part.

27. ocular region massaging equipment according to claim 26, wherein, described light guide structure comprises the eyeglass at each place be arranged in described first frame part and described second frame part.

28. ocular region massaging equipment according to claim 27, described ocular region massaging equipment also comprises the housing that the part along the periphery of described eyeglass is arranged, described housing holds described light source.

29. ocular region massaging equipment according to any one in claim 26 to 28, described ocular region massaging equipment also comprises:

First covering, described light guide structure is fixed to described first frame part by described first covering; And

Second covering, described light guide structure is fixed to described second frame part by described second covering.

30. ocular region massaging equipment according to any one in claim 26 to 28, described ocular region massaging equipment also comprises the second masseur being connected to described eyeshield, wherein, described control module is electrically coupled to described second masseur and is suitable for operating described second masseur according to the sequence stored in described control module.

31. ocular region massaging equipment according to claim 30, wherein, described second masseur comprises the vibrating motor be contained in described pivot.

32. ocular region massaging equipment according to claim 26, described ocular region massaging equipment also comprises a pair packed layer, and described first masseur is between this is to packed layer.

33. ocular region massaging equipment according to claim 26, described ocular region massaging equipment also comprises restraint zone, one end of described restraint zone is fixed to described first frame part of described eyeshield, and the other end of described restraint zone is fixed to described second frame part of described eyeshield.

34. ocular region massaging equipment according to claim 26, described ocular region massaging equipment also comprises the layer of the outer surface spreading all over described first frame part and described second frame part.

35. ocular region massaging equipment according to claim 34, wherein, described layer allows printing opacity.

36. ocular region massaging equipment according to claim 34 or 35, wherein, described layer is manufactured by any one or more in material below: fabric, textile or rubber.

37. ocular region massaging equipment according to claim 34 or 35, wherein, described layer is perforated.

38. ocular region massaging equipment according to claim 1, wherein, described first masseur comprises air bag.

39. ocular region massaging equipment according to claim 1, wherein, described light source comprises at least one light emitting diode.