CN108433231A - Wearable - Google Patents

Abstract

Present disclose provides a kind of Wearables, including：Ontology, the ontology can surround to form the first area of space when contacting with external device and operating body, wherein, at least two through-holes are provided on the ontology, at least two through-hole can form at least one gas channel with first area of space, allow gas to enter first area of space by the external world, and carries the moisture in first area of space and leave first area of space.

Description

Wearable

Technical field

This disclosure relates to a kind of Wearable.

Background technology

With the continuous development of science and technology, various Wearables are increasingly being applied to daily life In.Existing Wearable, since air circulation is bad, often generates fog when being contacted with user, influences using effect, Cause user experience poor.As user is higher and higher to the performance requirement of Wearable, therefore how to improve wearable set Standby air circulation performance promotes user and dresses the problem of experience becomes urgent need to resolve.

Invention content

An aspect of this disclosure provides a kind of Wearable, including：Ontology, the ontology with external device with And it can surround to form the first area of space when operating body contact, wherein at least two through-holes are provided on the ontology, it is described At least two through-holes can form at least one gas channel with first area of space so that gas can be entered by the external world First area of space, and carry the moisture in first area of space and leave first area of space.

Optionally, above-mentioned Wearable further includes：Ventilation device, for reducing at least two through-hole at least The atmospheric pressure of the one end of one first through hole far from first area of space so that gas can be logical from described at least two The second through-hole of at least one of hole enters first area of space, and leaves described the from least one first through hole One area of space.

Optionally, above-mentioned external device includes eyeglass, and the eyeglass is contacted with first area of space.

Optionally, one end of close first area of space of above-mentioned at least two through-hole is arranged to be located at close to the mirror Piece.

Optionally, above-mentioned at least two through-hole can form at least one gas channel with first area of space, make First area of space can be entered by the external world by obtaining the gas, and is carried the fog on the eyeglass and left first sky Between region.

Optionally, each through-hole in above-mentioned at least two through-hole is arranged to curved shape.

Optionally, above-mentioned ventilation device is connect by the first hollow pipe at least one first through hole.

Optionally, above-mentioned ventilation device includes fan, and the fan is adjustably towards the operating body.

Optionally, one end of close first area of space of above-mentioned at least two through-hole is arranged to be located at close to the mirror Piece, including：By the way that the second hollow pipe is configured at least two through-hole；Close first space of second hollow pipe The one end in region is arranged to positioned at the edge of the eyeglass.

Optionally, above-mentioned second hollow pipe is made of lighttight material.

Description of the drawings

In order to which the disclosure and its advantage is more fully understood, referring now to being described below in conjunction with attached drawing, wherein：

Fig. 1 diagrammatically illustrates the application scenarios of the Wearable according to the embodiment of the present disclosure；

Fig. 2A~Fig. 2 B diagrammatically illustrate the structural schematic diagram of the Wearable according to the embodiment of the present disclosure；And

Fig. 3 A~Fig. 3 C diagrammatically illustrate the structural schematic diagram of the ontology of the Wearable according to the embodiment of the present disclosure.

Specific implementation mode

Hereinafter, will be described with reference to the accompanying drawings embodiment of the disclosure.However, it should be understood that these descriptions are only exemplary , and it is not intended to limit the scope of the present disclosure.In addition, in the following description, descriptions of well-known structures and technologies are omitted, with Avoid unnecessarily obscuring the concept of the disclosure.

Term as used herein is not intended to limit the disclosure just for the sake of description specific embodiment.It uses herein The terms "include", "comprise" etc. show the presence of the feature, step, operation and/or component, but it is not excluded that in the presence of Or other one or more features of addition, step, operation or component.

There are all terms (including technical and scientific term) as used herein those skilled in the art to be generally understood Meaning, unless otherwise defined.It should be noted that term used herein should be interpreted that with consistent with the context of this specification Meaning, without should by idealization or it is excessively mechanical in a manner of explain.

It, in general should be according to this using " in A, B and C etc. at least one " such statement is similar to Field technology personnel are generally understood the meaning of the statement to make an explanation (for example, " with system at least one in A, B and C " Should include but not limited to individually with A, individually with B, individually with C, with A and B, with A and C, with B and C, and/or System etc. with A, B, C).Using " in A, B or C etc. at least one " such statement is similar to, it is general come Say be generally understood the meaning of the statement to make an explanation (for example, " having in A, B or C at least according to those skilled in the art One system " should include but not limited to individually with A, individually with B, individually with C, with A and B, with A and C, have B and C, and/or system etc. with A, B, C).It should also be understood by those skilled in the art that substantially arbitrarily indicating two or more The adversative conjunction and/or phrase of optional project shall be construed as either in specification, claims or attached drawing It gives including one of these projects, the possibility of these projects either one or two projects.For example, phrase " A or B " should It is understood to include the possibility of " A " or " B " or " A and B ".

Present disclose provides a kind of Wearable, including ontology, which contacts with external device and operating body When can surround to form the first area of space, wherein be provided at least two through-holes on ontology, at least two through-holes and first empty Between region can form at least one gas channel so that gas can by the external world enter the first area of space, and carry first Moisture in area of space leaves the first area of space.

As it can be seen that in the technical solution of the embodiment of the present disclosure, by the way that multiple through-holes are arranged on the ontology of Wearable, Multiple through-hole can form gas channel so that when user dresses the Wearable and generates moisture, be set positioned at wearable Standby extraneous gas is flowed into from through-hole in Wearable, which carries away the wet of equipment generation by gas channel Gas reaches the air circulation performance for improving Wearable, meets the effect of experience of the user using Wearable.

In order to make the application the technical staff in the technical field be more clearly understood that the present invention, below in conjunction with the accompanying drawings, Technical solution of the present invention is described in detail by specific embodiment.

Fig. 1 diagrammatically illustrates the application scenarios of the Wearable according to the embodiment of the present disclosure.

As shown in Figure 1, the application scenarios 30 for example may include user 10 and Wearable 20.

According to the embodiment of the present disclosure, Wearable 20 can wearable be formed in human body and with human body relatively close The equipment for closing space, the Wearable 20 for example can be virtual implementing helmet, divers' helmet or other kinds of safety Helmet etc..In order to make it easy to understand, explaining by taking virtual implementing helmet as an example below.

Existing virtual implementing helmet is the mask by being close to 10 face of user, by display screen and lens module and makes The eye of user forms a relatively closed space, allows user to can only see the light sent out by lens, without by outer The influence of boundary's light.But while barrier ambient, most air circulation, the sweat that user's face goes out also are obstructed It can gradually evaporate, be attached on lens so that lens thicken with the body temperature of face.

Therefore, how improving the air circulation performance of Wearable when in use will solve the problems, such as the disclosure.

With reference to the application scenarios of Fig. 1, described according to disclosure illustrative embodiments with reference to figure 2A~Fig. 3 C Electronic equipment.It should be noted that above application scene is merely for convenience of understanding spirit and principles of the present invention and showing, this The embodiment of invention is unrestricted in this regard.On the contrary, embodiments of the present invention can be applied to it is applicable any Scene.

Fig. 2A~Fig. 2 B diagrammatically illustrate the structural schematic diagram of the Wearable according to the embodiment of the present disclosure.

As shown in Figure 2 A, the Wearable 20 of the embodiment of the present disclosure include ontology 200, the ontology 200 with outer tipping It can surround to form the first area of space 210 when setting 100 and operating body contact.

According to the embodiment of the present disclosure, Wearable 20 for example can be virtual implementing helmet, the Wearable 20 Can such as consist of two parts, including ontology 200 and external device 100, the Wearable 20 in use, such as with When operating body contacts, directly contacted with operating body by ontology 200.Such as when Wearable 20 is worn on user, this When operating body be user, more specifically, when virtual implementing helmet is worn on user's head, virtual implementing helmet and user's face Contact, operating body is, for example, the face of user at this time.

In the embodiments of the present disclosure, 200 part of ontology of Wearable for example can be in Wearable 20 with behaviour Make the part of body contact, such as when Wearable 20 is virtual implementing helmet, ontology 200 is, for example, in virtual implementing helmet The visor portion contacted with user's face.The ontology 200 for example when being contacted with operating body, is in close contact with operating body.

According to the embodiment of the present disclosure, Wearable 20 further includes external device 100, when Wearable 20 is virtual existing When the real helmet, which is, for example, the part for including display screen and lens module, real by the external device 100 The main display function of existing Wearable.The external device 100 is when Wearable is contacted with operating body far from operating body Part.

As shown in Figure 2 B, the external device 100 that Wearable 20 includes is connected with each other with ontology 200, is using wearing When formula equipment 20, the external device 100 of the realization display function is worn on by ontology 200 on operating body.External device 100 Connection type with ontology 200 for example can be detachably connected, which is convenient for damaged in ontology 200 When, the ontology 200 more renewed at any time improves the flexibility of Wearable 20.It is appreciated that the embodiment of the present disclosure does not limit this The company can be specifically arranged in the specific connection type of body 200 and external device 100, those skilled in the art according to practical situations Connect mode.

According to the embodiment of the present disclosure, when in use, the Wearable 20 is for example close with operating body for Wearable 20 Contact, at this point, the ontology 200 of Wearable and external device 100 and operating body surround to form one relatively closed the One area of space 210.When the first relatively closed area of space 210 is enabled to using Wearable 20, reduce extraneous Influence of the light to first area of space 210.

The external device 100 of the embodiment of the present disclosure includes eyeglass 110, and eyeglass 110 is contacted with the first area of space 210.

In the embodiments of the present disclosure, external device is realized by the eyeglass 110 using wearable for example including eyeglass 110 The viewing function of equipment.The eyeglass 110 is contacted with the first area of space 210, specifically, ontology 200 includes one and 110 ruler of eyeglass Very little matched hole, when external device 100 is connect with ontology 200, the eyeglass 110 of external device 100 is placed in ontology 200 relatively In the hole answered, and the eyeglass 110 is placed in the corresponding holes Kong Shiyu and is fitted close, and realizes eyeglass 110 and the first area of space 210 contacts.

Fig. 3 A~Fig. 3 C diagrammatically illustrate the structural schematic diagram of the ontology of the Wearable according to the embodiment of the present disclosure.

As shown in Fig. 3 A~Fig. 3 B, it is provided at least two through-holes 220 on the ontology 200 of the embodiment of the present disclosure, at least two A through-hole 220 and the first area of space 210 can form at least one gas channel so that gas can enter first by the external world Area of space 210, and the moisture carried in the first area of space 210 leaves the first area of space 210.

Specifically, as shown in Figure 3A, at least two through-holes 220 are provided on ontology 200, such as in the multiple of ontology 200 Multiple through-holes 220 are arranged in position, and one end of each through-hole of multiple through-hole 220 and the external environment of Wearable 20 connect It touches, the other end is contacted with the first area of space 210.

According to the embodiment of the present disclosure, the specific location that multiple through-holes 220 are located at ontology 200 is not limited, multiple logical Hole 220 can be located at any position of ontology 200, such as positioned at the upper and lower position of ontology 200 or two side positions etc., ability Field technique personnel can be specifically arranged according to practical situations.Preferably, the embodiment of the present disclosure is located at ontology with multiple through-holes 220 Description is made for 200 upper and lower position.

In the embodiments of the present disclosure, the sectional view of ontology 200 is as shown in Figure 3B, which can clearly represent The concrete structure of multiple through-holes 220.

Specifically, such as in multiple through-holes 220 it is located at the upper and lower position of ontology 200, it is real by multiple through-hole 220 Existing first area of space 210 is connect with external environment.

As shown in Figure 3B, at least two through-holes 220 and the first area of space 210 can form at least one gas channel, The gas channel is, for example, shown in the arrow in Fig. 3 B.

In the embodiments of the present disclosure, outside air for example flows into the first area of space from the through-hole positioned at 200 lower section of ontology In 210, and it is empty to carry the moisture in the first area of space 210 leaves ontology 200 from the through-hole above ontology 200 first Between region 210.

As shown in Figure 3B, the Wearable 20 of the embodiment of the present disclosure further includes ventilation device 230, the ventilation device 230 For reducing the air of the one end of at least one of at least two through-holes 220 first through hole 221 far from the first area of space 210 Pressure so that gas can enter the first area of space 210 from second through-hole 222 of at least one of at least two through-holes 220, And leave the first area of space 210 from least one first through hole 221.

According to the embodiment of the present disclosure, Wearable 20 includes ventilation device 230, which is for example connected to The top position of ontology 200, the ventilation device 230 can for example be used for reducing atmospheric pressure.

In the embodiments of the present disclosure, it is set to the through-hole example for being located at 200 top of ontology in multiple through-holes 220 of ontology 200 Such as it is first through hole 221, first through hole 221 includes both ends, and one end is located adjacent to the position of the first area of space 210, the other end It is located remotely from the position that the first area of space 210 is in contact with extraneous upper air.Through-hole below ontology 200 is for example For the second through-hole 222, second through-hole 222 for example, it also includes both ends, one end are located adjacent to the position of the first area of space 210, The other end is located remotely from the position that the first area of space 210 is in contact with extraneous lower air.

According to the embodiment of the present disclosure, ventilation device 230 is for example located adjacent to first through hole 221 far from the first area of space 210 positions, the ventilation device 230 are used for reducing the outside air pressure of the one end of first through hole 221 far from the first area of space 210 By force.When the atmospheric pressure of the one end of first through hole 221 far from the first area of space 210 reduces, since 200 upper and lower of ontology is deposited In pressure difference so that the gas around the second through-hole 222 of 200 lower section of ontology enters the first area of space 210 by the second through-hole 222 In, which for example takes away the moisture of the first area of space 210, and leaves the first area of space 210 from first through hole 221.

According to the embodiment of the present disclosure, ventilation device 230 includes fan, the fan adjustably oriented manipulation body.

In the embodiments of the present disclosure, it can be for example fan for reducing the ventilation device of atmospheric pressure 230, pass through fan Blow peripherad air so that air flows the pressure that air is reduced with this.The fan for example can be mini-fan, miniature wind The lower part of fan is equipped with the pedestal of adjustable angle, and pedestal can be fixed on the top of ontology 200 by modes such as double faced adhesive tapes, pass through tune The angle of rectification campaign fan realizes fan adjustably oriented manipulation body.For example, the angle by adjusting fan so that fan is blown out Wind can blow to operating body, be embodied as the function of operating body cooling perspiration removing, which can for example be powered by USB port.

According to the embodiment of the present disclosure, ventilation device 230 is connected by the first hollow pipe 240 at least one first through hole 221 It connects.

In the embodiments of the present disclosure, ventilation device 230 is for reducing atmospheric pressure so that gas is logical from second due to pressure difference Hole 222 flows into the first area of space 210, and the moisture carried in the first area of space 210 leaves from first through hole 221. Wherein, ventilation device 230 can for example be connect by the first hollow pipe 240 with first through hole 221, and specific connection type for example may be used One end to be the first hollow pipe 240 is connect with one end far from the first area of space 210 in first through hole 221, and first is hollow The other end of pipe 240 is connect with ventilation device 230, makes the first hollow pipe 240 and 221 shape of first through hole by the connection type At channel, it is possible thereby to carry gas in the first area of space 210 flows to the first hollow pipe 240 from first through hole 221, and from First hollow pipe 240 leaves.

According to the embodiment of the present disclosure, when ventilation device 230 is fan, fan is logical by the first hollow pipe 240 and first Hole 221 connects, and after fan rotates, reduces the atmospheric pressure of the one end of first through hole 221 far from the first area of space 210, this The gas of the lower section of body 200 is flowed into from the second through-hole 222 in the first area of space 210, carry the moisture of the first area of space 210 from First through hole 221 flows to the first hollow pipe 240, and is left from the first hollow pipe 240.

In the embodiments of the present disclosure, it other than reducing atmospheric pressure by ventilation device 230, can also be reduced by other modes Atmospheric pressure achievees the effect that air flows.For example, when user dresses the Wearable and moves, such as user is swimming When body moves up and down in play, the atmospheric pressure of the upper and lower of the ontology 200 of the Wearable 20 due to user movement and Pressure difference is generated, at this point, the pressure difference that user movement generates makes the air of 200 upper and lower of ontology flow, takes away the first space The moisture in region 210.

It is appreciated that air generation pressure difference causes the mode of air circulation to be not limited to ventilation dress in the embodiment of the present disclosure Generation to be set, can also be generated by other modes such as user movements, the embodiment of the present disclosure does not limit the producing method of atmospheric pressure difference, Those skilled in the art can be specifically arranged according to practical situations.

According to the embodiment of the present disclosure, at least two through-holes 220 are arranged to position close to one end of the first area of space 210 In close to eyeglass 110.

As described above, external device 100 includes eyeglass 110, which contacts with the first area of space 210.It is set to Close to one end of the first area of space 210 close to eyeglass 110 at least two through-holes 220 on ontology 200.As shown in Figure 3B, In first through hole 221 close to 210 one end of the first area of space for example in the upper marginal position of eyeglass 110, the second through-hole 222 Close to 210 one end of the first area of space for example close to the lower edge position of eyeglass 110.

In the embodiments of the present disclosure, one end at least two through-holes 220 close to the first area of space 210 is disposed proximate to Eyeglass 110, when flowing through the first area of space 210 by least two through-holes 220 convenient for outside air, air can blow to eyeglass 110。

According to the embodiment of the present disclosure, at least two through-holes 220 and the first area of space 210 can form at least one air-flow Channel so that gas can enter the first area of space 210 by the external world, and carry the fog on eyeglass 110 and leave the first space Region 210.

In the embodiments of the present disclosure, gas channel such as Fig. 3 B that at least two through-holes 220 and the first area of space 210 are formed In arrow shown in, gas can flow through the first area of space 210 of ontology 200 by the gas channel by the external world.

Specifically, it is located at the top edge of eyeglass 110 close to one end of the first area of space 210 in first through hole 221, second It is located at the lower edge of eyeglass 110 in through-hole 222 close to one end of the first area of space 210.Second through-hole 222, the first space region Domain 210 and first through hole 221 form gas channel from bottom to top.Outside air flows through the first area of space from air-flow through-hole 210 process, specifically, the ambient atmos positioned at 200 lower section of ontology are leaned under the action of atmospheric pressure by the second through-hole 222 One end of nearly ambient atmos flows into the second through-hole 222, into the first area of space 210, since one end of the second through-hole 222 is leaned on 110 lower edge of nearly eyeglass, gas blow to the top edges that eyeglass 110 reaches eyeglass 110, gas from the lower edge of eyeglass 110 First through hole 221 is flowed into close to one end of 110 top edges of eyeglass, into first through hole 221, by first by eyeglass 110 Through-hole 221 flows out the first area of space 210.

In the embodiments of the present disclosure, since ontology 200 and operating body are in close contact to form the first closed area of space 210, the circulation of confined space zone gas is bad, causes to generate the fog being attached on eyeglass 110, this is attached on eyeglass 110 Fog influence eyeglass viewing effect, therefore, ambient atmos by the second through-hole 222 flow into the first area of space 210 in, blow To eyeglass 110, which carries the fog on eyeglass 110 and leaves the first area of space 210, reinforces in the first area of space 210 Air circulation, remove eyeglass 110 on fog, solve the problems, such as Wearable in use eyeglass occur it is fuzzy, Reducing fog influences the viewing effect of eyeglass 110.

In the embodiments of the present disclosure, gas flows from bottom to top, by the moisture of the first area of space and is attached to eyeglass On fog the confined space that Wearable and operating body are formed is discharged by through-hole, solve Wearable and using The bad problem of air circulation in the confined space formed in journey, improves the usage experience of Wearable.

According to the embodiment of the present disclosure, each through-hole at least two through-holes 220 is arranged to curved shape.

In the embodiments of the present disclosure, at least two through-holes 220 being set in ontology 200 are ambient atmos and the first space Realize that the channel of gas circulation, at least two through-hole 220 include being set to first of part on ontology 200 to lead in region 210 Hole 221 and the second through-hole 222 for being set to 200 lower part of ontology.Wherein, first through hole 221 and the second through-hole 222 are set It is set to the through-hole of shape bending.

As shown in Figure 3B, first through hole 221 and the second through-hole 222 with curved shape, avoid light by ontology 200 Outer direct projection enters in the first area of space 210, and generating light leakage influences the display effect of Wearable.

In this public affairs embodiment, the shape of at least two through-holes 220 is arranged to curved shape, which for example wraps Include S type shapes, it will be understood that the embodiment of the present disclosure does not limit the concrete shape of through-hole, as long as effectively ambient light can be avoided to shine Direct projection, which enters, leads to the problem of light leakage in the first area of space 210, those skilled in the art can have according to practical situations Body sets the shape of through-hole.

According to the embodiment of the present disclosure, at least two through-holes 220 are arranged to position close to one end of the first area of space 210 In close eyeglass 110, including：By the way that the second hollow pipe 250 is configured at least two through-holes 220, the second hollow pipe 250 It is arranged to positioned at the edge of eyeglass 110 close to one end of the first area of space 210.

As shown in Figure 3 C, the second hollow pipe 250 for example can be the channel circulated to Support gas, second hollow pipe 250 are configured among at least two through-holes 220.Second hollow pipe 250 for example can be hollow pipe made of flexible material, When second hollow pipe 250 is configured at least two through-holes 220, which can be with The shape of at least two through-holes 220 is mutually matched, such as when at least two through-holes 220 are the S type through-holes of bending, second sky The shape of heart pipe 250 can be the S types of bending.

According to the embodiment of the present disclosure, one end of close first area of space 210 is close to eyeglass at least two through-holes 220 110, when configuring the second hollow pipe 250 at least two through-holes 220, close to the first space region in second hollow pipe 250 The one end in domain 210 is located at the edge of eyeglass 110, such as can contact with each other with the edge of eyeglass 110.Specifically, at least two Through-hole 220 includes first through hole 221 and the second through-hole 222, and the second hollow pipe 250 being located in the first through hole 221 is close One end of first area of space 210 is located at the top edge of eyeglass 110, and the second hollow pipe 250 in second through-hole 222 leans on One end of nearly first area of space 210 is located at the lower edge of eyeglass 110.Also, the second hollow pipe in first through hole 221 250 connect with the first hollow pipe 240, to realize that the second hollow pipe 250 is connect with ventilation device 230.

In the embodiments of the present disclosure, the second hollow pipe 250 and the first area of space being located at least two through-holes 220 210 form gas channel, realize ambient atmos by the second hollow pipe 250 and flow through the first area of space 210, take away the first sky Between region 210 moisture and the fog that is attached on eyeglass 110, realize the air stream of Wearable in use It is logical.

According to the embodiment of the present disclosure, the second hollow pipe 250 is made of lighttight material.

In the embodiments of the present disclosure, the second hollow pipe 250 can be made of lighttight material, such as can having by black The plastic cement or rubber material of toughness are made, and can effectively avoid Wearable and lead to the problem of light leakage in use.It can To understand, the first hollow pipe 240 being connect with ventilation device 230 can also be made of lighttight material, avoid light leakage.

In addition, the second hollow pipe 250 the position of bending can appropriate reinforcement structure intensity, prevent empty second hollow pipe 250 Deformation, influences ventilatory effect.

According to the embodiment of the present disclosure, by the way that through-hole is arranged on the ontology of Wearable, reinforcing Wearable makes With the air circulation for the confined space that ontology in the process and operating body are formed, ambient atmos pass through through-hole under the action of pressure difference Into in confined space, carries the moisture in confined space and the fog on the eyeglass contacted with confined space leaves, reach The effect of air circulation, and by setting through-hole to curved shape, avoid the direct projection of illumination from generating light leakage, influence wearable Thus the display effect of equipment improves the air circulation performance of Wearable, promote the wearing experience of user.

Although the disclosure, art technology has shown and described with reference to the certain exemplary embodiments of the disclosure Personnel it should be understood that in the case of the spirit and scope of the present disclosure limited without departing substantially from the following claims and their equivalents, A variety of changes in form and details can be carried out to the disclosure.Therefore, the scope of the present disclosure should not necessarily be limited by above-described embodiment, But should be not only determined by appended claims, also it is defined by the equivalent of appended claims.

Claims (10)

1. a kind of Wearable, including：

Ontology, the ontology can surround to form the first area of space when contacting with external device and operating body,

Wherein, at least two through-holes are provided on the ontology, at least two through-hole can with first area of space Form at least one gas channel so that gas can enter first area of space by the external world, and it is empty to carry described first Between moisture in region leave first area of space.

2. Wearable according to claim 1, further includes：

Ventilation device, for reducing at least one of at least two through-hole first through hole far from first area of space One end atmospheric pressure so that gas can enter described the from the second through-hole of at least one of at least two through-hole One area of space, and leave first area of space from least one first through hole.

3. Wearable according to claim 1, wherein the external device includes eyeglass, the eyeglass with it is described First area of space contacts.

4. Wearable according to claim 3, wherein close first area of space of at least two through-hole One end is arranged to be located at close to the eyeglass.

5. Wearable according to claim 3, wherein at least two through-hole and the first area of space energy Enough form at least one gas channel so that the gas can be entered first area of space by the external world, and described in carrying Fog on eyeglass leaves first area of space.

6. Wearable according to claim 2, wherein each through-hole at least two through-hole is arranged to Curved shape.

7. Wearable according to claim 2, wherein the ventilation device by the first hollow pipe with it is described at least One first through hole connection.

8. Wearable according to claim 2, wherein the ventilation device includes fan, and the fan is adjustable Ground is to the operating body.

9. Wearable according to claim 4, wherein close first area of space of at least two through-hole One end is arranged to be located at close to the eyeglass, including：

By the way that the second hollow pipe is configured at least two through-hole；

Second hollow pipe is arranged to close to one end of the first area of space positioned at the edge of the eyeglass.

10. Wearable according to claim 9, wherein second hollow pipe is made of lighttight material.