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CN207937914U - Electronic equipment - Google Patents

Electronic equipment Download PDF

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Publication number
CN207937914U
CN207937914U CN201820129729.2U CN201820129729U CN207937914U CN 207937914 U CN207937914 U CN 207937914U CN 201820129729 U CN201820129729 U CN 201820129729U CN 207937914 U CN207937914 U CN 207937914U
Authority
CN
China
Prior art keywords
electronic equipment
shell
aperture member
ventilation aperture
sieve
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201820129729.2U
Other languages
Chinese (zh)
Inventor
C·M·沃纳
M·K·斯潘塞尔
D·J·布莱特
B·G·博泽
D·J·海姆斯特拉
C·D·古切特
A·M·尤尼斯
J·G·霍瑞奇
E·H·弗克斯
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Apple Inc
Original Assignee
Apple Computer Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US15/836,955 external-priority patent/US10165694B1/en
Application filed by Apple Computer Inc filed Critical Apple Computer Inc
Application granted granted Critical
Publication of CN207937914U publication Critical patent/CN207937914U/en
Active legal-status Critical Current
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Abstract

This disclosure relates to electronic equipment.A kind of electronic equipment is provided, including:Shell, the shell limit internal volume, engagement feature and the outside port on the surface that the engagement feature is extended to from the inner surface of the internal volume;Display, the display are at least partially positioned in the shell;Watchband, the watchband are couple to the engagement feature of the shell;With ventilation aperture member, the ventilation aperture member is coupled with the outside port, wherein when being attached to the engagement feature, the watchband visually blocks the outside port.

Description

Electronic equipment
Technical field
Described embodiment relates generally to the air pressure venthole of electronic equipment.More specifically, the present embodiment is related to Air pressure venthole and the moisture barrier and pollutant barriers that the component of air pressure venthole can be hidden relative to user.
Background technology
In the electronic device, the inner chamber of apparatus casing can have nominal inside air pressure.If the air pressure inside can not be with External environment is balanced, then equipment or its building block may occur warpage in hyperbaric environment, rupture or shut down.Therefore, It is expected to may include air pressure venthole by the electronic equipment that hyperbaric environment is influenced.
In some cases, air pressure venthole may be external contaminant for example dirt, dust, oil, fragment, liquid and other The path that pollutant enters.The internal part of electronic equipment is generally susceptible to these pollutant effects.In addition, the gas of exposure Pressure venthole may be contaminated object blocking, to reduce the ability that they play a role.
Utility model content
The embodiment of the disclosure is related to the restriction moisture barrier of electronic equipment or the air pressure ventilation of pollutant barriers Hole.The structures disclosed herein and component can hide air pressure venthole relative to user.
In the first aspect, the disclosure includes electronic equipment.The electronic equipment includes shell, which limits inner bulk Product, engagement feature and extended to from the inner surface of internal volume engagement feature surface outside port.The electronics is set Standby further includes the display being at least partially positioned in shell.The electronic equipment further includes the engagement features for being couple to shell The watchband in portion.The electronic equipment further includes the venthole group being aligned in the internal volume for being positioned in shell and with outside port Part.When being positioned in engagement feature, which visually blocks outside port.
In second aspect, the disclosure includes electronic equipment.The electronic equipment includes having side wall and being limited at side wall The shell of interior outside port.The electronic equipment further includes the bracket for being positioned in shell and limiting internal port.The electronics Equipment further includes the ventilation aperture member being fixed between bracket and shell.The ventilation aperture member may include being formed outside port and At least part of conduit region in the channel between internal port.In conduit region, which further includes limiting The gas-permeable membrane of damp-proof layer and the sieve stacked along gas-permeable membrane.
In a third aspect, the disclosure includes electronic equipment.The electronic equipment includes the shell for having outside port.The electricity Sub- equipment further includes being positioned in shell and limiting the ventilation aperture member of conduit region, which is configured as in outside Air is guided between port and the internal volume of shell.The ventilation aperture member, which includes, to be extended across conduit region and limits moisture-proof The gas-permeable membrane of layer.The electronic equipment further includes and outside port be overlapped input link at least partly.
Other than the illustrative aspect and embodiment, refer to the attached drawing is simultaneously described below by research, more aspects To be obvious with embodiment.
According to one embodiment, a kind of electronic equipment is provided, including:Shell, the shell limit internal volume, engagement Features and extended to from the inner surface of the internal volume engagement feature surface outside port;Display, The display is at least partially positioned in the shell;Watchband, the watchband are couple to the engagement of the shell Features;With ventilation aperture member, the ventilation aperture member is coupled with the outside port, wherein when being attached to the engagement features When portion, the watchband visually blocks the outside port.
According to one embodiment, the electronic equipment further includes the support being positioned in the internal volume of the shell Frame;And the ventilation aperture member is compressed between the bracket and the inner surface of the shell and includes:It limits The gas-permeable membrane of damp-proof layer;With the sieve positioned along the gas-permeable membrane.
According to one embodiment, the engagement feature is the reception slit extended along the side of the shell.
According to one embodiment, the outside port is oriented to deviate from the middle part of the electronic equipment.
According to one embodiment, the watchband includes band and is couple to the lug of the band;And the lug and The engagement feature cooperation, releasedly to couple the watchband and the shell.
According to one embodiment, the display includes touch sensor and is configured as receiving touch input;The electricity Sub- equipment further includes extending through the bizet of the opening in the shell at least partly;The bizet is configured as receiving translation Input and rotation input;And the display is configured to respond to each of the following terms and describes the electronics and set Standby images outputting:The touch input of the touch sensor of the display;The translation input of the bizet; The rotation with the bizet inputs.
According to one embodiment, the shell limits hermetic barrier part between the internal volume and external environment;And And the ventilation aperture member is configured as making the internal pressure of the internal volume balanced with the external pressure of the external environment.
According to one embodiment, the shell can not be by penetration by liquid, and the ventilation aperture member substantially cannot Enough by penetration by liquid.
According to one embodiment, a kind of electronic equipment is provided, including:Shell, the shell have side wall and are defined Outside port in the side wall;Bracket, the bracket are positioned in the shell and limit internal port;Be fixed Ventilation aperture member between the bracket and the shell, the ventilation aperture member, which has, forms the outside port and described At least part of conduit region in the channel between internal port, the ventilation aperture member include in the conduit region: Limit the gas-permeable membrane of damp-proof layer;With the sieve stacked along the gas-permeable membrane.
According to one embodiment, the ventilation aperture member further includes at least part for the side wall to form the conduit region Deformable layer;And the bracket is configured to compress the deformable layer.
According to one embodiment, the bracket is coupled to the shell by fastener;And the bracket is outstanding Arm section extends from the fastener and limits the internal port.
According to one embodiment, the sieve is first sieve adjacent with the outside port;And the venthole Component further includes in the conduit region:Second sieve, second sieve is along opposite with first sieve described Air bound membrane stack.
According to one embodiment, the ventilation aperture member is configured to reduce the internal volume and external environment of the shell Between pressure difference.
According to one embodiment, at least one of first sieve or second sieve are configured as described in limitation The gas-permeable membrane in conduit region deflects caused by the pressure difference.
According to one embodiment, the ventilation aperture member further includes:Film, the film are configured as in the inside of the shell Volume forms temporary seal and has and extends in the conduit region between the two with the gas-permeable membrane and the sieve Piercing portions.
According to one embodiment, a kind of electronic equipment is provided, including:Shell, the shell have outside port;Ventilation Aperture member, the ventilation aperture member are positioned in the shell and limit conduit region, and the conduit region is configured as It includes extending across the pipe that air, the ventilation aperture member are guided between the outside port and the internal volume of the shell Road region and the gas-permeable membrane for limiting damp-proof layer;And input link, the input link and the outside port are at least partly Overlapping.
According to one embodiment, the input link is at least one of the following terms:Turntable, the turntable are configured To receive rotatable input and translatable input;Or button cover, the button cover are configured as receiving translatable input.
According to one embodiment, the electronic equipment further includes the acoustic element for being configured as emitting or receiving acoustic energy;And And the outside port is coupled with both the acoustic element and the ventilation aperture member fluid.
According to one embodiment, the ventilation aperture member further includes:Sieve, the sieve extend across the conduit region And it is configured as that pollutant is hindered to enter;With molded layer, the molded layer limits the side wall of the conduit region simultaneously It is molded into above the sieve.
According to one embodiment, the sieve includes the mesh layer with one group of cross structure.
Description of the drawings
The disclosure in conjunction with the accompanying drawings the following specifically describes will become apparent to, wherein similar reference numeral indicates class As element.
Fig. 1 depicts the sample electronic device with the ventilation aperture member hidden;
Fig. 2 depicts the exploded view of the electronic equipment of Fig. 1, and it illustrates the outside ports of hiding ventilation aperture member;
Fig. 3 A depict the viewgraph of cross-section of the ventilation aperture member of the line A-A interceptions along Fig. 2;
Fig. 3 B depict the viewgraph of cross-section of another embodiment of the ventilation aperture member of the line A-A interceptions along Fig. 2;
Fig. 3 C depict the viewgraph of cross-section of another embodiment of the ventilation aperture member of the line A-A interceptions along Fig. 2;
Fig. 4 depicts the lid of the ventilation aperture member for the Fig. 2 being shown in the internal volume of electronic equipment;
Fig. 5 A depict multiple outside ports of the ventilation aperture member for receiving slit positioning along electronic equipment;
Fig. 5 B depict the vertical channel extended from the outside port received in slit for being limited at electronic equipment;
Fig. 5 C are depicted from the horizontal channel that the outside port received in slit for being limited at electronic equipment extends;
Fig. 6 A are depicted with the sample electronic device along the ventilation aperture member positioned with release opening;
Fig. 6 B depict the viewgraph of cross-section of the ventilation aperture member of Fig. 6 A of the line B-B interceptions along Fig. 6 A;
Fig. 6 C depict the ventilation aperture member of Fig. 6 A in the internal volume of electronic equipment;
Fig. 7 A depict the simple electric with another embodiment along the ventilation aperture member positioned with release opening Equipment;
Fig. 7 B depict the ventilation aperture member of Fig. 7 A in the internal volume of electronic equipment;
Fig. 8 is depicted by the shared outlet along outer surface of multiple components of electronic equipment;
Fig. 9 depicts the sample electronic device with the hiding ventilation aperture member positioned along input structure;
Figure 10 A depict the viewgraph of cross-section of the button of the sample electronic device with the inner retainer with through-hole;
Figure 10 B depict the viewgraph of cross-section of the sample electronic device with the external fastening with through-hole;
Figure 11 depicts the cross section of the sample electronic device with the hiding ventilation aperture member positioned along engagement feature View;And
Figure 12 depicts the functional block diagram of sample electronic device.
The purposes of intersecting hachure or shade in attached drawing is generally provided to illustrate the boundary between adjacent elements and also has Conducive to the legibility of attached drawing.It does not indicate that or indicates to certain material, material accordingly, there exist or there is no no intersecting hachure or shade Expect attribute, element ratio, component size, the common point of similar diagram element or in the accompanying drawings shown in any element it is any its His characteristic, any preference of property or attribute or requirement.
In addition, it should be understood that each features and element (and its set and grouping) ratio and size (it is opposite or It is absolute) and the boundary, spacing and the position relationship that present therebetween be provided in the accompanying drawings, to be only used for promoting to described herein Each embodiment understanding, and therefore unnecessarily can be presented or show with zoom in and out and be not intended to instruction pair Shown in embodiment any preference or requirement, to exclude embodiment in conjunction with described in it.
Specific implementation mode
Sample system, the method and apparatus of the various elements including embodying the disclosure are described below.It will be appreciated, however, that Described disclosure can be implemented except the diversified forms in addition to those described herein form.
The present disclosure describes the relevant system of air pressure venthole, equipment and the technologies with electronic equipment.Electronic equipment is such as Wearable or portable electronic device can have the various parts and component (printed circuit board, sensor, switch for accommodating equipment Deng) inner chamber.The chamber can be substantially opposite external environment and be sealed to prevent or slow down the pollutant that may interfere with equipment Such as oil, dust, and/or other fragments enter.When user and equipment interact and (provide input to power sensitive surfaces) and/or Since external environment changes (including unexpected height above sea level or Changes in weather), the nominal air pressure of intracavitary may change.The electronic equipment It may include the air pressure venthole for being configured as making the pressure of intracavitary balanced with the pressure of external environment or other ventilation aperture members. When the component of electronic equipment and component being protected to be interfered from potential pollutant (including by being used as damp-proof layer), the ventilation aperture member Pressure can be made balanced.
The ventilation aperture member may include being limited at the outside port that the permission air on the outer surface of electronic equipment passes through Or opening or associated with it.The outside port can be positioned on outer surface, so as to aesthetically, in structure and/or function Upper enhancing electronic equipment.For example, the outside port can relative to electronic equipment external component or component (including button, bizet, Band, lug/reception slit, fastener etc.) positioning (or being partly positioned in these external components or component).This is outer Portion's component or component visually can block or cover outside port, hidden to allow outside port to be substantially opposite user It hides.As described herein, although being substantially hidden, outside port, component and/or component can be configured as through venthole group Part keeps enough air-flows.
The ventilation aperture member may include the various of film, diaphragm, substrate, sieve, reinforced sheet, piercing member, and/or other layers Combination and embodiment are slowing down potential pollutant into fashionable, they coordinate to allow air to be slowly into and/or leave Chamber.These layers can form the pipe line area for limiting the fluid path between outside port and the internal port for being positioned in intracavitary Domain.In sample implementation, which is included in the gas-permeable membrane that waterproof and dampproof layer is formed above conduit region.It is empty Gas can be limited or controlled way passes through diaphragm, this can help to keep the pressure of intracavitary balanced or otherwise reduces chamber and set Pressure difference between standby external environment.One or more sieves (including piercing member, mesh layer, reinforced sheet etc.) can be positioned On the either side of diaphragm, to prevent (from particle or other fragments) mechanical wear of diaphragm.When sieve is due to air When passing through and being bent in conduit region, physical support or support can be also provided for diaphragm.In some embodiments, film It can extend across conduit region and can be used for testing the air-tightness of ventilation aperture member;Subsequent pierceable film is to allow air to pass through. One or more clearance layers such as contact adhesive (PSA) or resinoid (TSA) can be used) by each layer of substrate It is bonded to each other.
It should be appreciated that each layer of diaphragm is presented for illustration purposes only.As described herein, the ventilation aperture member It may include various other layers, to promote the function of ventilation aperture member.For example, the ventilation aperture member may also include pressure (compression) by Each layer of deformable bubbles foam layer of clearance layer bonding, the deformable bubbles foam layer can enhance the structural rigidity of ventilation aperture member.Support Frame (or other substrates or rigid element) can be fastened to equipment in inside and compressible deformable layer is so that the aperture member that will ventilate is steady Gu in intracavitary.Other sample layers include spacer portion, molded mesh layer etc..Therefore, it is contemplated that within the scope of this disclosure Other layers and stepped construction of ventilation aperture member.
The electronic equipment can be wrist-watch or other wearable or portable electronic devices with ventilation aperture member.The wrist-watch There can be the shell for the outside port for limiting ventilation aperture member.Pass through the external component selectivity by outside port relative to wrist-watch Ground positions (or being partially positioned in the external component of wrist-watch), which can block contaminant at least partly.This Also contribute to make continuous or uninterrupted (through hole) visible surface of wrist-watch main body to maximize, this can enhance the aesthetic feeling and work(of equipment Energy.It will thus be appreciated that the outside port can be positioned in various positions so that ventilation aperture member is substantially opposite use Family is hidden, and/or the pollutant in external environment is prevented to be directly entered the port.In other words, the component of the electronic equipment can Barriers as the pollutant for entering port along straight line path.
In example embodiment, which can substantially be hidden in the engagement features being limited in wrist-watch main body In portion.The engagement feature can be that a pair of of the lug for temporarily constraining or releasedly coupling watchband receives in slit One reception slit.The lug includes that the locking mechanism of engaging retaining structure (is limited in the contoured surface of slit Hole) so that watchband can be used for by wrist-watch main body be fixed to user.Therefore, when user wears wrist-watch, which hides logical The outside port of stomata component.Enough gaps between the lug and engagement feature surface allow air substantially without Ground is hindered to pass through ventilation aperture member.
As another example, which is substantially opposite user in holding structure and is hidden.The holding Structure can be for the opening of the wrist-watch main body of reception locking mechanism or by part, and when user wears wrist-watch, which will Lug temporarily constrains in slit.The holding structure can also accommodate can be pressed so that lug be detached from button or other release Put component.In this way, the locking mechanism, release component and/or one or more of component or structure in the holding structure are available In hiding outside port, without substantially by airflow contraction to ventilation aperture member.
The shell may also include for different input structures (including can also be used for hide ventilation aperture member button, bizet Deng) various openings.For example, the outside port can be limited in side wall or body portion, the side wall or body portion part Ground receives input structure but is spaced apart or deviates, to provide required gap for port.In some cases, there is through-hole Fastener can be used in combination with any one aforementioned component, with promote air-flow pass through ventilation aperture member.
Covering or hiding ventilation aperture member can also be realized by forming shared internal volume in wrist-watch main cavity, be made The multiple components or component for obtaining equipment are fluidly coupled to external environment by single port.For example, the equipment may include needing Microphone, loud speaker, and/or other acoustic elements of air-flow from and/or towards external environment.Internal volume can be defined By the shared intracavitary of this all base part or their subset.The internal volume shared can be limited at wrist-watch main body Single outlet coupling on outer surface, the single outlet allow air to reach component, the visible hole in outside to reduce wrist-watch.It removes Except this or alternatively, when limiting multiple holes on the outer surface, even if when each hole corresponds to the different components of equipment, this Some holes seems to be alternatively uniform.
It will be appreciated that though above has been given the sample implementation of the ventilation aperture member of hiding wrist-watch, but other realities The scheme of applying is also possible.For example, the ventilation aperture member can be with substantially any portable electronic device (including external environment Ventilate for the smart phone of pressure equilibrium) it is used together.Substantially non-portable electronic device (including desktop computer) Air pressure venthole as described herein can also be used, this is likely to be suited for given application program.
Referring now to the attached drawing for the various features for helping to illustrate the disclosure.It is described below for illustration and description Purpose and be presented.In addition, description is not intended to the various aspects of the utility model being limited to form disclosed herein. Therefore, the variations and modification to match with following teachings, technology and the knowledge of related field are in the utility model Various aspects in the range of.
Fig. 1 depicts the exemplary electron with shell 106 and the display 108 (can be touch-sensitive display) being incorporated in Equipment 104.The display 108, which can be at least partially positioned in shell 106 and can be used for receiving, is conducive to electronic equipment 104 Control input.When receiving power or touch input at display 108, the internal pressure in shell 106 is changeable.Example Such as, which may include detecting capacitive character feature, magnetic characteristic, optical signature, strain characteristics or other features to note Touch sensor, proximity sensor, and/or the force snesor of volume input.The electronic equipment 104 may include one or more ventilations Aperture member, all as discussed above and ventilation aperture member that will be described in greater detail below.As described herein, the venthole Component (being not shown in Fig. 1) can be configured as making the external pressure of the nominal air pressure and ambient, external environment in shell 106 equal Weighing apparatus;This can realize that this is likely to be suited for given application program in a manner of slow or is controlled.When electronic equipment 104 is in When in assembling configuration shown in Fig. 1, which can be substantially opposite user and be hidden.In this way, the venthole group Part can make nominal air pressure equalisation, without reminding such function of user's electronic equipment 104 publicly.
As shown, the electronic equipment 104 (or " equipment 104 ") is wrist-watch, set although it can be any suitable electronics It is standby, including such as smart phone, desktop computer, attachment or game station.Other exemplary electronic devices include notebook electricity Brain, tablet computer, portable media player, other patches, pencil, and/or other electronic equipments appropriate, including other can Wearable device, health monitoring equipment, digital camera, printer, scanner, security system are set, standby and/or for automobile electricity Sub- device and other electronic equipments.In this way, being meant only to the discussion of any electronic equipment such as electronic equipment 104 It is bright.
As shown in the embodiment of figure 1, which, which can limit, is configured as receiving electronic equipment at least partly 104 various parts and multiple openings of component.Specifically, which can limit the first opening 109a, the second opening 109b and third opening 109c;However, additional or less opening is also possible and is described herein.The display Device 108 can be received by the first opening 109a at least partly, which can be formed the top surface of shell 106.Therefore, The display 108 can limit the dial plate for the electronic equipment 104 for being configured as receiving touch input.Second opening 109b and third are opened Mouth 109c can be configured as receiving the various input structures of electronic equipment 104.
For example, the electronic equipment 104 may include the bizet 110 and at least partly received at least partly by the second opening The button 112 received by third opening 109c.The bizet 110 can be in the second opening 109b rotationally and/or translationally, and button 112 can translate in third opening 109c to receive rotation input from the user and/or translation input.This, which may be used in, comes Rotation input or translation input from user carry out the function of control electronics 104.For example, the display 108 can describe response It is (including label, symbol, text, icon, logical in the images outputting of the electronic equipment 104 of the movement of bizet 110 and/or button 112 Know).Rotation can roll or move input, or vice versa, it translates and input may be selected.Translation can also be used to make electronic equipment 104 convert between one or more configures.For example, the translation can make a block graphics object (icon) return to display 108.
The electronic equipment 104 may also include watchband 114.The watchband 114 can be used for wrist-watch main body (for example, shell 106) Fixed to user.The watchband 114 can releasedly be coupled with shell 106.For example, the watchband 114 may include being connected to flexible-belt 115 rigid member such as lug 118.The lug 118 can by the engagement feature 116 that is formed into shell 106 or Other elongate grooves receive slot acceptance.The shell 106 may include a pair of of slit on the opposite side of shell 106, make The flexible-belt 115 can couple around the wrist of user or other body parts and with each slit, thus by equipment 104 Fixed to user.
Fig. 2 depicts the exploded view of electronic equipment 104.In the exploded view of Fig. 2, which is shown as from shell 106 are detached from.In one embodiment, can by engagement feature 116 lateral sliding lug 118 make watchband 114 It is detached from from shell 106.The contoured shape of the engagement feature 116 can be that lug 118 is established enough along lateral sliding Gap, while also limiting its movement in vertical direction far from shell 106.The engagement feature 116, which can limit, to be configured as The locking mechanism 120 of lug 118 is received at least partly to slide mobile with limit lateral and watchband 114 is fixed to shell 106 holding structure 117 or opening.For example, when lug 118 is pushed into or is slid into engagement feature 116, locking mechanism 120 are extensible in holding structure 117 and lock the position of lug 118 or be temporarily fixed in engagement feature 116.It should Holding structure 117 can also accommodate release component 119.Pressable release component 119, so that locking mechanism 120 and holding structure 117 It is detached from and lug 118 is allowed to slide through engagement feature 116, to allow watchband 114 to be detached from from shell 106.
As described herein, the electronic equipment 104 may include allow air shell 106 internal volume and external environment it Between entrance and/or discharge one or more air pressure ventholes or similar component.In order to promote the above, in shell 106 outer face allows hole, opening, the port etc. that air passes through surely.The ventilation aperture member can in order to control air via logical The inlet and outlet of stomata component and the also barriers of offer blocking potential pollutant moisture, oil, dust, fragment etc. Internal component, these pollutants may attempt to the opening by being limited on the outer surface of shell by enter internal volume.Root According to the embodiment of the disclosure, it is hidden that ventilation aperture member (and associated opening, port etc.) can be substantially opposite user It hides.
As shown in Fig. 2, the electronic equipment includes ventilation aperture member 124 (shown in dotted line).The ventilation aperture member 124 can be The internal component that the outer surface by observing shell 106 of electronic equipment 104 is not readily visible.Following article is relative to Fig. 3 A and figure What 3B was more fully described, which may include coordinating to form various films, diaphragm, layer, the substrate of damp-proof layer Allow air to be slowly into and/or be discharged shell 106 Deng, the damp-proof layer, while slowing down potential pollutant and entering.In shell 106 externally visible is outside port 126.The outside port 126 can be the hole being limited in shell 106 or opening, be somebody's turn to do Shell limits the fluid path for entering (and leaving) ventilation aperture member 124.For example, the outside port 126 can be from shell 106 The inner surface of internal volume extends to engagement feature 126.
In the embodiment of fig. 2, which can be limited in engagement feature 116.For example, outside this Port 126 can be from the opening in the internal volume or chamber that the contoured inner surface of engagement feature 116 extends to shell 106 Or pass through part.Therefore, which can be positioned in relative to engagement feature 116 in internal volume, so as to Air is received and is discharged via outside port 126.As shown in the sample implementation of Fig. 2, which can be determined Position is deviated at from the middle part of electronic equipment 104.
When watchband 114 and shell 106 couple, the contoured inner surface of the engagement feature 116 may be to user not It can be seen that.For example, as shown in Figure 1, when lug 118 is advanced in engagement feature 116, lug 118 visually hides Keep off contoured inner surface.Keep its invisible in this way, lug 118 can hide outside port 126 and ventilation aperture member 124.Cause This, when being positioned in engagement feature 116, watchband 114 can visually block outside port 126.Although by lug 118 coverings or part cover, but air still substantially can unhinderedly flow into (and outflow) outside port 126, while ear Shape object 118 can hinder pollutant to be directly entered.For example, the corrugated inner surfaces of lug 118 and engagement feature 116 can slightly partially It moves or detaches, to provide the gap passed through for air between lug 118 and engagement feature 116, while preventing dirt Dye object enters in outside port 126.
The embodiment that Fig. 3 A to Fig. 3 C depict the ventilation aperture member of the disclosure.In general, ventilation aperture member can wrap Include limit be located at (on the surface of apparatus casing) outside port and the internal port that is positioned in the internal volume of shell it Between fluid path conduit region.The conduit region can extend across various films, diaphragm, sieve, adhesive phase and/or hereafter The stepped construction of other described layers.Some layers can extend above conduit region at least partly (extends across pipe line area Domain), substantially to be positioned along fluid path.Such layer can control, slow down and/or prevent and (depend on the circumstances) air, moisture, Oil, particle and/or other contaminant streams are through conduit region.Ventilation aperture member can be positioned in shell 106 on outer surface Outside port the corresponding substantially any position in position at.As described herein, outside port can be matched along outer surface with various Positioning is set, to make ventilation aperture member be hidden relative to user.It is understood that, in this way, relative to described by Fig. 3 A to Fig. 3 C Ventilation aperture member (or any other embodiment or variations of breather port component) can with it is as described herein any outer Portion port is used together or coupled with it.
With reference to figure 3A, it illustrates the viewgraph of cross-section of the ventilation aperture member 124a of the line A-A interceptions along Fig. 2.With regard to this For point, ventilation aperture member 124a can be the sample implementation relative to aperture member 124 of ventilating described in Fig. 2;However, its His embodiment be also be possible and will be for example more fully described below relative to Fig. 3 B and Fig. 3 C.Ventilation aperture member 124a may include the stepped construction of layer, and the cooperation of these layers is located at outside port 126 and is positioned in shell 106 to limit The conduit region 128 between internal port 129 in portion's volume.As shown in Figure 3A, ventilation aperture member 124 may include bracket 130, Deformable layer 132, film 134, the first sieve 138a, diaphragm 140, the second sieve 138b and one or more clearance layers 142. First sieve 138a and the second sieve 138b can be along mutually positioning or otherwise stack relative to each other.Clearance layer 142 can To be coupled to each other other layers for aperture member 124 of ventilating and film the adhesive phase or bonded layer of conduit region 128 is collectively formed (including contact adhesive and/or resinoid).Fig. 3 A depict the above layers of ventilation aperture member 124 and will below Middle detailed description, other layers and configuration are also possible, including aperture member of wherein ventilating is with more discribed than relative to Fig. 3 A More or fewer layers of embodiment.
First sieve 138a can extend across conduit region 128.First sieve 138a can be configured to supply prevent or Person slows down the perforated layer for being physically and/or chemically resistant to barriers that pollutant enters in ventilation aperture member 124.This pollutant can Including that can damage or damage the diaphragm 140 of ventilation aperture member 124 or the particle and/or other fragments of other component.Pollutant is also May include can be to oil, liquid, and/or other chemical corrosivity elements that the component of electronic equipment 104 has an adverse effect.First Sieve 138a can be formed by chemical resistant material such as stainless steel.Therefore, the physical barrier part that can be formed by the first sieve 138a Blocking is wound with or carries the pollutants of corrosive elements, and stainless steel construction can prevent the first sieve 138a with invade Enter deterioration when material.
In order to be conducive to the above, such as it can be used one or more clearance layers 142 by the first sieve 138a along outer The inner surface of shell 106 at portion port 126 is coupled or is stacked.Air may pass through the first sieve 138a.However, perforation can have The size and shape for preventing or hindering liquid and/or other pollutants to pass through.Shell 106 is left in response to such as air, when It can also be that diaphragm 140 provides physical support or support to one sieve 138a when bending in conduit region 128, to limit diaphragm 140 deformations under stress prevent its rupture.
Diaphragm 140 can be the gas-permeable membrane for being couple to the first sieve 138a and extending across conduit region 128.For example, One or more clearance layers 142 can be used for for diaphragm 140 being adhered to the first sieve 138a opposite with outside port 126.Diaphragm 140 can be for example relatively thin, such as about 0.05mm to 0.15mm;However, other sizes are also possible, including it is more than 0.15mm Or it is less than 0.15mm.In this way, when air passes through diaphragm 140 (or diaphragm of the pressure to be applied in conduit region 128 When on 140), diaphragm 140 is flexible or otherwise deflectable.It is more than to refer to that first sieve 138a, which can prevent the bending of diaphragm 140, Fixed point.Second sieve 138b can perform similar function, as described below.
Diaphragm 140 can be the composite construction formed by interlocked fibers array.Interlocked fibers can be for example based on 140 top of diaphragm Fiber density or compactedness limit the porosity of diaphragm 140.Porosity can make air advance with limited or controlled way Across diaphragm 140.This helps to keep the pressure in shell 106 slowly balanced.In other cases, air can be substantially without hindrance Diaphragm 140 is passed through with hindering, to allow relatively rapid or near-instantaneous pressure balanced.
Diaphragm 140 can form waterproof seal or damp-proof layer at 128 both ends of conduit region.For example, diaphragm 140 can hinder, Slow down or prevents water, moisture and oil stream from entering to ventilate in aperture member 124 substantially.Specifically, the porosity of diaphragm 140 can be sufficiently low, So that under nominal pressure, water and other pollutants may be not easy across diaphragm 140.This helps to carry for electronic equipment 104 For water proofing property.It should be appreciated that the density or compactedness of interlocked fibers can be designated in any suitable manner, be such as suitble to control every The porosity of film 140 is such.To control, across the air-flow of diaphragm 140, (calibration diaphragm 140 is to travelling across ventilation aperture member for this The resistance of 124 air) and/or electronic equipment 104 needed for waterproof degree may be beneficial.
Second sieve 138b can be the perforated layer for extending across conduit region 128.Enter shell in response to such as air 106, when the second sieve 138b bendings in conduit region 128, it can be that diaphragm 140 provides physical support or support.In order to have Conducive to the above, one or more clearance layers 142 can be used to be couple to the second sieve 138b and the first sieve 138a phases To diaphragm 140.Therefore, it is more than specified point that the second sieve 138b, which can prevent the bending of diaphragm 140, is being pressed to limit diaphragm 140 Deformation under power prevents its rupture.
Therefore, the first sieve 138a and the second sieve 138b can coordinate, to increase the service life of diaphragm 140.For example, working as When ventilation aperture member 124 is used to control the inlet and outlet of air, diaphragm 140 can be along inlet and outlet conduit region 128 Iterative cycles between the bending in direction.Bending is restricted to certain specified amounts and (depends on the first sieve 138a and the second sieve The physical location of 138b) stress and strain on diaphragm 140 can be reduced over time.Therefore, the first sieve 138a and second Sieve 138b can reduce the deterioration of diaphragm 140, to increase pressure (fluid that be subjected to repeating, prolonged and/or excessive Stream) apply diaphragm 140 service life.
As shown in Figure 3A, the edge second sieve 138b positioning opposite with diaphragm 140 is reinforced sheet 136.The reinforced sheet 136 For the restrictions conduit region 128 for aperture member 124 of ventilating side wall and be configured as to aperture member 124 and the conduit region 128 of ventilating The selectable unit (SU) of specified altitude assignment is provided.For example, conduit region 128 may extend into specified amount in the inner chamber of shell 106 (for example, Internal structure depending on shell 106).This can be at least partly by outside port along the position of the outer surface of shell 106 It influences, because size, tolerance of ventilation aperture member 124 etc. can be changed based on position of the ventilation aperture member 124 in shell 106 Become.As described below, reinforced sheet 136 can also be used for diaphragm 140 and film 134 separating aequum, to be conducive to carry out using film 134 Air tightness test.Since reinforced sheet 136 is against shell 106, tangentially mobile and/or lateral movement is also prevented, although this is can Choosing.
Specifically, film 134 can be the membrana perforata (for example, having piercing portions) for extending across conduit region 128.Film 134 It can be used as temporary seal, with the air-tightness of test ventilation aperture member 124.For example, determining each layer of ventilation aperture member 124 not It can be desirable to allow air or other fluids to be flowed except conduit region 128.In other words, ventilation aperture member 124 by with It is set to the flowing for allowing air in the conduit region 128 between outside port 126 and internal port 129;At other positions The air that (such as between clearance layer or across clearance layer) enters or leave conduit region 128 may damage ventilation aperture member 124 function.It is covered on reinforced sheet 136 in this way, film 134 can be initially (using clearance layer 142), is formed in the reinforced sheet Impermeable film that is upper, and/or adhering to the reinforced sheet.Can introduce air into conduit region 128 (the top of film 134 or under Side) in, to determine whether the out of position out of ventilation aperture member 124 escapes such air.For example, when film 134 is impermeable When gas, the air being introduced into outside port 126 should not leak into the internal volume of shell 106.Thus, there is no the skies of introducing Gas may indicate that ventilation aperture member 124 is suitable for the onsite application of electronic equipment 104.
When completing air tightness test, film 134 can be pierced, to allow air to travel across conduit region 128.At one In embodiment, needle can be used or other are sharp or forms one or more holes on film 134 based on the instrument of puncture or wear Pierce part.This some holes allows air substantially unhinderedly to pass through conduit region 128.In other cases, this some holes can quilt It is configured to pass through conduit region 128 with controlled or limited manner to control air, this is likely to be suited for given application program.
For example, it is opposite with reinforced sheet 136 one or more clearance layers 142 to can be used to be couple to deformable layer 132 Film 134.Deformable layer 132 can be formed the side wall of conduit region 128 and can be used for provide ventilation aperture member 124 it is various every Film, film, layer etc. are connected to the boundary between the rigid carriers (bracket 130) of the inner surface of shell 106 with the aperture member 124 that will ventilate Face.Deformable layer 132 can be to compress in response to power and substantially revert to when power stops uncompressed or undeformed shape The material of the froth bed of shape or other elastically deformables.
Bracket 130 can be positioned and can be used together with deformable layer 132 along deformable layer 132 at least partly, to increase Ventilation aperture member 124 is simultaneously stabilized in shell 106 by strong structure rigidity.For example, bracket 130 can be for example using fastener and by The substantially rigid substrate or component (as shown in Figure 4) of inner surface fixed to shell 106.Bracket 130 can be fastened or be fixed To inner surface so that 130 variable compression shape layer 132 of bracket.This can be such that deformable layer 132 deforms and deformable layer pressing is existed It ventilates on various other layers of aperture member 124, film, diaphragm etc..Therefore, other layers of ventilation aperture member 124 also can be compressed, this Undesirable movement can be limited, aperture member 124 is stabilized in shell 106 to help to ventilate.This by pressure-sensitive for can be glued The clearance layer 142 that mixture is formed may be beneficial;Compression from bracket 130 can increase the bonding attribute of clearance layer 142, and Therefore the possible fault mechanism of ventilation aperture member 124 is reduced.
With reference to figure 3B, it illustrates the viewgraph of cross-section of the ventilation aperture member 124b of the line A-A interceptions along Fig. 2.With regard to this For point, ventilation aperture member 124b can be the sample implementation relative to aperture member 124 of ventilating described in Fig. 2;However, its His embodiment is also possible and will be for example more fully described relative to Fig. 3 A and Fig. 3 C herein.Ventilate aperture member 124b It can be substantially similar to above in relation to the aperture member 124a that ventilates described in Fig. 3 A.For example, ventilation aperture member 124b can by with It is set to the equilibrium for promoting the pressure in apparatus casing.Therefore, ventilation aperture member 124b can provide the inside for air in shell The fluid path of entrance and/or discharge between volume and external environment.Ventilation aperture member 124b can also be formed and be prevented or hinder The various liquid of pollutant (including water), oil, dust, fragment etc. enter the physics damp-proof layer in shell.In this regard, It is substantially similar to component described in the embodiment above in relation to Fig. 3 A, ventilation aperture member 124b may include outside port 126, conduit region 128, internal port 129, bracket 130, deformable layer, the second sieve 138b, diaphragm 140 and clearance layer 142.
In spite of above-mentioned similarity, diaphragm 140 can be for example using one or more clearance layers 142 along shell 106 Internal coupling adjacent with outside port 126.Piercing member can need not be inserted between diaphragm 140 and outside port 126.This contributes to Optimize the size of the ventilation aperture member 124b in electronic equipment 104.For example, not attached between diaphragm 140 and outside port 126 In the case of adding piercing member, in addition to other parameters such as the modularization volume, z-height of change ventilation aperture member 124 and other Except Consideration, the distance between outer surface of diaphragm 140 and shell 106 can reduce, this is likely to be suited for given application journey Sequence.
With reference to figure 3C, it illustrates the viewgraph of cross-section of the ventilation aperture member 124c of the line A-A interceptions along Fig. 2.With regard to this For point, ventilation aperture member 124c can be the sample implementation relative to aperture member 124 of ventilating described in Fig. 2;However, its His embodiment is also possible and will be for example more fully described relative to Fig. 3 A and Fig. 3 B herein.Ventilate aperture member 124c It can be substantially similar to above in relation to aperture member 124 of ventilating described in Fig. 3 A.For example, ventilation aperture member 124c can be configured To promote the equilibrium of the pressure in apparatus casing.Therefore, ventilation aperture member 124c can provide the inner bulk for air in shell The fluid path of entrance and/or discharge between product and external environment.Ventilation aperture member 124c can also be formed and be prevented or hinder The various liquid of pollutant (including water), oil, dust, fragment etc. enter the physics damp-proof layer in shell.In this regard, It is substantially similar to component described in the embodiment above in relation to Fig. 3 A, ventilation aperture member 124c may include outside port 126, conduit region 128, internal port 129, bracket 130, deformable layer 132, the second sieve 138b, diaphragm 140 and clearance layer 142。
In spite of above-mentioned similarity, ventilation aperture member 124c may include the sieve for extending across conduit region 128 152.The sieve 152 can be the mesh layer formed by cross structure or interlocking component array or one group of cross structure or interlocking component Composite construction.Therefore, which can be attached to each other and coordinate, to limit various through-holes, opening, recessed in sieve 152 Hole etc..Air or other fluids (moisture) may pass through the hole being limited in sieve 152 or opening.However, this some holes can be enough It is small so that mesh layer is formed for preventing potential pollutant such as particle, dust, and/or other fragments from entering in shell 106 Physical barrier part.Pollutant may also include the oil or other chemical corrosivity elements that the component of electronic equipment 104 can be made to deteriorate.Cause This, the interleaving members of sieve 152 can be formed by chemical resistant material such as stainless steel;Other than other possible materials, certain A little fibers or synthetic material are for sieve 152 or suitable selection.
The sieve 152 can be packaged or be molded into molded layer 150 at least partly.Molded layer 150 can enclose Compliance ring is formed around sieve 152, to be conducive to the sealing or compression of ventilation aperture member 124.For example, one or more can be used Inner surface of the clearance layer 142 by molded layer 150 along the shell 106 opposite with outside port 126 couples.Molded layer 150 can limit the side wall of the conduit region 128 substantially extended from outside port 126.Molded layer 150 can by it is a variety of can mould Moulding material is formed, including silicones, various plastics, ceramics etc..As shown in Figure 3B, a part for sieve 152 may extend into cladding In molding layer 150.For example, the peripheral edge of sieve 152 or boundary may extend into molded layer 150, so as to by sieve 152 It is fixed in conduit region 128.Molded layer 150 allows sieve 152 to be recessed into the inside of shell 106, this can enhance The aesthetic feeling of outside port 126.Molded layer 150 can also prevent the tangential and/or transverse shifting of ventilation aperture member 124.
In certain embodiments, ventilation aperture member 124c can optionally include liner 154.Liner 154 can be by with It is set to the liner resistant to chemical etching that the physical barrier part between one or more clearance layers 142 and conduit region 128 is provided.Example Such as, as shown in the details of Fig. 3 B, liner 154 can be the O-ring or other structures for the side wall at least partially defining conduit region. In the present embodiment, liner 154 is shown as limiting the conduit region 128 between sieve 152 and outside port 126 Side wall.The side wall can be the side wall for being subjected to corrosive chemical or other elements from external environment of conduit region 128, These substances may corrode clearance layer 142.Therefore, liner 154 can be by substantially by jointing material from corrosivity external environment Seal the service life of the bonded block to help to increase that ventilation aperture member 124c.
It being substantially similar to relative to embodiment described in Fig. 3 A, diaphragm 140 can be used for ventilating in aperture member 124c, To prevent or hinder oil, wet gas and water or other pollutants to enter the inside of shell 106, while air being allowed to pass through.With regard to this For point, diaphragm 140 can be the gas-permeable membrane for extending across conduit region 128.As shown in Figure 3B, diaphragm 140 may be coupled to The opposite molded layer 150 of outside port 126.One or more clearance layers 142 can be used for diaphragm 140 being attached to cladding mould Mould layer 150.
As shown in Figure 3 C, one or more clearance layers 142 can be used that second piercing member is couple to diaphragm 140.Such as It is upper described, when diaphragm 140 due to air passes through and when being bent or deform, the second sieve 138b can be the physics branch for the diaphragm Support is supported.The second sieve 138b's being couple in the embodiment of Fig. 3 B is deformable layer 132.Deformable layer 132 can quilt It is configured for being compressed by bracket 130, includes with the pit or recessed for being substantially filled with or being bonded along the restriction of the downside of bracket 130 The size and/or shape of slot.The downside of bracket 130 and the correspondence geometry of deformable layer can help to limit deformable layer 132 Movement relative to bracket 130.In this way, when bracket 130 below deformable layer 132 and ventilation aperture member 124c it is each other When applying compressing force on layer, deformable layer 132 can be at least partly constrained in bracket 130 (for example, being partly due to hold in the palm Frame 130 is fixed to or is fastened to the rigid inner surface of shell 106).
Fig. 4 depicts the bracket 130 of the inner surface coupling of the shell 106 along electronic equipment 104.One or more can be used Bracket 130 is couple to inner surface by fastener 131;However, other interconnection techniques and structure are also possible.In this embodiment party In case, fastener 131 can extend across the hole being limited in bracket 130 and can be by that can be limited at the interior table of shell 106 The receptions such as corresponding hole, helicitic texture in face.
As shown in figure 4, bracket 130 can be for cantilever design or similar to cantilever design.For example, bracket 130 is at least one End can be the substantially cofree end for extending beyond the given fastener in fastener 131.Substantially cofree End can limit the cantilever part 141 of bracket 130.Cantilever part 141 can have through-hole, the opening etc. for limiting internal port 129. Ventilating aperture member 124 (or any other ventilation aperture member as described herein) can be with the freedom of the side wall and bracket 130 of shell 106 Internal port 129 between end is aligned.Therefore, the aperture member 124 that can be used for ventilate of bracket 130 is fixed in shell 106.Example Such as, when bracket 130 is attached to shell 106 by fastener 131, the free end of bracket 130 can be in ventilation aperture member Apply compressing force on 124, to limit movement of the ventilation aperture member 124 between side wall and the free end of bracket 130.At certain In the case of a little, fastener 131 can be tightened further or is otherwise manipulated, and ventilation is applied to by bracket 130 to change Compressing force on aperture member 124.
Fig. 5 A to Fig. 5 C depict the alternative reality of the ventilation aperture member of the positioning of engagement feature 116 along electronic equipment 104 Apply scheme.As described above, the outside port of ventilation aperture member can be limited in the inside running surface of engagement feature 116. The inside running surface can hide (as shown in Figure 1) by lug 118 at least partly.Therefore, when lug 118 is engaged with When in engagement feature 116, outside port (and corresponding ventilation aperture member) can be hidden or be blanked relative to user. The inside running surface of engagement feature 116 can be configured as that air is allowed to leave and/or enter ventilation aperture member.For example, such as Described in Fig. 1 and Fig. 2, when lug 118 is engaged with wherein, it can be deviated from engagement feature 116 Or separation.Other than described offset or alternatively, Fig. 5 A to Fig. 5 B, which are depicted, can promote air-flow to pass through ventilation aperture member Slit inside running surface alternative embodiment.
With reference to figure 5A, the engagement feature 116 of electronic equipment 104 is shown as having and be limited in internal running surface Multiple outside ports.Multiple outside ports can be configured as by along 116 enlarged area of engagement feature come increase flow into And the air-flow of outflow shell 106, air may pass through the region to reach (or being discharged) ventilation aperture member.Specifically, Fig. 5 A Depict the outside port 126 being positioned on the opposite side of engagement feature 116;However, other configurations are also possible.Often A outside port 126 can be associated with ventilation aperture member aperture member 124 of such as ventilating.Therefore, ventilation aperture member 124 can be with it is outer The general ventilation aperture member that portion port 126 couples;However, in other cases, according to the embodiment described herein, Mei Getong Stomata component 126 can be individually coupled to the single ventilation aperture member with different structure and configuration.
With reference to figure 5B, the engagement feature 116 of electronic equipment 104 is shown as with outside port and is formed into inside Vertical channel 119a in running surface.The vertical channel can be the circumferentially extending along engagement feature 116 from outside port Groove, notch, recess etc..The vertical channel can provide more gaps or sky between engagement feature 116 and lug 118 Between, this can promote air-flow to pass through ventilation aperture member.Specifically, Fig. 5 B depict the internal wave for being formed into engagement feature 116 Vertical channel 119a in shape surface.Vertical channel 119a can extend from outside port 126 and limit engagement feature 116 Sunk part, the sunk part are configured as guiding air and enter and be discharged outside port 126 or otherwise by air Leak into and be discharged outside port.The sunk part limited by vertical channel 119a can be by expanding area along engagement feature 116 Domain increases inflow and flows out the air-flow of shell 106, and air may pass through the region to reach (or being discharged) and outer end 126 associated ventilation aperture members 124 of mouth.
With reference to figure 5C, the engagement feature 116 of electronic equipment 104 is shown as with outside port and is formed into inside Level in running surface or vertical passage.Horizontal channel can be being longitudinally extended along engagement feature 116 from outside port Groove, notch, recess etc..Horizontal channel can provide more gaps or sky between engagement feature 116 and lug 118 Between, this can promote air-flow to pass through ventilation aperture member.Specifically, Fig. 5 C depict the internal wave for being formed into engagement feature 116 Horizontal channel 119b in shape surface.Horizontal channel 119b can extend from outside port 126 and limit engagement feature 116 Sunk part, the sunk part are configured as guiding air and enter and be discharged outside port 126 or otherwise by air Leak into and be discharged outside port.The sunk part limited by horizontal channel 119b can be by expanding area along engagement feature 116 Domain increases inflow and flows out the air-flow of shell 106, and air may pass through the region to reach (or being discharged) and outer end 126 associated ventilation aperture members 124 of mouth.
Fig. 6 A to Fig. 6 C depict sample electronic device 604.For purposes of illustration, electronic equipment shown in Fig. 6 A 604 be wrist-watch.In this regard, component described in the embodiment relative to Fig. 1 to Fig. 5 C, electronics are substantially similar to Equipment 604 may include shell 606, display 608, bizet 610, slit 616, holding structure 617, release component 619 and outside Port 626.
Electronic equipment 604 may also include ventilation aperture member 624, such as above-mentioned ventilation aperture member 124a to 124c.It is providing When preventing pollutant or fragment from entering the physical barrier part in shell, the permissible air that controls of ventilation aperture member 624 is from equipment shell The entrance and/or discharge of body.In this regard, ventilation aperture member 624 can be substantially similar to above in relation to Fig. 1 to Fig. 5 C Described ventilation aperture member 124a to 124c.Ventilation aperture member 624 can be with the outer end that is limited along the outer surface of electronic equipment Mouth 626 is aligned.
As described herein, the ventilation aperture member of the disclosure can be substantially opposite user and be hidden or be blanked.For example, logical Stomata component can be associated by part or opening with the outer surface for being limited at apparatus casing.Based on ventilation aperture member The various external components (band, lug, bizet, button, fastener etc.) of position and configuration, electronic equipment can be blocked visually External opening (port).
Fig. 6 A to Fig. 6 C depict wherein ventilation aperture member 624 and associated outside port 626 and can be substantially opposite The embodiment that user is hidden or is blanked.Specifically, Fig. 6 A to Fig. 6 C depict wherein outside port 626 and are limited at guarantor Hold the embodiment on the surface of structure 617.As above in relation to described in Fig. 2, holding structure 617 can receive for making ear The release component 619 or other buttons that shape object 618 is detached from from slit 616.Therefore, holding structure 617 and release component 619 can match It closes, visually to block outside port 626 (and associated ventilation aperture member 624) relative to user.
With reference to figure 6A, it illustrates the exploded view of electronic equipment 604, wherein outside port 626 is limited at holding structure On 617 surface.Holding structure 617 can be to extend between the bottom surface of shell 606 and the inside running surface of slit 616 Elongated hole.In the embodiment of Fig. 6 A, outside port 626 can be positioned in one in the elongate end of holding structure 617 At elongate end.
In the exploded view of Fig. 6 A, release component 619 is shown as removing from holding structure 617, to expose outer end Mouth 626.In assembled state, release component 619 can be at least partially positioned in holding structure 617 and visually hide Outside port 626 is kept off, is entered to limit liquid and other pollutants.This permissible ventilation aperture member 624 and associated Function is hidden relative to user.Although being released, component 619 visually blocks or part covers, and air still can base It is unhinderedly flowed into sheet in (and outflow) outside port 626.For example, holding structure 617 and release component 619 can slightly partially It moves or detaches, to provide the gap passed through for air between holding structure 617 and release component 619.
With reference to figure 6B, it illustrates the viewgraph of cross-section of the ventilation aperture member 624 of Fig. 6 A of the line B-B interceptions along Fig. 6 A. As shown in Figure 6B, ventilation aperture member 624 can be positioned in shell 606 close to outside port 626, which is limited at In the longitudinal end of holding structure 617.Ventilation aperture member 624 may include limiting between outside port 626 and the inside of shell 606 Fluid path conduit region 628.As described above, ventilation aperture member 624 can be configured as making shell via outside port 626 Air pressure equalisation in body 606.Ventilation aperture member 624 can also prevent the arrival such as pollutant, moisture, fragment to be positioned in shell 606 Interior component and component.
Ventilation aperture member 624 can be fixed on by bracket 630 in shell 606.Bracket 630 may include being configured as connecing Tighten the various holes of firmware 631.Fastener 631 may pass through the corresponding aperture of bracket 630 and fix bracket 630 or otherwise It is restricted to shell.Conduit region 628 provides the air path between outside port 626 and the internal volume of shell 606.
With reference to figure 6C, bracket 630 is shown as coupling along the inner surface of shell 606.As described above, can be used one or more Bracket 630 is couple to inner surface by a fastener 631;However, other interconnection techniques and structure are also possible.Such as Fig. 6 C institutes Show, bracket 630 can limit internal port 629.Ventilation aperture member 624 can be used that internal port 629 is fluidly coupled to outside Environment.Therefore, ventilation aperture member 624 can be aligned with internal port 629 and outside port 624, to promote the inner bulk of shell 606 The flowing of air between product and external environment.
Fig. 7 A to Fig. 7 B depict sample electronic device 704.For purposes of illustration, the electronic equipment shown in fig. 7 704 be wrist-watch.In this regard, component described in the embodiment relative to Fig. 1 to Fig. 5 C, electronics are substantially similar to Equipment 704 may include shell 706, display 708, bizet 710, slit 716, holding structure 717, release component 719 and outside Port 726.
Electronic equipment 704 may also include ventilation aperture member 724, such as above-mentioned ventilation aperture member 124a to 124c.It is providing When preventing pollutant or fragment from entering the physical barrier part in shell, the permissible air that controls of ventilation aperture member 724 is from equipment shell The entrance and/or discharge of body.In this regard, ventilation aperture member 724 can be substantially similar to above in relation to Fig. 1 to Fig. 5 C Described ventilation aperture member 124a to 124c.Ventilation aperture member 724 can be with the outside port that is limited along the outer surface of shell 706 726 alignment.
As described herein, the ventilation aperture member of the disclosure can be substantially opposite user and be hidden or be blanked.For example, logical Stomata component can be associated by part or opening with the outer surface for being limited at apparatus casing.Based on ventilation aperture member The various external components (band, lug, bizet, button, fastener etc.) of position and configuration, electronic equipment can be blocked visually External opening (port).
Fig. 7 A to Fig. 7 B depict wherein ventilation aperture member 724 and associated outside port 726 and can be substantially opposite The embodiment that user is hidden or is blanked.Specifically, Fig. 7 A to Fig. 7 B depict wherein outside port 726 and are limited at guarantor Hold the embodiment on the surface of structure 717.As above in relation to described in Fig. 2, holding structure 717 can receive for making ear The release component 719 or other buttons that shape object 718 is detached from from slit 716.Therefore, holding structure 717 and release component 719 can match It closes, visually to block outside port 726 (and associated ventilation aperture member 724) relative to user.
With reference to figure 7A, it illustrates the exploded view of electronic equipment 704, wherein outside port 726 is limited at holding structure On 717 surface.As described herein, holding structure 717 can be wavy outer in the bottom surface of shell 706 and the inside of slit 716 The elongated hole extended between shape surface.In the embodiment of Fig. 7 A, outside port 726 can be positioned in holding structure 717 At an elongate side in elongate side.
In the exploded view of Fig. 7 A, release component 719 is shown as removing from holding structure 717, to expose outer end Mouth 726.In assembled state, release component 719 can be at least partially positioned in holding structure 717 and visually block Outside port 726 enters to limit liquid and other pollutants.This permissible ventilation aperture member 724 and associated work( It can be hidden relative to user.Although being released, component 719 visually blocks or part covers, and air still can be basic On unhinderedly flow into (and outflow) outside port 726.For example, holding structure 717 and release component 719 can be deviated slightly Or separation, to provide the gap passed through for air between holding structure 717 and release component 719.
With reference to figure 7B, ventilation aperture member 724 is shown as being couple to the inner surface of shell 706.Specifically, bracket 730 can It is couple to the inner surface of shell using one or more fasteners aperture member 724 that will ventilate;However, other interconnection techniques are also It is possible.As shown in Figure 7 B, bracket 730 can limit internal port 729.Therefore, ventilation aperture member 724 can be with internal port 729 It is aligned (Fig. 7 A) with outside port 726, the air flowing between the internal volume and external environment to promote shell 706.
Fig. 8 depicts the viewgraph of cross-section of electronic equipment 804.Electronic equipment 804 can be as described herein with along shell Outer surface outside port or outlet substantially any electronic equipment, such as above-mentioned electronic equipment 104,604,704.Therefore, Electronic equipment 804 can be wrist-watch or other portable electrics with shell, display, bizet, button and/or other appropriate configurations Sub- equipment.In this way, exemplary only to the discussion of electronic equipment 804.
As described herein, the ventilation aperture member of the disclosure can be substantially opposite user and be hidden or be blanked.For example, logical Stomata component can be associated by part or opening with the outer surface for being limited at apparatus casing.Based on ventilation aperture member Positioning and configuration, the various external components (band, lug, bizet, button, fastener etc.) of electronic equipment can be blocked visually External opening (port).
Covering or hiding ventilation aperture member can also be realized by forming shared internal volume in electronic equipment so that The multiple components or component of equipment are fluidly coupled to external environment by the single port being limited in the outside of equipment. For example, the equipment may include the microphone, loud speaker and/or other component that need the air-flow from and/or towards external environment, Such as emit or receive the component of acoustic energy.Both component and ventilation aperture member can be coupled with shared internal volume fluid, to Reduce the visible hole in outside of wrist-watch.
For example, as shown in figure 8, electronic equipment 804 may include limiting along outer surface 807 (outer surface of such as shell or shell) Fixed outside port 826.The internal volume 860 being shown in FIG. 8 can be aligned with outside port 826 and be positioned in electronic equipment 804 inside.Internal volume 860 can be to be configured as multiple components, component, venthole etc. being couple to outside port 826 The inner enclosed portion of electronic equipment 804.Therefore, the fluid path of each component in this base part can extend across interior Portion's volume 860 and outside port 826 so that inlet and outlet of the air between component and external environment uses at least partly Internal volume 860 and be shared.For purposes of illustration, internal volume 860 is shown as rectangle, however various other shapes and Configuration is also possible.For example, internal volume 860 can be the elongate cylindrical for limiting the volume extended from outside port 826, cone Shape, and/or substantially any other shapes.
In the embodiment of Fig. 8, electronic equipment may include ventilate aperture member 824 and acoustic element 850.Ventilation aperture member 824 can be substantially similar to above in relation to the aperture member 124a to 124c that ventilates described in Fig. 3 A to Fig. 3 C.For example, venthole Component 824 can be configured as promoting the equilibrium of the pressure in apparatus casing.Therefore, ventilation aperture member 824 can be provided for air The fluid path of entrance and/or discharge between the internal volume and external environment of shell.Ventilation aperture member 824 can also be formed It prevents from or hinders the various liquid of pollutant (including water), oil, dust, fragment etc. to enter the physical barrier part in shell.Sound Department of the Chinese Academy of Sciences's part 850 can be microphone, loud speaker, and/or the other component of air-flow of the needs from and/or towards external environment, and/ Or can be the other component for wherein needing external environment to ventilate.
Ventilation aperture member 824 and acoustic element 850 are shown as being couple to internal volume 860 in fig. 8.Ventilation aperture member 824 and the coupling of acoustic element 850 and internal volume 860 allow air substantially unhinderedly to flow between them.Just For this point, fluid path can limit in this way:Since each ventilation aperture member 824 and internal part 856, inner bulk is passed through Product 860, and use outside port 826 towards external environment.Therefore, ventilation aperture member 824 and acoustic element 850 can be with outsides Environment liquid couples.For example, fluid path FP1 can pass through internal volume 860 and by outer since aperture member 824 of ventilating Portion port 826 is limited to external environment.In addition, fluid path FP2 can be limited in this way:Since acoustic element 850, pass through interior Portion's volume 860, and external environment is reached by outside port 826.As shown in figure 8, fluid path FP1 and fluid path FP2 It can combine or merge in internal volume 860, and/or advance along common direction.This permissible ventilation aperture member 824 and acoustics Component 850 reaches external environment by such as outside port 826 of the public opening in outer surface.
It should be appreciated that for purposes of illustration, ventilation aperture member 824 and internal part 856 are shown in fig. 8.At it In the case of him, additional component or component can be coupled with internal volume 860, including additional aeration aperture member or loud speaker, Mike The various combinations of the other component of wind, and/or transmission or reception acoustic energy.In this regard, in some embodiments, waterproof Barriers or pollutant barriers can be positioned at outside port 826, to protect inner components from the interference of fragment;So And this is not required.
Fig. 9 depicts sample electronic device 904.For purposes of illustration, the electronic equipment 904 being shown in FIG. 9 is hand Table.In this regard, component described in the embodiment relative to Fig. 1 to Fig. 5 C, electronic equipment 904 are substantially similar to It may include shell 906, display 908, turntable 910, button cap 912, slit 916 and outside port 926.Turntable 910 and button Cap 912 can be the input link of electronic equipment 904.For example, turntable 910 can form the external input component for bizet, and Button cap 912 can form the external input component of button.
Electronic equipment 904 may also include ventilation aperture member 924, such as above-mentioned ventilation aperture member 124a to 124c.It is providing When preventing pollutant or fragment from entering the physical barrier part in shell, the permissible air that controls of ventilation aperture member 924 is from equipment shell The entrance and/or discharge of body.In this regard, ventilation aperture member 924 can be substantially similar to above in relation to Fig. 1 to Fig. 5 C Described ventilation aperture member 124a to 124c.As described herein, ventilation aperture member 924 can be limited with along the outer surface of shell 906 Fixed outside port or register.
The ventilation aperture member of the disclosure can be substantially opposite user and be hidden or be blanked.For example, ventilation aperture member can It is associated by part or opening with the outer surface for being limited at apparatus casing.Based on ventilation aperture member position and match It sets, the various external components (band, lug, bizet, button, fastener etc.) of electronic equipment can visually block external opening (port)
In the embodiment of Fig. 9, ventilation aperture member 924 and associated outside port 926 can be by electronic equipments 904 One or more input structures such as turntable 910 and/or button cap 912 visually block.As described above, turntable 910 can be extremely Partially received by the second opening 909b, and button cap 912 can at least partly by limited along the side of shell 906 the Three opening 909c are received.Electronic equipment 904 may include along the second opening of restriction and/or third opening 909b, one of 909c Or multiple outside ports of the surface positioning of more persons.Therefore, in assembled state, turntable 910 and/or button cap 912 can with it is outer Portion port 926 or multiple outside ports are overlapped at least partly, this is likely to be suited for given application program.This may be in vision On block outside port 926, to hide ventilation aperture member 924 and associated function relative to user.
Although by turntable 910 and/or button cap 912 visually block or part cover, air still can substantially without Ground is hindered to flow into (and outflow) outside port 926.For example, turntable 910 and/or button cap 912 can be slightly from the second openings 909b and the corresponding one offset in third opening 909c or separation.The separation can be provided along the outer surface of shell 906 for sky The gap that gas passes through.
As shown in figure 9, multiple outside ports 926 can be fixed along the surface for limiting the second opening 909b or third opening 909c Position.Multiple openings along surface can increase the handling capacity of the air of the associated ventilation aperture member 924 of entrance (and leaving).This Sample, each outside port in the outside port 926 of the corresponding one in the second opening 909b or third opening 909c can be with Public or shared 924 fluid of ventilation aperture member coupling.
It will be appreciated that though electronic equipment 904 is shown as having along the second opening 909b and third opening in fig.9 The outside port of the surface positioning of each of 909c, but other configurations are also possible.For example, in an embodiment In, outside port 926 can be positioned along the surface for limiting the second opening 909b, and the surface for limiting third opening 909c can be basic On include be fluidly coupled to ventilation aperture member any outside port.In another embodiment, in addition to other possibility Except, outside port 926 can be positioned along the surface for limiting third opening 909c, and the surface for limiting the second opening 909b can base It does not include any outside port for being fluidly coupled to ventilation aperture member in sheet.
Figure 10 A and Figure 10 B depict the viewgraph of cross-section of electronic equipment 1004.Electronic equipment 1004 can be as described herein Substantially any electronic equipment with outside port or outlet along the outer surface of shell, such as above-mentioned electronic equipment 104, 604,704,804 or 904.Therefore, electronic equipment 1004 is exemplary only.
As described herein, the ventilation aperture member of the disclosure can be substantially opposite user and be hidden or be blanked.For example, logical Stomata component can be associated by part or opening with the outer surface for being limited at apparatus casing.Based on ventilation aperture member The various external components (band, lug, bizet, button, fastener etc.) of position and configuration, electronic equipment can be blocked visually External opening (port).
Covering or hiding ventilation aperture member can also be realized by using the fastener with through-hole or hollow space.Example Such as, hollow fastener screw, pin, bolt, bolt etc., which can have, allows air-flow substantially unhinderedly to pass through fastener The inside of main body passes through part.Therefore, hollow fastener can be configured as extending through the internal or external of electronic equipment 1004 Shell or shell simultaneously allow air to be passed through from therebetween.Ventilate aperture member or other pollutant barriers can along hollow fastener and by It is located in the inside of electronic equipment 1004.Along the outside of electronic equipment 1004, ventilation aperture member and associated function can bases It is hidden relative to user on this.Although visually being blocked by hollow fastener or part covering, air still can be via quilt The through-hole being limited in the main body of hollow fastener substantially unhinderedly flows into (and outflow) ventilation aperture member.
Hollow fastener shown in Figure 10 A to Figure 10 B can be used for visually blocking or hide ventilation aperture member 1024, all Such as above-mentioned venthole component 124a to 124c.When offer prevents pollutant or fragment from entering the physical barrier part in shell, lead to Permissible control entrance and/or discharge of the air from apparatus casing of stomata component 1024.In this regard, ventilation aperture member 1024 can be substantially similar to above in relation to ventilation aperture member 124a to 124c described in Fig. 1 to Fig. 5 C and include at least Diaphragm 1040.It will be appreciated, however, that for illustration purposes only, the embodiment for showing Figure 10 A and Figure 10 B.In other feelings Under condition, ventilation aperture member 1024 may include various other layers, diaphragm and/or adhesive phase as described herein or along diaphragm The various perforated layers of 1040 either side positioning.
With reference to figure 10A, electronic equipment 1004 may include being at least partially positioned at along the opening that shell 1006 limits Button 1070.The button can be configured as at least receiving the translation input of the function for control electronics 1004.It is various Internal part (including the component for generating haptic effect) can be positioned in the input lower face that is limited by button 1070 with Be conducive to the above, and button 1070 is fixed in opening.The sample components shown in Figure 10 A include axis 1072, Tactile dome 1073, bracket 1074 and substrate;However, more or fewer components can be used in various application programs.Pressing Button 1070 can be such that axis 1072 inwardly translates, so that tactile dome 1073 is collapsed.This, which can be used, does not exist for the sake of clarity Various electric traces shown in Figure 10 A trigger handover event at substrate 1076.
In sample implementation, it can be used inner retainer by button 1007 (and associated bracket 1074) coupling It is connected to substrate 1076 or other internal structures appropriate.At least one inner retainer can be with passing through portion as described herein The hollow fastener divided, can be used for internal ventilation aperture member being fluidly coupled to external environment.For example, hollow fastener 1080 Fluid path FP3 (the fluid paths that can be used between the internal volume and the downside of button 1070 of restriction electronic equipment 1004 Can external environment open).Ventilation aperture member 1024 as described herein can be aligned along hollow fastener 1080.Therefore, liquid or The entrance of other pollutants can be by limitation into the internal volume of shell 1006, while still allowing for air substantially unhinderedly It passes through.Electronic equipment 1004 can also wrap and also include one or more by what the various internal parts of electronic equipment 1004 were coupled to each other Integral fastener 1078 (for example, substantially solid fastener without hollow space).
It should be appreciated that button 1070 shown in Figure 10 A is many possibility of electronic equipment 1004 and hollow fastener 1080 One example of configuration.In general, hollow fastener 1080 can be used for coupling any internal part of electronic equipment 1004 simultaneously Limit the fluid path passed through.Ventilating aperture member 1024 usually can be fixed along hollow fastener 1080 with any such configuration Position.This permissible hollow fastener 1080 is visually blocking ventilation aperture member at each position in electronic equipment 1004 1024.In some cases, multiple hollow fasteners can be used or couple multiple hollow fasteners and ventilation aperture member 1024, This can help to fully maintain the air flowing between the internal volume and external environment of electronic equipment 1004.
With reference to figure 10B, the one or more that electronic equipment 1004 may also include for hiding ventilation aperture member 1024 is external Fastener.For example, electronic equipment 1004 may include in from the outer surface 1007a of electronic equipment 1004 towards electronic equipment 1004 The hollow fastener 1082 that surface 1007b extends.In some cases, outer surface 1007a and inner surface 1007b can be set by electronics Standby 1004 use hollow fastener 1082 is coupled to each other different components or layer to limit;However, this is not required.At other In the case of, outer surface 1007a and inner surface 1007b can be apparent surface's such as apparatus casing of same parts.
Hollow fastener 1082 can be substantially similar to above in relation to hollow fastener 1080 described in Figure 10 A.Just For this point, hollow fastener can limit the fluid path substantially extended between outer surface 1007a and inner surface 1007b FP3.Ventilation aperture member 1024 as described herein can be aligned along hollow fastener 1080.Therefore, as described herein, liquid or other The entrance of pollutant can be by limitation into the internal volume of shell 1006, while air being still allowed for substantially unhinderedly to wear It crosses.In some cases, multiple hollow fasteners can be used or couple multiple hollow fasteners and ventilation aperture member 1024, this It can help to fully maintain the air flowing between the interior section and the external environment of electronic equipment 1004 of shell.
Figure 11 depicts the viewgraph of cross-section of electronic equipment 1104.Electronic equipment 1104 can be as described herein with along shell The outside port of the outer surface of body or the substantially any electronic equipment of outlet, such as above-mentioned electronic equipment 104,604,704, 804,904 or 1004.Therefore, electronic equipment 1104 is exemplary only.
As described herein, the ventilation aperture member of the disclosure can be substantially opposite user and be hidden or be blanked.For example, logical Stomata component can be associated by part or opening with the outer surface for being limited at apparatus casing.Based on ventilation aperture member The various external components (band, lug, bizet, button, fastener etc.) of position and configuration, electronic equipment can be blocked visually External opening (port).
According to the embodiment of Figure 11, cover or hide ventilation aperture member can also be used it is attached with the shell of electronic equipment 1104 The watchband that connects is realized.For example, Figure 11 shows the watchband 1114 for being pivotally connected to shell 1106.When being coupled to each other or with it When his mode is engaged with each other, watchband 1114 can be used for visually blocking or hide ventilation aperture member 1124, such as above-mentioned ventilation Aperture member 124a to 124c.When offer prevents pollutant or fragment from entering the physical barrier part in shell, aperture member of ventilating 1124 permissible control entrance and/or discharge (for example, pass through outside port 1126) of the air from apparatus casing.With regard to this point Speech, ventilation aperture member 1124 can be substantially similar to above in relation to ventilation aperture member 124a described in Fig. 1 to Fig. 5 C extremely 124c and include diaphragm, sieve or be conducive to above outside port 1126 formed physics barriers other structures.It should Understand, for illustration purposes only, the embodiment for showing Figure 11.In other cases, ventilation aperture member 1124 may include Various other layers, diaphragm, and/or adhesive phase as described herein.
In the embodiment of Figure 11, electronic equipment 1104 may include engagement feature 1116.Engagement feature 1116 can For the wrist-watch lug for connecting with shell 1106 or being limited by it or other protrusions or structure.Engagement feature 1116 can be used for Watchband 1114 is coupled into (including being pivotally connected to) and arrives shell 1106.For example, engagement feature 1116 may include can receive pin or One or more holes of other structures, recessed portion pass through part.As shown in figure 11, engagement feature 1117 can receive pin 1117.As described herein, watchband 1114 can be used pin 1117 and is pivotally connected to or be otherwise attach to shell.Work as table When band 1114 is attached to pin 1117, ventilation aperture member 1124 and associated can be hidden or visually be blocked to watchband 1114 Outside port 1126.
In some cases, as shown in figure 11, watchband 1114 may include flexible-belt 1115 and mating area 1118.Fitting area Domain 1118 may be connected to flexible-belt 1115, and in some cases can be by the material different from flexible-belt 1115 (including difference The material of rigidity) it constitutes, and be conducive to flexible-belt 1115 being connected to shell 1106.For example, mating area 1118 may include It can receive the hole of pin 1117, recessed portion or pass through part.Watchband 1114 can surround pin 1117 and rotate or pivot, to allow table Band 1114 is rotated or is pivoted relative to shell 1106.Mating area 1118 can generally also be received by engagement feature 1116.This can The edge of the side surface and flexible-belt 1115 that allow shell 1106 forms the base of the aesthetic feeling and function that can enhance electronic equipment 1104 Continuous or alignment profile in sheet.
It will be appreciated, however, that although Figure 11 essentially shows the watchband for being configured as pivoting relative to shell 1106 1114, but this is not required.In some cases, watchband 1114 may be connected to shell 1106 or be formed together with shell 1106 Or coupled with shell 1106, this can be conducive to the more longlasting connection between shell 1106 and watchband 1114.Nevertheless, watchband 1114 can be configured as being bent relative to shell 1106, and around the wrist or other body parts of such as user.Watchband 1114 can also detach with outside port 1126, to allow air to pass through ventilation aperture member 1124.This can be outside hiding or covering It is realized when the function of port 126 and ventilation aperture member 1125.
Figure 12 presents the function of the sample electronic device such as relative to electronic equipment described in Fig. 1 to Fig. 5 C 104 Block diagram 1200.It will be appreciated, however, that the functional block diagram as described herein of electronic equipment 104 may include being substantially similar to herein The component of the component of other described electronic equipments etc..In this regard, the schematic diagram in Figure 12 can correspond to above-mentioned Fig. 1 extremely The discribed electronic equipments of Fig. 5 C.However, the schematic diagram in Figure 12 can also correspond to other electronic equipments as described herein etc., it is all As relative to electronic equipment 604,704,804,904,1004 and 1104 described in Fig. 6 A to Figure 11.Electronic equipment 104 can wrap Include for promoting any operation appropriate disclosed herein any hardware appropriate (for example, computing device, data center, Switch), software (for example, application program, system program, engine), network components (for example, communication path, interface, router) etc. (for the sake of removing, may not show).
As shown in figure 12, electronic equipment 104 includes being operably connected to computer storage 1212 and computer-readable The processing unit 1208 of medium 1216.The processing unit 1208 can be via electronic busses or bridge (for example, such as system bus 1210) it is operably connected to 1216 component of computer storage 1212 and computer-readable medium.The processing unit 1208 can The one or more computer processors or microcontroller of operation are executed including being configured to respond to computer-readable instruction. The processing unit 1208 can be the central processing unit of electronic equipment 104.In addition to this or alternatively, which can For other processors in equipment, including special integrated chip (ASIC) and other microcontroller apparatus.
Computer storage 1212 may include various types of non-transient computer readable storage mediums, including for example read Access memory (RAM), read-only memory (ROM), erasable and programable memory (for example, EPROM and EEPROM) or flash memory Memory.Memory 1212 is configured as storage computer-readable instruction, sensor values and other persistence software elements.Meter Calculation machine readable medium 1216 may also include various types of non-transient computer readable storage mediums, including such as hard disk drive Storage device, solid storage device, portable magnetic storage device or other similar devices.Computer-readable medium 1216 is also It can be configured as storage computer-readable instruction, sensor values and other persistence software elements.
In this example, processing unit 1208, which can be used for reading, is stored in computer storage 1212 and/or computer Computer-readable instruction on readable medium 1216.The computer-readable instruction can be such that processing unit 1208 adaptively executes Text is relative to operation or function described in Fig. 1 to Figure 11.The computer-readable instruction can be used as computer program product, software Application program etc. provides.It should be appreciated that in the case where electronic equipment 104 is stylus, processing unit 1208 can be located at and touch In the associated electronic equipment of pen, rather than in stylus itself.In such embodiment, data can be transmitted from stylus To electronic equipment and from electronic equipment data so that the processing unit in electronic equipment operably controls stylus.
As shown in figure 12, electronic equipment 104 further includes display 1218.The display 1218 may include liquid crystal display (LCD), Organic Light Emitting Diode (OLED) display, light emitting diode (LED) display etc..If display 1218 is LCD, Then display may also include the backlight component for the display brightness that can be controlled to provide variable level.If display 1218 For OLED or LED type display, then the electric signal of display element can be provided to by modification to control the bright of display 1218 Degree.
Electronic equipment 104 may also include the battery 1224 for being configured as that electric power is provided to the component of computing device 104.Battery 1224 may include linking together to provide one or more power storage units of the inside supply of electric power.With regard to this point Speech, battery 1224 can be power supply 1228 component (e.g., including to the component of electronic equipment 104 supply electric power charging system Or other circuits).Battery 1224 is operatively coupled to be configured as all parts or component in electronic equipment 104 Group provides the power management circuitry of voltage and power level appropriate.Battery 1224 can be configured as via power management circuitry Electric power is received from external power supply such as AC power supplies socket or interconnection computing devices.Battery 1224 can store received electric power, So that electronic equipment 104 can run the extended period in the case where being not connected to external power supply, if this period can be In the range of dry hour to several days.
Computing device 104 may also include the touch that can be used for detecting electronic equipment 104 and/or power input, environmental condition, take To, position or it is some other in terms of one or more sensors 1240.It can be included in exemplary in electronic equipment 104 Sensor 1240 may include but be not limited to one or more accelerometers, gyroscope, inclinometer, goniometer or magnetometer.Sensing Device 1240 may also include one or more proximity sensors, such as magnetic Hall effect sensor, inductance sensor, capacitance sensing Device, continuity sensor etc..Some specific implementation in, one or more of sensor 1240 sensor may include or by with It is set to the electrode of the metal layer of combined circuit component to operate, as described herein.For example, the electrode of metal layer can be used for being directed to quilt It is configured to detect the sensing element for touching sensor and/or force snesor of input along the surface of equipment 104.
Sensor 1240 can also broadly be defined to include wireless localization apparatus, including but not limited to global positioning system (GPS) circuit, Wi-Fi circuit, cellular communication circuit etc..Electronic equipment 104 may also include one or more optical sensors, packet Include but be not limited to photoelectric detector, photoelectric sensor, imaging sensor, infrared sensor etc..In one example, sensor 1240 can be the imaging sensor of detection ambient image and the matching degree of the image stored.In this way, sensor 1240 can be used In the user of identification electronic equipment 104.Sensor 1240 may also include one or more acoustic elements, such as be used alone or with The microphone that speaker element is used in combination.Sensor 1240 may also include temperature sensor, barometer, pressure sensor, height Degree meter, humidity sensor or other similar environmental sensors.Sensor 1240 may also include the ring of detection electronic equipment 104 The optical sensor of border light condition.
Alone or in combination sensor 1240 generally can be the orientation for being configured to determine that electronic equipment 104, position and/ Or mobile motion sensor.For example, sensor 1240 may include one or more motion sensors, including for example detect movement One or more accelerometers, gyroscope, magnetometer, optical sensor etc..Sensor 1240 is also configured to determine one A or multiple environmental conditions, temperature, air pressure, humidity etc..The sensor 1240 combined individually or with other input terminals can It is configured as the attribute of estimation support surface, including but not limited to material properties, surface properties, frictional properties etc..
Electronic equipment 104 may also include the camera 1232 for being configured as capture digital picture or other optical datas.Camera 1232 may include charge coupling device, complementary metal oxide semiconductor (CMOS) device or be configured as converting the light to electricity Other devices of signal.Camera 1232 may also include one or more light sources, such as stroboscope, flash lamp or other hairs Light device.As described above, camera 1232 can usually be classified as detect optical condition near electronic equipment 104 and/or The sensor of object.However, can also be used to creating can be (such as JPG, GIF, TIFF, PNG, original in electronic format for camera 1232 Image file or other similar file types) stored photo grade image.
Electronic equipment 104 may also include the signal or electricity being configured as transferring and/or receiving from external or specific installation The communication port 1244 of communication.Communication port 1244 can be configured as via cable, adapter or other kinds of electric connector And it is coupled to external equipment.In some embodiments, communication port 1244 can be used for by electronic equipment 104 be configured as Send and/or receive computing device and/or other attachment couplings appropriate of electric signal.Communication port 1244 can be configured as connecing Receive the identification information that can be used for determining installation configuration or supported configurations from external accessory.For example, communication port 1244 can be used In determining that electronic equipment 104 is coupled to installation attachment, such as certain types of holder or support construction.
It other examples and is embodied in the scope of the disclosure and the accompanying claims and essence.For example, realizing function Feature can also be physically located at each position, including be distributed such that funtion part is real in different physical locations It is existing.In addition, it is as used herein, including in the claims, the "or" used in a series of items that prefix is "at least one" Indicate separation property list so that such as " at least one of A, B or C " refers to A or B or C either AB or AC or BC or ABC (that is, A and B and C).In addition, term " exemplary " is not meant to that the example is preferred or more preferable than other examples.
Foregoing description has used specific name to provide the thorough understanding to the embodiment to explain.So And be evident that for a person skilled in the art, it puts into practice the embodiment and does not need these details. Therefore, for the purpose for illustrating and describing, the foregoing description to specific embodiment as described herein is presented.They are simultaneously It is not intended to be exhaustive or embodiment is restricted to disclosed precise forms.For those of ordinary skill in the art and Speech is evident that content, many modifications and variations are possible according to the above instruction.
Present patent application is entitled " the Concealed Barometric Vent for submitted for 11st in September in 2017 The non-provisional of the U.S. Provisional Patent Application No.62/557,131 of an Electronic Device " simultaneously requires to be somebody's turn to do The equity of patent application, the disclosure of which, which is incorporated by reference, to be incorporated herein.

Claims (20)

1. a kind of electronic equipment, which is characterized in that including:
Shell, the shell limit internal volume, engagement feature and are extended to from the inner surface of the internal volume described The outside port on the surface of engagement feature;
Display, the display are at least partially positioned in the shell;
Watchband, the watchband are couple to the engagement feature of the shell;With
Ventilation aperture member, the ventilation aperture member are coupled with the outside port,
Wherein when being attached to the engagement feature, the watchband visually blocks the outside port.
2. electronic equipment according to claim 1, wherein:
The electronic equipment further includes the bracket being positioned in the internal volume of the shell;And
The ventilation aperture member is compressed between the bracket and the inner surface of the shell and includes:
Limit the gas-permeable membrane of damp-proof layer;With
Along the sieve of gas-permeable membrane positioning.
3. electronic equipment according to claim 2, wherein the engagement feature is to extend along the side of the shell Receive slit.
4. electronic equipment according to claim 3, wherein the outside port is oriented from the electronic equipment Portion deviates.
5. electronic equipment according to claim 4, wherein:
The watchband includes band and is couple to the lug of the band;And
The lug and engagement feature cooperation, releasedly to couple the watchband and the shell.
6. electronic equipment according to claim 2, wherein:
The display includes touch sensor and is configured as receiving touch input;
The electronic equipment further includes the bizet for extending through the opening in the shell at least partly;
The bizet is configured as receiving translation input and rotation inputs;And
The display is configured to respond to each of the following terms and describes the images outputting of the electronic equipment:
The touch input of the touch sensor of the display;
The translation input of the bizet;With
The rotation of the bizet inputs.
7. electronic equipment according to claim 1, wherein:
The shell limits hermetic barrier part between the internal volume and external environment;And
The ventilation aperture member is configured as keeping the external pressure of the internal pressure and the external environment of the internal volume equal Weighing apparatus.
8. electronic equipment according to claim 1, wherein the shell can not be by penetration by liquid, and the venthole Component substantially can not be by penetration by liquid.
9. a kind of electronic equipment, which is characterized in that including:
Shell, the outside port that the shell has side wall and is limited in the side wall;
Bracket, the bracket are positioned in the shell and limit internal port;With
The ventilation aperture member being fixed between the bracket and the shell, the ventilation aperture member, which has, forms the outside At least part of conduit region in the channel between port and the internal port, the ventilation aperture member is in the pipe line area Include in domain:
Limit the gas-permeable membrane of damp-proof layer;With
The sieve stacked along the gas-permeable membrane.
10. electronic equipment according to claim 9, wherein:
The ventilation aperture member further includes at least part of deformable layer for the side wall to form the conduit region;And
The bracket is configured to compress the deformable layer.
11. electronic equipment according to claim 10, wherein:
The bracket is coupled to the shell by fastener;And
The cantilever part of the bracket extends from the fastener and limits the internal port.
12. electronic equipment according to claim 9, wherein:
The sieve is first sieve adjacent with the outside port;And
The ventilation aperture member further includes in the conduit region:
Second sieve, second sieve are stacked along the gas-permeable membrane opposite with first sieve.
13. electronic equipment according to claim 12, wherein the venthole component is configured to reduce the shell Pressure difference between internal volume and external environment.
14. electronic equipment according to claim 13, wherein at least one in first sieve or second sieve Person is configured as limiting being deflected caused by the pressure difference for the gas-permeable membrane in the conduit region.
15. electronic equipment according to claim 9, wherein the venthole component further includes:
Film, the film are configured as being formed between the two with the gas-permeable membrane and the sieve in the internal volume of the shell Temporary seal simultaneously has the piercing portions extended in the conduit region.
16. a kind of electronic equipment, which is characterized in that including:
Shell, the shell have outside port;
Ventilation aperture member, the ventilation aperture member are positioned in the shell and limit conduit region, the conduit region quilt It is configured to guide air between the outside port and the internal volume of the shell, the ventilation aperture member includes extending across It crosses the conduit region and limits the gas-permeable membrane of damp-proof layer;With
Input link, the input link and the outside port are be overlapped at least partly.
17. electronic equipment according to claim 16, wherein the input link is at least one of the following terms:
Turntable, the turntable are configured as receiving rotatable input and translatable input;Or
Button cover, the button cover are configured as receiving translatable input.
18. electronic equipment according to claim 16, wherein:
The electronic equipment further includes the acoustic element for being configured as emitting or receiving acoustic energy;And
The outside port is coupled with both the acoustic element and the ventilation aperture member fluid.
19. electronic equipment according to claim 16, wherein the venthole component further includes:
Sieve, the sieve extend across the conduit region and are configured as that pollutant is hindered to enter;With
Molded layer, the molded layer limit the side wall of the conduit region and are molded into above the sieve.
20. electronic equipment according to claim 19, wherein the sieve includes the mesh layer with one group of cross structure.
CN201820129729.2U 2017-09-11 2018-01-26 Electronic equipment Active CN207937914U (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
US201762557131P 2017-09-11 2017-09-11
US62/557,131 2017-09-11
US15/836,955 2017-12-11
US15/836,955 US10165694B1 (en) 2017-09-11 2017-12-11 Concealed barometric vent for an electronic device

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Publication Number Publication Date
CN207937914U true CN207937914U (en) 2018-10-02

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Application Number Title Priority Date Filing Date
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110401904A (en) * 2019-07-12 2019-11-01 刘世阳 Sounding film is pasted from pressure release waterproof
CN112137256A (en) * 2019-06-28 2020-12-29 蒙特雷布勒盖股份有限公司 Device for attaching chain
CN113939124A (en) * 2019-05-31 2022-01-14 苹果公司 Electronic device and method of assembling electronic device
CN114253122A (en) * 2020-09-24 2022-03-29 苹果公司 Pneumatic vent stack design for improved water performance
CN114253120A (en) * 2020-09-23 2022-03-29 Oppo广东移动通信有限公司 Shell assembly, electronic equipment and wearable equipment

Cited By (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113939124A (en) * 2019-05-31 2022-01-14 苹果公司 Electronic device and method of assembling electronic device
CN113939124B (en) * 2019-05-31 2023-10-03 苹果公司 Electronic equipment
CN112137256A (en) * 2019-06-28 2020-12-29 蒙特雷布勒盖股份有限公司 Device for attaching chain
CN110401904A (en) * 2019-07-12 2019-11-01 刘世阳 Sounding film is pasted from pressure release waterproof
CN110401904B (en) * 2019-07-12 2024-09-24 东莞市享誉电子科技有限公司 Self-pressure-releasing waterproof middle-attached sounding film
CN114253120A (en) * 2020-09-23 2022-03-29 Oppo广东移动通信有限公司 Shell assembly, electronic equipment and wearable equipment
WO2022062553A1 (en) * 2020-09-23 2022-03-31 Oppo广东移动通信有限公司 Housing assembly, electronic device, and wearable device
CN114253120B (en) * 2020-09-23 2023-04-11 Oppo广东移动通信有限公司 Shell assembly, electronic equipment and wearable equipment
CN114253122A (en) * 2020-09-24 2022-03-29 苹果公司 Pneumatic vent stack design for improved water performance
CN114253122B (en) * 2020-09-24 2023-08-15 苹果公司 Air pressure vent stack design for improved water performance
US11956611B2 (en) 2020-09-24 2024-04-09 Apple Inc. Barometric vent stack-up design to improve water performance

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