CN109673122A - Network of micropores supports waterproof and breathable membrane module - Google Patents
Network of micropores supports waterproof and breathable membrane module Download PDFInfo
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- CN109673122A CN109673122A CN201910116492.3A CN201910116492A CN109673122A CN 109673122 A CN109673122 A CN 109673122A CN 201910116492 A CN201910116492 A CN 201910116492A CN 109673122 A CN109673122 A CN 109673122A
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- network
- micropore
- waterproof
- micropore supporting
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/02—Details
- H05K5/0213—Venting apertures; Constructional details thereof
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/06—Hermetically-sealed casings
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- Microelectronics & Electronic Packaging (AREA)
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Abstract
The present invention provides a kind of network of micropores to support waterproof and breathable membrane module, including shell, is equipped with a micropore supporting element at the blow vent of the shell;The micropore supporting element is located at interior of shell;The micropore supporting element includes a waterproof ventilated membrane and at least one micropore supporting network;Micropore supporting network includes substrate, is equipped with several micropores for penetrating substrate upper and lower surface among substrate;The surface of substrate all surface and several micropores is equipped with coating;The ventilation area at place micropore supporting network is linked up in several micropore regions;The intermediate site location of ventilation area and waterproof ventilated membrane is corresponding, and they collectively form gas-permeable channels;The gas-permeable channels are connected to blow vent.Network of micropores of the present invention supports waterproof and breathable membrane module, and the waterproof and breathable component using the shared micropore supporting element of micropore supporting network and waterproof ventilated membrane as blow vent can effectively prevent the infiltration of each interlayer high pressure water of component.
Description
Technical field
The invention belongs to the translucent technical fields of waterproof and breathable, more particularly, to one kind for dressing class, mobile communication class, water
Lower instrument class, sensor class, the network of micropores of Intelligent hardware application field support waterproof and breathable membrane module.
Background technique
Currently, dress class/mobile communication class/Intelligent hardware, waterproofing grade generally be no more than IPX6, IPX7 or
The welding of intellectual product integral sealing and external environment air exclusion acoustic isolation.Adhesivity bonding waterproof ventilated membrane and shell are utilized merely
Body, glue hold viscosity and tack there are performance deficiency, and the intellectual product that works under long-time deep-water pressure is having into water risk;
Ventilative membrane material is placed also act on because of hydraulic pressure under water for a long time has expanded drum deformation, leads to the ventilative subsequent nothing of membrane material
Method reverts to surface nature formation state, and waterproof and breathable membrane material can lose original planarization and mechanism property, rear extended meeting drop
Low waterproof protective performance, permeability, sound transfer function.Solution party is protected without perfect 1 meter to 70 meters deep water in the market
Case, the directly upgrading of limitation Intelligent hardware.It is very poor or be unable to satisfy and be resistant to the hydraulic pressure of 1 meter of even 70 meters depth in customer experience sense
Under the conditions of Intelligent hardware, we are truly realized by improving waterproof ventilated membrane construction package and protect product, micropore in deepwater environment
Net supporting element can guarantee the stable air circulation air pressure balance of intellectual product, translucent performance.
Summary of the invention
In view of this, the present invention is directed to propose a kind of network of micropores supports waterproof and breathable membrane module, to overcome the prior art
Defect can using the shared micropore supporting element of micropore supporting network and waterproof ventilated membrane as the waterproof and breathable component at blow vent
It is effectively prevent the infiltration of each interlayer high pressure water of component, the layering of ventilated membrane itself, after removing hydraulic pressure, form of breathing freely can be fast
Speed reduction, performance are substantially unaffected.
In order to achieve the above objectives, the technical scheme of the present invention is realized as follows:
Network of micropores supports waterproof and breathable membrane module, including shell, and micropore support is equipped at the blow vent of the shell
Part;The micropore supporting element is located at interior of shell;The micropore supporting element includes a waterproof ventilated membrane and at least one micropore
Supporting network;Waterproof ventilated membrane and the setting of micropore supporting network interval;Micropore supporting network includes substrate, is equipped with several penetrate among substrate
The micropore of substrate upper and lower surface;The surface of substrate all surface and several micropores is equipped with coating;Several micropore regions ditch
Lead into the ventilation area of place micropore supporting network;The intermediate site location of ventilation area and waterproof ventilated membrane is corresponding, and they
Collectively form gas-permeable channels;The gas-permeable channels are connected to blow vent.
Further, the material of the substrate is one of steel disc, PET, PC, PEN and carbon fiber;The coating is nitrogen
Change in titanium coating, TiCN coating, nitrogen aluminium titanium coating, nitrogen titanium aluminized coating, chromium nitride coating, DLC coating and electric arc coating
It is a kind of;The shape of micropore is cylindric, up-small and down-big or up big and down small round table-like, up big and down small or up-small and down-big terrace with edge
Shape, prism, cylindroid, cross section are the prism of diamond shape, cross section is zigzag cylinder, square, cuboid or step-like.
Further, coating layer thickness is 0.001-1 μm, and micro-pore diameter is 0.01-1000 μm;All micropores are constituted saturating
The diameter in gas region is 0.01-50mm.
Further, the substrate is tabular;The base material thickness is 0.02-1mm;Substrate and its upper surface and following table
The total coating thickness in face is 0.02-1mm.
Further, the substrate is the tabular that third groove is equipped among upper surface or lower surface;Several micropores are set
In the middle position at position where third groove;Be equipped among the substrate position of third groove with a thickness of 0.02-1mm.
Further, the quantity of the micropore supporting network is one, and micropore supporting network is located at the top of waterproof ventilated membrane;
The position that micropore supporting network and waterproof ventilated membrane are located at other than gas-permeable channels is bonded together by the first glue line;Waterproof is saturating
The lower surface of air film is located at the position other than gas-permeable channels equipped with the second glue line.
Further, the micropore supporting element, further includes support ring;The quantity of the micropore supporting network is one, and micro-
Hole supporting network is located at the top of waterproof ventilated membrane;The support ring is located between micropore supporting network and waterproof ventilated membrane, and thereon
Surface and lower surface pass through the first glue line and the second glue line respectively and micropore supporting network is located at other than gas-permeable channels
Position and waterproof ventilated membrane are located at the bonding of the position other than gas-permeable channels;The lower surface of waterproof ventilated membrane is located at other than gas-permeable channels
Position be equipped with the second glue line.
Further, the quantity of the micropore supporting network is 2, one of them is located at the top of waterproof ventilated membrane, another
A lower section positioned at waterproof ventilated membrane;The upper surface of waterproof ventilated membrane is located at position other than gas-permeable channels and lower surface be located at it is saturating
Position other than gas channel passes through the first glue line and the second glue line and micropore supporting network above and following respectively
Micropore supporting network bonding.
Further, the lower surface of micropore supporting network below is located at the position other than gas-permeable channels equipped with third adhesive glue
Layer;Or the lower surface of following micropore supporting network is located at the upper table at position other than gas-permeable channels, micropore supporting network above
The position that face is located at other than gas-permeable channels is equipped with third glue line;Or the lower surface of following micropore supporting network is located at thoroughly
Position other than gas channel is equipped with third glue line, and the upper surface of micropore supporting network above is located at the portion other than gas-permeable channels
Position is provided, in sequence from bottom to top, with the 4th glue line and foamed cotton layer.
Further, the quantity of the micropore supporting network is 1;Micropore supporting network is located at the lower section of waterproof ventilated membrane, and
The opposite one side of the two is located at the position other than gas-permeable channels and is bonded by the first glue line;The lower surface position of micropore supporting network
The position that the upper surface at position, waterproof ventilated membrane other than gas-permeable channels is located at other than gas-permeable channels is equipped with the second adhesive glue
Layer.
Further, the quantity of the micropore supporting network is 1;The waterproof ventilated membrane is located in third groove;Waterproof
Ventilated membrane is located at the position other than gas-permeable channels and is bonded by the first glue line and micropore supporting network;The micropore supporting network with
The ipsilateral surface of third groove is equipped with the second glue line;Second glue line is located at the periphery of third groove.
Further, the blow vent is corresponding with gas-permeable channels upper and lower position, and micropore supporting element is fixed on by pressing plate
On outer casing inner wall;The position of the pressing plate and blow vent face is equipped with through-hole.
Further, the position that the shell inner top is located at micropore supporting element periphery is equipped with fixed part, and the pressing plate is logical
The mode crossing fastener or being connected together is fixed on fixed part;It is close to the lower surface of micropore supporting element pressing plate upper surface.
Further, the position that the shell inner top is located at micropore supporting element periphery is equipped with fixed part;On the pressing plate
Marginal surface is bonded by adhesive glue and fixed part, and the pressing plate lower surface is close to the supporting module for being located at outer casing bottom.
Further, the blow vent is obliquely installed or bends setting, and micropore supporting element is fastened on the recessed of cover top portion
In slot.
Further, the blow vent longitudinal section is at L-shaped;Micropore supporting element is fastened in the first groove of cover top portion,
And gasket is equipped between micropore supporting element and the first groove top;Blow vent is inserted into the side of gasket face blow vent airintake direction
In the second groove on side wall;The position of gasket face gas-permeable channels is equipped with through-hole.
Compared with the existing technology, network of micropores support waterproof and breathable membrane module of the present invention has the advantage that
(1) since each interlayer high pressure of component can be effectively prevent using network of micropores back-supported processing design and Seal Design
The problem of infiltration of water, the layering of ventilated membrane, waterproof and breathable membrane material plays drum deformation itself, after removing hydraulic pressure, form of breathing freely
It can quickly restore, performance is substantially unaffected.
(2) according to product waterproofing grade demand, different preventing water ventilated membrane and viscose glue can be chosen to adapt to form different water depth
Component, resist 1 meter to 70 meters hydraulic pressure.
(3) it can be improved overall intelligence hardware water resistant, waterproofing grade, the acoustic ability after audio film water resistant.
Detailed description of the invention
The attached drawing for constituting a part of the invention is used to provide further understanding of the present invention, schematic reality of the invention
It applies example and its explanation is used to explain the present invention, do not constitute improper limitations of the present invention.In the accompanying drawings:
Fig. 1 is the front sectional view of micropore supporting network described in the embodiment of the present invention 1;
Fig. 2 is the overhead sectional view of micropore supporting network described in the embodiment of the present invention 1;
Fig. 3 is the front sectional view of micropore supporting network described in the embodiment of the present invention 2;
Fig. 4 is the overhead sectional view of micropore supporting network described in the embodiment of the present invention 2;
Fig. 5 is the front sectional view of micropore supporting network described in the embodiment of the present invention 3;
Fig. 6 is the overhead sectional view of micropore supporting network described in the embodiment of the present invention 3;
Fig. 7 is the front sectional view of micropore supporting element described in the embodiment of the present invention 4;
Fig. 8 is the overhead sectional view of micropore supporting element described in the embodiment of the present invention 4;
Fig. 9 is the front sectional view of micropore supporting element described in the embodiment of the present invention 5;
Figure 10 is the overhead sectional view of micropore supporting element described in the embodiment of the present invention 5;
Figure 11 is the front sectional view of micropore supporting element described in the embodiment of the present invention 7;
Figure 12 is the overhead sectional view of micropore supporting element described in the embodiment of the present invention 7;
Figure 13 is the front sectional view of micropore supporting element described in the embodiment of the present invention 11;
Figure 14 is the overhead sectional view of micropore supporting element described in the embodiment of the present invention 11;
Figure 15 is the front sectional view of micropore supporting element described in the embodiment of the present invention 8;
Figure 16 is the overhead sectional view of micropore supporting element described in the embodiment of the present invention 8;
Figure 17 is the front sectional view of micropore supporting element described in the embodiment of the present invention 9;
Figure 18 is the overhead sectional view of micropore supporting element described in the embodiment of the present invention 9;
Figure 19 is the front sectional view of micropore supporting element described in the embodiment of the present invention 10;
Figure 20 is the overhead sectional view of micropore supporting element described in the embodiment of the present invention 10;
Figure 21 is the front sectional view of micropore supporting element described in the embodiment of the present invention 6;
Figure 22 is the overhead sectional view of micropore supporting element described in the embodiment of the present invention 6;
Figure 23 is the simple cross-sectional view of main view that network of micropores described in the embodiment of the present invention 12 supports waterproof and breathable membrane module;
Figure 24 is the simple cross-sectional view of main view that network of micropores described in the embodiment of the present invention 13 supports waterproof and breathable membrane module;
Figure 25 is the simple cross-sectional view of main view that network of micropores described in the embodiment of the present invention 14 supports waterproof and breathable membrane module;
Figure 26 is the simple cross-sectional view of main view that network of micropores described in the embodiment of the present invention 15 supports waterproof and breathable membrane module;
Figure 27 is the simple cross-sectional view of main view that network of micropores described in the embodiment of the present invention 16 supports waterproof and breathable membrane module;
Figure 28 is the simple cross-sectional view of main view that network of micropores described in the embodiment of the present invention 17 supports waterproof and breathable membrane module.
Description of symbols:
1- substrate;2- micropore;3- coating;4- waterproof ventilated membrane;5- micropore supporting network;6- glue line;7- support ring;
8- foamed cotton layer;9- gas-permeable channels;10- shell;11- blow vent;12- micropore supporting element;13- through-hole;14- fixed part;15- pressure
Plate;16- supporting module;The first groove of 17-;18- gasket;The second groove of 19-;20- fastener;21- shoulder;22- card slot;23-
Third groove;The second glue line of 24-;25- third glue line;The 4th glue line of 26-.
Specific embodiment
It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can phase
Mutually combination.
In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", "upper", "lower",
The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" is
It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description of the present invention and simplification of the description, rather than instruction or dark
Show that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as pair
Limitation of the invention.In addition, term " first ", " second " etc. are used for description purposes only, it is not understood to indicate or imply phase
To importance or implicitly indicate the quantity of indicated technical characteristic.The feature for defining " first ", " second " etc. as a result, can
To explicitly or implicitly include one or more of the features.In the description of the present invention, unless otherwise indicated, " multiple "
It is meant that two or more.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase
Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected;It can
To be mechanical connection, it is also possible to be electrically connected;It can be directly connected, can also can be indirectly connected through an intermediary
Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood by concrete condition
Concrete meaning in the present invention.
The present invention will be described in detail below with reference to the accompanying drawings and embodiments.
One, micropore supporting network
Micropore supporting network, including substrate 1 are equipped with several micropores 2 for penetrating 1 upper and lower surface of substrate among the substrate 1;Base
The surface of 1 all surface of material and several micropores 2 is equipped with coating 3.The choosing of substrate material uses the high-end metal material of industry, macromolecule
Material and carbon fibre material, material therefor should have long service life, high-low temperature resistant, ageing-resistant, antiacid alkali, waterproof, moisture-proof, anti-
The feature of mildew etc., can guarantee product function characteristic for a long time.Meet the preferred steel discs of 1 material of substrate of these features, PET,
The materials such as PC, PEN, carbon fibre material, they still have in 0.1MM thickness, and rigidity is strong, not flexible;Hardness is high, is not easy
It scratches;The features such as wilfulness is good, and resilience is good rationally designs structure by multilayer and the hydraulic pressure that can be prevented at 100 meters is protected in support
Lower micropore supporting network will not generate distortion, play drum, guarantee the flatness of product.
The minimum diameter of several micropores can be 0.01 micron, and maximum gauge is up to 1000 microns, specifically, molding side
Method can have following several: using the quick drilling forming of different processing technologys;It is utilized on alloy material or high molecular material
Laser micropore processing and forming, its main feature is that micropore can be small to 0.01 micron, it can be with filter virus, mould, blood, for biology
Experiment, Medical Devices and medical product;It is processed using etching micro molding, its main feature is that low in cost, process velocity block, precision
It is high.Suitable for large-scale standardized operation, hundreds of thousands standard items can be gone out within one day, be applied to the high technology industries products such as electronic apparatus,
Product tolerance can guarantee within 0.03 millimeter, while micropore supporting network is also applied for high-precision end product.Using punching press micropore at
Type processing, its main feature is that low in cost, process velocity block, precision is high, is suitable for product appearance and decorates, ventilation, dehumidifying, support etc.
Effect;Micropore can be made into straight hole or bellmouth using laser and etch process, to increase using side wall inclined plane empty
The mobility of gas area improves sound frequency response effect.
Substrate surface and several micropore surfaces pass through plating/PVD/PECVD/ and boil black process, Surface Creation can be made to receive
Meter level thickness coatings, nanometer grade thickness do not influence original size design scheme, can also be to having filling/levelling at some concave points
Effect, and play the role of being passivated angle to inner hole burr or be rolled into small arc-shaped, reduce cutting and abrasion to material.The painting
Layer 3 is titanium nitride coating 3, TiCN coating 3, nitrogen aluminium titanium coating 3, nitrogen titanium aluminized coating 3, chromium nitride coating 3, DLC coating 3
One of with electric arc coating 3, the wherein Kunshans East China prosperity coating such as TiCN coating, nitrogen aluminium titanium coating, nitrogen titanium aluminized coating
Science and Technology Ltd. etc. is in stock, the limited public affairs of the resistance to nanosecond science and technology of the Suzhou moral such as titanium nitride coating, chromium nitride coating, DLC coating
Department etc. is in stock.Coating most thin thickness can increase and decrease formula concentration as needed, adjust temperature and time in 1 ran
Change coating layer thickness, thickness can be nanoscale to micron-sized variation, uniformly adhere to substrate surface and several micropore surfaces.System
Standby coating has many advantages, such as high rigidity, high rigidity, low-friction coefficient, good wearability and chemical stability.Pass through surface
Reduce gas-flow resistance, audio performance is provided, lowers distortion rate.In addition, micropore supporting network surface color can by coating process,
It adjusts technological temperature and changes coating color.
Preferably, the substrate is tabular;The substrate 1 is with a thickness of 0.02-1mm;Substrate 1 and its upper surface and following table
The total coating thickness in face is 0.02-1mm.
Preferably, the substrate is the tabular that third groove 23 is equipped among upper surface or lower surface;Several micropores 2 are set
In the middle position at 23 place position of third groove;Among the substrate 1 equipped with third groove 23 position with a thickness of 0.02-
1mm。
Preferably, for coating 3 with a thickness of 0.001-1 μm, 2 diameter of micropore is 0.01-0.1 μm.
The diameter for the ventilation area that all micropores are constituted is 0.01-50mm, preferably 0.01-1mm.Micropore supporting network produces
The micro-porous permeable regional diameter size of product is less than 0.01mm, and the ventilative flow of waterproof membrane is small, can not accomplish quick air pressure balance;Product
Ventilation area diameter dimension is greater than 1mm, and is not added in the state of micropore supporting network, and waterproof membrane is easy to tear, and can not accomplish deep water 1
- 70 meters of protection of rice;The waterproof and breathable diaphragm component of different vapor permeation areas can cooperate black box structure.
Substrate 1 and the total coating thickness (namely overall thickness of entire micropore supporting network) of its upper and lower surfaces are
0.02-1mm, that is because guaranteeing entire micropore supporting network product under 1 meter to 70 meters hydraulic pressure according to structure and material variation
Draftability is unchanged, and product thickness size is less than 0.02mm, and plate is easily broken, and can not play 70 meters of deep-water pressure support protections;
Product thickness size is greater than 1mm, can not accomplish quickly to breathe freely, material thickness will affect sound of the sound in micro channel, again
Because the mounting condition of intellectual product requires, thickness is relatively reasonable in 0.02-1mm.
It should be noted that micropore supporting network of the present invention can have a micropore or a multiple micropores, micropore can be by
Distance or figure arrangement, the shape of several micropores 2 are cylindric, up-small and down-big or up big and down small round table-like, up big and down small
Or up-small and down-big prism-frustum-shaped, prism, cylindroid, cross section are the prism of diamond shape, cross section is zigzag cylinder, pros
The shape or irregular shape or micropore 2 of any rule such as body, cuboid are stepped hole.
Embodiment 1
As depicted in figs. 1 and 2, micropore supporting network, including substrate 1, the substrate are tabular;It is set among the substrate 1
There are 9 micropores 2 for penetrating 1 upper and lower surface of substrate;The surface of 1 all surface of substrate and 9 micropores 2 is equipped with titanium nitride coating 3
(Suzhou De Nai nanosecond science and technology Co., Ltd, material model TIN);The material of the substrate 1 is carbon fiber.The substrate 1 is thick
Degree is 0.2mm, and for coating 3 with a thickness of 0.003 μm, 2 diameter of micropore is 0.01 μm, and the shape of micropore 2 is up-small and down-big rotary table
Shape.Micropore supporting network is circle.The micropore of this shape designs, and shortens passage length when sound can be allowed to pass through micro channel, by
The big channel surface area of flaring, to reduce audio loss of the sound in channel and the acoustic impacts to medium-high frequency, while coating
Have levelling function of surface, reduces air drag.
Embodiment 2
As shown in Figure 3 and Figure 4, micropore supporting network, including substrate 1, the substrate are tabular;It is set among the substrate 1
There are 9 micropores 2 for penetrating 1 upper and lower surface of substrate;The surface of 1 all surface of substrate and 9 micropores 2 is equipped with titanium nitride coating 3
(Suzhou De Nai nanosecond science and technology Co., Ltd, material model TIN);The material of the substrate 1 is steel disc.1 thickness of substrate
For 0.4mm, for coating 3 with a thickness of 0.01 μm, 2 diameter of micropore is 0.05 μm, and the shape of micropore 2 is cylindric.Micropore supporting network is
It is round.
Embodiment 3
As shown in Figure 5 and Figure 6, micropore supporting network, including substrate 1, the substrate are that third groove is equipped among lower surface
23 tabular;The intermediate position of the 1 intermediate third groove position of substrate is equipped with 9 and penetrates 1 groove of substrate or more
The micropore 2 on surface;The surface of 1 all surface of substrate and 9 micropores 2 is equipped with (the resistance to nanosecond science and technology of Suzhou moral of titanium nitride coating 3
Co., Ltd, material model TIN);The material of the substrate 1 is PET.The third groove of the substrate 1 with a thickness of
0.8mm, for coating 3 with a thickness of 0.01 μm, 2 diameter of micropore is 0.05 μm, and the shape of micropore 2 is cylindric.Micropore supporting network is circle
Shape.
Two, the supporting element containing micropore supporting network
A kind of micropore supporting element comprising micropore supporting network as described above, further includes waterproof ventilated membrane 4;Micropore supporting network
5 quantity is at least one, and micropore supporting network 5 and the setting of the interval of waterproof ventilated membrane 4;Several micropores 2 of micropore supporting network 5 with
The intermediate site location of waterproof ventilated membrane 4 is corresponding, and 2 region of several micropores constitutes ventilation area;Ventilation area and anti-
The intermediate position of water ventilated membrane 4 collectively forms gas-permeable channels 9.Wherein, waterproof ventilated membrane is TPU extruding film, PE film, PET
Film or polytetrafluoroethylbulked bulked film.When there is multiple micropore supporting networks, multiple micropore supporting networks can choose it is identical,
It can choose different.
For gas-permeable channels diameter dimension between 0.5-3mm, product gas-permeable channels diameter dimension is less than 0.5mm, and waterproof membrane is saturating
Throughput is small, can not accomplish quick air pressure balance;Product gas-permeable channels diameter dimension is greater than 3mm, and waterproof membrane is easy to tear, can not
Accomplish 1 meter of -70 meters of protection of deep water;The waterproof and breathable diaphragm component of different vapor permeation areas is to cooperate black box structure.
Micropore supporting element shape can change according to the actual demand of client, such as round, square, rectangle or shape
Irregular shape.
Embodiment 4
As shown in Figure 7 and Figure 8, a kind of micropore supporting element further includes including micropore supporting network 5 described in one embodiment 2
One waterproof ventilated membrane 4;Micropore supporting network 5 is located at the top of waterproof ventilated membrane 4;92 locations of micropore of micropore supporting network 5
Domain constitutes ventilation area;The intermediate site location of the ventilation area and waterproof ventilated membrane 4 is corresponding, and the two collectively forms
Gas channel 9;Micropore supporting network 5 and waterproof ventilated membrane 4 are located at the position other than gas-permeable channels 9 and are bonded by the first glue line 6
Together;The lower surface of waterproof ventilated membrane 4 is located at the position other than gas-permeable channels 9 equipped with the second glue line 24.Gas-permeable channels 9
Diameter dimension is 0.5mm;Waterproof ventilated membrane is TPU extruding film.Since micropore supporting network itself has preferable support performance,
Can prevent waterproof and breathable membrane material collapse/play drum/rupture, when meeting water, waterproof ventilated membrane and network of micropores are closely sticked, nothing
Hydraulic pressure close when ventilated membrane separated with network of micropores, guarantee the flatness of material, thus accomplish deep water immersion after waterproof ventilated membrane still
Very little in waterproof performance, permeability, the acoustic impact of performance is without obvious decaying, to reach deep water audio film persistence protection function
Energy.
Embodiment 5
As shown in Figure 9 and Figure 10, a kind of micropore supporting element is also wrapped including micropore supporting network 5 described in one embodiment 2
Include a waterproof ventilated membrane 4 and a support ring 7;Micropore supporting network 5 is located at the top of waterproof ventilated membrane 4;Micropore supporting network 5
92 regions of micropore constitute ventilation area;The intermediate site location of the ventilation area and waterproof ventilated membrane 4 is corresponding, and
The two constitutes gas-permeable channels 9;The support ring 7 is located between micropore supporting network 5 and waterproof ventilated membrane 4, and its upper surface is under
Surface passes through the portion that the first glue line 6 and third glue line 25 are located at other than gas-permeable channels 9 with micropore supporting network 5 respectively
Position and waterproof ventilated membrane 4 are located at the bonding of the position other than gas-permeable channels 9;The lower surface of waterproof ventilated membrane 4 is located at gas-permeable channels 9
Position in addition is equipped with the second glue line 24.Gas-permeable channels diameter dimension is 1mm;Waterproof ventilated membrane is PE film.Support ring
Have the function of adjusting pitch of holes and consolidates support, the adjustable audio function of the transformation of internal cavity, to reach client's
Performance requirement.Further, since micropore supporting network itself has preferable support performance, it can prevent waterproof and breathable membrane material from collapsing
Fall into/drum/rupture is played, when meeting water, waterproof ventilated membrane and network of micropores short distance are sticked, and ventilated membrane divides with network of micropores when anhydrous pressing
From, guarantee the flatness of material, thus accomplish that waterproof ventilated membrane is still very little in waterproof performance after deep water impregnates, permeability passes
The sound impact of performance is without obvious decaying, to reach deep water audio film persistence defencive function.
Embodiment 6
As shown in figure 21 and figure, a kind of micropore supporting element, including micropore supporting network 5 as described in Example 3 and waterproof
Ventilated membrane 4;The waterproof ventilated membrane 4 is located in third groove 23;2 region of several micropores of micropore supporting network 5 constitutes saturating
Gas region;The intermediate site location of ventilation area and waterproof ventilated membrane 4 is corresponding, and they collectively form gas-permeable channels 9.Waterproof
Ventilated membrane 4 is located at the position other than gas-permeable channels 9 and is bonded by the first glue line 6 with micropore supporting network 5, and waterproof and breathable
The overall thickness of film 4 and the first glue line 6 is less than or equal to the depth of third groove 23;The micropore supporting network 5 and groove 10
Ipsilateral surface is equipped with the second glue line 24;Second glue line 24 is located at the periphery of third groove 23.Micropore
Quantity is 9.Gas-permeable channels diameter dimension is 1.5mm;Waterproof ventilated membrane is PET film.Network of micropores supports waterproof ventilated membrane structure
At micropore supporting element be bonded outline border (namely shell) when, third inside grooves can be saturating to avoid the safer protection water that scratches
Air film is smooth, and the depth of third groove can also be effectively protected waterproof and breathable film surface and will not be scratched, and improves network of micropores branch
Support recessive security performance when waterproof and breathable membrane module uses.
Embodiment 7
As is illustrated by figs. 11 and 12, a kind of micropore supporting element, including 2 micropore supporting networks 5 and 1 as described in example 2
Waterproof ventilated membrane;In two micropore supporting networks 5, one of them is located at the top of waterproof ventilated membrane 4, another is located at waterproof and breathable
The lower section of film 4;92 regions of micropore on each micropore supporting network 5 constitute a ventilation area;Two ventilation areas
It is corresponding with the intermediate site location of waterproof ventilated membrane 4, and their threes collectively form gas-permeable channels 9.Waterproof ventilated membrane 4
Upper surface is located at the position that the position other than gas-permeable channels 9 and lower surface are located at other than gas-permeable channels 9 and passes through the first bonding respectively
Glue-line 6 and the second glue line 24 are bonded with micropore supporting network 5 above and following micropore supporting network 5.9 diameter of gas-permeable channels
Having a size of 2.4mm;Waterproof ventilated membrane is TPU extruding film.Upper and lower two sides respectively set a micropore supporting network, can externally play protection
Effect;Further, since micropore supporting network itself has preferable support performance, it can prevent waterproof and breathable membrane material from collapsing/rising
Drum/rupture, when meeting water, waterproof ventilated membrane and network of micropores are closely sticked, and ventilated membrane is separated with network of micropores when anhydrous pressing, guarantor
Demonstrate,prove material flatness, thus accomplish deep water impregnate after waterproof ventilated membrane it is still very little in waterproof performance, permeability, acoustic performance
Effect is without obvious decaying, to reach the deep water audio film persistence defencive function of client.
Embodiment 8
As shown in Figure 15 and Figure 16, micropore supporting element described in the present embodiment is substantially the same manner as Example 6, and difference exists
In: the lower surface of micropore supporting network 5 below is located at the position other than gas-permeable channels 9 equipped with third glue line 25.Waterproof is saturating
Air film is polytetrafluoroethylbulked bulked film.Upper and lower two sides respectively set a micropore supporting network, for micropore supporting element outside, can rise
To the effect and the high hydraulic pressure impact of obstruction for preventing foreign matter from piercing through waterproof ventilated membrane, for micropore supporting element internal structure, due to
Micropore supporting network itself has preferable support performance, can prevent waterproof and breathable membrane material collapse/play drum/rupture, when meet water
When waterproof ventilated membrane and network of micropores closely stick, ventilated membrane is separated with network of micropores when anhydrous pressing, guarantees the flatness of material;
Upper and lower two sides have simultaneously can also prevent waterproof membrane from frequently shaking rupture under the limit hydraulic pressure when network of micropores, thus accomplish that deep water soaks
Waterproof ventilated membrane still has waterproof performance after bubble, and permeability, the acoustic impact of performance is without obvious decaying, to reach client's
Deep water audio film persistence defencive function.
Embodiment 9
As shown in Figure 17 and Figure 18, micropore supporting element described in the present embodiment is substantially the same manner as Example 6, and difference exists
In: micropore supporting network 5 above uses micropore supporting network described in embodiment 1, and micropore supporting network 5 below uses embodiment 2
The micropore supporting network.The lower surface of following micropore supporting network 5 is located at position other than gas-permeable channels 9, micropore above
The position that the upper surface of supporting network 5 is located at other than gas-permeable channels 9 is equipped with third glue line 25.Upper and lower two sides respectively set one it is micro-
Hole supporting network can play the role of preventing foreign matter from piercing through waterproof ventilated membrane and stopping high hydraulic pressure for micropore supporting element outside
Impact, for micropore supporting element internal structure, since micropore supporting network itself has preferable support performance, can prevent
Water breathe freely membrane material collapse/play drum/rupture, when meeting water, waterproof ventilated membrane and network of micropores short distance are sticked, and when anhydrous pressing is saturating
Air film is separated with network of micropores, guarantees the flatness of material;Upper and lower two sides have simultaneously can also prevent waterproof membrane in pole when network of micropores
Restrict water supply depress frequently vibration rupture, thus accomplish deep water impregnate after waterproof ventilated membrane still there is waterproof performance, permeability, pass
Without obvious decaying, the two-sided compound sticking glue of product (namely is located at the sound impact of performance in the lower surface of following micropore supporting network 5
The position that position, micropore supporting network 5 above other than gas-permeable channels are located at other than gas-permeable channels is equipped with glue line 6, more
Convenient link structure part is added to play the role of waterproof sealing, optimization product uses function, so that the deep water audio film for reaching client is held
Long property defencive function.
Embodiment 10
As illustrated in figures 19 and 20, micropore supporting element described in the present embodiment is substantially the same manner as Example 6, and difference exists
In: the lower surface of micropore supporting network 5 below is located at the position other than gas-permeable channels 9 equipped with third glue line 25, above
The position that the upper surface of micropore supporting network 5 is located at other than gas-permeable channels 9 is provided, in sequence from bottom to top, with the 4th glue line 26 and bubble
Cotton layer 8.Upper and lower two sides respectively set a micropore supporting network, and for micropore supporting element outside, can play prevents foreign matter from piercing through waterproof
The high hydraulic pressure impact of the effect and obstruction of ventilated membrane, for micropore supporting element internal structure, since micropore supporting network itself has
Preferable support performance, can prevent waterproof and breathable membrane material collapse/play drum/rupture, waterproof ventilated membrane and micropore when meeting water
Net closely sticks, and ventilated membrane is separated with network of micropores when anhydrous pressing, guarantees the flatness of material;Upper and lower two sides have micro- simultaneously
Can also be prevented when hole pattern waterproof membrane under limit hydraulic pressure frequently vibration rupture, thus accomplish deep water impregnate after waterproof ventilated membrane still
With waterproof performance, permeability, for the acoustic impact of performance without obvious decaying, back foam plays sealing buffering and filling effect,
The structure filling gap more rationalized, the gap for reducing size assortment design difficulty and temperature change change design difficulty, from
And reach the deep water audio film persistence defencive function of client.
Embodiment 11
As shown in Figure 13 and Figure 14, a kind of micropore supporting element, including 5 He of micropore supporting network as described in Example 1
One waterproof ventilated membrane 4;Micropore supporting network 5 is located at the lower section of waterproof ventilated membrane 4;92 locations of micropore of micropore supporting network 5
Domain constitutes ventilation area;The intermediate site location of the ventilation area and waterproof ventilated membrane 4 is corresponding, and the two constitutes ventilative lead to
Road 9.Micropore supporting network 5 and the opposite one side of waterproof ventilated membrane 4 are located at the position other than gas-permeable channels 9 and pass through the first glue line
6 bondings;The lower surface of micropore supporting network 5 is located at position other than gas-permeable channels 9, the upper surface of waterproof ventilated membrane 4 be located at it is ventilative
Site portion other than channel 9 is equipped with the second glue line 24.Gas-permeable channels diameter dimension is 3mm.Waterproof ventilated membrane is poly-
Tetrafluoroethene extruding film.Since micropore supporting network 5 itself has preferable support performance, waterproof and breathable membrane material can be prevented
Collapse/drum/rupture is played, when meeting water, waterproof ventilated membrane and network of micropores are closely sticked, ventilated membrane and network of micropores when anhydrous pressing
Separation, guarantees the flatness of material, thus accomplishes that waterproof ventilated membrane is still very little in waterproof performance after deep water impregnates, permeability,
The acoustic impact of performance is without obvious decaying;It is saturating that product in the lower surface of micropore supporting network 5 is located at position other than gas-permeable channels, waterproof
The position that the upper surface of air film 4 is located at other than gas-permeable channels is equipped with glue line 6, can more convenient connection member, rise
It is acted on to waterproof sealing, optimization product uses function, to reach the deep water audio film persistence defencive function of client.
Micropore supporting element in embodiment 4-11 is circle, specifically cylindric.
Three, network of micropores supports waterproof and breathable membrane module
Network of micropores supports waterproof and breathable membrane module, including shell 10, be equipped at the blow vent 11 of the shell 10 just like
Upper any a micropore supporting element 12;The micropore supporting element 12 is located inside shell 10, micropore supporting element 12 it is saturating
Gas channel 9 is connected to blow vent 11.
Wherein, for internal ventilation area (namely gas-permeable channels 9) diameter dimension between 0.5-3mm, product ventilation area is straight
Diameter size is less than 0.5mm, and the ventilative flow of waterproof membrane is small, can not accomplish quick air pressure balance;Product ventilation area diameter dimension is big
In 3mm, waterproof ventilated membrane is easy to tear, and can not accomplish 1 meter of -70 meters of protection of deep water;The waterproof and breathable diaphragm of different vapor permeation areas
Component is to cooperate black box structure.
Wherein, the blow vent on network of micropores support waterproof and breathable membrane module China and foreign countries shell is according to client's performance requirement design method
There are straight tube form, bend form, bend combining form, ramp way form;Blow vent integral central length is done in 0.2-8mm
To 1 meter of -70 meters of protection of deep water, it is easy to acoustic.
In some embodiments, micropore supporting element is fixed by pressing plate at blow vent inside the housing, and pressing plate can be set
It is calculated as surface plate, U-shaped, convenient for being fixed at housing face, side wall, bumps with supporting block, screw, rivet, card slot, accomplishes deep water
1 meter of -70 meters of protection.
Embodiment 12
As shown in figure 23, network of micropores supports waterproof and breathable membrane module, including shell 10, the blow vent 11 of the shell 10
Place is equipped with a micropore supporting element 12 as described in Example 11;The micropore supporting element 12 is located inside shell 10;It is described
Gas channel 9 is connected to blow vent, and the two upper and lower position is corresponding;Micropore supporting element 12 is fixed in shell 10 by pressing plate 15
On wall;The pressing plate 15 and the position of 11 face of blow vent are equipped with through-hole 13.Specifically, 10 inner top of shell is located at micro-
The position of 12 periphery of hole supporting element is integrally formed with fixed part 14;15 top surface edge of pressing plate passes through adhesive glue and fixed part
14 bondings, 15 lower surface of pressing plate is close to the supporting module 16 for being located at 10 bottom of shell.The network of micropores of the present embodiment supports
Waterproof and breathable membrane module forms a volume protected from water inside the housing, while there are also the effects of ventilative balance;Adhesive glue plays
It is connected and fixed the effect of shell 10 Yu pressing plate 15;Supporting module 6 supports pressing plate 15, prevents pressing plate 15 from falling off under deep-water pressure,
Accomplish that micropore supporting element is indeformable on shell 10 simultaneously and do not fall off, along with waterproof ventilated membrane can allow inside and outside gas the work to circulate
With sound reaches the ventilative acoustic effect of integral waterproofing by the transmitting of air dielectric and the vibration of film.
Embodiment 13
As shown in figure 24, network of micropores supports waterproof and breathable membrane module, including shell 10, the blow vent 11 of the shell 10
Place is equipped with a micropore supporting element 12 as described in Example 8;The micropore supporting element 12 is located inside shell 10;It is described
Gas channel 9 is connected to blow vent, and the two upper and lower position is corresponding;Micropore supporting element 12 is fixed in shell 10 by pressing plate 15
On wall.Specifically, 10 inner top of shell is located at the position of 12 periphery of micropore supporting element integrally formed with fixed part 14, institute
Pressing plate 15 is stated to be fixed on fixed part 14 by multiple fasteners (screw) 20;15 upper surface of pressing plate and micropore supporting element 12
It is close to lower surface.The pressing plate 15 and the position of 11 face of blow vent are equipped with through-hole 13.The network of micropores of the present embodiment supports waterproof
Ventilative membrane module forms a volume protected from water inside shell 10, while there are also the effects of ventilative balance;Fastener 20 plays connection
The effect of fixing shell 10 and pressing plate 15 prevents pressing plate 15 from falling off under deep-water pressure, while accomplishing micropore supporting element 12 outside
Indeformable on shell 10 not fall off, along with waterproof ventilated membrane can allow inside and outside gas the effect circulated, sound passes through air dielectric
The vibration of transmitting and film achievees the effect that integral waterproofing is breathed freely acoustic.
Embodiment 14
As shown in figure 25, network of micropores supports waterproof and breathable membrane module, including shell 10, the blow vent 11 of the shell 10
Place is equipped with a micropore supporting element 12 as described in Example 9;The micropore supporting element 12 is located inside shell 10;It is described
Gas channel 9 is connected to blow vent, and the two upper and lower position is corresponding;Micropore supporting element 12 is fixed in shell 10 by pressing plate 15
On wall.Specifically, 10 inner top of shell is located at the peripheral position of micropore supporting element 12 integrally formed with fixed part 14, Gu
14 lower end of portion is determined outward integrally formed with shoulder 21;15 outer of pressing plate is folded upward to form card slot 22, and card slot 22 is fastened on platform
On shoulder 21, and then pressing plate 15 is fixed on fixed part 14.The following table at position and micropore supporting element 12 among 15 upper surface of pressing plate
It is close in face.The pressing plate 15 and the position of 11 face of blow vent are equipped with through-hole 13.The network of micropores of the present embodiment supports waterproof and breathable
Membrane module forms a volume protected from water inside shell 10, while there are also the effects of ventilative balance;Pressing plate 15 and shell 15 utilize
Card slot and the mode of shoulder engaging are connected with each other, and can prevent pressing plate 15 from falling off under deep-water pressure, while accomplishing that micropore supports
Part 12 is indeformable on shell 10 not to be fallen off, and along with waterproof ventilated membrane can allow inside and outside gas the effect circulated, sound passes through sky
The transmitting of gas medium and the vibration of film achieve the effect that integral waterproofing is breathed freely acoustic.
Embodiment 15
As shown in figure 26, network of micropores supports waterproof and breathable membrane module, including shell 10, the blow vent 11 of the shell 10
Place is equipped with a micropore supporting element 12 as described in Example 6;The micropore supporting element 12 is located inside shell 10;It is described
Gas channel 9 is connected to blow vent 11.The bending setting of blow vent 11 be exactly blow vent includes specifically first set gradually
Vertical section, horizontal segment and the second vertical section, the second vertical section are corresponding with the upper and lower position of gas-permeable channels.Micropore supporting element 12 is logical
Pressing plate 15 is crossed to be fixed on 10 inner wall of shell.Micropore supporting element 12 is fastened in the groove at 10 top of shell.The present embodiment it is micro-
Hole pattern supports waterproof and breathable membrane module, a volume protected from water is formed inside shell 10, while there are also the effect of ventilative balance, shells
10 blow vent 11 is arranged to bending channel, can prevent the direct impact of water flow, be also possible to prevent external object and directly puncture
Waterproof membrane achievees the effect that waterproof and breathable acoustic.
Embodiment 16
As shown in figure 27, network of micropores supports waterproof and breathable membrane module, including shell 10, the blow vent 11 of the shell 10
Place is equipped with a micropore supporting element 12 as described in Example 5;The micropore supporting element 12 is located inside shell 10;It is described
Gas channel 9 is connected to blow vent 11.Wherein, 11 longitudinal section of blow vent is at L-shaped;Micropore supporting element 12 is fastened on 10 top of shell
The first groove 17 in, and be equipped with gasket 18 between micropore supporting element 12 and the top of the first groove 17;18 face blow vent of gasket
In the second groove 19 on side insertion 11 side wall of blow vent of 11 airintake directions;The position of 18 face gas-permeable channels 9 of gasket is set
There is through-hole 13.The network of micropores of the present embodiment supports waterproof and breathable membrane module, forms a volume protected from water inside shell 10, simultaneously
There are also the effect of ventilative balance, the separation design of shell 10 and gasket 18 can preferably improve the bend knot of blow vent
Structure simplifies die sinking design technology, and at L-shaped bending channel is arranged convenient for subsequent design and modification, blow vent in modular collocation assembling,
The direct impact that can prevent water flow is also possible to prevent external object and directly punctures waterproof membrane, and sound passes through the sky in bending channel
Gas medium transmitting, reaches waterproof protective, air pressure balance, the effect of acoustic.
Embodiment 17
As shown in figure 28, as shown in figure 25, network of micropores supports waterproof and breathable membrane module, including shell 10, the shell 10
Blow vent 11 at a micropore supporting element 12 as described in Example 4 is installed;The micropore supporting element 12 is located in shell 10
Portion;The gas-permeable channels 9 are connected to blow vent 11.The blow vent 11 is obliquely installed, and is blow vent and micropore branch specifically
The axis wire clamp obtuse angle or acute angle of the gas-permeable channels of support member, preferably 110 degree of angles or 70 degree of angles.Micropore supporting element 12 is fastened on outer
In the groove at 10 top of shell.The network of micropores of the present embodiment supports waterproof and breathable membrane module, forms a waterproof sky inside shell 10
Between, while there are also the effects of ventilative balance;The axis wire clamp obtuse angles of the gas-permeable channels of blow vent and micropore supporting element or acute angle
Design, can prevent the direct impact of water flow, be also possible to prevent external object and directly puncture waterproof membrane, reach waterproof protective, pass
The effect of sound.
The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention
Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.
Claims (16)
1. network of micropores supports waterproof and breathable membrane module, it is characterised in that: including shell (10), the blow vent of the shell (10)
(11) a micropore supporting element (12) is installed at;It is internal that the micropore supporting element (12) is located at shell (10);The micropore support
Part (12) includes a waterproof ventilated membrane (4) and at least one micropore supporting network (5);Waterproof ventilated membrane (4) and micropore supporting network
(5) interval setting;Micropore supporting network (5) includes substrate (1), and several substrate (1) upper and lower surfaces that penetrate are equipped among substrate (1)
Micropore (2);The surface of substrate (1) all surface and several micropores (2) is equipped with coating (3);Several micropore (2) regions ditch
Lead into the ventilation area of place micropore supporting network (5);The intermediate site location of ventilation area and waterproof ventilated membrane (4) is corresponding,
And they collectively form gas-permeable channels (9);The gas-permeable channels (9) are connected to blow vent (11).
2. network of micropores according to claim 1 supports waterproof and breathable membrane module, it is characterised in that: the material of the substrate (1)
Matter is one of steel disc, PET, PC, PEN and carbon fiber;The coating (3) is titanium nitride coating, TiCN coating, nitrogen aluminium
One of titanium coating, nitrogen titanium aluminized coating, chromium nitride coating, DLC coating and electric arc coating;The shape of micropore (2) be it is cylindric,
Up-small and down-big or up big and down small round table-like, up big and down small or up-small and down-big prism-frustum-shaped, prism, cylindroid, cross section are water chestnut
The prism of shape, cross section are zigzag cylinder, square, cuboid or step-like.
3. network of micropores according to claim 1 supports waterproof and breathable membrane module, it is characterised in that: coating (3) with a thickness of
0.001-1 μm, micropore (2) diameter is 0.01-1000 μm;The diameter for the ventilation area that all micropores (2) are constituted is 0.01-
50mm。
4. supporting waterproof and breathable membrane module to network of micropores described in 3 any one according to claim 1, it is characterised in that: described
Substrate is tabular;The substrate (1) is with a thickness of 0.02-1mm;The total coating thickness of substrate (1) and its upper and lower surfaces
For 0.02-1mm.
5. supporting waterproof and breathable membrane module to network of micropores described in 3 any one according to claim 1, it is characterised in that: described
Substrate is the tabular that third groove (23) are equipped among upper surface or lower surface;Several micropores (2) are located at third groove (23)
The middle position at place position;Be equipped among the substrate (1) position of third groove (23) with a thickness of 0.02-1mm.
6. network of micropores according to claim 4 supports waterproof and breathable membrane module, it is characterised in that: the micropore supporting network
(5) quantity is one, and micropore supporting network (5) is located at the top of waterproof ventilated membrane (4);Micropore supporting network (5) and waterproof are saturating
Air film (4) is located at the position other than gas-permeable channels (9) and is bonded together by the first glue line (6);Waterproof ventilated membrane (4)
Lower surface is located at the position other than gas-permeable channels (9) equipped with the second glue line (24).
7. network of micropores according to claim 4 supports waterproof and breathable membrane module, it is characterised in that: the micropore supporting element
It (12), further include support ring (7);The quantity of the micropore supporting network (5) is one, and to be located at waterproof saturating for micropore supporting network (5)
The top of air film (4);The support ring (7) is located between micropore supporting network (5) and waterproof ventilated membrane (4), and its upper surface and
Lower surface passes through the first glue line (6) and third glue line (25) respectively and micropore supporting network (5) are located at gas-permeable channels (9)
Position and waterproof ventilated membrane (4) in addition is located at the bonding of the position other than gas-permeable channels (9);The lower surface of waterproof ventilated membrane (4)
Position other than gas-permeable channels (9) is equipped with the second glue line (24).
8. network of micropores according to claim 4 supports waterproof and breathable membrane module, it is characterised in that: the micropore supporting network
(5) quantity is 2, one of them is located at the top of waterproof ventilated membrane (4), another is located at the lower section of waterproof ventilated membrane (4);
The upper surface of waterproof ventilated membrane (4) is located at the position other than gas-permeable channels (9) and lower surface is located at the portion other than gas-permeable channels (9)
Position passes through the first glue line (6) and the second glue line (24) and micropore supporting network (5) and following micropore above respectively
Supporting network (5) bonding.
9. network of micropores according to claim 8 supports waterproof and breathable membrane module, it is characterised in that: micropore supporting network below
(5) lower surface is located at the position other than gas-permeable channels (9) equipped with third glue line (25);Or following micropore supporting network
(5) lower surface is located at position other than gas-permeable channels (9), the upper surface of micropore supporting network (5) above is located at gas-permeable channels
(9) position other than is equipped with third glue line (25);Or the lower surface of following micropore supporting network (5) is located at ventilative lead to
Position other than road (9) is equipped with third glue line (25), and the upper surface of micropore supporting network (5) above is located at gas-permeable channels
(9) position other than is provided, in sequence from bottom to top, with the 4th glue line (26) and foamed cotton layer (8).
10. network of micropores according to claim 4 supports waterproof and breathable membrane module, it is characterised in that: the micropore supporting network
(5) quantity is 1;Micropore supporting network (5) is located at the lower section of waterproof ventilated membrane (4), and the opposite one side of the two be located at it is ventilative
Position other than channel (9) is bonded by the first glue line (6);The lower surface of micropore supporting network (5) is located at gas-permeable channels (9)
The position that the upper surface at position, waterproof ventilated membrane (4) in addition is located at other than gas-permeable channels (9) is equipped with the second glue line
(24)。
11. network of micropores according to claim 5 supports waterproof and breathable membrane module, it is characterised in that: the micropore supporting network
(5) quantity is 1;The waterproof ventilated membrane (4) is located in third groove (23);Waterproof ventilated membrane (4) is located at gas-permeable channels
(9) position other than is bonded by the first glue line (6) and micropore supporting network (5);The micropore supporting network (5) and third are recessed
The ipsilateral surface of slot (23) is equipped with the second glue line (24);Second glue line (24) is located at third groove (23)
Periphery.
12. network of micropores according to claim 1 supports waterproof and breathable membrane module, it is characterised in that: the blow vent (11)
Corresponding with gas-permeable channels (9) upper and lower position, micropore supporting element (12) is fixed on shell (10) inner wall by pressing plate (15);Institute
The position for stating pressing plate (15) and blow vent (11) face is equipped with through-hole (13).
13. network of micropores according to claim 12 supports waterproof and breathable membrane module, it is characterised in that: in the shell (10)
The position that top is located at micropore supporting element (12) periphery is equipped with fixed part (14), and the pressing plate (15) is connected by fastener or engaging
The mode connect is fixed on fixed part (14);It is close to the lower surface of micropore supporting element (12) pressing plate (15) upper surface.
14. network of micropores according to claim 12 supports waterproof and breathable membrane module, it is characterised in that: in the shell (10)
The position that top is located at micropore supporting element (12) periphery is equipped with fixed part (14);Pressing plate (15) top surface edge passes through bonding
Glue and fixed part (14) bond, and pressing plate (15) lower surface is close to the supporting module (16) for being located at shell (10) bottom.
15. network of micropores according to claim 12 supports waterproof and breathable membrane module, it is characterised in that: the blow vent (11)
It is obliquely installed or bends setting, micropore supporting element (12) is fastened in the groove at the top of shell (10).
16. network of micropores according to claim 12 supports waterproof and breathable membrane module, it is characterised in that: the blow vent (11)
Longitudinal section is at L-shaped;Micropore supporting element (12) is fastened on the first groove (17) at the top of shell (10) Nei, and micropore supporting element (12)
Gasket (18) are equipped between the first groove (17) top;The side insertion of gasket (18) face blow vent (11) airintake direction is logical
In the second groove (19) on port (11) side wall;The position of gasket (18) face gas-permeable channels (9) is equipped with through-hole (13).
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JP6937066B1 (en) * | 2021-04-06 | 2021-09-22 | 東和化学株式会社 | Ventilated waterproof body and mixing container |
CN114503793A (en) * | 2019-10-16 | 2022-05-13 | 三菱电机株式会社 | Electrical equipment device |
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