CN104251251B - For the construction of raised panel assembly and system, method and the component of disassembly - Google Patents
For the construction of raised panel assembly and system, method and the component of disassembly Download PDFInfo
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- CN104251251B CN104251251B CN201410301415.2A CN201410301415A CN104251251B CN 104251251 B CN104251251 B CN 104251251B CN 201410301415 A CN201410301415 A CN 201410301415A CN 104251251 B CN104251251 B CN 104251251B
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- limiting structure
- raised panel
- sealing material
- stream limiting
- gap
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Abstract
The present invention relates to a kind of construction for raised panel assembly and system, method and the components of disassembly.These systems, method and component may include stream limiting structure, and the stream limiting structure is configured at least one boundary for limiting channel, and the channel includes at least part in the gap between adjacent protrusion panel and is configured reception sealing material.The stream limiting structure can limit the sealing material from the flowing from this, to reduce the total measurement (volume) of sealing material required for the construction of the raised panel assembly and/or limit raised panel to the bad bonding of other structures.These systems, method and component also may include elongated disassembly auxiliary device, it is configured in at least part for separating the sealing material between adjacent raised panel after the raised panel is removed from the raised panel assembly, time required for the disassembly and/or repairing to reduce the raised panel assembly.
Description
Technical field
The disclosure relates generally to raised panel assembly and its component, the construction of more particularly, to raised panel assembly
And/or system, method and the component of disassembly.
Background technique
Raised panel assembly can be constructed and/or be utilized in various configurations, to form convex surfaces.In general, raised
Panel assembly includes multiple raised panels, and at least part of the protrusion panel includes minor structure and/or by operationally attached
It is connected to minor structure.The minor structure can be configured to support, keep and/or otherwise dispose relative to multiple crowning
Other panels in plate and/or relative to each panel in multiple raised panel of minor structure.Raised panel may include
Support section, the support section direct physical contact minor structure and unsupported sections, the not direct physics of the unsupported sections connect
Touch minor structure.
Certain protrusion panel assemblies may include the gap between adjacent protrusion panel, and this gap can use sealing
Material filling, which, which can be configured, adheres to the second raised panel for the first raised panel and/or serves as fluid
The barrier of conveying and/or the solid material by the panel.Illustratively non-exclusive example, aircraft may include by convex
The floor of panel assembly construction is played, and the gap between adjacent protrusion panel can be filled by sealing material, it is close to generate
The gap of envelope.
When construction includes the raised panel assembly of seal clearance, sealing material can be during construction process from the gap
Outflow.This will increase the amount of sealing material required for sealing the protrusion panel assembly, increase sealing material cost, increase convex
It plays the overall weight of panel assembly and/or increases and clear up associated environment influence and/or the disposition of excessive sealing material.Together
Sample, when disassembly includes the raised panel assembly of seal clearance, remove sealing material between adjacent raised panel and/or
Sealant can be difficult, which may flow out from the gap in raised panel assembly, can be by crowning
Plate is directly bonded to the minor structure, so that by raised panel from convex in the case where the raised panel of no damage and/or minor structure
It is difficult or impossible for playing panel assembly removal.Accordingly, there exist for constructing and/or dismantling changing for raised panel assembly
The demand of kind system and method.
Summary of the invention
Disclosed herein is system, method and the components of construction and disassembly for raised panel assembly.These systems, side
Method and component may include stream limiting structure, which is configured at least one boundary for limiting channel, channel packet
It includes at least part in the gap between adjacent protrusion panel and is configured reception sealing material.The stream limiting structure can limit
Across the stream of the sealing material of the structure, to reduce total appearance of sealing material required for the construction of the protrusion panel assembly
Product and/or limitation, which are for example configured other structures with the associated raised panel of the protrusion panel assembly, supports the protrusion panel
The undesirable adherency of the structure of sub-assembly.These systems, method and component also may include elongated disassembly auxiliary device,
It is configured in and separates the sealing material between adjacent raised panel after the protrusion panel is removed from the protrusion panel assembly
At least partially.Therefore, the use of elongated disassembly auxiliary device reduces the disassembly and/or repairing of the protrusion panel assembly
Time.
In certain embodiments, this method may include constructing the protrusion panel assembly.In certain embodiments, the structure
Making may include that the stream limiting structure is placed in the protrusion panel assembly (or therebetween in gap), with formed channel and to
The channel applies sealing material.In certain embodiments, this method, which may further include, places elongated disassembly auxiliary device
In this gap.In certain embodiments, which is placed in gap as solid.In certain embodiments,
When the stream limiting structure is placed in the protrusion panel assembly, it is compressed between the protrusion panel.In certain realities
It applies in example, placing stream limiting structure includes adjusting the depth of stream limiting structure in this gap.In certain embodiments, it places
Flowing limiting structure includes placing application tool.In certain embodiments, this method further comprises taking relative to the application tool
To the stream limiting structure.
In certain embodiments, this method can also include dismantling the protrusion panel assembly.In certain embodiments, should
Disassembly may include catching elongated disassembly auxiliary device, from the elongated disassembly auxiliary device of protrusion panel assembly removal, and
Separate at least part of the sealing material extended between the protrusion panel during removing.In certain embodiments, it removes thin
Long disassembly auxiliary device further comprises separating the elongated disassembly auxiliary device with the stream limiting structure.In some embodiments
In, disassembly may further include from the protrusion panel assembly and remove one or more raised panels.
In certain embodiments, it flows limiting structure or its flexible elongate body limits the longitudinal axis and including central part and therefrom
Two protruding portions that the opposed area that center portion is divided to extends.In certain embodiments, the central part and two protruding portions are along the longitudinal axis
Extend.In certain embodiments, flexible elongate body is to limit the monolithic elastic elongate body of constant cross-sectional shape.At certain
In a little embodiments, which extends from the central part to limit and be configured the recessed of the convex domain for receiving the application tool
Shape sunk area.In certain embodiments, which includes component external member comprising stream limiting structure and is applied sealing material
Processing tool.
Detailed description of the invention
Fig. 1 shows the schematic cross-sectional view of the illustrative non-exclusive example of the stream limiting structure according to the disclosure.
Fig. 2 shows according to the disclosure, the raised panel assembly including stream limiting structure is less illustrated but still is to say
The oblique projection of bright property non-exclusive example.
Fig. 3 shows the ductility limit knot according to the disclosure, being placed in raised panel assembly by using application tool
The schematic cross-sectional view of the illustrative non-exclusive example of structure.
Fig. 4 is shown according to the disclosure, and raised panel assembly is less illustrated but still is illustrative non-exclusive example
Viewgraph of cross-section.
Fig. 5 shows another schematic cross-sectional view of the illustrative non-exclusive example of the stream limiting structure according to the disclosure
Figure.
Fig. 6 is shown according to the disclosure, and raised panel assembly is less illustrated but still is illustrative non-exclusive example
Another viewgraph of cross-section.
Fig. 7 shows horizontal according to the signal that is more specific but still being illustrative non-exclusive example of the stream limiting structure of the disclosure
Section view.
Fig. 8 is shown according to the disclosure, and the ductility limit of Fig. 7 in raised panel assembly is placed on by using application tool
The schematic cross-sectional view of structure processed.
Fig. 9 shows the Fig. 7 according to the disclosure, being placed in raised panel assembly by using another application tool
Stream limiting structure schematic cross-sectional view.
The signal that Figure 10 shows the illustrative non-exclusive example of the raised panel assembly of the stream limiting structure including Fig. 7 is horizontal
Section view.
Figure 11 shows the process of the illustrative non-exclusive example of the method for the structural salient panel assembly according to the disclosure
Figure.
Figure 12 shows the process of the illustrative non-exclusive example of the method for the raised panel assembly of disassembly according to the disclosure
Figure.
Specific embodiment
Fig. 1-10 is according to the stream limiting structure 50 and structure 10 of the disclosure and/or may include and/or uses the ductility limit
The illustrative non-exclusive example of the raised panel assembly 12 of structure processed.It is used as in each of Fig. 1-10 similar or at least substantially
The element of similar purpose is marked with identical label;And these elements may not necessarily referring to Fig.1 each of -10 herein in detail
It discusses.Equally, all elements may not necessarily each of in figs. 1-10 in mark, but for consistency, associated reference label
Still it can be used herein.In general, the element being likely to be included in given embodiment is shown in solid, and optional
Element it is shown in dotted line.But, the not all embodiment of the element being shown in solid is essential, and is shown in solid
Element from specific embodiment omission be also included in the scope of the present disclosure.
Fig. 1 shows the schematic cross-sectional view of the illustrative non-exclusive example of the stream limiting structure 50 according to the disclosure.Stream
Limiting structure 50 can be included in any suitable raised panel assembly 12, or can be used to construct and/or be formed
A part of any suitable protrusion panel assembly 12, any suitable raised panel assembly 12 can form any conjunction
Suitable structure 10.Raised panel assembly 12 may include multiple raised panels 14, each can be in multiple protrusion panel 14
Including two substantially opposite surfaces 30, such as the first apparent surface 32, which can also be claimed herein
For top surface 32 and/or upper face 32 and the second apparent surface 33, which herein can also be by
Referred to as bottom surface 33 and/or lower surface 33, and one or more edges 34.In raised panel assembly 12, with
The one raised associated first edge of panel can be close to, is adjacent, it is close and/or relative to the second protrusion panel associated second
Edge is simultaneously separated, and to generate gap 18, which can also be referred to as opening between two raised panels 14 herein
Mouth, groove and/or space.
When stream limiting structure 50 is included in raised panel assembly 12, stream limiting structure 50 can be with raised panel
14 have any suitable mechanical (physics) to be connected to and form at least one surface and/or boundary of channel and/or groove 20, this is logical
Road and/or groove 20 are configured reception, limitation and/or schematically illustrate comprising sealing material 26, such as Fig. 1.As illustrative non-row
His example, and as Fig. 2-4 and 8-10 is shown specifically, stream limiting structure 50 be can reside between adjacent protrusion panel 14
Gap 18 in.As another illustrative non-exclusive example, and as Fig. 5-6 is shown specifically, stream limiting structure 50 can
It is operatively attached to the lower surface 33 of raised panel 14 and/or the lower surface 33 of mechanical communication protrusion panel 14 and/or can
To form the boundary in gap 18.
Stream limiting structure 50 can be operatively attached to raised panel 14 lower surface 33 and/or mechanical communication it is convex
The lower surface 33 of panel 14 is played, and stream limiting structure 50 can also prolong in the gap 18 between adjacent raised panel 14
It stretches, these are also within the scope of this disclosure.Sealing material 26 and/or stream limiting structure 50 may include, include, surround, seal
Elongated disassembly auxiliary device 80 is adhered to, is adjacent, the elongated disassembly auxiliary device 80 of close and/or mechanical communication, elongated disassembly
Auxiliary device 80 can be configured point for the disassembly and/or adjacent protrusion panel simplify, improve, reducing the protrusion panel assembly
From time and/or otherwise promote the protrusion panel assembly disassembly and/or adjacent protrusion panel separation.
One or more minor structures 22,23 can be with the support section of support protrusion panel 14 or region 44, and this or more
A minor structure 22,23 can also be referred to as support construction 22,23 herein, and the unsupported sections of raised panel 14 or region 46
It can not be supported, or may not necessarily be directly supported by minor structure 22,23.Both support section 44 and unsupported sections 46 can be with
It is present on same side or the surface of the protrusion panel.Minor structure 22,23 can be configured support and/or mechanical communication protrusion
Any desired part of the surface area of panel 14.As illustrative non-exclusive example, which may include that this is convex
Rise panel surface area at least 25%, at least 50%, at least 60%, at least 65%, at least 70%, at least 75%, at least
80%, at least 85%, at least 90%, at least 95%, 50-95%, 70-95% or 75-90%.
It can be in sealing material using the construction of the raised panel assembly 12 of both stream limiting structure 50 and sealing material 26
Expect that reduce sealing material 26 during the application that 26 arrive groove 20 flows out from gap 18 and/or groove 20, and can also reduce and fill out
Fill the volume and/or quality of sealing material 26 required for gap 18 and/or groove 20.Relative to it is comparable do not include ductility limit
The raised panel assembly of structure 50 processed, this can reduce the sealing material for being used for being adhered to each other adjacent raised panel 14
The volume of material 26.Additionally or alternatively, this can reduce the crowning board group relative to comparable raised panel assembly
The total weight of component 12.As illustrative non-exclusive example, the volume of sealing material can be than being used for comparable raised panel
The volume of sealing material in sub-assembly few 10%, 20%, 25%, 30%, 40%, 50%, 60%, 70% or 75%.
In addition, the presence of stream limiting structure 50 can reduce, limit, exclude and/or stop sealing material 26 and minor structure
The formation of bonding between 22 and/or between raised panel 14 and minor structure 22, this can accelerate and/or simplify crowning board group
The disassembly of component 12.It equally, include that elongated disassembly auxiliary device 80 can be assisted when elongated disassembly in raised panel assembly 12
When device 80 is removed from raised panel assembly 12, by least one of adjacent 14 parting seal material 27 of raised panel
Point, the disassembly for accelerating and/or simplifying the protrusion panel assembly and/or the first protrusion panel are from second, adjacent protrusion panel
Separation.
Compared with using cutter to separate other method for dismounting of the sealing material, elongated to parting seal material 26 is torn open
The use for unloading auxiliary device 80 can be reduced during the disassembly of raised panel assembly 12 to the protrusion panel assembly 12
Potential damage.In addition, stream limiting structure 50 and/or it is elongated disassembly auxiliary device 80 use can it is no damage be present in it is convex
In the case where playing the sealing material 26 between the residue of the raised panel in panel assembly 12, promotion can reside in protrusion
The removal of raised panel 14 in panel assembly 12.
As discussed in detail here, stream limiting structure 50, sealing material 26 and/or elongated disassembly auxiliary device 80 can be with
Including or the one or more hydrophobic materials 84 of coating and/or constructed by one or more hydrophobic materials 84.These hydrophobic materials
Use the potential corrosion that can reduce the component of structure 10 and/or raised panel assembly 12 after being exposed to moisture.
Stream limiting structure 50 may include be configured the boundary for being placed in gap 18, being formed groove 20 and/or reduction,
Any suitable construction of the flowing for the sealing material 26 for limiting, closing and/or stopping running through.It is illustratively non-exclusive to show
Example, stream limiting structure 50 may include being configured the flexible elongate body 54 being compressed between adjacent raised panel 14.Or
Perhaps as shown in Fig. 2 is most clear, flexible elongate body 54 may include being aligned with the longitudinal axis 21 in gap 18, being parallel, at least substantially
The parallel and/or coextensive longitudinal axis 51.
Flexible elongate body 54 may include any suitable structure and/or material, by any suitable structure and/or material
Material manufacture and/or formation.As illustrative non-exclusive example, flexible elongate body may include any suitable elastic solid (Hookean body),
Elastomer, polymer, hydrophobic material, foamed material, hydrophobic foam, polyurethane foam and/or hydrophobic polyurethane foam.
Although Fig. 1 shows stream limiting structure 50 and/or the resilient elongate master as included rectangular cross section or cross-sectional shape
Body 54, but flowing limiting structure 50 may include any suitable cross-sectional shape.Illustratively non-exclusive example, ductility limit
Structure 50 processed may include the cross-sectional shape of round, oval, oval, trapezoidal, polygon, square and/or rectangle.Additionally
Ground or alternatively, and it is such as discussed in detail herein by reference to Fig. 7-10, and flexible elongate body 54 is also possible to monolithic elastic
Elongate body and/or two protruding portions 60 for limiting central part 66 and extending from the central part.Work as flexible elongate body
54 include central part 66 and protruding portion 60 when, the central part and/or protruding portion can extend along the longitudinal axis 51 (such as Fig. 2 institute
Show).
As shown in Figure 1, central part 66 can limit the first face 67 and second face 68 opposite with first face, and should
The distance between first face and the second face can limit the thickness (or average thickness) 69 of central part.Also as shown in Figure 1, it is prominent
Portion 66 can extend from the opposite side of central part 66, opposed area and/or opposing side regions.Non-exclusive show as illustrative
Example, protruding portion 66 can extend from the respective edges 70 of central part 66 and these edges can be limited at the first face 67
Between the second face 68.Additionally or alternatively, protruding portion 66 can also extend from the first face 67 and/or the second face 68.When
When flexible elongate body 4 includes protruding portion 60, which can extend from central part 66, with restriction between them recessed
Shape region 72.Concave regions 72 can limit any suitable shape and/or cross-sectional shape within the scope of this disclosure.As
Illustrative non-exclusive example, concave regions 72 can limit or concave regions, generally V-shaped region, generally U-shaped region, substantially
Cup area and/or substantially groove profile region.When flexible elongate body 54 is located in raised panel assembly 12, concave regions 72
Reception can be configured and/or comprising sealing material 26.
Stream limiting structure 50 and/or its flexible elongate body 54 can be configured to solid or at least substantially solid form
It is placed in raised panel assembly 12 and/or in its gap 18, and flows limiting structure 50 and may include and/or be elasticity
And/or non-elastic solid, these are within the scope of this disclosure.When stream limiting structure 50 is placed on raised panel as solid
When in sub-assembly 12, which can be compressed between adjacent protrusion panel 14 and/or in one or more protrusions
Between panel 14 and minor structure 22,23.It, can when flowing limiting structure 50 in non-compressed state as illustrative, non-exclusive example
It may include compression property when flowing limiting structure 50 in compressive state to include the cross-sectional diameter or size of uncompressed characteristic
Cross-sectional diameter or size.The compression property cross-sectional diameter can be the width 38 in gap 18 and/or corresponding, and
It can be smaller than uncompressed characteristic cross-sectional face diameter or to when young threshold compression ratio or percentage.It is compressed according to the threshold values of the disclosure
The illustrative non-exclusive example of percentage include at least 5%, at least 10%, at least 15%, at least 20%, at least 25%, at least
30%, the threshold values compression percentages of at least 35%, at least 40%, at least 45%, at least 50%, at least 5-25% or 5-50%.
Elongated disassembly auxiliary device 80 may include being configured in after raised panel assembly 12 removes and/or in the protrusion
Sealing material during the disassembly of panel assembly, is sliced, cuts, separates, tears and/or divided between adjacent raised panel 14
At least part of material 26.Elongated disassembly auxiliary device 80 may include and gap 18, stream limiting structure 50 and/or resilient elongate
At least part of the longitudinal axis of main body 54 and be optionally aligned with the whole of the longitudinal axis, be parallel, it is at least substantially parallel and/or altogether
With extension.
Elongated disassembly auxiliary device 80 may include any suitable structure and/or shape, and can be with any suitable
Material manufacture and/or formed.As illustrative non-exclusive example, elongated disassembly auxiliary device 80 may include any suitable
Cord, filament, filament, metal wire, connecting rod and/or cable.As another illustrative non-exclusive example, elongated disassembly auxiliary dress
Setting 80 can be with any suitable metal, polymer, elastomer, nylon, polyester, polyethylene, polypropylene and/or hydrophobic material system
It makes.
In general, elongated disassembly auxiliary device 80 may include and flexible elongate body 54 and/or sealing material 26
Form different compositions.As illustrative, non-exclusive example, elongated disassembly auxiliary device 80 and flexible elongate body 54 and/or
Sealing material 26 is compared, and may include different chemical compositions, different density, different Young's modulus, different shearings
Intensity and/or different elastic strengths.As illustrative, non-exclusive example, elongated disassembly auxiliary device 80 and resilient elongate master
Body 54 and/or sealing material 26 are compared, and may include bigger shear strength and/or bigger elastic strength.
As indicated by the dashed line in figure 1, elongated disassembly auxiliary device 80 can reside in any suitable position in gap 18.Make
For illustrative non-exclusive example, elongated disassembly auxiliary device 80 can be located in flexible elongate body 54 and/or operationally
It is attached to flexible elongate body 54.Under these conditions, elongated disassembly auxiliary device 80 can be configured in raised panel combination
Part 12 remove after, from at least part of structure of flexible elongate body 54 separate and/or change flexible elongate body 54 to
At least part of structure, and it is configured in slice, cutting, separation, tearing and/or division flexible elongate body 54 after the separation
At least part.As illustrative non-exclusive example, elongated disassembly auxiliary device 80 is changed after being configured in the separation
At least part of the length of flexible elongate body 54.The illustrative of a part of the length of flexible elongate body 54 non-exclusive is shown
Example include the flexible elongate body length at least 50%, at least 60%, at least 70%, at least 75%, at least 80%, at least
90%, at least 95%, at least 99%, 100%, 50-100%, 70-100% or 75-100%.
Also as indicated by the dashed line in figure 1, elongated disassembly auxiliary device 80 can be not comprised in flexible elongate body 54 and/
Or it is connected to flexible elongate body 54.As illustrative, non-exclusive example, elongated disassembly auxiliary device 80 can and resilient elongate
54 mechanical communication of main body but be not linked to flexible elongate body 54, can adjacent to but be not linked to resilient elongate master
Body, can be between sealing material 26 and the flexible elongate body, and/or can be located in the sealing material and/or close by this
Closure material is surround.When elongated disassembly auxiliary device 80 is not comprised in flexible elongate body 54 and/or is connected to elasticity carefully
When long main body 54, the elongated disassembly auxiliary device can no damage and/or in the case where change the flexible elongate body from
Raised panel assembly 12 removes.
Sealing material 26 may include any suitable structure and/or material, can be placed on gap 18 and/or ditch
In slot 20, and it can be configured between adjacent raised panel 14 and/or stream limiting structure 50 and form bonding.As explanation
The non-exclusive example of property, sealing material 26 may include any suitable adhesive, elastomer, polymer, elastic material and/or
Hydrophobic material.Sealing material 26 can be configured as liquid sealing material and be placed and/or be applied to gap 18 and/or groove
It in 20 and is cured, to form the sealing material of solid, solid-like or at least high viscosity.
Structure 22,23 can be included in raised panel assembly 12, form a part of raised panel assembly 12,
Mechanical support and/or mechanical communication protrusion panel assembly 12 to raised panel assembly 12 is provided.As this paper is begged in detail
Opinion, at least part of raised panel assembly 12 and/or its raised panel 14 can be for example, by being kept for making for structure 90
With being operably attached to minor structure 22,23, this is within the scope of this disclosure.According to the explanation of the holding structure 90 of the disclosure
Property non-exclusive example includes any suitable fastener, screw, rivet, bolt, washer, nut and/or nut clip.
As shown in Figure 1, the support section 44 of raised panel 14 can directly contact the support surface 24 of minor structure 22,23.
But, one or more support constructions 92 can reside between minor structure 22,23 and raised panel 14, and can be from the son
Structure separates at least part of the protrusion panel and/or generates the second gap between them, this is also in the scope of the present disclosure
It is interior.Also as shown in Figure 1, minor structure 22 can reside in below at least part in gap 18.Additionally or alternatively, sub
Structure 23 may not necessarily be located at below at least part in gap 18.When minor structure 23 is not located at below gap 18, stream
Limiting structure 50 using in the bottom surface that does not cover the gap using band (or additional tape) and can preventing close
In the case that closure material flows through the surface, application of the sealing material 26 to gap 18 is provided.
Gap 18 may include any suitable width 38 and/or depth 42, and can be at the edge of raised panel 14
Extend between 34.According to the illustrative non-exclusive example of the gap width 38 of the disclosure include less than 2cm, less than 1.5cm, be less than
1cm, be less than 0.75cm, be less than 0.5cm, be less than 0.4cm, be less than 0.3cm, be less than 0.2cm, be less than 0.1cm, 0.1-2cm,
0.1-1cm or the gap width between 0.2-0.8cm.According to the illustrative non-exclusive example packet of the gap depth 42 of the disclosure
It includes and is less than 2.5cm, is less than 2cm, is less than 1.5cm, is less than 1cm, is less than 0.75cm, less than 0.5cm or between 0.5-2.5cm
Gap depth.Gap depth 42 is referred to herein as raised plate thickness 42, which can be by protrusion
The upper face 32 and lower surface 33 of panel 14 limit.
As discussed in detail herein, raised panel assembly 12, which can be formed, to be included in any suitable construction 10
And/or the convex surfaces of a part of any suitable construction 10 are formed, which can also be claimed herein
For local support panel assembly 12, floating panel sub-assembly 12, sealing panel sub-assembly 12 and/or seal convexity panel combination
Part 12.Illustrative non-exclusive example according to the convex surfaces of the disclosure include any suitable floor surface, wall surface and/or
Ceiling face.Illustrative non-exclusive example according to the structure 10 of the disclosure includes any suitable building, aircraft, vapour
Vehicle and/or machinery.
Fig. 2 shows according to the disclosure, including flow limiting structure 50 raised panel assembly 12 it is less illustrate but still
It is the oblique projection of illustrative non-exclusive example.As shown in Figure 2 and, raised panel combination discussed in detail referring to this paper Fig. 1
Part 12 may include one or more raised panels 14 (one in the protrusion panel 14 is shown in dotted line in Fig. 2), this is convex
The neighboring edge for playing panel 14 can form gap 18.Raised panel 14 can be supported by minor structure 22.Gap 18 may include
Limiting structure 50 is flowed, which can limit a part in channel 20.Channel 20 may include sealing material 26.
Fig. 2 shows stream limiting structures 50 and/or its flexible elongate body 54, flexible elongate body 54 to include and gap 18
The alignment of the longitudinal axis 21, parallel, at least substantially parallel and/or coextensive longitudinal axis 51.Raised panel 14, the protrusion is also shown in Fig. 2
Each of panel 14 includes two substantially opposite surfaces 30 and one or more edges 34, wherein adjacent protrusion panel 14
Edge 34 between space can form and/or limit at least part of gap 18 and/or groove 20.
Fig. 3 is shown according to the disclosure, is placed on the ductility limit in raised panel assembly 12 by using application tool 110
The schematic cross-sectional view of the illustrative non-exclusive example of structure 50 processed.Application tool 110 can be configured to desired depth 48
Stream limiting structure 50 is placed, be inserted into and/or is otherwise arranged in gap 18, to generate and/or limit groove 20.Phase
Hope that depth 48 may include any appropriate depth using stream limiting structure 50.As illustrative non-exclusive example and group
When structure 22 is arranged on the lower section in gap 18, stream limiting structure 50 can be inserted into gap 18 by application tool 110, so that
The stream limiting structure is close to minor structure 22 and/or mechanical communication minor structure 22.As another illustrative non-exclusive example, apply
Stream limiting structure 50 can be inserted by tool 110 to be enough to provide target or expectation between sealing material 26 and raised panel 14
Contact area, such as the depth of expectation adhesive strength is provided.As another illustrative non-exclusive example, and work as minor structure 22
When being not set at the lower section in gap 18, stream limiting structure 50 can be inserted into gap 18 by application tool 110, so that due to
Compression of the stream limiting structure between adjacent protrusion panel 14 and be maintained between adjacent raised panel 14.
The raised panel 14 being constructed by using any suitable method and/or material is also shown in Fig. 3.As illustrative
Non-exclusive example, raised panel 14 can be and/or including compound raised panels 94.Compound protrusion panel 94 may include two
Or multiple surfacing panels 96 for limiting raised panel surfaces 30, and be comprised in two or more surfacing panels it
Between core material panel 98.Composite panel 94 may include the encapsulating material 100 for limiting the package edge 102 of the composite panel.
Additionally or alternatively, composite panel 94 can also include unencapsulated edge 104, and unencapsulated edge 104 includes exposed core
Material panel 98 and do not include encapsulating material.
Fig. 4 is shown according to the disclosure, and raised panel assembly 12 is less illustrated but still is illustrative non-exclusive example
Viewgraph of cross-section.The raised panel assembly of Fig. 4 is approximately similar to the raised panel assembly of Fig. 1-3, but it provides holding
Structure 90, support construction 92, the less illustrative example for flowing limiting structure 50 and/or minor structure 22.
As shown in Figure 4 and discussed in detail herein, keeping structure 90 may include multiple nut clips 91, multiple spiral shell
Each of mother's folder 91 may include the support construction 92 that minor structure 22 is isolated from raised panel 14.Nut clip 91 can be along son
The length of structure 22 separates, and generates the second gap 19 between minor structure 22 and raised panel 14;And stream limiting structure 50 can
It is flowed into the second gap 19 with limitation, obstruction, closing and/or stopping sealing material 26, to reduce minor structure 22 and protrusion
The potential formation bonded between panel 14.
Also as shown in figure 4, elongated disassembly auxiliary device 80 can reside in raised panel assembly 12 and/or its ductility limit
In structure 50 processed.As discussed in detail herein, elongated disassembly auxiliary device 80 can be by being drawn across stream limiting structure 50
This elongated is torn open with the elongated disassembly auxiliary device of sealing material 26 and from the traction of the upper face 32 of raised panel assembly 12
Auxiliary device is unloaded, is removed from raised panel assembly 12.The removal of the elongated disassembly auxiliary device 80 of raised panel assembly 12
It can be sliced, cuts, separates, tears and/or divide the stream limiting structure 50 and/or sealing material 26 for generating failure area 82,
This can simplify removal of one or more raised panels 14 from raised panel assembly 12.
It can be in elongated disassembly auxiliary device although Fig. 4 shows all sealing materials 26 extended between raised panel 14
80 are separated after the removal of raised panel assembly 12, the sealing material and/or any suitable lattice for flowing limiting structure 50
Dividing can be separated, this is within the scope of this disclosure.What it is according to the disclosure includes by the illustrative non-exclusive example of segregated portion
The sealing material 26 that extends between the protrusion panel and/or flow limiting structure 50 at least 50%, at least 60%, at least
70%, at least 80%, at least 90%, at least 99% or 100%.
Fig. 5 shows another schematic cross-sectional view of the illustrative non-exclusive example of the stream limiting structure 50 according to the disclosure
Figure.Such as discussed in detail herein by reference to Fig. 1, the stream limiting structure of Fig. 5 forms lower limits, edge and/or the table in channel 20
Face simultaneously limits the flowing of sealing material 26 from the channel 20.In Fig. 5, stream limiting structure 50 may include plane or at least substantially
The flexible elongate body 54 of plane, the illustrative non-exclusive example of the flexible elongate body include adhesive tape, ribbon or foam or
Other length and/or foam tape of other materials, the sealing material do not pass through the adhesive tape and flow.
As discussed in detail herein, when stream limiting structure 50 is included in raised panel assembly 12, minor structure
22 can reside in below at least part in gap 18.Under these conditions, stream limiting structure 50 can be in raised panel
14 combine and/or are placed in minor structure 22 before being placed in minor structure 22.Flowing limiting structure 50 can be for example, by viscous
The use of mixture 58, fastener and/or releasable fastener is additionally or alternatively operably attached to minor structure 22
Support surface 24, this is within the scope of this disclosure.As discussed in detail herein, stream limiting structure 50 can be compressed in for example
Between minor structure 22 and raised panel 14, the minor structure 22 and raised panel 14 are passed through with obstruction and/or close encapsulation material 26
Between flowing.
Additionally or alternatively, stream limiting structure 50 can be for example, by the use of adhesive 58, by operationally attached
It is connected to the lower surface 33 of raised panel 14.As discussed in detail herein, between elongated disassembly auxiliary device 80 can reside in
In any desired part of gap 18 and/or stream limiting structure 50, and it can be configured and help tearing open for raised panel assembly 12
It unloads.
Fig. 6 is shown according to the disclosure, and raised panel assembly 12 is less illustrated but still is illustrative non-exclusive example
Another viewgraph of cross-section.In the raised panel assembly of Fig. 6, flow under 50 mechanical communication protrusion panel 14 of limiting structure
Portion surface 33, and limitation sealing material 26 pass through the flowing of lower surface 33.
Such as discussed in detail herein by reference to Fig. 4-5, minor structure 22 can reside in the lower section in gap 18, and by appointing
What suitable mechanism is operably attached to raised panel 14, and the illustrative non-exclusive example of minor structure 22 includes keeping structure 90
Such as nut clip 91.The support construction 992 of nut clip 91 can produce the second gap between minor structure 22 and raised panel 14
19, and stream limiting structure 50 can limit sealing material 26 flow into the second gap in.
As shown in figure 4, the second gap 19 can be by the holding structure 90 of raised panel 14, minor structure 22 and the minor structure
And/or support construction 92 bonds, this is within the scope of this disclosure.Additionally or alternatively, the second gap 19 can reside in
Raised panel assembly 12 does not include between minor structure 22 and raised panel 14 or holding structure 90 at least directly between
In one or more regions, this is also within the scope of this disclosure.Alternatively, minor structure 22 can be not present in gap 18
Lower section, and stream limiting structure 50 can limit sealing material 26 and flow out from the gap.Adhesive 58 can be operationally by stream
Limiting structure 50 is connected to minor structure 22 and/or raised panel 14.
Fig. 7 show include according to the disclosure and/or be Fig. 1 stream limiting structure stream limiting structure 50 more specific but still
It is so the schematic cross-sectional view of illustrative non-exclusive example.The stream limiting structure 50 of Fig. 7 includes flexible elongate body 54, limit
It centers and part 66 and extends from the central part to limit two protruding portions 60 of concave regions 72.During central part 66 limits
Heart segment thickness (or average thickness) 69 and central part width (or mean breadth) 74.
As shown in fig. 7, protruding portion 60 can be tapered from central part 66 and/or gradually become from center portion thickness 69
The thin protruding portion thickness to less than the center portion thickness.This may include tapering to a little, taper to dot, and/
Or taper to cusp.Central part width 74 can be greater than center portion thickness 69, this is within the scope of this disclosure.As
Illustrative non-exclusive example, central part width 74 can be at least 1.25 to the ratio of center portion thickness 69, at least 1.5,
At least 1.75, at least 2, at least 2.5, at least 3, at least 3.5 or at least 4.
Also as shown in fig. 7, stream limiting structure 50 may include elongated disassembly auxiliary device 80 and/or be associated with.It is flowing
Before limiting structure 50 is arranged in the protrusion panel assembly, elongated disassembly auxiliary device 80 can be located at, at least partly
In flexible elongate body 54 and/or the center portion thereof point 66 and/or protruding portion 60, and/or it is operably attached to elastic thin
Long main body 54 and/or the center portion thereof point 66 and/or protruding portion 60.
Fig. 8-9 is shown according to the disclosure, is placed on the figure in raised panel assembly 12 by using application tool 110
The schematic cross-sectional view of 7 stream limiting structure 50.As Figure 8-9, application tool 110 may include and/or limit convex
Region 112, the size and/or shape of convex region 112 can be designed to be received in the sunk area of flexible elongate body 54
In 72.Also as Figure 8-9, the convex region 112 of the application tool 100 in the sunk area 72 of stream limiting structure 50 connects
Receive can permit and/or promotes to flow limiting structure 50 with expectation, provide and/or between target direction relative to the gap is placed in
In gap 18.
Application tool 110 may further include one or more depth stops 114, be designed to contact projection panel 14
Upper face 32 and adjust the depth that convex region 112 extends in gap 18.This can accordingly adjust stream limiting structure
50 are inserted into the depth in gap 18 by application tool 110, to adjust by stream limiting structure 50 and by raised panel 14
Edge 34 bond channel 20 volume and/or cross-sectional area.Therefore, and as seen in figs. 8-10, applying tool 110 can
It is placed in gap 18 with being configured to any appropriate depth for limiting structure 50 is flowed.
As shown in figure 8, applying tool 110 may include monolithic application tool and/or be that monolithic applies tool, it is configured
When the stream limiting structure is placed in gap 18, slided for raised panel 14 and/or stream limiting structure 50.Extraly or
Alternatively, and as shown in figure 9, applying tool 110 can also be limited by multiple components and/or can be configured when the ductility limit
When structure processed is placed in gap 18, rotated relative to raised panel 14 and/or stream limiting structure 50.As illustrative non-row
His example, convex region 112 can be limited by being configured the breast roll 116 rotated relative to stream limiting structure 50.As another
A illustrative non-exclusive example, depth stop 114 can be outer by being configured the one or more rotated relative to raised panel 14
Portion's roller 118 limits.When applying tool 110 includes breast roll 116 and outer roller 118, the diameter of the outer roller can be as small in schemed
In the diameter of the breast roll.This can permit stream limiting structure 50 and is placed in gap 18 with desired depth.
Figure 10 shows showing for the illustrative non-exclusive example of the raised panel assembly 12 of the stream limiting structure 50 including Fig. 7
Meaning viewgraph of cross-section.In Figure 10, stream limiting structure 50 has been placed in gap 18, to limit channel 20, and is sealed
Material 26 has been placed in channel 26, forms raised panel assembly 12.As discussed herein, sealing material 26 bonds
Or it is directly bonded to the edge 34 of raised panel 14.In addition, sealing material 26 can also be placed in the recessed of stream limiting structure 50
Fall into region 72 in, and can be operably attached to, be directly connected to, being adhered to, be directly bonded to stream limiting structure and/or
Its flexible elongate body 54.
As shown in Figure 10, it the contact of the first protruding portion 62 and/or is formed and the edge 34 of the first raised panel 15 (or the first side
Edge 34) Fluid Sealing.Equally, it the contact of the second protruding portion 64 and/or is formed and the edge 34 of the second raised panel 16 (or first
Edge 34) Fluid Sealing.
Stream limiting structure 50 and/or its flexible elongate body 54 can limit it is undeformed construction (such as shown in fig. 7,
When flow limiting structure be not placed in gap 18 and/or be uncompressed between raised panel 14 when) and deform construction (example
Such as seen in figs. 8-10, when stream limiting structure is placed in gap 18 and/or is compressed between raised panel 14).This
Within the scope of this disclosure.The construction of the deformation can be different from the undeformed construction.
Illustratively non-exclusive example, the first protruding portion 62 when flexible elongate body 54 is in deformation structure and
The distance between two protruding portions 64 (or average distance) can be less than first when flexible elongate body 54 is in undeformed construction
The distance between protruding portion 62 and the second protruding portion 64 (or average distance).As another illustrative non-exclusive example, elasticity
Elongate body 54 can limit the first face 67 and the second face 68;Wherein, the first face 67 is towards sealing material 26, and the second face 68
Relative to the first face 67 and/or back to sealing material 26.When flexible elongate body 54 is in undeformed construction, the first face 67 and/
Or second face 68 can not be stretching in relaxed state and/or can not be compressive state.But, as resilient elongate master
In deformation structure, the first face 67 can be compressed body 54.In addition, and according to the width in the second face 68 relative to gap 18,
Second face 68 can stretch, compress or with decrement (or first amount) smaller amount (or the second amount) compression than the first face 67.
When raised panel assembly 12 includes stream limiting structure 50 and flows limiting structure 50 including protruding portion 60, this is prominent
Portion is designed to contact and/or formed the Fluid Sealing with the edge 34 of raised panel 14 out, but regardless of gap 18 width (such as
Shown in the 38 of Fig. 1) change at least threshold values width range.As illustrative non-exclusive example, the size of limiting structure is flowed
Can be designed to contact and/or formed with the Fluid Sealing at edge 34, but regardless of the gap at least 10%, at least 15%,
The change width of at least 20%, at least 25%, at least 30%, at least 35% or at least 40% average gap width.
In addition, the contact area that may be sized between adjusting edge 34 and sealing material 26 of protruding portion 60
35, to adjust the overall strength bonded between the edge and sealing material.As illustrative non-exclusive example, the length of protruding portion 60
Degree (or contact area 36 between protruding portion 60 and edge 34) can be reduced, to increase between edge 34 and sealing material 26
Contact area 35.As illustrative non-exclusive example, the length contact area 36 of protruding portion 60 can be reduced, to increase side
Contact area 35 between edge 34 and sealing material 26.
Figure 11 shows the stream of the illustrative non-exclusive example of the method 200 of the structural salient panel assembly according to the disclosure
Cheng Tu.Method 200 is optionally included in the one or more raised panels of 210 placements, and/or 215 relative to application tool orientation
Limiting structure is flowed, and is included in 220, which is placed in the protrusion panel assembly, is configured with generating
Receive the channel of sealing material.It includes, 230, elongated disassembly auxiliary device being placed on the protrusion that this method is further optional
In panel assembly, and it is included in 240, applies the sealing material to the channel.This method can also be included in 250, stop
Sealing material flows through overcurrent limiting structure, 260, limits the contact between the sealing material and minor structure, and/or 270, Gu
Change sealing material in this gap.
The raised panels of placement one or more 210 may include that movement is orientated and/or otherwise arranges to be somebody's turn to do
One or more protrusion panels, between generating between two or more raised panels between such as two or more edges
Gap.Additionally or alternatively, the placement also may include being orientated the raised panel of the one or more relative to minor structure, should
Minor structure, which is configured, to be supported the raised panel of the one or more and/or is operably attached to the raised panel of the one or more
The minor structure.
215, relative to the application tool orientation, the stream limiting structure may include orientation, so that the stream limiting structure
(such as during 220 placement) is placed in the protrusion panel assembly with desired direction and/or position.As explanation
Property non-exclusive example, and as herein it is discussed in detail, which can limit sunk area, and the application work
Tool can limit shape and/or be dimensioned so as to the convex region being received in sunk area.Under these conditions, exist
215 orientation may include being placed in the convex region of the application tool in the sunk area of the stream limiting structure.The application
Tool and/or stream limiting structure can be constructed and/or be dimensioned so as to, when the convex region of the application tool is in the ductility limit
When being received in the sunk area of structure processed, single, target between the application tool and the stream limiting structure, preferably is limited
And/or expectation relative direction, to promote mesh of the stream limiting structure relative to its raised panel in the protrusion panel assembly
Mark, preferably and/or the position of desired orientation, this is within the scope of this disclosure.
The stream limiting structure is placed in the protrusion panel assembly 220 and may include, is generating channel, shallow slot
And/or before the application of groove, which is inserted into the desired depth in the gap, above-mentioned illustrative non-row
He is discussed in detail example herein, and the channel, shallow slot and/or groove include a part in the gap and be configured the reception sealing
Material.The suction may include being manually inserted into and/or the stream limiting structure is pressed into the gap by other modes, this is in this public affairs
In the range of opening.But, which may include the use such as application tool discussed in detail herein, this is also in the disclosure
In range.The insertion, which may further include, for example compresses the ductility limit system between two edge between two raised panels
At least certain compression percentages of structure, above-mentioned illustrative non-exclusive example are discussed in detail herein.
As shown in 260, when the gap is placed in above the minor structure, which can also include by the ductility limit system
Structure be inserted into the gap with reduction, limitation, obstruction and/or otherwise stop the sealing material flow into contact the sub- knot
Structure.When the gap is not placed in above minor structure, which may include that the stream limiting structure is inserted into and is applied close
Closure material, wherein rubber belt material (or additional rubber belt material) is not adhered to and is performed with applying by the application sealing material
The opposite gap other side in the gap side.
Additionally or alternatively, stream limiting structure is placed into raised panel assembly 220 may include that placement should
Limiting structure is flowed, so that its at least one surface for forming the channel and/or boundary, which, which is configured, receives the sealing material
Material.As illustrative non-exclusive example, and as discussed in detail herein, this may include, which is placed
Between the raised panel and the minor structure of the protrusion panel assembly and the minor structure is configured and supports the crowning board group
Component.As another illustrative non-exclusive example, and also as discussed in detail herein, this may include, by the ductility limit
Structure bond processed or be otherwise connected to the minor structure support surface at least one lower part table with the protrusion panel
Face.
Elongated disassembly auxiliary device is placed in raised panel assembly 230 and may include, the elongated disassembly is auxiliary
Device is helped to be placed in any desired part in the gap and/or in the stream limiting structure, above-mentioned illustrative non-exclusive example
It is discussed in detail herein.The placement can execute parallel with the insertion or at least substantially parallel execution, this is in the scope of the present disclosure
It is interior.But, which can be performed before the insertion and/or followed by, this is also within the scope of this disclosure.When this is put
Set when being executed parallel with the insertion, the elongated disassembly auxiliary device can be formed the stream limiting structure a part or can be with this
Flow limiting structure separation.When the placement, which follows closely, to be executed after the insertion, which can be performed before the application.
Applying the sealing material 240 may include being led to using any suitable method with filling this with the sealing material
At least part in road.As discussed in detail herein, which may include applying liquid or at least substantially sealing of liquid
Material forms and solidifies the sealing material in the channel, to generate the solid being such as somebody's turn to do 270 or at least substantially solid sealing
Material, this is within the scope of this disclosure.Also as discussed in detail herein, the solidification and/or application may include in the sealing
It is formed and is bonded between material and the raised panel for contacting the sealing material and/or between the sealing material and stream limiting structure.
After applying and/or following application closely, which can be closed, limit and/or the flowing of backup seal material, such as be existed
Described in 250.
Figure 12, which is shown, includes the method 300 of the raised panel assembly of elongated disassembly auxiliary device according to the disassembly of the disclosure
Illustrative non-exclusive example flow chart.This method is included in 310 and catches the elongated disassembly auxiliary device, and will 320
The elongated disassembly auxiliary device is removed from the protrusion panel assembly.This method can also be included in 330, and the elongated disassembly is auxiliary
It helps device from stream limiting structure separation, and includes a part in 340 parting seal materials.This method may further include
350, the panel being removed is removed from the protrusion panel assembly, 360 with replacement panel replace the target being removed and/or
The replacement panel is sealed 370.
Catching the elongated disassembly auxiliary device 310 may include the use of any appropriate system and/or method, to protect
At least part for holding, fixing and/or otherwise catching the elongated disassembly auxiliary device promotes the elongated disassembly auxiliary dress
It sets from the protrusion panel assembly and removes.This, which is caught, may include, and separate the elongated disassembly auxiliary from the protrusion panel assembly
A part of device and/or this to catch may include grabbing when the elongated disassembly auxiliary device is in the protrusion panel assembly
The firmly elongated disassembly auxiliary device, this is within the scope of this disclosure.
Removing the elongated disassembly auxiliary device from the protrusion panel assembly 320 may include, and draw and/or with other
Mode is pulled through the elongated disassembly auxiliary device of the sealing material, to separate the sealing material extended between the protrusion panel
Material at least by segregated portion, as illustrated by 340.The sealing material is by the illustrative non-exclusive example of segregated portion at this
Text is discussed in detail.
When the elongated disassembly auxiliary device forms a part of stream limiting structure and/or is operatively attached to ductility limit system
When structure, which also may include separating the elongated disassembly auxiliary device from the stream limiting structure, as illustrated by 330
's.This may include being sliced, cut, separate, tear and/or dividing at least one of the stream limiting structure during the separation
Point.
Removing raised panel from the protrusion panel assembly 350 may include, by the protrusion panel and the protrusion panel
Sub-assembly separation can reside in the structure of the protrusion below the panel and/or repairing, reprocess and/or replace the protrusion to access
Panel.It may include replacing the protrusion being removed with any suitable raised panel in the raised panel that 360 replacements are removed
Panel, the illustrative non-exclusive example of any suitable raised panel include new raised panel, the raised panel after repairing,
The raised panel reprocessed and/or the raised panel being removed.Sealing the replacement panel 370 may include any appropriate system
And/or method includes the use of method 200, to seal the edge of the replacement panel.
In the disclosure, several illustrative non-exclusive example are discussed and/or are stated, the party under the background of flow chart
Method is shown and described as a series of box or step in the flow chart.Unless being specifically described in the explanation of accompanying, side
The order of frame can show order modification from the flow chart, this includes that two or more boxes (or step) are sent out in different order
Raw and/or parallel generation, this is within the scope of this disclosure.The box or step can be used as logic and be carried out, and can also describe
To implement box or step as logic, this is also within the scope of this disclosure.In some applications, the box or step can be with
Indicate the expression formula and/or movement executed by the equivalent circuit of function or other logical device.Shown box can with but not
Be must indicate to promote computer, processor and/or the response of other logical device, execution movement, change state, generate output or
The executable instruction for showing and/or making decision.
As it is used herein, the term "and/or" being placed between first instance and second instance is meant that
(1) first instance, 2) one in second instance and (3) first and second entities.The multiple entities listed with "and/or" can be with
It explains in the same manner, that is, " one or more " entity so combines.Other entities optional can be different from by "and/or"
No matter the entity that sentence specifically identifies is related to or is not related to by specifically those of identification entity.Therefore, as non-restrictive example, ginseng
According to " A and/or B ", when with open language for example " comprising " is used in conjunction when, only A (the optional packet that can refer in one embodiment
Include the entity different from B);In another embodiment, the only B referred to (optional includes the entity different from A);In another implementation
In example, refer to both A and B (optional includes other entities).These entities also refer to element, movement, structure, step,
Operation, value etc..
As it is used herein, the phrase "at least one" referring to the list of one or more entities should be understood as anticipating
Taste from least one entities of any one or more entity selections in list of entities, but not being necessarily includes that the entity arranges
At least one of each entity specifically listed in table, and any combination for the entity being not excluded in the list of entities.This
Kind definition also allows the entity that can be optionally different from, and phrase "at least one" is signified specifically to be identified in the list of entities
Entity and exist, no matter be related to or be not directed to by specifically identification those of entity.Therefore, as non-restrictive example, " in A and B
At least one " (or equally " at least one of A or B " or equally, " at least one of A and/or B ") in a reality
It applies and also refers at least one or optionally more than one A in example, but there is no (and optionally include reality different from B by B
Body);In another embodiment, at least one or optionally more than one B are referred to, but there is no (and optionally include by A
Different from the entity of A);In yet another embodiment, it refers at least one or optionally includes more than one A, and at least
It one or optionally includes more than one B (and optionally including other entities).In other words, "at least one", " one or
It is multiple " and "and/or" be in operation be both connectivity and the open expression of separation property.For example, expression formula is " in A, B and C
At least one ", " at least one of A, B or C ", " one or more of A, B and C ", " one or more in A, B or C
It is a " and " A, B and/or C " may mean that individual A, individual B, individual C, A and B together, A and C together, B and C mono-
It rises, A, B and C are together, and optionally above-mentioned at least one of at least one other combination of entities.
As it is used herein, term " being suitable for " and " being configured " mean that the element, component or other themes are designed
And/or intend to execute given function.Therefore, the use of term " being suitable for " and " being configured " should not be construed as meaning that given
Element, component or other themes " can " it is simple execute given function, rather than the element, component and/or other themes are had
Body selection, generation, implementation, use, the purpose for programming and/or being designed to carry out the function.It is stated as being adapted for carrying out specific function
Element, component and/or other subject matter reciteds of energy, which can additionally or alternatively be described as being configured, executes the function, instead
, this is also within the scope of this disclosure.
Illustrative non-exclusive example according to the disclosed systems and methods is stated in the following paragraph enumerated.It wraps herein
The single step included in the following method enumerated and described in paragraph additionally or alternatively can be chatted referred to as executing
" step " for the movement stated, this is within the scope of this disclosure.
A1.A kind of stream limiting structure is configured limitation sealing material and flows out from the gap between adjacent raised panel,
The stream limiting structure includes:
Flexible elongate body, wherein the flexible elongate body limits the longitudinal axis.
A2.The stream limiting structure being somebody's turn to do according to paragraph A1, wherein at least one of the stream limiting structure includes simultaneously close incites somebody to action
The device that sealing material between adjacent raised panel separates.
A3.The stream limiting structure being somebody's turn to do according to paragraph A2, wherein the sealing material between adjacent protrusion panel is separated
Device includes elongated disassembly auxiliary device, and optionally, wherein the longitudinal axis and the resilient elongate of the elongated disassembly auxiliary device
The longitudinal axis of main body is coextensive.
A4.The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A3, wherein the flexible elongate body is solid from elasticity
In body, elastomer, polymer, hydrophobic material, foam, hydrophobic foam, polyurethane foam and hydrophobic polyurethane foam extremely
It is formed in one few.
A5.The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A4, wherein the flexible elongate body is configured as
Solid is placed in the protrusion panel assembly.
A6.The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A5, wherein the flexible elongate body includes substantially permanent
Fixed cross-sectional shape, and optionally, which includes round, oval, oval, trapezoidal, polygon, square
At least one of with the cross-sectional shape of rectangle.
A7.The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A6, wherein the flexible elongate body, which is configured, is inserted into
It is compressed in this gap and after being inserted into the gap, wherein when the flexible elongate body is in non-compressed state, the bullet
Property elongate body include characteristic cross-sectional face diameter, and further, wherein the characteristic cross-sectional face diameter is greater than the width in the gap
Degree, and optionally, wherein the characteristic cross-sectional face diameter than the gap width greatly at least 5%, at least 10%, at least 15%, extremely
Few 20%, at least 25%, at least 30%, at least 35%, at least 40%, at least 45%, at least 50%, 5-25% or 5-50% it
Between.
A8.The stream limiting structure being somebody's turn to do according to any one of paragraph A3-A7, wherein the elongated disassembly auxiliary device includes thin
At least one of rope, filament, filament, electric wire, connecting rod and cable.
A9.The stream limiting structure being somebody's turn to do according to any one of paragraph A3-A8, wherein the elongated disassembly auxiliary device is from gold
It is selected at least one of category, polymer, elastomer, nylon, polyester, polyethylene, polypropylene and hydrophobic material.
A10.The stream limiting structure being somebody's turn to do according to any one of paragraph A3-A9, wherein the elongated disassembly auxiliary device include
Chemical composition, different densities, different Young's, different shear strengths and difference are different compared with the flexible elongate body
At least one of elastic strength, and optionally, wherein the elongated disassembly auxiliary device includes and the flexible elongate body phase
Than being at least one of bigger shear strength and bigger tensile strength.
A11.The stream limiting structure being somebody's turn to do according to any one of paragraph A3-A10, wherein the elongated disassembly auxiliary device be by
It is placed in the flexible elongate body and is operatively attached at least one of the flexible elongate body.
A12.The stream limiting structure being somebody's turn to do according to paragraph A11, wherein the elongated disassembly auxiliary device is configured thin from the elasticity
Long main body separation, and be configured and be sliced at least part of the sealing material between the adjacent protrusion panel,
At least one of cutting, separation, tearing and division.
A13.The stream limiting structure being somebody's turn to do according to any one of paragraph A11-A12, wherein the elongated disassembly auxiliary device passes through
It configures and is modifying the structure of the flexible elongate body after flexible elongate body separation, and optionally, wherein this elongated is torn open
Auxiliary device is unloaded to be configured in after flexible elongate body separation, which is sliced, is cut, is separated,
At least one of tearing and division.
A14.The stream limiting structure being somebody's turn to do according to paragraph A13, wherein the elongated disassembly auxiliary device is configured in from the elasticity
After elongate body separation, at least part of the length of the flexible elongate body is modified, optionally, the wherein flexible elongate body
Length a part include the flexible elongate body length at least 50%, at least 60%, at least 70%, at least 75%,
At least 80%, at least 90%, at least 95%, at least 99%, 100%, between 50-100%, 70-99% or 75-100%, and
Further optionally, wherein the length of the flexible elongate body and the longitudinal axis of the flexible elongate body are coextensive.
A15.The stream limiting structure being somebody's turn to do according to any one of paragraph A3-A11, wherein the elongated disassembly auxiliary device is pacified
It sets in the sealing material, optionally, wherein the elongated disassembly auxiliary device is surround by the sealing material, and further optional
Ground, wherein the elongated disassembly auxiliary device is not surround by the flexible elongate body.
A16.The stream limiting structure being somebody's turn to do according to any one of paragraph A3-A11, wherein the elongated disassembly auxiliary device is at this
Between sealing material and the flexible elongate body.
A17.According to any one of paragraph A15-A16 stream limiting structure, wherein the elongated disassembly auxiliary device is through matching
It sets from the sealing material and separates, and be configured at least part progress to the sealing material between the adjacent protrusion panel
At least one of slice, cutting, separation, tearing and division, and optionally, wherein the elongated disassembly auxiliary device is configured
It is separated in the case where not damaging the flexible elongate body from the sealing material.
A18.The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A17, wherein at least one of the stream limiting structure
Lease making configuration is adhered at least one of the support surface of minor structure, and the support surface of the minor structure, which is configured, supports the protrusion
The lower surface of panel and the protrusion panel.
A19.The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A17, wherein at least one of the stream limiting structure
Lease making configuration is fixed at least one of the support surface of minor structure, and the support surface of the minor structure, which is configured, supports the protrusion
The lower surface of panel and the protrusion panel.
A20.The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A19, wherein the stream limiting structure is configured to be formed
At least one boundary in channel, which, which is configured, receives the sealing material.
A21.The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A20, wherein the flexible elongate body limits center
Part and two protruding portions, optionally when watching in cross-section, which extends from the central part.
A22.The stream limiting structure being somebody's turn to do according to paragraph A21, wherein two protruding portions from the opposite flank of the central part,
Opposed area and/or opposing side regions extend.
A23.The stream limiting structure being somebody's turn to do according to any one of paragraph A21-A22, the wherein central part and two protrusions
Portion extends along the longitudinal axis of the flexible elongate body.
A24.The stream limiting structure being somebody's turn to do according to any one of paragraph A21-A23, wherein the central part limits central part
Point thickness (or average thickness), and further, wherein two protruding portions are from the center portion thickness (or average thickness)
Taper to the protruding portion thickness less than the center portion thickness (or average thickness).
A25.The stream limiting structure being somebody's turn to do according to any one of paragraph A21-A24, wherein when watching in cross-section, it should
Two protruding portions are tapered from the central part, and optionally, wherein two protruding portions taper to point, dot and cusp
At least one of.
A26.The stream limiting structure being somebody's turn to do according to any one of paragraph A21-A25, wherein the central part limits central part
Divide thickness (or average thickness) and central part width (when watching in cross-section), and further, wherein the center
Partial width is greater than the center portion thickness (or average thickness), and optionally, wherein the central part width is to the center
The ratio of segment thickness (or mean center segment thickness) is at least 1.25, at least 1.5, at least 1.75, at least 2, at least 2.5,
At least 3, at least 3.5 or at least 4.
A27.The stream limiting structure being somebody's turn to do according to any one of paragraph A21-A26, wherein the central part limits the first face
Second face opposite with first face, and optionally, wherein first face and the second face limit central part thickness (or
Average thickness).
A28.The stream limiting structure being somebody's turn to do according to paragraph A27, wherein respective edges of two protruding portions from the central part
Extend, wherein the respective edges of the central part are limited between first face and the second face.
A28.The stream limiting structure being somebody's turn to do according to paragraph A27, wherein two protruding portions are from first face and the second face
One extension.
A29.The stream limiting structure being somebody's turn to do according to any one of paragraph A21-A26, wherein two protruding portions are from the center
Part extends, and with the sunk area being limited between two protruding portions, optionally, when watching in cross-section, wherein should
Sunk area be in concave regions, generally V-shaped region, generally U-shaped region, generally cup-shaped region and substantially shallow channel region extremely
It is one few.
A30.The stream limiting structure being somebody's turn to do according to paragraph A29, wherein the sunk area, which is configured, receives the sealing material.
A31.The stream limiting structure being somebody's turn to do according to any one of paragraph A21-A30, wherein elongated disassembly auxiliary device be by
Placement, at least part are placed at least one of one in (i) central part and (ii) two protruding portions, with
And it is operatively attached to (i) central part and at least one of one in (ii) two protruding portions.
A32.The stream limiting structure being somebody's turn to do according to any one of paragraph A21-A31, wherein the flexible elongate body is to limit
The monolithic elastic elongate body of the central part and two protruding portions.
B1.A kind of component external member, the configurable gap that be used to seal between adjacent raised panel, the external member packet
It includes:
The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A32;And
Sealing material, wherein the stream limiting structure is configured at least one boundary to form channel, between channel formation is somebody's turn to do
A part of gap, which, which is configured, receives the sealing material, and wherein the stream limiting structure is configured the sealing material that limitation is flowed through
The flowing of material, and further, wherein the sealing material, which is configured, is applied to the channel, to fill one of the channel
Point, and be configured and be adhered to each of the adjacent protrusion panel.
B2.According to the external member that paragraph B1 is somebody's turn to do, wherein the stream limiting structure, which is configured, is placed in this gap and the set
Part further comprises application tool, which is configured in front of the application of the sealing material, with desired depth by the stream
Limiting structure is inserted into the gap.
B3.According to the external member that paragraph B2 is somebody's turn to do, wherein the desired depth includes between the sealing material and adjacent protrusion panel
Contact area be enough to provide its it is expected adhesive strength depth.
B4.According to the external member that any one of paragraph B2-B3 is somebody's turn to do, wherein the sealing material is configured as liquid and is applied
To the gap, and it is cured to form solid in this gap.
B5.According to the external member that any one of paragraph B1-B4 is somebody's turn to do, wherein applying tool limits convex region, shape quilt
It is designed to be received in the sunk area limited by the flexible elongate body, optionally, wherein the sunk area is by central part
It is divided to and two protruding portions limits, the central part and two protruding portions is limited by the flexible elongate body.
B6.According to the external member that paragraph B5 is somebody's turn to do, wherein when the convex region is received and the ductility limit in the sunk area
When structure processed is placed in gap by application tool, the desired orientation of the ductility limit structure qualification relative to the gap.
B7.According to the external member that any one of paragraph B5-B6 is somebody's turn to do, wherein the size of the sunk area and convex region is set
Count into preferentially with the desired orientation relative to the gap by the ductility limit structural arrangement in this gap.
B8.According to the external member that any one of paragraph B5-B7 is somebody's turn to do, wherein the application tool includes limiting the convex region
Breast roll, and one upper face in the contact adjacent protrusion panel is configured to adjust the stream limiting structure in gap
At least one depth stop of interior depth, optionally, wherein at least one depth stop include at least one outer roller or
It is at least one outer roller, and still optionally further, wherein the diameter of at least one outer roller is less than the straight of the breast roll
Diameter.
C1.A kind of protrusion panel assembly comprising:
First raised panel, wherein the first raised panel includes two substantially opposite first surfaces and first edge;
Second raised panel, wherein the second raised panel includes two substantially opposite second surfaces and second edge,
And further, wherein the first adjacent part of the first edge and the second adjacent part of the second edge it is opposite and point
From with the gap formed between the first raised panel and the second raised panel;
Limiting structure is flowed, wherein at least one boundary in the ductility limit structure qualification channel, the channel include the gap
At least partially;And
Sealing material, wherein the sealing material is placed in the channel, and wherein the sealing material is configured to be formed and be somebody's turn to do
The bonding of first adjacent part and the second adjacent part, and further, wherein the stream limiting structure be configured limitation and
Optionally block the sealing material from the flowing from this.
C2.The raised panel assembly being somebody's turn to do according to paragraph C1, wherein the stream limiting structure and first adjacent part and this
Second adjacent part Mechanical Contact.
C3.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C2, wherein the stream limiting structure includes basis
The stream limiting structure that any one of paragraph A1-A32 is somebody's turn to do.
C4.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C3, wherein the sealing material includes bonding
At least one of agent, elastomer, polymer, elastic material and hydrophobic material.
C5.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C4, wherein the sealing material is configured as
Liquid is applied to the gap, and solidifies in this gap to form solid.
C6.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C5, wherein in raised panel assembly extremely
Few one further comprise and with minor structure mechanical communication, and further, wherein at least the one of the protrusion panel assembly
Part is operatively attached to the minor structure.
C7.The raised panel assembly being somebody's turn to do according to paragraph C6, wherein the minor structure includes support surface, and further
Ground, wherein first adjacent part, the second adjacent part and the gap are placed on the support surface.
C8.The raised panel assembly being somebody's turn to do according to paragraph C7, wherein the stream limiting structure be placed in the sealing material with
Between the support surface, and it is configured limitation and optionally blocks the contact between the sealing material and the support surface.
C9.The raised panel assembly being somebody's turn to do according to any one of paragraph C7-C8, wherein the protrusion panel assembly is into one
Step includes multiple holding structures, multiple holdings structure be configured by the first raised panel and the second protrusion panel at least
One is operably attached to the minor structure.
C10.The raised panel assembly being somebody's turn to do according to paragraph C9, wherein multiple holding structure includes fastener, screw, riveting
At least one of nail, bolt, washer, nut and nut clip.
C11.The raised panel assembly being somebody's turn to do according to paragraph C9-C10, wherein the gap is the first gap, wherein multiple
Keeping structure includes multiple support constructions, wherein multiple support construction is in the support surface and the first raised panel and second
Between at least one of raised panel, and further, wherein multiple support construction generate the support surface and this
The second gap of one raised panel and the second raised panel at least between at least one.
C12.The raised panel assembly being somebody's turn to do according to paragraph C11, wherein the stream limiting structure be configured limitation and it is optional
Ground blocks the sealing material and is flowed into second gap.
C13.The raised panel assembly being somebody's turn to do according to any one of paragraph C7-C12, wherein the stream limiting structure is placed
Between the first raised panel and the support surface and between the second raised panel and the support surface.
C14.The raised panel assembly being somebody's turn to do according to paragraph C13, wherein the stream limiting structure is operatively attached to, with
And optionally it is adhered to the lower part table of the support surface, the lower surface of the first raised panel and the second raised panel
At least one of face.
C15.The raised panel assembly being somebody's turn to do according to paragraph C6, wherein the minor structure includes support surface, and further
Ground, wherein first adjacent part, the second adjacent part and the gap are not placed on the support surface.
C16.The raised panel assembly being somebody's turn to do according to paragraph C15, wherein the gap is not included in is applied with the sealing material
The rubber belt material being added on the opposite gap side in gap side in gap.
C17.The raised panel assembly being somebody's turn to do according to paragraph C15, wherein the stream limiting structure is operatively attached to, with
And it is optionally adhered to the lower surface of the first raised panel and at least one of the lower surface of the second raised panel,
And optionally, wherein the stream limiting structure includes at least one of adhesive tape and foam adhesive tape.
C18.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C17, wherein the gap includes width, with
And further, wherein the width is at least 2cm, at least 1.5cm, at least 1cm, at least 0.75cm, at least 0.5cm, at least
0.4cm, at least 0.3cm, at least 0.2cm, at least at least one of 0.1cm, 0.1-2cm, 0.1-1cm and 0.2-0.8cm.
C19.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C18, wherein the gap includes width, with
And further, wherein the width is at least 2.5cm, at least 2cm, at least 1.5cm, at least 1cm, at least 0.75cm, at least
At least one of 0.5cm and 0.5-2.5cm.
C20.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C19, wherein the sealing material includes sealing
Material volume, and further, it includes that the first raised panel and second are convex that wherein the sealing material volume, which is less than comparable,
It plays panel and the sealing material but does not include the sealing material volume of the raised panel assembly of the stream limiting structure, Yi Jike
Selection of land, wherein the sealing material volume of the sealing material volumetric ratio comparable raised panel assembly it is small 10%, 20%,
25%, at least one of 30%, 40%, 50%, 60%, 70% and 75%.
C21.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C20, wherein first raised panel and the
At least one of two raised panels include composite panel, and wherein the composite panel includes first surface material, the first surface
Material includes the first surface of the composite panel, and second surface material, which includes the second of the composite panel
Opposite surface, and the core material between the first surface material and the second surface material.
C22.The raised panel assembly being somebody's turn to do according to paragraph C21, wherein in first adjacent part and the second adjacent part
At least one, and optionally, the two includes that the package edge of the core material is covered with encapsulating material.
C23.The raised panel assembly being somebody's turn to do according to paragraph C21-C22, wherein first adjacent part and the second adjacent portions
At least one of point, and optionally, the two includes the unencapsulated edge of the exposed core material.
C24.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C23, wherein first raised panel and the
At least unsupported part of at least one of two raised panels includes unsupported region, and optionally, and wherein this is not
Supported part include the surface area of at least one of the first raised panel and second raised panel at least 25%, extremely
Few 50%, at least 60%, at least 65%, at least 70%, at least 75%, at least 80%, at least 85%, at least 90%, at least
95%, 50-95%, 70-95% or 75-90%.
C25.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C24, wherein the protrusion panel assembly shape
At a part of at least one of raised floor, ceiling and wall.
C26.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C25, wherein the stream limiting structure is placed
In this gap.
C27.When the raised panel combination of any one of the paragraph C1-C26 being somebody's turn to do according to any one of paragraph A21-A32
Part, wherein two protruding portions include the first protruding portion and the second protruding portion.
C28.The raised panel assembly being somebody's turn to do according to paragraph C27, wherein first protruding portion contacts the first edge, and
Further, wherein second protruding portion is contacting the second edge.
C29.The raised panel assembly being somebody's turn to do according to any one of paragraph C27-C28, wherein first protruding portion is formed
The Fluid Sealing of the first edge, and further, wherein second protruding portion forms the Fluid Sealing of the second edge.
C30.The raised panel assembly being somebody's turn to do according to any one of paragraph C27-C29, wherein the sealing material can be grasped
It is attached to, is directly connected to, is adhered to and/or is directly bonded to the flexible elongate body with making.
C31.The raised panel assembly being somebody's turn to do according to any one of paragraph C27-C30, wherein the sealing material is pacified
It sets in the sunk area limited by the flexible elongate body.
C32.The raised panel assembly being somebody's turn to do according to any one of paragraph C27-C31, wherein the flexible elongate body exists
Undeformed construction is limited before being placed in this gap and follows the deformation structure after being placed in this gap closely, it can
Selection of land, wherein the deformation structure is different from the undeformed construction.
C33.The raised panel assembly being somebody's turn to do according to paragraph C32, wherein when the flexible elongate body is in deformation structure
Average distance between first protruding portion and the second protruding portion be less than when the flexible elongate body is in undeformed construction this
Average distance between one protruding portion and the second protruding portion.
C34.The raised panel assembly being somebody's turn to do according to any one of paragraph C1-C33, wherein the flexible elongate body limits
It is directed toward the first face of the sealing material, and relative to first face and is guided second back to the sealing material
Face.
C35.The raised panel assembly being somebody's turn to do according to paragraph C34, wherein first face is being drawn in compression and second face
It stretches.
C36. the raised panel assembly being somebody's turn to do according to paragraph 34, wherein first face is compressed by the first amount, and further
Ground, wherein second face is compressed by the second amount smaller than first amount.
C37.A kind of building of the raised panel assembly including any one of paragraph C1-C36.
C38.A kind of aircraft of the raised panel assembly including any one of paragraph C1-C36.
C39.A kind of automobile of the raised panel assembly including any one of paragraph C1-C36.
C40.A kind of structure of the raised panel assembly including any one of paragraph C1-C36.
C41.A kind of machine of the raised panel assembly including any one of paragraph C1-C36.
D1.A kind of method of structural salient panel assembly, this method comprises:
Stream limiting structure is placed in the protrusion panel assembly, to form the boundary in channel, which, which is configured, is connect
Sealing material is received, wherein the channel includes the second edge of the first edge and the second raised panel in the first raised panel
Between gap a part;And
Apply the sealing material to the channel, wherein the stream limiting structure limits, and optionally blocks the sealing material
Flowing from there, wherein the sealing material forms the bonding with the first raised panel and the second raised panel, and into one
Step ground, wherein this is performed after being applied to the placement.
D2.According to the method that paragraph D1 is somebody's turn to do, wherein this method further comprises disposing the protrusion panel, between being somebody's turn to do with generation
Gap.
D3.According to the method that any one of paragraph D1-D2 is somebody's turn to do, wherein the gap is placed in the support surface of minor structure
Top, and further, wherein the placement include place the stream limiting structure with limit the sealing material flow into contact should
Minor structure.
D4.According to the method that any one of paragraph D1-D3 is somebody's turn to do, wherein this method further comprises assisting elongated disassembly
Device is placed in this gap, wherein the elongated disassembly auxiliary device be configured by the first raised panel with this second
At least part of the sealing material extended between raised panel be sliced, cut, separated, torn and divided at least
It one, reduces from the second raised panel and dismantles the time required for the first raised panel.
D5.According to the method that paragraph D4 is somebody's turn to do, wherein the elongated disassembly auxiliary device of the placement and the placement stream limiting structure be simultaneously
Row executes, and optionally, and wherein the elongated disassembly auxiliary device forms a part of the stream limiting structure.
D6.According to the method that paragraph D4 is somebody's turn to do, wherein the elongated disassembly auxiliary device of the placement is followed closely in the placement ductility limit knot
It is executed after structure, and optionally, wherein the elongated disassembly auxiliary device of the placement executes before the application.
D7.According to the method that any one of paragraph D1-D6 is somebody's turn to do, wherein the placement stream limiting structure includes by the ductility limit system
Structure is placed in this gap.
D8.According to the method that paragraph D7 is somebody's turn to do, wherein this method includes placing the stream limiting structure and will not be individual
In the case that rubber belt material is adhered to the gap other side opposite with the gap side that is performed is applied, apply the sealing material
Material.
D9.According to the method that paragraph D7-D8 is somebody's turn to do, wherein the placement stream limiting structure includes using application tool by the ductility limit system
Structure is placed into desired depth, and optionally, and wherein the desired depth includes the sealing material, the first raised panel and second
Contact area between raised panel is enough to provide the depth of desired adhesive strength.
D10.The method being somebody's turn to do according to D9, wherein this method further comprises relative to the application tool orientation ductility limit knot
Structure, optionally before the placement.
D11.According to the method that paragraph D10 is somebody's turn to do, wherein the orientation includes, by the convex region of the application tool be placed in by
In the sunk area of the ductility limit structure qualification.
D12.According to the method that any one of paragraph D7-D1 is somebody's turn to do, wherein the placement stream limiting structure be included in this first
The stream limiting structure is compressed between edge and the second edge, and optionally, wherein the compression includes compressing the ductility limit knot
At least one size of structure at least 5%, at least 10%, at least 15%, at least 20%, at least 25%, at least 30%, at least
35%, at least 40%, at least 45%, at least 50%, 5-25% or 5-50%.
D13.According to the method that any one of paragraph D1-D12 is somebody's turn to do, wherein the placement stream limiting structure includes, by the stream
Limiting structure is operably attached to, and is optionally adhered to the lower surface and second protrusion of the first raised panel
The lower surface of panel.
D14.According to the method that any one of paragraph D1-D13 is somebody's turn to do, wherein the placement stream limiting structure be included in this first
The stream limiting structure is placed between raised panel and minor structure, and placing between the second raised panel and the minor structure should
Flow limiting structure.
D15.According to the method that paragraph D14 is somebody's turn to do, wherein the placement further comprises that the stream limiting structure is operationally attached
It is connected to, and optionally, is adhered to the minor structure.
D16.According to the method that any one of paragraph D1-D15 is somebody's turn to do, wherein the application includes applying to be used as hydraulic seal material
The sealing material of material, and further, wherein this method includes solidifying the sealing material to form solid sealing material.
D17.According to the method that any one of paragraph D1-D16 is somebody's turn to do, wherein this method further comprises closing the sealing material
Stream crosses the stream limiting structure, and optionally, and wherein the closing includes obstruction.
D18.According to the method that any one of paragraph D1-D17 is somebody's turn to do, wherein the stream limiting structure includes according to paragraph A1-
The stream limiting structure that any one of A32 is somebody's turn to do.
D19.According to the method that any one of paragraph D1-D18 is somebody's turn to do, wherein this method is by using in paragraph B1-B8
The external member that any one is somebody's turn to do executes.
D20.According to the method that any one of paragraph D1-D19 is somebody's turn to do, wherein the protrusion panel assembly includes paragraph C1-
The raised panel assembly that any one of C41 is somebody's turn to do.
E1.A method of raised panel assembly being dismantled, wherein the protrusion panel assembly includes having first edge
The first raised panel, the second raised panel with second edge, the gap between first edge and second edge, wherein
At least one boundary in ductility limit structure qualification channel, the channel include a part in the gap, and wherein the channel includes sealing
Material, and further, wherein at least one of the sealing material and stream limiting structure include elongated disassembly auxiliary device,
This method comprises:
Catch the elongated disassembly auxiliary device;
The elongated disassembly auxiliary device is removed from the protrusion panel assembly;And
During the removal, extended between the first edge and second edge with elongated disassembly auxiliary device separation
The sealing material by segregated portion.
E2.According to the method that paragraph E1 is somebody's turn to do, wherein the sealing material is included in the first edge and the by segregated portion
At least the 50% of the sealing material extended between two edges is optionally included between the first edge and second edge and prolongs
At least 60%, at least 70%, at least 80%, at least 90%, at least 99% or the 100% of the sealing material stretched.
E3.According to the method that any one of paragraph E1-E2 is somebody's turn to do, wherein the removal includes being somebody's turn to do from stream limiting structure separation
Elongated disassembly auxiliary device, and optionally, which includes by the elongated auxiliary device of dismantling from the outer of the stream limiting structure
It is separated at least one of interior zone of portion surface and stream limiting structure.
E4.According to the method that paragraph E3 is somebody's turn to do, wherein the separation includes cutting at least part of the stream limiting structure
At least one of piece, cutting, separation, tearing and division.
E5.According to the method that any one of paragraph E1-E4 is somebody's turn to do, wherein this method further comprises from the crowning board group
Component removes the panel that is removed, wherein the removed panel include in the first raised panel and the second raised panel extremely
It is one few.
E6.According to the method that paragraph E5 is somebody's turn to do, wherein this method further comprises replacing the panel being removed with replacement panel.
E7.According to the method that paragraph E6 is somebody's turn to do, wherein replacement replacement includes being somebody's turn to do by using any one of paragraph B1-B8
The removed panel of external member replacement.
E8.According to the method that paragraph E6 is somebody's turn to do, wherein replacement replacement includes by using any one of paragraph D1-D20
The removed panel of this method replacement.
E9.According to the method that any one of paragraph E1-E8 is somebody's turn to do, wherein the stream limiting structure includes according to paragraph A1-A32
Any one of the stream limiting structure that is somebody's turn to do.
E10.According to the method that any one of paragraph E1-E9 is somebody's turn to do, wherein the protrusion panel assembly includes paragraph C1-
The raised panel assembly that any one of C41 is somebody's turn to do.
F1.The stream limiting structure being somebody's turn to do according to any one of paragraph A1-A32, is somebody's turn to do according to any one of paragraph B1-B8
External member, or be somebody's turn to do according to any one of paragraph C1-C41 protrusion panel assembly and by any one of paragraph D1-E10
Method use.
F2.According to the stream any one of paragraph D1-E10 the method being somebody's turn to do and be somebody's turn to do according to any one of paragraph A1-A32
Limiting structure, according to the external member that any one of paragraph B1-B8 is somebody's turn to do, or the crowning being somebody's turn to do according to any one of paragraph C1-C41
Board group component.
F3.During the construction of raised panel assembly, limitation and the optionally ductility limit of the flowing of backup seal material
The use of structure processed.
F4.In raised panel from during the removal of raised panel assembly, there is the stream for the disassembly auxiliary device for being included
The use of limiting structure.
F5.During the construction of raised panel assembly, control stream limiting structure is pumped between adjacent protrusion panel
The use of the application tool of depth in gap.
Industry utilizability
System and method disclosed herein are suitable for aircraft industry, and can be using other rows of raised panel assembly
Industry.
It is believed that above-mentioned disclosure includes multiple and different embodiments with independent utility.Although in these embodiments
Each disclose in its preferred form, still, specific example and be disclosed herein and show be not to be regarded as have limitation
Meaning, many variants are possible.The theme of described embodiment includes disclosed herein various and other features, function
And/or all novel and non-obvious combination and the sub-portfolios of attribute.Equally, " one " or " first " element is described in claim
Or when its equivalent, this kind of claim is understood to include the combination of this one or more class component, neither requires
It is not excluded for this two or more class component.
It is believed that appended claims particularly point out the one or more the disclosed embodiments of direction and be it is novel and
Non- apparent specific combination and its sub-portfolio.This feature, function, other combinations of element and/or attribute and sub-portfolio can be with
It is required by the modification of the claim of the disclosure or by the new claims state of the application or related application.It is this to repair
Change or new claim, whether is it different or identical embodiment is directed toward, whether is it being with original claim
It is no identical, it is more wider than the range of original claim, narrower or equivalent, think in the subject area of the disclosure.
Claims (15)
1. a kind of method of structural salient panel assembly, which comprises
The raised panel (15) of arrangement first and the second raised panel (16), in the first edge of the described first raised panel (15)
Gap (18) are generated between the second edge of the described second raised panel (16);
Stream limiting structure (50) is placed in the raised panel assembly, to form the boundary of channel (20), the channel
(20) it is configured and receives sealing material (26), wherein the channel (20) include a part of the gap (18), wherein described
Flowing limiting structure (50) includes flexible elongate body (54), and the flexible elongate body limits the longitudinal axis (51), central part (66)
And two protruding portions (60) extended from the opposing side regions of the central part, wherein the central part and described two
A protruding portion extends along the longitudinal axis of the flexible elongate body;
While placing stream limiting structure (50), elongated disassembly auxiliary device (80) is placed on the gap (18)
It is interior, wherein elongated disassembly auxiliary device (80) forms a part of stream limiting structure (50) and along the ductility limit system
The longitudinal axis of structure (50) extends, and the shear strength of elongated disassembly auxiliary device (80) is greater than the resilient elongate
The shear strength of main body (54);And
Apply the sealing material (26) to the channel (20), wherein the ductility limit structure (50) limits the sealing material
(26) stream is passed through from the stream limiting structure (50), wherein the sealing material (26) is formed and the described first raised panel
(15) and the bonding of the second raised panel (16), and wherein it is described be applied to the placement after execute.
2. according to the method described in claim 1, wherein the elongated disassembly auxiliary device (80) forms the stream limiting structure
(50) a part, and the wherein placement elongated disassembly auxiliary device (80) and the placement stream limiting structure
(50) parallel to execute.
3. according to the method described in claim 1, wherein described place the elongated disassembly auxiliary device (80) in the placement
It is executed after the stream limiting structure (50).
4. according to the method described in claim 1, wherein the method includes placing the stream limiting structure (50) and do not having
Have and individual carrying material is adhered to the gap (18) opposite with the side in the gap (18) for executing the application
In the case where the other side, apply the sealing material (26).
5. according to the method described in claim 1, wherein described apply includes the sealing applied as liquid sealing material
Material (26), and wherein the method includes solidifying the sealing material to form solid sealing material.
6. according to the method described in claim 1, wherein it is described placement include will be as the stream limiting structure (50) of solid
It is placed in the raised panel assembly.
7. according to the method described in claim 1, wherein it is described placement include the stream limiting structure (50) is compressed in described in
Between first edge and the second edge.
8. according to the method described in claim 1, wherein described place includes making the stream limiting structure (50) and described first
Edge and the second edge directly contact.
9. according to the method described in claim 1, wherein the application is included in the sealing material (26) and the ductility limit system
Bonding is formed between structure (50).
10. according to the method described in claim 1, wherein described place the stream limiting structure (50) including adjusting the ductility limit
Depth of the structure (50) processed in the gap (18), with the sealing material (26), the first raised panel (15) and
Contact area is provided between described second raised panel (16), which is enough to provide desired bond strength therebetween.
11. according to the method described in claim 1, wherein the placement stream limiting structure (50) includes by using application
Stream limiting structure (50) is placed into the desired depth in the gap (18) by tool (110).
12. according to the method for claim 11, wherein the method further includes by by the application tool
(110) convex region (112) is located in the sunk area limited by stream limiting structure (50), and is applied relative to described
Add stream limiting structure (50) described in tool orientation.
13. a kind of stream limiting structure (50) is configured the stream of limitation sealing material (26) between adjacent raised panel
Gap (18) outflow, the stream limiting structure (50) include:
Flexible elongate body (54), wherein the flexible elongate body limits:
(i) longitudinal axis (51);
(ii) central part (66);And
(iii) from the opposing side regions of the central part extend two protruding portions (60), wherein the central part and
Described two protruding portions extend along the longitudinal axis of the flexible elongate body;And
Elongated disassembly auxiliary device (80) forms a part of stream limiting structure (50) and along the stream limiting structure
(50) the longitudinal axis extends, wherein the shear strength of elongated disassembly auxiliary device (80) is greater than the flexible elongate body
Shear strength.
14. stream limiting structure (50) according to claim 13, wherein the flexible elongate body (54) is to limit substantially
The monolithic elastic elongate body of constant cross-sectional shape.
15. stream limiting structure (50) according to claim 13, wherein described two protruding portions (60) are from the central part
(66) are divided to extend to limit the sunk area between described two protruding portions (60).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US13/930,442 US8959872B2 (en) | 2012-01-13 | 2013-06-28 | Systems, methods, and components for the construction and disassembly of raised panel assemblies |
US13/930,442 | 2013-06-28 |
Publications (2)
Publication Number | Publication Date |
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CN104251251A CN104251251A (en) | 2014-12-31 |
CN104251251B true CN104251251B (en) | 2019-05-21 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201410301415.2A Active CN104251251B (en) | 2013-06-28 | 2014-06-27 | For the construction of raised panel assembly and system, method and the component of disassembly |
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Country | Link |
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JP (1) | JP6512747B2 (en) |
CN (1) | CN104251251B (en) |
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JP2015042834A (en) | 2015-03-05 |
JP6512747B2 (en) | 2019-05-15 |
CN104251251A (en) | 2014-12-31 |
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