Utility model content
The purpose of this utility model is to provide a kind of inflatable structure ontology and inflatable Building block, to improve inflation knot
The intensity of structure ontology.
The utility model first aspect provides a kind of inflatable structure ontology, including outer membrane, inner membrance, the first side form and the second side
Film, the first side form and the second side form are oppositely arranged and for connecting outer membrane and inner membrance to form arch cavity, outer membrane and inner membrance divide
It is not set to the both sides of the short transverse of arch cavity, the first side form and the second side form are respectively arranged at the width side of arch cavity
To both sides, inflatable structure ontology, which further includes, to be set in arch cavity and the lacing wire of connection outer membrane and inner membrance, lacing wire are included in
The multiple slices set on the length direction of arch cavity, partly overlap between adjacent two slices in multiple slices and arch
Being ventilated positioned at the both sides of lacing wire by the region being overlapped between two slices in the width direction of cavity.
Further, inflatable structure ontology includes at least two be arranged at intervals in the width direction of arch cavity drawings
Muscle.
Further, inflatable structure ontology further includes slice fixed structure, the short transverse positioned at arch cavity of slice
On two slice connecting portions connect by being sliced fixed structure with outer membrane and inner membrance.
Further, slice fixed structure includes intermediate junctional membrane, and intermediate junctional membrane includes the first junctional membrane section and second
Junctional membrane section, slice connecting portion include U-shaped structure, and U-shaped structure is bent to form by the connecting pin being sliced, the first junctional membrane section with it is outer
The side of the separate slice of film or inner membrance connection, the second junctional membrane section and U-shaped structure connects.
Further, the thickness of the connecting pin of slice is more than the thickness of the other positions of slice.
Further, slice includes monofilm, and connecting pin is by the end that is sliced by being bent to form at least once so that company
It connects end and includes at least two membranes.
Further, inflatable structure ontology further includes outer seal configuration, and outer seal configuration is connected on outer membrane and covers drawing
The junction of muscle and outer membrane;And/or inflatable structure ontology further includes inner seal structure, inner seal structure be connected on inner membrance and
Cover the junction of lacing wire and inner membrance.
Further, inflatable structure ontology further includes the both ends for the length direction for being respectively arranged at arch cavity to close arch
The counterdie of shape cavity and the strengthening membrane being set to below counterdie.
Further, strengthening membrane includes the strengthening membrane section being fitted and connected with counterdie, wherein, strengthening membrane, which further includes to be set to, to be added
First extended segment of the close inner membrance side of strong film section, the first end of the first extended segment are connect with strengthening membrane section, the second stretched PTFE film
The second end of section is connect with inner membrance;And/or strengthening membrane further includes the second extension of the close outer membrane side for being set to strengthening membrane section
Section, the first end of the second extended segment are connect with strengthening membrane section, and the second end of the second extended segment is used to set fixed structure with fixation
Inflatable structure ontology.
Further, inflatable structure ontology further includes pressure antioverloading system, and pressure antioverloading system monitors arch in real time
Gas pressure in cavity is simultaneously more than maximum pressure setting value alarm in gas pressure or loses heart.
Further, inflatable structure ontology further includes the trickle charge charge valve being set on outer membrane and fast charge charge valve.
Further, inflatable structure ontology further includes the structural body junctional membrane being set on outer membrane, structural body connection
Film is used to connect with adjacent inflatable structure ontology.
The utility model second aspect provides a kind of inflatable Building block, sequentially connected such as this reality including at least two
The inflatable structure ontology provided with any one of novel first aspect.
Based on inflatable structure ontology provided by the utility model and inflatable Building block, wherein, inflatable structure ontology packet
Outer membrane, inner membrance, the first side form and the second side form are included, the first side form and the second side form are oppositely arranged and for connecting outer membrane and inner membrance
To form arch cavity, outer membrane and inner membrance are respectively arranged at the both sides of the short transverse of arch cavity, the first side form and the second side
Film is respectively arranged at the both sides of the width direction of arch cavity, and inflatable structure ontology, which further includes, to be set in arch cavity and connect
The lacing wire of outer membrane and inner membrance, lacing wire are included in the multiple slices set on the length direction of arch cavity, adjacent in multiple slices
Two slice between partly overlap and in the width direction of arch cavity be located at the both sides of lacing wire passing through two be sliced between
The region ventilation of overlapping.It is supported between the outer membrane and inner membrance of the inflatable structure ontology of the utility model by lacing wire, therefore this is filled
The intensity of gas structural body is higher, and the molding of domes is easily realized in inflation.And it is formed between multiple slices of lacing wire
Partly overlap to be formed overlap joint and lacing wire both sides be configured so that ventablely slice between can ensure passing through for gas,
So as to ensure the circulation of the gas of entire arch cavity, and then ensure the equilibrium of gas pressure in entire arch cavity.
By referring to the drawings to the detailed description of the exemplary embodiment of the utility model, the utility model it is other
Feature and its advantage will become apparent.
Specific embodiment
The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out
It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole
Embodiment.It is illustrative to the description only actually of at least one exemplary embodiment below, is never used as to this practicality
Novel and its application or any restrictions used.Based on the embodiment in the utility model, those of ordinary skill in the art are not having
All other embodiments obtained under the premise of creative work are made, shall fall within the protection scope of the present invention.
Unless specifically stated otherwise, the component and positioned opposite, the digital table of step otherwise illustrated in these embodiments
Up to the unlimited the scope of the utility model processed of formula and numerical value.Simultaneously, it should be appreciated that for ease of description, each shown in attached drawing
The size of a part is not to be drawn according to practical proportionate relationship.For skill known to person of ordinary skill in the relevant
Art, method and apparatus may be not discussed in detail, but in the appropriate case, and the technology, method and apparatus should be considered as awarding
Weigh part of specification.In shown here and discussion all examples, any occurrence should be construed as merely example
Property, not as limitation.Therefore, the other examples of exemplary embodiment can have different values.It should be noted that:It is similar
Label and letter similar terms are represented in following attached drawing, therefore, once be defined in a certain Xiang Yi attached drawing, then with
In attached drawing afterwards do not need to that it is further discussed.
For ease of description, spatially relative term can be used herein, as " ... on ", " ... top ",
" ... upper surface ", " above " etc., for describing such as a device shown in the figure or feature and other devices or spy
The spatial relation of sign.It should be understood that spatially relative term is intended to comprising the orientation in addition to device described in figure
Except different direction in use or operation.For example, if the device in attached drawing is squeezed, it is described as " in other devices
It will be positioned as " under other devices or construction after the device of part or construction top " or " on other devices or construction "
Side " or " under other devices or construction ".Thus, exemplary term " ... top " can include " ... top " and
" in ... lower section " two kinds of orientation.The device can also other different modes positioning (being rotated by 90 ° or in other orientation), and
And respective explanations are made in opposite description to space used herein above.
As shown in Figures 1 to 4, the inflatable structure ontology of the utility model embodiment includes outer membrane 1, inner membrance 2, the first side form
3 and second side form 4.First side form 3 and the second side form 4 are oppositely arranged and for connecting outer membrane 1 and inner membrance 2 to form arch chamber
Body.Outer membrane 1 and inner membrance 2 are respectively arranged at the both sides of the short transverse of arch cavity, and the first side form 3 and the second side form 4 are set respectively
It is placed in the both sides of the width direction of arch cavity.Inflatable structure ontology further include be set in arch cavity and connection inner membrance 2 with
The lacing wire 12 of outer membrane 1, lacing wire 12 are included in the multiple slices 121 set on the length direction of arch cavity.In multiple slices 121
It partly overlaps between two adjacent slices and passes through two slices positioned at the both sides of lacing wire in the width direction of arch cavity
Between be overlapped region ventilation.
It is supported between the outer membrane 1 of the inflatable structure ontology of the utility model embodiment and inner membrance 2 by lacing wire, therefore this is filled
The intensity of gas structural body is higher, and the molding of domes is easily realized in inflation.And it is formed between multiple slices of lacing wire
Partly overlap to be formed overlap joint and lacing wire both sides be configured so that ventablely slice between can ensure passing through for gas,
So as to ensure the circulation of the gas of entire arch cavity, and then ensure the equilibrium of entire arch inside cavity gas pressure.
The arch cavity of the inflatable structure ontology is led to positioned at the both sides of lacing wire by the region being overlapped between two slices
Gas, without setting venthole on slice, therefore the intensity of the slice of the utility model embodiment is higher, entire lacing wire it is strong
Degree is also higher and then improves the intensity of inflatable structure ontology.Further, partly overlap between adjacent slice so that outer membrane with
Lacing wire between the part corresponding to above-mentioned overlapping region of inner membrance is equivalent to the intensity for two layers of slice, improving lacing wire.It is comprehensive
Above it is found that the inflatable structure ontology of the utility model embodiment can ensure in arch cavity on the basis of gas pressure equilibrium
It also ensures the intensity of lacing wire and then ensures the intensity of inflatable structure ontology.
It should be noted that about the setting that partly overlaps between adjacent two slice of the present embodiment, two slices can
To be not connected to completely, only it is hooked together;Two slices can also connect, as long as ensureing in the width direction of arch cavity
It can mutually ventilate positioned at the space of lacing wire both sides.
Since the width for the inflatable structure ontology for forming relatively large inflatable Building block is larger, in order to ensure inflatable structure
Ontology is respectively provided with higher intensity in entire width direction, as shown in figure 3, the inflatable structure ontology of the present embodiment includes interval
At least two lacing wires being set in the width direction of arch cavity.
Preferably, as shown in figure 4, the slice of the present embodiment is trapezoidal.Trapezoidal upper bottom edge is connect with outer membrane 1, trapezoidal
Bottom is connect with inner membrance 2.
Preferably, the inflatable structure ontology of the present embodiment further includes slice fixed structure.Slice is located at arch cavity
Two slice connecting portions in short transverse are connect by being sliced fixed structure with outer membrane 1 and inner membrance 2.
Fig. 5 shows to be sliced the structure diagram being connect by being sliced fixed structure with outer membrane 1 and inner membrance 2.Slice and outer membrane
Between and slice inner membrance between connection mode it is essentially identical.The connection mode between slice and outer membrane is carried out below
Illustrate, slice is identical with the connection mode between inner membrance.
As shown in figure 5, slice fixed structure includes intermediate junctional membrane 14.Connecting portion is sliced to include by the end of slice 121
The U-shaped structure being bent to form.Intermediate junctional membrane 14 connect with outer membrane 1 and is connect with the side of the separate slice 121 of U-shaped structure.
The present embodiment realizes the connection of outer membrane and slice by setting intermediate junctional membrane on the inner surface of outer membrane, it is possible to prevente effectively from
The problem of outer film-strength is caused to be lower due to outer membrane is directly attached with slice.
As shown in figure 5, intermediate junctional membrane 14 include the first junctional membrane section being arranged substantially in parallel with outer membrane 1 and with U-shaped knot
The second junctional membrane section that the side of structure is arranged substantially in parallel, the first junctional membrane section are connect with outer membrane, the second junctional membrane section and U-shaped knot
The side connection of structure.It is arranged so that the different piece of intermediate junctional membrane 14 is attached respectively with outer membrane and slice, mutually
Between it is unaffected.In actual production, can first by the first junctional membrane section of intermediate junctional membrane and outer membrane be attached with
Outer membrane forms integral structure, then again bends downward the second junctional membrane section of intermediate junctional membrane and then is connected with slice, therefore
It is convenient to promote and apply in practice.
Above-mentioned slice connecting portion is bent to form by the connecting pin being sliced.And being sliced connecting portion needs and intermediate junctional membrane
Connection, therefore be sliced connecting portion and need to bear drawing force, for slice connecting portion thinning and then intensity when the tension is avoided to be lower, this
The thickness of the connecting pin of the slice of embodiment is more than the thickness of the other positions of slice.
Specifically, the connecting pin of the slice of the present embodiment is by being bent to form at least once by the end being sliced.
For example, when slice is monofilm, its end can form the connecting pin with two membranes by once bending at this time,
The thickness of so U-shaped structure of slice connecting portion is the thickness of two membranes.
The end of slice can certainly be carried out repeatedly being bent to form more slab connecting portion.
It, can also be when preparing slice in an optional embodiment, directly in the end of slice, connection multilayer film makes
The thickness increase of the connecting pin of slice.
Preferably, it in the arch inflatable structure ontology for preparing the present embodiment, needs to carry out intermediate junctional membrane and outer membrane
Hot melting process and sewing technology are attached, and intermediate junctional membrane are made to be fused completely with outer membrane in reflow process to prevent, in
Between between junctional membrane and outer membrane set antiadhesion barrier 13.
It, can be there are pin hole, to prevent pin hole from losing heart to filling on outer membrane when being sewed due to outer membrane 1 with intermediate junctional membrane 14
The leakproofness of gas structural body has an impact, and the inflatable structure ontology of the present embodiment further includes outer seal configuration, outer seal configuration
It is connected on outer membrane 1 and covers the junction of intermediate junctional membrane 14 and outer membrane 1.
Specifically, the outer seal configuration of the present embodiment is the diaphragm seal 11 being connected on outer membrane 1.Diaphragm seal 11 passes through hot melt
Technique is fixed on outer membrane 1, can effectively seal the stomata after sewing.
Similarly, inflatable structure ontology further includes inner seal structure, and inner seal structure is connected on inner membrance and covers lacing wire
With the junction of inner membrance.
As shown in Fig. 2, fixed ribbon 9 is provided on outer membrane 1.Fixed ribbon 9 is fixed on outer using sewing with adhering process
On film 1, sandbag can be connected or ground pricker plays the role of fixation balloon.
As shown in Figure 1, inflatable structure ontology further includes the both ends for the length direction for being respectively arranged at arch cavity to close
The counterdie 5 of arch cavity.Counterdie 5 is touched with ground, to enhance the abrasionproof coefficient of counterdie 5, provides making for inflatable structure ontology
With the service life, the inflatable structure ontology of the present embodiment further includes the strengthening membrane 6 for being set to 5 lower section of counterdie.
As shown in Figure 1, strengthening membrane 6 includes the strengthening membrane section being connect with counterdie 5 and respectively from the two of the strengthening membrane section
Hold the first extended segment and the second extended segment extended.First extended segment be set to the close inner membrance side of strengthening membrane section and with it is interior
Film 2 connects.The upper end of first extended segment and the bottom end of inner membrance 2 are hooked together, similar to the skirting of interior decoration to protect
The internal edge of inflatable structure ontology.
Second extended segment is set to the close outer membrane side of strengthening membrane section and for fixed structure to be set to be tied with fixed inflation
Structure ontology.There is mounting hole to be inserted into ground pricker on second extended segment to fix or sandbag is placed directly on the second extended segment with fixation
Inflatable structure ontology.
Preferably, in order to monitor the gas pressure of inflatable structure body interior in real time, to prevent, pressure is excessive and bursts generation
Danger, the inflatable structure ontology of the present embodiment further include pressure antioverloading system, and pressure antioverloading system monitors arch chamber in real time
Internal gas pressure is simultaneously more than maximum pressure setting value alarm in gas pressure and loses heart.
Specifically, as shown in figure 5, the inflatable structure ontology of the present embodiment includes pressure valve 15.Pressure valve 15 is supervised with pressure
Control system connection is surveyed to monitor the intrinsic pressure change of inflatable structure.Pressure antioverloading system and pressure monitoring control system
It is coupled and is made a response with the pressure change that is monitored according to pressure monitoring control system.When pressure monitoring control system monitors
When the gas pressure arrived is more than maximum pressure setting value, pressure antioverloading system sends out alarm signal and loses heart.Specifically in this reality
It applies in example, the ranging from 1.5-20KPa of the service pressure of inflatable structure ontology, therefore, in the gas of the inflatable structure ontology
When body pressure is more than 20KPa, pressure antioverloading system will send out alarm signal and lose heart.
Preferably, as shown in Fig. 2, the inflatable structure ontology of the present embodiment further includes the trickle charge inflation being set on outer membrane 1
Valve 7 and fast charge charge valve 8.In actual use, it can select according to actual needs using different charge valves to inflatable structure
Ontology is inflated.
In the present embodiment, the first side form 3 and the second side form 4 are made of multiple side form cut-parts, are adopted between side form cut-parts
It is fixed together with high temperature hot melting process.Specifically, as shown in Figure 1, the second side form 4 is by being located at two end sides of end
Film cut-parts 41 and multiple middle part side form cut-parts 42 positioned at middle part form.The structure of first side form 3 is the same as the structure base of the second side form 4
This is identical.
The present embodiment also provides a kind of inflatable Building block.The inflatable Building block includes being arranged in order the more of setting
A inflatable structure ontology.
In order to connect the adjacent inflatable structure ontology of above-mentioned multiple inflatable structure ontologies, as shown in Fig. 2, inflatable structure sheet
Body further includes the structural body junctional membrane 10 being set on outer membrane 1.Structural body junctional membrane 10 is used for and adjacent inflatable structure
Ontology connects.Structural body junctional membrane 10 is fixed on using high temperature hot melting process on outer membrane 1.Structural body junctional membrane 10 with it is adjacent
Inflatable structure ontology connection can play the role of preventing leak.
In order to make the connection between two adjacent inflatable structure ontologies even closer, the inflatable structure ontology of the present embodiment
Two side forms on be equipped with structural body connection structure.As shown in Figure 1, the second side form 4 is equipped with structural body connection structure.
Structural body connection structure is included in the spaced first structure body connection structure 16 of short transverse of inflatable structure ontology
With the second structural body connection structure 17.Therefore the adjacent two inflatable structure ontology of the inflatable Building block of the present embodiment
It is not only attached by the structural body junctional membrane being set on outer membrane 1, but also the structural body by being set on side form
Connection structure is attached, and can be conducive to ensure the leakproofness and stability of the inflatable Building block.
Preferably, as shown in Figure 1, the inflatable structure ontology of the present embodiment further includes the end door connection knot being set on side form
Structure 18.End door connection structure 18 is used to connect with the end door system of inflatable Building block.End door connection structure 18 herein is made
For the shaft and supporting point of end door system, the integral strength of Building block is improved.
In order to improve the applicability of the inflatable Building block of the present embodiment, the inner membrance of the inflatable structure ontology of the present embodiment
On be additionally provided with fixed system.Fixed system is for carry lighting system, air-conditioning system, radar deception system etc..
Finally it should be noted that:Above example is only to illustrate the technical solution of the utility model rather than it is limited
System;Although the utility model is described in detail with reference to preferred embodiment, those of ordinary skill in the art should
Understand:It can still modify to specific embodiment of the present utility model or some technical characteristics are equally replaced
It changes;Without departing from the spirit of technical solutions of the utility model, should all cover in the claimed technical solution of the utility model
In range.