CN117513858A - String-support integrated inflatable airbag awning system capable of being unfolded in translation mode - Google Patents

Abstract

The invention discloses a string-support integrated inflatable airbag awning system capable of being horizontally unfolded, which comprises an arc-shaped airbag, a plurality of groups of airbag supporting components, a plurality of flexible cables, a plurality of soft supports and foldable components, wherein the groups of airbag supporting components are equidistantly distributed at the bottom of the arc-shaped airbag and are communicated with the arc-shaped airbag to form an integrated inflatable airbag structure, the plurality of flexible cables are respectively arranged at the bottom of the airbag supporting components and form a string-stretching structure with the integrated inflatable airbag structure in an inflated state, the soft supports are respectively distributed along the arrangement section of each group of airbag supporting components and are arranged on the upper surface of the arc-shaped airbag, the foldable components are symmetrically arranged at two sides of the integrated inflatable airbag structure, and the foldable components can be folded along the height direction of the awning between two adjacent soft supports. The scheme is characterized in that the arc-shaped air bags and the air supports are connected into a whole, the construction in the inflation process is convenient, the string stretching system is adopted, the air bags can be horizontally unfolded, the working state of the awning system can be conveniently adjusted according to weather and construction progress, and the functions are flexible.

Description

String-support integrated inflatable airbag awning system capable of being unfolded in translation mode

Technical Field

The invention relates to the technical field of constructional engineering, in particular to a string-support integrated inflatable airbag backdrop system capable of being unfolded in a translational mode.

Background

The awning system for the building engineering is often applied to construction scenes of open-air operation such as foundation pit engineering, earthwork and the like. The awning system has the functions of ensuring safety, wind prevention and rain prevention by erecting protective facilities above a construction working surface, and can ensure the construction progress and the engineering quality while ensuring the safety of workers. Meanwhile, in some cases, particularly in urban construction, the awning system can control scattering of dust and material fragments, reduce influence of construction on surrounding environment and help reduce environmental pollution.

At present, a common awning system on a construction site mostly adopts a steel wire rope and a dense mesh net, and a containment system is formed by crossing the dense mesh net through the steel wire rope.

Because the hollow dense mesh net is adopted, the air permeability effect of the backdrop system is better, but the backdrop system also has no windproof, rainproof and construction noise isolation functions. In addition, when the span of the required covered field is large, the requirement of the backdrop system on the bearing capacity of the supports at the two ends is high due to the dead weight of the steel wire ropes and the dense mesh net, and the manufacturing cost is also increased sharply.

Therefore, there is an urgent need to provide a light-weight awning system for construction engineering, which has the functions of ventilation, wind prevention, rain prevention, noise prevention and dust prevention, and is a problem to be solved in the field.

Disclosure of Invention

Aiming at the technical defects of the prior awning system, the invention aims to provide a string-support integrated inflatable airbag awning system capable of being unfolded in a translational mode, which is an air-permeable, windproof, rainproof, noise-proof and dustproof awning system for light building engineering, and effectively solves the problems in the prior art.

In order to achieve the above purpose, the invention provides a chord-support integrated inflatable airbag awning system capable of being unfolded in a translation mode, which comprises an arc-shaped airbag, a plurality of groups of airbag supporting components and a plurality of flexible cables, wherein the groups of airbag supporting components are equidistantly distributed at the bottom of the arc-shaped airbag and are communicated with the arc-shaped airbag to form an integrated inflatable airbag structure, the plurality of flexible cables are respectively arranged at the bottom of the airbag supporting components and form a chord-opening structure with the integrated inflatable airbag structure in an inflatable state, the foldable components are symmetrically arranged at two sides of the integrated inflatable airbag structure, and the foldable components can drive the integrated inflatable airbag to fold along the height direction of the awning.

Further, the plurality of groups of gas support assemblies respectively comprise a plurality of gas supports, and are equidistantly arranged at the bottom of the arc-shaped air bag along the same axis of the arc-shaped air bag.

Further, the plurality of air supports are the longest in middle length, and the lengths of the two ends of the air supports are gradually and progressively reduced and symmetrically distributed at the bottom of the arc-shaped air bag.

Further, soft supports are arranged at the tops of the arc-shaped air bags corresponding to the air supporting assemblies, two ends of each soft support are respectively connected with the foldable assemblies, and elastic supports are formed on the inflated arc-shaped air bags.

Further, the foldable component is arranged on two sides of the arc-shaped air bag and is formed by arranging a plurality of folding rods through a hinge structure, one ends of two folding rods, which are far away from each other, are connected with one ends of adjacent folding rods through the hinge structure to form a first folding point, the adjacent first folding point can move in opposite directions, one ends of two folding rods, which are close to each other, are connected through a binding structure to form a second folding point, and when the second folding point moves in opposite directions, the second folding point is far away from the first folding point to rise.

Further, the first folding point of the foldable component is matched with a storage traction rope, the storage traction rope can drive the adjacent first folding point in the foldable component to move oppositely for folding, the arc-shaped air bag after air leakage is folded,

further, the first folding point of the foldable assembly is matched with the storage guide rope, the storage guide rope is arranged at the bottom of the arc-shaped air bag, two ends of the storage guide rope are connected with the second folding point of the foldable assembly, and when the foldable assembly is folded, the storage guide rope is lifted along the direction that the second folding point is far away from the first folding point, so that the arc-shaped air bag after air leakage is lifted.

The string support integrated inflatable airbag awning system capable of being horizontally unfolded, provided by the invention, has the advantages that the arc-shaped airbags and the air supports are connected into a whole, the inflation process is the unfolding construction process, the construction is convenient, meanwhile, the system does not need to be inflated all the time, and the system can be circularly applied to engineering sites with similar spans;

and secondly, the invention adopts a string system, takes the inflatable air bag as a pressed component, has large cross-domain span, can be horizontally unfolded, is convenient for adjusting the working state of the awning system according to weather and construction progress, and has flexible functions.

Meanwhile, the inflatable airbag technology is adopted, and the system is small in size when not deployed, easy to transport and store, quick to put into use, time-saving and capable of guaranteeing the construction period.

In addition, compared with the conventional awning system with steel wire ropes and dense meshes, the inflatable air bag is used as an enclosure structure, has a certain thickness, can effectively prevent wind, rain, noise and dust, and can further reduce the influence of construction on the surrounding environment.

Drawings

The invention is further described below with reference to the drawings and the detailed description.

FIG. 1 is a side elevational view of the construction of an integrated inflatable airbag backdrop system of the present invention;

FIG. 2 is an exploded view of the construction of the integrated inflatable airbag backdrop system of the present invention;

FIG. 3 is a schematic view of the structure of the integrated inflatable airbag curtain system of the present invention in a folded state;

FIG. 4 is a block diagram of an integrated inflatable airbag curtain system of the present invention with a receiving pull cord;

FIG. 5 is a block diagram of an integrated inflatable airbag curtain system of the present invention with two receiving pull cords;

FIG. 6 is a schematic view of an assembled structure of the integrated inflatable airbag curtain system of the present invention in use;

FIG. 7 is a front elevational view of the integrated inflatable airbag curtain system of the present invention in an operative configuration;

FIG. 8 is a side view of the structure of the integrated inflatable airbag backdrop system of the present invention in an operational configuration;

FIG. 9 is a front elevational view of a first folding process of the integrated inflatable airbag curtain system of the present invention;

FIG. 10 is a side elevational view of a first folding process of the integrated inflatable airbag curtain system of the present invention;

FIG. 11 is a front elevational view of a second folding process of the integrated inflatable airbag curtain system of the present invention;

FIG. 12 is a side view of a second folding process of the integrated inflatable airbag curtain system of the present invention.

The following is a description of the components in the drawings:

1. the inflatable airbag 11, the arc-shaped airbag 12, the gas stay 2, the flexible cable 3, the foldable assembly 31, the first folding point 32, the second folding point 4, the storage guide cable 5, the soft support 6, the storage traction cable 61, the first end 62, the second end 63, the first end 64 and the second end.

Detailed Description

The invention is further described with reference to the following detailed drawings in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the implementation of the invention easy to understand.

Aiming at the technical defects of the prior awning system, the invention provides a string-support integrated inflatable airbag awning system capable of being unfolded in a translational mode, which is a light-weight awning system for building engineering with ventilation, wind prevention, rain prevention, noise prevention and dust prevention, and effectively solves the problems existing in the prior art.

The scheme provides a string-support integrated inflatable airbag awning system capable of being unfolded in a translation mode, which is shown in fig. 1-2, and comprises an inflatable airbag 1, a flexible rope 2, a foldable assembly 3, a storage guide rope 4, a soft support 5 and a storage traction rope 6.

The inflatable airbag 1 comprises an arc-shaped airbag 11, a plurality of groups of gas supporting components and a plurality of flexible cables 2; wherein, a plurality of groups of gas prop the subassembly equidistance and distribute in arc gasbag 11 bottom and arc gasbag 11 formation integral type and aerify the gasbag structure, a plurality of flexible rope set up in every group gas prop the subassembly below, to the arc gasbag 11 internal inflation reach after certain numerical value, integral type is aerifyd gasbag 1 and flexible rope 2 and can be formed string structure, has certain bearing capacity.

Specifically, a plurality of groups of gas support components are equidistantly distributed at the bottom of the arc-shaped air bag 11, wherein each group of gas support components comprises a plurality of gas supports 12, and the gas supports are equidistantly arranged at the bottom of the arc-shaped air bag 11 along the same axis of the arc-shaped air bag 11.

The middle length of each group of a plurality of air supports is the longest, and the lengths of the two ends of each group of the air supports are gradually decreased and symmetrically distributed, so that the air supports can be completely unfolded and matched with the flexible rope arranged at the bottom of the air supports to form a string-stretching structure with bearing capacity when the air supports are inflated.

The air supporting components of a plurality of groups are arranged at the bottom of the arc-shaped air bag 11 and are communicated with the arc-shaped air bag 11 to form the integrated inflatable air bag 1, when the arc-shaped air bag 11 is inflated, the arc-shaped air bag 11 and the air supporting 12 are expanded synchronously, the inflation process is the deployment construction process, the construction is convenient, and meanwhile, the system does not need to be inflated all the time and can be circularly applied to engineering sites with similar spans.

The two ends of the flexible rope 2 are fixed with the two sides of the arc-shaped air bag 11, the middle is connected with the lower part of the air support 12, and the flexible rope can dynamically change along with the inflation state of the integrated inflatable air bag 1.

When the integrated inflatable airbag 1 is inflated, the arc-shaped airbag 11 can be gradually unfolded, and the flexible cables 2 connected with the two ends of the arc-shaped airbag 11 are synchronously and gradually expanded and have certain tension, so that the arc-shaped airbag 11 can be transversely supported.

When the integrated inflatable airbag 1 is inflated to a certain pressure value, the air support 12 at the bottom of the integrated inflatable airbag is gradually expanded, and a jacking force is applied to the flexible cable 2, so that the flexible cable 2 forms an arc-shaped structure and forms a string-shaped structure with the integrated inflatable airbag 1 due to inconsistent lengths of the air supports 12 in each group of air support assemblies, and the integrated inflatable airbag has a certain bearing capacity.

The scheme adopts a string system, takes the inflatable airbag 1 as a compression member, has large cross-domain span, can be horizontally unfolded, is convenient for adjusting the working state of the awning system according to weather and construction progress, and has flexible functions.

In the folding direction of the integrated inflatable airbag 1, foldable assemblies 3 are respectively arranged on two sides, and the foldable assemblies 3 can be folded or unfolded along the height direction of the sky curtain and drive the integrated inflatable airbag 1 connected with the foldable assemblies to be synchronously folded or unfolded.

Specifically, the foldable component 3 is formed by arranging a plurality of folding rods through a hinge structure, one ends of two folding rods, which are far away from each other, are connected with one ends of adjacent folding rods through the hinge structure to form a first folding point 31, and the adjacent first folding points can move oppositely; meanwhile, the two ends of the two folding bars, which are close to each other, are connected by the binding structure to form a second folding point 32, and when the adjacent first folding points 31 move towards each other, the second folding point 32 is lifted away from the first folding point 31.

The foldable component 3 formed by mutually hinging the plurality of folding rods can be folded or unfolded relatively through the hinging structure, when the foldable component 3 is completely unfolded, the hinging structure is locked to form a rigid structure, the arc-shaped air bag can be supported and fixed, and when the foldable component is unlocked, the foldable component can be folded or unfolded along the height direction of the awning and drives the integral inflatable air bag 1 connected with the foldable component to be folded or unfolded synchronously.

The hinge structure and its locking structure are well known to those skilled in the art, and will not be described in detail herein.

Further, soft supports 5 are arranged along the arrangement section of each group of air supporting components, the soft supports 5 are connected with the upper surface film surface of the arc-shaped air bags 11, two ends of each soft support are respectively connected with the first folding points 31 of the foldable components 3 to form elastic supports, the arc-shaped air bags 11 can be divided into a plurality of equidistant areas, and the foldable components 3 can be folded along the height direction of the backdrop in the middle of two adjacent soft supports, so that the folding components are convenient to guide and store.

Simultaneously, soft support 5 sets up behind arc gasbag 11 upper surface, when gas prop 12 aerifys, the top of gas prop 12 applys the top force to soft support 5, forms the arc structure with soft support 5 and arc gasbag 11 looks adaptation, because soft support 5's both ends are connected with collapsible subassembly 3, collapsible subassembly 3 is fixed the setting when using, therefore soft support 5 can carry out the pulling support to arc gasbag 11 for soft support 5, gas prop 12, the string system of opening that flexible rope 2 formed passes the power route more definitely, more be convenient for bear.

It should be noted that, this scheme of fixing the soft support 5 on the arc-shaped air bag 11 is not limited, and as an example, a plurality of connection points can be equidistantly distributed on the arc-shaped air bag 11, and the soft support 5 and the arc-shaped air bag 11 are connected through a plurality of connection points, so that the connection structure is convenient and can meet the requirement of the soft support 5 on the support of the arc-shaped air bag 11.

Meanwhile, a through channel can be formed in the upper surface of the arc-shaped air bag 11 and is integrated with the arc-shaped air bag 11, the soft support 5 can directly penetrate through the through channel in the upper surface of the arc-shaped air bag 11 to be fixed, the soft support 5 can be connected with the arc-shaped air bag 11 more stably through the connecting structure, and after the soft support is inflated, the soft support 5 can be attached to the arc-shaped air bag 11 more, so that the supporting reliability is improved.

The fixing mode of the soft support 5 on the arc-shaped air bag 11 in the scheme is not limited, and the soft support 5 can be connected with the upper surface film surface of the arc-shaped air bag 11.

At a first folding point 31 on the foldable module 3, a storage traction rope 6 is arranged, which is arranged along the bottom of the foldable module 3 and is connected with the first folding point 31 on the foldable module, and the foldable module 3 can be driven to be folded rapidly by arranging the storage traction rope 6.

When the awning is in a working state, the foldable assembly 3 is in an unfolding state and is locked to form a rigid structure, and the storage traction rope 6 is in a tensioning state; when the awning needs to be contracted and folded, the storage traction ropes 6 can be closed to adjacent first folding points under the action of power, and then the foldable assembly 3 is driven to be folded.

Here, the connection structure between the storage traction rope 6 and the foldable module 3 is not limited, and as an example, referring to fig. 4, one storage traction rope 6 may be disposed on each side of the foldable module 3, and the first end 61 of the storage traction rope 6 is connected to the end of the awning, and the second end 62 passes through the first folding point 31 of the foldable module 3.

During storage, the first end 61 of the traction rope 6 is loosened and stored, and the second end 62 is pulled by manpower or additional power to drive the foldable assembly 3 to bend, so that storage is realized.

Next, referring to fig. 5, two storage traction ropes 6 may be further disposed on each side of the foldable module 3, and the first ends 63 of the two storage traction ropes 6 are fixedly connected with two ends of the awning, and the second ends 64 of the two storage traction ropes 6 pass through the first folding point 31 of the foldable module 3.

During storage, the first ends 63 of the storage traction ropes 6 are loosened, and the second ends 64 of the two storage traction ropes can be simultaneously pulled under manual or additional power pulling, so that the foldable assembly 3 is driven to bend, and storage is realized.

Further, a plurality of storage guide ropes 4 are distributed at the bottom of the arc-shaped air bag, and two ends of the storage guide ropes are respectively connected with the second folding points 32 of the foldable module 3.

When the folding assembly 3 is folded, the folding assembly rises along the direction that the second folding point 32 is far away from the first folding point 31, the arc-shaped air bag 11 covered on the storage guide rope 6 after air leakage is lifted, and then the arc-shaped air bag 11 is folded regularly in the process that the adjacent first folding point 31 moves oppositely.

The length of the folded section of each foldable module 3 should be greater than the sagittal height of the integrated inflatable airbag 1 to ensure that the receiving guide cable 4 can fully guide the folding of the integrated inflatable airbag 1.

It should be noted that, additional folding guiding operations may be performed on the integral inflatable airbag 1 at this section, such as presetting of film surface wrinkles, inflation thickness variations, etc., to ensure the reliability of the subsequent folding.

The following working procedures of the translationally-deployable chord-support integrated inflatable airbag backdrop system formed based on the structure are exemplified in the specific application:

when the foldable module 3 is in operation, referring to fig. 6-8, the foldable module 3 is unfolded and placed on the space 7 to be enclosed, then the two opposite corners of the arc-shaped air bag 11 are inflated synchronously by the first air pressure, the arc-shaped air bag 11 is unfolded slowly when inflated, the foldable module 3 is driven to be stretched and locked gradually to form a rigid structure in the unfolding process of the arc-shaped air bag 11, the arc-shaped air bag is supported transversely, and at the moment, the storage traction rope 6 is in a tensioning state and ensures that the foldable module 3 is in a stretched state.

Simultaneously, the flexible cable 2 arranged at the bottom of the air support 12 and the soft support 5 arranged on the upper surface of the arc-shaped air bag 11 are driven to expand and have certain tension in the process of expanding the arc-shaped air bag 11, so that the arc-shaped air bag 11 is supported.

Then the two opposite angles of the arc-shaped air bag 11 are inflated synchronously by the second air pressure, the second air pressure is larger than the first air pressure, after the arc-shaped air bag 11 is inflated to a certain pressure value by the second air pressure, the air support 12 at the bottom of the arc-shaped air bag 11 can be stretched gradually, the lower end of the air support is used for applying pressure to the flexible cable 2 arranged at the bottom of the air support 12, the upper end of the air support is used for applying jacking force to the flexible support 5 arranged on the upper surface of the arc-shaped air bag 11, and a string stretching structure can be formed by mutual matching, so that the whole awning system has a certain bearing capacity.

Referring to fig. 9-12, when the curtain system needs to be stored, the integrated inflatable airbag 1 is deflated, the second folding point 32 of the airbag foldable assembly 3 is guided to fold through the storage traction cable 6 and moves away from the first folding point 31, the storage guide cable 4 connected with the second folding point 32 is driven to rise, the arc-shaped airbag covered on the storage guide cable 4 after deflation is lifted, and meanwhile, the first folding point 31 on the foldable assembly 3 moves towards each other, the adjacent storage guide cables 4 are driven to gradually close, and folding storage of the arc-shaped airbag 11 is achieved.

In particular, a certain number of translationally-unfolded chord support integrated inflatable airbag awning systems can be arranged on a construction site so as to realize shielding of all or part of open-air operation construction scenes.

The string support integrated inflatable airbag awning system which is formed by the scheme and can be horizontally unfolded has the advantages that the inflatable airbag technology is adopted, the system is small in size when the inflatable airbag is not unfolded, easy to transport and store, quick to put into use, time-saving and construction period-guaranteeing.

Meanwhile, compared with a conventional awning system with steel wire ropes and dense meshes, the inflatable air bag is used as an enclosure structure, has a certain thickness, can effectively prevent wind, rain and noise and dust, and can further reduce the influence of construction on the surrounding environment.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a but string of translation expansion prop up integral type inflatable airbag sky curtain system, its characterized in that includes arc gasbag, a plurality of group gas prop the subassembly, a plurality of flexible rope, collapsible subassembly, a plurality of group gas prop the subassembly equidistance and distribute in arc gasbag bottom to form integral type inflatable airbag structure with arc gasbag intercommunication, a plurality of flexible ropes set up respectively in gas prop the subassembly bottom, form string structure with integral type inflatable airbag structure under the state of inflation, collapsible subassembly symmetry sets up in integral type inflatable airbag structure both sides, collapsible subassembly can drive integral type inflatable airbag along sky curtain direction of height and fold.

2. The translatably deployable chord-wise integrated inflatable airbag curtain system of claim 1, wherein the plurality of sets of gas strut assemblies each comprise a plurality of gas struts disposed at a bottom of the arcuate airbag equidistant along an axis of the arcuate airbag.

3. The translationally deployable chord support integrated inflatable airbag awning system of claim 2, wherein the plurality of air supports are distributed at the bottom of the arc-shaped airbag in a gradually decreasing and symmetrical manner with the longest middle length and the lengths of the two ends.

4. The string support integrated inflatable air bag awning system capable of being unfolded in a translational mode, according to claim 1, wherein soft supports are arranged at the tops of the arc-shaped air bags and correspond to the air support assemblies, two ends of each soft support are respectively connected with the foldable assemblies, and elastic supports are formed for the inflated arc-shaped air bags.

5. The curtain system of a string-supported integrated inflatable airbag capable of being unfolded in a translational mode according to claim 1, wherein the foldable assemblies are arranged on two sides of the arc-shaped airbag and are formed by a plurality of folding rods through a hinge structure, one ends of two folding rods far away from each other are connected with one ends of adjacent folding rods through the hinge structure to form a first folding point, the adjacent first folding point can move oppositely, one ends of two folding rods close to each other are connected through a connecting structure to form a second folding point, and when the adjacent first folding points move oppositely, the second folding point is far away from the first folding point and rises.

6. The horizontally-deployable chord-support integrated inflatable airbag curtain system of claim 5, wherein the first folding points of the foldable assemblies are matched with a storage traction rope, and the storage traction rope can drive adjacent first folding points in the foldable assemblies to move towards each other to fold, so that the deflated arc-shaped airbags are folded.

7. The translationally deployable chord support integrated inflatable airbag curtain system of claim 5, wherein the first folding point of the foldable module is cooperatively provided with a storage guide rope, the storage guide rope is arranged at the bottom of the arc-shaped airbag, two ends of the storage guide rope are connected with the second folding point of the foldable module, and the folding guide rope is folded

When the assembly is folded, the storage guide rope is lifted along the direction of the second folding point away from the first folding point,

and lifting the arc-shaped air bag after the air leakage.