FR2927347A1 - "INFLATABLE STRUCTURE USING A TENDER" - Google Patents

Abstract

The inflatable structure comprises a series of inflatable arches (100), each having two opposite end sections (111) provided with two respective respective coupling devices (11) for holding two end sections (111). ) at a mutual operative distance of less than a free deployment length value of the coil (100), the two coupling devices (11) being coupled to two respective ends (201) of a tie rod (200) thereby forming the rope of an arch.

Description

The present invention relates to inflatable frames for supporting a cover fabric of a space to be protected from the weather. An inflatable frame makes it possible to easily and quickly erect a three-dimensional structure of protection against bad weather. For example, you can protect an outdoor pool. When it comes to protecting a large area, it is preferable to provide a modular frame, which can be adapted to the size of the surface to be protected. In addition, the presentation of this framework in the form of several elements facilitates transport and handling to the installation site. The frame can be provided according to two types of form.

In a first type, the material of the frame, which therefore constitutes an airbag, is manufactured according to its final form of use. It is thus possible for example to form an igloo whose canvas wall is carried by bulges inflated arches, these beads having been manufactured in the desired arcuate form. Alternatively, the tent wall can be split over its entire extent to form a self-supporting airbag. In use, a low pressure is sufficient to establish the desired shape, since this is the natural form.

In a second type, it is only sausages whose natural shape, during manufacture, is straight and will bend when pressurized. However, if one inflates such a rod in the free state, it will obviously resume its natural shape, rectilinear. To make it take an arch shape, it is necessary to maintain its two end portions at a mutual distance less than the deployment length of the coil. To do this, these two end sections are fixed to the ground at the desired reduced distance and the flange is inflated under high pressure. From a certain level of inflation, the coil acts as a beam that flames, that is to say that its intermediate portion tends to leave the alignment between the two end sections. As the ground blocks all such exhaust down, and the canvas hinders any lateral exhaust, the intermediate part has a tendency to escape upwards, and 1 () therefore to mount the tent. When a certain level of pressure is reached, the entire wall of the coil is stretched to the maximum, so that it becomes almost indeformable and thus constitutes a support arch. It is therefore sufficient to provide several such poles at a regular distance to form the framework of a protective tunnel of desired length. If we take again the example of such a tunnel, with arches each going from one edge to the other, it is therefore necessary first to push two parallel rows of stakes 20 in the ground, on each edge, to block the flanges against any excessive extension in the transverse direction of the tunnel. However, for example in the case of a pool, the paved edge thereof prohibits picketing. One could think of having heavy masses 25 opposite each end section of the flange, but this would represent a heavy handling constraint, with a loss of time.The present invention aims to propose a solution allowing a rapid assembly of a For this purpose, the invention relates first of all to an inflatable structure comprising at least one inflatable bead having two opposite end sections provided with two respective coupling means with two respective holding devices for the two sections of end at a mutual functional distance less than a value of free length of the coil, characterized in that the two coupling means are arranged to couple with two respective end sections of an internal tie rod constituting said devices The internal tie rod, by virtue of its resistance to elongation of the bead, bends it by a One interesting point to note is that there is no need for a ground anchor, ie each end section serves as a "floating" anchor to the boom section. opposite end. Because of the equality of the two opposing anchoring forces at both ends of the inner tie rod, the "floating" anchor above is in fact a fixed anchor. The inflatable bead, natural shape usually rectilinear, free of any specific final shape memory, will thus take the arched form that is aimed.

Preferably, the coupling of at least one of the two coupling means is of removable type. It is thus possible, after inflation, tidy the pulling, that is to say rolling it on itself if it is flexible, or rotate a quarter turn if it is a rod, providing the type of coupling wanted, to store long in the structure, and thus prevent it constitutes an obstacle for passersby. One of the coupling means advantageously comprises a ratchet device for winding a tension strap of the internal tie rod.

Each of the coupling means may further be associated with fastening elements of an end of an external tie rod, anchoring to the ground. In this case, the fixing elements can be confused with the associated coupling means, thus allowing, after assembly of the structure, to modify the direction of extension, internal, of the tie rod to use it as external tie rod after cut to the desired length or have it separated from the detachable coupling means. In one embodiment, the two coupling means further include two respective, functional distance retaining hooks, provided for hooking onto a poolside wall or the like.

The hooks may be provided with a respective suction cup, fixing to said wall. The fangs may also be provided to constitute in themselves said means for coupling to a tie rod. The at least one bead is preferably located at a slice edge of the structure and is housed in a sheath integral with a cover element serving as a wall carried by the structure, the sheath having at least one window lateral access to the coil to pass a connection link to an associated coil located at a edge of another slice structure similar to couple. In such a case, the connection link is, advantageously, a link making it possible to couple the two associated strands by a predetermined distance, in that the connection link has a fixed functional length, that is to say is predetermined functional length or provides a setting indication for setting it to the predetermined length. To close a tunnel or equivalent based on such inflatable structures, the flange is preferably associated with a strip of flexible material, provided with eyelets for receiving mounting links of an apse cloth. For raintightness, the strand is preferably provided to be covered by a lateral edge zone of a transverse band of flexible flexible material, the edge region having a hem housing a cable of elastic material, on at least a section, of which two opposite end sections are provided to be fixed substantially at the two respective end sections of the flange, in order to draw said edge zone towards a virtual line of rope connecting the two end sections of the flange. black pudding. To be able to inflate from any lateral side, it can be provided that each end section of the flange is provided with a valve.

To facilitate the erection, it can be provided aue each of the two coupling means is arranged so that the inflation allows to recall the associated end section of the flange in a direction inclined relative to a virtual rope connecting the two sections of end of the pudding. The coupling means will thus allow to initially orient the end sections of the flange in a rising direction relative to the ground, which will therefore create a beginning of buckling at this level, thus facilitating the buckling of the central portion of the flange. during the final inflation phase.

The invention also relates to a modular assembly of a plurality of at least two juxtaposed structures according to the invention, comprising two lateral beams provided for each connect the homologous end sections of the flanges of two such juxtaposed structures. The invention will be better understood with the aid of the following description of an embodiment of an inflatable structure according to the invention, with reference to the appended drawing, in which: FIG. 1 is a vertical front view of the inflatable structure erected, Figure 2 is a plan view of the inflatable structure, - Figure 3 is a side view of the above inflatable structure, coupled to the front of another same inflatable structure to form a tunnel - Figure 4 is a very schematic representation of an attachment piece of an inflatable bead of the structure, and Figure 5 shows an access window to the flange. The inflatable structure shown in FIGS. 1 (in duplicate), 2 and 3 is intended to form a shelter of the tunnel type having a certain extension direction along a longitudinal axis 190, with a framework of rolled bars, generally designated by the reference 100, arranged at regular distances in vertical transverse planes, to support a cover fabric 9, here coupled to the strands 100. To reach a desired length, several such structures are placed end to end, and couple in a sealed manner, according to Figure 2. In this presentation, the inflatable structure is assumed to rest on a horizontal floor, that is to say that the longitudinal axis 190 is horizontal. It is therefore the horizontal ground and the longitudinal axis 190 that serve as orientation references for exposing the position and orientation of the various elements. It is easy to imagine that the present exposition would remain valid, with the desired transposition, if the inflatable structure rested on an inclined ground. The inflatable structure here comprises five inflatable tubes 100, longitudinally spaced longitudinally along the longitudinal axis 190, and intended to extend in a transverse vertical plane specific to each, starting from a front edge edge zone of the inflatable structure, where is a first coil 101, to a rear edge edge zone where there is a fifth coil 105, provided to be coupled to a first flange 101B of another such inflatable structure, juxtaposed. Second, third and fourth strands are respectively referenced 102, 103, 104. Because, in this example, it is a question of setting up a tunnel, the strands 100 are of the same length, their diameters not necessarily being identical, however. . Each flange 100 comprises two opposite end sections 111, 111A provided with two respective ends 1, 1A having respective respective end coupling elements 11, 11 201, 201A of an inner tie rod 200 extending horizontally in the transverse plane provided for the flange 100 considered, along a virtual cord 130. The tie rod 200 is here a strap for holding the two end portions 111, 111A at a mutual functional distance less than a value of free deployment length of boudin 100, that is to say that, during inflation, the flange 100 is transformed into a beam which, prevented from taking its natural rectilinear shape along its length of extension, will flare to reach this length of extension. The buckling will take place upwards and substantially vertically since the ground prohibits any expansion downward and the fabric 9 limits the tilting forward or backward. The coupling of at least one of the two coupling elements 11 is here of removable type, that is to say that, after inflation of the rods 100, decoupling one of the ends 201, 201A of certain straps 200, to store the strap 200 near the other coupling element 11 or even completely disassemble if the two couplings are removable. To adjust the length of the strap 200 to a desired length, that is to say in a range less than the natural length of the strands 100 and however greater than a minimum value for which the strands 100 would take an angular shape, unfit for provide the desired support force to the fabric 9, one of the coupling elements 11, or both to be able to act from any side, comprises a ratchet device 12C for winding a strap 220 of tension of the internal tie rod 200. The strap 220 may be a separate member of the strap 200, with mutual engagement, or it may be an end portion of the strap 200. Each of the coupling members 11 is further associated with a respective member 12, for example a crocodile or a ratchet reel, attaching an end of an outer tie rod 300, anchoring to the ground. The set of outer tie rods 300 of the structure is in the form of four straps or horizontal ropes that allow to separate the structure by its four corners, each outer end of rope being anchored to the ground by a peg or equivalent. Note that the two internal tie rods 200 of the first and fifth rolls 101 and 105 respectively front and rear edge, constitute an intermediate link between the pair of external tie rods 300 considered. In this way, the end sections 111 and 111A are blocked. against any transverse movement in spacing or mutual approximation, and the two pairs of external tie rods 300 of the front and rear edges have traction directions having a component respectively forward and backward, so that the fabric 9, coupled at least to the two edge beads 101 and 105, is stretched along the longitudinal axis 190. Each fastening element 12 may optionally be merged with the associated coupling element 11, thus allowing, after assembly of the structure, to modify the direction of extension, transverse and towards the axis 190, of the force exerted by the internal strap 200, to use the strap 200 as a pulling ext ern 300 after cut to desired length or have separated from that with the coupling elements 11 which has a removable type. In this example, the two coupling elements 11 further comprise two respective fangles 15, retaining the functional distance, provided to hook on a poolside wall or equivalent. The retaining hooks 15 may also constitute in themselves a said coupling element 11, the strap 200 hanging thereon. Functionally, the strap 200, forming internal pulling, can even be replaced by the two opposing hooks 15 cooperating with the pool, which thus serves as internal tie rod. The retaining hooks 15, including a free end functional portion 2927347 thus going downward to reach a vertical support zone located in a lower position of "lip", are here mounted by means of a strap 17, or chain of links, provided with a length adjustment device, for example with a reel provided with a pawl. The holding hooks 15 are here provided with a respective suction cup 16 for attachment to the wall above. The suction cup 16 may be mounted on the functional end of the holding hook 15, which is supported on the above vertical bearing area, or mounted on a base portion of the holding hook 15, for fix on the horizontal edge of the coping. This makes it possible to maintain in the coupling position the holding hooks 15 during inflation because, in the initial phase, the roll 100 has no transverse force, with respect to the longitudinal axis 190, which could press the ends of the hooks 15 against the coupling area of the associated pool wall, to keep them in the desired position. In the absence of such suction cups 16, it may be provided that a base portion of the retention hooks 15, has an enlargement in the direction of the longitudinal axis 190, to have a good initial stability against any inadvertent tilting about a substantially horizontal and transverse axis, which would cause a rise in the end of the hook 15. Each hook 15 can thus have, for example, a substantially triangular profile or T-shaped bottom view, (the hook 15 being assumed to be flat-straightened, for the present explanation), thus with a longitudinally extending base part, connected to the respective end piece 1, 1A, resting on the horizontal return of the pool coping, and a "plunging" point in the pool to reach the coupling area. With reference to FIGS. 3 and 5, it will be seen that, as indicated, the first and fifth strands 101 and 105 are located at a slice edge respectively front and rear of the structure and each is housed in a sleeve 91 or hem secured to the cover fabric 9 serving as a wall carried by the structure. The sheath 91 forms a series of loops, that is to say that it has at least one window 92, here several regularly spaced rear side access to the fifth flange 105, rear, to pass a link 93 of connection to said first flange 101B similarly accessible and located at a front edge edge of a second similar inflatable structure to be coupled, therefore located in the rear extension of the inflatable structure in question. The connection link 93 is an element making it possible to couple the two facing flanges 105 and 101B by a predetermined distance, because the connection link 93 has a fixed functional length, that is to say is of predetermined functional length. or that it provides a setting indication to adjust it to the predetermined length. It is for example a belt strap, provided with a ratchet reel, with a predetermined distance mark of an end opposite to an end section that is wound. The length of the loop thus adjusted thus represents twice a half-circumference of flange 100, that is to say the half-circle of support on each of the two flanges 105 and 110B, and twice the two horizontal strands of link, that is to say the distance separating the homologous ends of the same level, respective bearing half-circles. Of course, twisting a half turn, with X crossing of the two connecting strands, mutually bring the two flanges 105 and 101B. The windows 92 located at the two ends of the tunnel, where there is no need to connect another inflatable structure, likewise receive a connection link 93 but it is attached to a cable 310 of longitudinal tension of the inflatable structure for example anchored to the ground by its other end. In order to make it possible to close the tunnel at the level of the inflatable structure considered, if it constitutes the first or the last of the row, each of the first and fifth strands 101 and 105, of front and rear edge zone, is associated with a hanging band connecting piece 94 made of flexible material, a lower free edge zone of which is provided with eyelets 151 for receiving links 152 for mounting an apse fabric 95, thus of arch form corresponding to the profile in front view of the structure inflatable. Each link 152 allows stapling, passing, from one side to the other of the band 94, a loop of semi-rigid plastic wire in the eyelet 151 desired, the friction on the two opposite edges of the eyelet 151 preventing the loop back, and returning to the original side through the adjacent edge of the connecting strip 94, to connect it to a base secured to the opposite end of the loop. To ensure sealing in the transverse space gap between the fifth flange 105 of the structure in question and the first flange 101B of the adjacent back structure, the flange 105, 101B of each is intended to be covered by an edge zone. respective side of a common transverse band of connection 96, waterproof flexible material, each edge zone having a hem 97 housing a cable 98, at least one of which is of elastic material, cable 98 including two opposite end portions 99 , 99 are provided to be fixed substantially at the two respective end sections 111, 111A of the strand 105 or 101B, in order to draw the edge zone considered from the connection strip 96 to the virtual line of line 130 connecting the two end sections 111, 111A of the flange 105 or 101B considered, that is to say a transverse horizontal. The canvas zone 9 situated on the side of the flange 100, opposite the rear edge of the inflatable structure, thus undergoes a shearing force exerted by the cable 98, which thus tightly clings this area of fabric to the side of the flange 105 or 101B which the door, that is to say the side facing the longitudinally central area of the structure. For the first flange 101B of the rear inflatable structure, it is the same, symmetrically with respect to a transverse vertical plane of juxtaposition of the two inflatable structures, so that the connecting strip 96 with the two cables 98 respectively has a function of staple or collar, exerting a clamping force of the two edges, front and rear, of the connecting strip 96, that is to say, tending to bring it down to the ground, against the resistance of the two flanges 100 considered. In this example, each of the structures can be installed, relative to the others, according to two possible distinct orientations of 180 degrees in plan view, thus by inverting the front and the back, that is to say that present, at least for the connection to the others, an overall symmetry with respect to a central point and with respect to a median vertical plane containing the longitudinal axis 190. In particular, each endpiece 1, 1A comprises a respective valve 20 for inflating the 100, so that all the structures can be inflated from the same side of the whole.

To facilitate the erection of the flanges 100, each of the two coupling elements 11 is arranged to recall the associated end portion of the flange 111, 111A in a direction 160 inclined relative to the virtual cord 130 connecting the two segments of 111 end, 111A of the coil 100. Thus, in this example, the suction cup 16 can initially maintain, before inflation, the associated tip 1 or 1A in a position at least partially erected in the direction 160. The strap 17 is then omitted or has the desired rigidity in torsion. In this way, the flange 100 will more easily take the desired arcuate shape. It can furthermore be provided that the material of the end sections 111 and 111A, for example woven and impregnated with a sealant, has an increased rigidity with respect to the rest of the coil 100, for example by spraying particles of a product decreasing the elasticity of the section in question. This may be for example an excess thickness of the sealant. In such a case, it is the end sections 111, 111A which will first take their final cylindrical shape, that is to say stand up and thus induce, in the central part of the coil 100, constraints that help it. to rise in an ark. As stated at the beginning, some of the internal tie straps 200 can be finally removed, in particular the respective "second", "third" and "fourth" straps, second, third and fourth strands 102, 103, 104, intermediate, because the straps 200 "first" and "fifth" of the first and fifth strands 101 and 105, near the front and rear edges of the inflatable structure, provide overall the desired function. However, the second, third and fourth strands 102, 103, 104, intermediate, may return partially to their natural shape, rectilinear, that is to say that their arch form will slightly flatten because the sections of end 111, 111A of each intermediate flange 100 will move apart, against a retaining force provided by the first and fifth flanges 101 and 105, end, and transmitted obliquely by the fabric 9, that is to say with a force essentially directed along the longitudinal axis 190, and therefore without lateral retaining effect, and a useful component, in a direction transverse to the axis 190. The tunnel would then have a ring shape, with a lateral bulge at each central slice, carried by the intermediate rods 100. It is therefore planned to border the entire tunnel by two lateral longitudinal beams 140, inflatable or not, provided for each connect the homologous end sections, 111 on the one hand, and 111A on the other hand, the various 100 of the plurality of juxtaposed structures. Each beam 140 is thus for example held in place by the various first and fifth straps 200, not disassembled after inflation, the beam 140 thus stiffening the associated side edge of the structure in question, by opposing the lateral extension force of the second, third and fourth strands 102, 103, 104, that is to say in their rope direction 130. It can also be expected that the beams 140 have a slight difference in length with respect to the tunnel, so to exert on the tunnel a stretching or compacting force depending on whether this difference in length is positive or negative. If the lateral longitudinal beams 140 are sufficiently rigid, for example metallic, it may be provided that all the straps 200 forming internal tie rods of some of the inflatable structures are removed after inflation. Thus, and in general, it can be provided, in the presence of such stiffening beams coupling a row of flanges 100, that some of the inflatable structures are free of internal straps 200, since the desired function, pulling, is provided by adjacent structures, adjacent or not, through the lateral longitudinal beams 140. The beams 140 thus provide a longitudinal offset of the pulling function of the straps 200. Precisely, the beams 140 can extend to the inner side of the tunnel or the side external. In the first case, their coupling to the end sections 111, 111A they hold against the lateral extension, is of the internal pulling type. In the second case, the beams 140 constitute an abutment in the external lateral direction It will be understood that the present example of butt jointing several such inflatable structures to form a tunnel is only a particular case of application of the 'invention. The inflatable structure may indeed have any desired shape, and for example be a single closed structure, for example igloo type. Similarly, the strands may have relative positions different from those indicated above.

Claims (14)

claims An inflatable structure comprising at least one inflatable bead (100, 101) having two opposite end sections (111, 111A) provided with two respective coupling means (11) with two respective devices for holding the two end sections ( 111, 111A) at a mutual operative distance of less than a free deployment length value of the coil (100, 101), characterized in that the two coupling means (11) are arranged to couple to two respective ends (201). 201A) of an internal tie rod (200) constituting said holding devices. 2. Structure according to claim 1, wherein the coupling of at least one of the two coupling means (11) is of removable type. 3. Structure according to one of claims 1 and 2, wherein one of the coupling means (11) comprises a ratchet device (12C) for winding a strap (220) of tension of the inner tie rod (200). 4. Structure according to one of claims 1 to 3, wherein each of the coupling means (11) is further associated with elements (12) for fixing an end of an external tie rod (300), ground anchor. 5. Structure according to claims 2 and 4 taken in combination, wherein the fastening elements (12) are merged with the associated coupling means (11), thus allowing, after assembly of the structure, to change the direction of extending, internally, the tie rod (200) to use it as an external tie rod (300) after cutting it to length. desired or have disengaged from the coupling means çle type removable. 6. Structure according to one of claims 1 to 5, wherein the two coupling means (11) further comprise two respective fangles (15), retaining the functional distance, provided for hooking on an edge wall. pool or equivalent. 7. Structure according to claim 6, wherein the retaining hooks (15) are provided with a respective suction cup (16) for attachment to said wall. 8. Structure according to one of claims 1 to 7, wherein the at least one coil (105) is located at a slice edge of the structure and is housed in a sleeve (91) integral with a cover member (9) serving as a wall carried by the structure, the sheath (91) having at least one side access window (92) to the flange (105) to pass a connection link (93) to an associated coil (101B) located at a slice edge of another similar structure to be coupled. 9. Structure according to claim 8, wherein the connection link (93) is a link for coupling the two associated strands (105, 101B) by a predetermined distance, in that the connecting link (93) presents a fixed functional length, i.e. is of predetermined functional length or provides a setting indication for setting it to the predetermined length. 10. Structure according to one of claims 1 to 9, wherein the at least one strand (100) is associated with a strip of flexible material (94) provided with eyelets (151) receiving links (152) mounting an apse cloth (95). 11. Structure according to one of claims 1 to 10, wherein the at least one coil (100) is provided to be covered by a side edge zone of a transverse web of flexible flexible material (96), the zone of edge having a hem (97) housing a resilient material link (98), of which two opposite end sections (99, 99A) are provided to be fixed substantially at the two respective end sections (111, 111A) of the strand (100), in order to pull said edge zone towards a virtual line of rope (130) connecting the two end sections (111, illA) of the flange (100). 12. Structure according to one of claims 1 to 11, wherein each end section (111, 111A) of the at least one flange (100, 101) is provided with a valve (20). 13. Structure according to one of claims 1 to 12, wherein each of the two coupling means (11) is arranged so that the inflation allows to recall the associated end portion of the flange (111, 111A) in one direction ( 160) inclined relative to a virtual cord (130) connecting the two end portions (111, 111A) of the at least one flange (100, 101). 14. Modular assembly of a plurality of at least two structures according to one of claims 1 to 13, comprising two lateral beams (140) provided for each connect the homologous end sections (111, 111 or 111A, 111A). boudins (100, 100) of the two structures, juxtaposed.