FR2883318A1 - METHOD FOR CONTAINING SPACES AND CONTAINMENT STRUCTURES COMPRISING THE APPLICATION OF SAID METHOD - Google Patents

Abstract

Method for confining spaces, characterized in that a flexible envelope (1) made of a material having the ability to retract in a generally homogeneous manner is applied around a supporting framework (2) consisting of a assembly of frame elements (2a), and this envelope is subjected to the effects of a suitable physical phenomenon causing its retraction, so that after contraction, said envelope (1) firmly encloses said support frame (2) in realizing in this way, the stiffening of the confinement structure obtained.

Description

Process for confining spaces and containment structures comprising

application of this method.

  The present invention relates to a method of confining spaces assigned to various activities. It also relates to containment structures resulting from the implementation of this method.

  According to a more particularly interesting application, but in no way limiting, the invention aims to provide industrial companies with a method and a system for the containment of sites of limited duration, on their places of realization.

  In many cases, it is essential to be able to work in temporary workspaces and can be large volumes. This is for example the case for buildings to renovate or deamify, some industrial units, the renovation or repair of yachts and other large boats, etc. The opening of such sites must meet several constraints, including: - increasingly demanding regulations for the construction of industrial sites; - imperatives of environmental protection; - more and more demanding specifications from the Clientele; a choice of solutions and means that are not very efficient and poorly adapted to the above-mentioned constraints The traditional methods and devices for temporarily covering spaces or volumes, of the tent or marquee type, made of a flexible material stretched on rigid supports, are suitable for certain activities such as: meetings of people (meetings, shows, catering, etc.), storage of goods, etc., for which it is possible to reserve appropriate reception sites of generally flat configuration. However, they are most often inapplicable to the coverage of industrial sites whose location is imposed by the situation of buildings (buildings, boats, ...) to be renovated or transformed, and / or by the particular configuration of the latter. .

  Currently, the temporary containment covers of building sites are traditionally made of an already rigid structure and an envelope (tarpaulin, cladding, fabric, textile, plastic film, ...) fixed on this rigid structure by means of different types of structures. fasteners or connecting devices. To ensure a good resistance to external stresses, for example resistance of the containment structures to the weather (wind and snow), such temporary constructions impose a significant increase of the elements of the support structure to ensure intrinsic mechanical strength The present invention aims in particular to provide an advantageous technical solution to the problems of the in situ coverage of industrial sites, of various natures.

  More generally, it proposes to allow the rapid and economical construction and possibly movable, of containment structures for various applications such as: temporary shelters, clean rooms, temporary work lock, temporary sheds, temporary warehouses, cabins, etc. According to the invention, this object is achieved by means of a method according to which a flexible envelope made of a material having the ability to retract in a generally homogeneous manner is applied around a support frame consisting of an assembly of elements of frame, and this envelope is subjected to the effects of a suitable physical phenomenon causing its retraction, so that after contraction, said envelope firmly encloses said support frame, thereby realizing the stiffening of the resulting confinement structure which becomes then a real construction.

  According to a preferred embodiment, the support frame is made by means of tubular elements assembled by interlocking, preferably by means of connectors. To achieve a successful final construction, these elements can be constrained during assembly to add to the retraction of the envelope.

  According to another exemplary implementation of the invention, at least some elements of the support frame or all of said elements are constituted by cables.

  According to an advantageous embodiment, the flexible envelope is made of a material having the ability to retract after being brought into contact with hot air and said envelope is brought into contact with hot air after have been applied on the support frame, so as to then obtain its contraction on said support frame during its cooling.

  According to an interesting example of implementation, the flexible envelope is constituted by a heat-shrinkable plastic film.

  The containment structure according to the invention is particularly remarkable in that it comprises a support frame consisting of an assembly of framing members and a flexible envelope fixed by contraction around said framework.

  According to a preferred embodiment, the frame members are assembled by simple interlocking, preferably by means of connectors, and they are held in the assembly position by the flexible envelope thereby ensuring the stiffening of said frame.

  It is understood that the invention makes it possible in particular: to achieve lightweight confinement structures, with extended mechanical characteristics, easily and quickly put in place and depositable, including in very restrictive environments; - protection, insulation and / or integration of building sites, works, objects and others, in their own environment; a great mastery of the workspaces.

  to obtain excellent mechanical resistance to bad weather.

  The foregoing and other objects, features and advantages will become more apparent from the following description and accompanying drawings, in which: FIG. 1 is a perspective view, with partial sectional views, of an exemplary embodiment of FIG. a confinement structure obtained by the implementation of the method of the invention.

  Figure 2 is a section showing the establishment of a flexible envelope portion on a support frame part, before subjecting it to a physical phenomenon causing its retraction.

  Figure 3 is a section similar to Figure 2 and countering the envelope closely enclosing the support frame after its submission to the effects of the physical phenomenon that caused its contraction.

  Referring to said drawings to describe advantageous examples, although not limiting, implementation of the method e1: embodiment of the confinement structures according to the invention.

  According to this method, a flexible envelope 1 is applied made of a material having the ability or feature of substantially homogeneously retracting around at least a portion of a support frame 2 consisting of an assembly of framing members 2a, and this envelope 1 is subjected to the effects of a suitable physical phenomenon causing its retraction, so that after contraction, said envelope firmly encloses said support frame.

  The armature 2 may consist of rigid tubular elements 2a of length and diameter appropriate to the dimensions of the confinement structures to be produced, assembled by interlocking. These tubular elements may be shaped so as to be nested directly into each other, or be assembled to each other by means of tubular connectors 2b.

  Depending on the dimensions of the confinement structures to be produced, the tubular elements 2a of the support frame 2 may be made of metal (steel, aluminum, etc.), of rigid polymers, of composite materials, etc.

  It is emphasized that another advantage of the method of the invention is to allow the realization of the support frame by means of relatively small section elements relative to the dimensions of the confinement structure. For example, according to another embodiment of the invention, some frame elements or all of the frame elements of the support frame 2 may be constituted by cables, metal or textile.

  Io The support frame 2 may also consist of an assembly of rigid elements and cables.

  More specifically, the section of the framing members is adapted to the characteristics induced by: the own weight of the confinement structure; The contraction power of the envelope; the construction environment (exposure to the weather: wind, snow, etc.); the use of construction (storage of goods, confinement of workspaces, etc.); mechanical characteristics of the frame elements.

  The envelope 1 can be made of any flexible material having the particularity of shrinking in a substantially homogeneous manner when subjected to the effects of a suitable physical phenomenon causing this reaction.

  Advantageously, the casing 1 can be made of a material having the particularity or property of retracting by cooling after being brought into contact with hot air.

  However, it is also envisaged to obtain the retraction of the envelope by subjecting it to the effects of other physical phenomena such as contact with cold air, exposure to electromagnetic radiation, etc., depending on the characteristics physicochemicals of said envelope.

  Preferably, however, the flexible envelope 1 may be constituted by a heat-shrinkable thermoplastic plastic film such as an extruded polyethylene film, or the like, having the particularity of retracting on itself, cooling, after having been put in contact with hot air.

  By way of non-limiting example, the casing 1 may consist of one or more layers of thermoplastic film and having a minimum cumulative thickness of 250 μm and a minimum contraction power of 1 μmpa. The average linear weight of a containment structure 6 m wide, 4.5 m high and with double roof slope, with such an enclosure and frame elements made of 30 mm diameter composite tubes, will be around 10 kg of support frame and 5 kg of envelope.

  The flexible envelope may consist of a plurality of strips or strips bonded together by heat sealing or otherwise. It can be transparent, or translucent, or opaque, or tinted in any color.

  After a simple interlocking of the frame elements 2a, 2b, the flexible envelope 1 is applied around at least a part or around the entire support frame 2, according to the dimensions of the containment structure to be produced .

  The flexible envelope 1 is then brought into contact with hot air supplied by a hot air source 3 known per se, for example constituted by a mobile hot air generator, installed in the enclosure constituted by the frame-support 2 covered with said envelope and to sufficiently heat the volume of the construction (Figure 2). It is also possible to use a manual directional jet apparatus (heat gun) to project the hot air onto the surface of the thermoplastic film surrounding the support frame in order to then obtain, while cooling, the retraction of said film on the latter.

  The interruption of the supply of hot air causes the cooling of the flexible envelope 1 which retracts on itself while cooling, firmly enclosing the frame members 2a, 2b, assembled by simple interlocking, which has for effect of prohibiting the relative movements of these elements and makes it possible to put the support frame 2 in compressive and / or bending stress and, consequently, to stiffen all the elements and junctions supporting the applied stresses. The containment structure thus produced has rigidity or stiffness and compactness, which gives it, in particular, excellent weather resistance qualities, although its framework is made by means of light elements and of reduced section or diameter.

  The retraction of the flexible envelope on the support frame 2 can be carried out progressively, proceeding zone by zone, or simultaneously over the entire surface of said envelope, depending on the dimensions of the confinement structures.

  The containment structures according to the invention may have various shapes: tunnel-shaped, with single or double slope roof, vaulted, prism, parallelepiped, cylinder, etc. They can be guyed on the ground. They may or may not have intermediate supports on the staff.

  The relatively long elements of the structures (spans) can be put in prestressing to contradict the stresses related to the environment of the structure, for example the dynamic pressure of the wind.

Claims (2)

8 claims   A method of confining spaces, characterized in that a flexible envelope (1) made of a material having the ability to retract in a generally homogeneous manner is applied around a support frame (2) consisting of an assembly of framing members (2a), and subjecting said casing to the effects of a suitable physical phenomenon causing its retraction, so that after contraction, said casing (1) firmly encloses said support frame (2 ) in doing so, the stiffening of the confinement structure obtained.   2. Method according to claim 1, characterized in that the substructureupport (2) is made by means of tubular elements (2a) assembled by interlocking.   3. Method according to claim 2, characterized in that the tubular elements (2a) are assembled by interlocking, by means of connectors (2b).   4. Method according to claim 1, characterized in that at least a portion of the elements of the support frame (2) consists of cables.   5. Method according to any one of claims 1 to 4, characterized in that the flexible envelope (1) is made of a material having the ability to retract after being brought into contact with hot air, and in that said casing is brought into contact with hot air after being applied around the support frame (2), and then cooled by interrupting the supply of hot air.   6. Process according to any one of claims 1 to 5, characterized in that the flexible envelope (1) is constituted by a heat-shrinkable plastic film.   7. Method according to claim 6. characterized in that the envelope (1) is constituted by one or more layers of thermoplastic film and having a minimum cumulative thickness of 250 pr and a minimum contraction power of 1, OMpa.   8. Space containment structure, characterized in that it results from the implementation of the method according to any one of claims 1 to 7.   Spatial confinement structure, characterized in that it comprises a support frame (2) consisting of an assembly of frame elements (2a) and a flexible envelope (1) fixed by contraction around of said support frame.   Spatial confinement structure according to Claim 9, characterized in that the supporting framework (2) consists of tubular elements (2a) fitted and held in the assembly position by the flexible casing (1). tightly enclosing said elements.   Spatial confinement structure according to claim 9, characterized in that at least some frame elements of the support frame (2) consist of cables, and a flexible envelope (1) is fixed by contraction. around said support frame formed of cables.