The present invention relates to a vertically opening door having a flexible curtain able to occupy a closed position or an open position by being folded up at a desired height having a curtain comprising two flexible screens defining an air cushion providing heat or sound insulation.
Since these doors provide greater heat and sound insulation than single-screen doors, they are particularly suitable as closures for external apertures of buildings as for example for defining an area exposed to wind, weather and large temperature differences. These doors can also be used to define two areas where one of the areas has high sound levels.
The structure of these doors can be made up of horizontal bars held together by cables or straps. Horizontal strips of flexible fabric, generally PVC, are attached to these bars to form on each side of the bars two screens defining an air cushion. The strips are usually attached by means of bolts on each side of the structure defined in this way.
Assembling these doors is therefore slow, meticulous work. It requires highly skilled staff and a great deal of time.
Moreover, there is a serious drawback with this type of door in that the seal between the screens and the vertical jambs of the door is very imperfect, and it is found that the strips of fabric have a tendency to form a crease and to gape open. In other words, since the distance between the horizontal bars is fixed by cables or belts, the strips of fabric can, particularly depending on temperature conditions, relax and gape apart, and then no longer hug the door jamb.
This gaping obviously defeats the purpose of the insulation which the door is supposed to create.
There are also doors with two parallel screens in which the horizontal bars comprise grooves of trapezoidal section or teardrop section in which the horizontal edges of the strips of fabric are engaged.
Doors of this type also have drawbacks because there is an interruption in the screen at the ends of the horizontal bars where there is no contact with the jambs.
Besides this, it can be quite difficult to insert the strips of fabric into the teardrop-shaped grooves, especially in the case of doors of great width.
Again, document FR-A-2 769 944 discloses a door in which the means for pulling the screen are isolated from the outside. Although this document provides sealing for the pulling means, it says nothing at all about lateral sealing between a screen and the jambs of a door.
It is an object of the invention to provide a door consisting of a double screen that defines an air cushion but that is easy to install and creates a highly effective seal.
As in the prior art, this door comprises two jambs, a transverse box joining the top ends of the two jambs, and a curtain moveable between a closed position in which it closes the opening formed by the jambs and box and an open position in which it is folded up under the box.
According to the invention, the door comprises a curtain consisting of two parallel screens that define an air cushion and that are suspended from the top region of the jambs, the curtain comprising:
at least one lifting strap connecting the bottom part of the curtain to a shaft mounted in or in the region of the box,
and at least one transverse stiffening means fitted to each of the screens, the side edges of each screen lying against the jambs to form an airtight lateral surface contact.
The fundamental idea on which the invention is based is, in a double screen curtain, to place stiffening bars in sheaths formed in each screen in such a way that the inside face of each of the two outside faces of the double screen is flat and is always taut when in the closed position so that, where it meets a track formed in the vertical jambs, a surface contact is formed that completely insulates the air cushion formed between the two screens. In addition, the curtain can be manufactured entirely in the factory and then simply erected on the final site.
Advantageously, the sheaths of each of the screens are opposite each other.
To increase the modulus of section of the curtain and so improve its behavior particularly when the door is exposed to the wind, at least one pair of two stiffening bars, engaged in two mutually opposite sheaths, has at least one spacer connecting the said bars.
Advantageously, the spacer has an opening for the lifting strap to pass through.
One advantageous possibility is that at least two pairs of stiffening bars with spacers alternate with at least one pair of stiffening bars without spacers, in such a way that, when the curtain is in the raised position, alternate folds form symmetrically about the plane in which the door opens.
To seal the bottom edge of the door, the bottom part of the curtain formed by the connecting fold between the two screens contains a flexible component consisting of a flexible sleeve containing a flexible material.
One possibility is that the flexible component consists of a flexible bar comprising a spring in a foam sleeve.
In one embodiment, the ends of each stiffening bar are fitted with guide components for guiding them relative to each of the jambs.
The stiffening bars preferably have the flexibility to absorb an abnormal exiting impact, to come free or to come away from the tracks without suffering permanent deformation so that the curtain is not damaged by a collision with for example a vehicle.
Advantageously, the flexible bar held in the connecting fold of the two screens, the lower pair of bars with spacers and the succeeding pair of bars without spacers are at distances such that, when the curtain is in the raised position, the flexible bar projects beyond the folds formed by each folded screen in such a way that in the event of a collision with the curtain, the contact takes place with the flexible bar rather than with a stiffening bar.
One possibility is that each screen is a multilayer complex.
In one advantageous embodiment, each screen has, at the same height, at least one transverse panel made of a transparent material.
In accordance with an alternative, between two pairs of bars with spacers, each screen is provided with at least one shape-memory folding means capable of forming an outward fold in the curtain when the curtain is in the folded position.
As regards the curtain, one possibility is for it to be made from a single component of flexible material and then folded on itself to form two screens.
Another possibility is that each screen comprises at least two transverse panels of flexible material connected by a sheath.
Advantageously, the ends of each stiffening bar of a pair of bars without spacers are fitted with a guide endpiece which has a flat part oriented in the plane of the screen in which the bar is located.
One possibility is that a spacer connects the ends of a pair of bars and carries a roller engageable between two tracks which are formed in each of the vertical jambs.
In addition, the invention allows filler endpieces to be engaged on the end of each of the bars to prevent the formation of folds.
In one possible embodiment of the stiffening means of the flexible screens, a cable is engaged in at least one sheath whose ends are guided relative to the vertical jambs.
To enable the invention to be understood clearly, it will be described with reference to the accompanying drawing which shows a non-restrictive example of an embodiment of a door according to the invention.
Referring to the drawing, the door can be seen to comprise two jambs 2 joined at their top ends by a box 3. The box 3 can also be termed the crossmember. To close the opening defined by the jambs and the box, the door comprises a flexible curtain 10 that can be folded up into the top part of the door, that is to say underneath the box 3, to allow the passage of people or vehicles.
As
In the example shown in the drawing, each screen 11a, 11b consists of panels 12 of flexible material: this may be transparent or opaque PVC. As can be seen in
A stiffening bar 16 is engaged into each sheath 15. This stiffening bar 16 is made of a flexible material which may be a pultruded composite. The sheaths 15 of each screen 11 are so arranged that the stiffening bars 16 are opposite each other at the same height to form a pair of stiffening bars.
Notice also that the stiffening bars 16 of certain pairs are connected by two spacers 18. The assembly formed by these two bars 16 with spacers thus has a high modulus of section.
Pairs of bars 16 with spacers alternate with pairs without spacers.
The curtain is raised by two lifting straps 20. One end of each strap is connected to a shaft 19 mounted in the box 3 of the door, and the other to the lowest pair of stiffening bars. It should be pointed out that spacers 18 connecting stiffening bars situated above the lowest pair with spacers are provided with an opening 21 for a lifting strap 20 to pass through.
The curtain 10 is also provided, at the connecting fold between the two screens 11a, 11b, with a flexible bar 22 which may take the form of a spring in a sleeve of absorbent foam.
First of all, it will be seen that the jambs 2 themselves incorporate two parallel tracks 24 and 25.
Referring initially to
In this way the contact between each stiffening bar bears against the outside face of the tracks 24, 25 via the endpieces which provide a surface contact against the latter.
At the ends of the two stiffening bars a spacer 33 joins the bars together.
Notice that there is a hole in the strip 13 forming the inside wall of the sheath 15 to allow the spacer 33 to connect with the stiffening bars 16.
As can be seen, the spacer 33 carries a roller 32 whose diameter is slightly smaller than the distance between the tracks 24 and 25.
It will also be observed that filler endpieces 34 are engaged in the ends of the stiffening bars 16 to prevent the formation of folds at the ends of the bars 16.
In operation, the door behaves in the following manner: when the curtain 10 is in the closed position, the inside faces of each screen 11a, 11b are flat against the tracks of the jambs as can be seen in
The bottom edge of the door is sealed by the flexible bar 22 forming a surface contact with the ground.
When the curtain 10 is in the raised position due to the straps 20 being wound around the shaft 21, folds form symmetrically on each side of the door's opening plane. It should be observed that these folds form symmetrically in each screen 11a, 11b because of the weight of the stiffening bars without spacers which are themselves situated inside each screen 11a, 11b. Hence, even if the door is exposed to a violent wind, the risk of a fold forming between the two screens 11a, 11b is practically eliminated.
The invention thus provides a door having the many advantages indicated. In particular, the door's lateral sealing is excellent. In addition, because of its screens which can be assembled in the factory, installing a door according the invention on site is considerably simpler than installing doors such as those known in the prior art which require the screens to be assembled on site.
The invention is not of course limited to the embodiment described above by way of example: on the contrary, it encompasses all embodiments thereof.
For example, the sheaths of each screen could be formed by a zone of overlap between the panels and by two parallel weld lines or by a strip welded directly to the outside face of a panel.
It is also possible to make the curtain from a single piece of flexible material and fold it to form two screens.
One possible way of installing the invention would be in an embodiment in which the ends of the stiffening bars are directly placed against the jambs or against flexible or rigid tracks formed in the jambs.
Number | Date | Country | Kind |
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0312169 | Oct 2003 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR04/02638 | 10/15/2004 | WO | 10/19/2006 |