The invention relates to a surface-covering device that is easy to implement and that best addresses the demands of the application concerned. The cover device is permanent in that the cover is permanently attached to a drum linked to the surface and that allows the cover to be wound and unwound in order to uncover or cover the surface. The cover device of the present invention allows, once the surface is covered by the cover, the volume contained between the surface and the cover to be pressurized, provoking the formation of a dome by the cover. The formation of a dome offers numerous advantages described in the following sections.
Covers are applied to surfaces for reasons which depend on the nature of these surfaces. Thus, in the case of a pool such as a swimming pool, the cover can prevent pollution by leaves or animals, can save on energy, water and reagents and can or must ensure the safety of people, in particular of children. In a desalination pond or other fluid treatment ponds, a cover makes it possible to avoid liquid dilution due to rain or excessive evaporation due to heat.
When it is a sports court such as a clay or lawn outdoor tennis court, a cover makes it possible to protect against bad weather, and in particular intermittent rain.
In all the particular cases, an economical cover device is generally sought that allows for covering and uncovering that is easy, safe, reproducible and rapid, and that requires minimal human intervention.
Permanent devices for covering a surface that allow the surface to be covered and uncovered by the cover automatically using a motor, or semi-automatically, using a crank, are known. These permanent devices are characterized by a drum permanently linked to the surface and allowing the cover to be stowed away when the surface is uncovered. The covering of the surface is done easily by unwinding the cover from the drum. Two types of devices are distinguished: (1) the devices in which the drum is fixed to a first transverse side of the surface to be protected, and (2) the devices in which the drum is movable and is displaced over the surface to be protected. The present invention relates to both these types of devices.
In the devices comprising a drum fixed to a first transverse side of the surface to be protected, the cover is deployed by pulling it by a movable end with automatic traction means of rack or chain or traction cable type with or without a return pulley. The cover can possibly be guided by runners disposed on the longitudinal sides of the surface to be covered; the cover then slides over the surface in covering it. Likewise, when the cover is removed, it slides over the surface to be uncovered by being wound around the drum. This automatic cover device is illustrated notably in the following documents: U.S. Pat. Nos. 3,277,498, 3,574,979, GB 2 199 741, US 2005/0097834, CA 2,115,113, US 2001/0023506, U.S. Pat. Nos. 5,930,848 and 4,001,900.
The devices comprising a drum fixed to the transverse side of the surface have the major drawback of causing slippage of the cover which is dragged over the surface to be protected in its deployment and its removal, which creates premature wear and a greater work load to be supplied by a motor or a human being, due to the frictions thus generated.
The devices in which the drum is movable mitigate this drawback. The motorized drum is mounted on a longitudinal translation mechanism which displaces the drum over the surface to be covered which literally allows the cover to be “laid” on the surface, during its deployment, by unwinding it simultaneously from the drum during its longitudinal displacement, then lifting it, upon its removal, by simultaneously winding it onto the drum. The cover therefore does not slip on the surface either during its deployment or during its removal. The cover device also comprises a system for fixing the cover to a first transverse side of the surface to be covered such that the translation of the drum drives the rotation thereof and the unwinding or the winding of the cover above the surface to be covered. Examples of automatic or semi-automatic devices of this type are disclosed for example in the following documents: WO2005/026473, FR 2 900 951, DE 2 257 231, FR 2 893 651, FR 2 789 425, FR 2 803 769, FR 2 743 502, EP 1 719 858, FR 2 908 402 and BE 2008/0417/0418/0419.
The two types of devices with fixed or movable drum discussed above can comprise rails fixed parallel to the surface to be covered and comprising an opening allowing the first and second longitudinal edges of the cover to be locked over a length corresponding to the portion of cover covering the surface upon the unwinding or winding of the cover. Examples of such devices comprising a movable drum are described in WO2010010152 and WO2010054960.
In the present application, the terms “longitudinal”, “transverse” and their derivatives refer respectively to the direction of displacement of the drum and to the direction of the axis of revolution thereof.
As illustrated in
A cover as illustrated in
Another type of device illustrated in
Another cover device configuration is illustrated in
In the field of swimming pools, GB1307678 and FR2671125 have proposed inserting an inflated roll under the cover and floating on the surface of the water in order to form a dome or a vault. Since the roll has an out-of-water height greater than the height between the surface of the water and the edges of the swimming pool, the roll imposes an outward bulging of the cover. U.S. Pat. Nos. 4,048,678 and 4,825,479 propose welding flaps over the entire perimeter of the cover. The flaps have a free end immersed under the water level of the swimming pool. Air can then be injected under pressure to pressurize the free space between the surface of the water and the internal surface of the cover which thus forms a dome. U.S. Pat. No. 3,277,498 describes a cover device with fixed drum provided with rails in which the longitudinal edges of the cover slip during the deployments and removals of the cover and ensuring a sufficient tightness to allow the pressurization by blowing of air from the space contained under the cover. The motorization of this device is particularly complex.
Unfortunately, none of the solutions discussed for the cover to form a dome can be implemented in an automatic or semi-automatic permanent device, in which the cover is wound onto and unwound from a movable drum. It is clear that the presence of a roll, however perfectly deflated, would unacceptably increase the diameter of the drum when it is in uncovered position, with all of the cover wound thereon. It is also impossible to form a drum of reasonable diameter with a cover provided with a flap welded over the entire perimeter of the cover. Finally, while it is reasonably easy to guarantee a sufficient seal along the longitudinal edges of a cover inserted into rails in the case of a fixed drum, as described in U.S. Pat. No. 3,277,498, that does pose a problem when the cover is mounted on a movable drum, because the longitudinal edges of the cover must be introduced into the rails as the drum advances.
There is therefore still a need for a surface-covering system equipped with a movable drum that can be automated, that allows the cover to be stowed away when the surface is uncovered and which makes it possible to pressurize the volume contained between the surface and the cover when the surface is covered (=“volume under the cover”). There also remains a need to combine the thermal advantages of a floating cover and those of a taut or inflated cover, according to the heating or cooling needs of the water contained in a swimming pool or a pond. These advantages and others described in the following sections are fulfilled by the present invention.
The invention is as defined in the main claim and preferred variants are defined in the dependent claims. The present invention notably comprises a device for covering a substantially rectangular surface delimited by first and second longitudinal sides linked to one another by first and second transverse sides, the device comprising,
The rails (6) can comprise a substantially U-shaped profile or a G-shaped profile, that is to say comprising a fin partially closing one side of the opening (6o) of the profile, or a C-shaped profile, that is to say comprising two fins partially closing each side of the opening (6o) of the rails.
The trolley can comprise, at each of its ends, a driving wheel disposed at a non-zero distance from the corresponding rail, on the same plane as, and between, the at least two rollers and whose axis of rotation is parallel to that of said drum. A belt which is flexible extends along each of the first and second rails, fixed only at each of its ends to first and second ends of the corresponding rail, and inserted into the opening of the corresponding rail in two sections of the belt lying between the first and second rollers and the first and second ends of the corresponding rail, and capping, without slip, the driving wheel in the section of the belt lying between the at least two rollers.
According to the invention, each rail (6) is preferably formed by a G-shaped or C-shaped profile with the opening (6o) oriented away from the surface, and with a fin situated on the side of the rail adjacent to the surface. Continuous insertion means allow the longitudinal edges of the cover to be inserted into the opening of each of the rails as the cover is unwound from the drum, and to be removed from the opening of each of the rails as the cover is wound onto the drum. Each longitudinal edge of the cover is provided with a bead which, by the combined action of the belt being incorporated into the rail and of the fin of the G-shaped or C-shaped profile, reversibly locks a longitudinal edge of the cover in the corresponding rail as the cover is unwound from the drum.
In one embodiment of the invention, the sealed end of the flap fixed to the internal surface of the cover by bonding and/or welding. Alternatively, the sealed end of the flap can be fixed to the axle of the drum. In these two configurations, the flap can have a width between its free and sealed ends lying between 150 and 600 mm, preferably between 200 and 500 mm, more preferably between 250 and 400 mm.
To facilitate the winding of the cover and of the flap, the device can comprise one or more tongues which are flexible and which link a portion of the flap, preferably adjacent to the free end of the flap, to a portion of the internal surface of the cover. The flap has a length equal to the length of the movable end of the cover and has a width measured normal to its length, and wherein the one or more tongues are distributed over the length of the flap. The tongues have a length measured between the flap and the internal surface of the cover which is shorter than the section of flap lying between its sealed end and the portion of the flap to which the tongue or tongues are fixed.
In another embodiment of the invention, the trolley and the drum are enclosed in a box comprising only one opening defined by a perimeter and extending over an entire length of the drum and facing the surface. The sealed end of the flap is fixed at least to a downstream or an upstream portion of the perimeter of the opening of the box, wherein “downstream” and “upstream” are defined in the direction of displacement of the movable end (10m) of the cover allowing the surface to be covered. The flap can have, in this embodiment of the invention, a width between its free and sealed ends lying preferably between 20 and 120 mm, preferably between 30 and 100 mm, more preferably between 40 and 70 mm.
The surface can comprise a cavity, preferably intended to be filled with water including a swimming pool, a potable water tank, or a pond containing aquatic animals, or a methanization tank, a tennis court, a pétanque court, or a curling court. The blower system can comprise an air outlet allowing air to be injected into the volume that is installed in a water draining gutter of a swimming pool, in a cavity of an edge of a swimming pool, on the cover, in a box or on an axle of the drum of a device.
The device can comprise a motor actuating the displacement of the movable end of the cover. Otherwise a crank can allow the displacement to be activated.
These aspects and other aspects of the invention will be clarified in the detailed description of particular embodiments of the invention, reference being made to the drawings of the figures, in which:
The device (1) of the present invention allows a substantially rectangular surface (3) delimited by first and second longitudinal sides linked to one another by first and second transverse sides to be covered and uncovered automatically or semi-automatically. The device comprises a cover (10) which is flexible and substantially airtight and watertight. It needs to have dimensions allowing the surface (3) to be covered. The cover is delimited by first and second longitudinal edges (10L) that are substantially parallel and linked to one another, on one side by a movable end (10m) and, on the other side, by a static end (10s) which is fixed to the first transverse side in a substantially airtight manner.
The device comprises a drum (2) that is rotatably mounted and capable of winding and unwinding the cover (10) along its first and second longitudinal edges (10L). The winding and unwinding of the cover is accompanied by a displacement of the movable end (10m) of the cover along the first and second longitudinal sides of the surface. The movable end can be displaced between two extreme positions: an uncovered position and a covering position. The uncovered position corresponds to a situation in which the cover is entirely wound onto the drum, with its movable end (10m) being adjacent to the first transverse side of the surface. As its name indicates, in this position of the movable end, the surface is not covered by the cover.
The covering position defines a configuration in which the surface is covered by the cover which is unwound from the drum. The movable end (10m) of the cover is adjacent to the second transverse side.
The device of the present invention comprises first and second rails (6) fixed along the first and second longitudinal sides of the surface. Each of the first and second rails comprises an opening (6o) allowing the first and second longitudinal edges (10L) of the cover to be locked in a substantially airtight manner over a length corresponding to the portion of cover covering the surface upon the unwinding of the cover.
Optimizing the blowing of air under the cover in order to form a dome when the movable end (10m) of the cover is in covering position and the surface (3) is covered by the cover requires a volume defined between the covered surface and an internal surface (10i) of the cover (=“volume under the cover”) to be substantially airtight from the atmosphere in contact with an outer surface of the cover. Thanks, on the one hand, to the static end (10s) of the cover, which is fixed to the first transverse side in a substantially airtight manner and, on the other hand, to the first and second longitudinal sides (10L) which are locked in a substantially airtight manner in the corresponding rails (6), the volume under the cover (10) is substantially airtight over three of the four sides of the surface. If a sufficient seal cannot be ensured on the second transverse side, the pressurization of the volume under the cover cannot be done satisfactorily, demanding too much power and enormous energy consumption. It is therefore essential to seal the fourth side (i.e. the second transverse side) of the surface. The sealing of the second transverse side, when the surface is covered by the cover (10), is ensured by a flap (41).
As illustrated in
With the device of the present invention allowing the volume defined under the cover to be rendered substantially airtight, the device can comprise a blower system (51) capable of blowing air (51a) into the volume under the cover contained between the surface (3) and the internal surface (10i) of the cover facing the surface (3) when the movable end of the cover is in covering position and thus create an overpressure in this volume causing the cover to dish and form a dome.
In a first preferred variant of the invention illustrated in
The trolley (21) comprises, at each of its ends, at least two rollers (33) resting on the first and second rails (6) allowing the longitudinal translation of the trolley (21) between the first and second transverse sides of the surface. The translation of the trolley can be activated by a cable or chain mounting, by a rack system as described in WO2010010152, or by other systems.
For example, in a preferred variant, described in detail in WO2010054960 and illustrated in
The displacement of the drum along the rails (6) is illustrated in
As illustrated in
In another variant of the present invention illustrated in
The displacement of the movable end (10m) of the cover along the first and second longitudinal sides of the surface requires the use of a cable and pulley mounting to pull the movable end (10m) toward the second transverse edge of the surface and thus cover the surface. To uncover the surface, it is sufficient to rotate the drum on its longitudinal axis to return the movable end of the cover to the first transverse side of the surface.
The displacement of the movable end (10m) of the cover mounted on a fixed drum is not part of the present invention is illustrated in
As illustrated in
The cover (10) comprises first and second longitudinal edges (10L) that are parallel to one another and linked to one another by a movable end (10m) and by a static end (10s). The cover is preferably of substantially rectangular form, at least on three of its four sides, the static end (10s) or the movable end (10m) not necessarily being straight or normal to the longitudinal edges. Preferably, the cover is rectangular.
The cover must be flexible to allow it to be wound onto the drum and it must be made of a substantially airtight material. Preferably, the cover is made of polymer, for example a vinylic polymer, or is a fabric impregnated or covered with a layer of polymer.
The longitudinal edges (10L) of the cover (10) are preferably provided with a bead (16). Beads suitable for the device of the present invention are described for example in WO2014064138. The beads can be present over a longitudinal strip that is bonded, welded, and/or stitched to the cover, thus forming the longitudinal edges (10L) of the cover (see
In the variant of a movable drum of
In order to synchronize the speed of translation of the trolley with the speed of unwinding/winding of the cover from/onto the drum, the trolley (21) preferably comprises a translation axle inserted coaxially into the axle (2a) and linked to the latter by a spiral spring which is relaxed when the movable end (10m) is in uncovered position adjacent to the first transverse side of the surface and is taut when it is in covering position, adjacent to the second transverse side of the surface. The translation axle is linked to the driving wheel (9) and, for example, to a motor (30). The rotation of the translation axle allows the trolley to be displaced along the rails (6). Upon a displacement of the trolley to the second transverse edge of the surface, the tension applied to the cover by the distancing from the drum drives the rotation of the axle (2a) of the drum and the progressive tension of the spiral spring. At a constant translation speed of the trolley, the speed of rotation of the axle (2a) varies with the diameter of the drum and accelerates when the movable end (10m) approaches the second transverse side and the diameter of the drum decreases. In the reverse direction of uncovering of the surface, the taut spiral spring ensures the rotation of the axle (2a) during the translation of the trolley to the first transverse edge.
Other systems for synchronizing the speeds of rotation of the drum and of the motor are possible, for example by circumferential contact of two rotating rollers or by any other system known to the person skilled in the art as for example described in the documents FR 2893651, DE 2257231 or FR 2908402. It is also possible to use two motors, one revolving at constant speed and driving the longitudinal translation of the trolley and the second provided with a microprocessor controlling the speed of rotation of the drum according to its diameter.
The rails (6) are fixed along the first and second longitudinal sides of the surface and each comprise an opening (6o). The opening (6o) allows the corresponding longitudinal edge (10L) of the cover (10) to be locked. In the case of a movable drum, the rails also ensure the guiding of the displacement of the trolley (21) by interacting with the rollers (33).
The rails (6) preferably comprise a substantially U-shaped profile or a G-shaped profile, that is to say comprising a fin partially closing one side of the opening (6o) of the profile, or a C-shaped profile, that is to say comprising two fins partially closing each side of the opening (6o) of the rails.
The rails must not only lock the longitudinal edges of the cover as the cover covers the surface, but they must also ensure that this locking forms a substantially airtight contact between the longitudinal edges of the cover and the rails. For example, as illustrated in
The expression “substantially airtight” does not require a perfect seal. The production of a perfect seal would be illusory or very expensive to implement. The airtightness required in the present invention is such that the pressure losses in the volume under the cover make it possible, using a conventional blower device, to ensure an overpressure of at least 10 Pa, preferably at least 50 Pa, more preferably at least 70 Pa. The pressure must be sufficient to lift the weight of the cover (10). The person skilled in the art can determine the optimal trade-off between the cost to improve the sealing of the longitudinal edges in the rails and the energy consumption cost to maintain such a pressure under the cover. For example, with a pressure under the cover of 50 Pa, the air leaks are preferably less than 50 m3/h, preferably less than 30 m3/h and more preferably less than 20 m3/h. A blower system (51) with an air flow rate (51a) of 100 to 300 m3/h can be used, preferably between 150 and 250 m3/h.
In order to ensure a sealing of the volume under the cover at the second transverse side of the surface, the device of the present invention comprises a flap (41). The flap comprises a sealed end (41s) extending substantially parallel to, and over an entire length of, the second transverse side of the surface, and is mounted so as to follow the displacements of the movable end (10m) of the cover along the first and second longitudinal sides (10L). It also comprises a free end (41L) opposite the sealed end (41s). When the movable end (10m) is in covering position, the free end (41L) of the flap is in contact with the surface.
In a preferred variant of the invention illustrated in
Alternatively, as illustrated in
In the preceding two variants illustrated in
In a third variant illustrated in
In a variant illustrated in
In the case where the surface comprises a cavity such as a swimming pool for example, the covering position of the drum can be defined as illustrated in
If, however, as illustrated in
In another variant, the box cannot vary its distance h from the surface. In this case, the flap must ensure the sealing of the box at least in the covering position of the drum. In addition to the downstream portion of the perimeter of the box provided with a flap, the longitudinal portions of the perimeter of the opening must also be sealed, for example with lateral flaps (41e) also extending along the longitudinal portions, and whose free ends contact the surface during the displacements of the trolley (21). As illustrated in
The upstream portion of the trolley can also be provided with a flap or a seal. If necessary, the internal volume of the box can be compartmentalized with a separating wall (62) which, in certain configurations, makes it possible to simplify the sealing of the box on the upstream part of the perimeter of the opening, where the cover meets the surface.
Above all, but not solely, in the case of a movable drum, it is important, during the rewinding of the cover onto the drum when uncovering the surface, for the flap not to fold uncontrollably, thus increasing the diameter of the drum in uncovered position and, above all, preventing, during a subsequent covering of the surface, the flap from being positioned correctly when the movable end (10m) of the cover is in covering position. If the flap is badly positioned and its free end does not correctly contact the surface, the seal that is sought may be lost. To avoid this problem and as illustrated in
If necessary, as illustrated in
The blower system can comprise one or more blowers (51) installed such that an air outlet allows air (51a) to be injected into the volume under the cover which is substantially airtight over the entire perimeter of the surface (3). Blowers as available on the market can be used, the power of which depends on the capacity of the volume under the cover and on the quality of the seal over the four sides of the surface. In most cases, a flow rate of 70 to 400 m3/h, preferably between 100 and 300 m3/h, more preferably between 150 and 250 m3/h can be applied to form a dome.
The blower system can be located in a water draining gutter of a swimming pool, in a cavity of an edge of a swimming pool (see
A cover device according to the present invention can be used to cover different types of surfaces, such as tennis courts, curling courts, pétanque courts, a skating rink, etc. The surface to be covered can also comprise a cavity, preferably intended to be filled with water, including a swimming pool, a potable water tank, or a pond comprising aquatic animals, or a methanization ditch.
The fact that the volume under the cover can be pressurized by the blowing of air by a blower system (51) makes it possible to impart a dome form to the cover (10), separating the cover from the covered surface. The dome form prevents rainwater from accumulating on the outer surface of the cover (10) and from causing sagging at its center. A significant proportion of this accumulated water finally ending up entering into contact with the surface, either by flowing through discharge orifices applied to the cover to avoid the formation of a pocket of water, or by uncovering the surface by the winding of the cover onto the drum. With the dome form, the rainwater flows by runoff to the periphery of the surface by gravity.
In the case of a curling track or a skating rink, the dome form isolates the iced surface from the atmosphere which, if it is at a temperature higher than 0° C., would result in higher energy demands to maintain the temperature of the ice below 0° C.
In the case of swimming pools, the present invention is particularly advantageous, because it allows a dome to be formed with the cover, as illustrated in
By pressurizing the volume under the cover only when the movable end (10m) is in covering position, it is possible to have the longitudinal edges (10L) slide into the rails (6) during the displacement of the movable end without the cover being taut as illustrated in
Finally, when the cover forms a dome, the outer surface of the cover is perfectly smooth and gives a superior esthetic appearance.
Number | Date | Country | Kind |
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2018/5905 | Dec 2018 | BE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2019/084819 | 12/12/2019 | WO | 00 |