FR2877962A1 - Automatic swimming pool or reservoir covering device for e.g. avoiding deposit of leaves, has charging unit charging batteries through solar energy by regulating charging voltage delivered to batteries and by avoiding discharge of batteries - Google Patents

Abstract

The device has an apron (2) with a juxtaposition of sheets (3) articulated with each other and moving from an unwinding position for covering a swimming pool towards a winding position around a winding shaft (4), by an electric motorization unit (5) supplied by batteries (6). A charging unit charges the batteries through solar energy by regulating a charging voltage delivered to the batteries and by avoiding discharge of the batteries.

Description

The present invention relates to an automatic recovery device

  swimming pool, body of water or the like, comprising an apron consisting of a juxtaposition of blades articulated between them and intended to move from a position unwound in

  covering said pool to a wound position around a winding shaft, under the action of electric motor means powered by batteries.

  The present invention is in the field of pool cover devices, body of water or the like, in particular the automatic devices for pool cover, body of water or the like.

  It is necessary to cover a pool or similar for obvious reasons of safety, as well as to reduce heat exchange during the night, thus avoiding a cooling of the pool water, as well as to avoid the deposition of foreign bodies when the pool is not used, for example leaves, insects, etc. Swimming pool cover devices have already been devised and include an apron composed of a juxtaposition of blades articulated together and designed able to come wrapped around a winding tube. Said apron moves from an extended position covering the pool or the body of water to a position wrapped around said winding tube, or vice versa, by actuating the latter in rotation.

  This actuation was initially planned manual and then it was imagined to automate it by means of a suitable engine, generally of electric type. The power supply of such an electric motor has been provided of two types, by connection or by battery. The installation of a power supply by connection has the disadvantage of a costly and complicated installation since it requires the connection to an electrical network, often that of the nearest home, and many development work. To remedy this, the use of batteries overcame these problems of connection to an existing power grid. However, their cost remains high and their autonomy reduced, requiring regular reloading or even replacement. In addition, to recharge said batteries, the user must dismount the device in order to remove them to recharge them through a separate accumulator.

  The invention aims to overcome the drawbacks of the state of the art by providing an automatic pool covering device, body of water or the like using batteries recharged by solar energy and whose recharging improves their longevity.

  To do this, the invention relates to such a device comprising an apron composed of a juxtaposition of blades hinged together and intended to move from a position unrolled in covering said pool to a position wrapped around a shaft of winding, under the action of electric motor means powered by batteries, characterized in that it comprises means designed to charge said batteries through solar energy by regulating the load and avoiding discharge said batteries.

  According to other characteristics of the invention, said charging means comprise means designed to connect the batteries in parallel during their charging and in series when they supply said drive means.

  Advantageously, said charging means comprise a regulator of the maximum voltage of the charge delivered to said batteries.

  Preferably, said charging means comprise means designed to prevent the discharge of the batteries, in particular through a non-return diode.

  In a particular embodiment, said charging means comprise at least one photovoltaic sensor with high light sensitivity.

  Advantageously, said loading means comprise removable connection means to an electrical network.

  Preferably, said device comprises means for manually actuating said apron.

  Advantageously, said charging means comprise means designed to cut the supply of said motorization means by the batteries when they reach a critical voltage threshold.

  Other characteristics and advantages of the invention will emerge from the following detailed description of non-limiting embodiments of the invention, with reference to the appended figures in which: FIG. 1 represents a partial schematic view of the device according to FIG. 'invention; and FIG. 2 represents an operating diagram of the device according to the invention.

  The invention relates to an automatic device 1 covering pool, body of water or the like.

  Such a device comprises an apron 2 consisting of a juxtaposition of blades 3 hinged together and intended to be wound around a winding shaft 4. Said deck 2 is actuated from an extended position in which it covers said pool, water plane or the like, to a wound position in which the blades 3 of said apron 2 are wound around said winding shaft 4.

  The operation of the deck 2 is effected by motor means 5 of the electrical type, for example a tubular motor of known type generally having an operating voltage of about 24 volts. This engine is supplied with energy by batteries 6 provided rechargeable. In a preferred embodiment of the invention, the latter can deliver a DC voltage of 12 volts with an intensity of 6.5 amperes.

  In order to allow power supply of the drive means 5 by said batteries 6, means are designed capable of charging or recharging said batteries 6 through solar energy. These charging means are designed capable of converting solar energy into electrical energy for charging or recharging the batteries 6. To do this, in a particular embodiment, these charging means comprise at least one photovoltaic sensor 7 with high light sensitivity. preferably two photovoltaic cells of known type, each capable of delivering a voltage of 12 to 22 volts. These sensors 7 may be in the form of at least one panel.

  In order not to damage the batteries 6 by a too high charging voltage, the charging means are designed able to regulate the charge transmitted to said batteries 6. These regulation means allow the passage of a maximum charge voltage, preferably 13 , 8 Volts. These regulation means are included on an electronic management card 8. This regulation of the voltage delivered to the batteries 6 makes it possible to increase the service life of the latter and to optimize the load.

  These means for regulating the charge of the batteries 6 make it possible to measure the voltage at the terminals of the batteries 6 and to compare it with a fixed reference voltage so as to cut the charge when the latter is complete.

  In addition, the charging means prevent discharging said batteries 6 when they are not charging, for example at night or when the sun is not sufficient to power the batteries with adequate voltage. To do this, these charging means comprise means designed to prevent the discharge of the batteries. These anti-discharge means may be in the form of a diode (or a diode bridge) non-return which may be located on said electronic management card 8. In addition, this anti-return diode prevents the return of the current to said sensors 7.

  The charging means further comprise means 9 adapted to connect the batteries 6 in parallel during their charging and in series when they supply said drive means 5. In fact, in the preferred embodiment of the device according to the invention , the drive means 5 require a voltage greater than the voltage of a single battery 6, in the case of a motor having an operating voltage of 24 volts. By series coupling batteries 6 each delivering a voltage of 12 volts, this operating voltage of the engine is then reached. On the other hand, the charging of the batteries 6 does not require that the solar sensors 7 be arranged on a series circuit, since the voltage thus delivered could reach 24 to 40 volts and thus deteriorate said batteries 6. This is why it was imagined the possibility of coupling the batteries 6 by arranging them on a circuit in parallel when they are in charge and supplied by said sensors 7. These connection means 9 may be in the form of a relay which makes it possible to couple the batteries 6 on a parallel circuit or on a series circuit.

  The transition from the series coupling to the parallel coupling, or vice versa, takes place when the drive means 5 are actuated. In the preferred embodiment of the device according to the invention, control means 10 are provided for operate the motorization means. These means can be in the form of a key switch 11 which can be located on the management electronic card 8.

  Advantageously, to prevent the total discharge of the batteries and therefore their anticipated deterioration, the charging means comprise means designed able to cut off the supply of said motorization means 5 by the batteries when they reach a critical voltage threshold. These breaking means detect a threshold below which the operation of the motor requires a higher voltage, for example preferably a voltage of 7 or 8 volts. These means automatically cut off the power supply of the motor and can warn the user of the low charge of the batteries 6, in particular through light or sound means.

  In case of unloading of the batteries 6, it is however necessary to actuate said apron 2. To do this, the device 1 according to the invention provides manual actuating means 12 of said apron 2. These means 12 may be presented under the form of a removable crank 13 which can be located at the winding shaft 4 of the deck or other suitable place. Automatic or manual means for disengaging the winding shaft 4 and motorization means 5 may be provided to allow manual handling of the deck 2.

  Similarly, said charging means may comprise connecting means 14 provided for removable to an electrical network, for automatically actuating said motorization means 5 or for faster charging of said batteries 6. The connection, for example, of an extension cord to a Existing electrical network, such as a home network, can increase the amperage of the current delivered to charge the batteries. A transformer 15 of known type makes it possible to transform the 220 volts AC voltage into 18 volts DC voltage. Indeed, the solar sensors 7 deliver a charging current of 125 milliamps whereas an extension connected to a conventional home network delivers a higher charging current of about 300 milliamps per battery 6. This type of connection reduces the charging time, in particular after a long period of activity or inactivity of the device 1.

  In order to prevent any deterioration of the elements of the circuit, the non-return means make it possible in particular to prevent the current of the mains supply from circulating towards the sensors 7. In addition, the antiretour means prevent the return of the current coming from said sensors. to the mains power supplies.

  In the event of malfunction of the transformer 15, the charging circuit of the batteries 6 being the same as the circuit previously used, it retains these regulating characteristics of the maximum voltage delivered to said batteries 6, thus preventing any deterioration of the latter.

  The device 1 according to the invention therefore eliminates the heavy and expensive work related to a connection to an electrical network. The use of rechargeable batteries 6 by solar energy, including providing means for regulating the load and unloading, allows to increase their service life.

  Of course, the invention is not limited to the examples illustrated and described above which may have variants and modifications without departing from the scope of the invention.

Claims (8)

  1. Device (1) automatic pool cover, one (4), electric type in that it water or juxtaposition pass from a pool to winding apron (2) consisting of a between they and intended to cover said position wrapped around a shaft under the action of motorization means (5) powered by batteries (6), characterized comprises means designed to load similar, comprising a blade (3) articulated position unwound in said batteries (6) through the solar energy by regulating the load and avoiding the discharge of said batteries (6).   2. Device (1) automatic pool cover according to claim 1, characterized in that said charging means comprise means (9), including a relay, designed to connect the batteries (6) in parallel at their loading and in series when they supply said drive means (5).   3. Device (1) automatic pool cover according to any one of claims 1 or 2, characterized in that said loading means comprise a regulator of the maximum voltage of the charge delivered to said batteries (6).   4. Automatic swimming pool covering device according to any one of the preceding claims, characterized in that said charging means comprise means designed to prevent the discharge of the batteries (6), in particular through an anti-aging diode. return.   5. automatic swimming pool covering device according to any one of the preceding claims, characterized in that said loading means comprise at least one sensor (7) photovoltaic high light sensitivity.   6. Automatic swimming pool covering device according to any one of the preceding claims, characterized in that said loading means comprise connecting means (14) removable to an electrical network.   7. Automatic swimming pool covering device according to any one of the preceding claims, characterized in that it comprises manual actuating means (12) of said apron (2), in particular a crank (13).   8. automatic swimming pool covering device according to any one of the preceding claims, characterized in that said loading means comprise means designed to cut off the supply of said motorization means (5) by the batteries (6) when these last reach a threshold of critical tension.