FR2997714A1 - END LIMIT DETERMINATION DEVICE - Google Patents

Abstract

The subject of the present invention is a device for determining end-of-travel for a cover apron winder (3) of a swimming pool comprising: a first detection means (10) intended to detect the presence of an apron part in first detection means (10), so as to define a first operating state (E1) when no portion of the apron (3) is opposite the first detection means (10), and a second operating state ( E2) when a portion of the deck (3) is opposite the first detection means (10), - a second detection means (20) for detecting the presence of an apron part (3) opposite the second detection means (20), so as to define a first operating state (E1) when no portion of the apron (3) is opposite the second detection means (20), and a second operating state (E2) when a portion of the apron (3) is opposite the second detection means (20), the first detection means (10) and the second detection means (20) being arranged to define a configuration (C1) corresponding to the identification of a limit switch in which the first detection means (10) is in its second operating state (E2) and the second detecting means (20) is in its first operating state (E1).

Description

The present invention relates to the field of swimming pool covers and more particularly to an end-of-travel device for winding a pool cover apron. It is known to have devices for determining the end-of-travel limit for submerged winder of a pool cover apron, comprising metal elements placed on different deck blades so that sensors can detect the passage of these elements and therefore blades on which they are arranged. However, these metal elements are glued to the blades or directly inserted into the blades of the cover deck, which forces on the one hand to select the blades on which these elements must be applied, and which can cause on the other hand a degradation of these blades during the application or replacement of these metal elements. In addition, such devices detect only a passage of these elements in front of a sensor and are therefore not able to determine the direction of passage of a metal element in front of a sensor. In case of non-detection of a metal element for any reason, such devices are therefore unable to determine the position of the cover apron. Similarly, following a reset, such devices have no reference and are also no longer able to determine the position of the cover apron. Indeed, the direction of passage of the deck is deduced from previous detections stored. It is also known to have end-of-stroke detection devices for a pool deck winder, whose said reel comprises an incremental rotary encoder which makes it possible to correlate a positioning of the roof deck with a number of rotation of the pool deck. the reel. However, in case of encoder failure the motor, if the sensor is integrated, must be replaced in its entirety, which implies a significant associated cost. The present invention aims to solve all or part of the disadvantages mentioned above. For this purpose, the subject of the present invention is a device for determining end-of-travel for a pool deck winder comprising: a first detection means intended to detect the presence of an apron portion opposite of the first detection means, so as to define a first operating state when no portion of the deck is opposite the first detection means, and a second operating state when a portion of the deck is opposite the first detection means a second detection means for detecting the presence of an apron portion facing the second detection means, so as to define a first operating state when no portion of the apron is facing the second detection means, and a second operating state when a portion of the deck is opposite the second detection means, the first detection means and the second detection means being arranged to define a configuration corresponding to the identification of a limit switch in which the first detection means is in its second operating state and the second detection means is in its first operating state. This arrangement makes it possible to dispense with the application of metallic elements on the cover apron and makes it possible to have a device based on the positioning of the extreme blades of the covering apron and not only on the positioning of certain intermediate blades of the cover. cover apron. Such a device is also easy to access, easy to install and does not require the removal of the retractor in case of failure. The proposed configuration can, for example, make it possible to detect the end of travel of the covering apron and thus to prevent movement of the retractor intended to drive the covering apron beyond this position in the direction of unwinding. According to one aspect of the invention, the first detection means is similar to the second selection means. According to one aspect of the invention, in addition to the first configuration, the first detection means and the second detection means are arranged to define a second end-of-travel configuration in which the first detection means is in its first state. of operation and the second detection means is in its second operating state. The second configuration can, for example, make it possible to detect the end of travel of the winding of the covering apron and thus to prohibit a movement of the winder intended to drive the cover apron beyond this position in the direction of the winding. According to one aspect of the invention, in addition to the first configuration and optionally in addition to the second configuration, the first detection means and the second detection means are arranged to define a third configuration in which the first detection means is in its second operating state and the second detecting means is in its second operating state. This arrangement can make it possible to detect an intermediate position between the unwound end-of-travel position and the wound end-of-travel position permitting movement of the reel to drive the cover apron in the direction of unwinding towards its end-of-travel position. unwound or in the direction of winding to its wound end position.

According to one aspect of the invention, the first detection means and the second detection means are arranged in an offset manner in a winding direction and / or unfolding of the deck. According to one aspect of the invention, the first detection means and / or the second detection means comprise a movable member able to be moved by the contact of an apron portion respectively facing the first detection means and / or the second detection means between a first position corresponding to the first operating state respectively of the first detection means and / or the second detection means and a second position corresponding to the second operating state respectively of the first detection means and / or the second means respectively detection. According to one aspect of the invention, the first detection means and / or the second detection means comprise in addition to the movable member a sensor arranged to detect the presence or absence of the movable member in its corresponding second position. at a positioning of the movable member facing the sensor. According to one aspect of the invention, the sensor of the first detection means and / or the second detection means is of the inductive type. According to one aspect of the invention, the device comprises a first support for the first detection means and a second support for the second detection means.

This arrangement makes it possible to correctly position the detection means so that the cover apron can ensure the switchover between the first operating state and the second operating state of the detection means between the two end-of-travel positions of the apron. blanket. According to one aspect of the invention, the sensor of the first detection means is arranged transversely or longitudinally to the first support of the first detection means and / or the sensor of the second detection means is arranged transversely or longitudinally to the second support of the second means of detection. detection. According to one aspect of the invention, the first support and the second support are movable relative to each other. This arrangement makes it possible to adapt the positioning of the detection means to the radius of curvature formed by the blades of the covering apron 15 which varies during their winding around the reel. According to one aspect of the invention, the first support is connected to the second support by a pivot connection. According to one aspect of the invention, the device comprises a holding means connected to the first support or the second support and intended to maintain the first support or the second support at a fixed point relative to the pool. According to one aspect of the invention, the holding means is connected to the first support by a pivot connection. According to one aspect of the invention, the holding means comprises a hooking means for forming a pivot connection with the fixed point. According to one aspect of the invention, the holding means comprises means for adjusting the distance separating two ends of the holding means. This arrangement makes it possible to adapt the device to different lengths of cover apron. According to one aspect of the invention, the holding means comprises a first portion and a second portion forming an angle. According to one aspect of the invention, this angle is for example between 1000 and 179 °. According to one aspect of the invention, the device comprises a weighting means connected to the second support.

This arrangement makes it possible to stabilize the second detection means on the apron. According to one aspect of the invention, the first support comprises a first stop arranged to limit the movement of the movable member of the first detection means, and / or the second support comprises a second stop arranged to limit the movement of the organ. mobile of the second detection means. The present invention also relates to a pool cover system comprising a submerged winder arranged to drive a cover apron characterized in that it comprises a device as described above intended to cover at least one area to be covered and uncovered by cover apron. In any case, the invention will be better understood with the aid of the description which follows, with reference to the appended schematic drawing showing, by way of non-limiting example, a pool cover system and a detection device according to the invention. 'invention. Figure 1 shows a first configuration of the detection device. 20 detection. detection. FIG. 2 shows a second configuration of the device of FIG. 3 represents a third configuration of the device of FIG. 4 illustrates a perspective view of a portion of the detection device according to a first embodiment of the invention. FIG. 5 illustrates a view from above of the portion of the detection device illustrated in FIG. 4. FIG. 6 illustrates a profile view of the portion of the detection device of FIG. 4 disposed in a first position of an organ. of the device. Figure 7 illustrates a side view of the portion of the detecting device of Figure 4 disposed in a second position of a device member. Figure 8 illustrates a perspective view of a portion of the detection device according to a second embodiment of the invention. FIG. 9 illustrates a view from above of the portion of the detection device illustrated in FIG. 8.

Figure 10 illustrates a side view of the portion of the detection device of Figure 8 disposed in a first position of a device member. Figure 11 illustrates a side view of the portion of the detecting device of Figure 8 disposed in a second position of an organ of the device. Figure 12 illustrates another part of the detection device according to the invention. As illustrated in FIGS. 1 to 3, a pool cover system 100 10 according to the invention comprises a submerged reel 2 intended to wind and unroll a cover apron 3 respectively in a winding direction SE and a direction of flow SD 3. The submerged reel 2 is usually arranged in a dedicated compartment C of the pool and is separated from the bathing area ZB 15 by a partition 7. The compartment C is hidden under gratings 6 supporting a part on a pool edge and secondly on a fixed beam 4 itself taking support on two side edges of the pool. The fixed beam 4 which forms a fixed point relative to the pool 20 comprises a groove 4a cylindrical whose function is detailed later in the text. The covering apron 3 comprises a plurality of blades 5 fitted into each other with sufficient mechanical clearance to allow them to be wound around the submerged reel 2. The blades 5 are sealed so as to be able to move on the water line 8 in the bathing area ZB. The covering apron 3 comprises in particular two end blades 5a, 5b: a first end blade 5a which is the first to be wound on the reel 2 and the last to be unwound from the reel 2, and a second end plate 5b which is the last to be wound on the reel 2 and the first to be unwound from the reel 2. During the winding and uncoiling phases, the covering apron 3 is intended for through an opening 9 disposed between the fixed beam 4 and the partition 7.

For proper operation of the roofing system 100, the pool must be filled to a sufficient water level so that the water line 8 passes through this opening so that the roof deck 3 is moved through the pool. opening 9 without generating friction on the fixed beam 4 or on the partition 7. In addition, the cover system 100 comprises a device 1 for determining the limit switch for the submerged winder 2 cover apron 3. This device 1 comprises first detection means 10 and second detection means 20. The first detection means 10 is intended to detect the presence of an apron portion 3 facing the first detection means 10, so as to define a first detection means 10. operating state E1 when no portion of the deck 3 is facing the first detection means 10, and a second operating state E2 when a portion of the deck 3 is facing the first detection means 10. L e second detection means 20 is intended to detect the presence of an apron portion 3 facing the second detection means 20, so as to define a first operating state El when no portion 20 of the apron 3 is opposite the second detection means 20, and a second operating state E2 when a portion of the deck 3 is facing the second detection means 20. In the example shown, the first detection means 10 is similar to the second detection means 20 The first detection means 10 and the second detection means 20 follow the logic function of a binary operator, so that the first operating state E1 can for example correspond to a logical state of non-detection while the second state E2 operation can correspond to a logic detection state. In addition, in the example shown, the first detection means is arranged upstream of the second detection means 20 in the direction of the winding SE and is arranged downstream of the second detection means in the SD direction of the winding direction. Thus, as shown in FIG. 1, the first detection means 35 and the second detection means 20 are arranged to define a configuration C1 corresponding to the identification of a limit switch in which the first detecting means 10 is in its second operating state E2 and the second detecting means 20 is in its first operating state E1. In the example presented, taking into account the relative positioning of the two detecting means 10, 20, this configuration Cl makes it possible to identify the end of travel corresponding to the integral unwinding of the covering apron 3. Indeed, in this configuration Cl the first detection means 10 is actuated by a blade 5 of the cover apron 3, the first detection means 10 is therefore in its second operating state E2. However, the second detection means 20 is not actuated by any blade 5 because the end plate 5a of the covering apron 3 is disposed beyond the second detection means 20 in the SD direction of the unwinding. The second detection means 20 is therefore in its first operating state E1. Other configurations can also be envisaged. In particular, as shown in FIG. 2, in addition to the first configuration C1, the first detection means 10 and the second detection means 20 are arranged to define a second end-of-travel configuration C2 in which the first detection means 10 is in its first operating state E1 and the second detection means 20 is in its second operating state E2. In the example presented, this second configuration C2 makes it possible to identify the end of travel corresponding to the integral winding of the cover apron 3. Indeed, in this second configuration C2 the second detection means 20 is actuated by a blade 5 of the cover apron 3, the second detection means 20 is therefore in its second operating state E2. However, the first detection means 10 is not actuated by any blade 5 since the end plate 5b of the covering apron 3 is disposed beyond the first detection means 10 in the direction of the winding SE. The first detection means 10 is thus in its first operating state El. Moreover, as illustrated in FIG. 3, in addition to the first configuration C1 and the second configuration C2, the first detection means 10 and the second detection means 20 are arranged to define a third configuration C3 in which the first detection means 10 is in its second operating state E2 and the second detection means 20 is also in its second operating state E2.

As illustrated in FIGS. 1 to 3, the first detection means and the second detection means 20 are arranged in an offset manner in the winding direction and in the unwinding direction of the covering apron 3 so that the blades ends 5a, 5b can escape under only one of the two detection means 10, 20 in the end positions. As illustrated in these same Figures 1 to 3, the device 1 comprises a first support S1 for the first detection means 10 and a second support S2 for the second detection means 20. The first support S1 is connected to the second support S2 by a pivot connection A allowing the first support Si and the second support S2 to follow the variable radius of curvature of the covering apron 3 during its unwinding or winding on the reel 2. The first support Si is connected to the beam fixed 4 by a holding means 30. As illustrated in Figure 12, the holding means 30 comprises a first portion 31 and a second portion 32 forming an angle between 1000 and 179 ° with the first part 31. The first part 31 is formed by a flat plate and comprises on its free end a protruding element 33 of cylindrical shape arranged to be inserted and slide in the groove 4a 25 of the fixed beam 4 while being have been maintained at this one. The cylindrical shape of the protruding element 33 and the complementary cylindrical shape of the groove 4a of the fixed beam 4 make it possible to generate a pivot connection between the holding means 30 and the fixed beam 4. The second part 32, which is also flat, is itself formed by a first member 32a fixed to the first part 31 and a second member 32b arranged to be connected to the first support Si. The first member 32a comprises two parallel oblong slots 34 extending substantially the entire length of the first member 32a . The second member 32b comprises two orifices 35 arranged facing the two oblong slots 34. The two orifices 35 are intended to receive fastening means (not shown), for example of the screw nut type. These fixing means can be inserted through the oblong slots 34 and slide along them. The fastening means are then clamped to the orifices 35 in a determined position. Thus, the two oblong slots 34 and the two orifices 35 form adjusting means 36 for adjusting the length between the two free ends of the holding means 30. This length is intended, on the one hand, to correct the differences to different widths of compartment C and secondly to adapt to different diameters of the roll generated by the winding of the cover apron 3. In addition, the second member 32b also comprises near its free end, two legs transverse plates 37 bent outwardly from the angle formed between the first portion 31 and the second portion 32 of the holding means 30. These two transverse tabs 37 each comprise an orifice and are arranged to form a pivot connection with the first support Si Finally, on its free end the second member 32b comprises two other transverse tabs 38 extending in the plane of the second member 32b. The function of these transverse tabs 38 is described later in the text. Figures 4 to 7 show a first embodiment of a detection means 10, 20 disposed on its support Si, S2. Figures 8 to 11 show a second embodiment of a detection means 10,20 disposed on its support Si, S2. In these two embodiments, the first detection means 10 being similar to the second detection means 20 and the first support Si being similar to the second medium S2, it is described in the following description only the first means of detection. detection 10 and the first support Si. Of course, this description also applies to the second detection means 20 and the second support S2. In the first embodiment, the first support Si is formed by a first plate 41 arranged parallel to a second plate 42, the two plates 41, 42 both comprising a basket handle shape. The two plates 41, 42 are held at a distance by a first spacer 43 and a second spacer 44 disposed both on either side of a median position of the two plates 41, 42. The two plates 41, 42 comprise near a first of their two ends a first series of orifices 45 facing each other to make the pivot connection A with the second support S2. The two plates 41, 42 also comprise, near the other of their two ends, a second series of orifices 46 facing each other arranged to be aligned with the orifices of the transverse tabs 37 of the holding means. 30 so as to also form a pivot connection. The movement of this last pivot connection is nevertheless limited in a direction of rotation by the presence of the transverse tabs 38 of the holding means 30 which abut against the flanks of the two plates 41, 42, thus constituting an anti-reversal and anti-rotation system. -pliement device 1 during the passage of the cover apron 3. Finally, the two plates 41, 42 comprise near the middle position a third series of orifices 47 facing each other 20 arranged to allow the fixing a portion of the first detection means 10. In the example shown, the first detection means 10 comprises a first fixed portion composed of an inductive sensor 11 of cylindrical shape having a thread on one of its ends. Of course, the present invention is not limited to this type of sensor and could include any type of sensor capable of performing the detection function. Moreover, in this first embodiment, the inductive sensor 11 is disposed transversely to the two plates 41, 42. This threaded end is arranged so as to project between the two plates 41, 42 through an orifice of the third series of holes 47 formed on the first plate 41. The inductive sensor 11 is thus fixed on the first plate 41 by means of a nut 12 which is screwed on the end thread of the inductive sensor 11.

An additional element 14 is fixed on the second plate 42 through the other orifice of the third series of orifices 47 so as to also project between the two plates 41, 42. The function of this additional element is described later. in the text.

In addition, the first detection means 10 comprises a second mobile part composed of a movable member 13. This movable member 13 is held at the first spacer 43 by a cylindrical portion 15 surrounding the first spacer 43 so as to form a pivot link between these two elements.

This movable member 13 is formed by the folding of a metal strip in different places, thus defining several other parts 13a, 13b, 13c, 13d of the movable member 13. The movable member 13 has four different parts 13a, 13b, 13c, 13d.

Three of these four parts 13a, 13b, 13c are formed by a transverse folding of the metal tongue. Thus, the movable member 13 has a first portion 13a connected on the one hand to the cylindrical portion 15 forming the pivot connection with the first spacer 43 and on the other hand to a second portion 13b forming a first folding angle α with the first part 13a. The second portion 13b is connected on the one hand to the first portion 13a and secondly to a third portion 13c forming a second folding angle a2 with the second portion 13b. A fourth portion 13d is formed by a substantially right-angled longitudinal fold a3 from the first portion 13a on the edge closest to the inductive sensor 11. The length of each of these four portions 13a, 13b 13c and 13d as well as the value of the first and the second folding angle al, a2 and the position of the folding forming the fourth part 13d are arranged so that the movable member 13 can move around the pivot connection formed by the cylindrical portion 15 and the first spacer 43 between a first position P1 and a second position P2 defined below. In the first position P1, the fourth part 13d is not opposite the inductive sensor 11. This first position P1 corresponds to the first operating state E1 of the inductive sensor 11.

In this first position Pi, the third portion 13c under the effect of gravity also abuts against the second spacer 44 and contiguous portions of the first portion 13a and the second portion 13b of the movable member 13 forming the first angle b) are protruded out of an area between the surface of the two plates 41, 42. In the second position P2, the fourth portion 13d is placed facing the inductive sensor 11. This second position P2 corresponds to in the second operating state E2 of the inductive sensor 11. In this second position P2, the first part 13a also abuts against the additional element 14 and contiguous portions of the first part 13a and the second part 13b of the body The movable member 13 forming the first folding angle α projects into an area between the surface of the two plates 41, 42. The movable member 13 is returned to its first position P1. the effect of gravity. Likewise, the first support Si and the second support S2 are held by gravity in contact with the outer surface of the covering apron 3. The various pivot connections of the device 1 contribute to maintaining this contact throughout the winding and 3. Advantageously, weighting means or counterweight 50 connected to the second support S2 may optionally be used to further contribute to maintaining this contact. The operating principle of the second embodiment of the device 1 is similar to that of the first embodiment. Nevertheless, the signal processing performed by the information provided by the inductive sensor 11 differs between these two embodiments. Thus, in the second embodiment, the movable member 13 is always arranged to move between the first position P1 and the second position P2. However, in the first operating state E1 of the inductive sensor 11 corresponding to the first position Pi, the fourth portion 13d of the movable member 13 is opposite the inductive sensor 11 and in the second operating state E2 of the inductive sensor 11 corresponding to the second position P2, the fourth part 13d of the movable member 13 is not opposite the inductive sensor 11. In this second embodiment, the signal processing carried out downstream of the detection is reversed with respect to that realized in the first embodiment. In addition, the arrangement of certain elements of the device 1 between the two embodiments presented are different, some of these elements have been added and others removed. In the second embodiment, there is the same first set of ports 45 and the same second set of orifices 46 as in the first embodiment. The third orifice series 47 is also present but differs from that employed in the first embodiment in that the orifice in which the sensor 11 was held is no longer arranged for passage of the threaded end of the sensor. 11. Indeed, in this second embodiment, the inductive sensor 11 is disposed longitudinally to the two plates 41, 42 and between them. In addition, the two plates 41, 42 comprise between their central position and their second series of orifices 46, a fourth series of orifices 48 20 disposed opposite each other. In the example presented, this fourth series of orifices 48 comprises four orifices distributed in pairs on each of the two plates 41, 42. This fourth series of orifices 48 allows the attachment of a plate 25 for holding the inductive sensor 11 This holding plate 21 has a U-shape whose tabs comprise orifices arranged to face the orifices of the fourth series of orifices 48 of the two plates 41, 42. Fixing means 22 passing through these various orifices 30 allow to secure this holding plate 21 to the two plates 41, 42. The base of the U of the holding plate 21 comprises an orifice whose diameter allows the passage of the threaded end of the sensor 11 and its attachment by the A fifth set of orifices 49 has been added between the second set of ports 46 and the ends of the two plates 41, 42 of the second support S2 so as to form connection means for the hooking of the weighting means or counterweight 50 on the second support S2. As for the first embodiment, the movable member 13 is formed by folding a metal strip in different places.

Of course, other manufacturing processes can be used to obtain the movable member 13, such as a molded plastic support on which it is glued a metal strip. Parts 13a, 13b and 13c are similar to those of the first embodiment.

However, the cylindrical portion 15 forms a pivot connection with an additional spacer 43 'disposed near the spacer 43. The portion 13d is in turn disposed in the extension of the portion 13c and forms with the latter an angle a3. In the example presented, this angle a3 is a right angle.

In addition, in this second embodiment, the metal strip comprises an opening 23 of rectangular shape made at the angle α between the first portion 13a and the second portion 13b. This opening 23 is oriented substantially longitudinally to the two plates 41, 42.

From each of the two longitudinal sides of this opening 23 extend respectively two parts 13e, 13f arranged opposite one another and folded at right angles to the first portion 13a or the second portion 13b. These two parts 13e, 13f are oriented towards the inside of the angle a 25 and each comprise an orifice to form two bearings for the axis 24 of a wheel 25. The axis 24 is arranged transversely to the direction of displacement 3. The wheel 25 protrudes from the metal strip and has the function of reducing the friction between the movable member 13 and the covering apron 3. Thus, in the first configuration Cl, the first folding angle al in the first embodiment or the wheel 25 in the second embodiment of the movable member 13 of the first detecting means 10 is supported on the outer surface of the cover apron 3, which maintains the movable member 13 in its second position P2 and prevents it from reaching its first position Pl.

In this first configuration Cl, the first folding angle α1 in the first embodiment or the wheel 25 in the second embodiment of the movable member 13 of the second detection means 20 is in turn (e) maintained. ) by gravity in its first position P1 due to the absence of the cover apron 3 in line with the movable member 13. The end of travel of the unwinding phase is thus detected by reading the logic table deduced from the combination of the signals delivered by the inductive sensor 11 of each of the two detection means 10, 20. On the other hand, in the second configuration C2, the first folding angle α1 in the first embodiment or the roulette wheel 25 in the second embodiment of the movable member 13 of the first detection means 10 is maintained (e) by gravity in its first position P1 due to the absence of the cover apron 3 in line with the organ 13. In this second configuration C2, the first folding angle α1 in the first embodiment or the wheel 25 in the second embodiment of the movable member 13 of the second detection means 20 bears on the outer surface of the covering apron 3, which keeps the movable member 13 in its second position P2 and prevents it from reaching its first position Pl. The end of travel of the winding phase is thus detected by reading the logical table deduced from from the combination of the signals delivered by the inductive sensor 11 of each of the two detection means 10, 20. In the third configuration C3, the first folding angle α1 in the first embodiment or the wheel 25 in the second embodiment embodiment of the movable member 13 of the first detection means 10 and the second detection means 20 bear on the outer surface of the covering apron 3, which keeps the movable member 13 of the two x detection means 10, 20 in their second position P2 and prevents them from reaching their first position Pl. A position of the covering apron 3 between the winding end of travel and the unwinding end of stroke is thus detected by the reading of the logic table deduced from the combination of the signals delivered by the inductive sensor 11 of each of the two detection means 10, 20.

It should be noted that the logic signal returned by each of the two detection means 10, 20 in these three configurations C1, C2 and C3 is reversed between the two embodiments. Although the invention has been described in connection with particular exemplary embodiments, it is quite obvious that it is in no way limited thereto and that it comprises all the technical equivalents of the described means as well as their combinations. Thus, types of sensors other than inductive sensors may be used as well as other embodiments carrying out the detection function.

Claims (15)

REVENDICATIONS1. Device (1) for determining the end position for a cover apron winder (3) of a swimming pool comprising: - a first detection means (10) intended to detect the presence of an apron part opposite the first means detecting means (10), so as to define a first operating state (E1) when no portion of the apron (3) is opposite the first detecting means (10), and a second operating state (E2) when a portion of the apron (3) is opposite the first detection means (10), - a second detection means (20) intended to detect the presence of an apron part (3) facing the second detection means ( 20), so as to define a first operating state (E1) when no portion of the deck (3) is facing the second detection means (20), and a second operating state (E2) when a portion of the Apron (3) is opposite the second detecting means (20), the first detecting means (10) ) and the second detection means (20) being arranged to define a configuration (C1) corresponding to the identification of a limit switch in which the first detection means (10) is in its second operating state (E2) and the second detection means (20) is in its first operating state (E1). 2. Device (1) according to claim 1, wherein in addition to the first configuration (El), the first detection means (10) and the second detection means (20) are arranged to define a second configuration (C2) in which the first detecting means (10) is in its first operating state (El) and the second detecting means (20) is in its second operating state (E2). 3. Device (1) according to one of claims 1 or 2, wherein in addition to the first configuration (C1) and optionally in addition to the second configuration (C2), the first detection means (10) and the second detection means (20) are arranged to define a third configuration (C3) in which the first detection means (10) is in its second operating state (E2) and the second detection means (20) is in its second operating state (E2). 4. Device (1) according to one of claims 1 to 3, wherein the first detecting means (10) and the second detecting means (20) are arranged shifted in a direction of winding and / or unwinding of the apron (3). 5. Device (1) according to one of claims 1 to 4, wherein the first detection means (10) and / or the second detection means (20) 5 comprise a movable member (13) adapted to be moved by contacting an apron portion (3) respectively facing the first detection means (10) and / or the second detection means (20) between a first position (P1) corresponding to the first operating state (E1) respectively first detecting means (10) and / or second detecting means (20) and a second position (P2) corresponding to the second operating state (E2) respectively of the first detecting means (10) and / or the second detecting means (10). detection means (20). 6. Device (1) according to claim 5, wherein the first detection means (10) and / or the second detection means (20) comprise in addition to the movable member (13) a sensor (11) arranged to detecting the presence or absence of the movable member (13) in its second position (P2) corresponding to a positioning of the movable member (13) facing the sensor (11). 7. Device (1) according to claim 6, wherein the sensor (11) 20 of the first detection means (10) and / or the second detection means (20) is of the inductive type. 8. Device (1) according to one of the preceding claims comprising a first support (Si) for the first detection means (10) and a second support (S2) for the second detection means (20). 25 9. Device (1) according to claim 8, wherein the first support (Si) and the second support (S2) are movable relative to each other. 10. Device (1) according to one of claims 8 or 9, wherein the first support (Si) is connected to the second support (S2) by a pivot connection. 11. Device (1) according to one of claims 8 to 10, comprising 30 holding means (30) connected to the first support (Si) or the second support (S2) and intended to maintain the first support (Si) or the second support (S2) at a fixed point (4) with respect to the pool. 12. Device (1) according to claim 11, wherein the holding means (30) comprises means (36) for adjusting the distance separating two ends of the holding means (30). 13. Device (1) according to one of claims 8 to 12, wherein the holding means (30) comprises a first portion (31) and a second portion (32) forming an angle. 14. Device (1) according to one of claims 8 to 13 provided it depends on one of claims 5 to 7, wherein the first support (S1) comprises a first stop (44) arranged to limit the movement of the movable member (13) of the first detection means (10), and / or the second support (S2) comprises a second stop (44) arranged to limit the movement of the movable member (13) of the second means of detection (20). 15. Cover system (100) for swimming pool comprising a submerged winder (2) arranged to drive a cover apron (3) characterized in that it comprises a device (1) according to one of claims 1 to 14 for cover at least one area to be covered and uncovered by cover apron (3) .15