FR2978781A1 - DEVICE FOR HEATING A BASIN WATER - Google Patents

Abstract

The invention relates to a device for heating a pond water (3) (2) comprising a hydraulic circuit (1) between a suction mouth and a delivery mouth (8), a pumping device (4), and a device (5) for heating, characterized in that it further comprises a body (6) integral plunger having a submersible portion provided with at least one suction mouth and at least one mouth (8), and an out-of-water portion having water inlet and outlet water connections, as well as hydraulic connection lines between these fittings, the pump device (4), and the heating device (5).

Description

The invention relates to a device for heating a pond water, in particular an external device for heating a swimming pool. The swimming pools generally include a more or less complex hydraulic circuit allowing the conditioning of the water: filtration, chlorination, heating, etc. Such a hydraulic circuit is often integrated into the structural work of the pool, and includes water intake mouths and discharge ports distant from each other. The addition of a heating device to the hydraulic circuit is therefore both complex and expensive. Indeed, this operation requires the intervention of specialists in the technical room of the pool to mount a heating device in deflection of the hydraulic circuit. However, modifying the integrated hydraulic circuit of a swimming pool to add equipment, in particular a heating device, for example of the heat pump type, requires heavy intervention and major work that modifies the technical characteristics of the circuit. Lighter filtration devices have been proposed, as described in EP0145619, but they generally do not provide water heating, and are generally not compatible with the addition of a water heater to such a compact circuit. Indeed, the hydraulic connections are often close together in such a compact device and it is very difficult to add any element. In addition, the pumping of such a device is generally low power and therefore less effective than adding different devices on the hydraulic circuit. In all cases the intervention of a professional is necessary. The invention therefore aims to overcome these disadvantages by proposing a new device for heating a pond water. The invention aims to provide such a device whose fixing is simple and fast, and does not require the intervention of a specialist. The invention aims in particular to provide such a device that can be added simply to an existing pool and therefore without heavy modification of the basin, in particular that does not require modifying the walls of the pool or a pre-existing hydraulic circuit. The invention aims in particular to provide such a device that can be fixed (or installed) and uninstalled without emptying the pool, or even 5 while swimming. The invention also aims at providing such a device which is compact, in particular which does not interfere with swimming while it is in operation. The invention also aims to provide such a device that is inexpensive. Throughout the text, the term "water" is used for any aqueous composition. The water in a pond may contain dissolved salts, chemical elements, microorganisms, etc. To this end, the invention relates to a device for heating a pond water comprising: a hydraulic circuit adapted to ensure a circulation of liquid between at least one suction mouth of the pond water and at least one discharge mouth of the water of the basin, - a device for pumping water and a heating device interposed in the hydraulic circuit to generate a flow of water and to heat the water, characterized in that further comprises a plunger body having at least one suction mouth of said hydraulic circuit and at least one discharge mouth of said hydraulic circuit. In particular, advantageously a device according to the invention is also characterized in that: - the plunger is in one piece and has a submersible portion provided with at least one said suction mouth of said hydraulic circuit and at least one said discharge mouth of said hydraulic circuit, and an out-of-water portion having a water inlet connection and a water outlet connection; hydraulic connection lines extend between: water outlet connection of the plunger body and the pumping device, - the pumping device and the heating device, - the heating device and the water inlet connection of the plunger body, - the connection fittings Water inlet and outlet of the plunger body are hydraulically connected to the hydraulic lines by hydraulic connections. The invention also extends to a plunger body 10 comprising: - a submersible portion provided with at least one water suction mouth and at least one water discharge mouth, - a portion of of water equipped with: - a water inlet connector connected in hydraulic communication 15 to each water discharge mouth, - a water outlet connection connected in communication with each suction mouth of 'water. The plunger body according to the invention can be in one piece and have a peripheral housing. It may advantageously be provided with a fastener 20 to a side wall of the basin. Alternatively, it can be left free in the pool water, without being rigidly attached to the latter. The invention makes it possible to propose a device that can be simply added to an existing pool, regardless of the type of hydraulic circuit that the latter has. A device according to the invention can be installed by a user of the basin without special knowledge, and independently of a hydraulic circuit - including filtration - pre-existing. The invention proposes a heating device and a plunger whose installation and operation are simple and unexpected. Indeed, in tanks equipped in accordance with the state of the art of an integrated hydraulic circuit, the suction and discharge mouths are spaced apart from each other in order to prevent the water discharged (and therefore packaged). is not sucked into the hydraulic circuit instead of unconditioned water (dirty, cold, etc.): for example suction bottoms and discharge ports on the side walls near the surface of the water.

However, the inventors have surprisingly determined that, for the heating of water by means of a heating device, for relatively low water flow rates in the hydraulic circuit, there is in fact no need to arrange the mouths distant from each other, especially when they are oriented in different directions. This is particularly (though not exclusively) the case when the heater is a heat pump. Thus, when the suction and discharge mouths are not directly opposite, and their orientation is maintained fixed in time relative to the basin, the water repressed seems not to (or little) mix with water sucked over a short period of time. However, even if there persists a mixture between discharged water and water sucked, the inventors have surprisingly determined that, given the characteristics that can be conferred on the equipment of a device according to the invention, the action heating water by a heating device according to the invention is equally effective with suction and discharge ports close to each other, including arranged on the same plunger. This is particularly true for a heat pump, which is generally sized to operate at low flow rates and over a long period of time. Therefore, advantageously according to the invention, the suction and discharge mouths are formed in one and the same plunger of reduced dimensions relative to the basin. A plunger body according to the invention is a member that can be partially or fully immersed in the water of the basin. The invention makes it possible, for the first time, to propose a device for heating water to equip swimming pools that previously could not include them, in particular for equipping swimming pools that do not have built-in hydraulic circuitry for filtering. / or heating, for example aboveground or removable pools. The plunger of a device according to the invention is also particularly well suited to the use of the pool - in particular bathing - while the device is in operation because the suction and discharge ports are located in one place of the basin. Indeed a plunger of a device according to the invention is advantageously compact since the suction and discharge mouths can be close to one another, or even adjoin.

In addition, advantageously, a plunger of a device according to the invention is physically in one piece but disjoint from the pumping device and the heating device, so that it can be easily installed and removed independently of the rest of the device. hydraulic circuit. Indeed, the plunger can be made compact in a light material (eg polymeric synthetic material). In addition it has hydraulic connections for connection to the hydraulic circuit, so that it can be easily disconnected, moved independently of the rest of the hydraulic circuit, and reconnected. In addition, the simple fact of changing the length of the pipes connecting the pumping device and the heating device on the one hand, and the plunger on the other hand, allows to modify the action zone of the plunger (for example in the case of adjacent pools of the pool and jacuzzi type), without moving the pumping device and the heating device. Advantageously, the plunger of a device according to the invention comprises at least one hydraulic water outlet connection in hydraulic connection with each suction mouth, and at least one hydraulic connection of water inlet in hydraulic connection. with each discharge mouth. The pumping device and the reheating device may be located at or below the water level of the pond.

However, advantageously and according to the invention, the pumping device is disposed higher than each suction mouth of the plunger body which is open in the water basin. Thus, a plunger suction mouth is not a "skimmer" in which the water falls by gravity and accumulates before being pumped by the pumping device, but it is an active pumping from a mouth below the water level of the pond.

Moreover, in a device according to the invention, the pumping device can deliver a flow of any value. Nevertheless, advantageously and according to the invention, the pumping device is adapted to deliver a maximum flow rate of 5 m 3 / h. Indeed, a plunger body joining suction mouth (s) and discharge mouth (s) is a more particularly advantageous case when the flow rate created in a hydraulic circuit according to the invention is relatively low. The inventors have determined that the reheating of the pool remained effective at low flow despite the fact that the mouth (s) of suction and mouth (s) discharge are close (s) one (s) of (s) l 'other).

In particular the flow delivered by a pumping device according to the invention is advantageously less than 3 m 3 / h, which corresponds to the design of a heat pump for a pool of medium size. However nothing prevents, according to the invention to provide a heating device of another nature, for example electrical resistance, solar heating, etc. In addition, in order to improve the heating of the pool water by avoiding the mixing between sucked water and discharged water, advantageously and according to the invention, the minimum hydraulic distance to be traveled by a liquid between a suction mouth and a Plunger discharge mouth is greater than the minimum Euclidean distance between this discharge mouth and this suction mouth. Throughout the text, the term "hydraulic distance" is used for a distance to be traveled by an elementary volume of liquid between one point and another according to a path that a volume of liquid can travel (i.e. without crossing the wall).

The hydraulic distance between a suction mouth and a discharge mouth of a device according to the invention can be measured in different ways: either by passing from one to the other along the hydraulic circuit, or by passing by the basin. The minimum hydraulic distance between the suction mouth and the discharge mouth is generally in the basin, and it is always chosen greater than the geometric distance (Euclidean) in a straight line (hence through possible walls) between the mouth of the mouth. suction and discharge mouth. In particular, the hydraulic distance between the suction mouth and the discharge mouth is advantageously greater than or equal to twice the Euclidean distance between the suction mouth and the discharge mouth. That is to say that a volume of water can not pass in a straight line from a discharge mouth to a suction mouth. In particular, the suction and discharge mouths are not facing, so that the water discharged through the discharge mouth must bypass at least one obstacle, for example a portion of the plunger body, before reaching the mouth suction. In addition, advantageously and according to the invention, the suction and discharge mouths are formed on faces of the plunger body having normal half-lines which are non-intersecting. The suction and discharge mouths are not oriented in concurrent directions. In particular they do not open on the same concave face of the plunger body, nor on the faces of the plunger body concave with each other, that is to say, with respect to one another. According to the invention, the suction and discharge mouths of the plunger body can lead to the same plane face of the plunger body so as to be oriented along half-lines each normal to this flat face, and therefore parallel to each other. Alternatively, the suction and discharge ports open on the same convex face of the plunger body, or on two convex faces between them, and thus having normal half-lines which are divergent: the suction and discharge mouths do not are not facing and the minimum hydraulic distance separating them is greater than the Euclidean distance between them.

In a device according to the invention, the plunger may have a wide variety of dimensions and dimensions. Nevertheless, advantageously and according to the invention, the plunger body has a maximum size of less than one meter, in particular less than 50 centimeters.

This compactness of the plunger body allows easy transport of the plunger body, which can be removably mounted relative to the pool, and do not interfere with bathing or activities around a pool, even when the device according to the invention is in operation . Advantageously, a device according to the invention is also characterized in that it comprises at least one attachment member of the plunger relative to the pelvis, said fastener being adapted to be able to prohibit the displacement and rotation of the plunger relative to at the basin. Indeed, the plunger can easily be at least partially immersed in the basin or out of the basin. It therefore comprises at least one fastening member, in particular one or more fastening member (s) adapted (s) to ensure removable attachment of the plunger relative to the pelvis, and even more preferably, a quick fastener in particular that can be used without tools , without major work on the basin. For example, the plunger body has a fastening sole so that it can be simply placed at the edge of a pool, in stable balance under the effect of its own weight, resting on a rim of the basin, or it can be attached with suction cups, or with teeth cooperating with conjugated recesses on the basin rim, or with screws to form a vise (or clamp) and to hold a flange pelvis, between a sole and a lower protuberance of the plunger body.

Advantageously and according to the invention, the said fastening member (s) is (are) adapted (s) to allow a user to dispose the plunger body so that at least each mouth of suction is in the pond water and that the orientation of the suction and discharge mouths relative to the pond is constant over time. The fixation obtained is adapted to prevent any displacement and rotation of the plunger relative to the basin, and thus to maintain constant the position and orientation of the suction and discharge mouths. Throughout the text, the term "rim" is used in the broad sense and refers to projecting or not protruding flanges, with or without a more or less rounded edge demarcation between a side wall of a basin and a horizontal surface around the basin . It extends generally to any peripheral edge of the perimeter of a basin. Advantageously and according to the invention, each fastener is adapted so that the plunger body is removable.

The plunger body is thus preferably easily removable, so that the appearance of the pool can be restored as it was before the installation of a device according to the invention, as soon as the plunger is removed from the pool rim . In a variant, there is nothing to prevent the plunger from being fixed relative to the basin that is normally immovable, that is to say permanent, for example by gluing, sealing, etc. Moreover, advantageously and according to the invention , the plunger has dimensions adapted so that, when fixed in a basin, the suction and discharge ports are located in the upper part of the basin.

In particular, advantageously and according to the invention, the plunger has dimensions adapted so that, when it is fixed in a basin, the suction and discharge mouths are located in the upper quarter of the water volume of the basin , and especially near the surface of the water (water line).

Thus, the invention provides a compact plunger body, extending only close to the water line. Quite unexpectedly, the inventors have been able to observe that the heating of the pond water by any heating device, for example a heat pump, under these conditions, is just as effective as when the mouths are remote and / or near the bottom of the pond. The plunger body is compact and lightweight, preferably removable. It is easy to fix, to disassemble, and little annoying for swimming. In an advantageous embodiment and according to the invention, the plunger being fixed on a basin rim, it has a suction mouth directed towards a side wall of the basin and a discharge mouth facing away from the body. inside the basin. In particular, advantageously and according to the invention, the plunger being fixed on a basin rim, said suction and discharge mouths are oriented with directions of water flow through them which are at least substantially orthogonal to a 10 side wall of the basin, and in the extension of one another. In addition, preferably advantageously and according to the invention, the inlet and outlet mouths of the plunger body are hydraulically separated (from each other or from each other) by at least one anti-mixing wall of the body diver. Thus, the non-mixing between sucked water and reprocessed water is further improved. This anti-mixing wall may be a wall added to the plunger or specifically provided projecting the latter. Alternatively, the plunger body can, by its shape, act as anti-anchoring wall between the suction and discharge mouths. Such a wall makes it possible to limit as much as possible the "return" of the water discharged towards the suction mouth and thus to reduce or avoid any mixing between the discharged water and the sucked water. In addition, advantageously and according to the invention, the plunger body has a generally flattened shape. Such a flattened shape of the plunger body has many advantages. Thus the plunger forms a wall between a suction mouth and a discharge mouth located respectively on one and the other of the opposite faces of said flattened form. This flattened shape also makes it possible to minimize the bulk of the plunger in thickness inside the basin when it is fixed on a rim of a basin. This reduced space allows in particular the diver member to be less sensitive to waves from certain directions, depending on its orientation. In addition, the bulk of the plunger upward from a pool rim is limited, and the risks of accidents for users walking or running on the rims of the pool are reduced. In addition, advantageously and according to the invention, the plunger also has a bent portion between a support plate on a flange 5 of the basin and a submersible portion carrying the suction and discharge ports, so that it presents a generally bent shape adapted to circumvent a basin rim, and has a concave inner face, and a convex outer face. This shape of the plunger body allows for a simple attachment of the latter to the edge of a pool. Indeed, a first portion, said support sole, of the plunger body extending generally horizontally on one side of the bent portion serves as a support on the rim of a basin: this support sole can be simply placed on the upper surface of a basin rim. The support plate is therefore sufficiently long and / or wide and / or adherent to allow sufficient friction between said support plate and the edge of a basin so as to prevent the plunger from falling into the basin. In particular, when the plunger has a generally flattened shape between the inner face and outer face, the support sole has a large adherent surface relative to the volume - and therefore the weight - of the plunger. In particular, the support sole may be placed both on the edge of a basin dug in the ground and on the narrower edge of an above ground basin. A second portion, referred to as the submersible portion, of the plunger body extends generally vertically downward on the other side of the bent portion toward the pool water. The submersible portion is advantageously of slender shape. At least one suction port is provided in the submersible portion. The submersible portion is long enough to be at least partly in the pond water, and for the suction mouth to be immersed in the water when the plunger is attached to a rim of the pond. In particular, for pool-type basins, whose flanges generally form an angle of about 90 ° C between a vertical side wall of the basin and a rim-shaped lip and whose upper surface is generally horizontal, the main direction of the The base plate and the main direction of the submersible portion advantageously form, in the bent portion, generally an angle of between 70 ° C and 120 ° C, in particular between 85 ° C and 95 ° C. The plunger body further has an inner side of the concave side, which is opposite the rim of the pelvis when the plunger is fixed, and an outer face of the convex side, opposite to the inner face. The inner face of the support plate is intended to bear on an upper surface of a basin rim. The plunger of a device according to the invention is advantageously self-stable, for example thanks to a cantilever effect with respect to a rim of the pelvis, the support sole bearing on the rim and the angled and submersible portions extending beyond the rim.

Advantageously and according to the invention: - a suction mouth is formed on one side of the submersible portion of the plunger adapted and adapted to be oriented towards a side wall of the basin, - a discharge mouth is formed on one side of the submersible portion 20 of the plunger body adapted and intended to be oriented towards the interior of a basin. The suction and discharge mouths are oriented opposite each other to create a water circulation movement substantially perpendicular to a basin side wall: from this side wall of the basin to which the plunger body is fixed, towards the interior of the basin. The water heated by the heating device is therefore dispersed in the pool. In particular, the inventors have determined that the hot water discharged disperses in the basin in a half-space included beyond a vertical plane located between the two mouths and parallel to the side wall of the basin at the point of attachment of the body 30 diver. Not substantially mixing with the water of the complementary half-space (between said vertical plane and the wall of the basin), the discharged water is not re-aspirated by the suction mouth which is in said half-space. complementary space. This arrangement is all the more advantageous when the plunger comprises or forms an anti-mixing wall substantially in said vertical plane, between the suction and discharge mouths. In addition, advantageously and according to the invention, the submersible portion of the plunger member, projecting from a face, said inner face, of this submersible portion adapted and intended to be oriented towards a side wall of the pond, at least one retaining protuberance adapted to be in contact with such a pelvic side wall. The retaining protuberance forms a plunger support at a point on the side wall of a pool, in particular a vertical pool side wall. It makes it possible to compensate for the torque that the gravity and the hydraulic resultant of the hydraulic suction and discharge forces exert on the plunger body by a reaction of the wall of a basin. The retaining protrusion also makes it possible to keep the suction mouth away from the wall of the basin, especially when the suction mouth is on the inner face of the plunger body, facing the side wall of the basin, and would therefore have tendency to get closer to this wall. The retaining protuberance may for example be formed of the lower end of the submersible portion of the plunger, and the bent portion thereof may advantageously form an angle of less than 90 ° C for this purpose (eg 85 ° C) . The retaining protuberance may also be formed in another area of the inner face of the plunger body between the bent portion and the end of the submersible portion. Advantageously and according to the invention, the support sole is provided (on its lower face) with support feet adjustable in height. The upper surfaces of the pool flanges are not always horizontal or perfectly flat. Therefore, it is advantageous to provide height-adjustable support feet under the footplate so that the footplate can be adapted to any type of pool ledge. In particular, the pool edges often have a greater thickness (and therefore a height) on the basin side than on the side opposite the basin, so that it is advantageous to be able to adjust the feet of the support sole furthest away from the pool. pelvis so that they are more protruding down the footing.

In addition, advantageously and according to the invention, the support feet may be at least partially covered with a non-slip material. This characteristic makes it possible to better compensate for the torque exerted by the gravity and the hydraulic resultant on the plunger body. This non-slip surface is particularly advantageous in combination with a holding protrusion.

Furthermore, in a device according to the invention, the plunger also advantageously has an anti-chop protrusion adapted to be able to come under a lower face of a pelge rim projecting from a side wall of the pelvis to the trunk. inside of the latter. Advantageously, such an anti-chop protrusion limits the vertical movement of the plunger relative to a pelge rim protruding from the side wall of the basin. In particular this anti-chop protuberance makes it possible to ensure the maintenance of the suction mouth under water, for example when waves (or chopper) are formed on the surface of the water while also avoiding the suction of air in the hydraulic circuit.

This anti-chop protrusion is arranged to engage the lower surface of a projecting rim protruding horizontally inward of the basin at the top of a side wall of the basin. Such a rim is generally formed of curbs in a pool. The protrusion anti-chop is advantageously formed on the inner face of the plunger body, below the bent portion, the side of the submersible portion. Its distance to the bent portion may depend for example on the thickness of the rim edges. The invention also relates to a device for heating a pond water, and in particular a plunger, characterized in combination with all or some of the characteristics mentioned above or below.

Other objects, features and advantages of the invention will appear on reading the following description of an embodiment of the invention given by way of non-limiting example and which refers to the appended figures in which: FIG. 1 is a diagrammatic representation of an embodiment of a device according to the invention mounted on the edge of a swimming pool, FIG. 2 is a diagrammatic representation in longitudinal section of the plunger of the device of FIG. FIG. 3 is a diagrammatic representation in cross-section along the plane III-III shown in FIG. 2 of the plunger of the device of FIG. 1. A device for heating a pond water according to the invention in the embodiment shown in Figure 1 is a heat pump heating device of a pool 2 pool. It comprises a hydraulic circuit 1 between a suction mouth 7 and a discharge mouth 8 disposed in the water 3 of the pool. Between these discharge suction ports are interposed a hydraulic pump 4 for generating a flow of water in the hydraulic circuit 1, and an air-water type heat pump 5 for heating the pool water 3. The mouths 7, 8 of suction and discharge are formed in a submersible portion 13 of a body 6 plunger to be able to draw water from the basin and, respectively, push back hotter in the rest of the water basin . This submersible portion is shown submerged in a pool water 3 in FIGS. 1 and 2. The suction mouth is advantageously covered with a grid 28 in order to prevent the suction of solid bodies that can damage and / or foul the circuit 1 hydraulic and its active elements (pump, heat pump, etc.). The plunger body 6 has a generally flattened and bent shape around a bent portion 12 from which extends on the one hand a bearing flange I1 and on the other hand the submersible portion 13. The plunger body thus has on one side a concave inner face. The inner face 15 is intended to be opposite 19 copings and / or a flange 9 and a vertical side wall 10 of the basin 2 when the plunger is fixed on the rim of a basin. The plunger body has a convex outer face 16 opposite to the inner face. This outer face 16 visible by a user when the plunger is fixed on a flange 9 of the basin 2. The flange 11 is intended to bear against the upper surface of a flange 9 or in particular on a lip 19 of the swimming pool. In addition, the bearing flange 11 has, on its inner face, two rows of three support feet adjustable in height. These support feet are, for example, threaded and mounted in a corresponding thread of the sole 11 of support in order to be adjusted more or less protruding from the sole 11 support by a rotation. In FIG. 2, the support feet farthest from the flange 9 are the most protruding from the soleplate 11 to fit a thicker (and therefore higher) lip 19 at the flange 9. only at the level of its opposite edge. In addition, each support foot 20 has a lower surface 18 intended to be in contact with the lip 19, to ensure the maintenance of the body 6 plunger on the rim of the basin. The sole 11 support is advantageously equipped with two hydraulic connections 23 to be able to connect the body 6 plunger to the rest of the circuit 1 hydraulic. One of the two hydraulic connections 23 is in hydraulic communication with the suction mouth 7 via a first conduit 21 inside the plunger, and the other hydraulic connector is in hydraulic communication with the discharge mouth 8 via a second conduit 22 inside the body 6 diver. The ducts 21, 22 internal to the plunger body 6 can be formed in different ways: by hollow molding of tubular shapes in the plunger body 6, by adding tubes in a hollow plunger body after the hollow plunger has been formed, by forming a wall in the plunger so that the plunger body has two adjacent non-communicating cavities dedicated respectively to suction and discharge, ... The suction mouth 7 is an opening on the inner face of the plunger. the submersible portion 13 of the plunger body and it is open substantially orthogonal to this inner face, so as to create a water flow sucked substantially orthogonal to this inner face 15 during the entry of water into the plunger body 6 . The discharge mouth 8 is an opening formed on the outer face 16 of the submersible portion 13 at least substantially in the geometric extension of the suction mouth, so that it is open substantially orthogonal to the outer face 16. The discharge mouth 8 thus creates a flow of water discharged substantially orthogonal to the outer face 16 when it leaves the plunger. The heated water is thus pumped towards the interior of the pool, away from the edge of the pool on which the body 6 plunger is fixed. Thus, the hot water discharged does not mix or very little with the water sucked over a period of time corresponding to the dilution of the hot water discharged into the water volume of the basin. In the particular embodiment shown in Figures 1 and 2, the suction and discharge ports are substantially the same level and are oriented at least substantially at 180 ° C between them. In addition, the plunger body 6 of the embodiment shown has a protrusion 14 for holding against a wall of the basin, in particular against the submerged vertical wall 10 of the basin 2. This protrusion 14 of support makes it possible to compensate the torque that gravity and the hydraulic resultant (when the heating device is running) exert on the plunger body, in particular when the center of gravity of the plunger body is shifted towards the basin. This retaining protrusion 14 also makes it possible to keep the suction mouth 7 away from the vertical wall of the basin so as to allow the water to be sucked between the inner face of the plunger and the vertical wall. of the basin.

The torque exerted by the gravity and the hydraulic resultant, is also compensated by the pipes connected to the hydraulic inlet and outlet fittings 23, 24 of the plunger body 6, the lower surface 18 of the bearing feet 20, and a clamping between the support feet 20 and a protrusion 17 anti-lapping on the basin rim. In addition, the lower surface 18 of the support feet 20 provides a non-slip function all the more important that the sole 11 support is heavy. Indeed, according to the mechanical friction laws, the lateral force to be applied to obtain a sliding of the lower surface 18 on the lip 19 is proportional to the weight of the plunger which is compensated by a reaction of the lip 19. the weight of the flange 11 of support relative to the remainder of the plunger (bent portion and submersible portion in particular) when the device according to the invention is in operation (and therefore that the plunger is full of water) also determines the point of application of gravity. The baseplate 11 is therefore advantageously heavier than the rest of the body 6 plunger so that the center of gravity of the plunger is outside the basin (above the lip) to eliminate the torque caused by the gravity and the reaction of the coping. Thus, it is not necessary to cover the support feet or the inner face (in the absence of support feet) of the sole 11 of support of a particularly non-slip material if the material in which the feet are made is already sufficiently with respect to the weight of the sole 11 support and the surface appearance of the lip 19. Furthermore, the body 6 plunger is preferably made of a polymeric synthetic material, especially thermoplastic, chosen for its properties of corrosion resistance, ease of molding and large-scale production at low cost, for example selected from the group consisting of acrylonitrile butadiene styrene (ABS), polypropylenes (PP), polyethylenes (PE) , especially high density polyethylenes (PERD). However, these synthetic materials are generally less dense than water, and this is why the plunger body has at least one pressure equalization orifice in its submerged portion and at least one pressure equalization orifice in its portion outside. of water. This / these orifice (s) of pressure equalization allow the inner volumes of the submersible portion 13 of the plunger to fill with water and to empty freely when the latter is immersed in water. Such orifices therefore make it possible to better counter the effect of Archimedes thrust acting on the submersible portion 13. In particular a pressure equalization orifice as represented in FIGS. 1 and 3 may be formed by non-joined assembly of a front shell 30 and a rear shell 31 of the plunger body, so that a passage 27 of Pressure equalization extends from the bottom of the submersible portion 13 of the plunger body at least into a portion 12 out of water of the plunger. However, such a plunger body 6 synthetic material remains lighter than water in general and is therefore more sensitive to the chop that can make it oscillate, essentially vertically.

This disadvantage is advantageously avoided by the production of a protrusion 17 anti-chop on the inner face of the body 6 plunger. The protuberance 17 is sufficiently protruding so that its upper surface comes opposite under the lower surface of a rim 9 of lip 19. Also, the protrusion 17 anti-chop is formed near the bent portion and substantially offset towards the portion submerged, so that the vertical distance between the underside of the support plate and the upper surface of the protrusion anti-chop is sufficient to be able to fix the plunger on any type of lip 19, especially for all thicknesses of common borders. This vertical offset may, for example, be chosen to be around 6 cm in order to be able to adapt to different types of coping 19. In addition, the height adjustment of the support legs 20 makes it possible to ensure firm support by clamping the flange 9 of lip between the anti-chop protrusion and said support feet. In the embodiment of a device according to the invention shown in Figure 1, and for a basin with a volume of about 10 m3 to 100 m3, the hydraulic circuit tubes have an average diameter of 25 mm. The water pumping device is sized to generate a water flow rate of about 2000 L / h. The heat pump is capable of heating the water of the hydraulic circuit 1 to about 25 ° C to 35 ° C, so that the water discharged into the pool is warmer by about 2 ° C that the water sucked. Especially for a flow rate of 2m3 / h a heat pump of about 11 kW can be used in a device according to the invention to provide heating of a pool of 75 m3. With a more powerful pumping device providing a flow of 4m3 / h and a heat pump of 14 to 15 kW a device according to the invention is adapted to heat a pool of 100 m3. In addition, the suction mouth has for example a diameter of between 10 mm and 100 mm, in particular of the order of 60 mm. Similarly, the outlet mouth 8 has for example a diameter of between 20 mm and 200 mm, in particular of the order of 100 mm. Other dimensions are possible. The plunger body, in its submersible portion, and in particular at the suction and discharge mouths has a width for example between 50 mm and 205 mm, in particular of the order of 170 mm; and a thickness for example of between 10 mm and 100 mm, in particular of the order of 60 mm. Thus, the minimum hydraulic distance dH between the outlet mouth 8 and the suction mouth 7, that is to say the minimum distance to travel, for a volume of water, to bypass the wall-forming plunger body 6 between the discharge mouth 8 and the suction mouth 7, is typically between 60 mm and 350 mm, in particular of the order of 120 mm to 150 mm. The inventors have determined that this dimensioning of a device for heating a pond water according to the invention makes it possible to limit the mixing between discharged water and aspirated water, in particular the inventors have determined that the speed of the heat exchange - for such a basin and such a difference in temperature between the sucked water and the discharged water - between the water discharged with the rest of the pool water volume makes it possible to ensure that the temperature of the water sucked 30 is on average equal to the average temperature of the basin. The dimensions of the plunger body and the elements of the plunger body in particular are adapted according to the technical characteristics of the rest of the device according to the invention (pumping power in particular), and the dimensions of the basin.

The invention can be the subject of many other embodiments not shown. Nothing prevents, for example, that a same plunger body according to the invention comprises several suction mouths and / or several discharge mouths. Similarly, a device according to the invention may comprise several plunger members if this is considered advantageous, for example for basins having several parts with low hydraulic exchanges between them. In addition, in accordance with the invention, the hydraulic circuit may comprise other elements such as, for example, a chlorine treatment device or a salt, a filtration device, a water jet, a lighting system, an indication of In addition, the example of the air-water type heat pump is not restrictive and other types of heat pumps can be used. A fortiori other heating devices (boiler (electric, gas, wood ...), solar, etc.) can add to or replace the heat pump.

The suction and discharge mouths may be arranged differently relative to each other, for example forming an angle other than 180 ° C. They can also be separated from each other by a wall element different from the main body of the plunger body. Various forms of the suction and discharge mouths may be chosen to create suction and / or discharge flows considered advantageous depending on the configuration (pumping power, etc.) of the water heating device and / or the configuration of the basin (dimensions, etc.) and / or the configuration of the diving body (distance to the rim when attached to it, dimensions of the submersible portion, etc.).

In addition, nothing prevents, a priori, that the discharge port is arranged at a different level of the suction mouth, or in a non-submersible portion of the plunger. Likewise, the retaining protuberance may be formed in other portions of the plunger body, although it is advantageously located on the inside face or on the lateral edges of the plunger body, and in the lower portion (or submergible portion) of the plunger body. plunger body to ensure optimum support. However, nothing prevents a single protrusion provides both the function of substantially horizontal maintenance of the retaining protuberance and the essentially vertical maintenance function of the protrusion anti-lapping. A plunger body according to the invention may also be provided with other fasteners to the pelvis such as for example teeth formed on the inner face of the support base to be housed in housings of complementary shapes to the teeth, arranged in one or more lip (s) of the basin rim, or suckers formed on the inner face of the submersible portion, etc. Nothing prevents in particular to provide normally final fixing means of the plunger body to the basin. In addition, nothing prevents the protrusion anti-lapping is also adjustable in height to accommodate any thickness of the lip.

Claims (1)

CLAIMS 1 / - Device for heating a water (3) basin (2) comprising: - a circuit (1) hydraulic adapted to ensure a flow of liquid between at least one mouth (7) suction water of the pond and at least one mouth (8) for discharging water from the basin, - a device (4) for pumping water and a heating device (5) interposed in the hydraulic circuit (1) to generate it. a flow of water and heating the water (3), 10 characterized in that it further comprises a body (6) having at least one plenum (7) suction of said circuit (1) hydraulic and at least a discharge mouth (8) of said hydraulic circuit (1). 2 / - Device according to claim 1, characterized in that: - the body (6) plunger is in one piece and has a plunging portion provided with at least one suction mouth (7) of said circuit (1 ) hydraulic and at least one discharge mouth (8) of said hydraulic circuit (1), and an out of water portion having a water inlet connection and a water outlet connection, 20 - conduits hydraulic connection extend between: - the water outlet connection of the plunger and the pumping device (4), - the pumping device (4) and the heating device (5), - the device (5) ) and the water inlet connection of the plunger body, - the plunger inlet and outlet water connections are hydraulically connected to the hydraulic lines by hydraulic connections. 3 / - Device according to one of claims 1 or 2, characterized in that the device (4) for pumping is adapted to deliver a maximum flow rate of 5 m3 / h.4 / - Device according to one of claims 1 at 3, characterized in that the minimum hydraulic distance (dH) to be traveled by a liquid between a suction mouth (7) and a discharge mouth (8) of the plunger body (6) is greater than the minimum Euclidean distance between this mouth (8) of discharge and the mouth (7) suction. 5 / - Device according to one of claims 1 to 4, characterized in that the mouths (7, 8) for suction and discharge are formed on the faces of the body (6) plunger having normal half-lines which are non secanting. 6 / - Device according to one of claims 1 to 5, characterized in that the body (6) plunger has a maximum footprint less than one meter, especially less than 50 centimeters. 7 / - Device according to one of claims 1 to 6, characterized in that it comprises at least one fastening member (20) of the body (6) plunger relative to the basin, said fastener being adapted to be able to prohibit displacement and rotation of the plunger relative to the basin. 8 / - Device according to claim 7, characterized in that each fastener (20) is adapted so that the body (6) plunger is removable. 9 / - Device according to one of claims 1 to 8, characterized in that the body (6) plunger has dimensions adapted so that, when fixed in a basin (2), the mouths (7, 8) suction and discharge are located in the upper part of the basin (2). 10 / - Device according to one of claims 1 to 9, characterized in that, the body (6) plunger being fixed on a rim (9) basin (2), it has a mouth (7) directed suction to a side wall (10) of the basin and a discharge mouth (8) oriented opposite to the inside of the basin. 111- Device according to one of claims 1 to 10, characterized in that the mouths (7, 8) suction and discharge plunger body are hydraulically separated by at least one wall of the body (6) plunger. 12 / - Device according to one of claims 1 to 11, characterized in that the body (6) has a plunging portion (12) bent between a sole (11) of support on a rim (9) of the basin (2). ) and a submersible portion (13) carrying the mouths (7, 8) of suction and discharge, so that it has a generally bent shape adapted to bypass a basin rim. 13 / - Device according to claim 12, characterized in that: - a suction mouth (7) is formed on a face, said face (15) inside, the submersible portion (13) of the plunger body adapted and intended for to be oriented towards a pelvic side wall, - a discharge mouth (8) is formed on one face, said outer face (16), of the submersible portion (13) of the plunger body adapted and intended to be oriented towards the inside a basin. 14 / - Device according to one of claims 12 or 13, characterized in that the submersible portion of the body (6) plunger has, projecting from a face, said inner face (15) of the latter, suitable and intended to be oriented towards a pelvic side wall, at least one retaining protuberance (14) adapted to be in contact with such a lateral basin wall (10). 151- Device according to one of claims 12 to 14, characterized in that the sole (11) bearing is provided with support feet (20) adjustable in height. 25 / - Device according to one of claims 1 to 15, characterized in that the body (6) plunger has a protrusion (17) anticlapot adapted to be able to come under a lower face of a flange (9) basin ( 2) projecting from a side wall (10) of the basin towards the inside thereof. 30