ELECTRIC DRIVE SYSTEM FOR CRAFT, SUCH AS A SURFBOARD OR PADDLEBOARD, WITH COOLING MEANS

Abstract

The invention relates to a motorization system for an electrically assisted craft which is intended to allow a user to be transported on water, the invention being used particularly in the field of surfboards, paddleboards or sailboards, and in the field of kayaks or canoes.

The electric motorization system is configured to be connected to an electrical energy source and comprises, on the one hand, a watertight enclosure 1 which is intended to be integrated in or on a craft, in which enclosure 1 a rotor 2 and a stator 3, 7 are arranged, and, on the other hand, a shaft 4 which is connected at a first end to the rotor 2 and which protrudes in a watertight manner outside the enclosure 1 at a second end opposite its first end. The shaft 4 can be connected at its second end to propulsion means of a craft, such as a propeller, so that when the system is supplied with electrical energy, the rotor 2 is rotated and drives the shaft 4 with this rotation.

The system also comprises cooling means 5 which themselves comprise at least one first elongate assembly 5, which is at least partially made of metal, and a first end of which is arranged inside the enclosure 1, the elongate assembly 5 protruding in a watertight manner outside the enclosure 1 at a second end opposite its first end so as to allow conduction of the heat from the inside to the outside of the enclosure 1 along the first elongate assembly 5.

Claims

1. An electric motorization system for a craft, configured to be connected to a source of electric power, the system comprising a watertight enclosure intended to be integrated into or on the craft, in which enclosure are arranged a rotor and a stator, and a shaft connected by a first end to the rotor and projecting in a watertight manner outside of the enclosure by a second end opposite its first end, said shaft being adapted to be connected by its second end to means of propulsion of a craft, so that when the system is supplied with electrical energy, the rotor begins to rotate and drives the shaft in this rotation, the system further comprising cooling means, wherein said cooling means comprise at least a first elongated assembly, at least partially metallic, a first end of which is arranged inside the enclosure, the said elongated assembly protruding in a watertight manner outside the enclosure by a second end opposite its first end, so as to allow conduction of heat from the inside to the outside of the enclosure along said first elongated assembly.

2. The system according to claim 1, wherein the first end of the first elongated assembly is fastened to the stator.

3. The system according to claim 2, wherein the stator comprises at least one fastening element, such as a fastening plate, and wherein the first end of the first elongated assembly is linked to said fastening element.

4. The system according to claim 2, wherein the first elongated assembly comprises at least a first part, formed integrally with at least a part of the stator.

5. The system according to claim 2, wherein the first elongated assembly comprises at least a first part, forced into a housing provided in the stator, said housing comprising a pasty heat-conducting material, such as a heat-conducting silicone.

6. The system according to claim 5, wherein at least the first part of the first elongated assembly is a rod.

7. The system according to claim 6, wherein the first elongated assembly is a rod of circular section protruding from the enclosure in a watertight manner by means of an O-ring.

8. The system according to claim 2, further comprising an electronic control unit configured to control the operation and the electrical energy supply of the said system, and fastened to the stator, so as to create a thermal path between the control unit and the first elongated assembly to allow the conduction of the heat emitted by the control unit to the outside of the enclosure along said thermal path and the first elongated assembly.

9. The system according to claim 1, further comprising an electronic control unit arranged inside the enclosure and configured to control the operation and the supply of electrical energy of the system, and wherein the cooling means comprise at least a second elongated assembly, at least partially metallic, fastened by a first end to the control unit and projecting in a watertight manner outside the enclosure by a second end opposite its first end, so as to allow the conduction of heat from the control unit to the outside of the enclosure along the second elongated assembly.

10. The system according to claim 9, wherein at least a part of the second elongated assembly is a rod with a substantially circular section.

11. The system according to claim 10, wherein the second elongated assembly is a rod of circular section protruding from the enclosure in a watertight manner by means of an O-ring.

12. The system according to claim 9, wherein the second end of the second elongated assembly has slats spaced apart and formed parallel to the axis of the second elongated assembly.

13. The system according to claim 1, wherein the rotor comprises a rotating cage, and the stator comprises a fixed core arranged inside the cage.

14. A craft with electrical assistance, comprising means of propulsion capable of allowing the craft to progress on or in the water, and a source of electrical energy, further comprising an electric motorization system according to claim 1, the watertight enclosure of which is integrated on or in the craft, and whose shaft is connected by its second end to the propulsion means, so as to allow the drive of the propulsion means when the electric motorization system is supplied with electrical energy by said source, and the cooling of the electric motorization system by heat exchange between the second end of the first elongated assembly and the surrounding water.

15. The system according to claim 4, wherein at least the first part of the first elongated assembly is a rod.

16. The system according to claim 15, wherein the rod has a substantially circular section.

17. The system according to claim 16, wherein the first elongated assembly is a rod of circular section protruding from the enclosure in a watertight manner by means of an O-ring.

18. The system according to claim 6, wherein the rod has a substantially circular section.

19. The system according to claim 1, wherein the second end of the first elongated assembly has slats spaced apart and formed parallel to the axis of the first elongated assembly.

20. The craft according to claim 14, said craft being a surfboard, or a paddleboard, or a sailboard, or of the canoe type, or of the kayak type.

Description

[0032] The characteristics and advantages of the invention will appear on reading the following description, given solely by way of example, and not limiting, with reference to the following appended figures:

[0033] FIG. 1: schematic representation of a first example of a system according to the invention outside its watertight enclosure;

[0034] FIG. 2: schematic representation of the example of FIG. 1, in longitudinal section, integrated into its watertight enclosure and connected to the means of propulsion of a craft;

[0035] FIG. 3: schematic representation of the example of FIG. 1, in perspective, integrated into its watertight enclosure and connected to the means of propulsion of a craft;

[0036] FIG. 4: schematic representation of an example of a craft according to the invention, incorporating the system of FIG. 1;

[0037] FIG. 5: schematic representation of a second example of a system according to the invention, in longitudinal section, integrated into its watertight enclosure and connected to the means of propulsion of a craft; [0038] FIG. 6: schematic representation of the example of FIG. 5, in perspective.

[0039] With reference to all the figures, and in particular to FIGS. 3, 4 and 6, the electric motorization system for a craft 30 is configured to be connected to a source of electrical energy (not shown), such as a battery, which is also arranged on or in the craft 30.

[0040] The system comprises a watertight enclosure 1, intended to be integrated on or in the electrically assisted craft 30, as seen in the example of FIG. 4. In this example, the craft 30 is of the surfboard or paddleboard type.

[0041] The craft 30 comprises means of propulsion 20 intended to allow its progression in the water, such as a propeller 20, connected to one of the ends of the shaft 4 of the motorization system which will be described in detail later, the other end of the shaft 4 being arranged inside the enclosure 1 and therefore not visible in FIG. 4. The craft 30 also includes the source of electrical energy mentioned above, not shown.

[0042] The first elongated assembly 5 of the cooling means of the motorisation system, and possibly the second elongated assembly 6 in the example of FIG. 6, which will also be described in detail later, protrude by one of their ends from the enclosure , their other end being disposed inside the enclosure 1 and therefore not visible in FIGS. 3, 4 and 6.

[0043] The whole of the motorization system is integrated into the craft 30, so that this end of the first elongated assembly 5 (and possibly of the second elongated assembly 6) protruding from the enclosure 1 is located in the surrounding water when the craft 30 is in or on the water.

[0044] Thus, when the motorization system is supplied with electrical energy by the electrical energy source, the propulsion means 20 are driven by the shaft 4 and the motorization system can be cooled by heat exchange between the end of the first elongated assembly 5 (and possibly the second elongated assembly 6) protruding from the enclosure 1, and the surrounding water.

[0045] In the examples of FIGS. 4, 5 and 6, the enclosure 1 is closed in particular by a wall 15, through which the shaft 4 and the first elongated assembly 5 (and possibly the second elongated assembly 6) protrude in watertight manner, and extends beyond this wall 15 to form a turbine inside which the propulsion means 20 are both protected and in motion.

[0046] This wall 15 is inclined with respect to the shaft 4 and the longitudinal axis of the craft 30, so as not to create a surface rupture with respect to the main surface of the craft 30, which would be detrimental to the hydrodynamics and the performance of means of propulsion 20.

[0047] The end of the first elongated assembly 5 (and possibly of the second elongated assembly 6) protruding from the enclosure 1, in the examples of FIGS. 3, 4 and 6, is flush with the surface of the wall 15. A longer protrusion is not necessarily necessary to obtain the desired cooling effect, and could there again be detrimental to the hydrodynamics and the performance of the means of propulsion 20. Also, when this wall 15 is inclined as explained above, the end of the first elongated assembly 5 (and possibly of the second elongated assembly 6) protruding from the enclosure 1, can be bevelled so that this end follows the inclined surface of the wall 15.

[0048] In a variant embodiment, the turbine part of the enclosure 1 could quite simply be absent, the part of the shaft 4 protruding from the enclosure 1 and the propulsion means 20 being housed in a housing provided in the craft 30 in extension of the enclosure 1, or even exceeding out of the craft 30 outside any housing.

[0049] Alternatively, the turbine part could be present but separate from enclosure 1.

[0050] With reference to all the figures, and in particular to FIGS. 1, 2 and 5, the motorization system comprises a rotor 2 and a stator 3, 7, arranged inside the watertight enclosure 1. The shaft 4 is connected by a first end to the rotor 2 and protrudes in a watertight manner outside the enclosure 1 by its second end opposite the first one to be able to be connected to the means of propulsion 20 of the craft 30 as explained above. Sealing means 14 of the gasket type are provided to ensure the watertight sealing of the enclosure 1 at the level of the passage of the shaft 4.

[0051] Thus, when the system is supplied with electrical energy, the rotor 2 begins to rotate and drives the shaft 4 in this rotation, which finally allows the rotation of the propulsion means 20 and therefore the propulsion of the craft 30.

[0052] Cooling means 5 (in the example of FIG. 1 to 4) or 5, 6 (in the example of FIGS. 5 and 6) are provided. These means 5, 6 comprise one or more elongated assemblies 5, 6, at least partially metallic, the respective first ends of which are arranged inside the enclosure 1. These elongated assemblies 5, 6 also protrude in a watertight manner outside the enclosure 1 via respective second ends, opposite their respective first ends. Sealing means 13, respectively 16, of the gasket type, are provided to ensure the watertight sealing of the enclosure 1 at the level of the respective passages of the elongated assemblies 5, 6.

[0053] Thus, the heat inside the enclosure, produced by the operation of the motorization system, in particular the rotation of the rotor 2, is conducted from the inside towards the outside of the enclosure 1 along the elongated assemblies 5, 6.

[0054] In the examples shown in the figures, the first end of the first elongated assembly 5 is fixed to the stator 3, 7.

[0055] This stator 3, 7 may comprise a stator part 3 strictly speaking, and a fastening element 7, for example a fastening plate 7. In this case, the first end of the first elongated assembly 5 is preferably attached to this fastening element 7.

[0056] The first elongated assembly 5 comprises at least a first part, such as a rod 5, formed integrally with at least a part of the stator 3, 7.

[0057] Alternatively, the first elongated assembly 5 comprises at least a first part, such as a rod 5, forced into a housing provided in the stator 3, 7. In this case, the housing includes a heat-conducting paste material, such as a heat-conducting silicone.

[0058] In the examples shown in the figures, whether the first elongated assembly 5 is formed integrally with any part of the stator 3, 7, or whether it is forced into a housing provided in the stator 3, 7, it is formed integrally by a heat-conducting metal rod 5.

[0059] An electronic control unit 10 is provided and configured to control the operation and the power supply of the motorization system.

[0060] Such a control unit conventionally comprises a microcontroller positioned in an electronic circuit formed on an electronic card 11.

[0061] This control unit 10 can be fastened to the stator 3, 7, for example via a fastening support 12 itself attached directly to the stator part 3 or to the fastening element 7. In this case, the electronic card 11 is supported by the fastening support 12, while coming into electronic connection, by connection means, in particular to the stator 3, 7.

[0062] Thus, a thermal path is created between the control unit 10 and the first elongated assembly 5, so that the latter also ensures the cooling of the control unit 10. Indeed, this configuration allows the conduction of the heat emitted by the control unit 10 towards the outside of the enclosure 1 along this thermal path and the first elongated assembly 5.

[0063] Alternatively, or in addition, and as illustrated in the example shown in FIGS. 5 and 6, the cooling means 5, 6 of the motorization system comprise at least a second elongated assembly, in this case the elongated assembly 6, which has already been presented above.

[0064] Just like the first elongated assembly 5, this second elongated assembly 6 is at least partially metallic. It is also fastened by a first end to the control unit 10, and protrudes in a watertight manner outside the enclosure 1 by a second end opposite its first end.

[0065] This configuration allows the conduction of heat from the control unit 10 to the outside of the enclosure 1 along the second elongated assembly 6.

[0066] This second elongated assembly 6, like the first elongated assembly 5, can be a rod 6, or can comprise a rod-shaped part.

[0067] The rod 5, 6 or the rod-shaped part of the first, respectively second, elongated assembly 5, 6, preferably has a substantially circular section.

[0068] The sealing means 13, respectively 16, presented above, can be O-rings.

[0069] As can be seen in the figures, the respective second end(s) of the first and/or second elongated assemblies 5, 6 have slats 8, 9 spaced apart and formed parallel to the axis of the first, respectively second, elongated assemblies 5, 6.

[0070] This configuration increases the heat exchange surface between the respective ends of the first and second elongated assemblies 5, 6 with the surrounding water, once the motorization system is integrated into the craft 30, and once this craft 30 is placed in or on the water. Thus, the slats 8 arranged at the second end of the first elongated assembly 5, and the slats 9 arranged at the second end of the second elongated assembly 6, form radiators which make it possible to disperse the heat more quickly in the surrounding water thanks to an increased heat exchange surface.

[0071] As can also be seen in the figures, in the examples shown, the motorization system includes a motor part of the “outrunner” type. Thus, the rotor 2 comprises a rotating cage 2, and the stator 3, 7 comprises a fixed core 3 arranged inside the cage 2.

[0072] As explained above, this configuration is particularly interesting because it makes it possible to rotate the rotor less quickly than in a configuration with an “inrunner” type motor (fixed cage and rotating core), by maximizing the diameter of interaction between the coils arranged in the center and the magnets arranged on the periphery. This configuration therefore does not require the use of a reducer, which lower cost and maintenance.

[0073] By leaning on a fixed element inside the enclosure 1, such as the stator 3, 7, to get the heat produced by the operation of the motor and conduct it outside, one also overcomes conventional solutions for cooling an “outrunner” type motor, such as water circulation systems inside the fixed part of the motor, and their complexity (pipes inside the motor, inlet and water outlet).

[0074] Alternatively, the motorization system can include an “inrunner” type motor part, with a rotating core and a fixed outer cage which can constitute enclosure 1.

[0075] In this case, the first elongated assembly 5 (and possibly the second elongated assembly 6) can rest on the enclosure 1 itself which constitutes the fixed part of the motor, to catch the heat produced by the operation of the motor and conduct it outside.

[0076] It is reminded that this description is given by way of example, and does not limit the invention.

[0077] In particular, and although finding a particularly interesting application in the field of surfboards, the invention is not limited to a craft of the surfboard type, but extends to crafts such as a paddleboard or sailboard.

[0078] More generally, the invention is not limited to a craft of the board type, but extends to any craft with electrical assistance, such as a canoe or a kayak.