WATERSPORT PROPULSION SYSTEM FOR A MARINE WATERSPORT VESSEL

Abstract

A watersport propulsion system for a marine watersport vessel includes a drive unit arranged rotatable from a rearward-facing position to a forward-facing position, and vice versa, a control unit being operatively connected with the drive unit. The control unit is configurable in a nominal mode of operation and in a watersport mode of operation. The control unit is configured to operate the drive unit in the forward-facing position when in the watersport mode of operation and in the rearward-facing position otherwise.

Claims

1. A watersport propulsion system for a marine watersport vessel, comprising a drive unit arranged rotatable from a rearward-facing position to a forward-facing position, and vice versa, a control unit being operatively connected with the drive unit, the control unit is configurable in a nominal mode of operation and in a watersport mode of operation, wherein the control unit is configured to operate the drive unit in the forward-facing position when in the watersport mode of operation and in the rearward-facing position otherwise.

2. The watersport propulsion system of claim 1, wherein the drive unit comprises one or more propellers.

3. The watersport propulsion system of claim 2, wherein the one or more propellers in the forward-facing position is/are in a pulling mode.

4. The watersport propulsion system of claim 2, wherein the one or more propellers in the rearward-facing mode is/are in a pushing mode.

5. The watersport propulsion system of claim 2, wherein one or more propellers of the drive unit in the forward-facing position protrude towards and/or beneath a hull of the marine watersport vessel.

6. The watersport propulsion system of claim 1, wherein the drive unit is connected with a transom of the marine watersport vessel via a transom bracket.

7. The watersport propulsion system of claim 1, wherein the drive unit comprises a first part and a second part, the first part being connected with the marine watersport vessel and the second part is rotatable arranged in relation to the first part.

8. The watersport propulsion system of claim 7, wherein the second part comprises the one of more propellers.

9. The watersport propulsion system of claim 1, wherein the drive unit comprises an electric motor.

10. The watersport propulsion system of claim 1, wherein the drive unit comprises one or more sensor(s) configured to detect the rearward-facing position and/or the forward-facing position of the drive unit.

11. The watersport propulsion system of claim 10, wherein the control unit is operatively connected with the sensor(s) so as to control that the drive unit is in the forward-facing position when the watersport propulsion system is set in the watersport mode of operation.

12. The watersport propulsion system of claim 9, wherein the propellers are driven by the electrical motor, the electrical motor being configured to rotate in either clockwise direction and/or counterclockwise direction.

13. The watersport propulsion system of claim 1, wherein the control unit is configured to control an angle of the second part of the drive unit and/or rotation speed, and/or rotation direction of the electric motor on basis of data received from the one or more sensor(s).

14. The watersport propulsion system of claim 1, further comprising a system sensor, the system sensor being configured to detect if a person or obstacle is present around the drive unit.

15. The watersport propulsion system of claim 14, wherein the system sensor is operatively connected with the control unit.

16. The watersport propulsion system of claim 15, wherein the control unit is configured to move the drive unit into the forward-facing position if a person or obstacle is detected near the drive unit.

17. The watersport propulsion system of claim 1, wherein the watersport mode of operation is activated by an operator of the marine watersport vessel, and/or automatically by the control unit.

18. A marine watersport vessel comprising a watersport propulsion system of claim 1.

19. A method of operating a watersport propulsion system of claim 1, comprising providing a watersport propulsion system, on a marine watersport vessel, setting the watersport propulsion system in a watersport mode of operation, arranging the drive unit in the forward-facing position F when setting the watersport mode of operation, detecting that the drive unit is in the forward-facing position before activating the watersport propulsion system in the watersport mode of operation.

20. The method of claim 19, wherein the drive unit is hindered for providing the propulsion if it is detected that the drive unit is not in the forward-facing position after the watersport mode of operation is activated.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0026] Examples are described in more detail below with reference to the appended drawings.

[0027] FIG. 1 is an exemplary watersport propulsion system in a nominal mode of operation according to an example.

[0028] FIG. 2 is an exemplary watersport propulsion system in a watersport mode of operation according to an example.

DETAILED DESCRIPTION

[0029] The detailed description set forth below provides information and examples of the disclosed technology with sufficient detail to enable those skilled in the art to practice the disclosure.

[0030] FIG. 1 is an exemplary watersport propulsion system in a nominal mode of operation according to an example. The watersport propulsion system 1 for a marine watersport vessel 100, comprising a drive unit 3 arranged rotatable from a rearward-facing position R as shown in FIG. 1 to a forward-facing position F, and vice versa. In addition, a control unit 5 being operatively connected with the drive unit 3, the control unit 5 is configurable in a nominal mode of operation and in a watersport mode of operation. In FIG. 1, the control unit 5 is arranged on the watersport vessel 100, however, in other examples the control unit may be arranged in the drive unit 3 or at/in the transom bracket 2. The control unit 5 may be wirely connected with the drive unit 3 or otherwise connected.

[0031] The control unit 5 is configured to operate the drive unit 3 in the forward-facing position F when in the watersport mode of operation and in the rearward-facing position R otherwise. Hereby the control unit ensures that the drive unit is moved into the forward-facing position whereby the risk for persons being injured and/or equipment being damaged are minimized under watersports.

[0032] The drive unit 3 is connected with a transom 102 of the marine watersport vessel 100 via a transom bracket 2. Hence, the drive unit 3 is connected to the marine watersport vessel near a waterline of the marine watersport vessel. In an example, the drive unit 3 may comprise one or more propellers 10. In FIG. 1, the drive unit 3 has a first propeller 10a and a second propeller 10b.

[0033] In FIG. 1, the one or more propellers 10 when in the rearward-facing mode are in a pushing mode, whereby the propellers 10a, 10b are efficient, silent and less exposed when the watersport vessel sail in the nominal mode of operation in shallow waters. In shallow water or near the beach there is a higher risk to hit obstacles and rocks and thereby damaging the one or more propellers.

[0034] Furthermore, the drive unit 3 comprises a first part 6 and a second part 7, the first part being connected with the marine watersport vessel via the transom bracket 2 and the second part is rotatable arranged in relation to the first part. The second part 7 comprises the one of more propellers 10.

[0035] In FIG. 2, the watersport propulsion system 1 is shown in a watersport mode of operation according to an example. The one or more propellers 10 are shown in the forward-facing position F where the first propeller 10a and second propeller 10B are in a pulling mode. As seen in FIG. 2, the first propeller 10a and the second propeller 10b of the drive unit 3 are in the forward-facing position F and protrude towards and/or beneath a hull 101 of the marine watersport vessel 100. Hereby the risk for coming in contact with the one or propeller is minimized.

[0036] Furthermore, the drive unit 3 may be rotatable connected with the transom bracket 2 so as to be pivotable from a lowered position into a raised position, or vice versa. In addition, the drive unit 3 may be configured to be trimmed and/or tilted. Hence, the drive unit can be moved in and out of the water. The drive unit 3 may be trimmed in both the watersport mode of operation and the nominal mode of operation. In addition, the drive unit 3 may also be tilted in both the watersport mode of operation and the nominal mode of operation.

[0037] In an example, the first part 6 may be rotatable connected with the transom bracket 2, the second part 7 is following the first part when it is being pivotable from the lowered position into the raised position, or vice versa.

[0038] In an example, the drive unit 3 may comprise one or more sensor(s) configured to detect the rearward-facing position R and/or the forward-facing position F of the drive unit. The control unit 5 may be operatively connected with the sensor(s) so as to control that the drive unit 3 is in the forward-facing position F when the watersport propulsion system 1 is set in the watersport mode of operation, and/or before the drive unit is activated.

[0039] Moreover, the drive unit 3 comprises an electric motor. The propellers 10 are driven by the electrical motor, the electrical motor being configured to rotate in either clockwise direction and/or counterclockwise direction.

[0040] In an example, the drive unit 3, when running in rearward-facing position R, the electric motor is configured to rotate clockwise. In addition, the drive unit 3, when running the forward-facing position F, the electric motor is configured to rotate counterclockwise.

[0041] The control unit 5 is configured to control an angle of the second part 7 of the drive unit and/or rotation speed, and/or rotation direction of the electric motor on basis of data received from the one or more sensor(s).

[0042] As mentioned earlier, the drive unit 3 may have a first propeller 10a and a second propeller 10b. In an example, the first propeller 10a may have a first torque and a first rotation speed, the second propeller 10b has a second torque and a second rotation speed. The first torque is equal to or different from the second torque. The first rotation speed is equal to or different from the second rotation speed. Hereby is obtained that the drive unit 3 may be set to run in optimum irrespective if it is in the rearward-facing position R as shown in FIG. 1 or the forward-facing position F as shown in FIG. 2.

[0043] Hence, the control unit 5 may be arranged to optimize torque and/or rotation speed of the first propeller 10a and/or the second propeller 10b, respectively, in dependence of the mode of operation.

[0044] In another example, a system sensor is arranged on the marine watersport vessel or the drive unit 3, the system sensor being configured to detect if a person or obstacle is present around the drive unit. The system sensor may be operatively connected with the control unit. The control unit is configured to move the drive unit into the forward-facing position if a person or obstacle is detected near the drive unit.

[0045] Furthermore, the watersport mode of operation may be activated by an operator of the marine watersport vessel, and/or automatically by the control unit.

[0046] The present disclosure also relates to a marine watersport vessel 100 comprising a watersport propulsion system 1 as described above.

[0047] The present disclosure also relates to a method of operating a watersport propulsion system 1 as described above. The method comprising [0048] providing a watersport propulsion system 1 as described above, on a marine watersport vessel 100, [0049] setting the watersport propulsion system 1 in a watersport mode of operation, [0050] arranging the drive unit 3 in the forward-facing position F when setting the watersport mode of operation, [0051] detecting that the drive unit is in the forward-facing position before activating the watersport propulsion system in the watersport mode of operation.

[0052] Hereby it is ensured that it is detecting whether the drive unit is in the forward-facing position before activating the watersport mode of operation and thereby the drive unit, so that the risk for persons being injured and/or equipment being damaged are minimized under watersports due to coming into contact with the propellers when the drive unit is in the reward-facing position R.

[0053] Moreover, the drive unit may be hindered for providing the propulsion if it is detected that the drive unit is not in the forward-facing position after the watersport mode of operation is activated. Hereby an additional security is added to the system which also is minimizing the risk for persons being injured during watersports.

[0054] Certain aspects and variants of the disclosure are set forth in the following examples numbered consecutive below.

Example 1

[0055] A watersport propulsion system (1) for a marine watersport vessel (100), comprising [0056] a drive unit (3) arranged rotatable from a rearward-facing position (R) to a forward-facing position (F), and vice versa, [0057] a control unit (5) being operatively connected with the drive unit (3), the control unit (5) is configurable in a nominal mode of operation and in a watersport mode of operation, [0058] wherein the control unit (5) is configured to operate the drive unit (3) in the forward-facing position (F) when in the watersport mode of operation and in the rearward-facing position (R) otherwise.

Example 2

[0059] The watersport propulsion system (1) of example 1, wherein the drive unit (3) comprises one or more propellers (10).

Example 3

[0060] The watersport propulsion system (1) of example 2, wherein the one or more propellers (10) in the forward-facing position is/are in a pulling mode.

Example 4

[0061] The watersport propulsion system (1) of example 2, wherein the one or more propellers (10) in the rearward-facing mode is/are in a pushing mode.

Example 5

[0062] The watersport propulsion system (1) of example 2 and/or 3, wherein the one or more propellers (10) of the drive unit (3) in the forward-facing position protrude towards and/or beneath a hull (101) of the marine watersport vessel.

Example 6

[0063] The watersport propulsion system (1) of any of the preceding examples, wherein the drive unit (3) is connected with a transom (102) of the marine watersport vessel via a transom bracket (2).

Example 7

[0064] The watersport propulsion system (1) of any of the preceding examples, wherein the drive unit (3) comprises a first part (6) and a second part (7), the first part being connected with the marine watersport vessel and the second part is rotatable arranged in relation to the first part.

Example 8

[0065] The watersport propulsion system (1) of example 7, wherein the second part (7) comprises the one of more propellers (10).

Example 9

[0066] The watersport propulsion system (1) of any of the preceding examples, wherein the drive unit (3) is configured to be trimmed and/or tilted.

Example 10

[0067] The watersport propulsion system (1) of example 6, wherein the drive unit (3) being rotatable connected with the transom bracket (2) so as to be pivotable from a lowered position into a raised position, or vice versa.

Example 11

[0068] The watersport propulsion system (1) of example 10, wherein the first part (6) being rotatable connected with the transom bracket (2), the second part (7) is following the first part when it is being pivotable from the lowered position into the raised position, or vice versa.

Example 12

[0069] The watersport propulsion system (1) of any of the preceding examples, wherein the drive unit (3) comprises an electric motor.

Example 13

[0070] The watersport propulsion system (1) of any of the preceding examples, wherein the drive unit (3) comprises one or more sensor(s) configured to detect the rearward-facing position and/or the forward-facing position of the drive unit.

Example 14

[0071] The watersport propulsion system (1) of example 13, wherein the control unit (5) is operatively connected with the sensor(s) so as to control that the drive unit (3) is in the forward-facing position when the watersport propulsion system is set in the watersport mode of operation.

Example 15

[0072] The watersport propulsion system (1) of example 12, wherein the propellers (10) are driven by the electrical motor, the electrical motor being configured to rotate in either clockwise direction and/or counterclockwise direction.

Example 16

[0073] The watersport propulsion system (1) of any of the preceding examples, wherein the control unit (5) is configured to controls an angle of the second part (7) of the drive unit and/or rotation speed, and/or rotation direction of the electric motor on basis of data received from the one or more sensor(s).

Example 17

[0074] The watersport propulsion system (1) of example 12, wherein the drive unit (3), when running in rearward-facing position, the electric motor is configured to rotate clockwise.

Example 18

[0075] The watersport propulsion system (1) of example 12, wherein the drive unit (3), when running the forward-facing position, the electric motor is configured to rotate counterclockwise.

Example 19

[0076] The watersport propulsion system (1) of example 1, wherein the drive unit (3) has a first propeller (10a) and a second propeller (10b).

Example 20

[0077] The watersport propulsion system (1) of example 19, wherein the first propeller (10a) has a first torque and a first rotation speed, the second propeller (10b) has a second torque and a second rotation speed.

Example 21

[0078] The watersport propulsion system (1) of example 20, wherein the first torque is equal to or different from the second torque.

Example 22

[0079] The watersport propulsion system (1) of example 20, wherein the first rotation speed is equal to or different from the second rotation speed.

Example 23

[0080] The watersport propulsion system (1) of any of the examples 19-22, wherein the control unit (5) is arranged to optimize torque and/or rotation speed of the first propeller (10a) and/or the second propeller (10b), respectively, in dependence of the mode of operation.

Example 24

[0081] The watersport propulsion system (1) of any of the examples 1-23, further comprising a system sensor, the system sensor being configured to detect if a person or obstacle is present around the drive unit.

Example 25

[0082] The watersport propulsion system (1) of example 24, wherein the system sensor is operatively connected with the control unit.

Example 26

[0083] The watersport propulsion system (1) of example 25, wherein the control unit is configured to move the drive unit into the forward-facing position if a person or obstacle is detected near the drive unit.

Example 27

[0084] The watersport propulsion system (1) of any of the examples 1-26, wherein the watersport mode of operation is activated by an operator of the marine watersport vessel, and/or automatically by the control unit.

Example 28

[0085] A marine watersport vessel (100) comprising a watersport propulsion system (1) of any of the examples 1-27.

Example 29

[0086] The marine watersport vessel of example 28, further comprising a transom, wherein the drive unit of the watersport propulsion system is mounted or connected with the transom.

Example 30

[0087] A method of operating a watersport propulsion system (1) of any of the examples 1 to 27, comprising [0088] providing a watersport propulsion system (1) of any of the examples 1 to 27, on a marine watersport vessel, [0089] setting the watersport propulsion system (1) in a watersport mode of operation, [0090] arranging the drive unit (3) in the forward-facing position F when setting the watersport mode of operation, [0091] detecting that the drive unit is in the forward-facing position before activating the watersport propulsion system in the watersport mode of operation.

Example 31

[0092] The method of example 30, wherein the drive unit is hindered for providing the propulsion if it is detected that the drive unit is not in the forward-facing position after the watersport mode of operation is activated.

[0093] The terminology used herein is for the purpose of describing particular aspects only and is not intended to be limiting of the disclosure. As used herein, the singular forms a, an, and the are intended to include the plural forms as well, unless the context clearly indicates otherwise. As used herein, the term and/or includes any and all combinations of one or more of the associated listed items. It will be further understood that the terms comprises, comprising, includes, and/or including when used herein specify the presence of stated features, integers, actions, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, actions, steps, operations, elements, components, and/or groups thereof.

[0094] It will be understood that, although the terms first, second, etc., may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element could be termed a second element, and, similarly, a second element could be termed a first element without departing from the scope of the present disclosure.

[0095] Relative terms such as below or above or upper or lower or horizontal or vertical may be used herein to describe a relationship of one element to another element as illustrated in the Figures. It will be understood that these terms and those discussed above are intended to encompass different orientations of the device in addition to the orientation depicted in the Figures. It will be understood that when an element is referred to as being connected or coupled to another element, it can be directly connected or coupled to the other element, or intervening elements may be present. In contrast, when an element is referred to as being directly connected or directly coupled to another element, there are no intervening elements present.

[0096] Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs. It will be further understood that terms used herein should be interpreted as having a meaning consistent with their meaning in the context of this specification and the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

[0097] It is to be understood that the present disclosure is not limited to the aspects described above and illustrated in the drawings; rather, the skilled person will recognize that many changes and modifications may be made within the scope of the present disclosure and appended claims. In the drawings and specification, there have been disclosed aspects for purposes of illustration only and not for purposes of limitation, the scope of the disclosure being set forth in the following claims.