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Title:
A WATERTIGHT ELECTRIC ACTUATOR FOR A TRIM TAB ASSEMBLY OR WAKE GATE ASSEMBLY
Document Type and Number:
WIPO Patent Application WO/2020/069615
Kind Code:
A1
Abstract:
An actuator comprises a housing and a drive tube assembly disposed within the housing. The drive tube assembly includes a drive tube provided with internal threads, a piston nut provided with external threads which threadedly engage the inner threads of the drive tube, and an output shaft connected to the piston nut. A motor rotates the drive tube to cause the piston nut to reciprocate along a length of the drive tube and the output shaft to reciprocate relative to the housing. There are bearings which transmit axial loads from the drive tube to the housing and transmit radial loads from the drive tube to the housing.

Inventors:
BAROS DAVOR (CA)
Application Number:
PCT/CA2019/051408
Publication Date:
April 09, 2020
Filing Date:
October 01, 2019
Export Citation:
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Assignee:
MARINE CANADA ACQUISITION INC (CA)
International Classes:
F16H25/20; B63B1/22; B63H25/24; B63H25/26; B66F3/44; H02K7/06
Foreign References:
US20150263587A12015-09-17
US20020109427A12002-08-15
DE102007037484A12009-02-19
JP2003049921A2003-02-21
US5881666A1999-03-16
Attorney, Agent or Firm:
CAMERON IP (CA)
Download PDF:
Claims:
What is claimed is:

1. An actuator comprising: a housing; a drive tube assembly disposed within the housing, the drive tube assembly including a drive tube provided with internal threads, a piston nut provided with external threads which threadedly engage the internal threads of the drive tube, and an output shaft connected to the piston nut; a motor, the motor rotating the drive tube to cause the piston nut to reciprocate along a length of the drive tube and the output shaft to reciprocate relative to the housing; and bearings which transmit axial loads from the drive tube to the housing and radial loads from the drive tube to the housing.

2. The actuator as claimed in claim 1 wherein the piston nut is threadedly connected to the output shaft and a diameter of the external threads of the piston nut are larger in diameter than threads that threadedly connect the piston nut to the output shaft.

3. The actuator as claimed in claim 1 or 2 further including a planetary gear reduction coupling the motor to the drive tube.

4. The actuator as claimed in any one of claims 1 to 3 further including a vent tube allowing fluid communication between the atmosphere and an interior of the housing.

5. The actuator as claimed in any one of claims 1 to 4 wherein the actuator is watertight.

6. The actuator as claimed in any one of claims 1 to 5 wherein the actuator is part of a trim tab assembly or a wake gate assembly.

7. An actuator comprising: a housing; a drive shaft assembly disposed within the housing, the drive shaft assembly including a drive shaft provided with external threads, a piston nut provided with internal threads which threadedly engage the external threads of the drive shaft, and an output shaft connected to the piston nut; a motor, the motor rotating the drive shaft to cause the piston nut to reciprocate along a length of the drive shaft and the output shaft to reciprocate relative to the housing; and bearings which transmit axial loads from the drive shaft to the housing and radial loads from the drive shaft to the housing.

8. The actuator as claimed in claim 7 wherein the piston nut is threadedly connected to the output shaft and a diameter of the internal threads of the piston nut are larger in diameter than threads that threadedly connect the piston nut to the output shaft.

9. The actuator as claimed in claim 7 or 8 further including a planetary gear reduction coupling the motor to the drive shaft.

10. The actuator as claimed in any one of claims 7 to 9 further including a vent tube allowing fluid communication between the atmosphere and an interior of the housing.

11. The actuator as claimed in any one of claims 7 to 10 wherein the actuator is watertight.

12. The actuator as claimed in any one of claims 7 to 11 wherein the actuator is part of a trim tab assembly or a wake gate assembly.

Description:
A WATERTIGHT ELECTRIC ACTUATOR FOR A TRIM TAB ASSEMBLY OR

WAKE GATE ASSEMBLY

BACKGROUND

Field of the Disclosure [0001] The present disclosure relates to an electric actuator and, in particular, to a watertight electric actuator for use as part of a trim tab assembly or wake gate assembly.

Description of the Related Art

[0002] United States Patent No. 5,881,666 which issued on March 16, 1999, in the name of Crews discloses a trim tab actuator. There is a ram adapted to be connected at a first end to the trim tab and connected at a second end to a drive. The ram has a longitudinal portion equal to at least the maximum stroke of the ram and is received in the longitudinal bore of which longitudinal bore has a length equal to or greater than the maximum stroke of the ram. An inboard seal is disposed between the ram and bore. The inboard seal is positioned inboard of the longitudinal portion of the ram when the ram is retracted.

SUMMARY OF THE DISCLOSURE

[0003] It is an object of the present disclosure to provide a watertight electric actuator for use as part of a trim tab assembly or wake gate assembly. [0004] There is accordingly provided an actuator comprising a housing and a drive tube assembly disposed within the housing. The drive tube assembly includes a drive tube provided with internal threads, a piston nut provided with external threads which threadedly engage the internal threads of the drive tube, and an output shaft connected to the piston nut. A motor rotates the drive tube to cause the piston nut to reciprocate along a length of the drive tube and the output shaft to reciprocate relative to the housing. There are bearings which transmit axial loads from the drive tube to the housing and transmit radial loads from the drive tube to the housing. [0005] The piston nut may be threadedly connected to the output shaft. A diameter of the external threads of the piston nut may be larger in diameter than threads that threadedly connect the piston nut to the output shaft. There may be a planetary gear reduction coupling the motor to the drive tube. There may be a vent tube allowing fluid communication between the atmosphere and an interior of the housing. The actuator may be watertight. The actuator is part of a trim tab assembly or a wake gate assembly.

[0006] There is also provided an actuator comprising a housing and a drive shaft assembly disposed within the housing. The drive shaft assembly includes a drive shaft provided with external threads, a piston nut provided with internal threads which threadedly engage the external threads of the drive shaft, and an output shaft connected to the piston nut. A motor rotates the drive shaft to cause the piston nut to reciprocate along a length of the drive shaft and the output shaft to reciprocate relative to the housing. There are bearings which transmit axial loads from the drive shaft to the housing and transmit radial loads from the drive shaft to the housing.

[0007] The piston nut may be threadedly connected to the output shaft. A diameter of the internal threads of the piston nut may be larger in diameter than threads that threadedly connect the piston nut to the output shaft. There may be a planetary gear reduction coupling the motor to the drive shaft. There may be a vent tube allowing fluid communication between the atmosphere and an interior of the housing. The actuator may be watertight. The actuator is part of a trim tab assembly or a wake gate assembly. BRIEF DESCRIPTIONS OF DRAWINGS

[0008] The disclosure will be more readily understood from the following description of the embodiments thereof given, by way of example only, with reference to the accompanying drawings, in which:

[0009] Figure 1 is a perspective view of a marine vessel provided with trim tab assemblies;

[0010] Figure 2 is an end view of the marine vessel of Figure 1 showing the trim tab assemblies mounted on a transom thereof; [0011] Figure 3 is an enlarged view of a port trim tab assembly of the marine vessel of

Figure 1 shown in a retracted configuration;

[0012] Figure 4 is an enlarged view of the port trim tab assembly of the marine vessel of Figure 1 shown in a deployed configuration;

[0013] Figure 5 is a perspective view of an actuator employed to retract and deploy the port trim tab as shown in Figures 3 and 4;

[0014] Figure 6 is a sectional view of the actuator employed to retract and deploy the port trim tab as shown in Figures 3 and 4, with the actuator in a retracted position;

[0015] Figure 7 is a sectional view of the actuator employed to retract and deploy the port trim tab as shown in Figures 3 and 4, with the actuator in an extended position; [0016] Figure 8 is an end view of a marine vessel showing wake gate assemblies mounted on a transom thereof; [0017] Figure 9 is an enlarged view of a port wake gate assembly of the marine vessel of Figure 7 shown in a retracted configuration;

[0018] Figure 10 is an enlarged view of the port wake gate assembly of the marine vessel of Figure 7 shown in a deployed configuration; [0019] Figure 11 is a perspective view of an actuator employed to retract and deploy the port wake gate assembly as shown in Figures 8 and 9;

[0020] Figure 12 is a sectional view of the actuator employed to retract and deploy the port wake gate assembly as shown in Figures 8 and 9 with the actuator in a retracted position; and [0021] Figure 13 is a sectional view of the actuator employed to retract and deploy the port wake gate assembly as shown in Figures 8 and 9, with the actuator in an extended position.

DESCRIPTIONS OF THE SPECIFIC EMBODIMENTS [0022] Referring to the drawings and first to Figures 1 , there is shown a marine vessel

10 which is provided with a propulsion unit which, in this example, is in the form of an outboard engine 12 mounted on a transom 14 of the marine vessel 10. However, the marine vessel 10 may be provided with any number or form of propulsion units in other examples. The marine vessel 10 is also provided with a port trim tab assembly 16 and a starboard trim tab assembly 18. The port trim tab assembly 16 and the starboard trim tab assembly 18 are each mounted on the transom 14 of the marine vessel 10 in a conventional manner. There is a control station 20 that supports a steering wheel 22 mounted on a helm 24, a control head 26, and a joystick 28. The control station 20 further includes a first display interface 30 and a second display interface 32. In this example, the first display interface 30 is a SIMRAD® display interface which displays navigational information and the second display interface 32 is an OPTIMUS® display which displays onboard system information. The control station 20 allows an operator to steer the outboard engine 12 and deploy and retract the port trim tab assembly 16 and the starboard trim tab assembly 18 in a generally conventional manner.

[0023] The port trim tab assembly 16 and the starboard trim tab assembly 18 are shown in greater detail in Figure 2. The port trim tab assembly 16 and the starboard trim tab assembly 18 are substantially the same in structure and function. Accordingly, only the port trim tab assembly 16 is described in detail herein with the understanding that the starboard trim tab assembly 18 has substantially the same structure and function in substantially the same manner. The port trim tab assembly 16 includes a trim tab 34 which is hingedly mounted adjacent a bottom edge 36 of the transom 14 of the marine vessel 10 by a hinge 38. The port trim tab assembly 16 also includes an actuator 40 which actuates the trim tab 34 between a retracted position, as shown in Figure 3, and a deployed position, as shown in Figure 4. Referring back to Figure 2, the actuator 40 may be partially or fully below the waterline and is watertight. [0024] The actuator 40 is an electric actuator and is shown in greater detail in Figures

5 and 6. The actuator 40 generally includes a housing 42 which, in this example, has a first portion 44 and a second portion 46. The first portion 44 of the housing 42 and the second portion 46 of the housing 42 are threadedly connected and there are O-rings 48a and 48b which seal the first portion 44 of the housing 42 and the second portion 46 of the housing 42. There is a motor 50 disposed in the housing 42. The motor 50 is coupled to a planetary gear reduction 52 which includes a last stage planetary gear 54. The last stage planetary gear 54 is coupled to a drive tube assembly 56 which includes a drive tube 58 and a piston nut 60 coupled to an output shaft 62. The drive tube 58 has internal threads 64 and the piston nut 60 has external threads 66. The internal threads 64 of the drive tube 58 and the external threads 66 of the piston nut 60 are threadedly engaged. The motor 50 rotates the drive tube 58. Rotation of drive tube 58 accordingly causes the piston nut 60 to reciprocate along a length of the drive tube 58 and the output shaft 62 to reciprocate relative to the housing 42. The internal threads 64 of the drive tube 58 and the external threads 66 of the piston nut 60 may be larger in diameter than threads that threadedly engage the piston nut 60 and the output shaft 62. This results in increased thread load carrying capacity.

[0025] The diameter of the output shaft 62 may also be decreased to the inner diameter of the drive tube 58. A decreased diameter of the output shaft 62 means a decreased change in an internal volume 68 of the actuator 40 when the output shaft 62 reciprocates relative to the housing 42. The internal volume 68 of the housing 42 increases when the output shaft 62 is extended from the housing 42. The increase in the internal volume 68 of the housing 42 results in a negative air pressure in the housing 42 which is compensated by air flowing into the housing 42 through a vent conduit 70. The vent conduit 70 has a first end 72 in fluid communication with the atmosphere and a second end 74 in fluid communication with the internal volume 68 of the housing 42. There is a check valve 76 disposed at the second end 74 of the vent conduit 70. Air can accordingly flow through the vent conduit 70 into the housing 42 but not out of the housing 42. A positive air pressure is thereby created in the housing 42 when the output shaft 62 is extended and retracted into the housing 42. This restricts the ingress of water into the housing 42. There are also seals 78a and 78b which seal the output shaft 62 against the housing 42 which also restricts the ingress of water into the housing 42. A decreased diameter of the output shaft 62 facilitates sealing.

[0026] The actuator 40 also includes axial bearings 80 and 82 as well as radial bearings 84 and 86 which transfer axial loads and radial loads from the drive tube 58 to the housing

42. This allows for proper load transfer in both the push direction and pull direction. It is desirable to also have proper load transfer in the pull direction because trim tabs are often employed as steps to get in to and out of marine vessels. It is also desirable to have proper load transfer in both the push direction and pull direction if an actuator is being employed in a wake gate assembly in which the actuator needs to be loaded in both the push direction and the pull direction.

[0027] Figure 7 shows a marine vessel 110 provided with a propulsion unit which, in this example, is in the form of an inboard engine 112. However, the marine vessel may be provided with any number or form of propulsion units in other examples. The marine vessel 110 is also provided with a port wake gate assembly 114 and a starboard wake gate assembly 116. The port wake gate assembly 114 and the starboard wake gate assembly 116 are each mounted on a transom 118 of the marine vessel 110 in a conventional manner. [0028] The port wake gate assembly 114 and the starboard wake gate assembly 116 are substantially the same in structure and function. Accordingly, only the port wake gate assembly 114 is described in detail herein with the understanding that the starboard wake gate assembly 116 has substantially the same structure and functions in substantially the same manner. The port wake gate assembly 114 includes a wake tab 122 which is hingedly mounted adjacent a bottom edge 120 of the transom 118 of the marine vessel 110 by a hinge 124. The port wake gate assembly 114 also includes an actuator 126 which actuates the wake tab 122 between a retracted position, as shown in Figure 8, and a deployed position, as shown in Figure 9. Referring back to Figure 7, the actuator 126 may be partially or fully below the waterline and is watertight. [0029] The actuator 126 is an electric actuator and is shown in greater detail in Figures

10 and 11. The actuator 126 generally includes a housing 128 which, in this example, has a first portion 130 and a second portion 132. The first portion 130 of the housing 128 and the second portion 132 of the housing 128 are threadedly connected and there are O-rings l33a and 133b which seal the first portion 130 of the housing 128 and the second portion 132 of the housing 128. There is a motor 134 disposed in the housing 128. The motor 134 is coupled to a planetary gear reduction 136 which includes a last stage planetary gear 138. The last stage planetary gear 138 is coupled to a drive shaft assembly 140 which includes a drive shaft 142 and a piston nut 144 coupled to an output shaft 146. The drive shaft 142 has external threads 148 and the piston nut 144 has internal threads 150. The external threads 148 of the drive shaft 142 and the internal threads 150 of the piston nut 144 are threadedly engaged. The motor 134 rotates the drive shaft 142. Rotation of drive shaft 142 accordingly causes the piston nut 144 to reciprocate along a length of the drive shaft 142 and the output shaft 146 to reciprocate relative to the housing 128. The external threads 148 of the drive shaft 142 and the internal threads 150 of the piston nut 144 may be larger in diameter than threads that threadedly engage the piston nut 144 and the output shaft 146. This results in increased thread load carrying capacity.

[0030] An internal volume 152 of the housing 128 increases when the output shaft 146 is extended from the housing 128. The increase in the internal volume 152 of the housing 128 results in a negative air pressure in the housing 128 which is compensated by air flowing into the housing 128 through a vent conduit 154. The vent conduit 154 has first end 156 in fluid communication with the atmosphere and a second end 158 in fluid communication with the internal volume of the housing 128. There is a check valve 160 disposed at the second end 158 of the vent conduit 154. Air can accordingly flow through the vent conduit 154 into the housing 128 but not out of the housing 128. A positive air pressure is thereby created in the housing 128 when the output shaft 146 is extended and retracted into the housing 128. This restricts the ingress of water into the housing 128. There are also seals l62a and l62b which seal the output shaft 146 against the housing 128 which also restricts the ingress of water into the housing 128. A decreased diameter of the output shaft 146 facilitates sealing.

[0031] The actuator 126 also includes bearings 164 which transfer axial loads and radial loads from the drive shaft 142 to the housing 128. The bearings 164 are retained by circlips l66a and l66b in this example. This allows for proper load transfer in both the push direction and pull direction. [0032] It will be understood by a person skilled in the art that the actuator of the trim tab assembly disclosed herein may be employed as part of a wake gate assembly. Likewise, the actuator of the wake gate assembly disclosed herein may be employed as part of a trim tab assembly.

[0033] It will also be understood by a person skilled in the art that many of the details provided above are by way of example only, and are not intended to limit the scope of the invention which is to be determined with reference to the following claims.