A remotely operated vehicle (“ROV”) camera apparatus is disclosed. An ROV includes an anchor housing connected to a body of the ROV. The anchor housing includes a first magnet. The ROV also includes a camera connection housing configured to be rotatably connected to the anchor housing. The camera co
A remotely operated vehicle (“ROV”) camera apparatus is disclosed. An ROV includes an anchor housing connected to a body of the ROV. The anchor housing includes a first magnet. The ROV also includes a camera connection housing configured to be rotatably connected to the anchor housing. The camera connection housing includes a connector cup configured to contact the anchor housing, a second magnet located inside the connector cup, the second magnet configured to magnetically couple to the first magnet, and a motor assembly including a motor configured to rotate a drive shaft, the drive shaft being connected to the magnet plate. The ROV further includes a camera device mechanically coupled to the camera connection housing. Actuation of the motor causes the connector cup to rotate with respect to the anchor housing causing the camera device to rotate.
대표청구항▼
1. A camera apparatus comprising: an anchor housing configured to be connected to a body of a remotely operated vehicle, the anchor housing including: a first magnet,a base cup including an interior recess section configured to hold the first magnet stationary, anda base plate connected to the base
1. A camera apparatus comprising: an anchor housing configured to be connected to a body of a remotely operated vehicle, the anchor housing including: a first magnet,a base cup including an interior recess section configured to hold the first magnet stationary, anda base plate connected to the base cup configured to enclose the first magnet;a camera connection housing configured to be rotatably connected to the anchor housing, the camera connection housing including: a connector cup including a closed end configured to contact the base plate of the anchor housing,an open end, andan interior section,a second magnet located at an interior side of the closed end of the connector cup, the second magnet configured to magnetically couple to the first magnet,a magnet plate including a magnet end configured to secure the second magnet to the interior side of the closed end of the connector cup, anda motor engagement end,a motor assembly including a motor configured to rotate a drive shaft, the drive shaft connected to the motor engagement end of the magnet plate,a motor bracket mechanically coupled to the motor assembly, anda coupling cover connected to the open end of the connector cup configured to enclose the interior section of the connector cup, the coupling cover being mechanically connected to the motor bracket; anda camera device mechanically coupled to the camera connection housing. 2. The camera apparatus of claim 1, further comprising a wire cap mechanically connected to the coupling cover, the wire cap and coupling cover each including at least one window to enable one or more wires to be routed to the motor. 3. The camera apparatus of claim 1, further comprising a lighting device mechanically coupled to the camera connection housing. 4. The camera apparatus of claim 3, wherein the lighting device is connected to a first side of the camera connection housing and the camera device is connected to a second side of the camera connection housing, the second side being opposite from the first side. 5. The camera apparatus of claim 3, wherein the lighting device is positioned in a stacked arrangement with respect to the camera device. 6. The camera apparatus of claim 1, wherein the magnetic coupling between the first magnet and the second magnet holds the magnetic plate in place causing the motor to rotate around the drive shaft, which causes the connector cup to rotate with respect to the anchor housing and causes the camera device to rotate. 7. The camera apparatus of claim 1, further comprising at least one wire routed between the camera device and the body of the remotely operated vehicle, the wire configured to provide at least one of a power connection and a data connection between the camera device and the remotely operated vehicle. 8. The camera apparatus of claim 1, wherein the camera apparatus is configured to operate underwater or in the air. 9. A remotely operated vehicle apparatus comprising: an anchor housing connected to a body of the remotely operated vehicle, the anchor housing including a first magnet and base cup configured to hold the first magnet stationary;a camera connection housing configured to be rotatably connected to the anchor housing, the camera connection housing including: a connector cup configured to contact the anchor housing,a second magnet located inside the connector cup, the second magnet configured to magnetically couple to the first magnet,a magnet plate configured to retain the second magnet inside of the connector cup, anda motor assembly including a motor configured to rotate a drive shaft, the drive shaft being connected to the magnet plate; anda camera device mechanically coupled to the camera connection housing,wherein actuation of the motor causes the connector cup to rotate with respect to the anchor housing while being magnetically coupled to the anchor housing. 10. The remotely operated vehicle apparatus of claim 9, wherein the remotely operated vehicle apparatus is configured to operate underwater or in the air. 11. The remotely operated vehicle apparatus of claim 9, further comprising a lighting device mechanically coupled to the camera connection housing. 12. The remotely operated vehicle apparatus of claim 9, further comprising a pan and tilt assembly mechanically connected to the connector cup, the pan and tilt assembly including a pan and tilt motor configured to pan or tilt the camera device upwards and downwards with respect to the remotely operated vehicle apparatus. 13. The remotely operated vehicle apparatus of claim 9, further comprising control circuitry configured to provide power to the motor and determine a position of the drive shaft of the motor. 14. The remotely operated vehicle apparatus of claim 13, further comprising at least one wire connected between the control circuitry and a remote control station to receive at least one of power and control instructions for operating the motor and the camera device. 15. The remotely operated vehicle apparatus of claim 13, wherein the control circuitry is configured to transmit images received from the camera device to a remote control station. 16. The remotely operated vehicle apparatus of claim 13, further comprising: a forward compartment located in a forward section of the body;glass enclosing the forward compartment; anda forward-facing camera located in the forward compartment. 17. The remotely operated vehicle apparatus of claim 9, wherein the anchor housing and the camera connection housing are located on a top side of the body of the remotely operated vehicle apparatus. 18. The remotely operated vehicle apparatus of claim 9, wherein the magnetic coupling between the anchor housing and the camera connection housing provides 360° rotation for the camera device.
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이 특허에 인용된 특허 (5)
Spangler, Jonathan David; Spangler, Wayne Elbert, Anchor surveillance for maritime vessels.
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