Submersible towed body deployment and recovery device
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B63B-021/66
B63B-035/40
B63B-023/30
B63B-023/32
B63B-027/14
B63C-003/02
B63B-021/56
B63B-027/36
B63B-027/16
출원번호
US-0044746
(2013-10-02)
등록번호
US-9359046
(2016-06-07)
발명자
/ 주소
Rosche, Gregory S.
출원인 / 주소
Raytheon Company
인용정보
피인용 횟수 :
0인용 특허 :
9
초록▼
A submersible towed body deployment and recovery device is disclosed. The device can include a support structure supportable by a surface watercraft, and configured for rotational and translational movement relative to the watercraft. Additionally, the device can include a towed body interface struc
A submersible towed body deployment and recovery device is disclosed. The device can include a support structure supportable by a surface watercraft, and configured for rotational and translational movement relative to the watercraft. Additionally, the device can include a towed body interface structure supported by the support structure and configured to interface with and support a wing and a forward end of a towed body. The support structure can be movable between a deploy/recovery position in which at least a portion of the towed body interface structure extends into water about the watercraft and a stowed position in which the towed body interface structure positions the towed body out of the water. Coordinated rotational and translational movement of the support structure can utilize buoyancy of the towed body in the water to minimize loading on the deployment and recovery device when moving between the deploy/recovery position and the stowed position.
대표청구항▼
1. A submersible towed body deployment and recovery device, comprising: a support structure supportable by a surface watercraft, and configured for rotational and translational movement relative to the watercraft; anda towed body interface structure supported by the support structure and configured
1. A submersible towed body deployment and recovery device, comprising: a support structure supportable by a surface watercraft, and configured for rotational and translational movement relative to the watercraft; anda towed body interface structure supported by the support structure and configured to interface with and support a portion of a towed body, the support structure being caused to rotate in a first direction to engage the towed body with the towed body interface structure and in a second direction to disengage the towed body from the towed body interface structure,wherein the support structure is movable between a deploy/recovery position in which at least a portion of the towed body interface structure extends into water about the watercraft and a stowed position in which the towed body interface structure positions the towed body out of the water, andwherein coordinated rotational and translational movement of the support structure utilizes buoyancy of the towed body in the water to minimize loading on the deployment and recovery device when moving between the deploy/recovery position and the stowed position. 2. The deployment and recovery device of claim 1, further comprising a tow line guide coupled to and supported by the support structure, wherein the tow line guide is configured to translate relative to the support structure to guide a tow line between the watercraft and the towed body during movement between the deploy/recovery position and the stowed position. 3. The deployment and recovery device of claim 2, wherein the support structure comprises a rail and the tow line guide is translatable relative to the support structure along the rail. 4. The deployment and recovery device of claim 1, wherein the towed body interface structure comprises padding configured to interface with the towed body to minimize damage to the towed body due to contact with the towed body interface structure. 5. The deployment and recovery device of claim 1, wherein the support structure comprises a rail to facilitate translational movement of the support structure relative to the watercraft. 6. The deployment and recovery device of claim 1, wherein an actuated pivotal joint facilitates rotational movement of the support structure relative to the watercraft. 7. The deployment and recovery device of claim 1, wherein an actuated linear joint facilitates translational movement of the support structure relative to the watercraft. 8. The deployment and recovery device of claim 1, wherein the towed body interface structure is configured to interface with and support an underside of a wing and an upper side of a forward end of the towed body. 9. The deployment and recovery device of claim 8, wherein the towed body interface structure is further configured to interface with and support an upper side of the wing. 10. The deployment and recovery device of claim 1, wherein the towed body interface structure comprises a rear extension configured to interface with and support a trailing end of a wing of the towed body. 11. The deployment and recovery device of claim 1, wherein the towed body interface structure includes an opening to receive a forward end of the towed body and facilitate movement of the forward end of the towed body into contact with a top support of the towed body interface structure as a wing rotates about a wing support of the towed body interface structure. 12. The deployment and recovery device of claim 11, wherein the opening is size adjustable to accommodate a range of towed body sizes. 13. The deployment and recovery device of claim 1, wherein the towed body interface structure comprises a cage configuration. 14. A submersible towed body deployment and recovery system, comprising: a surface watercraft;a submersible towed body coupled to the watercraft by a tow line; anda towed body deployment and recovery device, including a support structure supported by the watercraft, and configured for rotational and translational movement relative to the watercraft, anda towed body interface structure supported by the support structure and configured to interface with and support a wing and a forward end of the towed body, the support structure being caused to rotate in a first direction to engage the towed body with the towed body interface structure and in a second direction to disengage the towed body from the towed body interface structure,wherein the support structure is movable between a deploy/recovery position in which at least a portion of the towed body interface structure extends into water about the watercraft and a stowed position in which the towed body interface structure positions the towed body out of the water, andwherein coordinated rotational and translational movement of the support structure utilizes buoyancy of the towed body in the water to minimize loading on the deployment and recovery device when moving between the deploy/recovery position and the stowed position. 15. The system of claim 14, wherein the towed body comprises a sonar sensor. 16. The system of claim 14, wherein the watercraft comprises an unmanned surface vehicle (USV). 17. The system of claim 14, wherein the towed body deployment and recovery device further comprises a tow line guide coupled to and supported by the support structure, wherein the tow line guide is configured to translate relative to the support structure to guide the tow line between the watercraft and the towed body during movement between the deploy/recovery position and the stowed position. 18. A method for facilitating deployment and recovery of a submersible towed body, comprising: providing a submersible towed body deployment and recovery device, the device comprisinga support structure, anda towed body interface structure supported by the support structure and configured to interface with and support a wing and a forward end of a towed body; andfacilitating use of the submersible towed body deployment and recovery device with a surface watercraft, such that the support structure is supportable by the surface watercraft and configured for rotational and translational movement relative to the watercraft, the support structure being rotatable in a first direction to engage the towed body with the towed body interface structure and in a second direction to disengage the towed body from the towed body interface structure, wherein the support structure is movable between a deploy/recovery position in which at least a portion of the towed body interface structure extends into water about the watercraft and a stowed position in which the towed body interface structure positions the towed body out of the water, andwherein coordinated rotational and translational movement of the support structure utilizes buoyancy of the towed body in the water to minimize loading on the deployment and recovery device when moving between the deploy/recovery position and the stowed position. 19. The method of claim 18, wherein the submersible towed body deployment and recovery device further comprises a tow line guide coupled to and supported by the support structure, wherein the tow line guide is configured to translate relative to the support structure to guide the tow line between the watercraft and the towed body during movement between the deploy/recovery position and the stowed position. 20. The method of claim 18, wherein the towed body interface structure includes an opening to receive the forward end of the towed body and facilitate movement of the forward end of the towed body into contact with a top support of the towed body interface structure as the wing rotates about a wing support of the towed body interface structure.
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이 특허에 인용된 특허 (9)
Walton Jim M. (San Diego CA) Munson Arthur E. (San Diego CA), Apparatus for deploying and recovering a seaborne vessel.
Gibson, Robert; Peebles, Robert; Hendrickson, Edward; Smith, Danny; Brian, Sauer; Walton, William R., Launch and recovery system for unmanned undersea vehicles.
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