公开(公告)号：US5697319A

公开(公告)日：1997-12-16

申请号：US662823

申请日：1996-06-12

Applicant: David B. Steensland ,  Kevin Scott Covell

Inventor： David B. Steensland ,  Kevin Scott Covell

IPC: B63B5/24 ,  B63B49/00

CPC classification number: B63B49/00 ,  B63B5/24 ,  B63B2201/18

Abstract: A removable form is positioned within a boat hull and may be removed to optionally install a sonar transducer and a method of optionally positioning a sonar transducer within a boat hull after the hull is fabricated. The removable form is defined by a distal end and an opposing proximal end. The proximal end includes a retaining flange extending beyond a nominal thickness of a portion of the hull for anchoring the removable form within the boat hull. The distal end is substantially flush with the outer surface of the hull. The removable form is temporarily adhered to a boat mold and the hull is formed therearound. When the hull is hardened, it is removed from the mold with the removable form secured therein. The hull is operative in this condition, or the removable form may be removed and a sonar transducer may be positioned in its place.

Abstract translation: 可拆卸的形式定位在船体内，并且可以被移除以可选地安装声纳换能器，以及在制造船体之后可选地将声纳换能器定位在船体内的方法。 可移除的形状由远端和相对的近端限定。 近端包括延伸超过船体的一部分的标称厚度的保持凸缘，用于将可移除的形式锚定在船体内。 远端基本上与船体的外表面齐平。 可移除的形式暂时粘附到船模上，并且在其周围形成船体。 当船体硬化时，将其从固定在其中的可拆卸形式从模具中取出。 在这种情况下，船体是可操作的，或者可移除的形式可以被移除，并且声纳传感器可能位于其位置。

公开(公告)号：US11884367B2

公开(公告)日：2024-01-30

申请号：US16999537

申请日：2020-08-21

Applicant: Cutting Edge Innovations, LLC

Inventor： William Mawson ,  Stephen V. Weigman

IPC: G05D1/02 ,  B63B21/22

CPC classification number: B63B21/22 ,  G05D1/0208 ,  B63B2201/18 ,  B63B2213/02

Abstract: A multi-anchor depth control system for a boat or other watercraft having a line for securing anchors to the boat, at least two anchors attached at or near opposing ends of the line, a depth finder, and a controller configured to automatically adjust the amount of line released from the boat to maintain the anchors on the floor of the body of water in which the boat is floating, based upon information obtained from the depth finder.

公开(公告)号：US20180099734A1

公开(公告)日：2018-04-12

申请号：US15728548

申请日：2017-10-10

Applicant: Nikolaus Peter Schibli

Inventor： Nikolaus Peter Schibli

IPC: B63H16/08 ,  B63B35/79 ,  B63H21/21 ,  G01S15/93

CPC classification number: B63H16/14 ,  B63B35/7943 ,  B63B2201/18 ,  B63H16/08 ,  B63H21/21 ,  B63H2021/216 ,  G01S15/88 ,  G01S15/93

Abstract: A powered watercraft system including a watercraft body, a propulsion system, a sensor configured to measure a value indicative of a manually-generated time-variable first propulsive force resulting from a body motion of the user to move the watercraft body, and a controller configured control the propulsion system to generate a second propulsive force for powering the watercraft body based on the value indicative of the first propulsive force, the generated second propulsive force being at least partially contemporary with the first propulsive force.

公开(公告)号：US20170050712A1

公开(公告)日：2017-02-23

申请号：US15346806

申请日：2016-11-09

Applicant: Garmin Switzerland GmbH

Inventor： Ted V. Grace ,  Ryan T. Grace

IPC: B63H21/21 ,  B63B51/00 ,  G01C21/20 ,  A01K91/08 ,  B63H25/04 ,  G01S19/13 ,  G01S15/89 ,  B63H20/00 ,  G05D1/02

CPC classification number: B63B51/00 ,  A01K83/02 ,  A01K85/00 ,  A01K85/02 ,  A01K91/08 ,  A01K93/02 ,  A01K97/00 ,  B63B2201/18 ,  B63B2211/02 ,  B63B2213/02 ,  B63H20/007 ,  B63H21/21 ,  B63H25/04 ,  B63H2021/216 ,  B63H2025/045 ,  B63H2025/425 ,  B63J99/00 ,  B63J2099/006 ,  B63J2099/008 ,  G01C21/005 ,  G01C21/20 ,  G01S15/89 ,  G01S19/13 ,  G05D1/0206 ,  G05D3/00 ,  G06F3/14 ,  G07C5/008 ,  G07C5/02 ,  Y02A40/86

Abstract: Watercraft automation and aquatic data utilization for aquatic efforts are disclosed. In one aspect, an anchor point is obtained and a watercraft position maintenance routine is actuated to control the watercraft to maintain association with the anchor point. In another aspect, prior aquatic effort data is obtained in association with an anchor point. In yet another aspect, current aquatic effort data is generated in association with an anchor point. In still another aspect, current aquatic effort data and prior aquatic effort data are utilized for prediction generation. In yet another aspect, current aquatic effort data and prior aquatic effort data are utilized to obtain another anchor point for a watercraft.

Abstract translation: 公开了船舶自动化和水上数据利用的水生工作。 在一个方面，获得锚定点并且致动船只位置维护程序以控制船只与锚点保持联系。 在另一方面，与锚点相关联地获得先前的水生努力数据。 在另一方面，与锚点相关联地生成当前水生努力数据。 在另一方面，目前的水生努力数据和以前的水生努力数据被用于预测生成。 在另一方面，目前的水生努力数据和先前的水生努力数据被用于获得船舶的另一锚点。

公开(公告)号：US09505477B2

公开(公告)日：2016-11-29

申请号：US14853824

申请日：2015-09-14

Applicant: Ted V. Grace ,  Ryan T. Grace

Inventor： Ted V. Grace ,  Ryan T. Grace

IPC: G06F17/00 ,  B63H21/21 ,  B63B51/00 ,  G01C21/20 ,  G01S15/89 ,  G05D1/02 ,  G05D3/00 ,  A01K85/00 ,  A01K97/00 ,  B63J99/00 ,  G07C5/00 ,  G07C5/02 ,  G01S19/13 ,  B63H25/04 ,  B63H25/42 ,  A01K83/02 ,  A01K85/02 ,  A01K91/08 ,  A01K93/02

CPC classification number: B63B51/00 ,  A01K83/02 ,  A01K85/00 ,  A01K85/02 ,  A01K91/08 ,  A01K93/02 ,  A01K97/00 ,  B63B2201/18 ,  B63B2211/02 ,  B63B2213/02 ,  B63H20/007 ,  B63H21/21 ,  B63H25/04 ,  B63H2021/216 ,  B63H2025/045 ,  B63H2025/425 ,  B63J99/00 ,  B63J2099/006 ,  B63J2099/008 ,  G01C21/005 ,  G01C21/20 ,  G01S15/89 ,  G01S19/13 ,  G05D1/0206 ,  G05D3/00 ,  G06F3/14 ,  G07C5/008 ,  G07C5/02 ,  Y02A40/86

Abstract: Watercraft automation and aquatic data utilization for aquatic efforts are utilized for updating map data. A GPS mapping computer and a sonar device are in communication. The GPS mapping computer displays aquatic effort data. Current aquatic effort data is obtained on the GPS mapping computer. The GPS mapping computer is updated with the current aquatic effort data. The update includes updating map data with the current position and the current sonar information.

Abstract translation: 用于水上工作的船舶自动化和水文数据利用来更新地图数据。 GPS地图计算机和声纳装置正在通信。 GPS地图计算机显示水上数据。 在GPS地图计算机上获得当前的水上数据。 GPS映射计算机使用当前的水上数据进行更新。 该更新包括用当前位置和当前声纳信息更新地图数据。

公开(公告)号：US09394040B2

公开(公告)日：2016-07-19

申请号：US14643502

申请日：2015-03-10

Applicant: Ted V. Grace ,  Ryan T. Grace

Inventor： Ted V. Grace ,  Ryan T. Grace

IPC: G06F7/00 ,  B63B51/00 ,  G01C21/20 ,  G01S15/89 ,  G05D1/02 ,  G05D3/00 ,  B63H21/21 ,  A01K85/00 ,  A01K97/00 ,  B63H25/42 ,  A01K83/02 ,  A01K85/02 ,  A01K91/08 ,  A01K93/02

CPC classification number: B63B51/00 ,  A01K83/02 ,  A01K85/00 ,  A01K85/02 ,  A01K91/08 ,  A01K93/02 ,  A01K97/00 ,  B63B2201/18 ,  B63B2211/02 ,  B63B2213/02 ,  B63H20/007 ,  B63H21/21 ,  B63H25/04 ,  B63H2021/216 ,  B63H2025/045 ,  B63H2025/425 ,  B63J99/00 ,  B63J2099/006 ,  B63J2099/008 ,  G01C21/005 ,  G01C21/20 ,  G01S15/89 ,  G01S19/13 ,  G05D1/0206 ,  G05D3/00 ,  G06F3/14 ,  G07C5/008 ,  G07C5/02 ,  Y02A40/86

Abstract: Watercraft automation and aquatic data utilization for aquatic efforts are utilized for fishing and network communication. In one aspect, a control mechanism for a trolling device has an interface for establishing a network connection between the control mechanism and an electronic GPS mapping computer having an electronic display for displaying data. In an aspect, the control mechanism is configured to receive control instructions from the electronic GPS mapping computer to execute speed or direction.

Abstract translation: 用于水上作业的船舶自动化和水文数据利用被用于捕鱼和网络通信。 一方面，用于拖钓装置的控制机构具有用于在控制机构和具有用于显示数据的电子显示器的电子GPS地图计算机之间建立网络连接的接口。 一方面，控制机构被配置为从电子GPS映射计算机接收控制指令以执行速度或方向。

公开(公告)号：US20160116563A1

公开(公告)日：2016-04-28

申请号：US14938942

申请日：2015-11-12

Applicant: Adaptive Methods, Inc.

Inventor： Kevin Kieffer ,  Walter Allensworth ,  Conrad Zeglin ,  James Wiggins ,  Peter Owen ,  Jeffrey Herdman

IPC: G01S1/68 ,  B63C7/26 ,  B63B22/00 ,  G01S19/18 ,  G01S1/72

CPC classification number: G01S1/68 ,  B63B22/00 ,  B63B2201/16 ,  B63B2201/18 ,  B63B2201/20 ,  B63C7/26 ,  G01S1/72 ,  G01S1/725 ,  G01S19/18

Abstract: A method of locating an underwater based system, the method including determining the underwater based system's geo-location, encoding the underwater based system's geo-location for RF transmission, encoding the underwater based system's geo-location for acoustic transmission, and transmitting RF and acoustic signals containing the encoded geo-location to a receiving station. A locator for locating an underwater based system including a buoy, a global positioning system having an antenna and a receiver, an RF transmission system including an antenna and a transmitter, an underwater acoustic transducer, and a locator control unit adapted to determine the underwater based system's geo-location, encode the underwater based system's geo-location for RF transmission, encode the underwater based system's geo-location for acoustic transmission, and transmit RF and underwater acoustic signals containing the encoded geo-location.

公开(公告)号：US20160098866A1

公开(公告)日：2016-04-07

申请号：US14853819

申请日：2015-09-14

Applicant: Ted V. Grace ,  Ryan T. Grace

Inventor： Ted V. Grace ,  Ryan T. Grace

IPC: G07C5/00 ,  G07C5/02 ,  B63J99/00 ,  G01S19/13

CPC classification number: B63B51/00 ,  A01K83/02 ,  A01K85/00 ,  A01K85/02 ,  A01K91/08 ,  A01K93/02 ,  A01K97/00 ,  B63B2201/18 ,  B63B2211/02 ,  B63B2213/02 ,  B63H20/007 ,  B63H21/21 ,  B63H25/04 ,  B63H2021/216 ,  B63H2025/045 ,  B63H2025/425 ,  B63J99/00 ,  B63J2099/006 ,  B63J2099/008 ,  G01C21/005 ,  G01C21/20 ,  G01S15/89 ,  G01S19/13 ,  G05D1/0206 ,  G05D3/00 ,  G06F3/14 ,  G07C5/008 ,  G07C5/02 ,  Y02A40/86

Abstract: Watercraft automation and aquatic data utilization for aquatic efforts are disclosed. la one aspect, an anchor point is obtained and a watercraft position, maintenance routine is actuated to control the watercraft to maintain association with the anchor point. In another aspect, prior aquatic effort data is obtained in association with an anchor point. In yet another aspect, current aquatic effort data is generated in association with an anchor point. In still another aspect, current aquatic effort data and prior aquatic effort data are utilized for prediction generation. In yet another aspect, current aquatic effort data and prior aquatic effort data are utilized to obtain another anchor point for a watercraft.

Abstract translation: 公开了船舶自动化和水上数据利用的水生工作。 在一个方面，获得锚点并且起动船舶位置，启动维护程序以控制船舶与锚点保持联系。 在另一方面，与锚点相关联地获得先前的水生努力数据。 在另一方面，与锚点相关联地生成当前水生努力数据。 在另一方面，目前的水生努力数据和以前的水生努力数据被用于预测生成。 在另一方面，目前的水生努力数据和先前的水生努力数据被用于获得船舶的另一锚点。

公开(公告)号：US09213077B2

公开(公告)日：2015-12-15

申请号：US13563268

申请日：2012-07-31

Applicant: Kevin Kieffer ,  Walter Allensworth ,  Conrad Zeglin ,  James Wiggins ,  Peter Owen ,  Jeffrey Herdman

Inventor： Kevin Kieffer ,  Walter Allensworth ,  Conrad Zeglin ,  James Wiggins ,  Peter Owen ,  Jeffrey Herdman

IPC: G01S1/68 ,  G01S1/72 ,  G01S19/13 ,  B63B22/00 ,  G01S19/18

CPC classification number: G01S1/68 ,  B63B22/00 ,  B63B2201/16 ,  B63B2201/18 ,  B63B2201/20 ,  B63C7/26 ,  G01S1/72 ,  G01S1/725 ,  G01S19/18

Abstract: A method of locating an underwater based system, the method including determining the underwater based system's geo-location, encoding the underwater based system's geo-location for RF transmission, encoding the underwater based system's geo-location for acoustic transmission, and transmitting RF and acoustic signals containing the encoded geo-location to a receiving station. A locator for locating an underwater based system including a buoy, a global positioning system having an antenna and a receiver, an RF transmission system including an antenna and a transmitter, an underwater acoustic transducer, and a locator control unit adapted to determine the underwater based system's geo-location, encode the underwater based system's geo-location for RF transmission, encode the underwater based system's geo-location for acoustic transmission, and transmit RF and underwater acoustic signals containing the encoded geo-location.

Abstract translation: 一种定位水下系统的方法，该方法包括确定基于水下的系统的地理位置，编码基于水下的系统的地理位置以进行RF传输，编码水下系统的地理位置进行声学传输，以及发射RF和声学 信号包含编码的地理位置到接收站。 一种定位器，用于定位包括浮标的水下系统，具有天线和接收器的全球定位系统，包括天线和发射机的RF传输系统，水下声学换能器和定位器控制单元，其适于确定基于水下的 系统的地理位置，编码基于水下的系统的射频传输地理位置，编码基于水下的系统的地理位置进行声学传输，并发射包含编码地理位置的射频和水下声学信号。

公开(公告)号：US20150353171A1

公开(公告)日：2015-12-10

申请号：US14832273

申请日：2015-08-21

Applicant: Ted V. Grace ,  Ryan T. Grace

Inventor： Ted V. Grace ,  Ryan T. Grace

IPC: B63B51/00 ,  G01S15/89 ,  G01C21/20

CPC classification number: B63B51/00 ,  A01K83/02 ,  A01K85/00 ,  A01K85/02 ,  A01K91/08 ,  A01K93/02 ,  A01K97/00 ,  B63B2201/18 ,  B63B2211/02 ,  B63B2213/02 ,  B63H20/007 ,  B63H21/21 ,  B63H25/04 ,  B63H2021/216 ,  B63H2025/045 ,  B63H2025/425 ,  B63J99/00 ,  B63J2099/006 ,  B63J2099/008 ,  G01C21/005 ,  G01C21/20 ,  G01S15/89 ,  G01S19/13 ,  G05D1/0206 ,  G05D3/00 ,  G06F3/14 ,  G07C5/008 ,  G07C5/02 ,  Y02A40/86

Abstract: Watercraft automation and aquatic data utilization for aquatic efforts are disclosed. In one aspect, an anchor point is obtained and a watercraft position maintenance routine is actuated to control the watercraft to maintain association with the anchor point. In another aspect, prior aquatic effort data is obtained in association with an anchor point. In yet another aspect, current aquatic effort data is generated in association with an anchor point. In still another aspect, current aquatic effort data and prior aquatic effort data are utilized for prediction generation. In yet another aspect, current aquatic effort data and prior aquatic effort data are utilized to obtain another anchor point for a watercraft.