公开(公告)号：US09446831B2

公开(公告)日：2016-09-20

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: 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 fishing and network communication. Current aquatic effort data and prior aquatic effort data are obtained. An update is received for the prior aquatic effort data. The update is sent to a mapping service.

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。 获得目前的水生努力数据和以前的水生努力数据。 接收到以前的水上工作数据的更新。 更新将发送到映射服务。

公开(公告)号：US09162743B2

公开(公告)日：2015-10-20

申请号：US14289971

申请日：2014-05-29

Applicant: Ted V. Grace ,  Ryan T. Grace

Inventor： Ted V. Grace ,  Ryan T. Grace

IPC: G06F17/00 ,  B63H21/21 ,  G05D1/02 ,  G05D3/00 ,  A01K85/00 ,  A01K97/00 ,  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 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：US20150063071A1

公开(公告)日：2015-03-05

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

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：US20130345912A1

公开(公告)日：2013-12-26

申请号：US13975554

申请日：2013-08-26

Applicant: Ted V. GRACE ,  Ryan T. GRACE

Inventor： Ted V. GRACE ,  Ryan T. GRACE

IPC: G05D3/00

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.

公开(公告)号：US20070049137A1

公开(公告)日：2007-03-01

申请号：US11212374

申请日：2005-08-25

Applicant: Marc Lemchen

Inventor： Marc Lemchen

IPC: B60L1/14

CPC classification number: B63B45/04 ,  B63B45/08 ,  B63B2201/00 ,  B63B2201/02 ,  B63B2201/08 ,  B63B2201/18

Abstract: An apparatus provides a warning of propeller rotation or CO/CO2 hazard in a marine craft and includes a sensor in communication with the propeller to directly or indirectly sense rotation of the propeller and to generate a signal in response to the hazard, a controller coupled to the sensor to process the signal from the sensor, and a sensory alarm coupled to the controller to generate a warning alarm signal when the sensor returns a signal indicative of a predetermined state of hazard, namely actual rotation of the propeller from a nonzero rpm to a user or factory defined rpm or CO/CO2 levels at or above a predetermined maximum.

公开(公告)号：US20240182143A1

公开(公告)日：2024-06-06

申请号：US18521407

申请日：2023-11-28

Applicant: Hobie Cat IP, LLC

Inventor： Jason Christopher Kardas ,  Drew William Brackett ,  William John Broadway ,  James Taylor Czarnowski ,  Phillip James Dow ,  Elizabeth Catherine Sexton ,  Shane Yellin

IPC: B63B49/00 ,  B63B17/00 ,  B63B59/00 ,  G10K11/00

CPC classification number: B63B49/00 ,  B63B59/00 ,  B63B17/0081 ,  B63B2201/18 ,  G10K11/006

Abstract: A watercraft mounting system that embodies a moving mounting platform and a protective hull cavity which provides protection, prevents damage and improves storage of data collection systems.

公开(公告)号：US20180297674A1

公开(公告)日：2018-10-18

申请号：US15915142

申请日：2018-03-08

Applicant: Garmin Switzerland GmbH

Inventor： Ted V. Grace ,  Ryan T. Grace

IPC: B63B51/00 ,  G07C5/00 ,  B63H25/04 ,  G07C5/02 ,  A01K91/08 ,  G01C21/00 ,  A01K97/00 ,  G01C21/20 ,  G01S15/89 ,  G01S19/13 ,  B63H20/00 ,  B63H21/21 ,  B63J99/00 ,  G06F3/14 ,  G05D3/00 ,  G05D1/02 ,  A01K85/00 ,  A01K83/02 ,  A01K85/02 ,  A01K93/02 ,  B63H25/42

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: A trolling device for a boat includes a trolling motor and a control mechanism. The control mechanism controls at least one of the speed and the direction of the trolling motor. The control mechanism is configured to receive control instructions from an electronic GPS mapping computer to cause the trolling motor to establish an anchor point near a dock to enable entry to the fishing boat or exit from the fishing boat.

公开(公告)号：US09841145B1

公开(公告)日：2017-12-12

申请号：US15334331

申请日：2016-10-26

Applicant: Sparton Corporation

Inventor： David J. Powell ,  Keith R. Huber ,  Earl H. Mark ,  Taylor J. Durrance

IPC: B63B22/22 ,  F17C7/00 ,  F17C1/00 ,  F17C13/06 ,  B63C9/22 ,  F16K17/40 ,  B60C29/00

CPC classification number: F17C7/00 ,  B63B22/22 ,  B63B2201/18 ,  B63B2203/00 ,  B63C9/19 ,  B63C9/22 ,  B63C9/24 ,  F16K13/04 ,  F17C1/005 ,  F17C13/06 ,  F17C2201/0109 ,  F17C2201/058 ,  F17C2205/032 ,  F17C2221/013 ,  F17C2265/06 ,  F17C2270/0126 ,  F17C2270/0128 ,  F17C2270/0736

Abstract: An axial piercing mechanism for a pressurized gas canister includes a housing, electric motor assembly, pushrod assembly, and lancet. The housing defines one or more radial exhaust ports and coaxial internal cavities. The electric motor assembly and pushrod assembly are disposed in the respective first and second cavities. The pushrod assembly is coupled to the electric motor assembly and is rotatably driven along the longitudinal axis thereby. The lancet is coupled to the pushrod assembly. The housing includes a second end that receives or couples to a sealed end of the pressurized gas canister proximate the lancet such that the electric motor assembly, when energized, causes the pushrod assembly and lancet to translate along the longitudinal axis, pierce a sealed end/diaphragm of the canister, and release pressurized gas through the exhaust port. A system includes the axial piercing mechanism and the pressurized gas canister.

公开(公告)号：US09408378B2

公开(公告)日：2016-08-09

申请号：US14291247

申请日：2014-05-30

Applicant: Vexilar, Inc.

Inventor： Tom Zenanko

IPC: A01K93/00 ,  A01K91/06 ,  A01K99/00 ,  A01K97/12 ,  A01K97/00 ,  B63B22/24 ,  G01S15/96 ,  G01S7/521

CPC classification number: A01K91/06 ,  A01K93/00 ,  A01K97/00 ,  A01K97/125 ,  A01K99/00 ,  B63B22/18 ,  B63B22/24 ,  B63B2022/006 ,  B63B2201/18 ,  G01S7/521 ,  G01S15/96

Abstract: A fish finder device housing having a watertight shell housing capable of containing an electronic load having a transducer within an interior space, the housing have oppositely opposed extension members, each of the extension members having a keel, the oppositely opposed extension members and keels helping maintain the fish finder device housing and contained transducer in a stable condition such as in a substantially upright vertical position and preventing the housing from rocking back-and-forth and rolling side-to-side during normal fishing conditions including choppy or wavy water, when an angler is fishing in a body of water having a current, or when the angler is pulling the fish finder device housing behind a watercraft during trolling. The fish finder device housing may have an aperture in at least one of the extension members for connecting a fishing line, such as that of a fishing pole, or a line for tethering the fish finder device housing behind a watercraft.

Abstract translation: 一种钓鱼器装置壳体，其具有防水壳体，其能够容纳在内部空间内具有换能器的电子负载，所述壳体具有相对相对的延伸构件，每个延伸构件具有龙骨，相对的相对的延伸构件和龙骨有助于维持 捕鱼装置壳体和容纳的换能器处于稳定状态，例如基本竖直的垂直位置，并且当正常的捕捞条件（包括波动或波浪状的水）在一定的捕捞条件下防止壳体来回摇摆并且侧向滚动，当 钓鱼者正在一个有水流的水中钓鱼，或者当钓鱼者在拖钓期间将钓鱼者拖拉在船只后面时捕鱼。 钓鱼器装置壳体可以在至少一个延伸构件中具有孔，用于连接钓鱼线，例如钓鱼杆的钓鱼线或用于将渔船后面的捕鱼装置壳体系在一起的线。

公开(公告)号：US20160098867A1

公开(公告)日：2016-04-07

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: 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. 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.