公开(公告)号：US20230351994A1

公开(公告)日：2023-11-02

申请号：US18220740

申请日：2023-07-11

Applicant: Terry VANCE

Inventor： Terry VANCE

IPC: G10K11/00 ,  G10K11/35 ,  B63H20/00

CPC classification number: G10K11/004 ,  G10K11/355 ,  B63H20/007

Abstract: The present invention is directed to a mounting device for a fish finding apparatus and, more particularly, to a motorized mounting device which includes an adjustable length pole used to mount a sonar transducer or other device an angler may be interested in mounting to the end of the pole that enters the water. The pole is used to spin the transducer or other apparatus in a clockwise and counterclockwise direction with a switch that is adapted to be operated by the angler's foot or a wireless remote. The mounting device is configured to be secured to a boat or mounted on a boat troll motor whereby the adjustable pole is secured and spins independent of the troll motor shaft.

公开(公告)号：US11804204B2

公开(公告)日：2023-10-31

申请号：US17979706

申请日：2022-11-02

Applicant: Terry Vance

Inventor： Terry Vance

IPC: G10K11/00 ,  G10K11/35 ,  B63H20/00

CPC classification number: G10K11/004 ,  B63H20/007 ,  G10K11/355

Abstract: The present invention is directed to a mounting device for a fish finding apparatus and, more particularly, to a motorized mounting device which includes an adjustable length pole used to mount a sonar transducer or other device an angler may be interested in mounting to the end of the pole that enters the water. The pole is used to spin the transducer or other apparatus in a clockwise and counterclockwise direction with a switch that is adapted to be operated by the angler's foot or a wireless remote. The mounting device is configured to be secured to a boat or mounted on a boat troll motor whereby the adjustable pole is secured and spins independent of the troll motor shaft.

公开(公告)号：US20190107612A1

公开(公告)日：2019-04-11

申请号：US15725412

申请日：2017-10-05

Applicant: General Electric Company

Inventor： Stefan Holl ,  Franz Steinbacher

IPC: G01S7/52 ,  A61B8/08 ,  A61B8/00 ,  A61B17/34 ,  B06B1/06

CPC classification number: G01S7/52004 ,  A61B8/0841 ,  A61B8/4444 ,  A61B8/4461 ,  A61B8/483 ,  A61B8/5207 ,  A61B17/3403 ,  A61B2017/3413 ,  A61B2090/0808 ,  B06B1/0607 ,  G01S7/5205 ,  G01S7/52079 ,  G01S15/8913 ,  G01S15/8925 ,  G01S15/894 ,  G10K11/355

Abstract: An ultrasound probe may include a mechanical transducer and a probe housing. The mechanical transducer may be rotatable about an axis. The mechanical transducer may be operable to acquire ultrasound image data at one or more rotational positions of a plurality of rotational positions. The probe housing may include a probe cap covering the mechanical transducer. The mechanical transducer may be directed toward the probe cap at each of the plurality of rotational positions. The probe cap may include a defined structure having a first thickness and a remainder portion having a second thickness different than the first thickness. In various embodiments, at least a portion of the defined structure is at a center section of the probe cap corresponding with a center rotational position of the mechanical transducer.

公开(公告)号：US09808223B2

公开(公告)日：2017-11-07

申请号：US14417069

申请日：2013-07-19

Applicant: KONICA MINOLTA, INC.

Inventor： Kiyoshi Fujii

IPC: A61B8/00 ,  A61B8/08 ,  G10K11/00 ,  G10K11/35 ,  B06B1/06

CPC classification number: A61B8/4461 ,  A61B8/483 ,  B06B1/06 ,  G10K11/004 ,  G10K11/355

Abstract: An ultrasound probe includes: a first arm that swings along with rotation of a motor and includes a protrusion; a second arm that rotates along with rotation of a second gear engaged with a first gear attached to a first rotational shaft; a third arm attached to the second arm such that the third arm is rotatable with respect to the second arm; and an ultrasound device connected with the third arm. The protrusion of the first arm is connected with the third arm such that the protrusion is slidable on the third arm along the longitudinal direction of the third arm.

公开(公告)号：US20160345933A1

公开(公告)日：2016-12-01

申请号：US15116556

申请日：2015-02-04

Applicant: Signostics Limited

Inventor： Stewart BARTLETT ,  Matthew McCARTHY ,  Essa EL-AKLOUK ,  Andrew NIEMIEC

IPC: A61B8/00 ,  A61B8/08 ,  G01S15/89 ,  A61B8/14

CPC classification number: A61B8/4461 ,  A61B8/145 ,  A61B8/4209 ,  A61B8/4254 ,  A61B8/4281 ,  A61B8/4411 ,  A61B8/4427 ,  A61B8/4444 ,  A61B8/4455 ,  A61B8/4477 ,  A61B8/4494 ,  A61B8/461 ,  A61B8/467 ,  A61B8/5207 ,  A61B8/5269 ,  G01S7/52079 ,  G01S15/8922 ,  G01S15/894 ,  G10K11/346 ,  G10K11/355

Abstract: An ultrasound transducer probe unit (106) is disclosed. In an embodiment, the probe unit (106) includes a body (108) portion, at least one transducer element (201) for transmitting and receiving ultrasonic signals and a lens element (1200) encapsulating a fluid medium to couple the ultrasonic signal from the at least one transducer element (201). The lens element (1200) includes at least one textured surface (1202) adapted to reduce reflections of the transmitted and/or received ultrasound signals.

Abstract translation: 公开了一种超声换能器探针单元（106）。 在一个实施例中，探针单元（106）包括主体（108）部分，用于发射和接收超声波信号的至少一个换能器元件（201）和封装流体介质以将来自 至少一个换能器元件（201）。 透镜元件（1200）包括至少一个纹理化表面（1202），适于减少透射和/或接收的超声信号的反射。

公开(公告)号：US20160223659A1

公开(公告)日：2016-08-04

申请号：US15021636

申请日：2014-09-10

Applicant: THALES

Inventor： Nicolas MANDELERT ,  Pierre GUTHMANN

IPC: G01S7/539 ,  G01S7/62 ,  G01S15/42 ,  G10K11/35 ,  G01S15/89

CPC classification number: G01S7/539 ,  B63G7/08 ,  B63G2007/005 ,  G01S7/6263 ,  G01S7/6272 ,  G01S7/6281 ,  G01S15/42 ,  G01S15/87 ,  G01S15/88 ,  G01S15/8902 ,  G01S15/8904 ,  G10K11/352 ,  G10K11/355

Abstract: A system for detecting and locating submerged underwater objects having neutral buoyancy comprising mechanically steered sonar to image the water column comprises mechanically steered sonar with a single emission channel, to perform the insonification of a first individual sector in a first pointing direction by a single first acoustic pulse, the sonar forming a single reception channel suitable for acquiring a first acoustic signal resulting from insonification, the mechanically steered sonar being mounted on a carrier to advance in a main direction, the first pointing direction substantially lateral to the carrier and the first individual sector exhibits a wide relative bearing aperture and a narrow elevation aperture, the mechanically steered sonar comprising a mechanical pointing device to tilt the first pointing direction about an axis of rotation substantially parallel to the main direction allowing the sonar to acquire first acoustic signals resulting from insonifications performed in different pointing directions.

Abstract translation: 一种用于检测和定位具有中性浮力的淹没水下物体的系统，包括机械转向声纳以对水柱进行成像的系统包括具有单个发射通道的机械转向声纳，以通过单个第一声学来执行第一个指向方向上的第一个体扇区的声音 脉冲，形成单个接收通道的声纳，其适合于获取由声音产生的第一声信号，所述机械转向声纳被安装在载体上以沿主方向前进，所述第一指向方向基本上在所述载体和所述第一个体部分 表现出宽的相对轴承孔径和窄的高度孔径，机械转向的声纳包括机械指示装置，以使第一指向方向围绕基本上平行于主方向的旋转轴线倾斜，从而允许声纳获得由声音穿透产生的第一声信号 在不同的指向方向。

公开(公告)号：US09339255B2

公开(公告)日：2016-05-17

申请号：US13164160

申请日：2011-06-20

Applicant: Shigeyoshi Hasegawa ,  Kazuyoshi Irioka ,  Jun Koizumi

Inventor： Shigeyoshi Hasegawa ,  Kazuyoshi Irioka ,  Jun Koizumi

IPC: A61B8/00 ,  A61B8/12 ,  G10K11/00 ,  G10K11/35

CPC classification number: A61B8/4461 ,  A61B8/12 ,  G10K11/004 ,  G10K11/355

Abstract: In an ultrasonic probe including an element part 1 for transmitting and receiving ultrasonic waves, a relay cable 2 connected to the element part 1 and an oscillation mechanism part for oscillating the element part, a cross section of the relay cable 2, which is taken perpendicularly to a rotation axis 3 of the oscillation that is provided to the element part 1 by the oscillation mechanism part, has at least two arc-shaped parts smoothly connected each other, more specifically, S-shape arc-shaped parts or reversed S-shaped parts. In addition, the relay cable 2 is drawn from the surface of the element part 1 facing the rotation axis 3. In this manner, the stress applied to the relay cable 2 during the oscillation of the element part 1 can be dispersed, thereby improving durability of the relay cable 2.

Abstract translation: 在包括用于发送和接收超声波的元件部分1的超声波探头中，连接到元件部分1的继电器电缆2和用于振荡元件部分的振荡机构部分，垂直于中心电缆2的中继电缆2的横截面 通过振动机构部向旋转轴3提供的振动，具有至少两个弧形部分彼此平滑地连接，更具体地说是S形的弧形部分或反转的S形 部分。 此外，继电器电缆2从元件部件1的面向旋转轴线3的表面拉出。以这种方式，可以分散在元件部件1的振荡期间施加到继电器电缆2的应力，从而提高耐久性 的继电器电缆2。

公开(公告)号：US20150209016A1

公开(公告)日：2015-07-30

申请号：US14417272

申请日：2013-07-23

Applicant: ADVANCED ECHO TECHNOLOGY

Inventor： Eric Lefebvre ,  Gwenaël Charron

IPC: A61B8/00

CPC classification number: A61B8/565 ,  A61B8/00 ,  A61B8/4281 ,  A61B8/4461 ,  A61B8/4466 ,  A61B8/4472 ,  G01S7/003 ,  G01S15/8915 ,  G01S15/8936 ,  G06F19/3418 ,  G10K11/355

Abstract: A remote-controlled ultrasound device including an enclosure envelope containing a tight compartment and a control compartment that are tightly separated by a transverse partition. Sensor means are designed so as to move in the tight compartment, submerged in an ultrasonic-wave-propagating medium, and driving means are arranged in the control compartment for triggering the movement of a support rod at the end of which are mounted the sensor means. The support rod extends through the partition in order to connect the driving means and the sensor means, being mounted in a freely rotational manner inside a tube passing through said partition. The invention is especially applicable to remote ultrasound operations in the medical field.

Abstract translation: 一种远程控制的超声波装置，其包括包含紧密隔间的封闭外壳和由横向隔板紧密隔开的控制室。 传感器装置被设计成在紧密隔间中移动，浸没在超声波传播介质中，并且驱动装置设置在控制室中，用于触发支撑杆的移动，支撑杆的端部安装有传感器装置 。 支撑杆延伸穿过隔板，以便连接驱动装置和传感器装置，其以自由旋转的方式安装在穿过所述隔板的管内。 本发明特别适用于医疗领域的远程超声波操作。

公开(公告)号：US08708915B2

公开(公告)日：2014-04-29

申请号：US13123381

申请日：2009-12-02

Applicant: Kiyoshi Fujii ,  Akira Shimasaki ,  Eiichi Ookawa ,  Masahiro Shinkai

Inventor： Kiyoshi Fujii ,  Akira Shimasaki ,  Eiichi Ookawa ,  Masahiro Shinkai

IPC: A61B8/00

CPC classification number: A61B8/14 ,  A61B8/4218 ,  A61B8/4254 ,  A61B8/4281 ,  A61B8/4455 ,  A61B8/4461 ,  A61B8/483 ,  G01N29/0672 ,  G10K11/355

Abstract: The invention provides an ultrasonic probe having a frame to constitute a part of a cubicle, a motor fixed on the frame, a first arm with one end fixed on a rotating shaft of the motor, and a second arm with one end rotatably coupled with the other end of the first arm via a coupling shaft and with the other end having an ultrasonic element mounted thereon. The second arm has a lengthwise long groove and is slidably engaged with the fixed shaft of the frame in the direction of length. The length from an end of the second arm where the ultrasonic element is mounted on the coupling shaft is designed to be longer than the length from the rotating shaft to the coupling shaft, and further, to be longer than the length from the rotating shaft to the fixed shaft.

Abstract translation: 本发明提供了一种超声波探头，其具有构成机柜的一部分的框架，固定在框架上的马达，一端固定在马达的旋转轴上的第一臂，以及具有一端可旋转地连接的第二臂 第一臂的另一端经由联接轴，另一端具有安装在其上的超声波元件。 第二臂具有长度方向的长槽，并且沿着长度方向与框架的固定轴可滑动地接合。 从超声波元件安装在连接轴上的第二臂的端部的长度被设计为比从旋转轴到联轴器的长度长，并且还要比从旋转轴到旋转轴的长度长 固定轴。

公开(公告)号：US08568324B2

公开(公告)日：2013-10-29

申请号：US12680333

申请日：2008-09-23

Applicant: David N. Roundhill

Inventor： David N. Roundhill

IPC: A61B8/00

CPC classification number: G01S7/5208 ,  A61B8/08 ,  A61B8/12 ,  A61B8/14 ,  A61B8/445 ,  A61B8/4461 ,  A61B8/483 ,  G01S15/8925 ,  G01S15/8934 ,  G10K11/355

Abstract: An ultrasonic transducer assembly (10) for diagnostic imaging is provided. The ultrasonic transducer includes an elongated housing (12) that is configured and dimensioned to accommodate applicable anatomical constraints. The assembly includes a sensor assembly (20) that includes a two-dimensional matrix array of transducer elements (22) and a translation mechanism (32) to physically translate the two-dimensional matrix array of transducer elements (22) through a field of view of approximately 140 degrees by 80 degrees. An articulation control mechanism (38) allows a clinician to move the tip (14) of the ultrasonic transducer (10) into a desired imaging position, e.g., for fetal imaging.

Abstract translation: 提供了用于诊断成像的超声波换能器组件（10）。 超声波换能器包括细长壳体（12），其被构造和尺寸设计成适应适用的解剖学约束。 组件包括传感器组件（20），其包括换能器元件（22）的二维矩阵阵列和平移机构（32），以将换能器元件（22）的二维矩阵阵列物理平移通过视场 大约140度乘80度。 关节运动控制机构（38）允许临床医生将超声波换能器（10）的尖端（14）移动到期望的成像位置，例如用于胎儿成像。