公开(公告)号：US08721501B2

公开(公告)日：2014-05-13

申请号：US13537709

申请日：2012-06-29

Applicant: Mu-Chuan Wu

Inventor： Mu-Chuan Wu

IPC: A63B24/00

CPC classification number: A63B22/0605 ,  A63B2071/0652 ,  A63B2220/805 ,  A63B2225/50

Abstract: A detection device and a monitoring system are adapted to detect an exercising state of a user. The detection device is adapted to be equipped on a circulation exercise device of a physical training equipment. The detection device has a state detector and a rotation speed detector. The state detector generates multiple signal combinations based on a periodic motion of the circulation exercise device. The rotation speed detector estimates a relative variation between a rotation speed and degrees of the circulation exercise device based on the signal combinations. The relative variation represents the user's exercising state. According to the relative variation, a user can realize whether the exercising state is in balance.

Abstract translation: 检测装置和监视系统适于检测用户的锻炼状态。 检测装置适于配备在身体训练器材的循环运动装置上。 检测装置具有状态检测器和转速检测器。 状态检测器基于循环运动装置的周期运动产生多个信号组合。 旋转速度检测器基于信号组合来估计循环运动装置的旋转速度和度数之间的相对变化。 相对变化表示用户的锻炼状态。 根据相对变化，用户可以实现运动状态是否平衡。

公开(公告)号：US07946958B2

公开(公告)日：2011-05-24

申请号：US12010337

申请日：2008-01-24

Applicant: Mu-Chuan Wu

Inventor： Mu-Chuan Wu

IPC: A63B24/00

CPC classification number: A63B71/0619 ,  A61H1/005 ,  A61H2203/0406 ,  A63B24/0062 ,  A63B24/0075 ,  A63B2024/0068 ,  A63B2024/0078 ,  A63B2071/0627 ,  A63B2071/065 ,  A63B2208/02

Abstract: An exercise machine and control method thereof, the control method comprising following steps: setting personal physical parameters, receiving a mode selection command, determining to enter either an automatic operating mode or a manual operating mode, entering the automatic operating mode, receiving a program selection command and reading a corresponding training program, generating an automatic operating command by comparing the personal physical parameters with the training program and outputting the automatic operating command to the exercise machine and activating the exercise machine according to the automatic operating command. The exercise machine thus can adjust its training strength based on the input personal physical parameters. Therefore users of the exercise machine with different physical conditions will individually have the better sports effect.

Abstract translation: 一种运动器材及其控制方法，所述控制方法包括以下步骤：设定个人物理参数，接收模式选择命令，确定进入自动操作模式或手动操作模式，进入自动操作模式，接收节目选择 命令并读取相应的训练程序，通过将个人物理参数与训练程序进行比较来产生自动操作命令，并将自动操作命令输出到锻炼机器，并根据自动操作命令激活锻炼机器。 因此，运动器械可以根据输入的个人物理参数来调整训练强度。 因此，具有不同身体状况的运动器械的用户将单独具有更好的运动效果。

公开(公告)号：US20090312150A1

公开(公告)日：2009-12-17

申请号：US12231761

申请日：2008-09-05

Applicant: Mu-Chuan Wu

Inventor： Mu-Chuan Wu

IPC: A63B21/005 ,  A63B15/02 ,  A61B5/02

CPC classification number: A63B24/0062 ,  A63B21/225 ,  A63B22/00 ,  A63B22/0605 ,  A63B2024/0078 ,  A63B2071/065 ,  A63B2230/06 ,  A63B2230/062 ,  A63B2230/065 ,  A63B2230/067 ,  A63B2230/75 ,  Y10S482/901

Abstract: An exercise system has an operating unit, an input unit, a detector, a control unit and a display unit. The operating unit is an operation device that receives forces exerted by a user. The input unit is for setting a personal physical parameter set of the user. The detector senses a heart rate of the user. The control unit receives the personal physical parameter set from the input unit, receives the heart rate from the detector, defines a boundary heart rate according to the personal physical parameter set and generates a display command by comparing the heart rate with the boundary heart rate. The display unit receives the display command to accordingly generate a safety indication signal. The user can prevent injuries or over-training fatigue by perceiving the safety indication signal and then adjust the exercise intensity.

Abstract translation: 运动系统具有操作单元，输入单元，检测器，控制单元和显示单元。 操作单元是接收用户施加的力的操作装置。 输入单元用于设置用户的个人物理参数集。 检测器感测到用户的心率。 控制单元从输入单元接收个人物理参数集，从检测器接收心率，根据个人物理参数设定边界心率，并通过比较心率与边界心率来产生显示命令。 显示单元接收显示命令，从而生成安全指示信号。 用户可以通过感知安全指示信号，然后调整运动强度来防止受伤或过度训练疲劳。

公开(公告)号：US07591765B2

公开(公告)日：2009-09-22

申请号：US10461588

申请日：2003-06-12

Applicant: Patrick Warner ,  Michael H. Harding ,  Mu-Chuan Wu ,  William A. Baker

Inventor： Patrick Warner ,  Michael H. Harding ,  Mu-Chuan Wu ,  William A. Baker

IPC: A63B22/06

CPC classification number: A63B22/0605 ,  A63B21/157 ,  A63B21/225 ,  A63B2022/0658 ,  A63B2225/09 ,  A63B2225/093 ,  B62M1/10 ,  F16D7/025 ,  F16D41/24

Abstract: An exercise bicycle including a frame having a seat and handlebars, a high-inertia flywheel having a hub at a center of rotation, the flywheel being rotatably supported on the frame at the hub, and a drive train including a drive sprocket, a crank arm attached to and extending from the drive sprocket, and a pedal attached to the crank arm, the drive train being rotatably supported by the frame. The drive train also includes a slave sprocket fixed to the flywheel at the hub, with the drive and slave sprockets connected in a direct-drive relationship, the drive train driveable in a forward and rearward directions to cause the flywheel to rotate. A clutch mechanism is positioned in engagement with the slave sprocket and the hub to create a frictional engagement between the sprocket and the hub, and to establish a break-free force threshold. When the drive train is actuated in the forward direction, the slave sprocket and the hub move together, and when the drive train is actuated in the rearward direction under the influence of a force greater than the break-free force threshold, the clutch mechanism slips between the slave sprocket and the hub, allowing the slave sprocket and the flywheel to move independently of one another. The clutch mechanism including a spring tensioner whereby the break-free force may be adjusted.

公开(公告)号：US20070004564A9

公开(公告)日：2007-01-04

申请号：US09803630

申请日：2001-03-09

Applicant: Patrick Warner ,  Michael Harding ,  Mu-Chuan Wu ,  Andy Baker

Inventor： Patrick Warner ,  Michael Harding ,  Mu-Chuan Wu ,  Andy Baker

IPC: A63B22/06 ,  A63B69/16

CPC classification number: B62M1/10 ,  A63B21/157 ,  A63B21/225 ,  A63B22/0605 ,  A63B2022/0658 ,  A63B2225/09 ,  F16D7/025 ,  F16D41/24

Abstract: An exercise bicycle including a frame having a seat and handlebars, a high-inertia flywheel having a hub at a center of rotation, the flywheel being rotatably supported on the frame at the hub, and a drive train including a drive sprocket, a crank arm attached to and extending from the drive sprocket, and a pedal attached to the crank arm, the drive train being rotatably supported by the frame. The drive train also includes a slave sprocket fixed to the flywheel at the hub, with the drive and slave sprockets connected in a direct-drive relationship, the drive train driveable in a forward and rearward directions to cause the flywheel to rotate. A clutch mechanism is positioned in engagement with the slave sprocket and the hub to create a frictional engagement between the sprocket and the hub, and to establish a break-free force threshold. When the drive train is actuated in the forward direction, the slave sprocket and the hub move together, and when the drive train is actuated in the rearward direction under the influence of a force greater than the break-free force threshold, the clutch mechanism slips between the slave sprocket and the hub, allowing the slave sprocket and the flywheel to move independently of one another. The clutch mechanism including a spring tensioner whereby the break-free force may be adjusted.

Abstract translation: 一种运动自行车，包括具有座椅和车把的框架，具有在旋转中心的轮毂的高惯量飞轮，所述飞轮可旋转地支撑在轮毂上的框架上，以及传动系，其包括驱动链轮，曲柄臂 附接到驱动链轮并从驱动链轮延伸，以及附接到曲柄臂的踏板，传动系由框架可旋转地支撑。 传动系统还包括固定在轮毂上的飞轮的从动链轮，其中驱动链轮和从动链轮以直接驱动关系连接，传动系可在前后方向上驱动以使飞轮旋转。 离合器机构被定位成与从动链轮和轮毂接合以在链轮和轮毂之间形成摩擦接合，并且建立无破坏力的阈值。 当传动系向前方驱动时，从动链轮和轮毂一起移动，当传动系在大于无断裂力阈值的力的影响下沿向后方向致动时，离合器机构滑动 在从动链轮和轮毂之间，允许从动链轮和飞轮彼此独立地移动。 离合器机构包括弹簧张紧器，从而可以调节破碎力。

公开(公告)号：USD360002S

公开(公告)日：1995-07-04

申请号：US17195

申请日：1994-01-06

Applicant: Mu-Chuan Wu

Designer： Mu-Chuan Wu

公开(公告)号：US10688344B2

公开(公告)日：2020-06-23

申请号：US16183903

申请日：2018-11-08

Applicant: Mu-Chuan Wu

Inventor： Mu-Chuan Wu

IPC: A63B24/00 ,  G01L3/22 ,  A63B21/22 ,  A63B21/015 ,  A63B21/00 ,  A63B22/06 ,  A63B71/06

Abstract: A torque-measuring system is applied to a training assembly of body training equipment. The training assembly includes a stationary base, a flywheel connected to the stationary base, a torque output mechanism driving the flywheel, and a brake member generating a resistance force by contacting the flywheel and displacing relative to the stationary base. The system has a measurement apparatus and a computation apparatus. The measurement apparatus includes a spring leaf and a strain measurement module. The spring leaf is connected between the brake member and the stationary base and has a mounting surface. The strain measurement module is mounted on the mounting surface of the spring leaf and generates a variation of electrical resistance corresponding to a strain of the spring leaf. According to the variation of electrical resistance, the computation apparatus outputs a torque value which reflects the magnitude of the torque outputted from the torque output mechanism.

公开(公告)号：US10561878B2

公开(公告)日：2020-02-18

申请号：US15902097

申请日：2018-02-22

Applicant: Mu-Chuan Wu

Inventor： Mu-Chuan Wu

IPC: A63B21/00 ,  A63B21/008 ,  A63B21/22 ,  A63B23/035 ,  A63B22/06

Abstract: A resistance adjusting apparatus is disposed on a frame and has a rotating member, a magnetic resistance member, and a wind resistance member. The rotating member has an axle rotatably disposed on the frame, an assembly seat fixedly disposed on the axle, and a magnetic wheel detachably disposed on the assembly seat. The magnetic resistance member is disposed on the frame, is located out of the magnetic wheel, and has an adjusting seat disposed on the frame and multiple magnetic elements. The magnetic wheel is inserted into an inner space of the adjusting seat. The magnetic elements are disposed in the adjusting seat and are located in the inner space of the adjusting seat. The wind resistance member is detachably disposed on an outer surface of the magnetic wheel. The wind resistance member and the magnetic resistance member are independent and can be detached individually.

公开(公告)号：US07850577B2

公开(公告)日：2010-12-14

申请号：US12535000

申请日：2009-08-04

Applicant: Patrick Warner ,  Michael H. Harding ,  Mu-Chuan Wu ,  Andy Baker

Inventor： Patrick Warner ,  Michael H. Harding ,  Mu-Chuan Wu ,  Andy Baker

IPC: A63B21/00 ,  A63B69/16

CPC classification number: B62M1/10 ,  A63B21/157 ,  A63B21/225 ,  A63B22/0605 ,  A63B2022/0658 ,  A63B2225/09 ,  F16D7/025 ,  F16D41/24

Abstract: A clutch mechanism may be positioned in engagement with a slave sprocket of a drive train and a hub of a flywheel to create a frictional engagement between the sprocket and the hub, and to establish a break-free force threshold. When the drive train is actuated in the forward direction, the slave sprocket and the hub may move together, and when the drive train is actuated in the rearward direction under the influence of a force greater than the break-free force threshold, the clutch mechanism may slip between the slave sprocket and the hub, allowing the slave sprocket and the flywheel to move independently of one another. The clutch mechanism may also include a spring tensioner whereby the break-free force may be adjusted.

Abstract translation: 离合器机构可以定位成与传动系的从动链轮和飞轮的轮毂接合，以在链轮和轮毂之间产生摩擦接合，并且建立无破坏力的阈值。 当传动系向前方驱动时，从动链轮和轮毂可以一起移动，并且当驱动系在大于无断裂力阈值的力的作用下在向后方向上致动时，离合器机构 可能在从动链轮和轮毂之间滑动，允许从动链轮和飞轮彼此独立地移动。 离合器机构还可以包括弹簧张紧器，从而可以调节破碎力。

公开(公告)号：US07569001B2

公开(公告)日：2009-08-04

申请号：US09803630

申请日：2001-03-09

Applicant: Patrick Warner ,  Michael H. Harding ,  Mu-Chuan Wu ,  Andy Baker

Inventor： Patrick Warner ,  Michael H. Harding ,  Mu-Chuan Wu ,  Andy Baker

IPC: A63B21/00 ,  A63B69/16

CPC classification number: B62M1/10 ,  A63B21/157 ,  A63B21/225 ,  A63B22/0605 ,  A63B2022/0658 ,  A63B2225/09 ,  F16D7/025 ,  F16D41/24

Abstract: An exercise bicycle including a frame having a seat and handlebars, a high-inertia flywheel having a hub at a center of rotation, the flywheel being rotatably supported on the frame at the hub, and a drive train including a drive sprocket, a crank arm attached to and extending from the drive sprocket, and a pedal attached to the crank arm, the drive train being rotatably supported by the frame. The drive train also includes a slave sprocket fixed to the flywheel at the hub, with the drive and slave sprockets connected in a direct-drive relationship, the drive train driveable in a forward and rearward directions to cause the flywheel to rotate. A clutch mechanism is positioned in engagement with the slave sprocket and the hub to create a frictional engagement between the sprocket and the hub, and to establish a break-free force threshold. When the drive train is actuated in the forward direction, the slave sprocket and the hub move together, and when the drive train is actuated in the rearward direction under the influence of a force greater than the break-free force threshold, the clutch mechanism slips between the slave sprocket and the hub, allowing the slave sprocket and the flywheel to move independently of one another. The clutch mechanism including a spring tensioner whereby the break-free force may be adjusted.