| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种跳绳运动控制系统 | CN201710134214.1 | 2017-03-08 | CN106621173A | 2017-05-10 | 不公告发明人 |
| 本发明公开了一种跳绳运动控制系统,该系统能够对温湿度、空气质量、风速和光照度等参数进行监测,通过中央控制器控制各种设备,系统具有环境监测、人员监测、报警提示、跳绳监测和自动调整功能,从而提高跳绳运动的安全性和有效性,还具有远程控制功能,系统稳定可靠,维护管理方便。 | ||||||
| 2 | 无线式跳绳系统 | CN201110297378.9 | 2011-09-30 | CN102366670B | 2015-02-18 | 林培林; 王天禄; 林善棠 |
| 本发明公开了一种无线式跳绳系统,包括若干个无线式跳绳手柄,还包括与无线式跳绳手柄无线连接的控制台;所述的控制台包括控制器,及与控制器连接的无线通讯组件、有线通讯组件、电源模块、存储器、控制按钮和显示组件,所述的无线通讯组件与若干个无线式跳绳手柄无线连接;所述的无线式跳绳手柄包括带有旋转头的手柄壳体,所述的手柄壳体内设有微控制器,及与微控制器电性连接的计数开关、按钮、存储器和无线模块,所述的无线模块还连接有天线。本发明实现了跳绳手柄与控制台、跳绳地毯的实时地无线通讯,能实现及时的跳绳计数。并通过多个无线模块实现数百个跳绳手柄与控制台的同步信息传递。 | ||||||
| 3 | 一种舞台互动用跳绳装置 | CN201710347934.6 | 2017-05-17 | CN107158640A | 2017-09-15 | 鄂星峄 |
| 本发明涉及一种跳绳装置,尤其涉及一种舞台互动用跳绳装置。本发明要解决的技术问题是提供一种舞台互动用跳绳装置。为了解决上述技术问题,本发明提供了这样一种舞台互动用跳绳装置,包括有右支架、左支架、固定板、转动装置、升降装置、开关等;固定板底部左侧设有左支架,固定板底部右侧设有右支架,左支架右侧中部和右支架左侧中部对称设有滑轨,滑轨上设有滑块,左右两方的滑块之间设有转动装置,左支架和右支架上部对称设有升降装置。本发明达到了娱乐性强,带有惩罚效果,互动效果较好的效果,当人们需要通过升降装置调节转动装置时,人们可以将挂环挂在不同高度的挂钩上。 | ||||||
| 4 | 一种体育用摇绳装置 | CN201610639809.8 | 2016-08-08 | CN106267687A | 2017-01-04 | 杨娇仔 |
| 本发明涉及一种摇绳装置,尤其涉及一种体育用摇绳装置。本发明要解决的技术问题是提供一种功能多样、调节简便、训练效率高的体育用摇绳装置。为了解决上述技术问题,本发明提供了这样一种体育用摇绳装置,包括有滑块、滑轨、底座、第三齿轮、升降杆、滑轴、摆动杆、第二齿轮、第一电机、第一齿轮、导向板、左支架、连接杆、齿条、第一电动推杆、第二电机、第一支杆、第一圆盘、第一圆环、第二圆盘、第二圆环、第二支杆、第三电机和第二电动推杆,底座上设有左支架和滑轨。本发明达到了功能多样、调节简便、训练效率高的效果,因为操作简单,使用方便,功能繁多,不需要耗费大量人力物力,所以减少了劳动力。 | ||||||
| 5 | 跳绳机 | CN200610104458.7 | 2006-08-02 | CN101116768B | 2010-08-11 | 雷建锋 |
| 跳绳机是一种机械装置自动抡绳,以多人跳绳为目的的一项健身娱乐装备。由结构相同的装置1和装置2组成,分别在跳绳两端,由摇臂与跳绳相连,在控制部分的控制下执行机构完成相同的抡绳动作。每个装置包括驱动,传动减速,制动,控制,安全开关,音响以及执行等部分。该发明将电机的动能通过皮带轮,行星减速器,传动轴和摇臂传给跳绳,以实现机械抡绳。该跳绳机的圆盘、正反转控制开关和限位挡块实现摇臂同步同时以及初始位置相同;压力安全开关,自动脱开安全连接及刹车器保证了跳绳者的安全。控制器完成各部件的控制及在跳绳中的音乐播放。本发明提供了不需要人抡绳,又有固定的场所,安全实用的多人跳绳装置来满足人们多人跳绳的需要。 | ||||||
| 6 | 一种健身器械用跳绳器 | CN201710559362.8 | 2017-07-11 | CN107297046A | 2017-10-27 | 夏千雅 |
| 本发明公开了一种健身器械用跳绳器,包括第一连接装置和第二连接装置,所述第一连接装置包括安装板,所述安装板的内部设置有多个螺栓孔,所述安装板上表面的中心设置有与其一体式结构的支撑杆,所述支撑杆的顶部设置有与其一体式结构的轴套壳体,所述轴套壳体的内部固定一固定轴,所述固定轴的端部通过轴承固定在一旋转板的内部,所述旋转板另一端的端面设置一缠绕柱,所述缠绕柱的一端设置有限位板,所述限位板和缠绕柱之间设置有缠绕凹槽;所述第二连接装置包括安装板。本发明能够替代双手的手腕,进行线绳的摆动动作,能够长时间工作锻炼,此外,该装置在出现绊倒现象时,会及时进行断裂,从而有效防止人员被绊倒现象的发生。 | ||||||
| 7 | 一种自动摇绳机 | CN201610394890.8 | 2016-06-07 | CN105944283A | 2016-09-21 | 王春华; 王萍; 徐雪芳; 王文志 |
| 本发明涉及一种摇绳机,特别涉及一种自动摇绳机,包括壳体和摇绳,所述壳体底座设有地脚螺栓便于稳固壳体;所述壳体包括第一壳体和第二壳体,所述第一壳体内设置一个T型平台用来放置电机,所述电机输出端通过轴套联接摇绳的一端Z型摇绳柄,所述计数器安装在摇绳柄的左侧,所述摇绳柄外侧设有穿绳孔可系摇绳;所述第二壳体内设置有支撑杆,所述电机由控制器来控制,所述控制器电路中设有红外对管,所述摇绳上设有位置对称的配重。与现有技术相比,本发明结构简单,密封防水,耐候性能好,尽可能地避免扬尘,功能齐全,自动化程度较高,适合室内外应用,尤其适合室外应用。 | ||||||
| 8 | 一种电子跳绳的控制装置及其控制系统 | CN201110080092.5 | 2011-03-31 | CN102451554B | 2015-08-05 | 林培林; 王天禄; 林善棠 |
| 本发明公开了一种电子跳绳的控制装置,包括处理器,及与处理器联接的电源模块、控制按钮、存储器、发送接收模块和显示屏,发送接收模块与电子跳绳结构通讯联接,还包括跳毯。本发明还公开了无线式、不共地的接触式电磁波通信和触压式三种电子跳绳控制系统。本发明能实时地通过显示屏将跳绳者的成绩向观众和考官进行显示,具有很强的公正性,有利跳绳运动的推广和普及,可以广泛用于跳绳的运动、比赛和考试中。本发明还采用了跳毯结构、利用带有支座的滚筒式结构,利于收纳和搬运,占用空间少。还采用了独立的操作台结构,可以通过通讯端口的并行联接关系,利用一个操作台,能够同时操作多台控制装置,能实现比赛时的同时启动、同时结束的同步控制。 | ||||||
| 9 | 一种电子跳绳的控制装置及其控制系统 | CN201110080092.5 | 2011-03-31 | CN102451554A | 2012-05-16 | 林培林; 王天禄; 林善棠 |
| 本发明公开了一种电子跳绳的控制装置,包括处理器,及与处理器联接的电源模块、控制按钮、存储器、发送接收模块和显示屏,发送接收模块与电子跳绳结构通讯联接,还包括跳毯。本发明还公开了无线式、不共地的接触式电磁波通信和触压式三种电子跳绳控制系统。本发明能实时地通过显示屏将跳绳者的成绩向观众和考官进行显示,具有很强的公正性,有利跳绳运动的推广和普及,可以广泛用于跳绳的运动、比赛和考试中。本发明还采用了跳毯结构、利用带有支座的滚筒式结构,利于收纳和搬运,占用空间少。还采用了独立的操作台结构,可以通过通讯端口的并行联接关系,利用一个操作台,能够同时操作多台控制装置,能实现比赛时的同时启动、同时结束的同步控制。 | ||||||
| 10 | 无线式跳绳手柄及无线式跳绳系统 | CN201110297378.9 | 2011-09-30 | CN102366670A | 2012-03-07 | 林培林; 王天禄; 林善棠 |
| 本发明公开了无线式跳绳手柄及无线式跳绳系统。无线式跳绳手柄包括带有旋转头的手柄壳体,手柄壳体内设有微控制器,及与微控制器电性连接的计数开关、按钮、存储器和无线模块,无线模块还连接有天线。无线式跳绳系统包括前述的无线式跳绳手柄,还包括与无线式跳绳手柄无线连接的跳绳地毯装置;跳绳地毯装置包括微控制器,及与微控制器连接的无线收发模块、电源模块、控制按钮和显示组件,无线收发模块与跳绳手柄无线通讯连接,还包括与跳绳地毯电性连接的跳毯接口,跳绳地毯上设有计数开关。本发明实现了跳绳手柄与控制台、跳绳地毯的实时地无线通讯,能实现及时的跳绳计数。并通过多个无线模块实现数百个跳绳手柄与控制台的同步信息传递。 | ||||||
| 11 | 跳绳机 | CN200610104458.7 | 2006-08-02 | CN101116768A | 2008-02-06 | 雷建锋 |
| 跳绳机是一种机械装置自动抡绳,以多人跳绳为目的的一项健身娱乐装备。由结构相同的装置1和装置2组成,分别在跳绳两端,由摇臂与跳绳相连,在控制部分的控制下执行机构完成相同的抡绳动作。每个装置包括驱动,传动减速,制动,控制,安全开关,音响以及执行等部分。该发明将电机的动能通过皮带轮,行星减速器,传动轴和摇臂传给跳绳,以实现机械抡绳。该跳绳机的圆盘、正反转控制开关和限位挡块实现摇臂同步同时以及初始位置相同;压力安全开关,自动脱开安全连接及刹车器保证了跳绳者的安全。控制器完成各部件的控制及在跳绳中的音乐播放。本发明提供了不需要人抡绳,又有固定的场所,安全实用的多人跳绳装置来满足人们多人跳绳的需要。 | ||||||
| 12 | JUMP ROPE ASSEMBLY | US13899833 | 2013-05-22 | US20140121068A1 | 2014-05-01 | Shane Patrick ROGERS; Joshua Barry ROGERS |
| Disclosed is a jump rope comprising: an oil impregnated bushing; having a pair of handles with an external surface treatment. Additionally, the rope may include a fastener attached to each end and secured within the head of the jump rope yet still free to rotate about an axis formed by the centerline of the rope body. In some configurations a universal joint is attached to each end and secured to the jump rope handle, with one end of the input yoke acting as a column for rotation and one end of the output yoke used to secure the rope, and both free ends of each yoke attaching to the cross-trunnion to complete the assembly. | ||||||
| 13 | CONTROL DEVICE FOR ELECTRONIC SKIPPING ROPE AND CONTROL SYSTEM THEREOF | US14007989 | 2012-03-29 | US20140024498A1 | 2014-01-23 | Peilin Lin; Tianlu Wang; Shantang Lin |
| A control device (4) for an electronic skipping rope comprises: a processor (41), a power supply module (42), a control button (43), a memory (44), a transceiver module (45) and a display screen (46), with the electronic skipping rope being communicatively coupled to the transceiver module (45), and further comprises a skipping blanket (50). Further disclosed are wireless, non-earthed contact-type electromagnetic wave communication and contact-press type electronic skipping rope control systems, each of which comprises a skipping rope structure and an electronic skipping rope control device (4). The skipping rope structure comprises a rope (2) and two skipping rope handles (1A, 1B), each of which comprises a fixed handle (10) for being gripped by a jumper and a rotation body (11) connected to the fixed handle (10) and the rope (2). The skipping rope control system can carry out real-time display with a compact structure and simple operation. | ||||||
| 14 | Recreational rope turning device and associated method | US12321042 | 2009-01-15 | US07727126B1 | 2010-06-01 | Tommie Foster; Belvie Foster |
| An automated jump rope exercising device includes a frame, a power operated primary drive pulley system, and a plurality of auxiliary driven pulley systems that may be operably coupled to the primary drive pulley system. Each of the auxiliary driven pulley systems may be simultaneously rotated in a first synchronous path during operating conditions based upon input from the primary drive pulley. The device may further include a plurality of arms that may be conjoined to the auxiliary driven pulley systems respectively. A plurality of ropes may be detachably anchored to the arms, and each of the ropes may be simultaneously rotated during operating conditions. A user interface may be coupled to the primary drive pulley system thereby permitting the user to selectively adjust a tension level and rotational speed of the ropes during operating conditions. | ||||||
| 15 | Rip's rapid jump | US10127797 | 2002-04-23 | US20030199367A1 | 2003-10-23 | Eric Adam Verdun |
| A unique and innovated piece of exercise equipment consisting of a hard plastic or fiberglass-coated octagon base four sided molded A frame (approximately 21null tall). An internal battery-powered motor (rechargeable 12 volts), the variable speed motor has a control switch that would be positioned on the outside of the frame, allowing the user to manually or remote control the motor's speed as desired. The motor would be designed to rotate or pulsate back and forth at 180 and/or 360 degrees, driving the telescoping shaft attached to the telescoping shaft using the 90 degree collars, the extending arm, approximately 7null in length, the vertical extension leg, approximately 17null in length, and the horizontal extension bar approximately 16-30 in length with the collars, arms, leg and bar having a Z-shape design, with the telescoping shaft being adjustable and the horizontal extension arm would be adjustable to various lengths, depending on the user's specific needs. | ||||||
| 16 | Interactive aerobic exercise machine | US902243 | 1997-07-29 | US6010429A | 2000-01-04 | Daniel S. Prueitt |
| An interactive aerobic exercise machine has a support frame assembly with two parallel, spaced apart vertical frames, an obstacle rod rotatably mounted on each vertical frame, and a motor for rotating each obstacle rod at selected rotation speeds. The rotating obstacle rods allow a user to exercise a variety of different muscles while the user is also developing depth perception, timing, reaction, agility, coordination, and aerobic fitness. In a particular embodiment, each motor is slidably mounted on the vertical frame for vertically positioning the obstacle rods at a variety of vertical locations. The machine may further include a crank rod connected to the motor and a pivot block assembly connecting the crank rod to the obstacle rod, where the pivot block assembly permits the obstacle rod to move in any direction in response to encountering an obstacle to prevent injury to a user. The pivot block may also include an electrical switch for generating an output signal when the pivot block acts to permit movement of the obstacle rod. | ||||||
| 17 | Jump rope device | US41584 | 1998-03-12 | US5961425A | 1999-10-05 | Tahira Reid; Andrew Burdick |
| The jump rope device is constructed with a pair of stations disposed in mirror-image facing relation and a pair of ropes which are connected between rotating arms of each station. Each station employs a stepper motor to rotate the radially disposed arms as well as a transmission for rotating the arms in an out-of-phase relation to create a double dutch effect. The end of each rope is secured to a cord which is wound about a rotatable drum within each radial arm so that the length of exposed rope may be adjusted to a user. Should a user step on a rope, the resulting tension in the rope and cord effects an unwinding of the cord from the drum thereby allowing the rope to break away from the arm of the station. | ||||||
| 18 | Motorized jump rope apparatus | US214097 | 1994-03-17 | US5464376A | 1995-11-07 | Estella D. Weston; Gwennette Y. Cummings |
| A new and improved motorized jump rope apparatus includes a first support assembly which includes a first end portion adapted to be supported by a ground surface. A battery-powered motor assembly is connected to the first support assembly, and a first jump rope assembly is connected to the battery-powered motor assembly at its rotational axis. The first end portion of the first support assembly may include a threaded portion adapted to screw into a ground surface. The first jump rope assembly includes a first mid-portion connected to the battery-powered motor assembly at the rotational axis of the battery-powered motor assembly. Two free end portions of the first jump rope assembly may be displaced a predetermined distance from the rotational axis. In this respect, the first jump rope assembly is C-shaped. The first jump rope assembly may include a second mid-portion located along the rotational axis. In this configuration, the first jump rope assembly may be rectangle shaped or circle shaped. A second support assembly is similar in structure to the first support assembly and also includes a threaded portion adapted to screw into a ground surface. The second support assembly may further include an output drive assembly which is connected to the jump-rope-receiving portion. A second jump rope assembly and a third support assembly added to the second support assembly and the first jump rope assembly permit two jumpers to jump simultaneously. | ||||||
| 19 | Electric jump rope | US852158 | 1977-11-16 | US4192501A | 1980-03-11 | John R. Peoples |
| An electric jump rope having a longitudinally extending member, the longitudinally spaced ends of which are attached to the end portions of a length of a flexible element. Mounted on the member for rotating the flexible element relative to the member is a motor assembly including a variable speed control arrangement which permits rotation of the flexible member to be varied by a person gripping the longitudinally extending member in order to skip rope with the invention. | ||||||
| 20 | Automatic jumping device | US3770268D | 1971-03-22 | US3770268A | 1973-11-06 | CASTELLO L |
| An automatic jumping device including a freestanding, vertical support which terminates downwardly in a portable base and within which is journalled a jumping arm crank at the upper end thereof. A jumping arm is operatively connected to the crank and includes a generally horizontal strut near one end thereof which is positioned to sweep close to the ground upon each revolution the jumping arm. The jumping device may be powered either manually or mechanically to rotate the jumping arm about the support to provide horizontal strut rotation of a uniform rotative speed for jumping purposes.
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