WO2012083833A1 - Multifunctional intelligent shoe - Google Patents
Multifunctional intelligent shoe Download PDFInfo
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- WO2012083833A1 WO2012083833A1 PCT/CN2011/084251 CN2011084251W WO2012083833A1 WO 2012083833 A1 WO2012083833 A1 WO 2012083833A1 CN 2011084251 W CN2011084251 W CN 2011084251W WO 2012083833 A1 WO2012083833 A1 WO 2012083833A1
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- sensor
- wireless communication
- communication module
- space sensor
- space
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- A—HUMAN NECESSITIES
- A43—FOOTWEAR
- A43B—CHARACTERISTIC FEATURES OF FOOTWEAR; PARTS OF FOOTWEAR
- A43B3/00—Footwear characterised by the shape or the use
- A43B3/34—Footwear characterised by the shape or the use with electrical or electronic arrangements
Definitions
- the utility model relates to a sports product, in particular to a smart shoe. ⁇ Background technique ⁇
- NIKE+ smart running shoes nowadays, there are more and more shoes on the market, such as NIKE+ smart running shoes.
- the sensors of these smart running shoes are generally installed in the grooves reserved in the sole, using piezoelectric sensing technology to collect the results generated by the user when running.
- the shock data is used to record the number of turns; the raw data collected by the NIKE+ smart running shoes cannot be stored in the sensor, and the data must be transmitted to the IPod or IPhone (Iphone built-in receiver) for analysis and presentation through the adapted receiver.
- IPod or IPhone Iphone built-in receiver
- NIKE+ intelligent running shoes have the following shortcomings: 1.
- the sensor of NIKE+ intelligent running shoes can only be installed in the position of the sole of the sole, it is not convenient to observe its working state, and because it uses piezoelectric sensing technology, if it is installed in another position , will greatly affect the accuracy of the original data collected;
- the technical problem to be solved by the present invention is to provide a multifunctional intelligent shoe capable of collecting motion data and wirelessly transmitting data using a spatial acceleration measurement technique, and the space sensor can be placed at various positions of the shoe.
- the utility model is realized as follows: a multifunctional intelligent shoe comprising a shoe and a space sensor, wherein the space sensor is disposed on the shoe, the space sensor has a built-in wireless communication module, and the space sensor comprises a single axis Acceleration sensor or two-axis acceleration sensor or three-axis acceleration sensor.
- the space sensor has a built-in memory.
- the space sensor is provided with an indicator light.
- the space sensor includes a power management module having a charging function. Further, the space sensor further includes a USB interface.
- the wireless communication module includes at least one of a remote wireless communication module and a short-range wireless communication module.
- the remote wireless communication module includes at least one of GSM/GPRS, EDGE, CDMA, WCDMA, TD-SCDMA, CDMA2000, HSPA, HSPA+, WiMax, TD_LTE, LTE; the short-range wireless communication module includes Bluetooth At least one of WIFI and ZigBee.
- the space sensor is disposed at a tongue position of the shoe.
- the advantages of the utility model are: 1.
- the space sensor can be placed at any position of the shoe, and the position can be designed according to the shoes with different functions in practical applications, which is beneficial to diversified application and industrial production of the product;
- the space sensor may include a three-axis acceleration sensor, and the collected raw data includes spatial position, direction, acceleration, acceleration time, etc., and the data value is high, and the amount of information obtained by analyzing the data is rich, which is convenient for various applications to display;
- the built-in memory and wireless communication module of the space sensor ensure data integrity and security and avoid loss
- the utility model does not need the support of the intermediate device, avoids the influence of carrying too many devices on the exercise body, and reduces the additional burden of the user during the exercise.
- Figure 1 is a schematic view of the structure of the present invention.
- FIG. 2 is a block diagram of a module of the space sensor of the present invention.
- the utility model relates to a multifunctional intelligent shoe, which comprises a shoe 1 and a space sensor 2, wherein the space sensor 2 is disposed at any position on the shoe 1, and the space sensor 2 is provided with a wireless communication module.
- the space sensor comprises a single-axis acceleration sensor or a two-axis acceleration sensor or a three-axis acceleration sensor, and the embodiment uses a three-axis acceleration sensor.
- the space sensor is disposed at a tongue position of the shoe, the space sensor is provided with an indicator light, and the indicator light is an LED indicator light, and Face up, it is easy to check the status of the indicator light.
- the space sensor 2 of the present invention includes: an MCU, a power management module, a data memory, an acceleration sensor, a wireless communication module, a USB interface, the power management module, a data memory, an acceleration sensor, The wireless communication module and the USB interface are all connected to the MCU.
- the acceleration sensor is a single-axis acceleration sensor or a two-axis acceleration sensor or a three-axis acceleration sensor.
- a three-axis acceleration sensor is used for collecting acceleration vector values and acceleration holding times in various directions, and it can collect real Data in the world, such as position, direction, acceleration, time, etc.;
- the power management module includes a lithium battery having a charging function;
- the wireless communication module includes at least one of a remote wireless communication module and a short-range wireless communication module, that is, can be remotely Wireless communication module or short-range wireless communication module or a combination of the two, the remote wireless communication module includes GSM/GPRS, EDGE, CDMA, WCDMA, TD-SCDMA, CDMA2000, HSPA (including HSDPA, HSUPA), HSPA+, WiMax, TD_LTE At least one of LTE, the short-range wireless communication module includes at least one of Bluetooth, WIFI, and ZigBee.
- the acceleration sensor collects its own acceleration vector value according to a predetermined frequency after power-on;
- the MCU is a calculation unit that executes the entire system program;
- the wireless communication module is responsible for communicating with the outside;
- the USB interface is a MiniUSB interface, It is a charging interface and a program code programming interface;
- the power management module is responsible for providing a stable voltage and is responsible for charging control of the battery.
- the data store is responsible for storing system data and system programs.
- the acceleration sensor in the space sensor 2 can be used to collect the direction of the object in the real world. Information such as acceleration value and acceleration holding time, and the collected data information is sent to the server for processing through the wireless communication module.
- the space sensor 2 can also charge the power management module and store the collected data in the data memory.
- the human body can see the state of the space sensor through the LED indicator on the space sensor.
Abstract
A multifunctional intelligent shoe comprises a shoe (1) and a space sensor (2). The space sensor (2) is arranged on the shoe (1). A wireless communication module is arranged in the space sensor (2). The space sensor (2) comprises a monoaxial acceleration sensor, a biaxial acceleration sensor or a triaxial acceleration sensor. The wireless communication module comprises at least one of a remote wireless communication module and a short-distance wireless communication module. A memory, a power management module with a charging function and a USB interface are arranged in the space sensor (2). The space sensor (2) is arranged at any position of the shoe (1) and provided with an indication lamp. The multifunctional intelligent shoe can acquire motion data and transmit the data wirelessly by using the space monoaxial, biaxial or triaxial acceleration measurement technology; and the space sensor (2) can be placed at any position of the shoe (1).
Description
说 明 书 Description
一种多功能智能鞋 Multifunctional smart shoes
【技术领域】 [Technical Field]
本实用新型涉及一种运动产品, 特别涉及一种智能鞋。 【背景技术】 The utility model relates to a sports product, in particular to a smart shoe. 【Background technique】
现在市场上计歩鞋越来越多, 比如 NIKE+智能跑鞋, 但是这类智 能跑鞋的传感器一般安装在鞋底预留的凹槽之中, 采用压电感应技 术, 通过采集使用者跑歩时产生的压震来纪录歩数; NIKE+智能跑鞋 采集到的原始数据不能存储在传感器中,必须通过与之适配的接收器 将数据传输至 IPod或 IPhone ( IPhone内置了接收器)进行分析展现。 Nowadays, there are more and more shoes on the market, such as NIKE+ smart running shoes. However, the sensors of these smart running shoes are generally installed in the grooves reserved in the sole, using piezoelectric sensing technology to collect the results generated by the user when running. The shock data is used to record the number of turns; the raw data collected by the NIKE+ smart running shoes cannot be stored in the sensor, and the data must be transmitted to the IPod or IPhone (Iphone built-in receiver) for analysis and presentation through the adapted receiver.
NIKE+智能跑鞋存在以下几个缺点: 1、 NIKE+智能跑鞋的传感器只能 安装在鞋底靠中的位置, 不便于观察其工作状态, 且因其采用的是压 电感应技术, 如果安装在别的位置, 将大幅度影响所采集的原始数据 的精确率; 2、 NIKE+智能跑鞋采用压电感应技术, 所以只能采集跑歩 者的歩数数据; 3、 NIKE+智能跑鞋必须与专用接收器、 IPocU IPhone 配合使用, 否则采集来的数据将丢失; 4、 在实际应用中, 使用者除 了要穿上 NIKE+智能跑鞋, 还必须携带 IPocU IPhone等, 为跑歩运 动增加了不必要的负担和麻烦。 NIKE+ intelligent running shoes have the following shortcomings: 1. The sensor of NIKE+ intelligent running shoes can only be installed in the position of the sole of the sole, it is not convenient to observe its working state, and because it uses piezoelectric sensing technology, if it is installed in another position , will greatly affect the accuracy of the original data collected; 2, NIKE + intelligent running shoes using piezoelectric sensing technology, so only the data of the runners can be collected; 3, NIKE + intelligent running shoes must be combined with a dedicated receiver, IPocU IPhone Use, otherwise the collected data will be lost; 4, in practical applications, in addition to wearing NIKE+ smart running shoes, users must also carry IPocU IPhone, etc., adding unnecessary burden and trouble to the running movement.
公告日为 2001年 1月 3日,公告号为 CN2412420Y的专利 "计歩 鞋" , 提供了一种在鞋底安装压力接触器, 在鞋面安装微型电器、 显 示屏的方式, 当人体运动的时候, 重量触动压力接触器, 通过电线传 输给微型电器, 记录所行走的歩数, 在显示屏上显示出来。但是该专
利的压力接触器的安装位置受到限制;而且只能采集跑歩者的歩数数 据, 功能和用途都较为单一。 The announcement date is January 3, 2001, and the patent number "Calculation Shoes" of CN2412420Y provides a way to install a pressure contactor on the sole, and install a micro-electric appliance and a display on the upper. When the human body moves The weight touches the pressure contactor and transmits it to the micro-electric device through the wire, and records the number of turns that are walking, which is displayed on the display. But the special The installation position of the pressure contactor is limited; and only the data of the runners can be collected, and the functions and uses are relatively simple.
【实用新型内容】 [utility content]
本实用新型要解决的技术问题, 在于提供一种多功能智能鞋, 它 能够使用空间加速度测量技术采集运动数据并无线发送数据,而且空 间传感器可放置于鞋子的各个位置。 The technical problem to be solved by the present invention is to provide a multifunctional intelligent shoe capable of collecting motion data and wirelessly transmitting data using a spatial acceleration measurement technique, and the space sensor can be placed at various positions of the shoe.
本实用新型是这样实现的: 一种多功能智能鞋, 它包括鞋子和空 间传感器, 所述空间传感器设置于所述鞋子上, 所述空间传感器内置 无线通讯模块,而且所述空间传感器包括单轴加速度传感器或双轴加 速度传感器或三轴加速度传感器。 The utility model is realized as follows: a multifunctional intelligent shoe comprising a shoe and a space sensor, wherein the space sensor is disposed on the shoe, the space sensor has a built-in wireless communication module, and the space sensor comprises a single axis Acceleration sensor or two-axis acceleration sensor or three-axis acceleration sensor.
所述空间传感器内置有存储器。 The space sensor has a built-in memory.
进一歩的, 所述空间传感器上设置有一个指示灯。 Further, the space sensor is provided with an indicator light.
进一歩的, 所述空间传感器包含具有充电功能的电源管理模块。 进一歩的, 所述空间传感器还包括 USB接口。 Further, the space sensor includes a power management module having a charging function. Further, the space sensor further includes a USB interface.
进一歩的, 所述无线通讯模块包括远程无线通讯模块和短程无线 通讯模块的至少一种。 Further, the wireless communication module includes at least one of a remote wireless communication module and a short-range wireless communication module.
进一歩的, 所述远程无线通讯模块包括 GSM/GPRS、 EDGE, CDMA, WCDMA、 TD— SCDMA、 CDMA2000、 HSPA、 HSPA+、 WiMax、 TD_LTE、 LTE 其中的至少一种; 所述短程无线通讯模块包括 Bluetooth、 WIFI、 ZigBee其中的至少一种。 Further, the remote wireless communication module includes at least one of GSM/GPRS, EDGE, CDMA, WCDMA, TD-SCDMA, CDMA2000, HSPA, HSPA+, WiMax, TD_LTE, LTE; the short-range wireless communication module includes Bluetooth At least one of WIFI and ZigBee.
进一歩的, 所述空间传感器设置于鞋子的鞋舌位置。 Further, the space sensor is disposed at a tongue position of the shoe.
本实用新型的优点在于:
1.所述空间传感器可以设置于鞋子的任意位置,可以根据实际应 用中不同功能的鞋子, 设计安放位置, 有利于产品的多元化应用和工 业化生产; The advantages of the utility model are: 1. The space sensor can be placed at any position of the shoe, and the position can be designed according to the shoes with different functions in practical applications, which is beneficial to diversified application and industrial production of the product;
2.所述空间传感器可以包括三轴加速度传感器,采集的原始数据 包含空间位置、 方向、 加速度、 加速度时间等, 数据价值高, 通过分 析数据可获得的信息量丰富, 便于各种应用展现; 2. The space sensor may include a three-axis acceleration sensor, and the collected raw data includes spatial position, direction, acceleration, acceleration time, etc., and the data value is high, and the amount of information obtained by analyzing the data is rich, which is convenient for various applications to display;
3.所述空间传感器内置的存储器和无线通讯模块保证了数据的 完整性和安全性, 避免丢失; 3. The built-in memory and wireless communication module of the space sensor ensure data integrity and security and avoid loss;
4.本实用新型无需中间设备支持,避免了携带过多设备对运动本 身造成的影响, 降低使用者在运动过程中的额外负担。 4. The utility model does not need the support of the intermediate device, avoids the influence of carrying too many devices on the exercise body, and reduces the additional burden of the user during the exercise.
【附图说明】 [Description of the Drawings]
下面参照附图结合实施例对本实用新型作进一歩的说明。 The present invention will be further described with reference to the accompanying drawings in conjunction with the embodiments.
图 1是本实用新型的结构示意图。 Figure 1 is a schematic view of the structure of the present invention.
图 2是本实用新型的空间传感器的模块框图。 2 is a block diagram of a module of the space sensor of the present invention.
【具体实施方式】 【Detailed ways】
请参阅图 1、图 2所示,对本实用新型的实施例进行详细的说明。 如图 1 , 本实用新型一种多功能智能鞋, 它包括鞋子 1和空间 传感器 2, 所述空间传感器 2设置于所述鞋子 1上的任意位置, 所述 空间传感器 2内设置有无线通讯模块,而且所述空间传感器包含了单 轴加速度传感器或双轴加速度传感器或三轴加速度传感器,本实施例 采用三轴加速度传感器。如图, 所述空间传感器设置于鞋子的鞋舌位 置, 所述空间传感器上设置有指示灯, 所述指示灯为 LED指示灯, 并
且面朝上, 便于查看指示灯的状态。 Please refer to FIG. 1 and FIG. 2 for a detailed description of an embodiment of the present invention. As shown in FIG. 1 , the utility model relates to a multifunctional intelligent shoe, which comprises a shoe 1 and a space sensor 2, wherein the space sensor 2 is disposed at any position on the shoe 1, and the space sensor 2 is provided with a wireless communication module. And the space sensor comprises a single-axis acceleration sensor or a two-axis acceleration sensor or a three-axis acceleration sensor, and the embodiment uses a three-axis acceleration sensor. As shown in the figure, the space sensor is disposed at a tongue position of the shoe, the space sensor is provided with an indicator light, and the indicator light is an LED indicator light, and Face up, it is easy to check the status of the indicator light.
如图 2, 本实用新型的空间传感器 2包括: 一 MCU, —电源管理 模块、 一数据存储器, 一加速度传感器, 一无线通讯模块, 一 USB接 口,所述电源管理模块、数据存储器、加速度传感器、无线通讯模块、 USB接口均连接到所述 MCU。 所述加速度传感器为单轴加速度传感器 或双轴加速度传感器或三轴加速度传感器,本实施例中采用三轴加速 度传感器, 用于采集各个方向的加速度向量值、加速度保持时间等信 息, 它可以采集真实世界中位置、 方向、 加速度、 时间等数据; 所述 电源管理模块包括具有充电功能的锂电池;所述无线通讯模块包括远 程无线通讯模块和短程无线通讯模块的至少一种,即可以单独为远程 无线通讯模块或短程无线通讯模块或两者的结合,所述远程无线通讯 模块包括 GSM/GPRS、 EDGE, CDMA, WCDMA、 TD— SCDMA、 CDMA2000、 HSPA (包含 HSDPA、 HSUPA)、 HSPA+、 WiMax、 TD_LTE、 LTE其中的至 少一种, 所述短程无线通讯模块包括 Bluetooth、 WIFI、 ZigBee其中 的至少一种。所述加速度传感器在加电后会按照预定频率采集自身的 加速度向量值;所述 MCU为计算单元, 执行整个系统程序; 所述无线 通讯模块负责与外界通讯; 所述 USB接口为 MiniUSB接口, 它是一个 充电接口及程序代码烧写接口; 所述电源管理模块负责提供稳定电 压, 并负责电池的充电控制。所述数据存储器负责存储系统数据及系 统程序。 As shown in FIG. 2, the space sensor 2 of the present invention includes: an MCU, a power management module, a data memory, an acceleration sensor, a wireless communication module, a USB interface, the power management module, a data memory, an acceleration sensor, The wireless communication module and the USB interface are all connected to the MCU. The acceleration sensor is a single-axis acceleration sensor or a two-axis acceleration sensor or a three-axis acceleration sensor. In this embodiment, a three-axis acceleration sensor is used for collecting acceleration vector values and acceleration holding times in various directions, and it can collect real Data in the world, such as position, direction, acceleration, time, etc.; the power management module includes a lithium battery having a charging function; the wireless communication module includes at least one of a remote wireless communication module and a short-range wireless communication module, that is, can be remotely Wireless communication module or short-range wireless communication module or a combination of the two, the remote wireless communication module includes GSM/GPRS, EDGE, CDMA, WCDMA, TD-SCDMA, CDMA2000, HSPA (including HSDPA, HSUPA), HSPA+, WiMax, TD_LTE At least one of LTE, the short-range wireless communication module includes at least one of Bluetooth, WIFI, and ZigBee. The acceleration sensor collects its own acceleration vector value according to a predetermined frequency after power-on; the MCU is a calculation unit that executes the entire system program; the wireless communication module is responsible for communicating with the outside; the USB interface is a MiniUSB interface, It is a charging interface and a program code programming interface; the power management module is responsible for providing a stable voltage and is responsible for charging control of the battery. The data store is responsible for storing system data and system programs.
当人体运动的时候, 打开鞋子上的空间传感器的开关, 就可以通 过空间传感器 2中的加速度传感器采集到物体在真实世界中的方向、
加速度值、加速度保持时间等信息, 将所采集到的数据信息通过无线 通讯模块发送到服务器进行处理。所述的空间传感器 2还可以对电源 管理模块进行充电, 并可将所采集的数据存储在数据存储器内。人体 可以通过空间传感器上的 LED指示灯, 看到空间传感器的状态。 以上所述, 仅为本实用新型较佳实施例而已, 故不能依此限定本实用 新型实施的范围,即依本实用新型专利范围及说明书内容所作的等效 变化与修饰, 皆应仍属本实用新型涵盖的范围内。
When the human body is moving, opening the switch of the space sensor on the shoe, the acceleration sensor in the space sensor 2 can be used to collect the direction of the object in the real world. Information such as acceleration value and acceleration holding time, and the collected data information is sent to the server for processing through the wireless communication module. The space sensor 2 can also charge the power management module and store the collected data in the data memory. The human body can see the state of the space sensor through the LED indicator on the space sensor. The above is only the preferred embodiment of the present invention, and thus the scope of the practice of the present invention is not limited thereto, that is, the equivalent changes and modifications made according to the scope of the present patent and the contents of the specification should still belong to the present invention. The scope of the utility model is covered.
Claims
1.一种多功能智能鞋, 它包括鞋子和空间传感器, 所述空间传感 器设置于所述鞋子上, 其特征在于: 所述空间传感器内置无线通讯模 块,而且所述空间传感器包括单轴加速度传感器、双轴加速度传感器、 三轴加速度传感器其中至少一种。 A multifunctional smart shoe comprising a shoe and a space sensor, wherein the space sensor is disposed on the shoe, wherein: the space sensor has a built-in wireless communication module, and the space sensor comprises a single axis acceleration sensor At least one of a two-axis acceleration sensor and a three-axis acceleration sensor.
2.根据权利要求 1所述的一种多功能智能鞋, 其特征在于: 所述 空间传感器内置有存储器。 2. A multifunctional smart shoe according to claim 1, wherein: said space sensor has a built-in memory.
3.根据权利要求 1所述的一种多功能智能鞋, 其特征在于: 所述 空间传感器上设置有一个指示灯。 3. The multifunctional smart shoe according to claim 1, wherein: the space sensor is provided with an indicator light.
4.根据权利要求 1所述的一种多功能智能鞋, 其特征在于: 所述 空间传感器包含具有充电功能的电源管理模块。 4. A multifunctional smart shoe according to claim 1, wherein: said space sensor comprises a power management module having a charging function.
5.根据权利要求 1所述的一种多功能智能鞋, 其特征在于: 所述 空间传感器还包括 USB接口。 The multifunctional smart shoe according to claim 1, wherein: the space sensor further comprises a USB interface.
6.根据权利要求 1所述的一种多功能智能鞋, 其特征在于: 所述 无线通讯模块包括远程无线通讯模块和短程无线通讯模块的至少一 种。 The multifunctional smart shoe according to claim 1, wherein: the wireless communication module comprises at least one of a remote wireless communication module and a short-range wireless communication module.
7.根据权利要求 6所述的一种多功能智能鞋, 其特征在于: 所述 远程无线通讯模块包括 GSM/GPRS、 EDGE, CDMA, WCDMA、 TD— SCDMA、 CDMA2000、 HSPA、 HSPA+、 WiMax、 TD_LTE、 LTE其中的至少一种; 所 述短程无线通讯模块包括 Bluetooth、 WIFI、 ZigBee其中的至少一种。 The multifunctional smart shoe according to claim 6, wherein: the remote wireless communication module comprises GSM/GPRS, EDGE, CDMA, WCDMA, TD-SCDMA, CDMA2000, HSPA, HSPA+, WiMax, TD_LTE At least one of LTE; the short-range wireless communication module includes at least one of Bluetooth, WIFI, and ZigBee.
8.根据权利要求 1所述的一种多功能智能鞋, 其特征在于: 所述 空间传感器设置于鞋子的鞋舌位置。 8. A multifunctional smart shoe according to claim 1, wherein: said space sensor is disposed at a tongue position of the shoe.
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CN201020676320.6 | 2010-12-22 | ||
CN2010206763206U CN201948063U (en) | 2010-12-22 | 2010-12-22 | Multifunctional intelligent shoe |
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WO2012083833A1 true WO2012083833A1 (en) | 2012-06-28 |
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CN201948063U (en) * | 2010-12-22 | 2011-08-31 | 福建物联天下信息科技有限公司 | Multifunctional intelligent shoe |
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CN103932445A (en) * | 2014-04-04 | 2014-07-23 | 上海伟赛智能科技有限公司 | Maintenance-free falling detection shoe cover |
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