本發明係有關一種鞋用近場通訊裝置,尤指一種可應用各種近場通訊功能之鞋用近場通訊裝置。The invention relates to a near field communication device for shoes, in particular to a near field communication device for shoes which can apply various near field communication functions.
在習知技術中,將一藍牙通訊裝置與鞋子做結合,可以應用在許多方面。其中包括應用在線上遊戲、跳舞機、遊戲機等。近場通訊(NFC:Near Field Communication)係為一種短距離高頻無線通訊技術,其工作距離小於20公分(一般最佳距離是在10公分內)。近場通訊近年來迅速發展並普及應用於信用卡、交通卡、門票以及手機等等支付認證工具上。此外,近場通訊也常應用於門禁管制等非支付認證工作之領域。近場通訊係藉由近距離之兩天線間之耦合,來達到傳遞訊息之媒介。天線之設計會影響到天線間之耦合。也因此,天線之設計對近場通訊至關重要。然而市面上並沒有人將近場通訊裝置應用在鞋子上,使鞋子可具有各種近場通訊功能相關之用途。In the prior art, combining a Bluetooth communication device with a shoe can be applied in many aspects. These include online games, dance machines, game consoles and more. Near Field Communication (NFC) is a short-range high-frequency wireless communication technology with a working distance of less than 20 cm (generally the best distance is within 10 cm). Near field communication has developed rapidly in recent years and is widely used in payment authentication tools such as credit cards, transportation cards, tickets, and mobile phones. In addition, near field communication is also often used in non-payment authentication work such as access control. Near field communication is the medium through which signals are transmitted by coupling between two antennas at close range. The design of the antenna affects the coupling between the antennas. Therefore, the design of the antenna is crucial for near field communication. However, no one on the market applies the near field communication device to the shoes, so that the shoes can be used for various near field communication functions.
有鑑於此,發明人開發出簡便組裝的設計,能夠避免上述的缺點,安裝方便,又具有成本低廉的優點,以兼顧使用彈性與經濟性等考量,因此遂有本發明之產生。In view of this, the inventors have developed a design that is easy to assemble, can avoid the above-mentioned disadvantages, is easy to install, and has the advantages of low cost, and takes into account considerations such as flexibility and economy, and thus has the present invention.
本發明之主要目的在使鞋子可具有各種近場通訊功能相關之用途,為解決前述問題,以達到所預期之功效,本發明提供一種鞋用近場通訊裝置,包括一近場通訊晶片模組以及一天線模組,其中天線模組係與近場通訊晶片模組電性連接。The main purpose of the present invention is to enable the shoe to have various near field communication functions. To solve the aforementioned problems and achieve the desired effect, the present invention provides a near field communication device for shoes, including a near field communication chip module. And an antenna module, wherein the antenna module is electrically connected to the near field communication chip module.
於實施例時,前述之鞋用近場通訊裝置,其更包括一供電模組,其中供電模組係與近場通訊晶片模組電性連接。In the embodiment, the shoe near field communication device further includes a power supply module, wherein the power supply module is electrically connected to the near field communication chip module.
於實施例時,前述之鞋用近場通訊裝置,其中供電模組係為一無電池式能量擷取模組、一具電能儲存能量擷取模組、一可充電電池模組或一電池模組。In the embodiment, the foregoing device uses a near field communication device, wherein the power supply module is a batteryless energy extraction module, an electrical energy storage energy capture module, a rechargeable battery module or a battery module. group.
於實施例時,前述之鞋用近場通訊裝置,其中近場通訊晶片模組更包括一藍牙通訊單元。In the embodiment, the aforementioned shoe near field communication device, wherein the near field communication chip module further comprises a Bluetooth communication unit.
於實施例時,前述之鞋用近場通訊裝置,其中供電模組係為一無電池式能量擷取模組。In the embodiment, the aforementioned shoe near field communication device, wherein the power supply module is a batteryless energy extraction module.
於實施例時,前述之鞋用近場通訊裝置,其中天線模組具有一輪廓,輪廓包括至少一感應區。In the embodiment, the aforementioned shoe near field communication device, wherein the antenna module has a contour, and the contour includes at least one sensing area.
於實施例時,前述之鞋用近場通訊裝置,其中輪廓包括至少兩個感應區,係分別設置於鞋之兩個不共平面區域。In the embodiment, the aforementioned shoe near field communication device, wherein the contour comprises at least two sensing regions respectively disposed in two non-coplanar regions of the shoe.
於實施例時,前述之鞋用近場通訊裝置,其中天線模組包括一交錯式線圈以及一非交錯式線圈中至少一者。In the embodiment, the aforementioned shoe near field communication device, wherein the antenna module comprises at least one of an interlaced coil and a non-interlaced coil.
於實施例時,前述之鞋用近場通訊裝置,其更包括至少一感 測模組,其中至少一感測模組係與近場通訊晶片模組電性連接。In the embodiment, the shoe near field communication device further includes at least one sensing module, wherein at least one sensing module is electrically connected to the near field communication chip module.
於實施例時,前述之鞋用近場通訊裝置,其中至少一感測模組包括一壓力感測器、一計步器、一步態感測器、一心率感測器、一溫度感測器以及一濕度感測器中至少一者。In the embodiment, the aforementioned near field communication device for shoes, wherein at least one sensing module comprises a pressure sensor, a pedometer, a one-step sensor, a heart rate sensor, and a temperature sensor And at least one of the humidity sensors.
為進一步了解本發明,以下舉較佳之實施例,配合圖式、圖號,將本發明之具體構成內容及其所達成的功效詳細說明如下。In order to further understand the present invention, the specific embodiments of the present invention and the effects achieved thereby are described in detail below with reference to the drawings and drawings.
1‧‧‧鞋體1‧‧‧Shoe body
10‧‧‧鞋面10‧‧‧Shoes
11‧‧‧鞋底11‧‧‧ sole
12‧‧‧鞋墊12‧‧‧ insole
2‧‧‧近場通訊裝置2‧‧‧ Near Field Communication Device
3‧‧‧近場通訊晶片模組3‧‧‧ Near Field Communication Chip Module
30‧‧‧藍牙通訊單元30‧‧‧Bluetooth communication unit
4‧‧‧天線模組4‧‧‧Antenna Module
40‧‧‧第一感應區40‧‧‧First sensing area
41‧‧‧第二感應區41‧‧‧Second sensing area
42‧‧‧第三感應區42‧‧‧ third sensing area
5‧‧‧供電模組5‧‧‧Power supply module
6‧‧‧感測模組6‧‧‧Sensing module
7‧‧‧讀寫地墊7‧‧‧Reading and writing mats
8‧‧‧手機8‧‧‧Mobile phones
第1圖、第2圖係為本發明一種鞋用近場通訊裝置之具體實施例。1 and 2 show a specific embodiment of a near field communication device for shoes according to the present invention.
第3圖係為本發明一種鞋用近場通訊裝置之一具體實施例之結構示意圖。3 is a schematic structural view of a specific embodiment of a near field communication device for shoes according to the present invention.
第4A圖、第4B圖係為本發明一種鞋用近場通訊裝置之具體實施例之結構示意圖。4A and 4B are structural schematic views of a specific embodiment of a near field communication device for shoes according to the present invention.
第5A圖、第5B圖係為本發明一種鞋用近場通訊裝置之具體實施例之結構示意圖。5A and 5B are structural schematic views of a specific embodiment of a near field communication device for shoes according to the present invention.
第6A圖~第6E圖係為本發明一種鞋用近場通訊裝置之設置位置之示意圖。6A to 6E are schematic views showing the installation position of a near field communication device for shoes according to the present invention.
第7A圖~第7D圖係為本發明一種鞋用近場通訊裝置之天線模組設置位置之示意圖。7A to 7D are schematic views showing the arrangement position of the antenna module of the near field communication device for shoes according to the present invention.
第8A圖、第8B圖係為本發明一種鞋用近場通訊裝置之天線模組之具體實施例。8A and 8B are specific embodiments of an antenna module for a near field communication device for shoes according to the present invention.
第9A圖、第9B圖係為本發明一種鞋用近場通訊裝置之天線模組之具體實施例。9A and 9B are specific embodiments of an antenna module for a near field communication device for shoes according to the present invention.
第10圖、第11圖係為本發明一種鞋用近場通訊裝置之天線模組設置位置之具體實施例。10 and 11 are specific embodiments of an antenna module setting position of a near field communication device for shoes according to the present invention.
第12圖係為本發明一種鞋用近場通訊裝置之一具體實施例。Figure 12 is a specific embodiment of a near field communication device for shoes according to the present invention.
請參閱第1圖,其係為本發明一種鞋用近場通訊裝置之一具體實施例。其中一近場通訊裝置2係設置於一鞋體1上。在此本發明中之鞋體1係可指包括鞋子的本體(包括鞋面、鞋底)、鞋墊、鞋帶以及鞋子的配件等。此實施例之近場通訊裝置2係可以一被動式無線射頻辨識標籤模式運作。一讀寫地墊7,其工作距離係小於20公分(一般最佳距離是在10公分內),讀寫地墊7係可在近場通訊裝置2距離達到其工作距離(含之內)時讀取近場通訊裝置2內之資料,也可將資料寫入近場通訊裝置2。此實施例之近場通訊裝置2係可應用於門禁安全上。將讀寫地墊7設置於門口,一使用者需要穿著具有此實施例之近場通訊裝置2之鞋子,經由讀寫地墊7讀取近場通訊裝置2內之資料,判斷是否可讓其通行。也可同時搭配上一般傳統的門禁刷卡,相當於要經過兩道的安全檢驗,才能通過門禁。在使用上並不需要使用者去做其他肢體上的動作的,不會造成使用者的不便性。此實施例之近場通訊裝置2之另一個應用,係可與超市、商店等搭配,超市或商店將讀寫地墊7設置於結帳櫃臺前,當使用者結帳時(此時使用者係站在讀寫地墊7之上),超市或商店可直接透過讀寫地墊7讀取近場通訊裝置2內之資料, 對使用者進行使用者會員身份之辨識,若有任何折扣優惠、集點等等之活動或促銷時,即可由系統中看使用者是否有折價券或點數等可以進行折抵或兌換,並可主動提醒使用者是否要使用這些折扣或點數。當使用者還未加入超市或商店之會員時,亦可透過讀寫地墊7對近場通訊裝置2進行資料之寫入,以方便下次對使用者之會員身份進行辨識。在此應用上,使用者無須隨身帶著各個超市或商店之集點卡、點數、折價券等等厚厚一疊的紙或卡片,也減少這些卡片點數遺失之風險,對使用者來說非常便利,對超市或商店來說也方便其管理。Please refer to FIG. 1 , which is a specific embodiment of a near field communication device for shoes according to the present invention. One of the near field communication devices 2 is disposed on a shoe body 1. The shoe body 1 in the present invention may be referred to as a body including a shoe (including an upper, a sole), an insole, a shoelace, and an accessory of a shoe or the like. The near field communication device 2 of this embodiment can operate in a passive radio frequency identification tag mode. A read/write mat 7 having a working distance of less than 20 cm (generally the optimum distance is within 10 cm), and the read/write mat 7 can be used when the near field communication device 2 reaches its working distance (inclusive) The data in the near field communication device 2 is read, and the data can also be written to the near field communication device 2. The near field communication device 2 of this embodiment can be applied to access control security. The literate pad 7 is disposed at the doorway, and a user needs to wear the shoe having the near field communication device 2 of the embodiment, and reads the data in the near field communication device 2 via the literate pad 7 to determine whether it can be made. Pass. It can also be combined with the traditional traditional access control card, which is equivalent to two safety checks before passing the door. In the use, the user does not need to perform other physical movements, and does not cause inconvenience to the user. Another application of the near field communication device 2 of this embodiment can be matched with a supermarket, a store, etc., and the supermarket or the store sets the read/write mat 7 in front of the checkout counter, when the user checks out the account (at this time, the user The station is located above the literacy pad 7), and the supermarket or the store can directly read the data in the near field communication device 2 through the literacy pad 7 to identify the user identity of the user, if there is any discount During the activities or promotions of the points, etc., the system can see if the user has discount coupons or points, etc., and can be discounted or redeemed, and can promptly remind the user whether to use these discounts or points. When the user has not joined the supermarket or the member of the store, the near field communication device 2 can also write the data through the read/write mat 7 to facilitate the identification of the user's membership next time. In this application, users do not need to carry a stack of papers or cards with various supermarkets or stores, such as point cards, points, discount coupons, etc., and reduce the risk of losing these cards. It is very convenient and convenient for supermarkets or shops.
請參閱第2圖,其係為本發明一種鞋用近場通訊裝置之一具體實施例。此實施例之主要結構係與第1圖所示之實施例大致相同,惟,其中一手機8係作為一讀寫卡機之功能,對鞋體1上之近場通訊裝置2進行資料之讀取,也可對近場通訊裝置2進行資料之寫入(目前市面上許多手機8都有支援近場通訊之功能)。在此實施例中,近場通訊裝置2同樣係作為一被動式無線射頻辨識標籤模式運作。在應用上使用者可藉由手機8將資料寫入近場通訊裝置2內,例如門禁安全資料,使得使用者可以通過第1圖之實施例中之讀寫地墊7之身份辨識。即使使用者之具有近場通訊裝置2之鞋體1遺失了,使用者也可能重新設定門禁安全資料於讀寫地墊7以及新的鞋體1上之近場通訊裝置2,不用擔心遺失的具有近場通訊裝置2之鞋體1造成安全上的漏洞。Please refer to FIG. 2, which is a specific embodiment of a near field communication device for shoes according to the present invention. The main structure of this embodiment is substantially the same as that of the embodiment shown in FIG. 1. However, one of the mobile phones 8 functions as a card reader to read the data of the near field communication device 2 on the shoe body 1. The data can also be written to the near field communication device 2 (currently many mobile phones 8 on the market have the function of supporting near field communication). In this embodiment, the near field communication device 2 also operates as a passive RFID tag mode. In the application, the user can write the data into the near field communication device 2 by using the mobile phone 8, for example, the access control security data, so that the user can identify the identity of the read/write pad 7 in the embodiment of FIG. Even if the user's shoe body 1 having the near field communication device 2 is lost, the user may reset the access security data to the read/write pad 7 and the near field communication device 2 on the new shoe body 1 without fear of loss. The shoe body 1 having the near field communication device 2 causes a safety hole.
請參閱第3圖,其係為本發明一種鞋用近場通訊裝置之一具體實施例之結構示意圖。一近場通訊裝置2包括一近場通訊晶片模組3以及一天線模組4,其中天線模組4係與近場通訊晶片模組3電性連接。在前述第 1圖以及第2圖之實施例中之近場通訊裝置2係具有與第3圖之實施例之近場通訊裝置2相同之結構。其中天線模組4具有一輪廓。在此實施例中,天線模組4之輪廓只包括一個感應區。在一些實施例中,近場通訊晶片模組3以及天線模組4係可分別設置於鞋體1之不同位置上。Please refer to FIG. 3, which is a schematic structural view of a specific embodiment of a near field communication device for shoes according to the present invention. A near field communication device 2 includes a near field communication chip module 3 and an antenna module 4, wherein the antenna module 4 is electrically connected to the near field communication chip module 3. The near field communication device 2 in the first and second embodiments has the same configuration as the near field communication device 2 of the embodiment of Fig. 3. The antenna module 4 has a contour. In this embodiment, the outline of the antenna module 4 includes only one sensing area. In some embodiments, the near field communication chip module 3 and the antenna module 4 are respectively disposed at different positions of the shoe body 1.
請參閱第4A圖,其係為本發明一種鞋用近場通訊裝置之另一具體實施例之結構示意圖。此實施例之主要結構係與第3圖所示之實施例大致相同,惟,其中近場通訊裝置2更包括一供電模組5。其中供電模組5係與近場通訊晶片模組3電性連接,以提供近場通訊晶片模組3電力。有了供電模組5之電力供應,近場通訊晶片模組3係可選擇同時包括一被動式無線射頻辨識標籤模式以及一動態式無線射頻辨識標籤模式功能之晶片,使得近場通訊裝置2同時可以作為被動式無線射頻辨識標籤模式以及動態式無線射頻辨識標籤模式運作。動態式無線射頻辨識標籤模式的運作,可使鞋子在運動狀態中藉由微小供電量來紀錄資料,而在脫鞋或靜止無電源狀態仍可以手機或讀取器讀取其中資料或寫入資料,這是動態式無線射頻辨識標籤模式的優點。在一些實施例中,供電模組5係可為一電池模組或一可充電電池模組。在另一些實施例中,供電模組5係可為一具電能儲存能量擷取模組或一無電池式能量擷取模組,其中不論是具電能儲存或無電池式之能量擷取模組,其能量擷取之能量來源包括動能或是太陽能。例如,供電模組5(具電能儲存或無電池式之能量擷取模組)係為一動能轉電能(例如具有壓電材料之特性)之能量擷取模組,供電模組5係可將使用者步行時之動能能量轉換為電能,以提供近場通訊晶片模組3電力所需。又例如,供電模組5(具電能儲存或無電池式之能量擷取模組)係為一太陽能板模組,將供 電模組5設置於鞋體1之鞋面之外表面上,即可吸收光的能量,並將其轉換為電能,以提供近場通訊晶片模組3電力所需。Please refer to FIG. 4A, which is a schematic structural view of another embodiment of a near field communication device for shoes according to the present invention. The main structure of this embodiment is substantially the same as the embodiment shown in FIG. 3, except that the near field communication device 2 further includes a power supply module 5. The power supply module 5 is electrically connected to the near field communication chip module 3 to provide power to the near field communication chip module 3. With the power supply of the power supply module 5, the near field communication chip module 3 can select a chip including a passive radio frequency identification tag mode and a dynamic radio frequency identification tag mode function, so that the near field communication device 2 can simultaneously It operates as a passive RFID tag mode and a dynamic RFID tag mode. The operation of the dynamic RFID tag mode allows the shoe to record data in a state of motion with a small amount of power supply, and the data can be read or written by the mobile phone or the reader while the shoe is off or stationary. This is the advantage of the dynamic RFID tag mode. In some embodiments, the power supply module 5 can be a battery module or a rechargeable battery module. In other embodiments, the power supply module 5 can be an energy storage energy capture module or a batteryless energy capture module, whether it is an energy storage or batteryless energy capture module. The energy source of energy extraction includes kinetic energy or solar energy. For example, the power supply module 5 (an energy storage module with or without a battery type) is an energy capture module that converts kinetic energy (for example, has the characteristics of a piezoelectric material), and the power supply module 5 can The kinetic energy of the user while walking is converted into electrical energy to provide the power of the near field communication chip module 3. For example, the power supply module 5 (the energy storage module or the batteryless energy extraction module) is a solar panel module, and the power supply module 5 is disposed on the outer surface of the upper of the shoe body 1 The energy of the light is absorbed and converted into electrical energy to provide the power of the near field communication chip module 3.
請參閱第4B圖,其係為本發明一種鞋用近場通訊裝置之又一具體實施例之結構示意圖。此實施例之主要結構係與第4A圖所示之實施例大致相同,惟,其中近場通訊晶片模組3更包括一藍牙通訊單元30。有了供電模組5所提供之電力,藍牙通訊單元30係用於與外界之一藍牙裝置(例如具藍牙功能之手機)做較遠距(比近場通訊更遠距)之通訊傳輸,且通訊傳輸係可為一即時同步之通訊傳輸。當供電模組5為一無電池式能量擷取模組時(如壓電材料),藍牙通訊單元30係可採用一單向廣播模式,只對外界之藍牙裝置(例如具藍牙功能之手機)作單向廣播,不作接收,如此可達到最省電的操作模式,真正達到免電池的狀態,可適用於更多用途。當應用於如第1圖之實施例時,讀寫地墊7對鞋體1之近場通訊裝置2讀取時,即可將讀寫地墊7所具有之一藍芽裝置與鞋體1之近場通訊裝置2之藍牙通訊單元30進行配對(當應用於如第2圖之實施例,以手機8讀取時亦同),這是設置近場通訊裝置2的好處。Please refer to FIG. 4B, which is a structural schematic diagram of still another embodiment of a near field communication device for shoes according to the present invention. The main structure of this embodiment is substantially the same as the embodiment shown in FIG. 4A, except that the near field communication chip module 3 further includes a Bluetooth communication unit 30. With the power provided by the power supply module 5, the Bluetooth communication unit 30 is used for communication transmission with a remote Bluetooth device (for example, a Bluetooth-enabled mobile phone) at a longer distance (farther than the near field communication), and The communication transmission system can be an instant synchronous communication transmission. When the power supply module 5 is a batteryless energy extraction module (such as piezoelectric material), the Bluetooth communication unit 30 can adopt a one-way broadcast mode, and only the external Bluetooth device (for example, a Bluetooth-enabled mobile phone) For one-way broadcast, no reception, so that the most energy-saving operation mode can be achieved, and the battery-free state can be truly achieved, which can be applied to more purposes. When applied to the near field communication device 2 of the shoe body 1 when applied to the embodiment as shown in FIG. 1, the read/write ground pad 7 can have one of the Bluetooth device and the shoe body 1 The Bluetooth communication unit 30 of the near field communication device 2 performs pairing (same as when applied to the mobile phone 8 as in the embodiment of Fig. 2), which is an advantage of setting the near field communication device 2.
請參閱第5A圖,其係為本發明一種鞋用近場通訊裝置之另一具體實施例之結構示意圖。此實施例之主要結構係與第4A圖所示之實施例大致相同,惟,其中近場通訊裝置2更包括一感測模組6。其中感測模組6係與近場通訊晶片模組3電性連接。感測模組6係可包括一壓力感測器、一計步器、一步態感測器、一心率感測器、一溫度感測器以及一濕度感測器中至少一者。透過感測模組6,可以量測使用者之相關的資訊,例如步行數、壓力、步態資訊、心率、溫度或濕度等等之資訊,並將這些相關資訊寫入 近場通訊晶片模組3。Please refer to FIG. 5A, which is a schematic structural view of another embodiment of a near field communication device for shoes according to the present invention. The main structure of this embodiment is substantially the same as the embodiment shown in FIG. 4A, except that the near field communication device 2 further includes a sensing module 6. The sensing module 6 is electrically connected to the near field communication chip module 3 . The sensing module 6 can include at least one of a pressure sensor, a pedometer, a one-step sensor, a heart rate sensor, a temperature sensor, and a humidity sensor. Through the sensing module 6, the user can measure information related to the user, such as walking number, pressure, gait information, heart rate, temperature or humidity, and write the related information into the near field communication chip module. 3.
請參閱第5B圖,其係為本發明一種鞋用近場通訊裝置之又一具體實施例之結構示意圖。此實施例之主要結構係與第4A圖所示之實施例大致相同,惟,其中近場通訊晶片模組3更包括一藍牙通訊單元30。有了供電模組5所提供之電力,藍牙通訊單元30係用於與外界之一藍牙裝置(例如具藍牙功能之手機)做較遠距(比近場通訊更遠距)之通訊傳輸,且通訊傳輸係可為一即時同步之通訊傳輸。因此藍牙通訊單元30係可將感測模組6所量測到的使用者之相關的資訊,例如步行數、壓力、步態資訊、心率、溫度或濕度等等之資訊,即時同步傳輸至外界之一藍牙裝置(例如具藍牙功能之手機)。Please refer to FIG. 5B, which is a structural diagram of still another embodiment of a near field communication device for shoes according to the present invention. The main structure of this embodiment is substantially the same as the embodiment shown in FIG. 4A, except that the near field communication chip module 3 further includes a Bluetooth communication unit 30. With the power provided by the power supply module 5, the Bluetooth communication unit 30 is used for communication transmission with a remote Bluetooth device (for example, a Bluetooth-enabled mobile phone) at a longer distance (farther than the near field communication), and The communication transmission system can be an instant synchronous communication transmission. Therefore, the Bluetooth communication unit 30 can synchronously transmit the information related to the user measured by the sensing module 6, such as the number of walking, pressure, gait information, heart rate, temperature or humidity, to the outside world. One of the Bluetooth devices (such as a Bluetooth-enabled mobile phone).
請參閱第6A圖~第6E圖,其係為本發明一種鞋用近場通訊裝置之設置位置之示意圖。在第6A圖~第6E圖之實施例中,一鞋體1包括一鞋面10、一鞋底11以及一鞋墊12。在第6A圖之實施例中,一近場通訊裝置2係設置於鞋底11之內。其中鞋底11係可具有一夾層以設置近場通訊裝置2於鞋底11之內,或近場通訊裝置2係直接形成於鞋底11之內。在第6B圖之實施例中,近場通訊裝置2係設置於鞋墊12之內,其中鞋墊12係可具有一夾層以設置近場通訊裝置2於鞋墊12之內,或近場通訊裝置2係直接形成於鞋墊12之內。在第6C圖之實施例中,近場通訊裝置2係設置於鞋面10之內,其中鞋面10係可具有一容置空間以設置近場通訊裝置2於鞋面10之內,或近場通訊裝置2係直接形成於鞋面10之內,其中近場通訊裝置2之位置係可在鞋面10之任一位置。在第6D圖之實施例中,近場通訊裝置2係設置於鞋墊12與鞋底11之間。在第6E圖之實施例中,近場通訊裝置2係設置於鞋底11之底部上凹 處,或設置於鞋底11之底部上凹處之一容置空間內。Please refer to FIG. 6A to FIG. 6E, which are schematic diagrams showing the installation position of a near field communication device for shoes according to the present invention. In the embodiment of FIGS. 6A-6E, a shoe body 1 includes an upper 10, a sole 11, and an insole 12. In the embodiment of Fig. 6A, a near field communication device 2 is disposed within the sole 11. The sole 11 may have a sandwich to provide the near field communication device 2 within the sole 11, or the near field communication device 2 may be formed directly within the sole 11. In the embodiment of FIG. 6B, the near field communication device 2 is disposed within the insole 12, wherein the insole 12 can have a sandwich to provide the near field communication device 2 within the insole 12, or a near field communication device 2 Formed directly within the insole 12. In the embodiment of FIG. 6C, the near field communication device 2 is disposed within the upper 10, wherein the upper 10 can have an accommodation space for providing the near field communication device 2 within the upper 10, or near The field communication device 2 is formed directly within the upper 10, wherein the position of the near field communication device 2 can be anywhere in the upper 10. In the embodiment of FIG. 6D, the near field communication device 2 is disposed between the insole 12 and the sole 11. In the embodiment of Fig. 6E, the near field communication device 2 is disposed in a recess in the bottom of the sole 11, or in one of the recesses in the bottom of the sole 11.
請參閱第7A圖~第7D圖,其係為本發明一種鞋用近場通訊裝置之天線模組設置位置之示意圖。天線模組4係可與近場通訊晶片模組3設置於不同之位置。在第7A圖~第7D圖之實施例中,近場通訊晶片模組3係設置於鞋墊12與鞋底11之間(圖中未顯示),而天線模組4係可延伸設置於鞋體1之其他位置。在第7A圖之實施例中,天線模組4係設置於鞋帶位置或其附近位置。在第7B圖之實施例中,天線模組4係設置於鞋頭位置或其附近位置。在第7C圖之實施例中,天線模組4係設置於鞋面側面位置或其附近位置。在第7D圖之實施例中,天線模組4係設置於鞋面後側或其附近位置。Please refer to FIG. 7A to FIG. 7D , which are schematic diagrams showing the position of the antenna module of the near field communication device for shoes according to the present invention. The antenna module 4 can be disposed at a different location from the near field communication chip module 3. In the embodiment of the seventh to seventh embodiments, the near field communication chip module 3 is disposed between the insole 12 and the sole 11 (not shown), and the antenna module 4 is extendably disposed on the shoe body 1 Other locations. In the embodiment of Fig. 7A, the antenna module 4 is disposed at or near the position of the shoelace. In the embodiment of Fig. 7B, the antenna module 4 is disposed at or near the toe position. In the embodiment of FIG. 7C, the antenna module 4 is disposed at a position near the side of the upper or a position near the upper. In the embodiment of Fig. 7D, the antenna module 4 is disposed at or near the rear side of the upper.
請參閱第8A圖係為本發明一種鞋用近場通訊裝置之天線模組之一具體實施例。一天線模組4具有一輪廓。在此實施例中,天線模組4之輪廓包括兩個感應區,分別為一第一感應區40以及一第二感應區41。其中第一感應區40以及第二感應區41係可分別設置於鞋體1之兩個不共平面區域,也可分別設置於一共平面之區域。其中天線模組4係為一非交錯式線圈。請參閱第8B圖係為本發明一種鞋用近場通訊裝置之天線模組之另一具體實施例。此實施例之主要結構係與第8A圖所示之實施例大致相同,惟,其中天線模組4係為一交錯式線圈。請參閱第9A圖係為本發明一種鞋用近場通訊裝置之天線模組之又一具體實施例。此實施例之主要結構係與第8B圖所示之實施例大致相同,惟,其中天線模組4之輪廓包括三個感應區,分別為一第一感應區40、一第二感應區41以及一第三感應區42。請參閱第9B圖係為本發明一種鞋用近場通訊裝置之天線模組之再一具體實施例。此實施例之主要結構係與第8A圖所示之實施例大致相同,惟,其中天線模組4之輪 廓包括三個感應區,分別為一第一感應區40、一第二感應區41以及一第三感應區42。一般而言,對於不同感應區需分別設計兩個獨立天線供耦合作用,且須經由開關連至近場通訊裝置晶片模組3,且需控制開關(switch)決定使用哪個天線。而使用此種天線設計在鞋體1上則可免除這些成本及控制程序。Please refer to FIG. 8A, which is a specific embodiment of an antenna module for a near field communication device for shoes. An antenna module 4 has a contour. In this embodiment, the outline of the antenna module 4 includes two sensing areas, which are a first sensing area 40 and a second sensing area 41, respectively. The first sensing area 40 and the second sensing area 41 can be respectively disposed in two non-coplanar regions of the shoe body 1, or can be respectively disposed in a common plane region. The antenna module 4 is a non-interlaced coil. Please refer to FIG. 8B, which is another embodiment of an antenna module for a near field communication device for shoes according to the present invention. The main structure of this embodiment is substantially the same as the embodiment shown in Fig. 8A, except that the antenna module 4 is an interlaced coil. Please refer to FIG. 9A for another embodiment of an antenna module for a near field communication device for shoes according to the present invention. The main structure of this embodiment is substantially the same as the embodiment shown in FIG. 8B. However, the outline of the antenna module 4 includes three sensing areas, which are a first sensing area 40 and a second sensing area 41, respectively. A third sensing area 42. Please refer to FIG. 9B for a further embodiment of an antenna module for a near field communication device for shoes according to the present invention. The main structure of this embodiment is substantially the same as the embodiment shown in FIG. 8A. However, the outline of the antenna module 4 includes three sensing areas, which are a first sensing area 40 and a second sensing area 41, respectively. A third sensing area 42. In general, two separate antennas are separately designed for coupling in different sensing regions, and must be connected to the near field communication device chip module 3 via a switch, and a switch is required to determine which antenna to use. The use of such an antenna design on the shoe body 1 eliminates these costs and control procedures.
請參閱第10圖,其係為本發明一種鞋用近場通訊裝置之天線模組設置位置之一具體實施例。其中一天線模組4係具有第8A圖所示之實施例之一輪廓,天線模組4之輪廓包括一第一感應區40以及一第二感應區41。在此實施例中,第一感應區40係設置於鞋體1之鞋墊與鞋底之間,而第二感應區41則是彎折延伸至鞋體1之鞋面之側面之內表面,亦即第一感應區40以及第二感應區41係可分別設置於鞋體1之兩個不共平面區域。位於第一感應區40之天線模組4對於第1圖之實施例之讀寫地墊7所具有之一天線而言較易耦合感應,使讀寫地墊7得以進行對近場通訊裝置2內之資料之讀取或對近場通訊裝置2寫入資料;而位於第二感應區41之天線模組4則對於第2圖之實施例之手機8所具有之一近場通訊天線而言則較易由鞋體1之鞋面之側面耦合感應,使讀寫地墊7得以進行對近場通訊裝置2內之資料之讀取或對近場通訊裝置2寫入資料。請參閱第11圖,其係為本發明一種鞋用近場通訊裝置之天線模組設置位置之一具體實施例。此實施例之主要結構係與第10圖所示之實施例大致相同,惟,其中第一感應區40係設置於鞋墊與鞋底之間較接近鞋跟之區域,而第二感應區41則是彎折延伸至鞋體1之鞋面後側之內表面。位於第二感應區41之天線模組4則對於第2圖之實施例之手機8所具有之近場通訊天線而言較易由鞋體1之鞋面後側耦合感應,使讀寫地墊7得以進行對近場通訊裝置2內之資料之讀取或對近場通訊裝置2寫入資料。Please refer to FIG. 10, which is a specific embodiment of an antenna module setting position of a near field communication device for shoes according to the present invention. One of the antenna modules 4 has an outline of an embodiment shown in FIG. 8A. The outline of the antenna module 4 includes a first sensing area 40 and a second sensing area 41. In this embodiment, the first sensing area 40 is disposed between the insole and the sole of the shoe body 1, and the second sensing area 41 is bent to extend to the inner surface of the side of the upper of the shoe body 1, that is, The first sensing area 40 and the second sensing area 41 are respectively disposed in two non-coplanar regions of the shoe body 1. The antenna module 4 located in the first sensing area 40 is more easily coupled to one of the antennas of the read/write ground pad 7 of the embodiment of FIG. 1 , so that the read/write ground pad 7 can be performed on the near field communication device 2 . Reading the data or writing data to the near field communication device 2; and the antenna module 4 located in the second sensing area 41 has one near field communication antenna for the mobile phone 8 of the embodiment of FIG. It is easier to couple the sensing from the side of the upper of the shoe body 1 so that the literate pad 7 can read the data in the near field communication device 2 or write data to the near field communication device 2. Please refer to FIG. 11 , which is a specific embodiment of an antenna module setting position of a near field communication device for shoes according to the present invention. The main structure of this embodiment is substantially the same as the embodiment shown in FIG. 10, except that the first sensing area 40 is disposed between the insole and the sole to be closer to the heel, and the second sensing area 41 is The bend extends to the inner surface of the rear side of the upper of the shoe body 1. The antenna module 4 located in the second sensing area 41 is more easily coupled to the back side of the upper of the shoe body 1 for the near field communication antenna of the mobile phone 8 of the embodiment of FIG. 2, so that the read/write mat is made. 7 The reading of the data in the near field communication device 2 or the writing of the data to the near field communication device 2 can be performed.
請參閱第12圖,其係為本發明一種鞋用近場通訊裝置之一具體實施例。一近場通訊裝置2包括一近場通訊晶片模組3、一天線模組4、一供電模組5以及五個感測模組6。此實施例中之近場通訊晶片模組3、供電模組5以及五個感測模組6都是設置在鞋體1之鞋墊與鞋底之間。其中近場通訊晶片模組3包括一藍牙通訊單元30。供電模組5係為一無電池式能量擷取模組,係一種具有壓電材料特性(動能轉電能)之能量擷取模組。此實施例之天線模組4係與第10圖之實施例相同,且第一感應區40以及第二感應區41之設置位置亦與第10圖之實施例相同,係分別位於鞋體1之鞋墊與鞋底之間以及彎折延伸至鞋體1之鞋面之側面之內表面。五個感測模組6係分別為五個高線性度之壓力感測器,分別設置於五個不同之位置上,係可分別量測不同位置之壓力。所量測到的壓力的資訊可以(a)直接存放在近場通訊晶片模組3內、(b)透過藍牙通訊單元30即時同步傳輸至使用者的手機、(c)直接存放在近場通訊晶片模組3內並同時透過藍牙通訊單元30即時同步傳輸至使用者的手機、或(d)先存放在近場通訊晶片模組3內,每隔一小段時間,再透過藍牙通訊單元30傳輸至使用者的手機。藉由五個高線性度之壓力感測器所量測到的壓力資訊,使用者可以分析步行或跑步姿勢是否需要調整。對於運動員或是姿勢需要矯正的使用者,非常需要這樣的功能來協助他們。Please refer to FIG. 12, which is a specific embodiment of a near field communication device for shoes according to the present invention. A near field communication device 2 includes a near field communication chip module 3, an antenna module 4, a power supply module 5, and five sensing modules 6. The near field communication chip module 3, the power supply module 5 and the five sensing modules 6 in this embodiment are disposed between the insole and the sole of the shoe body 1. The near field communication chip module 3 includes a Bluetooth communication unit 30. The power supply module 5 is a batteryless energy extraction module, and is an energy extraction module having piezoelectric material characteristics (kinetic energy to electric energy). The antenna module 4 of this embodiment is the same as the embodiment of FIG. 10, and the positions of the first sensing area 40 and the second sensing area 41 are also the same as those of the embodiment of FIG. 10, which are respectively located in the shoe body 1. The inner surface between the insole and the sole and bent to extend to the side of the upper of the shoe body 1. The five sensing modules 6 are respectively five high-linearity pressure sensors, which are respectively disposed at five different positions, and can respectively measure the pressures at different positions. The measured pressure information can be (a) stored directly in the near field communication chip module 3, (b) instantaneously transmitted to the user's mobile phone via the Bluetooth communication unit 30, and (c) directly stored in the near field communication. The chip module 3 is simultaneously and simultaneously transmitted to the user's mobile phone through the Bluetooth communication unit 30, or (d) first stored in the near field communication chip module 3, and transmitted through the Bluetooth communication unit 30 every short period of time. To the user's mobile phone. With the pressure information measured by the five high linearity pressure sensors, the user can analyze whether the walking or running posture needs adjustment. For athletes or users whose posture needs to be corrected, such a function is very much needed to assist them.
以上所述乃是本發明之具體實施例及所運用之技術手段,根據本文的揭露或教導可衍生推導出許多的變更與修正,仍可視為本發明之構想所作之等效改變,其所產生之作用仍未超出說明書及圖式所涵蓋之實質精神,均應視為在本發明之技術範疇之內,合先陳明。The above is a specific embodiment of the present invention and the technical means employed, and many variations and modifications can be derived therefrom based on the disclosure or teachings herein. The role of the invention is not to be exceeded in the spirit of the specification and the drawings, and should be considered as within the technical scope of the present invention.
綜上所述,依上文所揭示之內容,本發明確可達到發明之預期目的,提供一種鞋用近場通訊裝置,極具產業上利用之價植,爰依法提出發明專利申請。In summary, according to the above disclosure, the present invention can indeed achieve the intended purpose of the invention, and provides a near field communication device for shoes, which is highly priced in the industry, and proposes an invention patent according to law.
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106104505ATW201830884A (en) | 2017-02-10 | 2017-02-10 | Near field communicating device for shoes |
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106104505ATW201830884A (en) | 2017-02-10 | 2017-02-10 | Near field communicating device for shoes |
| Publication Number | Publication Date |
|---|---|
| TW201830884Atrue TW201830884A (en) | 2018-08-16 |
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| TW106104505ATW201830884A (en) | 2017-02-10 | 2017-02-10 | Near field communicating device for shoes |
| Country | Link |
|---|---|
| TW (1) | TW201830884A (en) |
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