TWI597202B - Bike grip cover for instant display of information - Google Patents

Description

可即時顯示資訊之自行車握把套Bicycle grip cover for instant display of information

本發明與用於自行車之握把套有關，特別是指一種可即時顯示資訊之自行車握把套。The present invention relates to a grip for a bicycle, and more particularly to a bicycle grip that can instantly display information.

為了方便騎乘者在騎乘過程中掌握各種行車資訊(如車速、騎乘距離及變速檔位等)，目前的自行車會使用一顯示器來顯示騎乘者所需要的內容。一般來說，顯示器主要是安裝在豎管與車手把的交界處，當想要調整顯示器的顯示內容時，騎乘者必須將其中一隻手從車手把移至顯示器的所在位置，也就是會有一段時間是用單手進行騎乘，如此容易提高騎乘的危險性。In order to facilitate the rider to grasp various driving information (such as speed, riding distance and shifting position) during the riding process, the current bicycle will use a display to display the content required by the rider. Generally speaking, the display is mainly installed at the junction of the standpipe and the handlebar. When you want to adjust the display content of the display, the rider must move one of the hands from the rider to the position of the display, that is, For a while, riding with one hand, it is easy to increase the risk of riding.

本發明之主要目的在於提供一種自行車握把套，其能即時顯示騎乘者所需要的資訊，並且方便騎乘者進行操控，藉以提升騎乘安全性。The main object of the present invention is to provide a bicycle grip cover that can instantly display the information required by the rider and facilitate the rider to control, thereby improving ride safety.

為了達成上述目的，本發明所提供之自行車握把套包含有一套體、一軟性顯示器，以及一輸入模組。該套體用來套設於一車手把；該軟性顯示器嵌設於該套體內，當未啟動時會產生隱蔽效果而讓該套體在外觀上看不出來有該軟性顯示器，在啟動之後即可顯示騎乘者所需要的行車資訊；該輸入模組嵌設於該套體內且連接該軟性顯示器，用以供騎乘者對該軟性顯示器進行操控。藉此，本發明之自行車握把套可以讓騎乘者在騎乘過程中不需要將手離開該車手把就能對該軟性顯示器的顯示內容進行操控，進而達到增加便利性及提升行車安全性的目的。In order to achieve the above object, a bicycle grip cover provided by the present invention comprises a set body, a soft display, and an input module. The sleeve is used to be sleeved on a handlebar; the flexible display is embedded in the sleeve body, and when it is not activated, a concealing effect is generated, so that the sleeve body does not have the soft display in appearance, and after starting, The driving information required by the rider can be displayed; the input module is embedded in the casing and connected to the flexible display for the rider to control the soft display. Thereby, the bicycle grip cover of the invention can enable the rider to control the display content of the soft display without leaving the hand to leave the handle during the riding process, thereby increasing convenience and improving driving safety. the goal of.

更佳地，本發明更提供一生理狀態感測器，該生理狀態感測器設於該套體，用以感測該騎乘者之生理狀態而發送一感測訊號至一中央控制器，使該中央控制器能控制該軟性顯示器顯示該生理狀態感測器的感測結果。More preferably, the present invention further provides a physiological state sensor, wherein the physiological state sensor is disposed in the casing to sense the physiological state of the rider and send a sensing signal to a central controller. The central controller is enabled to control the flexible display to display the sensing result of the physiological state sensor.

更佳地，本發明更提供一非接觸式操作裝置，該非接觸式操作裝置具有一安裝座與二光感測器，該安裝座設於該套體且具有二呈間隔設置之感應部，該二光感測器分別埋設於安裝座之一該感應部內，用以感測該騎乘者之一手部動作而發送一感測訊號至該中央控制器，使該中央控制器能控制該軟性顯示器顯示該光感測器的感測結果。More preferably, the present invention further provides a non-contact operation device having a mounting seat and a two-light sensor, the mounting seat is disposed on the sleeve body and has two sensing portions disposed at intervals, The two light sensors are respectively embedded in one of the sensing portions of the mounting seat for sensing one of the rider's hand movements and transmitting a sensing signal to the central controller, so that the central controller can control the flexible display. The sensing result of the photo sensor is displayed.

更佳地，本發明更提供一接觸式操作裝置，該接觸式操作裝置具有一安裝座與二觸控感測器，該安裝座設於該套體且具有一觸控面與二設於該觸控面之觸控位置感知部，該觸控感測器設於該安裝座之觸控面且對應於該安裝座之觸控位置感知部，用以感測該騎乘者之一觸控動作而發送一感測訊號至該中央控制器，使該中央控制器能控制該軟性顯示器顯示該觸控感測器的感測結果。More preferably, the present invention further provides a contact type operating device having a mounting base and two touch sensors, the mounting seat is disposed on the sleeve body and has a touch surface and two a touch position sensing portion of the touch surface, the touch sensor is disposed on the touch surface of the mount and corresponds to the touch position sensing portion of the mount for sensing one touch of the rider The action sends a sensing signal to the central controller, so that the central controller can control the flexible display to display the sensing result of the touch sensor.

有關本發明所提供之自行車握把套的詳細構造、特點、組裝或使用方式，將於後續的實施方式詳細說明中予以描述。然而，在本發明領域中具有通常知識者應能瞭解，該等詳細說明以及實施本發明所列舉的特定實施例，僅係用於說明本發明，並非用以限制本發明之專利申請範圍。The detailed construction, features, assembly or use of the bicycle grip cover provided by the present invention will be described in the detailed description of the subsequent embodiments. However, it should be understood by those of ordinary skill in the art that the present invention is not limited by the scope of the invention.

請先參閱第1圖，本發明第1實施例之自行車握把套10包含有一套體20、一軟性顯示器26、一輸入模組28、一生理狀態感測器30，以及一非接觸式操作裝置40。Referring to FIG. 1 , the bicycle grip cover 10 of the first embodiment of the present invention includes a set body 20 , a flexible display 26 , an input module 28 , a physiological state sensor 30 , and a non-contact operation. Device 40.

套體20在本實施例中具有一握持部22與一突出部24，其中的握持部22用來套設於一車手把12而供騎乘者握持，突出部24自握持部22之外側端往上延伸而出。In this embodiment, the sleeve 20 has a grip portion 22 and a protrusion portion 24, wherein the grip portion 22 is sleeved on a handlebar 12 for the rider to grip, and the protrusion portion 24 is self-grip. The outer side end of 22 extends upward.

軟性顯示器26嵌設於套體20之突出部24內，當軟性顯示器26在未啟動時，套體20在外觀上會呈現一致性而看不出來有軟性顯示器26的存在(如第1圖所示)，藉此達到隱藏效果，當軟性顯示器26在啟動之後，軟性顯示器26才會展現顯示效果(如第2圖所示)，例如顯示車速、騎乘距離、變速檔位或電池的剩餘電量等行車資訊。The flexible display 26 is embedded in the protruding portion 24 of the casing 20. When the flexible display 26 is not activated, the casing 20 is uniform in appearance and the presence of the flexible display 26 is not visible (as shown in Fig. 1). In order to achieve the hidden effect, when the flexible display 26 is activated, the flexible display 26 will display the display effect (as shown in FIG. 2), for example, display the vehicle speed, the riding distance, the shift position or the remaining battery power. Waiting for driving information.

輸入模組28嵌設於套體20之突出部24內且連接軟性顯示器26，用以供騎乘者對軟性顯示器26的顯示內容進行操控。The input module 28 is embedded in the protrusion 24 of the sleeve 20 and connected to the flexible display 26 for the rider to control the display content of the flexible display 26.

生理狀態感測器30設於套體20之握持部22且突出於套體20之握持部22的表面，使得生理狀態感測器30可以藉由與騎乘者之手掌的接觸來感測騎乘者在騎乘過程的生理狀態(如心率)。The physiological state sensor 30 is disposed on the grip portion 22 of the sleeve 20 and protrudes from the surface of the grip portion 22 of the sleeve 20 such that the physiological state sensor 30 can be sensed by contact with the rider's palm. The physiological state of the rider during the ride (such as heart rate) is measured.

由上述可知，本發明之自行車握把套10藉由軟性顯示器26的內建式設計，讓騎乘者在騎乘過程中可以很方便地對軟性顯示器26進行操控，並不需要讓手離開車手把12，因而能夠有效達到增加操作便利性及提升行車安全性的目的。另外，在騎乘過程中可以透過生理狀態感測器30即時感測騎乘者的生理狀態，再由軟性顯示器26將行車資訊及生理資訊顯示出來，如此即能讓騎乘者在最佳的狀態之下進行騎乘。It can be seen from the above that the bicycle grip cover 10 of the present invention allows the rider to conveniently control the flexible display 26 during the riding process by means of the built-in design of the flexible display 26, without requiring the hand to leave the rider. 12, thus effectively achieving the purpose of increasing operational convenience and improving driving safety. In addition, during the riding process, the physiological state of the rider can be sensed through the physiological state sensor 30, and the driving information and physiological information are displayed by the flexible display 26, so that the rider can be optimal. Riding under the state.

此外，本發明第1實施例之自行車握把套10更提供一非接觸式操作裝置40，非接觸式操作裝置40具有一安裝座50與二光感測器60，其中：In addition, the bicycle grip cover 10 of the first embodiment of the present invention further provides a non-contact operating device 40. The non-contact operating device 40 has a mounting base 50 and a two-light sensor 60, wherein:

安裝座50固定於套體20之握持部22的內側端且具有二呈間隔設置之感應部52與一開關部54，開關部54介於該二感應部52之間。The mounting seat 50 is fixed to the inner end of the grip portion 22 of the sleeve 20 and has two sensing portions 52 and a switch portion 54 disposed at intervals. The switch portion 54 is interposed between the two sensing portions 52.

光感測器60埋設於安裝座50之感應部52內，而且，光感測器60可以是光遮斷器或紅外線感應器，在此以光遮斷器為例，主要是用來感測騎乘者的不同手部動作而發送不同的感測訊號，例如感測手部停留在感應部52的位置、手部相對感應部52揮動的方向或手部停留在感應部52的時間。The photo sensor 60 is embedded in the sensing portion 52 of the mounting base 50. Moreover, the photo sensor 60 can be a photo interrupter or an infrared sensor. Here, the photo interrupter is used as an example, and is mainly used for sensing. The different hand movements of the rider transmit different sensing signals, such as sensing the position at which the hand stays at the sensing portion 52, the direction in which the hand is swung relative to the sensing portion 52, or the time the hand stays in the sensing portion 52.

為了避免光感測器60在不使用時因為長時間耗電而影響使用壽命，安裝座50之開關部54內可以加裝一電源開關56與光感測器60形成電性連接，用以控制光感測器的啟動與關閉。在本實施例中，電源開關56是以光控開關為例(但不此為限)，主要是藉由內部之光敏電阻感應外在的光線變化來啟動或關閉光感測器。In order to prevent the optical sensor 60 from affecting the service life due to long-term power consumption when not in use, a power switch 56 can be added to the switch portion 54 of the mounting seat 50 to form an electrical connection with the photo sensor 60 for controlling The light sensor is turned on and off. In the present embodiment, the power switch 56 is exemplified by a light-controlled switch (but not limited thereto), and the light sensor is activated or disabled by an external light-sensitive resistor to sense an external light change.

在實際操作時，如第3圖所示，騎乘者先將拇指放置在安裝座50之開關部52將電源開關54遮蔽住，使電源開關56同時啟動兩個光感測器60，在啟動之後，騎乘者即可依照騎乘上的需求將拇指往前或往後揮動至安裝座50之其中一個感應部52的上方，使設置在此一感應部52內之光感測器60被遮蔽住而完成觸發，當光感測器60被觸發之後會根據騎乘者的手部動作發送相對應之感測訊號至一中央控制器(圖中未示)，此時的中央控制器會根據所接收到的訊號進行相對應的功能操控，例如變速檔位切換或座管高度調整，並將最後調整的結果經由軟性顯示器26顯示出來。一旦完成操控之後，騎乘者可以再將拇指移回安裝座50之開關部54，使電源開關56將兩個光感測器60同時關閉，如此即可讓光感測器60在不使用時能夠保持在關閉狀態，以避免產生耗電的問題。In actual operation, as shown in FIG. 3, the rider first places the thumb on the switch portion 52 of the mount 50 to shield the power switch 54 so that the power switch 56 simultaneously activates the two photo sensors 60 at the start. After that, the rider can swing the thumb forward or backward according to the demand of the ride to one of the sensing portions 52 of the mounting seat 50, so that the light sensor 60 disposed in the sensing portion 52 is After the light sensor 60 is triggered, the corresponding sensing signal is sent to a central controller (not shown) according to the rider's hand motion, and the central controller will Corresponding functional manipulations, such as shift gear shifting or seat tube height adjustment, are performed based on the received signals, and the results of the final adjustment are displayed via the flexible display 26. Once the manipulation is completed, the rider can move the thumb back to the switch portion 54 of the mount 50, causing the power switch 56 to simultaneously turn off the two photo sensors 60, thus allowing the photo sensor 60 to be unused. It can be kept off to avoid power consumption problems.

另一方面，非接觸式操作裝置40可以配合不同形式的握把套而在數量、位置及結構態樣方面有不同的變化。例如在第4圖中，安裝座50是固定於車手把12且緊鄰在握把套14與煞車手把座16之間。再如第5圖所示，可以在同一個煞車手把座16上設置兩組非接觸式操作裝置40，這兩組非接觸式操作裝置40分別用來控制不同的功能。此外，如第6圖所示，安裝座50之形狀也可以設計成能夠與煞車手把座16之內周緣相互配合，由於安裝座50的長度增加，所以光感測器60及電源開關56的數量也可以適當的增加，例如在第6圖中是設置三個光感測器60與兩個電源開關56，每一個電源開關56介於相鄰兩個光感測器60之間，如此即可利用不同的電源開關56啟動與其相連接之光感測器60，再透過觸發光感測器60進行後續的功能操控。On the other hand, the non-contact operating device 40 can be adapted to different types of grip sleeves in terms of number, position and structural aspects. For example, in FIG. 4, the mount 50 is secured to the handlebar 12 and is immediately adjacent the grip sleeve 14 and the rider handle 16. As shown in Fig. 5, two sets of non-contact operating devices 40 can be provided on the same driver's seat 16, and the two sets of non-contact operating devices 40 are used to control different functions. In addition, as shown in FIG. 6, the shape of the mount 50 can also be designed to be compatible with the inner circumference of the handlebar seat 16, and since the length of the mount 50 is increased, the light sensor 60 and the power switch 56 are The number may also be appropriately increased. For example, in FIG. 6, three photo sensors 60 and two power switches 56 are provided, and each power switch 56 is interposed between two adjacent photo sensors 60, that is, The different light switches 56 can be used to activate the light sensor 60 connected thereto, and then the trigger light sensor 60 is used for subsequent functional control.

由上述可知，本發明所提供之非接觸式操作裝置40讓騎乘者藉由手部動作就能夠準確且迅速地對光感測器60完成觸發動作，並且再利用電源開關56對光線變化的感應控制，使光感測器60在騎乘者有需要時才會被啟動，藉以避免長時間耗電而達到延長使用壽命的效果。It can be seen from the above that the non-contact operating device 40 provided by the present invention enables the rider to accurately and quickly perform the triggering action on the photo sensor 60 by the hand movement, and reuses the power switch 56 to change the light. Inductive control enables the light sensor 60 to be activated when the rider needs it, in order to avoid long-term power consumption and achieve an extended service life.

請再參閱第7圖，在本發明第5實施例中，前述實施例所使用的非接觸式操作裝置40是用接觸式操作裝置70加以取代，詳而言之，接觸式操作裝置70具有一安裝座80、二觸控感測器90，以及一電源開關92。Referring to FIG. 7, in the fifth embodiment of the present invention, the non-contact operating device 40 used in the foregoing embodiment is replaced by a contact operating device 70. In detail, the contact operating device 70 has a The mount 80, the two touch sensors 90, and a power switch 92.

安裝座80固定於套體20之握持部22的內側端且具有一觸控面82、二設於觸控面82之觸控位置感知部84與一設於觸控面82之電源位置感知部86，其中，觸控位置感知部84相較於觸控面82可以具有不同的形狀、高度或摩擦力，舉例來說，觸控位置感知部84可以設計成凹弧面或者在表面佈設多數摩擦凸點，重點在於方便讓騎乘者的拇指可以明確地感覺到觸控位置感知部84的所在位置，電源位置感知部86相較於觸控面82及觸控位置感知部84具有不同的形狀、高度或摩擦力，例如可以將電源位置感知部86的位置設計成比較高，重點也是方便讓騎乘者的拇指可以明確地感覺到電源位置感知部86的所在位置。The mounting seat 80 is fixed to the inner side of the grip portion 22 of the sleeve 20 and has a touch surface 82, a touch position sensing portion 84 disposed on the touch surface 82, and a power position sensing portion disposed on the touch surface 82. In the portion 86, the touch position sensing portion 84 can have different shapes, heights, or frictional forces than the touch surface 82. For example, the touch position sensing portion 84 can be designed as a concave curved surface or a majority on the surface. The frictional bumps are focused on the fact that the thumb of the rider can clearly sense the position of the touch position sensing portion 84. The power position sensing portion 86 has different characteristics than the touch surface 82 and the touch position sensing portion 84. The shape, height or friction, for example, the position of the power source position sensing portion 86 can be designed to be relatively high, with an emphasis on facilitating the rider's thumb to clearly sense the position of the power source position sensing portion 86.

觸控感測器90埋設於安裝座80之觸控面82且對應於安裝座80之觸控位置感知部84，用以感測騎乘者之一觸控動作而發送一感測訊號。The touch sensor 90 is embedded in the touch surface 82 of the mount 80 and corresponds to the touch position sensing portion 84 of the mount 80 for sensing a touch action of the rider and transmitting a sensing signal.

電源開關92設置在安裝座80之觸控面82且對應於安裝座80之電源位置感知部86內且電性連接觸控感測器90。在本實施例中，電源開關92是以光控開關為例(但不此為限)，主要是藉由內部之光敏電阻感應外在的光線變化來啟動或關閉觸控感測器90。The power switch 92 is disposed on the touch surface 82 of the mount 80 and corresponding to the power position sensing portion 86 of the mount 80 and electrically connected to the touch sensor 90. In the present embodiment, the power switch 92 is exemplified by a light control switch (but not limited thereto), and the touch sensor 90 is activated or deactivated by sensing an external light change by an internal photoresistor.

在實際操作的過程如同前述非接觸式操作裝置40，換言之，騎乘者先將拇指放置在安裝座80之電源位置感知部86將電源開關92遮蔽住，使電源開關92同時啟動兩個觸控感測器90，在啟動之後，由於安裝座80之電源位置感知部86相較於觸控面82及觸控位置感知部84具有不同的形狀、高度或摩擦力，所以這時候的騎乘者可以很清楚的感覺到拇指的所在位置，接著再依照騎乘上的需求將拇指往前或往後滑移至安裝座80之其中一個觸控位置感知部84，即可對設置在此一觸控位置感知部84內之觸控感測器90進行觸發，當觸控感測器90被觸發之後會立即發送一感測訊號至中央控制器，使中央控制器根據所接收到的訊號完成相對應的功能操作，例如變速檔位切換或座管高度調整，並將最後調整的結果經由軟性顯示器26顯示出來。一旦完成操作之後，騎乘者可以再將拇指移回安裝座80之電源位置感知部86，使電源開關92將觸控感測器90加以關閉，如此即可讓觸控感測器90在不使用時能夠保持在關閉狀態，以避免產生耗電的問題。The actual operation process is the same as the aforementioned non-contact operation device 40. In other words, the rider first places the thumb on the power position sensing portion 86 of the mount 80 to shield the power switch 92, so that the power switch 92 simultaneously activates the two touches. The sensor 90 has a different shape, height or friction than the touch surface 82 and the touch position sensing portion 84 after the start, since the power position sensing portion 86 of the mount 80 has different shapes, heights, or frictional forces. The position of the thumb can be clearly felt, and then the thumb is swept forward or backward according to the demand of the ride to one of the touch position sensing portions 84 of the mount 80, and the touch can be set at this touch. The touch sensor 90 in the position sensing unit 84 triggers, and when the touch sensor 90 is triggered, a sensing signal is sent to the central controller immediately, so that the central controller completes the phase according to the received signal. Corresponding functional operations, such as shift gear shifting or seat tube height adjustment, and the results of the final adjustment are displayed via the flexible display 26. Once the operation is completed, the rider can move the thumb back to the power position sensing portion 86 of the mount 80, causing the power switch 92 to turn off the touch sensor 90, so that the touch sensor 90 is not It can be kept off when in use to avoid power consumption problems.

另一方面，接觸式操作裝置70亦可以配合不同形式的握把套而在數量、位置及結構態樣方面有不同的變化。例如在第8圖中，安裝座80是固定於車手把12且緊鄰在握把套14與煞車手把座16之間。再如第9圖所示，可以在同一個煞車手把座16上設置兩組接觸式操作裝置70，這兩組接觸式操作裝置70分別用來控制不同的功能。此外，如第12圖所示，安裝座80之形狀也可以設計成能夠與煞車手把座16之內周緣相互配合，由於安裝座80的長度增加，所以觸控感測器90及電源開關92的數量也可以適當的增加，例如在第10圖中是設置三個觸控感測器90與兩個電源開關92，每一個電源開關92介於相鄰兩個觸控感測器90之間，如此即可利用不同的電源開關92啟動與其相連接之觸控感測器90，再透過觸控感測器90進行後續的功能操作。On the other hand, the contact operating device 70 can also be adapted to different types of grip sleeves in terms of number, position and structural aspects. For example, in FIG. 8, the mount 80 is secured to the handlebar 12 and is immediately adjacent the grip sleeve 14 and the rider handle 16. As shown in Fig. 9, two sets of contact operating devices 70 can be provided on the same driver's seat 16, which are used to control different functions. In addition, as shown in FIG. 12, the shape of the mount 80 can also be designed to be compatible with the inner circumference of the handlebar seat 16, and since the length of the mount 80 is increased, the touch sensor 90 and the power switch 92 are provided. The number may also be increased as appropriate. For example, in FIG. 10, three touch sensors 90 and two power switches 92 are provided, and each power switch 92 is interposed between two adjacent touch sensors 90. In this way, the touch sensor 90 connected thereto can be activated by using the different power switches 92, and then the subsequent functional operations are performed through the touch sensor 90.

由上述可知，本發明所提供之接觸式操作裝置70藉由安裝座80的特殊結構設計，讓騎乘者可以準確且迅速地對觸控感測器90完成觸發動作，另外再利用電源開關92對光線變化的感應控制，使觸控感測器90在騎乘者有需要時才會被啟動，藉以避免長時間耗電而達到延長使用壽命的效果。It can be seen from the above that the contact type operating device 70 provided by the present invention allows the rider to accurately and quickly perform the triggering action on the touch sensor 90 by using the special structural design of the mounting seat 80, and further utilizes the power switch 92. The inductive control of the light change causes the touch sensor 90 to be activated when the rider needs it, in order to avoid the long-term power consumption and achieve the effect of prolonging the service life.

10‧‧‧自行車握把套10‧‧‧Bicycle grip

20‧‧‧套體20‧‧‧

22‧‧‧握持部22‧‧‧ grip

24‧‧‧突出部24‧‧‧Protruding

26‧‧‧軟性顯示器26‧‧‧Soft display

28‧‧‧輸入模組28‧‧‧Input module

30‧‧‧生理狀態感測器30‧‧‧ Physiological sensor

40‧‧‧非接觸式操作裝置40‧‧‧ Non-contact operating device

50‧‧‧安裝座50‧‧‧ Mounting

52‧‧‧感應部52‧‧‧Induction Department

54‧‧‧開關部54‧‧‧Switch Department

56‧‧‧電源開關56‧‧‧Power switch

60‧‧‧光感測器60‧‧‧Light sensor

70‧‧‧接觸式操作裝置70‧‧‧Contact operating device

80‧‧‧安裝座80‧‧‧ Mounting

82‧‧‧觸控面82‧‧‧ touch surface

84‧‧‧觸控位置感知部84‧‧‧ Touch Position Sensing Department

86‧‧‧電源位置感知部86‧‧‧Power Position Sensing Department

90‧‧‧觸控感測器90‧‧‧Touch sensor

92‧‧‧電源開關92‧‧‧Power switch

第1圖為本發明第1實施例之立體圖，主要顯示軟性顯示器在未啟動之狀態。 第2圖為本發明第1實施例之另一立體圖，主要顯示軟性顯示器在啟動後之狀態。 第3圖為本發明第1實施例之操作示意圖。 第4圖為本發明第2實施例之平面圖。 第5圖為本發明第3實施例之平面圖。 第6圖為本發明第4實施例之平面圖。 第7圖為本發明第5實施例之立體圖。 第8圖為本發明第6實施例之平面圖。 第9圖為本發明第7實施例之平面圖。 第10圖為本發明第8實施例之平面圖。Fig. 1 is a perspective view showing a first embodiment of the present invention, mainly showing a state in which the flexible display is not activated. Fig. 2 is another perspective view showing the first embodiment of the present invention, mainly showing the state of the flexible display after startup. Figure 3 is a schematic view showing the operation of the first embodiment of the present invention. Figure 4 is a plan view showing a second embodiment of the present invention. Figure 5 is a plan view showing a third embodiment of the present invention. Figure 6 is a plan view showing a fourth embodiment of the present invention. Figure 7 is a perspective view showing a fifth embodiment of the present invention. Figure 8 is a plan view showing a sixth embodiment of the present invention. Figure 9 is a plan view showing a seventh embodiment of the present invention. Figure 10 is a plan view showing an eighth embodiment of the present invention.

10‧‧‧自行車握把套 10‧‧‧Bicycle grip

20‧‧‧套體 20‧‧‧

22‧‧‧握持部 22‧‧‧ grip

24‧‧‧突出部 24‧‧‧Protruding

26‧‧‧軟性顯示器 26‧‧‧Soft display

28‧‧‧輸入模組 28‧‧‧Input module

30‧‧‧生理狀態感測器 30‧‧‧ Physiological sensor

40‧‧‧非接觸式操作裝置 40‧‧‧ Non-contact operating device

50‧‧‧安裝座 50‧‧‧ Mounting

52‧‧‧感應部 52‧‧‧Induction Department

54‧‧‧開關部 54‧‧‧Switch Department

56‧‧‧電源開關 56‧‧‧Power switch

60‧‧‧光感測器 60‧‧‧Light sensor

Claims (10)

一種可即時顯示資訊之自行車握把套，包含有：一套體，具有一握持部與一突出部，該握持部用來套設於一車手把而供騎乘者握持，該突出部自該握持部之外側端往上延伸而出；一軟性顯示器，嵌設於該套體之突出部內，用以顯示行車資訊；以及一輸入模組，嵌設於該套體之突出部內且連接該軟性顯示器，用以供一騎乘者對該軟性顯示器進行操控；其中，當該軟性顯示器在未啟動時，該套體在外觀上會呈現一致性而看不出來有該軟性顯示器的存在，當該軟性顯示器在啟動之後，該軟性顯示器才會展現顯示效果。 A bicycle grip cover capable of displaying information in real time, comprising: a set body having a grip portion and a protruding portion, the grip portion being sleeved on a handlebar for gripping by a rider, the protrusion a portion extending upward from the outer end of the grip portion; a flexible display embedded in the protruding portion of the sleeve for displaying driving information; and an input module embedded in the protruding portion of the sleeve And connecting the flexible display for a rider to control the flexible display; wherein, when the flexible display is not activated, the cover is consistent in appearance and the presence of the flexible display is not visible When the soft display is activated, the soft display will display the display effect. 如請求項1所述之可即時顯示資訊之自行車握把套，更包含有一生理狀態感測器，該生理狀態感測器設於該套體且連接一中央控制器，用以感測該騎乘者之生理狀態而發送一感測訊號，並藉由該軟性顯示器顯示該生理狀態感測器的感測結果。 The bicycle grip cover capable of displaying information immediately according to claim 1 further includes a physiological state sensor disposed on the sleeve and connected to a central controller for sensing the ride. A sensing signal is sent by the physiological state of the passenger, and the sensing result of the physiological state sensor is displayed by the flexible display. 如請求項1所述之可即時顯示資訊之自行車握把套，更包含有一非接觸式操作裝置，該非接觸式操作裝置具有一安裝座與二光感測器，該安裝座設於該套體且具有二呈間隔設置之感應部，該二光感測器分別埋設於安裝座之一該感應部內，用以感測該騎乘者之一手部動作而發送一感測訊號，並藉由該軟性顯示器顯示該光感測器的感測結果。 The bicycle grip cover capable of displaying information in real time as described in claim 1 further includes a non-contact operation device having a mount and a two-light sensor, the mount being disposed on the sleeve And having two sensing portions arranged at intervals, wherein the two photo sensors are respectively embedded in one of the sensing portions of the mounting seat for sensing a hand motion of the rider to send a sensing signal, and by using the sensing signal The soft display shows the sensing result of the light sensor. 如請求項3所述之可即時顯示資訊之自行車握把套，其中該光感測器為光遮斷器或紅外線感應器。 The bicycle grip cover capable of displaying information immediately according to claim 3, wherein the photo sensor is a photo interrupter or an infrared sensor. 如請求項3所述之可即時顯示資訊之自行車握把套，其中該手部動作為手部停留在該安裝座之感應部的位置、手部相對該安裝座之感應部揮動的方向或手部停留在該安裝座之感應部的時間。 The bicycle grip cover capable of displaying information in real time as claimed in claim 3, wherein the hand movement is a position where the hand stays at the sensing portion of the mounting seat, and a direction or hand in which the hand is swung relative to the sensing portion of the mounting seat. The time when the part stays in the sensing part of the mount. 如請求項3所述之可即時顯示資訊之自行車握把套，其中該非接觸式操作裝置更具有一電源開關，該安裝座更具有一介於該二感應部之間之開關部，該電源開關設於該安裝座之開關部且連接各該光感測器。 The bicycle grip cover capable of displaying information in real time as described in claim 3, wherein the non-contact operation device further has a power switch, and the mount further has a switch portion between the two sensing portions, the power switch device The light sensor is connected to the switch portion of the mount. 如請求項1所述之可即時顯示資訊之自行車握把套，更包含有一接觸式操作裝置，該接觸式操作裝置具有一安裝座與二觸控感測器，該安裝座設於該套體且具有一觸控面與二設於該觸控面之觸控位置感知部，該觸控感測器設於該安裝座之觸控面且對應於該安裝座之觸控位置感知部，用以感測該騎乘者之一觸控動作而發送一感測訊號，並藉由該軟性顯示器顯示該觸控感測器的感測結果。 The bicycle grip cover capable of displaying information in real time according to claim 1 further includes a contact operation device having a mounting seat and two touch sensors, wherein the mounting seat is disposed on the sleeve body And having a touch surface and a touch position sensing portion disposed on the touch surface, the touch sensor is disposed on the touch surface of the mount and corresponding to the touch position sensing portion of the mount, A sensing signal is sent to sense a touch action of the rider, and the sensing result of the touch sensor is displayed by the flexible display. 如請求項7所述之可即時顯示資訊之自行車握把套，其中該安裝座之觸控位置感知部相較於該安裝座之觸控面具有不同之形狀、高度或摩擦力。 The bicycle grip cover capable of displaying information immediately according to claim 7, wherein the touch position sensing portion of the mount has different shapes, heights or frictional forces than the touch surface of the mount. 如請求項7所述之可即時顯示資訊之自行車握把套，其中該接觸式操作裝置更具有一電源開關，該安裝座更具有一設於該觸 控面之電源位置感知部，該電源開關設於該安裝座之觸控面且對應於該安裝座之電源位置感知部且電性連接該二觸控感測器。 The bicycle grip cover capable of displaying information in real time as claimed in claim 7, wherein the contact type operating device further has a power switch, and the mounting seat further has a touch The power position sensing portion of the control surface is disposed on the touch surface of the mounting seat and corresponding to the power position sensing portion of the mounting base and electrically connected to the two touch sensors. 如請求項9所述之可即時顯示資訊之自行車握把套，其中該安裝座之電源位置感知部相較於該安裝座之觸控面及該安裝座之觸控位置感知部具有不同之形狀、高度或摩擦力。 The bicycle grip cover capable of displaying information immediately according to claim 9, wherein the power position sensing portion of the mount has a different shape than the touch surface of the mount and the touch position sensing portion of the mount , height or friction.