M257858 捌、新型說明 (新型說明應敘明:新型所屬之技術領域、先前技術、內容、實施方式及圖式簡單說明) 【新型所屬之技術領域】 本創作係與運動健身器材有關,更詳而言之,係關於 一種應用於運動健身器材之可量測諸如心跳頻率或體脂率 等人體特性之握把。 5 【先前技術】 目前某些較為先進之跑步機、健身腳踏車、登山踏步 機一類之運動健身器材,會在其供人捉握之握把表面設置 導電端子,藉以利用特定之電子電路感測使用者之人體電 10 氣信號(例如電位差變化頻率、電阻值或電容值等),據以 測定出使用者之心跳頻率或體脂率等人體特性,並顯示於 面板上以便使用者運動時隨時掌握身體狀況或了解運動成 效。 在習知之相關技術當中,量測心跳一般乃是令左右兩 15 手各觸接(適度靠近之)二導電端子,藉由偵測人體電位差 變化頻率而得知心跳頻率,而量測體脂率則是令左右兩手 各觸接一導電端子,藉由量測人體之生化電阻值(或電容 值)而換算出體内脂肪率。習用可量測心跳頻率或體脂率 等之運動健身器材,均是在其握把之特定局部,也就是握 20 把設計供使用者左右兩手捉握之二預定部位表面,分別設 置一(或二)導電端子,當使用者正確捉握時即可觸接該二 (或四)導電端子,藉以感測人體電氣信號。舉例而言,一 種習用跑步機之握把呈橫向直桿,其桿面頂側之左右兩半 各於約略中央位置設置二金屬片,當使用者雙手捉握該二 續次頁(新型說明頁不敷使用時,請註記並使用續頁) M257858 新型說明書,續頁 、,置日可即可被1測心跳;另一種習用跑步機之握把整 "呈◦子形,其兩端係先由前往後再往内彎折,並且在 工右相對之_端面上各設—金屬片,當使用者捉握該握把 毛^。卩伤,並以大姆指觸壓端面上之金屬片,即可被 5 量測體脂率。 w述習用結構之缺點在於:其等均將感測用之導電端 子設置於握把表面之局部位置,要求使用者雙手正確地捉 、對應σ卩位,方能進行量測;然而,一般人在使用該類 1運動健身益材時,往往會因個人體型、習慣姿勢或運動程 又勺不同,自然地捉握可能範圍内之最適當位置(某些習 2握把之形狀即係設計供人選擇捉握不同部位);因此, '月述可量測人體特性之習用運動健身器材之握把,無疑限 制了使用者運動姿勢之自由度,使得運動時感覺較為拘 束。 15 【新型内容】 曰本創作之主要目的即在提供一種用於運動健身器材之 可里測人體特性之握把,其優點在於,使用者可依個人體 型、習慣姿勢或運動狀態等因素,選擇捉握該握把可能範 圍内之不同位,而且,無論使用者捉握何處,均可被量 測預定之人體特性值,如此,使用者使用該運動健身器材 之姿勢較不受限制,運動時較為恣意舒適。 為達成前揭目的,本創作提供之用於運動健身器材之 可置測人體特性之握把,係具有可分別供使用者左手及右 -6- M257858 新型說明書 手捉握之-左捉握區及一右捉握區,該二捉握區均沿該握 把之延長方向延伸,且延伸長度係大於使用者之手掌寬 度,亦即使用者可選擇捉握於捉握區上之不同位置;各該 捉握區表面具有沿捉握區延伸之一或二觸接面,當使用者 5捉握該握把時,雙手可分別觸接該二捉握區上之各觸接 面,各該觸接面具有導電性,但彼此之間互不導通,並且 各自電氣連通至該運動健身器材預設之特定處理單元,使 該處理單元可測得使用者之人體電氣信號而將之轉換成對 應之人體特性值。 10 【實施方式】 Μ配合®式舉若干較佳實施例對本創作之結構及功效 進行詳細說明,其中所用圖式先簡要說明如下: 第一圖係本創作第一較佳實施例之結構示意圖; 15 第二圖係沿第一圖中2 —2剖線之剖視圖; 第三圖及第四圖均為本創作第一較佳實施例之使用 狀態圖; 第五圖係本創作第二較佳實施例之結構示意圖; 第六圖係本創作第三較佳實施例之結構示意圖;以 20 及 第七圖係沿第六圖中7一7剖線之剖視圖。 請先參閱第-圖,本創作「用於運動健身器材之可量 測人體特性之握把」之第一較佳實施例在圖中之代表符號 為10,必須先行說明的是,纟實施例所應用之運動健身b M257858 新型說明書;續頁 為材在圖中未予完整繪出,其可能為跑步機、健身腳踏車 (或懶人車)、登山踏步機或其他類似之運動健身器材,該 運動健身器材在大致對應使用者面前之位置設有一基座 (22) ’該基座(22)頂端設有一用以顯示資訊之顯示介面 5 (24)(例如液晶螢幕或數字顯示器)以及一設定介面(26),基 座(22)内部設有一處理單元(28)(電子電路),其可依據測得 之人體電阻值(或電容值)而換算出體内脂肪率,進而透過 該顯示介面(24)顯示該體脂率。(註:以上所述均為習知技 藝。) 10 該握把(10)係由一左把手(11)及一右把手(12)所構成, 该二把手(11)(12)以對稱形式接合於該基座(22)頂端之左右 二側,二者(11)(12)在基座(22)内部並未連結。各把手 (11) (12)概呈L形彎折之長桿,係先由基座(22)橫向往外延 伸適當長度再往上延伸適當長度,而且,各把手(U)(12) 15之橫向區段或縱向區段之延伸長度,均大於一般人之手掌 寬度。藉此,使用者得以雙手捉握左右二把手(11)(12)橫 向區段上之適當位置(如第三圖所示),或以雙手捉握該二 把手(11)(12)縱向區段上之適當位置(如第四圖所示),當 然,亦可其中一手捉握橫向區段,另一手捉握縱向區段。 20 也就是說,在本實施例中,握把(10)之左把手(11)提供一 可讓使用者左手捉握之左捉握區(13),握把(1〇)之右把手 (12) 提供一可讓使用者右手捉握之右捉握區(14),該二捉 握區(13)(14)均呈沿把手(11)(12)延長方向延伸之l形,且 其長度幾近等於把手(11)(12)長度。 -8· M257858 _ 新型說明書H頁 請配合參閱第二圖(即把手〇之斷面圖),各把手 (11)(12)之主體(15)為一斷面呈圓形之管體,其係以絕緣材 料(例如塑膠或纖維複合材料)製成。該管狀主體(15)之表 面一側設有一沿把手(11)(12)延長方向延伸之長形欲槽 5 (16),各嵌槽(16)之延伸範圍對應於前述捉握區(13)(14)之 長度。各把手(11)(12)之嵌槽(16)内均嵌設一具有良好導電 性(例如金屬或導電橡膠)之導電條(17)。各導電條(17)之表 面與把手(11)(12)外周面切齊(亦可略微凸起),,形成一觸接 面(18)。如此,無論使用者捉握把手(11)(12)捉握區 10 (13)(14)上之任何部位,其手部皮膚均可觸及該觸接面 (18)。此外,在前述基座(22)内部,各把手(11)(12)上之導 電條(17)分別利用一導線(19)電氣連通至前述處理單元(28) 之特定輸入端。 藉由上述結構,當使用者在使用該運動健身器材時, 15 可依個人體型、習慣姿勢或運動狀態的不同,自然地將其 左右兩手捉握於該握把(10)左右二把手(11)(12)上之適當位 置,使其能以最輕鬆舒適之姿勢進行運動。而且,無論使 用者捉握把手(11)(12)上之任何位置(當然,係指可能捉握 之捉握區(13)(14)範圍内),雙手可同時觸及該二把手 20 (11)(12)表面之導電條(17)觸接面(18),使得該處理單元 (28)可測得使用者雙手間之生化電阻值(或電容值),據以 換算出使用者之體内脂肪率,並透過該顯示介面(24)顯示 出體脂率供使用者參考。 本創作達成前揭目的之實施方式尚有多種態樣。請參 -9- M257858 _ 新型說明書,續頁 閱第五圖,係本創作第二較佳實施例之握把(30),該握把 (30)之外形大致與前例相同,亦即同樣具有可分別供左右 兩手選擇位置捉握之一左把手(31)及一右把手(32);與前 例不同之處在於,本實施例中之把手(31)(32)主體(33)係以 5 金屬材質製成,使得整個外周面均形成(可導電性地觸接 人體皮膚之)觸接面(34),同時,把手(3 1)(32)内端亦利用 一導線(35)連通至處理單元(42)。如此,使用者捉握該二 把手(31)(32)之任何部位,同樣可被處理單元(42)測得兩手 間之生化電阻值(或電容值),亦即可被量測體脂率。類似 10 本例結構,本創作亦可用絕緣體製作把手主體,再於主體 表面包覆金屬或導電橡膠之導電性外層,同樣可達成前述 功效。 運用類似之技術思想,本創作亦可應用至量測人體心 跳頻率之功能上。請參閱第六圖及第七圖,本創作第三較 15 佳實施例之握把(50)亦是由相隔之一左把手(5 1)及一右把 手(52)所構成,各把手(51)(52)具有一以絕緣材料製成之管 狀主體(53),主體(53)表面上嵌設有橫向平行相隔或縱向 間隔排列之至少二導電條(54),該二導電條(54)之表面各 形成一長條形觸接面(55),當使用者捉握該握把(50)時, 20 左手可同時觸接左把手(51)上之相隔二觸接面(55),右手 可同時觸接右把手(52)上之相隔二觸接面(55);各導電條 (54)分別以一導線(56)電氣連通至處理單元(62)之特定輸入 端。如此,基於習知之測量心跳頻率技術,該處理單元 (62)可感知捉握該握把(50)之使用者之人體電位差變化頻 -10 - M257858 _ 新型說明書續頁 率,據以得知其心跳頻率而將之顯示於顯示介面(64)。當 然,由於使用者雙手均有觸接導電端子,因此該處理單元 (62)若有特定電路設計,應可同時量測使用者之體脂率。 經由以上說明可知,藉由本創作提供之「用於運動健 5 身器材之可量測人體特性之握把」,使用者即可依個人體 型、習慣姿勢或運動狀態等因素,選擇捉握該握把可能範 圍内之不同部位,而且,無論使用者捉握何處,均可被量 測預定之人體特性值,如此,使用者使用該運動健身器材 之姿勢較不受限制,運動時較為恣意舒適。 10 最後必須補充說明的是,本創作達成前述目的之技術 手段,簡要而言即是在握把可供選擇捉握位置之左、右二 捉握區上分別設置互不連通之一或二觸接面,使得使用者 任意捉握均可觸及該二或四觸接面,而能受處理單元測得 人體電氣信號;因此,本創作提供之結構特徵係可應用於 15 各種型式之握把上,並不限於前揭實施例結構。舉例而 言,本創作之握把並非一定是由分隔之左、右二把手所構 成,意謂,其可能僅為單一桿體(例如本案第八圖所示型 式)’只要具有可分別供左右兩手捉握之左捉握區及右捉 握區,且各捉握區上設置沿捉握區延伸之一或二觸接面, 20 該等觸接面彼此不連通並且分別導接至處理單元即可。 11- M257858 _ 新型說明書,續頁 【圖式簡單說明】 第一圖係本創作第一較佳實施例之結構示意圖; 第二圖係沿第一圖中2— 2剖線之剖視圖; 第三圖及第四圖均為本創作第一較佳實施例之使用狀 5 態圖; 第五圖係本創作第二較佳實施例之結構示意圖; 第六圖係本創作第三較佳實施例之結構示意圖;以及 第七圖係沿第六圖中7—7剖線之剖視圖。 10 -12- M257858 【圖式符號說明】 [第一較佳實施例] 10握把 11 左把手 12右把手 13 左捉握區 5 14右捉握區 15 主體 16嵌槽 17 導電條 18觸接面 19 導線 22基座 24 顯示介面 26設定介面 28 處理單元 10 [第二較佳實施例] 30握把 31 左把手 32右把手 33 主體 34觸接面 35 導線 42處理單元 15 [第三較佳實施例] 50握把 51 左把手 52右把手 53 主體 54導電條 55 觸接面 56導線 62 處理單元 20 64顯示介面 新型說明書,續頁 -13-M257858 新型, description of the new type (new type description should state: the technical field of the new type, prior technology, content, implementation, and a brief description of the drawings) [technical field of the new type] This creation is related to sports and fitness equipment, more detailed and In other words, it is about a grip that can be applied to sports fitness equipment to measure human characteristics such as heartbeat frequency or body fat rate. 5 [Previous technology] At present, some of the more advanced sports fitness equipment such as treadmills, exercise bikes, and mountain steppers will have conductive terminals on the grip surface for grasping, so as to use specific electronic circuits for sensing and use. The electrical signal of the human body (such as the frequency of potential difference change, resistance value, or capacitance value, etc.) is used to determine the human body characteristics such as the user's heartbeat frequency or body fat rate, and it is displayed on the panel so that the user can grasp at any time when exercising Physical condition or understanding of exercise effectiveness. In the related related technology, measuring heartbeat is generally to make two left and right hands touch (conductively close to) two conductive terminals, and to know the heartbeat frequency by detecting the frequency of change in the potential difference of the human body, and measuring body fat rate The left and right hands are used to touch a conductive terminal, and the body fat rate is converted by measuring the biochemical resistance value (or capacitance value) of the human body. The conventional sports fitness equipment that can measure the heartbeat frequency or body fat rate are in specific parts of its grip, that is, the grip is designed for users to grasp the surface of two predetermined parts of the left and right hands, and one (or 2) Conductive terminals. When the user grasps them correctly, they can touch the two (or four) conductive terminals to sense the electrical signals of the human body. For example, the grip of a conventional treadmill is a horizontal straight bar, and two left and right halves on the top side of the face are provided with two metal pieces at approximately the center. When the user holds the two pages with both hands (new description) When the page is not enough, please note and use the continuation page.) M257858 New manual, continuation page, and can be measured by the heartbeat when the day is set; another grip of the conventional treadmill is “shaped” with two ends. It is bent from the front to the back inward, and metal pieces are set on the opposite end faces of the right hand side, when the user grasps the grip hair ^. Sting, and touching the metal piece on the end surface with your thumb, you can measure the body fat rate. The disadvantage of the conventional structure is that they all set the conductive terminals for sensing at a local position on the surface of the grip, requiring the user to correctly grasp and correspond to the σ 卩 position with both hands before performing the measurement; however, ordinary people When using this type of sports fitness materials, they will naturally grasp the most appropriate position within the possible range due to their body shape, habitual posture, or exercise course. (The shape of some Xi 2 grips is designed for People choose to grasp different parts); therefore, the grip of the conventional sports fitness equipment that can measure the characteristics of the human body will undoubtedly limit the freedom of the user's movement posture and make him feel more restrained when exercising. 15 [New content] The main purpose of the creation of this book is to provide a grip that can be used to measure human characteristics in sports and fitness equipment. The advantage is that users can choose according to factors such as personal body shape, habitual posture or exercise state. Grasp different positions within the possible range of the grip, and no matter where the user grips, it can be measured with predetermined human characteristics. In this way, the user ’s posture using the exercise fitness equipment is relatively unrestricted It is more deliberate and comfortable. In order to achieve the purpose of the previous disclosure, the grip provided by this creation for measuring the physical characteristics of sports and fitness equipment is provided with a left hand and a right hand for the user. And a right gripping area, both gripping areas extend along the extending direction of the grip, and the extended length is greater than the width of the palm of the user, that is, the user can choose to grip at different positions on the gripping area; Each surface of the gripping area has one or two contact surfaces extending along the gripping area. When the user 5 grips the grip, both hands can touch the contact surfaces on the two gripping areas. The contact surfaces are conductive, but they are not conductive with each other, and each is electrically connected to a specific processing unit preset by the sports fitness equipment, so that the processing unit can measure the electrical signal of the human body of the user and convert it into Corresponding human characteristics. 10 [Embodiment] The structure and effect of this creation will be described in detail in conjunction with several preferred embodiments of the M-type®. The drawings used are briefly explained as follows: The first diagram is a schematic diagram of the structure of the first preferred embodiment of this creation; 15 The second picture is a cross-sectional view taken along the line 2-2 of the first picture; the third and fourth pictures are the use state diagrams of the first preferred embodiment of the present invention; the fifth picture is the second best of this creation Schematic diagram of the embodiment; The sixth diagram is a diagram of the structure of the third preferred embodiment of the present invention; and 20 and the seventh diagram are sectional views taken along the line 7-7 of the sixth diagram. Please refer to the first figure. The first preferred embodiment of this invention "handle for measuring body characteristics of sports fitness equipment" is represented by the symbol 10 in the figure. What must be explained first is: The new manual for sports and fitness b M257858; the continuation sheet is not fully shown in the figure. It may be a treadmill, exercise bike (or lazy bike), climbing stepper or other similar sports fitness equipment. The sports fitness equipment is provided with a base (22) at a position substantially corresponding to the front of the user. The top of the base (22) is provided with a display interface 5 (24) for displaying information (such as an LCD screen or a digital display) and a setting Interface (26), base (22) is provided with a processing unit (28) (electronic circuit), which can convert the body fat rate based on the measured human resistance (or capacitance), and then through the display interface (24) The body fat percentage is displayed. (Note: The above are all known techniques.) 10 The grip (10) is composed of a left handle (11) and a right handle (12), and the second handle (11) (12) is symmetrical. It is connected to the left and right sides of the top of the base (22), and the two (11) (12) are not connected inside the base (22). Each handle (11) (12) is an L-shaped bent long rod, which extends from the base (22) laterally outwardly by an appropriate length and then upwards by an appropriate length, and each of the handles (U) (12) 15 of The extension length of the horizontal section or the vertical section is larger than the palm width of the average person. Thereby, the user can grasp the appropriate position on the horizontal section of the left and right second handles (11) (12) with both hands (as shown in the third figure), or grasp the two handles (11) (12) with both hands. The appropriate position on the longitudinal section (as shown in the fourth figure), of course, you can also grasp the horizontal section with one hand and the vertical section with the other. 20 That is, in this embodiment, the left handle (11) of the grip (10) provides a left gripping area (13) that allows the user to grip with the left hand, and the right grip (10) of the grip (10) 12) Provide a right gripping area (14) that allows a user to grip with his right hand. The two gripping areas (13) (14) are both l-shaped extending along the extending direction of the handle (11) (12), and The length is almost equal to the length of the handle (11) (12). -8 · M257858 _ Please refer to the second figure (the section view of the handle 0) of the new manual for page H. The main body (15) of each handle (11) (12) is a circular tube with a cross section. Made of insulating materials (such as plastic or fiber composites). The tubular body (15) is provided with an elongated desire groove 5 (16) extending along the extension direction of the handle (11) (12) on one side of the surface, and the extension range of each inlay groove (16) corresponds to the aforementioned gripping area (13). ) (14). A conductive strip (17) with good conductivity (such as metal or conductive rubber) is embedded in the recessed groove (16) of each handle (11) (12). The surface of each conductive strip (17) is aligned with the outer peripheral surface of the handle (11) (12) (also slightly convex) to form a contact surface (18). In this way, the skin of the hand can touch the contact surface (18) no matter where the user grips the handle (11) (12) anywhere on the gripping area 10 (13) (14). In addition, inside the aforementioned base (22), a conductive strip (17) on each handle (11) (12) is electrically connected to a specific input terminal of the aforementioned processing unit (28) by a wire (19), respectively. With the above structure, when the user is using the exercise equipment, 15 can naturally grasp his left and right hands on the left and right handles (11) according to the difference in body shape, habitual posture or exercise state. ) (12) in a suitable position to enable it to exercise in the most relaxed and comfortable posture. Moreover, regardless of the position of the user's grasping handle (11) (12) (of course, it refers to the range of the grasping area (13) (14) where it may be grasped), both hands can touch the second handle 20 ( 11) The conductive strip (17) contact surface (18) on the surface, so that the processing unit (28) can measure the biochemical resistance value (or capacitance value) between the user's hands, and convert the user's The body fat percentage, and the body fat percentage is displayed for the user's reference through the display interface (24). There are still many ways to implement this work before the goal is revealed. Please refer to -9- M257858 _ New type manual, see the fifth figure on the continuation page, which is the grip (30) of the second preferred embodiment of this creation. The shape of the grip (30) is roughly the same as the previous example, that is, it also has One left handle (31) and one right handle (32) can be selected for the left and right hands, respectively. The difference from the previous example is that the handle (31) (32) and the main body (33) in this embodiment are 5 It is made of metal material, so that the entire outer peripheral surface forms a contact surface (which can be conductively contacted with human skin). At the same time, the inner end of the handle (3 1) (32) is also connected with a wire (35) to Processing unit (42). In this way, the user grasps any part of the second handle (31) (32), and can also measure the biochemical resistance value (or capacitance value) between the two hands by the processing unit (42), and can also measure the body fat rate. . Similar to the structure of this example, this creation can also use an insulator to make the handle body, and then cover the surface of the body with a conductive outer layer of metal or conductive rubber, which can also achieve the aforementioned effects. Using similar technical ideas, this creation can also be applied to the function of measuring human heartbeat frequency. Please refer to the sixth and seventh figures. The grip (50) of the third and fifteenth best embodiment of this creation is also composed of a left handle (51) and a right handle (52), each handle ( 51) (52) has a tubular main body (53) made of insulating material, and at least two conductive bars (54) arranged in parallel or spaced apart horizontally on the surface of the main body (53), the two conductive bars (54) ) Each has a strip-shaped contact surface (55). When the user grips the grip (50), the left hand can simultaneously contact the two contact surfaces (55) on the left handle (51). The right hand can simultaneously contact the two contact surfaces (55) on the right handle (52); each conductive strip (54) is electrically connected to a specific input terminal of the processing unit (62) by a wire (56). In this way, based on the conventional technology for measuring the heartbeat frequency, the processing unit (62) can sense the change frequency of the human potential difference of the user who grips the grip (50) -10-M257858 _ The heartbeat frequency is displayed on the display interface (64). Of course, since the user has conductive terminals in both hands, if the processing unit (62) has a specific circuit design, it should be able to measure the body fat percentage of the user at the same time. From the above description, it can be known that with the "handle that can measure the characteristics of the human body for sports fitness equipment" provided by this creation, the user can choose to grasp the grip according to factors such as personal shape, habitual posture, or exercise state. The different parts within the possible range, and no matter where the user grips, can be measured the predetermined human characteristics, so that the user's posture using the exercise fitness equipment is relatively unlimited, more deliberate and comfortable when exercising . 10 Finally, it must be added that the technical means to achieve the aforementioned purpose in this creation is, in short, to set up one or two touchless connections on the left and right two gripping areas of the gripping positions to choose from. Surface, so that the user can touch the two- or four-contact surface with any grip, and can be measured by the processing unit's electrical signals; therefore, the structural features provided by this creation can be applied to 15 various types of grips, It is not limited to the structure of the previously disclosed embodiment. For example, the grip of this creation does not necessarily consist of separate left and right handles, meaning that it may be a single lever (such as the type shown in Figure 8 of this case). The left and right grasping areas grasped by both hands, and each grasping area is provided with one or two contact surfaces extending along the grasping area. 20 These contact surfaces are not connected to each other and are respectively connected to the processing unit. Just fine. 11- M257858 _ New type manual, continuation sheet [Simplified description of the drawings] The first drawing is a structural schematic diagram of the first preferred embodiment of this creation; the second drawing is a cross-sectional view taken along the line 2-2 of the first drawing; the third The figure and the fourth figure are state diagrams of the first preferred embodiment of the present invention. The fifth figure is a schematic diagram of the structure of the second preferred embodiment of the present invention. The sixth figure is the third preferred embodiment of the present invention. The schematic diagram of the structure; and the seventh figure is a sectional view taken along the line 7-7 of the sixth figure. 10 -12- M257858 [Illustration of Symbols] [First Preferred Embodiment] 10 Grip 11 Left Handle 12 Right Handle 13 Left Grip Area 5 14 Right Grip Area 15 Main Body 16 Recessed Slot 17 Conductive Bar 18 Touch Surface 19 lead 22 base 24 display interface 26 setting interface 28 processing unit 10 [second preferred embodiment] 30 grip 31 left handle 32 right handle 33 main body 34 contact surface 35 lead 42 processing unit 15 [third preferred Example] 50 grip 51 left handle 52 right handle 53 main body 54 conductive strip 55 contact surface 56 lead 62 processing unit 20 64 display interface new manual, continued page 13-