M294951 八、新型說明: 【新型所屬之技術領域】 一 本創作係有關於一種跑步機步態分析裝置,、 立檢測出使用者左、右腳之步伐距離及時間々曰—種可分別獨 用者速度進而控制跑步機之速度,而且 9 &制為§十异出使 步行復健上者。 顺取之步態崎能應用於 【先前技術】 「按’習知跑步機可控制跑帶速度之褒置如公告編號··伽伽之 跑步運動機追加-」,具有一跑步架主體、—扶手部、一 -馬達、-跑辨及-後撐料基本構件,係麵终兩側之踏 =二械個以上之偵測裝置,該等偵測裝置以—發射端與一接收 &為-組,分別裝置在跑步帶之左、右相對應側,利用光遮斷方式, 以足部遮斷發射端與接收端間之通絲_使用者的運練況。作使 用光遮斷方式作檢測工具,並無法正確測出使用者是以單腳或是雙腳 踩踏於跑步^L,亦無法觸使用者鑛光線的是左腳奴右腳,以 =無法檢測正確的數據予控制器作賴分析。其次,f知案控制跑步 帶轉速,主要係以跑者位在基準點之前侧或後侧作為依據,但以跑者 所^位置财鮮麵知跑者當時賴,贿⑽者位錢步帶基準 “'、占則方或後方,並不能準確地反映出跑者當時速度,以位置控制跑步 帶轉速會產生誤差。 /有鑑於此,本創作人乃針對上述習知之缺失加以進行研究改良 後而有本創作問世。 M294951 【新型内容】 緣是,本創作之主要目的係在提供—種可分別獨立檢 者左、右聊之步伐距離及_,再藉_軸 吏用 自主控制跑嫩速度,而且,所觀 ,者連度進而 復健上之跑步機步態分析裝置。 仃 柚作主要舰做··齡機之触左、右_分職有可獨 ^測之非接觸式檢測器,用以隨時檢測左、右兩駿部位置,依牛 伐距離及時間隨時計算使用者當時速度進而自主控制跑步機速度,= 且’所獲取之步n分減魏制於步行復健上者。 【實施方式】 有關本創作為達成上述目的、功效所採用之技術手段及結構, 錄舉-較佳可行實_並配合圖式詳細朗如下,俾使審查委 於瞭解本發明之產生。 請參閱第一圖所示,本創作主要具有—定點設置之跑板10,及 繞在跑板料側之齡帶u。辭㈣被騎_繞著跑板10位 移,一電子儀表板20及-面向使用者之扶手桿3〇,扶手桿3〇上具 有觸式上升檢· 31及—非接觸式下降檢·犯,可調整跑 板10前端之傾斜角度。本創作之主要改良係在·· 請參閱第二圖所示,在跑板10左、右兩側分別裝設數只非接觸 式檢測器12,每只檢測器12均獨立感測,可分職測使用者左、右 聊之運動狀況。前、後兩端之檢測區⑽、LQ2、腿、及u5、 L16、R15、R16)屬危險區域檢測用,當使用者腳部落在危險區域時, M294951 铋測士為12可經由軟體程式向使用者提出預警,以防止發生意外。 使用¥ ’使用者在跑步帶u上不論係踏步或走步或跑步,使用者在跑 板10上又聊之著地位置及聊部位移行徑,皆可受到檢測器12檢測出 2用者之步伐轉、所花時間及速度,再經—控繼計算後控制跑步 ▼ η作迷度碰,俾制者速度可自主控制跑步機之速度。例如作跑 步運動時,切掌落於LG5(檢靡)向後經LG6及U1後抬起,此時 .兩腳在空中停留一小段時間,之後右腳掌再落於祕,向後經咖至 • R11後抬起,週而復始,控制器依使用者左右腳行進距離及所花費時 間,即可計算出使用者當時跑步速度,控制器再依使用者跑步速度控 制跑步帶速度,故使用者可自主控制跑步機速度,不需以手觸壓電: 儀表板20即能控制,使用上極為方便。又因檢測器12隨時檢測使用 者步伐,因此,使用者之速度域或贿,跑步機之速度皆可隨著使 用者速度而作調整’不虞個者速度與跑步帶速度不—造成跑步時不 順遂及跌倒之現象產生。 .在運動中,若要調整跑板1〇之傾斜角度,使用者只需將手向前 擺動,使手部靠近扶手桿30上之上升檢測器31或下降檢測器%, 當上升檢測器31感應到使用者手部的揮動時,跑板1〇之前端高度即 上升;當下降檢測器32錢到使用者手部的揮動時,跑板1〇之前端 高度即下降。因此,使用者可依自己的喜好需求隨時調整跑板ι〇之 傾斜角度,實為方便。 因本創作檢測器12均為獨立感測,非習知成對之發射端與接收 端所組成,且分為左、右兩侧,故可分別偵測使用者左、右腳部運動 M294951 狀況, 設: 因而取得使用者步態分析的 重要參數。請參閱第 二圖所示,假 r為步行週期,即同腳連續兩次腳跟著地所需的時間。 β.為站立期,即腳跟著地到腳拇指離地所需的時間。 。為擺_ ’即腳拇指離地到下次腳跟著地所需的時間。 D .為跨步伐距離,腳跟著地到下—次娜著地的距離。 Ε 為步伐距離,腳跟著地到另一腳跟著地的距離。M294951 VIII. New description: [New technical field] A creation department has a gait analysis device for treadmills, and detects the distance and time of the left and right feet of the user. The speed of the treadmill then controls the speed of the treadmill, and the 9 & Shun gait can be applied to [previous technology] "According to the 'Training machine can control the speed of the running belt, such as the bulletin number · · gamma running machine added -", with a main body of the treadmill, The armrest part, the one-motor, the running-recognition and the rear-supporting basic component, the treads on the two sides of the treading surface are more than two mechanical detection devices, and the detecting devices are - transmitting end and receiving & - The group is respectively arranged on the left and right corresponding sides of the running belt, and the light blocking method is used to block the wire-to-user operation condition between the transmitting end and the receiving end by the foot. Using the light interception method as the detection tool, it is impossible to correctly detect that the user is stepping on the running ^L with one foot or both feet, and the left foot is not the right foot of the user. The correct data is given to the controller for analysis. Secondly, the f-knowledge control of the running belt speed is mainly based on the runner's position on the front side or the back side of the reference point, but the runner's position is known as the freshman's face, and the bribe (10) is the money step. The benchmark “', the square or the rear does not accurately reflect the speed of the runner at the time, and the position control of the running belt speed will produce errors. / In view of this, the author has studied and improved the lack of the above-mentioned conventional knowledge. M294951 [New content] The main purpose of this creation is to provide the distance and _ of the left and right chats that can be independently checked by the independent examiner, and then use the _ axis to control the running speed. And, in view of the situation, the person who is connected to the gait analysis device of the treadmill in the rehabilitation. The pomelo is the main ship to do. · The left and right of the aging machine have a non-contact detector that can be tested separately. In order to detect the left and right positions of the head at any time, calculate the speed of the user at any time according to the distance and time of the cow, and then control the speed of the treadmill autonomously, = and 'the step of obtaining n points is reduced by the system of walking rehabilitation. [Embodiment] Yes The technical means and structure adopted in order to achieve the above objectives and functions, the recordings - preferably feasible _ and the details of the drawings are as follows, so that the review committee can understand the production of the present invention. The creation mainly has a running board 10 set at a fixed point, and an age belt u around the running board material side. The words (4) are riding _ around the running board 10, an electronic instrument panel 20 and a handrail lever facing the user 3〇, the handrail bar has a touch-up detection 31 and a non-contact type drop detection, and the inclination angle of the front end of the running board 10 can be adjusted. The main improvement of the creation is in the second figure. It is shown that a plurality of non-contact detectors 12 are respectively installed on the left and right sides of the running board 10, and each detector 12 is independently sensed, and the motion state of the left and right chats of the user can be separately measured. The detection areas (10), LQ2, legs, and u5, L16, R15, and R16 at both ends are for dangerous area detection. When the user's foot tribe is in a dangerous area, the M294951 铋 士 12 is available to the user via the software program. Early warning to prevent accidents. Use ¥ 'user on running belt u Regardless of whether the step is stepping or walking or running, the position of the user on the running board 10 and the position of the conversation can be detected by the detector 12, and the time and speed of the user are used. After the control is controlled, the running is controlled. η is used as the fandom, and the speed of the controller can control the speed of the treadmill. For example, when running, the palm falls on the LG5 (check) and then lifts up after LG6 and U1. At this time, the two feet stay in the air for a short period of time, then the right foot rests on the secret, and then passes back to the R11 and then lifts up, and the controller starts again. The controller can calculate according to the distance traveled by the user's left and right feet and the time spent. When the user runs at the current speed, the controller controls the speed of the running belt according to the running speed of the user, so the user can control the speed of the treadmill independently, without touching the piezoelectric hand: the instrument panel 20 can be controlled and is extremely convenient to use. Moreover, since the detector 12 detects the user's pace at any time, the user's speed domain or bribe, and the speed of the treadmill can be adjusted according to the user's speed. "The speed of the player is not the speed of the running belt - the running time is not The phenomenon of smoothness and fall occurs. In the movement, if the inclination angle of the running board is adjusted, the user only needs to swing the hand forward so that the hand is close to the ascending detector 31 or the descending detector % on the grab bar 30, when the rise detector 31 When the swing of the user's hand is sensed, the height of the front end of the running board is increased; when the falling detector 32 is swung to the user's hand, the height of the front end of the running board is lowered. Therefore, the user can adjust the tilt angle of the running board at any time according to his own preference, which is convenient. Since the creation detector 12 is independent sensing, the non-known pair of the transmitting end and the receiving end are composed, and are divided into left and right sides, so that the left and right foot movements of the user can be detected respectively, and the M294951 condition is set. : Thus the important parameters of the user's gait analysis are obtained. Referring to Figure 2, the false r is the walking period, which is the time required for the heel to hit the ground twice. β. is the standing period, that is, the time required for the heel to reach the ground and the thumb to leave the ground. . For the pendulum _ ‘that is, the time required for the thumb to leave the ground until the next heel hits the ground. D. For the distance between the steps, the heel touches the ground to the next - the distance of the ground. Ε For the pace distance, the heel strikes the distance from the ground to the other heel.
Tf ·為步頻,每分鐘所走的步次(步/分)。 其中,TA = TB + V D=2E,例如:左腳跟第—次著地到下—次 的距離即為左腳跟第-次著地與右腳跟第—次著地間的距離,再加上 右腳跟第-次著地的距離與左腳跟第二次著地間的距離之總和。 由上列之_可知’本解在使用上至少具有下狀優點及功 效: 1·使用者不需觸按選擇開關,即可自主地控制跑步機速度。 2·使用者不需觸按選擇開關,以左、右手前伸接近上升或下降 檢測器3卜32,即可調整跑板1〇之傾斜角度。 3·非接觸式檢測器12分為左、右兩側,且均為獨立偵測,非 習知利用光麟方式成對之發射端與接收端,故可更準確檢測出使用 者之運動狀況。 綜觀上述,本創作不僅具創作性且具實用性、進步性,依法提 出新型專利申請,懇請惠予核准,實感德便。 M294951 【圖式簡單說明】 第一圖係為本創作實施例之立體圖 第二圖係為本創作實施例跑板檢測器之配置圖 第三圖係為本創作實施例跨步伐距離與步伐距離間之關係示意 圖 附件為習知公告編號第455495號公告影本。 【主要元件符號說明】 10— _跑板 11 —跑步帶 12—檢測器 20— -電子儀表板 30—扶手桿 31—上升檢測器 32- -下降檢測器Tf · is the step frequency, the step taken per minute (step / minute). Where TA = TB + VD=2E, for example: the distance between the left heel and the first landing to the next is the distance between the first heel of the left heel and the first landing of the right heel, plus the right The sum of the distance between the heel's first landing and the distance between the left heel and the second landing. It can be seen from the above that the solution has at least the following advantages and effects in use: 1. The user can control the treadmill speed autonomously without touching the selection switch. 2. The user does not need to touch the selector switch, and the left and right hands can be extended to the ascending or descending detector 3 32 to adjust the tilt angle of the running board 1 。. 3. The non-contact detector 12 is divided into left and right sides, and all of them are independently detected. It is not known to use the optical and versatile pairs of the transmitting end and the receiving end, so that the user's motion condition can be detected more accurately. . Looking at the above, this creation is not only creative, practical, and progressive, but also proposes a new type of patent application in accordance with the law. M294951 [Simplified illustration of the drawings] The first diagram is a perspective view of the present embodiment. The second diagram is the configuration diagram of the running board detector of the present embodiment. The third diagram is the interval between the step distance and the step distance of the present embodiment. The attached diagram of the relationship is a photocopy of the Notice No. 455495. [Main component symbol description] 10— _ running board 11 — running belt 12—detector 20—-electronic instrument panel 30—handrail lever 31—rise detector 32--down detector