五、新型說明: 【新型所屬之技術領域】 [0001] 本創作有關於一種立式雙面結構多點檢測之轉動平 衡機,其包括旋轉組、檢測組、組合框體所構成,主要 用於檢測工件偏移位置的狀泥,可用設置在轉轴兩端的 偏差感測器來得知工件偏移仇置者。 【先前技術】 [_ 按H技術之「平衡檢測機之修正結構」如中華 民國專利申請案第G96220523號,—種平衡檢 測機之修正結構’該平衡檢測機至少包含: -機體’設有水平定位,轉制物之檢測元件, 檢測元件配接有檢測待_件是否符預設平衡值之測定 元件;其特徵此:該機體中以㈣元件藕接、控制有— 運接部及-修正。卩’ 4運接部設有挪移部及旋夹部,然 該待測物件如不科預設平衡值時,則運接部以挪移部 位移待測物件離開檢測元件至預定位置由旋夾部抓固; 而該修正部可设有一位移部及一加工部,且修正部則以 位移部將加工部至預定位置修正待測物件者。 其上述構件,雖是用直立式的調整裝置,但是大都 在檢測上僅能檢測單一面,較無法檢測待測物件雙面的 偏移位置,或疋可測量雙面的機台無法針對教雹的待測 物進行單一面測量偏移位置的動作者。 【新型内容】 [0003] 其上述習用的技術,所設置直立式的調整裝置,但 是大都在檢測上僅能檢測單一面,較無法檢測待測物件 表單编號A0101 第3頁/共12頁 雙面的偏移位置,或是可測量雙面的機台無法針對教雹 的待測物進行單一面測量偏移位置的動作者。 本創作主要目的在於提供一種立式雙面結構多點檢 測之轉動平衡機,係用轉軸偏心旋轉兩端搖晃較大的特 性,來檢測工件的偏移位置,以達多點檢測之作用者。 為達前揭之目的,本創作立式雙面結構多點檢測之 轉動平衡機,在組合框體内設置兩框架,在兩框架的一 端均設置有偏差感測器,藉由轉軸偏心旋轉兩端搖晃較 大的特性,讓偏差感測器的探針可測得工件的偏差狀況 ,本創作立式雙面結構多點檢測之轉動平衡機至少包括 旋轉組、檢測組、組合框體所構成,該旋轉組,係由馬 達、承置板、傳動皮帶、解碼器所組成,其馬達,係提 供檢測組旋轉動力的物件,在馬達的一端設置有承置板 ,其承置板可與組合框體相組合,以固定支撐馬達,在 馬達的兩端設置有傳動皮帶,可帶動檢測組之旋轉軸與 解碼器,其解碼器可將工件偏移的角度顯示在電腦螢幕 上;該檢測組,係由框架、旋轉軸,偏差感測器所組成 ,其在組合框體上下兩面均可設置有框架,其兩框架中 ί 間處設置貫穿兩框架之旋轉軸,其旋轉軸一端設置有組 合部可與待測物相組合,在兩框架一側均設置有偏差感 測器,其偏差感測器可將檢測旋轉軸的偏差狀況;該組 合框體,係供旋轉組、檢測組相組合設置的物件者。 【實施方式】 / 本創作之立式雙面結構多點檢測之轉動平衡機,〔 請參閱第一圖〕其包括旋轉組(1)、檢測組(2)、 表單編號Α0101 第4頁/共12頁 [0004] 組合框體(3)所構成;其中: 旋轉組(1),係由馬達(^丄)、承置板(工2 )、傳動皮帶(1 3)、解碼器(丄4)所組成,其馬 達(11),係提供檢測組(2)旋轉動力的物件,在 馬達(11)的一端設置有承置板(12),其承置板 (1 2)可與組合框體(3)相組合,以固定支撐馬達 (1 1 ),在馬達(1 1 )的兩端均設置有傳動皮帶( 1 3),可帶動檢測組(2)之旋轉轴(2 2)與解碼 器(14),其解碼器(14)可將工件偏移的角度顯 示在電腦螢幕上; 檢測組(2),〔請一併參閲第二圖〕係由框架( 2 1 )、旋轉轴(2 2),偏差感測器(2 3)所組成 ,其在組合框體(3)上下兩面均可設置有框架(2 1 ),其兩框架(21)中間處設置貫穿兩框架(21) 之旋轉軸(2 2),其旋轉軸(2 2) —端設置有組合 部(2 2 1 )可與待測物相組合,在旋轉軸(2 2 )中 間處設置有齒輪(2 2 2),可與旋轉組(1)之傳動 皮帶(1 3)相組設,以帶動旋轉轴(2)之旋轉,在 兩框架(2 1) —側均設置有偏差感測器(2 3),在 偏差感測器(23)的一端設置有探針(231),可 探測旋轉轴(2 2)的偏移位置,可將檢測到旋轉軸( 2 2)的偏差狀況傳遞給電腦判斷並進行校正; 組合框體(3),係供旋轉組(1 )、檢測組(2 )相 組合設置的物件者。 使用實施立式雙面結構多點檢測之轉動平衡機時’V. New type description: [New technology field] [0001] The present invention relates to a rotary double balancing machine for multi-point detection of a double-sided structure, which comprises a rotating group, a detecting group and a combined frame, and is mainly used for The mud that detects the offset position of the workpiece can be known by the deviation sensor disposed at both ends of the rotating shaft. [Prior Art] [_ According to the H technology, the "correction structure of the balance detector", such as the Republic of China patent application No. G96220523, the correction structure of the balance detector - the balance detector includes at least: - the body is provided with a level Positioning, the detecting component of the rotating object, the detecting component is matched with the measuring component for detecting whether the component is a preset balance value; and the feature is as follows: (4) the component is connected, controlled, and transported by the (4) component. 4' 4 transporting portion is provided with a shifting portion and a rotating clamp portion. If the object to be tested is not preset to the balance value, the transporting portion shifts the object to be tested from the detecting portion to the predetermined position by the shifting portion to the predetermined position. The correcting portion may be provided with a displacement portion and a processing portion, and the correction portion corrects the object to be tested by the processing portion to the predetermined position by the displacement portion. Although the above-mentioned components use an upright adjustment device, most of them can only detect a single surface in detection, and it is impossible to detect the offset position of both sides of the object to be tested, or the machine that can measure both sides cannot be used for teaching. The object to be tested is the actor of the single-sided measurement of the offset position. [New content] [0003] The above-mentioned conventional technology, the vertical adjustment device is provided, but most of them can only detect a single surface in the detection, and it is impossible to detect the object to be tested. Form No. A0101 Page 3 / Total 12 pages The offset position of the surface, or the measurable operator of the double-sided machine that cannot measure the offset position of the single object on the object to be tested. The main purpose of this creation is to provide a vertical double-sided structure multi-point detection rotary balancing machine, which uses the characteristics of the eccentric rotation of the rotating shaft to shake the large position to detect the offset position of the workpiece, so as to achieve the role of multi-point detection. In order to achieve the purpose of the previous disclosure, the vertical double-sided structure multi-point detection rotary balancing machine has two frames in the combined frame body, and a deviation sensor is arranged at one end of the two frames, and the rotating shaft is eccentrically rotated by two The large shaking characteristic of the end allows the probe of the deviation sensor to measure the deviation of the workpiece. The rotary balancing machine of the vertical double-sided structure multi-point detection comprises at least a rotating group, a detecting group and a combined frame. The rotating group is composed of a motor, a bearing plate, a transmission belt and a decoder. The motor is provided with an object for detecting the rotational power of the group, and a bearing plate is arranged at one end of the motor, and the bearing plate can be combined with the bearing plate. The frame body is combined to fix the supporting motor, and a driving belt is arranged at both ends of the motor to drive the rotating shaft and the decoder of the detecting group, and the decoder can display the angle of the workpiece offset on the computer screen; the detecting group The frame is composed of a frame, a rotating shaft and a deviation sensor, and a frame can be arranged on both upper and lower sides of the combined frame, and a rotating shaft passing through the two frames is arranged between the two frames, and the rotating shaft thereof The combination part is provided at one end to be combined with the object to be tested, and a deviation sensor is disposed on one side of the two frames, and the deviation sensor can detect the deviation condition of the rotation axis; the combined frame is for the rotation group, The object of the set combination is detected. [Embodiment] / The vertical double-sided structure multi-point detection rotary balance machine of this creation, [see the first figure] includes the rotation group (1), the detection group (2), the form number Α 0101, page 4 / total Page 12 [0004] The combination frame (3) is composed; wherein: the rotating group (1) is composed of a motor (^丄), a bearing plate (work 2), a transmission belt (1 3), and a decoder (丄4 The motor (11) is provided with an object for detecting the rotation force of the group (2), and a receiving plate (12) is provided at one end of the motor (11), and the receiving plate (12) can be combined with the frame The body (3) is combined to fix the supporting motor (1 1 ), and a driving belt (1 3) is disposed at both ends of the motor (1 1 ) to drive the rotating shaft (2 2) of the detecting group (2) and a decoder (14) whose decoder (14) can display the angle of the workpiece offset on the computer screen; the detection group (2), [please refer to the second figure] is framed (2 1 ), rotated The shaft (2 2) is composed of a deviation sensor (23), and a frame (2 1 ) can be disposed on both upper and lower sides of the combined frame body (3), and the two frames (21) are disposed at the middle of the two frames ( 21) The rotating shaft (2 2), the rotating shaft (2 2) is disposed at the end with a combination portion (2 2 1 ) that can be combined with the object to be tested, and a gear (2 2 2) is disposed at the middle of the rotating shaft (2 2 ) It can be combined with the transmission belt (1 3) of the rotating group (1) to drive the rotation of the rotating shaft (2), and the deviation sensor (2 3) is disposed on both sides of the two frames (2 1). A probe (231) is disposed at one end of the deviation sensor (23) to detect the offset position of the rotation axis (22), and the deviation condition of the detected rotation axis (2 2) can be transmitted to the computer for judgment and Correction; The combination frame (3) is for the object set by the combination of the rotation group (1) and the detection group (2). When using a rotary balancing machine that implements vertical double-sided structure multi-point detection
〔請參閱第三圖〕首先將待測物(4)與旋轉軸(2 2 表單编號 A0101 ^ 5 I/# 12 I )、σ邻(2 2 1 )相固設,當待測物(4)固定後 啟動旋轉M ( 1 ),並使馬達(1 1 )轉動並同時帶動 傳動土帶(13) ’使設置在馬達(11)上下端的傳 動皮帶(1 3 )分別㈣解碼器(i 4 )與旋轉軸(2 2)之齒輪( 2 2 2 ),使解碼器(14)與旋轉軸( 2 2)得以運轉,當旋轉軸(2 2)經傳動皮帶(工3 )牵引齒輪(222)轉動後’則與旋轉軸(2 2)之 ”且&邓(2 2 1 )相固定的待測物(4 )同時轉動,〔 請-併參閱第四圖〕並由設置在檢測組(2)之框架( 2 1 )兩側的偏差感應器(2 3)進行偏差訊號的傳遞 並由電胳自動校正偏移位置,當待測物件(4)厚度 小於工件半徑時,則可使用單-偏差感測H ( 2 3 )來 量測偏移位置,若待測物(4)的厚度大於工件半徑時 ’則可用設置在兩框架(2工)上的偏差感測器(2 3 )同時量測偏差位置,以增加在量測上的精準度,其本 創作亦可配合不同厚度的待測物(4),來讓使用者依 據工件的需求做單一面的平衡檢測或雙面的動平衡檢測 者。 其優點在於,藉由設置在檢測組(2)之兩框架( 2 1 )側邊的偏差檢測器(2 3),來量測不同厚度的 待測物(4),並可在同一機台上作單一面的檢測與雙 面的動平衡檢測者。 綜上所述,當知本創作具有新穎性,且本創作未見 之於任何刊物,當符合專利法第9 3、Θ 4條之規定。 唯以上所述者,僅為本創作之一較佳實施例而已, 當不能以之限定本創作之範圍。即大凡依本創作申請專 表單編號A0101 第6頁/共12頁 M381Q65 利範圍所作之均等變化與修飾,皆應仍屬本創作專利涵 蓋之範圍内。 【圖式簡單說明】 [0005] 第一圖:本創作之立體外觀示意圖 第二圖:本創作之剖面示意圖 第三圖:本創作之作動示意圖 第四圖:本創作之剖面作動示意圖 [0006] 【主要元件符號說明】 1 旋轉組 1 1 馬達 12 承置板 1 3 傳動皮帶 14 解碼器 2 檢測組 2 1 框架 2 2 旋轉軸 2 2 1 組合部 2 2 2 齒輪 2 3 偏差感測器 3 組合框體 4 待測物[Please refer to the third figure] First, the object to be tested (4) is fixed with the rotating axis (2 2 form number A0101 ^ 5 I/# 12 I ) and σ adjacent (2 2 1 ), when the object to be tested ( 4) After the rotation, start the rotation M ( 1 ), and rotate the motor (1 1 ) and simultaneously drive the drive belt (13) 'to make the drive belt (1 3 ) set at the upper and lower ends of the motor (11) respectively (four) decoder (i 4) With the gear (2 2 2) of the rotating shaft (2 2), the decoder (14) and the rotating shaft (2 2) are operated, and when the rotating shaft (2 2) is pulled by the transmission belt (working 3) ( 222) After the rotation, the object to be tested (4) fixed with the rotating shaft (2 2) and & Deng (2 2 1 ) is simultaneously rotated, [Please - and refer to the fourth figure] and set by the detection The deviation sensor (2 3) on both sides of the frame (2 1) of the group (2) transmits the deviation signal and automatically corrects the offset position by the electric motor. When the thickness of the object to be tested (4) is smaller than the radius of the workpiece, Use the single-deviation sensing H ( 2 3 ) to measure the offset position. If the thickness of the object to be tested (4) is larger than the radius of the workpiece, then the deviation sensor set on the two frames (2 working) can be used. 3) Simultaneous amount The position of the deviation to increase the accuracy of the measurement, the creation can also be combined with the different thickness of the object to be tested (4), so that the user can do the balance detection of the single surface or the dynamic balance detection of the double side according to the requirements of the workpiece. The advantage is that the object to be tested (4) of different thicknesses can be measured by the deviation detector (23) disposed on the side of the two frames (2 1 ) of the detection group (2), and can be in the same The single-sided inspection and the double-sided dynamic balance detector are on the machine. In summary, when the creation of the book is novel, and the creation is not seen in any publication, it complies with the Patent Law No. 9 3, Θ 4 The provisions of the article are only the preferred embodiment of the present invention, and the scope of the creation cannot be limited by it. That is, the application form number A0101 of the creation application is the sixth page / a total of 12 pages M381Q65 The equal changes and modifications made by the scope of interest shall remain within the scope of this creation patent. [Simplified illustration] [0005] The first picture: the three-dimensional appearance of the creation, the second picture: the schematic diagram of the creation Three pictures: a schematic diagram of the creation of this creation Figure 4: Schematic diagram of the profile of the creation [0006] [Description of the main components] 1 Rotating group 1 1 Motor 12 Bearing plate 1 3 Drive belt 14 Decoder 2 Detection group 2 1 Frame 2 2 Rotary shaft 2 2 1 Combination Part 2 2 2 gear 2 3 deviation sensor 3 combination frame 4 object to be tested
表單編號A0101 第7頁/共12頁Form No. A0101 Page 7 of 12