201229477 六、發明說明: 【發明所屬之技術領域】 -種自動校驗方法及其裝置,特财_—種數位式的扭力 工具的自動校驗方法及其裝置。 【先前技術】 板手工具是细槓桿原簡·工件進行扳動,達到扭緊或 旋鬆的效果,而得藉由_件纽、組合各類產業的零組件,一 般工業成叩因結構差異喊要制各式_件,施以強弱不同的 扭力組裝固定。例如重工業的航空、造船與轎車,其零組件得施 度的扭力絲才能成就堅實結構,承受氣壓、動力的衝 電子機械’其零組件就不能以過大的扭力 作使用;無論何種工業成品,在以螺固件組 失去效用二鳩—綠力’ __結構與螺固件 =1魏,祕手工具正是扮翰她力的_,板手工 Ζ ==她她力嶋小,,細發的 可Μ成其♦、航空運輸11而言,職件的鬆脫有極大 了月成其運作故障或零件損壞、 物損失或嚴重的意和 氣脫相通’而釀成巨大的財 為能確保板手工具在扭緊蟫 因此在板手工具上更設置了扭力、過財均是相_施力, * 扭力偵測元件。使用者可以在扭緊蟫 固件時,可以從板手工具的顯 有J以在扭I、螺 力大小。 、早凡巾4知每:J:扭緊顧件的施 201229477 i_為此確保扭力卫具的彳貞測正確性,所以在扭力I具出場時 均會進行校驗的動作。請參考「第1A圖」與「第1B圖=所心 :其係分別為習知技術之數位式扭力板手之校驗示意圖。在測試 _時’首先將數位式扭力工具11〇擺放置測試機台12〇,並固定數位 式扭力工具110的棘輪頭與握持部。接著,使用者通過測試機台 120上的轉輪哺動來軸縣部,並赠輪頭為軸錢行板手的 扭緊動作。使用者可以再由轉輪所輸出的施力與扭力工具所顯示 #的扭力相比對。當兩數值誤差過大時,再由人工修改扭力工具的 扭力參數。但是這樣的校驗方式,不僅浪費時間而且也難以達到 測量標準一致化的目的。 而域位式扭力王具11G中的各項.元件也讀著時間盘使用 次數而改變。但數位式扭力工具n〇的輸出顯示卻不會跟著調整。 廷樣一來’原本數位式扭力工具110在出廠時是可以正確顯示的 扭力輸出值。在經過—段時間後,由於數位式扭力工具110的彈 瞻f生疲纟所以可能僅會輸出更低的扭力,但數位式扭力工具 上卻無法正確的顯示其數值。 【發明内容】 馨於以上_題,本發财於提供—種自動校驗方法,對數 位式扭紅具所輸出扭力之檢驗與相關參數的校正處理。 本發明所贿之自滅财法包細τ步驟:織位式扭力 工具文裝至測試機台之中’·在校驗計算财運行校驗程序:校驗 计异機根據預設扭力值令測試機台驅動數位式扭力工具,藉以產 201229477 生扭力輸出值,·校驗計算機接收來自於數位式 出值’並判斷扭力輸出值與預 〃 ’丑〜 扭力值與扭力輸出值不符合門艦值時, 力工1 具發峨輯,肋纖_紅^==扭 驅 爐Γ當校驗計算機在完成上述調整後,校驗計算機會重複 動轉動概位式扭紅具絲得修改後的扭力輸紐之步驟, 直至扭力輸出值符合門捏值為止。 本發㈣提出自動校驗裝置包括:數位式扭力工具、測試機 〜权驗計算機。峨機台肋絲數位式扭力工具,並由測試 機。驅動數位式扭力工具,藉以產生扭力輸出值;校驗計算機電 性連接於測試機台;校驗計算機根據預設扭力值令測試機台驅動 數位式扭力J1具’校驗計算機接絲自於數位式扭力玉具的扭力 輸出值;若預設扭力值與扭力輸出值不符合門檻值時,則校驗計 機向數位式扭力工具發出調校訊號,用以調整數位式扭力工具 的扭力參數值。 本發明提供一種自動校驗方法及其裝置,用以對數位式扭力 工具所輸出扭力之檢驗與相關參數的自動校正處理,可以降低人 工操作所造成的誤差並提高整體制試效率。 有關本發明的特徵與實作,茲配合圖式作最佳實施例詳細說 明如下。 【實施方式】 凊參考「第2A圖」所示,其係為本發明之自動校驗裝置之方 201229477 =。在本發明的自動校驗裝置至少包括:測試機台2iG與校驗 ^异機咖。測試機台別提供數位式扭力工具⑽進行模擬扭轉 : '、牛$袠垅(其洋細結構請參考後文)。校驗計算機220電性連接 ;於測試機台21G,並驅動測試機台210對數位式扭力工具23〇進行 扭轉測試。在本發明中的數位式扭力工具现的種類可以是但不 '限定為扭力板手或扭力起子。 在本發明的數位式扭力工具23〇中除了扭力工具的本體外更 •包括扭力偵測單元23卜訊號存取端W32細示單元233。扭力 偵測單元231分別連接於訊號存取端口说與顯示單元233。當數 位式扭力具23〇被操作時’扭力伽〗單元231會侧數位式扭 力工具230當前的扭力值,並於顯示單元233上播放扭力值或是 透過訊號存取端口 232發送該扭力值至其他裝置。而訊號存取端 口 232之種類係為Rs_232傳輸介面、萬用序列匯流排(Universai Serial Bus,USB)、乙太網路(Ethernet)、光纖傳輸介面、紅外線傳 φ 輸;丨面(in丘ared)、藍芽無線傳輸介面(Bluetooth)或超寬頻傳輸介面 (Ultra wideband,UWB)之任一。 測試機台210用以安裝數位式扭力工具230,並由測試機台 210驅動數位式扭力工具230’藉以產生扭力輸出值。測試機台21〇 可以根據不同的數位式扭力工具230提供不同的安裝方式。校驗 計算機220可以由伺服器、個人電腦(pC)、筆記型電腦或是内嵌 式系統(embedded system)所實現。在本發明中測試機台210與校驗 計算機220除了可以是各自獨立的裝置外,也可以將校驗計算機 201229477 220整合至測試機台210中,如「第2B圖」與「第2C圖」所示, 其係為本發明的另一種測試機台的實施態樣方塊示意圖與平面 圖。 以下貫施悲樣係以各自獨立的測試機台21〇與校驗計算機 220作為說明。在校驗計算機22〇中用以運行自動校驗程序22ι、 驅動消m機台210進行不同的施力測試與對數位式扭力工具23〇 的扭力參數健行校驗。校驗計賴22G根據預設扭力值令測試 機口 21〇驅動數位式扭力工具MO。校驗計算機no接收來自於數 位式扭力工具23G的扭力輸出值’並判斷扭力輸出值是否符合所 設定的門檻值。請參考「第3圖」所示,其係為本發明之自動校 驗程序的運作流程示意圖。 步驟S31G .絲紐式扭力卫具至測試機台; v驟S32G .於板料异機上運行校驗程序,使校驗計算機連 接於數位式扭力工具; 步驟S330 ·权驗計算機根據預設扭力值令測試機台驅動數位 式扭力工具,藉以產生扭力輸出值; 步驟S340 :校驗計算機接收來自於數位式扭力工具的扭力輸 出值,並判斷扭力輸出值與預設扭力值是否符合 門才監值; 步驟S35G .若預設扭力值與扭力輸出值符合門檻值時,則由 才父驗計算機輸出測試數據檔; 步驟S360:若預設扭力值與扭力輸出值不符合值時,則 201229477 校驗計算機向數喊扭紅纖訊號,用 _整錄妨权具触力參數值 ,並判斷數 位式扭力1具之驅動次數是否超過校驗計算機 - 所設定的測試回合數;以及 步驟S37G .若數位式扭缸具的戦缝超過職回合數, 貝止;k驗數位式扭力工具’並由校驗計算機輸 —試㈣紐m魏行扭力錄值的調整 Φ 與校驗。 為能錢朗本㈣之整體運作方式,在本實_帽數位 ^杻力工具23〇以數位式扭力板手·為例進行說明。並請參考 第4A圖」所示’其係為本發明之自動校驗裝置之平面圖。數位 ,扭力板手240的兩端分別為棘輪頭241與握持部242。在數位式 扭力板手在模擬扭緊螺固件的過程中,扭力偵測單元况可 ’測每絲動時職生的扭力大小。 _ 1測試機台21〇中更包翻服驅動裝置211、扭力計213與固定 =214。當伺服驅動裝置211運轉時,可崎動扭力計犯進行旋 ^的動作。舰驅動裝置211可精確的控制輸出扭力與釋放扭力 動作。 將數位式扭力板手的握持部242固接於固定部214,而棘 頭241卡制於扭力計213。當伺服驅動裝置211運行時,則以棘 輪碩241為軸心’而握持部撕為力f。所以棘輪·】在進行 動將ik即產生-扭力輸出值(對應步驟S3i〇)。 201229477 成數位式扭力板手24〇的安裝後,即可在校驗計算機220 上開始運行校驗程序(對應步驟S32〇)。在自動校驗程序22ι中可 以由級4异機220設定對數位式扭力板手·所施加的扭力 值疲勞亂式-人數、測試機台參婁文、門檻值、測量單位與操作語 系。或者,操作者可以透過校驗計算機挪自行設絲位式扭力 板手240的扭力值及上、下限值。一般而言,在自動校驗程序功 可以呈現多種的狀態顯示。例如:在自動校驗程序221的顯示晝 面上可以顯示數位式扭力板手的輸出扭力值係為“低”、“合 格與“高”的各種警示視窗。此外,在自動校驗程序221中對 於預設扭力_上/下限魏可錄據肋繼所規範的校驗方 式’自動計算數位式扭力板手240的校驗比例⑽如:預設扭力值 的100%、60%或20%)及容許誤差。 首先,权驗計算機220透過數位式扭力板手24()的訊號存取 端口 232進行連線的動作。在校驗計算機22〇完成與數位式扭力 板手240的連線,校驗計算機22〇根據預設扭力值,並以扭力計 213為軸心連帶轉動棘輪頭241,藉以取得轉動時的輸出扭力值(對 應步驟S330)。 數位式扭力板手240於此同時會透過訊號存取端口 232將輸 出扭力值傳送到校驗計算機220。校驗計算機220在接收來自於數 位式扭力板手240的扭力輸出值後會判斷扭力輸出值與預設扭力 值是否符合門檻值(對應步驟S340)。請參考「第4B圖」所示,其 係為校驗計算機顯示預設扭力值與輸出扭力值之示意圖。 201229477 預5又扭力值與扭力輸出值符合門檻值時,則由校驗計算機 220輸出測試數據檔(對應步驟S35〇)。在測數據檔中記錄了數位式 : 扭力板手240的扭力參數值的修改歷程。若預設扭力值與扭力輸 綠不符合門檻辦,舰驗計算機220向數位式扭力板手24〇 發出峨訊號’用以調整數位式扭力板手24〇的扭力參數值,並 達到校驗計算機220與數位式扭力板手24〇的雙向溝通的機制消 應步驟S360)。特別值得注意的是,本發明調整數位式扭力板手 鲁240的方式除了可以在每次測試後即刻言周整,也可以是完成所有回 合的測試後才進行調整。 ~在itb假設校驗計算機22G賴設扭力值為则,而校驗 计异機220所接收到的扭力輸出值為2〇〇(Nm)。校驗計算機咖 向數位式扭力板手240發出調校訊號。請參考「第4c圖」所示, 其係為校驗計算機校正完輸出扭力值後之示意圖。對於調整扭力 j值的方式可赌據各測試回合所接收到的扭力輸出值,校驗 癱。1^; 220會域每姻試回合的預設扭力储扭力輸出值間的 差異里產生新的對應關係式。校驗計算機22〇在利 ^來紅數位式扭力板手施的輸出扭力值。其t,對應^ 式可以疋線性關係或非線性關係式。 、當數位式扭力板手⑽在完成新的扭力參數值的奴後,數 式扭力板手240會畴—完成訊號至校驗計算機跡校驗計瞀 機220會再驅動測試機台21〇,再對數位式扭力板手進行上述 的施力測謎。 ^ 201229477 若數位式扭力板手240的測試次數超過測試回合數,則停止 校驗數位式扭力板手240 (對應步驟S370)。以避免數位式扭力板 手240本身存在嚴重缺陷,使得整體測試無法順利結束。因此, 在本發明的自動校驗程序221中會設定終止測試的條件。 使用者可以透過校驗計算機22G輸入所欲進行的測試回合次 數(至少-次)。舉例來說,使用者若是設定測試回合數為十次^, 校驗計算機⑽會重複設定扭力參紐十次制停止自動校驗的 動作。同理’若是使用者設定測試回合數為兩次,校驗計算機22〇 會重複設定扭力參數制次制停止自練驗_作。在停止校 驗後,會由校驗計算機220輸出測試數據檔。若數位式扭力板^ 240的測試次數未超過測試回合數,則繼續進行上述步驟的扭力參 數值的調整與校驗。 除了每一次調整的實施態樣外,本發明也可以對數位式扭力 板手240在完成所有測試回合後,校驗計算機22〇彳根據歷次所 接收的扭力輸出值進行一次性的調整。假設測試回合數為十次, 校驗計算機22G會重複十次的驅動測試機台21()對數位式扭力工 八240進行扭轉的測試。在每一次扭轉測試,數位式扭力板手mo 會回傳扭力輸出值給校驗將機22Q。在完成所有的測試回合後, 技驗计异機220會根據扭力輸出值的歷程資料發送—調校訊號, 用以調校數位式扭力板手240的扭力參數值。 誠如上述所α,在進行數位式扭力板手Mo的扭力輸出值可 以疋線性或非線性的對細係。在此係赠性關係的調教作為舉 12 201229477 。假设測試回合數為三次,而三次預設扭力 11〇(N.m)與〗2〇(Km)。如果數位式扭力板手 例’但不僅侷限於此 值分別為100(N.m)、 三次所測得的扭力輸出值為99(N.m)、l〇8(N.m)與119(N.m), f輸出給校驗計料22G。校驗計»220會逐-比對兩者的差異 置’並選擇透過線性_(或非線性_計算差異量的比例。在此 例子中’可以明顯的看出扭力輸出值的誤差是為線性關係。因 此校驗計算機220會發出調校訊號給數位式扭力板手240,藉以將201229477 VI. Description of the invention: [Technical field to which the invention pertains] - Automatic verification method and device thereof, and special method for automatic verification of torque tools of digital type and device thereof. [Prior Art] The wrench tool is a thin lever and the workpiece is pulled to achieve the effect of tightening or unscrewing. It is necessary to use _pieces, combine components of various industries, and general industrial factors. Shouting to make all kinds of _ pieces, applying different strengths to assemble and fix. For example, in heavy industry aviation, shipbuilding and cars, the components of the torque can be used to achieve a solid structure. The parts that can withstand the pressure and power can not be used with excessive torque; no matter what kind of industrial products, In the screw firmware group, the utility model is lost. The green force ' __ structure and the screw firmware = 1 Wei, the secret hand tool is to dress up her strength _, the board is hand Ζ == she is small, fine hair Can be reduced to its ♦, air transport 11, the loosening of the job has greatly reduced its operational failure or parts damage, material loss or serious intentions and gas and dissociation 'to make a huge wealth to ensure the wrench The tool is tightened, so the torque is set on the wrench tool, and the money is the same as the force applied. * Torque detection component. When the user tightens the firmware, the user can display the J from the wrench tool to twist the I and the screw. Everything is as follows: J: Tighten the application of the piece 201229477 i_To ensure the correctness of the torsion aid, the calibration will be performed when the torque I is on the scene. Please refer to "1A" and "1B" = the heart: the calibration diagram of the digital torsion wrench of the prior art. In the test _, the digital torque tool 11 〇 is placed first. The machine 12 is fixed, and the ratchet head and the grip portion of the digital torque tool 110 are fixed. Then, the user feeds the shaft county through the runner on the test machine 120, and gives the wheel head as the axis money wrench. The tightening action of the user can be compared with the torque of the torque indicator displayed by the torque tool. When the two numerical errors are too large, the torque parameter of the torque tool is manually modified. The method of inspection is not only a waste of time but also difficult to achieve the purpose of standardization of measurement standards. The components of the domain-type torque master 11G also read the number of times of use of the time disk. However, the output of the digital torque tool n〇 The display will not follow the adjustment. The original sample of the digital torque tool 110 is a torque output value that can be correctly displayed at the factory. After a period of time, due to the stretch of the digital torque tool 110 So can Can only output lower torque, but the digital torque tool can not correctly display its value. [Summary of the content] Xin is above the above _ questions, this wealth is provided by an automatic verification method, the digital twist The test of the output torque and the correction of the relevant parameters. The self-destruction method of the invention is τ step: the weaving tool of the torque tool is loaded into the test machine. : The calibration meter makes the test machine drive the digital torque tool according to the preset torque value, so as to produce the 201229477 torque output value, and the calibration computer receives the value from the digital position and judges the torque output value and the preview. Ugly ~ When the torque value and the torque output value do not meet the door value, the force 1 has a hairpin, the rib fiber _ red ^== the twist drive furnace. When the calibration computer completes the above adjustment, the verification computer will repeat Rotate the positional torsion red wire with the modified torque input step until the torque output value meets the door pinch value. The fourth (4) proposed automatic calibration device including: digital torque tool, test machine ~ weight calculation The machine rib wire digital torque tool is used by the test machine to drive the digital torque tool to generate the torque output value; the calibration computer is electrically connected to the test machine; the calibration computer is based on the preset torque value. The table drive digital torque J1 has the torque output value of the 'calibration computer wire from the digital torque jade; if the preset torque value and the torque output value do not meet the threshold value, the calibrator to the digital torque tool The calibration signal is sent to adjust the torque parameter value of the digital torque tool. The invention provides an automatic calibration method and a device thereof, which are used for the test of the output torque of the digital torque tool and the automatic correction processing of related parameters, The error caused by the manual operation is reduced and the overall test efficiency is improved. The features and implementations of the present invention will be described in detail below with reference to the preferred embodiment. [Embodiment] Referring to "2A", It is the side of the automatic calibration device of the present invention 201229477 =. The automatic verification device of the present invention includes at least: a test machine 2iG and a verification machine. The test machine does not provide a digital torque tool (10) for analog torsion: ', 牛$袠垅 (for details of the fine structure, please refer to the following). The calibration computer 220 is electrically connected; on the test machine 21G, and the test machine 210 is driven to perform a torsion test on the digital torque tool 23A. The type of digital torque tool in the present invention may be, but is not limited to, a torsion wrench or a torque driver. In the digital torque tool 23 of the present invention, in addition to the body of the torque tool, the torque detecting unit 23 includes a signal access terminal W32 to indicate the unit 233. The torque detecting unit 231 is connected to the signal access port speaking and display unit 233, respectively. When the digital torque device 23 is operated, the torque vector 231 will be the current torque value of the digital torque tool 230, and the torque value is displayed on the display unit 233 or the torque value is transmitted through the signal access port 232 to Other devices. The type of signal access port 232 is Rs_232 transmission interface, universal serial bus (USB), Ethernet, optical fiber transmission interface, infrared transmission φ transmission; ), Bluetooth wireless transmission interface (Bluetooth) or Ultra Wideband (UWB). The test machine 210 is used to mount the digital torque tool 230, and the test machine 210 drives the digital torque tool 230' to generate a torque output value. The test machine 21 〇 can provide different mounting methods according to different digital torque tools 230. Verification The computer 220 can be implemented by a server, a personal computer (PC), a notebook computer, or an embedded system. In the present invention, the test machine 210 and the verification computer 220 may be integrated into the test machine 210, such as "2B" and "2C", in addition to being independent devices. Shown is a block diagram and a plan view of an embodiment of another test machine of the present invention. The following sorrows are described by separate test machines 21 and verification computer 220. In the verification computer 22A, the automatic verification program 22i is operated, the driving machine 210 is driven to perform different force application tests, and the torque parameter of the digital torque tool 23 is checked. The calibration and counting 22G drives the test port 21 to drive the digital torque tool MO according to the preset torque value. The verification computer no receives the torque output value ' from the digital torque tool 23G' and judges whether or not the torque output value satisfies the set threshold value. Please refer to "Figure 3", which is a schematic diagram of the operation process of the automatic verification program of the present invention. Step S31G. Silk-type torsion aid to test machine; v-S32G. Run verification program on the plate machine to connect the verification computer to the digital torque tool; Step S330 · The right machine is based on the preset torque The value of the test machine drives the digital torque tool to generate the torque output value; Step S340: The calibration computer receives the torque output value from the digital torque tool, and determines whether the torque output value and the preset torque value meet the door supervision Value; Step S35G. If the preset torque value and the torque output value meet the threshold value, the test data file is output by the parental test computer; Step S360: If the preset torque value and the torque output value do not match the value, then 201229477 Check the computer to call the red fiber signal, use the _ transcript to determine the value of the force parameter, and determine whether the number of driving times of the digital torque exceeds the number of test cycles set by the calibration computer - and step S37G. The quilting of the digital torsion cylinder exceeds the number of occupational rounds, and the squeezing of the digital torque tool is performed by the calibration computer. Test. In order to be able to operate the overall operation of Qian Langben (4), the actual _cap number ^ 杻力工具 23 〇 with digital torque wrenches as an example to illustrate. Please refer to FIG. 4A for a plan view of the automatic verification device of the present invention. In the digital position, the two ends of the torsion wrench 240 are a ratchet head 241 and a grip portion 242, respectively. In the process of digital torque wrenches in the simulation of tightening the screw firmware, the torque detection unit can measure the torque of the employee during each movement. The _ 1 test machine 21 更 is further provided with a turning drive device 211, a torque meter 213 and a fixed = 214. When the servo driving device 211 is operated, the rugged torque meter can perform the action of rotating the screw. The ship drive unit 211 can precisely control the output torque and the release torque action. The grip portion 242 of the digital torsion wrench is fixed to the fixing portion 214, and the ratchet 241 is engaged with the torque meter 213. When the servo driving device 211 is operated, the grip portion is torn as the force f with the ratchet 241 as the axis. Therefore, the ratchet is generated by the ik-torque output value (corresponding to step S3i〇). 201229477 After the installation of the digital torque wrench 24〇, the calibration program can be started on the verification computer 220 (corresponding to step S32〇). In the automatic verification program 22i, the digital torsion wrench can be set by the level 4 special machine 220. The applied torque value is fatigued-number, the test machine parameter, the threshold value, the measurement unit, and the operating language. Alternatively, the operator can set the torque value and the upper and lower limits of the wire-type torque wrench 240 by the calibration computer. In general, the automatic verification program can display a variety of status displays. For example, on the display surface of the automatic verification program 221, various warning windows in which the output torque value of the digital torque wrench is "low", "qualified" and "high" can be displayed. In addition, in the automatic verification program 221 For the preset torque _ upper / lower limit Wei can record the rib according to the standard calibration method 'automatic calculation of the digital torsion wrench 240 calibration ratio (10) such as: preset torque value of 100%, 60% or 20%) and allow First, the verification computer 220 performs the connection operation through the signal access port 232 of the digital torque wrench 24(). After the verification computer 22 completes the connection with the digital torque wrench 240, the verification computer 22〇 According to the preset torque value, and the torque meter 213 is used as the shaft center to rotate the ratchet head 241, thereby obtaining the output torque value when rotating (corresponding to step S330). The digital torque wrench 240 is also accessed through the signal at the same time. The port 232 transmits the output torque value to the verification computer 220. After receiving the torque output value from the digital torque wrench 240, the verification computer 220 determines whether the torque output value and the preset torque value meet the threshold value. Step S340). Refer to FIG "Figure 4B", which is a system diagram showing a computer check torque values and output torque of a preset value. 201229477 When the pre-5 torque value and the torque output value meet the threshold value, the verification computer 220 outputs the test data file (corresponding to step S35). The digit type is recorded in the measured data file: The modification history of the torque parameter value of the torsion wrench 240. If the preset torque value and the torque output green do not meet the threshold, the ship inspection computer 220 sends a 峨 signal to the digital torque wrench 24 用以 to adjust the torque parameter value of the digital torque wrench 24 ,, and achieve the verification computer The mechanism of the two-way communication between the 220 and the digital torsion wrench 24〇 is step S360). It is particularly noteworthy that the method of adjusting the digital torque wrench Lu 240 of the present invention can be adjusted only after each test, or after all the tests of the round are completed. ~ At itb, it is assumed that the calibration computer 22G has a torque value, and the torque output value received by the calibrator 220 is 2 〇〇 (Nm). The calibration computer café sends a calibration signal to the digital torque wrench 240. Please refer to "Fig. 4c", which is a schematic diagram of the calibration computer after correcting the output torque value. For the method of adjusting the torque j value, the torque output value received by each test round can be gambling. 1^; A new correspondence is generated in the difference between the preset torque storage torque output values of each of the 220 sessions. The output torque value of the computer 22 is measured by the red-digit digital torsion plate. Its t, the corresponding formula can be a linear relationship or a nonlinear relationship. When the digital torsion wrench (10) completes the new torque parameter value, the digital torque wrench 240 will complete the signal-to-calibration computer trace calibration device 220 will drive the test machine 21〇, The above-mentioned force test is performed on the digital torsion wrench. ^ 201229477 If the number of tests of the digital torque wrench 240 exceeds the number of test rounds, the digital torque wrench 240 is stopped (corresponding to step S370). In order to avoid serious defects in the digital torque wrench 240 itself, the overall test cannot be successfully ended. Therefore, the condition for terminating the test is set in the automatic verification program 221 of the present invention. The user can input the number of test rounds to be performed (at least - times) through the verification computer 22G. For example, if the user sets the number of test rounds to ten times, the verification computer (10) will repeatedly set the torque to stop the automatic calibration operation ten times. Similarly, if the user sets the number of test rounds twice, the calibration computer 22〇 will repeat the setting of the torque parameter system to stop the self-testing. After the test is stopped, the test data file is output by the verification computer 220. If the number of tests of the digital torsion plate ^ 240 does not exceed the number of test turns, the adjustment and verification of the torque parameter values of the above steps are continued. In addition to the implementation of each adjustment, the present invention can also perform a one-time adjustment of the computer 22 〇彳 based on the torque output values received by the digital torsion wrench 240 after all test passes have been completed. Assuming that the number of test rounds is ten, the verification test machine 21 () will repeat the ten-time test of the digital torque tester. In each torsion test, the digital torsion wrench mo will return the torque output value to the verification machine 22Q. After all the test rounds are completed, the technical counter 220 transmits a calibration signal based on the history data of the torque output value to adjust the torque parameter value of the digital torque wrench 240. As the above α, the torque output value of the digital torsion wrench Mo can be linear or non-linear. In this case, the training of the relationship is given as a measure 12 201229477. Assume that the test round is three times, and the three preset torques are 11 〇 (N.m) and 〖2 〇 (Km). If the digital torque plate example is 'but not limited to this value is 100 (Nm), the torque output value measured three times is 99 (Nm), l〇8 (Nm) and 119 (Nm), f output to Check the material 22G. The calibrator »220 will compare the difference between the two and select the ratio through the linear _ (or non-linear _ calculate the difference. In this case, it can be clearly seen that the error of the torque output value is linear Relationship. Therefore, the verification computer 220 will send a calibration signal to the digital torque wrench 240, thereby
數位式扭力板手的輸出顯示調整為原來的丨桃(其係為舉例 說明的概略計算方式為⑽+(_)_))。所讀位式扭力板手 細在經過調整後,原本應該為_.m)但輸出為99(Nm),就會 被修正成 99(N.m)*l.〇i%%1〇〇(Nm)。 曰 本發明提供-種自動校驗方法及其裝置,㈣聰位式扭力 工具230所輸出扭力之檢驗與侧參數的自動校正處理。本發明 的校驗計算機與數位式扭力工具可以進行雙㈣溝通,所以可以 達到測試與校驗的自動化處理,藉崎低人工操 並提高整體的測試效率。 Ί至 本發明^述之触實施觸露如上,然其並非用以限 f何㈣相像技藝者,在不脫離本發明之精神和範圍 本二Γ許:更動與潤飾,因此本發明之專利保護範圍須視 本说月曰_之申請專利範圍所界定者為準。 【圖式簡單說明】 第lA_gf知技術之触式扭力板手之校驗示意圖 13 201229477 第IB H係騎知技術之數位式扭力板手之校驗示意圖。 第2A圖係為本發明之自動校驗裝置之方塊圖。 第 圖係為本發明之另一種實施態樣的自動校驗裝置之 塊圖。 万 第圖係為本發明的另_種實施態樣的自動校驗裝置之平 第3圖係為本發明之自動校難序的運作流程示意圖。 第4A圖係為本發明之自動校驗裝置之平面圖。 第4B圖係為校驗計算機顯示預設扭力值與輸出扭力值之示 r第^圖係為校驗計算機枝正完輸出扭力值後之示意圖 【主要元件符號說明】 110數位式扭力工具 120測試機台 210測試機台 211伺服驅動裝置 213扭力計 214固定部 220校驗計算機 221自動校驗程序 230數位式扭力工具 231扭力偵測單元 201229477 232訊號存取端口 233顯示單元 240數位式扭力板手 241棘輪頭 242握持部The output of the digital torsion wrench is adjusted to the original peach (the approximate calculation method for the example is (10) + (_)_)). The read-type torque wrench is adjusted to be _.m) but the output is 99 (Nm), which will be corrected to 99(Nm)*l.〇i%%1〇〇(Nm) .曰 The invention provides an automatic verification method and a device thereof, and (4) an inspection of the output torque of the Clamping Torque Tool 230 and an automatic correction process of the side parameters. The verification computer and the digital torque tool of the invention can perform double (four) communication, so that the automatic processing of the test and the verification can be achieved, and the overall test efficiency is improved by the low manual operation. The touch of the present invention is as described above, but it is not intended to limit the scope of the invention. Without departing from the spirit and scope of the present invention, the present invention is protected and modified. The scope shall be subject to the definition of the patent application scope of this statement. [Simple diagram of the diagram] The calibration diagram of the touch-type torsion wrench of the 1A_gf technology is known. 13 201229477 The calibration diagram of the digital torsion wrench of the IB H-based riding technology. Figure 2A is a block diagram of the automatic verification device of the present invention. The figure is a block diagram of an automatic verification device according to another embodiment of the present invention. The figure is a schematic diagram of the operation of the automatic calibration device according to another embodiment of the present invention. Figure 4A is a plan view of the automatic verification device of the present invention. Figure 4B is a diagram showing the calibration torque value and the output torque value of the computer. The figure is the schematic diagram after verifying the output torque value of the computer branch. [Main component symbol description] 110 digital torque tool 120 test Machine 210 test machine 211 servo drive 213 torque meter 214 fixed part 220 check computer 221 automatic verification program 230 digital torque tool 231 torque detection unit 201229477 232 signal access port 233 display unit 240 digital torque wrench 241 ratchet head 242 grip