200928407 九、發明說明: . 【發明所屬之技術領域】 本發明係有關-種磁賴試裝置,尤指—種包括有—荷重 組杜-定位裝置、一電磁裝置及一位移量測模組,以該等簡化的杜: =’並_鮮_作,即可求得計算—侧件磁力大小所需數據, Λ 一操作者或-電腦可依該等數據而計算出該制件的磁力大小 以達到結構簡化及操作容易之目的者。 ® 【先前技術】 按習用技術中對於-雜物件如何測得該磁性物件之磁力大小, 目前並無有—種結構既簡化,操作上又簡便,而且又可準確測得待測 件的磁力大小的技術。 目前習知有一種是測橡膠磁條之磁性狀態以確定其是否為不良品 的技術’該種技術如台灣公告第524313號專利案,其主要是在輪送過 鳓程中,檢測橡膠磁條是否具有磁性,因其產品必須具有磁性才為良品, 若無磁性則為不良品而須汰除,因此,該前案技術之目的,只是在於 檢測待測件是否具磁性,以確定是否為&品,並非為計算待測件所具 有的磁力大小。 又有一種習用技術是在檢測待測件的磁力線分佈狀況,該技術如 台灣公開第200403447號專利案,惟,其為檢測待測件的磁力線分佈 狀態’並非如本發明能經由簡單操作而可快速計算出待測件的磁力大 小。 因而’為了能使一使用者或操作者’能夠對於一磁性物件測出其磁 200928407 -性大小,本㈣人·極努力研究,經不_設計與研發,終有 • 明之設計成果。 本發騎欲解決的課題,主·針對—㈣用無—種賴簡化且且 有容易操作之較佳而可供測試一磁性物件之磁力大小的裝置或技術、 無法較用者,經由簡便地操作而計算出待測件的磁力大小。本發明 人乃本著依多年的機械產品設雜驗,努力進行研發触計。妹 __構的分析賴,配合相對技術的細及動作模擬操作:= ❹=必t,撕有靖咖細義的她之 果:本發明以簡化的結構,包括有一荷重量測模组、一定位裝置、一 $裝置及-位移量測模組,即可達成上述的目的,可確實改善習用 【發明内容】 本U之主要目的’在於提供—種結構簡化製造及喊容 成本低,經濟效益高,及操作簡便,可供快速 ⑩算出待測件的磁力大小的磁力大小測試裝置。“數據,而供计 達f上述之目的’本發明的基本技術特徵手段,係包括有: -何重#_組’該荷重量測模組包括有—本體與 體上設有荷重刻度,該連結件連 〃 、、° μ 本體具有-_,_^=^卩,物_該 本體之荷㈣飾時,可於該 則設有—可與該連結件連接的連接部,而底端 剌件容置的容槽,該容槽底部形成有一與外界相通 6 200928407 -的開口》玄合槽%壁上設有複數個螺孔,每一該螺孔螺穿 — .-闕栓末餐人該容槽_,肋抵緊該待測件;’、’母 -於該電磁裝置由一電源裝置提供電源,該電磁裝置置 β又於叙位裝置下方,使該電磁裝置與該待测件相對; -崎獅,卿_獅輸_ :側,餘物齡嶋—雜爾㈣桿 3 认示有長度贿,討先制岐定錄置蝴 置2= β初始距離長度值; 衮置之間的 -預m繼觸崎士賴麵峨磁裝置產生 =磁力時,該電磁裝置會以其磁力而將該待測件向下則 疋立裝置向下_,進㈣輯結件下拉而姆 - 測出該纽裝置相射雷 移a顺組篁 值、的最終距離長度值,藉由該荷重刻声 "初始距離做似棘終麟 ❹的磁力大小。 則供精出该待測件 【實施方式】 本㈣u A壹.本㈣之基本技術特徵 置,=工=設計一種結構簡化又容易操作的磁力測試裝 力控制,使nr定繼輕,再搭配—電磁裝置的磁 做磁吸,-方面預定的磁力對於—固定在該定位裝置上的待測件 荷重值,另方面Γ何重量_組量_該待測件被磁吸後所產生之 再搭配-娜制徽量·定轉置與該電磁裝置 7 200928407 摊距離長紐及最終距離長度值,使—操作者或—電腦可伽 荷重值、該秘絲長度值及該最終長度值,呵心該件z 的磁力大小。 、J十 若其荷重量_組是-個射計,且轉量峨組是—尺 時’則當翻件產生移動距離時,會在荷重計上顯出荷重刻雜,且200928407 IX. Description of the invention: [Technical field of the invention] The present invention relates to a magnetic ray test device, and more particularly to a magnetic resonance device, an electromagnetic device and a displacement measurement module. With such simplified simplifications: = 'and _ fresh _, you can calculate the data required for the side part magnetic force, Λ an operator or - computer can calculate the magnetic force of the part according to the data In order to achieve the purpose of structural simplification and easy operation. ® [Prior Art] According to the conventional technology, how to measure the magnetic force of the magnetic object for the debris object, there is no such structure - the structure is simplified, the operation is simple, and the magnetic force of the workpiece to be tested can be accurately measured. Technology. At present, there is a technique for measuring the magnetic state of a rubber magnetic strip to determine whether it is a defective product. This kind of technology is, for example, Taiwan Patent No. 524313, which mainly detects rubber magnetic strips during a round trip process. Whether it is magnetic or not, because its product must be magnetic, it is good. If it is not magnetic, it must be eliminated. Therefore, the purpose of this prior technology is to detect whether the test piece is magnetic to determine whether it is & Product is not the calculation of the magnetic force of the device under test. Another conventional technique is to detect the distribution of the magnetic field lines of the device to be tested. For example, the method of detecting the magnetic field line distribution of the device to be tested is not as simple as the present invention. Quickly calculate the magnetic force of the device to be tested. Therefore, in order to enable a user or operator to measure the magnetic properties of a magnetic object, the author (4) is extremely hard to study, and after design and development, there is a design result. The problem to be solved by the present invention is to provide a device or a technique for testing the magnetic force of a magnetic object, which is simplified and easy to operate, and is not easy to use. The magnetic force of the device to be tested is calculated by operation. The present inventors have made efforts to carry out research and development in accordance with the multi-year mechanical product design. The analysis of the sister __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ A positioning device, a device and a displacement measuring module can achieve the above purpose, and can be surely improved. [The content of the invention] The main purpose of the present U is to provide a structure that simplifies manufacturing and has low cost and economical cost. The utility model has the advantages of high efficiency and simple operation, and can be used for quickly calculating the magnetic force size of the material to be tested. "Data, and for the purpose of the above-mentioned purposes", the basic technical features of the present invention include: - Hehe #_ group' The load weight measurement module includes - a body and a body are provided with a load scale, The link member has a connection, and the body has a -_, _^=^卩, and the body _ the body (4) is provided with a connection portion connectable to the link member, and the bottom end 剌a housing that accommodates a cavity, and a bottom portion of the container is formed to communicate with the outside. 6 200928407 - The opening of the "Xuanhe slot" has a plurality of screw holes on the wall, and each of the screw holes is threaded through. The yoke _, the rib abuts against the device to be tested; ', 'mother--the electromagnetic device is powered by a power supply device, and the electromagnetic device is placed under the locating device, so that the electromagnetic device is opposite to the device to be tested ; - Saki lion, Qing _ lion lost _: side, the remaining age 嶋 杂 杂 ( 四 四 四 四 四 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认 认- Pre-m is followed by the touch of the squid, the magnetic device generates the magnetic force, the electromagnetic device will use the magnetic force to lower the device to be tested downwards _, into the (four) series of pieces pull down and _ - to measure the value of the final distance of the phase of the beam of the device, the value of the final distance, by the load of the sound " initial distance to do the magnetic force like a spine Size. Then supply the test piece [Embodiment] This (four) u A壹. This (four) basic technical features set, = work = design a simplified and easy to operate magnetic test force control, so that nr will be light, In combination with the magnetism of the electromagnetic device, the predetermined magnetic force is for the load value of the workpiece to be tested fixed on the positioning device, and the other weight _ the amount _ the sample to be tested is generated after being magnetized Re-matching - Na's emblem, fixed transposition and the electromagnetic device 7 200928407 spread distance and final distance length value, so that - operator or - computer gamma weight value, the secret wire length value and the final length value , I am worried about the magnetic magnitude of the piece of z. If J is the weight of the load _ group is - a shot, and the transfer 峨 group is - the ruler' then when the flip is generated by the moving distance, it will appear on the load meter Load is complicated, and
在尺標裝置上產生位移距離長度值,一操作者便可將該等數值利用八 式計算出該待測件的磁力大小。 A 〇 絲重量測模組及位移量測模組均為電子感測模組,解會自動 感測到荷重值訊號及位移量訊號,並可傳輸至一電腦或一微處理器, 該電腦或微處理H便可依據該等訊號·出該待測件的磁力大小。 貳·本發明裝置的具體實施例 請參看第-至四騎示,為了達成上述以簡化結構即可簡便操作 而測得待測件磁力大小之目的,本發明一種基本特徵的具體實施例, 係包括有: © —荷重量測模組(10),該荷重量測模組(10)包括有一本體(11)與 一連結件(12),該本體(11)上設有荷重刻度(110),該連結件(12)連接 於該本體(11)底部,該連結件(12)相對該本體(n)具有一初始位置, 富"亥連結件(12)相對該本體(11)而向下移動時,可於該本體(I〗)之該 荷重刻度(110)上指示出該荷重刻度值; 一定位裝置(20),其頂端設有一可與該連結件(12)連接的連接 ,而底端則設有一可供一待測件(50)容置的容槽(21),該容槽(21) 底部形成有一與外界相通的開口(22),該容槽(21)環壁上設有複數個A displacement distance length value is generated on the scale device, and an operator can calculate the magnetic force of the test object by using the equation. A 〇 wire weight measurement module and displacement measurement module are electronic sensing modules, which automatically sense the load value signal and the displacement signal, and can be transmitted to a computer or a microprocessor, the computer or The micro-processing H can output the magnetic force of the device to be tested according to the signals.贰·For a specific embodiment of the device of the present invention, please refer to the first to fourth riding instructions. In order to achieve the above-mentioned purpose of simplifying the structure and simplifying the operation, and measuring the magnetic force of the device to be tested, a specific embodiment of the basic features of the present invention is The utility model comprises: a load-weight measuring module (10), the load-weight measuring module (10) comprises a body (11) and a connecting member (12), and the body (11) is provided with a load scale (110) The connecting member (12) is connected to the bottom of the body (11), and the connecting member (12) has an initial position relative to the body (n), and the rich connecting member (12) is opposite to the body (11) When moving down, the load scale value may be indicated on the load scale (110) of the body (I); a positioning device (20) having a top end connected to the connection member (12), The bottom end is provided with a receiving groove (21) for receiving a test piece (50), and an opening (22) communicating with the outside is formed at the bottom of the receiving groove (21), and the receiving groove (21) is a ring wall There are multiple
I 200928407 t -螺孔(23),每一該螺孔(23)螺穿一螺栓(24),每一該螺栓(24)末端伸 . 入該容槽(21)内部,用以抵緊該待測件; 一電磁裝置(30),該電磁裝置(30)由一電源裝置提供電源,該電 磁裝置(30)置設於該定位裝置(2〇)下方,使該電磁裝置(3〇)與該待測 件(50)相對; 一位移量測模組(40),該位移量測模組(40)置設於該定位裝置(2〇) 及该電磁裝置(30)的一側,該位移量測模組(4〇)包括有一呈船垂向延 ©伸的彳干體(41),於s亥桿體(41)上標示有長度刻度(42),其可先量測出 該定位裝置(20)相對該電磁裝置(3〇)之間的初始距離長度值; 當以該電源裝置供給該電磁裝置(30) 一預定電壓而使該電磁裝置 (30)產生預疋磁力時,該電磁裝置(3〇)會以其磁力而將該待測件(5〇) 向下吸引,使該定位裴置(20)向下移動’進而將該連結件(12)下拉而 相對該本體(11)移動’而於該本體⑴)之該荷重刻度〇1〇)上指示出該 街重刻度值,同時由該位移量測模組(4〇)量測出該定位裝置(2〇)相對 ©該電磁裝置(30)的最終距離長度值,藉由該荷重刻度值、該初始距離 長度值及該最終距離長度值,而可供計算出該待測件的磁力大小。 參.本發明的具體實施例或較佳實施例 請參看第一圖所示,本發明的一種具體實施例中,該連結件(12) 底端具有-橫向貫穿的穿孔⑽,歡位裝置⑽)包括有—圓筒狀的 设體(25),该各槽(21)位於該殼體(25)底端,該殼體(25)頂端設有該 連接部(26) ’該連接部(26)係具有-與該連結件⑽底端相配合的通 孔(260) ’且该連接部(26)設有一橫穿的銷孔(261),該連結件(12)底 9 200928407 端穿入該殼體(25)之該通孔(260),使該銷孔(261)與該穿孔(13)對 • 合’再穿設一桿銷(14)於該銷孔(261)與該穿孔(13),進而使該連結件 (12)與該定位裝置(2〇)得以快速連結。 請參看第一圖所示,本發明的一種具體實施例中,該定位裝置(2〇) 的5亥设體(25)之周面上設有一開槽(27),藉由該開槽(27)而使該容槽 (21)與外界相通’令該待測件(5〇)可經由該開槽(27)而置入該容槽(21) 内部。 ❹ 請參看第一圖所示,本發明的一種具體實施例中,該定位裝置(2〇) 包括有一圓筒狀的殼體(25),該容槽(21)底部的該開口(22)具有向内 凸起的環緣(220),使該開口(22)的内徑較小於該容槽(21)内環壁之内 徑,以该壞緣(220)以限制住該待測件(5〇)而避免向下掉落。 明參看第一圖所示’本發明的一種具體實施例中,該定位裝置(2〇) 包括有一圓筒狀的殼體(25),該複數個螺孔(23)之數量為3,且該三 個螺孔(23)沿著於該殼體(25)的中心軸線呈等圓心角分佈。 ❹ 請參看第五®所示,其係為本發明的另-種自動量測及計算出磁 力大小的實施例。其除了更包括有荷重量測模組(1〇),定位裝置(2〇), 電磁裝置(30),位移量測模組(40),還包括有一預寫有運_式的微 處理器(60) ’ -顯示驅動電路⑽及一顯示器⑽,該荷重量測模組 (10)及位移#纖組⑽)均為電子翻模組,則其會自械測到荷重 值訊號及絲量城’並可傳齡贿處邮⑽,職處理器⑽ 便可依據該等訊號計算出該待測件的磁力大小。 肆.結論 ΟI 200928407 t - screw holes (23), each of which is threaded through a bolt (24), and the end of each bolt (24) extends into the interior of the pocket (21) for abutting a device to be tested; an electromagnetic device (30), the electromagnetic device (30) is powered by a power supply device, and the electromagnetic device (30) is disposed under the positioning device (2〇) to make the electromagnetic device (3〇) Opposite the device to be tested (50); a displacement measuring module (40), the displacement measuring module (40) is disposed on the positioning device (2) and one side of the electromagnetic device (30), The displacement measuring module (4〇) includes a dry body (41) extending in a vertical direction of the ship, and a length scale (42) is marked on the s-shaped body (41), which can be measured first. An initial distance length value between the positioning device (20) and the electromagnetic device (3〇); when the electromagnetic device (30) is supplied with a predetermined voltage by the power supply device to cause the electromagnetic device (30) to generate a pre-pulsing force The electromagnetic device (3〇) will attract the device to be tested (5〇) downward by its magnetic force, causing the positioning device (20) to move downwards to further pull the connecting member (12) downward relative to the Ontology (11) movement The street scale value is indicated on the load scale 〇1〇) of the body (1)), and the positioning device (2〇) is measured by the displacement measuring module (4〇) relative to the electromagnetic device. The final distance length value of (30) is calculated by the load scale value, the initial distance length value, and the final distance length value, and the magnitude of the magnetic force of the device to be tested is calculated. For a specific embodiment or preferred embodiment of the present invention, please refer to the first figure. In a specific embodiment of the present invention, the bottom end of the connecting member (12) has a through hole (10) extending through the side, and the device (10) Included is a cylindrical body (25), the groove (21) is located at the bottom end of the casing (25), and the connecting portion (26) is provided at the top end of the casing (25) 26) having a through hole (260) that cooperates with the bottom end of the connecting member (10) and the connecting portion (26) is provided with a traversing pin hole (261), the connecting member (12) bottom 9 200928407 end wearing The through hole (260) of the housing (25) is such that the pin hole (261) and the through hole (13) are paired with a pin (14) and the pin hole (261) The perforation (13), in turn, allows the coupling member (12) to be quickly coupled to the positioning device (2). Referring to the first embodiment, in a specific embodiment of the present invention, a slot (27) is disposed on a circumferential surface of the 5 hai body (25) of the positioning device (2〇), by the slot ( 27) The container (21) is communicated with the outside world so that the device under test (5〇) can be placed inside the container (21) via the slot (27). ❹ Referring to the first figure, in a specific embodiment of the present invention, the positioning device (2〇) includes a cylindrical casing (25), and the opening (22) at the bottom of the receiving groove (21) Having an inwardly projecting rim (220) such that the inner diameter of the opening (22) is smaller than the inner diameter of the inner ring wall of the receptacle (21), with the bad edge (220) to limit the test to be tested Piece (5〇) and avoid falling down. Referring to the first embodiment, in a specific embodiment of the present invention, the positioning device (2〇) includes a cylindrical casing (25), the number of the plurality of screw holes (23) is 3, and The three screw holes (23) are distributed at an equal central angle along a central axis of the housing (25). ❹ Refer to the fifth®, which is another embodiment of the automatic measurement and calculation of the magnitude of the magnetic force of the present invention. The utility model further comprises a load weight measuring module (1〇), a positioning device (2〇), an electromagnetic device (30), a displacement measuring module (40), and a pre-written microprocessor. (60) '- display drive circuit (10) and a display (10), the load weight measurement module (10) and the displacement #fiber group (10) are electronic flip modules, which will self-measure the load value signal and the amount of wire The city can also pass the bribe post (10), and the occupation processor (10) can calculate the magnetic force of the device to be tested based on the signals.肆. Conclusion Ο
【圖式簡單說明】 第一圖係本發明之分解示意圖; 第二圖係本翻之立合示意圖; 第二圖係本判之平面組合示意圖; 第四圖係相對第三圖之定位裝置產生移動的示意圖;及 第五圖係本發明具有自動量測功能的實施例_示意圖。 200928407 因此,藉由上述結構設計,使本發明的構造特徵 列‘· 1·本發明之磁力大小測試裝置只要利用一荷 =· 荷重值、始終距離長度值及最終距離長度值 t例如 快速計綱細_构'。_,她之據化即可 造及組裝容易,成本低,經濟效益高。 4化1 緊螺=ΓΓΓ,侧峨人⑽£之容槽,並鎖 緊累栓固疋’再啟動電磁裝置使之產生—歡的磁力即可產生 所需的數據’啊娜胸磁力Α, 簡便,極為容易操作。 _作的流程相當 專利範圍,2 :本㈣之—可行纽例,並翻·定本發明之 而為Jj: *牛依據下列申請專利範圍所述之内容、特徵以及其精神 明所鮮=化的實施,皆應包含於本發明之翻範_。本發 用性心·Γ於巾請專圍之結構特徵,未見於_物品,且具實 敬胁2 ’已符合發明專利要件’爰依法具文提出申請,謹請釣 ρ核予專利,以維護本申請人合法之權益。 11 200928407 【主要元件符號說明】 (10)荷重量測模組 (11)本體 (110)荷重刻度 (12)連結件 (13)穿孔 (14)桿銷 (20)定位裝置 (21)容槽 (22)開口 (220)環緣 © (23)螺孔 (24)螺栓 (25)殼體 (26)連接部 (260)通孔 (261)銷孔 (27)開槽 (30)電磁裝置 (40)位移量測模組 (41)桿體 (42)長度刻度 (50)待測件 (60)微處理器 ❹ (62)顯示器 (61)顯示驅動電路 12BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is an exploded view of the present invention; the second drawing is a schematic view of the vertical combination; the second drawing is a schematic view of the planar combination of the present invention; the fourth figure is a movement relative to the positioning device of the third figure. The schematic diagram of the invention and the fifth diagram are schematic diagrams of an embodiment of the invention having an automatic measurement function. 200928407 Therefore, the structural feature of the present invention is constructed by the above-described structural design. The magnetic magnitude testing device of the present invention uses a load=·load value, an always-distance length value, and a final distance length value t, for example, a quick gauge. Fine_construction'. _, her legalization can be easy to manufacture and assemble, low cost and high economic efficiency. 4 1 1 tight snail = ΓΓΓ, side 峨 person (10) £ of the groove, and lock the shackle solid 疋 'restart the electromagnetic device to make it - the magnetic force of the Huan can produce the required data 'ah Na chest magnetic Α, Simple and extremely easy to operate. The process of _ is quite patentable, 2: this (4) - feasible new example, and turn the invention into Jj: * cattle according to the content, characteristics and spirit of the following patent application scope Implementation should be included in the scope of the present invention. This hair use 性 Γ Γ 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾 巾Maintain the legal rights of the applicant. 11 200928407 [Description of main components] (10) Load weight measurement module (11) Body (110) Load scale (12) Link (13) Perforation (14) Rod pin (20) Positioning device (21) 22) Opening (220) rim © (23) Screw hole (24) Bolt (25) Housing (26) Connection (260) Through hole (261) Pin hole (27) Slot (30) Electromagnetic device (40 Displacement measurement module (41) rod body (42) length scale (50) test object (60) microprocessor ❹ (62) display (61) display drive circuit 12