TW201829998A - Force-measuring device - Google Patents

Force-measuring device Download PDF

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TW201829998A
TW201829998A TW106104310A TW106104310A TW201829998A TW 201829998 A TW201829998 A TW 201829998A TW 106104310 A TW106104310 A TW 106104310A TW 106104310 A TW106104310 A TW 106104310A TW 201829998 A TW201829998 A TW 201829998A
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Taiwan
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force measuring
force
measuring device
abutting portion
platform body
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TW106104310A
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Chinese (zh)
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TWI628423B (en
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邱源成
莊睿全
李榮宗
張哲誠
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國立中山大學
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Abstract

A force-measuring device is disclosed to solve the difficult force-calibration problem for the prior three-component dynamometer. This force-measuring device includes: a base with a positioning seat; a mounting platform located on the base, the mounting platform has a platform body which is spaced from the positioning seat along the Z-direction, the edge of the platform body is provided with a X-direction side abutment portion and a Y-direction side abutment portion; and three force-measuring modules, the free end of each force-measuring module is provided with a ball roller, the three force-measuring modules are arranged on the base, and the ball rollers are respectively brought into contact with the X-direction side abutment portion, the Y-direction side abutment portion and the surface of the platform body towards the positioning seat.

Description

測力裝置  Force measuring device  

本發明係關於一種測力裝置,尤其是一種可用於量測機械設備加工力之三分力的測力裝置。 The present invention relates to a force measuring device, and more particularly to a force measuring device that can be used to measure the three component force of a machining force of a mechanical device.

按,由於機械設備的許多硬體及操作條件都會直接影響機械加工品質,故目前已存在有許多可用以量測機械設備加工力的三分力量測計(3-component dynamometer),藉由量測加工力的三分力,作為鑑別加工品質與刀具性能等參數,有助於提升刀具研發技術及優化加工條件。 According to the many hardware and operating conditions of mechanical equipment, the quality of machining is directly affected. Therefore, there are many 3-component dynamometers that can be used to measure the machining force of mechanical equipment. The three-way force of the machining force, as a parameter to identify the processing quality and tool performance, helps to improve the tool development technology and optimize the processing conditions.

在各式習知的三分力量測計中,常用的力感測器主要都是應變計式(Strain gage type)或壓電式(PZT type)二種;其中應變計感測器是一種黏貼在待測物敏感部位的極細電阻線,其與惠斯登電橋(Wheatstone bridge)及放大器組成力的檢測系統,將力轉換為電壓訊號,藉由量測電壓訊號值以得知力的值。壓電感測器則是由壓電晶體材料與高輸入阻抗電路或電荷放大器組成力的檢測系統,將瞬間作用的外力所產生的壓電效應輸出瞬間的電荷或電壓訊號,同樣可藉由量測電壓訊號值以得知力的值,惟壓電式感測器無法用於靜態測量,只適用於動態量測(一般必須高於100Hz)。 In various conventional three-point force measurement, the commonly used force sensors are mainly Strain gage type or piezoelectric type (PZT type); wherein the strain gauge sensor is a paste. The extremely thin resistance wire in the sensitive part of the object to be tested, together with the Wheatstone bridge and the amplifier's force detection system, converts the force into a voltage signal, and measures the voltage signal value to know the value of the force. The piezoelectric inductive detector is a detection system composed of a piezoelectric crystal material and a high input impedance circuit or a charge amplifier. The piezoelectric effect generated by an externally applied external force outputs an instantaneous charge or voltage signal, which can also be measured by the amount. The voltage signal value is measured to know the value of the force, but the piezoelectric sensor cannot be used for static measurement, only for dynamic measurement (generally must be higher than 100 Hz).

然而,無論是應變計式或壓電式的習知三分力量測計,都需要依照待測物的敏感部位安裝數個力感測器,且各個力感測器受力時常會同時受到三向分力的作用,使得三分力量測值之間易互相干擾,需要透過 十分複雜的數學運算校正,才能求得各向分力的真實力量值,故習知三分力量測計的安裝及校正難度高,稍有失誤便會影響量測結果的準確性。 However, whether it is a strain gauge or a piezoelectric three-point force meter, it is necessary to install several force sensors according to the sensitive part of the object to be tested, and each force sensor is often subjected to three forces at the same time. The role of the force component makes the three-point force measurement easy to interfere with each other. It is necessary to correct the true force value of the component force through a very complicated mathematical operation correction. Therefore, the installation of the conventional three-point force measurement and The calibration is difficult, and a slight mistake will affect the accuracy of the measurement results.

又,習知的三分力量測計因多用於檢測銑削(Milling)、磨削(Grinding)或車削(Turning)等機械設備加工力,故多具有測力範圍高而待測物安裝面積小的特性;例如Kistler公司製的9119AA1型三分力量測計,其測力範圍高達4kN左右,待測物安裝面積則約為80 x 39mm。因此,習知的三分力量測計實難以適用於直徑高達10英吋且切割力僅數N的半導體矽晶圓切割作業分析。 Moreover, the conventional three-point force measurement is mostly used for detecting the machining force of milling equipment such as milling, grinding, or turning, so that the measuring range is high and the installation area of the object to be tested is small. Features; for example, Kistler's 9119AA1 three-point force test, the force range is up to 4kN, and the installation area of the object to be tested is about 80 x 39mm. Therefore, the conventional three-point force measurement is difficult to apply to the analysis of semiconductor wafer cutting operations up to 10 inches in diameter and only a few N in cutting force.

有鑑於此,習知的三分力量測計確實仍有加以改善之必要。 In view of this, the conventional three-point force test does have the need to improve.

為解決上述問題,本發明提供一種測力裝置,其中的每個測力模組都能單獨量測一方向的分力,可大幅降低各分力彼此的干擾度,以降低校正作業的困難度。 In order to solve the above problems, the present invention provides a force measuring device, wherein each force measuring module can separately measure the component force in one direction, which can greatly reduce the interference degree of each component force, thereby reducing the difficulty of the calibration work. .

本發明提供一種測力裝置,其結構簡易且易於安裝至待測物。 The invention provides a force measuring device which is simple in structure and easy to install to an object to be tested.

本發明提供一種測力裝置,可依據量測需求選擇合適規格的構件,以滿足各種待測物尺寸與測力範圍的需求。 The invention provides a force measuring device, which can select components of suitable specifications according to the measurement requirements, so as to meet the requirements of various object size and force range.

本發明以下所述方向性或其近似用語,例如「上(頂)」、「下(底)」、「內」、「外」、「側面」等,主要係參考附加圖式的方向,各方向性或其近似用語僅用以輔助說明及理解本發明的各實施例,非用以限制本發明。 The following directionality or its similar terms, such as "upper (top)", "lower", "inside", "outside", "side", etc., mainly refer to the direction of the additional drawing, each The directionality or its approximation is only used to assist in the description and understanding of the embodiments of the invention, and is not intended to limit the invention.

本發明的測力裝置,包含:一個基座,該基座具有一個定位座;一個安裝平台,該安裝平台設於該基座,該安裝平台具有一個平台本體與該定位座沿著Z方向間隔設置,該平台本體的端緣設有一個X向側抵部及一個Y向側抵部;及三個測力模組,各該測力模組的自由端設一個滾 珠滾輪,該三個測力模組設於該基座,並分別由其滾珠滾輪抵接該X向側抵部、該Y向側抵部及該平台本體朝向該定位座的表面。 The force measuring device of the present invention comprises: a base having a positioning seat; a mounting platform, the mounting platform is disposed on the base, the mounting platform has a platform body and the positioning seat is spaced along the Z direction The end of the platform body is provided with an X-direction side abutting portion and a Y-direction side abutting portion; and three force measuring modules, wherein the free ends of the force measuring modules are provided with a ball roller, the three measuring The force module is disposed on the base, and is respectively abutted by the ball roller to the X-direction side abutting portion, the Y-direction side abutting portion, and the platform body toward the surface of the positioning seat.

據此,本發明的測力裝置,藉由使測力模組與安裝平台之間以滾動接觸的型式相接,令每個測力模組都能單獨量測一方向的分力,以大幅降低各分力彼此的干擾度,從而降低校正作業的困難度,有助提升量測結果的準確性。此外,本發明的測力裝置,其結構簡易且易於安裝至待測物,可提升該測力裝置本身的組裝效率,及提升該測力裝置與待測物的組裝效率,且安裝過程簡易,不需要豐富的操作經驗即可正確安裝,並據以得到準確的量測值,適合大眾使用。另,本發明的測力裝置,可依據量測需求選擇合適規格的構件,以滿足各種待測物尺寸與測力範圍的需求,實用性極佳。 Accordingly, the force measuring device of the present invention can make each force measuring module separately measure the component force in one direction by connecting the force measuring module and the mounting platform in a rolling contact type. The degree of interference between the components is reduced, thereby reducing the difficulty of the calibration operation and improving the accuracy of the measurement results. In addition, the force measuring device of the present invention has a simple structure and is easy to be mounted to the object to be tested, can improve the assembly efficiency of the force measuring device itself, and improve the assembly efficiency of the force measuring device and the object to be tested, and the installation process is simple. It can be installed correctly without extensive operating experience, and can be accurately measured to suit the public. In addition, the force measuring device of the invention can select components of suitable specifications according to the measurement requirements, so as to meet the requirements of various dimensions of the object to be tested and the range of the measuring force, and the utility model is excellent.

其中,該X向側抵部設於該平台本體在X方向上的端緣,該Y向側抵部設於該平台本體在Y方向上的端緣,該X向側抵部及該Y向側抵部分別沿著Z方向朝該定位座延伸但不接觸該定位座;該結構簡易而便於製造及組裝,具有降低製造成本及提升組裝便利性等功效。 The X-direction side abutting portion is disposed at an end edge of the platform body in the X direction, and the Y-direction side abutting portion is disposed at an edge of the platform body in the Y direction, the X-direction side abutting portion and the Y-direction The side abutting portions respectively extend toward the positioning seat along the Z direction but do not contact the positioning seat; the structure is simple and convenient to manufacture and assemble, and has the effects of reducing manufacturing cost and improving assembly convenience.

其中,該平台本體朝向該定位座的表面設有一溝槽;該結構使該平台本體除了具有足夠的強度供穩固結合待測物及該基座外,還能兼具有產生彈性變形的能力,以準確地將受力傳遞至該三個測力模組,具有提升量測準確性等功效。 The platform body is provided with a groove facing the surface of the positioning seat; the structure enables the platform body to have the same ability to generate elastic deformation in addition to the strength of the object to be tested and the base. In order to accurately transmit the force to the three force measuring modules, it has the effects of improving the measurement accuracy.

其中,該溝槽呈環狀,抵接該平台本體的測力模組抵接在該溝槽所圈圍的範圍內;該結構具有提升量測準確性等功效。 The trench is annular, and the force-measuring module abutting the platform body abuts in a range surrounded by the trench; the structure has the effects of improving the measurement accuracy and the like.

其中,抵接該平台本體的測力模組抵接在該溝槽所圈圍的範圍中心處;該結構可更進一步地提升量測準確性。 Wherein, the force measuring module abutting the platform body abuts at the center of the circle surrounded by the groove; the structure can further improve the measurement accuracy.

其中,該X向側抵部設於該平台本體一端緣的中間位置,該Y向側抵部設於該平台本體另一端緣的中間位置;該結構具有提升組裝便 利性及量測準確性等功效。 The X-direction side abutting portion is disposed at an intermediate position of one end edge of the platform body, and the Y-direction side abutting portion is disposed at an intermediate position of the other end edge of the platform body; the structure has the convenience of improving assembly, measuring accuracy, and the like. efficacy.

其中,該基座設有數個腳柱,該數個腳柱分別由兩端結合該定位座與該安裝平台;該結構簡易而便於製造及組裝,具有降低製造成本及提升組裝便利性等功效。 The base is provided with a plurality of legs, and the plurality of legs are respectively combined with the positioning seat and the mounting platform by the two ends; the structure is simple and convenient to manufacture and assemble, and has the effects of reducing manufacturing cost and improving assembly convenience.

其中,該安裝平台的平台本體在Z方向的橫截面呈正方形;該結構可避免各向干擾度不同的問題,具有提升校正便利性等功效。 Wherein, the platform body of the installation platform has a square cross section in the Z direction; the structure can avoid the problem of different interference degrees, and has the effects of improving the convenience of correction.

其中,該腳柱的數量為四個,該四個腳柱分別對位組裝在該平台本體的四個角隅處;該結構使該安裝平台及該數個腳柱受力時可產生一致性較佳的各方向分力,有助簡化對量測值的校正程序。 Wherein, the number of the legs is four, and the four legs are respectively aligned and assembled at the four corners of the platform body; the structure enables consistency when the mounting platform and the plurality of legs are stressed The better component forces in each direction help to simplify the calibration procedure for the measured values.

其中,各該腳柱在Z方向的橫截面呈正方形;該結構具有提升校正便利性等功效。 Wherein, the cross-section of each of the legs in the Z direction is square; the structure has the effects of improving the convenience of correction.

其中,該安裝平台與該基座之間形成一個容置空間,該三個測力模組設於該容置空間中,該基座在該容置空間中設有一個第一座板及一個第二座板,該第一座板沿X方向面向該X向側抵部的部位供組裝一個前述的測力模組,該第二座板沿Y方向面向該Y向側抵部的部位供組裝另一個前述的測力模組;該結構簡易而便於製造及組裝,具有降低製造成本及提升組裝便利性等功效。 An accommodating space is formed between the mounting platform and the pedestal. The three force measuring modules are disposed in the accommodating space, and the pedestal is provided with a first seat plate and a a second seat plate, wherein the first seat plate is assembled with a force measuring module at a portion facing the X-direction abutting portion in the X direction, and the second seat plate is provided in a position facing the Y-direction abutting portion in the Y direction. The other force measuring module described above is assembled; the structure is simple and easy to manufacture and assemble, and has the effects of reducing manufacturing cost and improving assembly convenience.

其中,各該測力模組具有一個負荷計及一個調整接頭,該負荷計具有一受力方向,該調整接頭沿著該受力方向連接該滾珠滾輪,且該調整接頭設於該滾珠滾輪與該負荷計之間;以便藉由該調整接頭調整該滾珠滾輪抵接該X向側抵部、該Y向側抵部或該平台本體的預負荷,具有提升操作便利性等功效。 Each of the force measuring modules has a load meter and an adjusting joint, the load meter has a direction of force, the adjusting joint is connected to the ball roller along the direction of the force, and the adjusting joint is disposed on the ball roller and The load meter is configured to adjust the preload of the X-direction side abutting portion, the Y-direction side abutting portion or the platform body by the adjusting joint, thereby improving the convenience of operation and the like.

其中,該滾珠滾輪具有一個頭端,該頭端內設有一個可滾動的主滾珠,且該主滾珠的局部凸伸穿出該頭端以抵接該X向側抵部、該Y向側抵部或該平台本體;該結構使各該測力模組與該安裝平台產生相對位 移時,可維持滾動接觸的極低摩擦力運動型態,以大幅降低各分力彼此的干擾度。 Wherein, the ball roller has a head end, the head end is provided with a rollable main ball, and a part of the main ball protrudes out of the head end to abut the X-direction side abutting portion, the Y-direction side The abutting portion or the platform body; the structure maintains a very low frictional motion pattern of the rolling contact when each of the force measuring modules and the mounting platform are relatively displaced, so as to greatly reduce the interference degree of the respective component forces.

其中,該頭端設有相連通的一內滾動室及一外滾動室,且該外滾動室與外部連通,該內滾動室中容置有多個輔助滾珠,該主滾珠容置於該外滾動室中,該主滾珠的體積大於各該輔助滾珠;該結構簡易而便於製造及組裝,具有降低製造成本及提升組裝便利性等功效。 The head end is provided with an inner rolling chamber and an outer rolling chamber, and the outer rolling chamber is connected to the outside. The inner rolling chamber houses a plurality of auxiliary balls, and the main ball is accommodated outside. In the rolling chamber, the volume of the main ball is larger than each of the auxiliary balls; the structure is simple and convenient to manufacture and assemble, and has the effects of reducing manufacturing cost and improving assembly convenience.

其中,該滾珠滾輪具有一個螺紋端連接該頭端,該調整接頭設有內螺紋以沿著該負荷計的受力方向連接該滾珠滾輪的螺紋端;該結構使各該測力模組可藉由轉動該調整接頭來調整該滾珠滾輪抵接該安裝平台的預負荷,具有提升操作便利性等功效。 Wherein, the ball roller has a threaded end connected to the head end, and the adjusting joint is provided with an internal thread to connect the threaded end of the ball roller along a direction of force of the load meter; the structure enables each of the force measuring modules to be borrowed The rotation of the adjusting joint adjusts the preload of the ball roller to abut the mounting platform, and has the advantages of improving the operation convenience and the like.

1‧‧‧基座 1‧‧‧Base

11‧‧‧定位座 11‧‧‧ Positioning Block

12‧‧‧腳柱 12‧‧‧ foot column

13‧‧‧第一座板 13‧‧‧First board

14‧‧‧第二座板 14‧‧‧Second board

2‧‧‧安裝平台 2‧‧‧Installation platform

21‧‧‧平台本體 21‧‧‧ Platform Ontology

21a‧‧‧第一表面 21a‧‧‧ first surface

21b‧‧‧第二表面 21b‧‧‧ second surface

211‧‧‧溝槽 211‧‧‧ trench

22‧‧‧X向側抵部 22‧‧‧X side to the side

23‧‧‧Y向側抵部 23‧‧‧Y side to the side

3‧‧‧測力模組 3‧‧‧Measurement module

31‧‧‧滾珠滾輪 31‧‧‧Ball Roller

31a‧‧‧頭端 31a‧‧‧ head end

31b‧‧‧螺紋端 31b‧‧‧Threaded end

311‧‧‧內滾動室 311‧‧‧Inside rolling room

312‧‧‧外滾動室 312‧‧‧External rolling room

313‧‧‧輔助滾珠 313‧‧‧Auxiliary Balls

314‧‧‧主滾珠 314‧‧‧Main ball

32‧‧‧負荷計 32‧‧‧ load meter

33‧‧‧調整接頭 33‧‧‧Adjust joints

34‧‧‧墊塊 34‧‧‧ pads

S‧‧‧容置空間 S‧‧‧ accommodating space

第1圖:本發明一實施例的立體分解結構示意圖。 Fig. 1 is a perspective exploded perspective view showing an embodiment of the present invention.

第2圖:本發明一實施例的局部剖視立體結構示意圖。 2 is a partial cross-sectional perspective view showing an embodiment of the present invention.

第3圖:本發明一實施例的滾珠滾輪的局部剖視立體結構示意圖。 Fig. 3 is a partially sectional perspective view showing the ball roller of an embodiment of the present invention.

為讓本發明之上述及其他目的、特徵及優點能更明顯易懂,下文特舉本發明之較佳實施例,並配合所附圖式,作詳細說明如下:請參照第1、2圖,其係本發明測力裝置的一實施例,該測力裝置大致上包含一個基座1、一個安裝平台2及三個測力模組3,該安裝平台2設於該基座1,並與該基座1共同形成一容置空間S,該三個測力模組3設於該容置空間S中並抵接該安裝平台2,以分別量測該安裝平台2所受到的X、Y、Z三向分力。 The above and other objects, features and advantages of the present invention will become more <RTIgt; An embodiment of the force measuring device of the present invention, the force measuring device substantially comprises a base 1, a mounting platform 2 and three force measuring modules 3, the mounting platform 2 is disposed on the base 1 and The susceptor 1 is configured to form an accommodating space S. The three dynaming modules 3 are disposed in the accommodating space S and abut the mounting platform 2 to respectively measure X and Y received by the mounting platform 2 , Z three-way force.

本發明不限制該基座1的型態,以能夠供該安裝平台2及該三個測力模組3等構件組裝定位為原則;在本實施例中,該基座1包含一 個定位座11及數個腳柱12,該定位座11可用以供該三個測力模組3組裝定位,該數個腳柱12則可分別由兩端結合該定位座11與該安裝平台2,以共同支撐該安裝平台2,使該安裝平台2與該定位座11沿著Z方向間隔設置,並在該安裝平台2與該定位座11之間形成前述的容置空間S。 The present invention does not limit the type of the susceptor 1 so as to be able to assemble and position the components such as the mounting platform 2 and the three load cells 3; in the present embodiment, the pedestal 1 includes a positioning seat 11 And the plurality of legs 12, the positioning base 11 can be used for assembling and positioning the three force measuring modules 3, and the plurality of legs 12 can be combined with the positioning base 11 and the mounting platform 2 by the two ends respectively. The mounting platform 2 is supported to be spaced apart from the positioning base 11 in the Z direction, and the aforementioned accommodation space S is formed between the mounting platform 2 and the positioning base 11.

該安裝平台2包含一個平台本體21、一個X向側抵部22及一個Y向側抵部23,該平台本體21可供待測物直接穩固地安裝,或是安裝夾治具以便快速結合待測物,使待測物的受力能直接傳遞至該平台本體21。該X向側抵部22設於該平台本體21在X方向上的端緣,該Y向側抵部23設於該平台本體21在Y方向上的端緣,該X向側抵部22及該Y向側抵部23分別沿著Z方向朝該定位座11延伸但不接觸該定位座11。 The mounting platform 2 includes a platform body 21, an X-direction side abutting portion 22 and a Y-direction side abutting portion 23, which can be directly and stably installed for the object to be tested, or can be installed with a jig for quick integration. The object is measured, and the force of the object to be tested is directly transmitted to the platform body 21. The X-direction side abutting portion 22 is disposed at an end edge of the platform body 21 in the X direction, and the Y-direction side abutting portion 23 is disposed at an end edge of the platform body 21 in the Y direction, the X-direction side abutting portion 22 and The Y-direction side abutting portions 23 respectively extend toward the positioning seat 11 in the Z direction but do not contact the positioning seat 11.

在本實施例中,該平台本體21概呈一個均質的平板體,該平台本體21具有相對的一個第一表面21a及一個第二表面21b,該第一表面21a朝向該定位座11。該X向側抵部22可例如為一個L型板件,以便組裝結合在該平台本體21的第一表面21a,並形成沿著Z方向朝該定位座11延伸的部位,使該平台本體21及該X向側抵部22都易於製造成型且便於組裝;或者,該X向側抵部22也可以一體連接該平台本體21,以更進一步地提升該安裝平台2與該基座1的組裝效率。該Y向側抵部23亦同,於此不再贅述。 In this embodiment, the platform body 21 has a substantially flat body. The platform body 21 has an opposite first surface 21a and a second surface 21b. The first surface 21a faces the positioning base 11. The X-direction side abutting portion 22 may be, for example, an L-shaped plate member for assembling the first surface 21a of the platform body 21 and forming a portion extending toward the positioning seat 11 along the Z direction, so that the platform body 21 is formed. And the X-direction side abutting portion 22 is easy to manufacture and easy to assemble; or the X-direction side abutting portion 22 can also integrally connect the platform body 21 to further enhance the assembly of the mounting platform 2 and the base 1 effectiveness. The Y-direction side abutting portion 23 is also the same, and will not be described herein.

各該測力模組3的自由端設有一個滾珠滾輪31,該三個測力模組3組裝於該基座1,並分別由其滾珠滾輪31抵接該X向側抵部22、該Y向側抵部23及該平台本體21朝向該定位座11的第一表面21a。在本實施例中,該基座1可另於該容置空間S中設有一個第一座板13及一個第二座板14,該第一座板13可例如為一個L型板件,以便組裝結合在該定位座11,並形成沿著X方向面向該X向側抵部22的部位,供組裝一個測力模組3,使該測力模組3的滾珠滾輪31能抵接於該X向側抵部22。類 似地,該第二座板14亦可選擇為一個L型板件,以便組裝結合在該定位座11,並形成沿著Y方向面向該Y向側抵部23的部位,供組裝另一個測力模組3,使該另一個測力模組3的滾珠滾輪31能抵接於該Y向側抵部23。 A ball roller 31 is disposed at a free end of each of the force measuring modules 3, and the three force measuring modules 3 are assembled to the base 1 and respectively abutted by the ball roller 31 to the X-direction abutting portion 22, The Y-direction side abutting portion 23 and the platform body 21 face the first surface 21a of the positioning seat 11. In this embodiment, the pedestal 1 can be further provided with a first seat plate 13 and a second seat plate 14 in the accommodating space S. The first seat plate 13 can be, for example, an L-shaped plate. In order to assemble and couple the positioning seat 11 and form a portion of the X-direction abutting portion 22 along the X direction for assembling a force measuring module 3, the ball roller 31 of the force measuring module 3 can be abutted The X-direction side abuts portion 22. Similarly, the second seat plate 14 can also be selected as an L-shaped plate member so as to be assembled and coupled to the positioning seat 11 and form a portion facing the Y-direction side abutting portion 23 along the Y direction for assembly. The force module 3 enables the ball roller 31 of the other force measuring module 3 to abut against the Y-direction side abutting portion 23.

詳言之,請參照第2、3圖,該滾珠滾輪31具有相連接的一個頭端31a及一個螺紋端31b,該頭端31a設有相連通的一內滾動室311及一外滾動室312,且該外滾動室312與外部連通;該內滾動室311中容置有多個輔助滾珠313,該外滾動室312中則容置有一個主滾珠314,該主滾珠314的體積大於各該輔助滾珠313,且該主滾珠314的局部凸伸穿出該頭端31a。據此,該滾珠滾輪31可以由該主滾珠314凸伸穿出該頭端31a的部位抵接該安裝平台2,並於相對位移時維持滾動接觸的運動型態。 In detail, referring to Figures 2 and 3, the ball roller 31 has a connected end 31a and a threaded end 31b. The head end 31a is provided with an inner rolling chamber 311 and an outer rolling chamber 312. The outer rolling chamber 312 is connected to the outside; the inner rolling chamber 311 houses a plurality of auxiliary balls 313, and the outer rolling chamber 312 houses a main ball 314, and the main ball 314 has a larger volume than each of the main rolling balls 314. The auxiliary ball 313 is protruded, and a portion of the main ball 314 protrudes out of the head end 31a. Accordingly, the ball roller 31 can be abutted against the mounting platform 2 by the portion of the main ball 314 that protrudes out of the head end 31a, and maintains a rolling contact motion state when relatively displaced.

此外,各該測力模組3還可包含一個負荷計32及一個調整接頭33,該負荷計32可例如為一個拉壓型的荷重元(Load cell),該負荷計32具有一個受力方向,安裝時,使該三個測力模組3的負荷計32的受力方向分別沿著X方向、Y方向及Z方向設置。各該測力模組3的調整接頭33可設有內螺紋,以便沿著對應的負荷計32的受力方向連接該滾珠滾輪31的螺紋端31b,且該調整接頭33設於該滾珠滾輪31與該負荷計32之間。據此,各該測力模組3可藉由轉動該調整接頭33以調整該滾珠滾輪31抵接該X向側抵部22、該Y向側抵部23或該平台本體21的預負荷。該負荷計32的另一端還可結合有一墊塊34,以便各該測力模組3透過該墊塊34組裝定位於該定位座11。 In addition, each of the force measuring modules 3 may further include a load meter 32 and an adjusting joint 33. The load meter 32 may be, for example, a load-press type load cell, and the load meter 32 has a force direction. At the time of installation, the force directions of the load cells 32 of the three load cell modules 3 are respectively set along the X direction, the Y direction, and the Z direction. The adjusting joint 33 of each of the force measuring modules 3 can be internally threaded to connect the threaded end 31b of the ball roller 31 along the direction of the force of the corresponding load meter 32, and the adjusting joint 33 is disposed on the ball roller 31. Between this load meter 32 and the load meter 32. Accordingly, each of the force measuring modules 3 can adjust the preload of the ball roller 31 against the X-direction side abutting portion 22, the Y-direction side abutting portion 23 or the platform body 21 by rotating the adjusting joint 33. The other end of the load meter 32 can also be coupled with a spacer 34 so that each of the force measuring modules 3 is assembled and positioned on the positioning block 11 through the spacer 34.

請再參照第2圖,據由前述結構,本發明的測力裝置可以由該安裝平台2的平台本體21結合待測物,並依照三分力的最大預估量測值分別調整該三個測力模組3的調整接頭33,使各該測力模組3的滾珠滾輪31能分別對該安裝平台2的X向側抵部22、Y向側抵部23及平台本體21施予大於該最大預估量測值的預負荷,藉以確保在量測過程中,各該測力 模組3的滾珠滾輪31都能維持抵接該安裝平台2。 Referring to FIG. 2 again, according to the foregoing structure, the force measuring device of the present invention can be combined with the object to be tested by the platform body 21 of the mounting platform 2, and the three are respectively adjusted according to the maximum estimated measurement value of the three-component force. The adjusting joints 33 of the force measuring module 3 enable the ball rollers 31 of each of the force measuring modules 3 to respectively apply the X-direction side abutting portion 22, the Y-direction side abutting portion 23 and the platform body 21 of the mounting platform 2 to be larger than The preload of the maximum estimated measurement value ensures that the ball roller 31 of each of the force measuring modules 3 can maintain the abutment of the mounting platform 2 during the measurement process.

量測時,由於各該測力模組3的滾珠滾輪31與其所抵接該安裝平台2的部位之間屬於滾動接觸,其中的滾動摩擦係數遠小於0.1(僅約0.03左右),使得各該負荷計32的中心軸不易受到側向力的作用,可大幅降低各分力彼此的干擾度。換言之,當該安裝平台2受力時,即便該作用力同時具有X方向、Y方向及Z方向上的分力時,沿著X方向受力的負荷計32所量測的X方向分力將不易受到Y方向分力及Z方向分力的干擾;沿著Y方向受力的負荷計32所量測的Y方向分力將不易受到X方向分力及Z方向分力的干擾;沿著Z方向受力的負荷計32所量測的Z方向分力將不易受到X方向分力及Y方向分力的干擾。如此一來,該三個測力模組3的負荷計32即可分別精確地量測三分力。 During the measurement, since the ball roller 31 of each of the force measuring modules 3 is in rolling contact with the portion of the mounting platform 2, the rolling friction coefficient thereof is much smaller than 0.1 (only about 0.03 or so), so that each The central axis of the load cell 32 is less susceptible to lateral forces and can greatly reduce the degree of interference between the components. In other words, when the mounting platform 2 is stressed, even if the force has a component in the X direction, the Y direction, and the Z direction, the X-direction component measured by the load meter 32 that is forced along the X direction will It is not easy to be interfered by the Y-direction component and the Z-direction component; the Y-direction component measured by the load meter 32 along the Y-direction will not be easily interfered by the X-direction component and the Z-direction component; The Z-direction component force measured by the load cell 32 in the direction of force will not be easily interfered by the X-direction component force and the Y-direction component force. In this way, the load meter 32 of the three force measuring modules 3 can accurately measure the three-component force respectively.

接著,只要將該三個負荷計32的輸出電壓訊號分別傳送至三台電壓訊號放大器,並匯集到數據收集系統及個人電腦,同時由訊號放大器將預負荷的電壓訊號歸零。如此,三台訊號放大器所輸出的電壓訊號即可準確對應X方向分力、Y方向分力及Z方向分力等三分力。值得一提的是,當該測力裝置用於量測高速變化的衝擊力時,可將應變計式負荷計32更換成壓電式負荷計32。 Then, the output voltage signals of the three load meters 32 are respectively transmitted to the three voltage signal amplifiers, and are collected into the data collection system and the personal computer, and the pre-loaded voltage signals are reset to zero by the signal amplifier. In this way, the voltage signals output by the three signal amplifiers can accurately correspond to the three-way force such as the X-direction component, the Y-direction component, and the Z-direction component. It is worth mentioning that when the force measuring device is used to measure the impact force of the high speed change, the strain gauge load meter 32 can be replaced with the piezoelectric load meter 32.

請再參照第1、2圖,基於上述技術概念,以下更進一步地列舉本實施例測力裝置的各項特點並詳細說明:該安裝平台2的平台本體21若太厚、太硬,待測物的受力將不易傳遞至抵接該平台本體21的測力模組3,而該平台本體21若太薄、太軟,則會有雜訊過多的問題,因此,本實施例較佳在該平台本體21朝向該定位座11的第一表面21a設置一溝槽211,使該平台本體21除了具有足夠的強度供穩固結合待測物及該基座1外,還能兼具有產生彈性變形的能力,以準確地將受力傳遞至該三個測力模組3。 Referring to the first and second figures again, based on the above technical concept, the following describes the various features of the force measuring device of the present embodiment and describes in detail: if the platform body 21 of the mounting platform 2 is too thick and too hard, it is to be tested. The force of the object will not be easily transmitted to the load cell 3 that abuts the platform body 21. If the platform body 21 is too thin and too soft, there will be a problem of excessive noise. Therefore, the present embodiment is preferably The platform body 21 is provided with a groove 211 facing the first surface 21a of the positioning seat 11, so that the platform body 21 can have elasticity even if it has sufficient strength to firmly bond the object to be tested and the base 1. The ability to deform to accurately transmit the force to the three force measuring modules 3.

其中,該溝槽211可概呈環狀,較佳設為頭尾相接的封閉環狀,並使抵接該平台本體21的測力模組3抵接在該溝槽211所圈圍的範圍內,且較佳抵接在該溝槽211所圈圍的範圍中心處。另,還可將該X向側抵部22設於該平台本體21一端緣的中間位置,將該Y向側抵部23設於該平台本體21另一端緣的中間位置。據此,該三個測力模組3在該容置空間S中的空間配置率較佳,不僅有助提升組裝便利性,且藉由該X向側抵部22及該Y向側抵部23傳遞待測物受力的過程中也較不易失誤,可達到提升量測準確性等功效。 The groove 211 can be substantially annular, and is preferably a closed ring that is connected end to end, and the force measuring module 3 that abuts the platform body 21 abuts on the groove 211. Within the range, and preferably abuts at the center of the range enclosed by the groove 211. Further, the X-direction side abutting portion 22 may be provided at an intermediate position of one end edge of the platform body 21, and the Y-direction side abutting portion 23 may be provided at an intermediate position of the other end edge of the platform body 21. Accordingly, the spatial arrangement ratio of the three force measuring modules 3 in the accommodating space S is better, which not only helps to improve the assembly convenience, but also the X-direction side abutting portion 22 and the Y-direction side abutting portion. 23 In the process of transmitting the force of the object to be tested, it is also less likely to be mistaken, and the effect of improving the measurement accuracy can be achieved.

值得注意的是,本實施例的測力裝置可以依照材料力學的彈性變形公式及ANSYS軟體計算,使該溝槽211的深度及各該腳柱12的尺寸可依待測物的尺寸或者三分力的大小,以該平台本體21受力時,可在X、Y、Z上分別產生約0.3μm級的彈性變形量為原則來調整,藉以達到最為準確的測力效果。其中,在X、Y方向上的彈性變形量可分別是0.15~1.0μm,在Z方向上的彈性變形量則可以是0.1~0.6μm。 It should be noted that the force measuring device of the embodiment can be calculated according to the elastic deformation formula of the material mechanics and the ANSYS software, so that the depth of the groove 211 and the size of each of the legs 12 can be determined according to the size of the object to be tested or three points. The force is adjusted by the principle that the platform body 21 is subjected to a force of about 0.3 μm on the X, Y, and Z, respectively, so as to achieve the most accurate force measurement effect. The amount of elastic deformation in the X and Y directions may be 0.15 to 1.0 μm, respectively, and the amount of elastic deformation in the Z direction may be 0.1 to 0.6 μm.

此外,本實施例可選擇使該安裝平台2的平台本體21在Z方向的橫截面呈正方形,以避免各向干擾度不同,可方便校正作業之進行。另搭配將該腳柱12的數量設為四個以便計算受力,及使該四個腳柱12分別對位組裝在該平台本體21的四個角隅處,較佳亦選擇使各該腳柱12在Z方向的橫截面呈正方形;據此,該安裝平台2及該數個腳柱12受力時可產生一致性較佳的各方向分力,有助簡化對量測值的校正程序。 In addition, in this embodiment, the cross-section of the platform body 21 of the mounting platform 2 in the Z direction may be squared to avoid different degrees of interference, and the calibration operation may be facilitated. In addition, the number of the legs 12 is set to four to calculate the force, and the four legs 12 are respectively aligned and assembled at the four corners of the platform body 21, preferably also for each foot. The cross-section of the column 12 in the Z direction is square; accordingly, the mounting platform 2 and the plurality of legs 12 can generate a uniform component force in each direction when the force is applied, which simplifies the calibration procedure for the measured value. .

綜上所述,本發明的測力裝置,藉由使測力模組與安裝平台之間以滾動接觸的型式相接,令每個測力模組都能單獨量測一方向的分力,以大幅降低各分力彼此的干擾度,達到降低校正作業困難度及提升量測結果準確性等功效。 In summary, the force measuring device of the present invention can make each force measuring module separately measure the component force in one direction by connecting the force measuring module and the mounting platform in a rolling contact manner. In order to greatly reduce the interference degree of each component, the effect of reducing the difficulty of calibration work and improving the accuracy of the measurement results can be achieved.

本發明的測力裝置,其結構簡易且易於安裝至待測物,可提 升該測力裝置本身的組裝效率,及提升該測力裝置與待測物的組裝效率,且安裝過程簡易,不需要豐富的操作經驗即可正確安裝,並據以得到準確的量測值,適合大眾使用。 The force measuring device of the invention has the advantages of simple structure and easy installation to the object to be tested, can improve the assembly efficiency of the force measuring device itself, and improve the assembly efficiency of the force measuring device and the object to be tested, and the installation process is simple and unnecessary. A wide range of operating experience can be installed correctly, and accurate measurements can be obtained for public use.

本發明的測力裝置,可依據量測需求選擇合適規格的構件,以滿足各種待測物尺寸與測力範圍的需求,實用性極佳。亦即,本發明的測力裝置能以更簡易的結構取代測力範圍高(數kN)而待測物安裝面積小的習知三分力量測計;也能選擇合適規格的構件,提供測力範圍較小(數N)而待測物安裝面積較大的測力裝置,以便分析直徑高達10英吋的半導體矽晶圓切割作業。 The force measuring device of the invention can select components of suitable specifications according to the measurement requirements, and meets the requirements of various measuring objects and measuring ranges, and has excellent practicability. That is, the force measuring device of the present invention can replace the conventional three-point force measuring instrument with a high measuring range (several kN) and a small installation area of the object to be tested with a simpler structure; A force measuring device with a small force range (number N) and a large mounting area of the object to be tested, in order to analyze a semiconductor wafer wafer cutting operation up to 10 inches in diameter.

雖然本發明已利用上述較佳實施例揭示,然其並非用以限定本發明,任何熟習此技藝者在不脫離本發明之精神和範圍之內,相對上述實施例進行各種更動與修改仍屬本發明所保護之技術範疇,因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。 While the invention has been described in connection with the preferred embodiments described above, it is not intended to limit the scope of the invention. The technical scope of the invention is protected, and therefore the scope of the invention is defined by the scope of the appended claims.

Claims (15)

一種測力裝置,包含:一個基座,該基座具有一個定位座;一個安裝平台,該安裝平台設於該基座,該安裝平台具有一個平台本體與該定位座沿著Z方向間隔設置,該平台本體的端緣設有一個X向側抵部及一個Y向側抵部;及三個測力模組,各該測力模組的自由端設一個滾珠滾輪,該三個測力模組設於該基座,並分別由其滾珠滾輪抵接該X向側抵部、該Y向側抵部及該平台本體朝向該定位座的表面。  A force measuring device comprises: a base having a positioning seat; a mounting platform, the mounting platform is disposed on the base, the mounting platform has a platform body and the positioning seat is spaced apart along the Z direction, The end of the platform body is provided with an X-direction side abutting portion and a Y-direction side abutting portion; and three force measuring modules, wherein the free ends of the force measuring modules are provided with a ball roller, and the three force measuring modes The base is disposed on the base, and the X-direction side abutting portion, the Y-direction side abutting portion and the platform body face the surface of the positioning seat by the ball roller.   如申請專利範圍第1項所述之測力裝置,其中,該X向側抵部設於該平台本體在X方向上的端緣,該Y向側抵部設於該平台本體在Y方向上的端緣,該X向側抵部及該Y向側抵部分別沿著Z方向朝該定位座延伸但不接觸該定位座。  The force measuring device according to claim 1, wherein the X-direction abutting portion is disposed at an end edge of the platform body in the X direction, and the Y-direction abutting portion is disposed on the platform body in the Y direction. The X-side abutting portion and the Y-direction side abutting portion respectively extend toward the positioning seat along the Z direction but do not contact the positioning seat.   如申請專利範圍第1項所述之測力裝置,其中,該平台本體朝向該定位座的表面設有一溝槽。  The force measuring device of claim 1, wherein the platform body is provided with a groove facing the surface of the positioning seat.   如申請專利範圍第3項所述之測力裝置,其中,該溝槽呈環狀,抵接該平台本體的測力模組抵接在該溝槽所圈圍的範圍內。  The force measuring device of claim 3, wherein the groove is annular, and the force measuring module abutting the platform body abuts within a range enclosed by the groove.   如申請專利範圍第4項所述之測力裝置,其中,抵接該平台本體的測力模組抵接在該溝槽所圈圍的範圍中心處。  The force measuring device of claim 4, wherein the force measuring module abutting the platform body abuts at a center of a range enclosed by the groove.   如申請專利範圍第1項所述之測力裝置,其中,該X向側抵部設於該平台本體一端緣的中間位置,該Y向側抵部設於該平台本體另一端緣的中間位置。  The force measuring device of claim 1, wherein the X-direction abutting portion is disposed at an intermediate position of an end edge of the platform body, and the Y-direction abutting portion is disposed at an intermediate position of the other end edge of the platform body. .   如申請專利範圍第1項所述之測力裝置,其中,該基座設有數個腳柱,該數個腳柱分別由兩端結合該定位座與該安裝平台。  The force measuring device according to claim 1, wherein the base is provided with a plurality of legs, and the plurality of legs are respectively combined with the positioning seat and the mounting platform by two ends.   如申請專利範圍第7項所述之測力裝置,其中,該安裝平台的平台本體 在Z方向的橫截面呈正方形。  The force measuring device of claim 7, wherein the platform body of the mounting platform has a square cross section in the Z direction.   如申請專利範圍第8項所述之測力裝置,其中,該腳柱的數量為四個,該四個腳柱分別對位組裝在該平台本體的四個角隅處。  The force measuring device of claim 8, wherein the number of the legs is four, and the four legs are respectively aligned and assembled at the four corners of the platform body.   如申請專利範圍第9項所述之測力裝置,其中,各該腳柱在Z方向的橫截面呈正方形。  The force measuring device of claim 9, wherein each of the legs has a square cross section in the Z direction.   如申請專利範圍第1項所述之測力裝置,其中,該安裝平台與該基座之間形成一個容置空間,該三個測力模組設於該容置空間中,該基座在該容置空間中設有一個第一座板及一個第二座板,該第一座板沿X方向面向該X向側抵部的部位供組裝一個前述的測力模組,該第二座板沿Y方向面向該Y向側抵部的部位供組裝另一個前述的測力模組。  The force-measuring device of claim 1, wherein the mounting platform and the base form an accommodating space, and the three force-measuring modules are disposed in the accommodating space, and the pedestal is a first seat plate and a second seat plate are disposed in the accommodating space, and the first seat plate is disposed in the X direction facing the X-direction side abutting portion for assembling the foregoing force measuring module, the second seat The other side of the force measuring module is assembled by the plate facing the Y-side abutting portion in the Y direction.   如申請專利範圍第1至11項中任一項所述之測力裝置,其中,各該測力模組具有一個負荷計及一個調整接頭,該負荷計具有一受力方向,該調整接頭沿著該受力方向連接該滾珠滾輪,且該調整接頭設於該滾珠滾輪與該負荷計之間。  The force measuring device according to any one of claims 1 to 11, wherein each of the force measuring modules has a load meter and an adjusting joint, the load meter has a force direction, and the adjusting joint is along The ball roller is connected to the force direction, and the adjusting joint is disposed between the ball roller and the load meter.   如申請專利範圍第12項所述之測力裝置,其中,該滾珠滾輪具有一個頭端,該頭端內設有一個可滾動的主滾珠,且該主滾珠的局部凸伸穿出該頭端以抵接該X向側抵部、該Y向側抵部或該平台本體。  The force measuring device of claim 12, wherein the ball roller has a head end, the head end is provided with a rollable main ball, and a part of the main ball protrudes out of the head end Abutting the X-direction side abutting portion, the Y-direction side abutting portion, or the platform body.   如申請專利範圍第13項所述之測力裝置,其中,該頭端設有相連通的一內滾動室及一外滾動室,且該外滾動室與外部連通,該內滾動室中容置有多個輔助滾珠,該主滾珠容置於該外滾動室中,該主滾珠的體積大於各該輔助滾珠。  The force measuring device of claim 13, wherein the head end is provided with an inner rolling chamber and an outer rolling chamber, and the outer rolling chamber is connected to the outside, and the inner rolling chamber is accommodated. There are a plurality of auxiliary balls housed in the outer rolling chamber, the main balls having a larger volume than each of the auxiliary balls.   如申請專利範圍第13項所述之測力裝置,其中,該滾珠滾輪具有一個螺紋端連接該頭端,該調整接頭設有內螺紋以沿著該負荷計的受力方向連接該滾珠滾輪的螺紋端。  The force measuring device of claim 13, wherein the ball roller has a threaded end connected to the head end, and the adjusting joint is provided with an internal thread to connect the ball roller along a direction of force of the load meter. Threaded end.  
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