201031905 六、發明說明: 【發明所屬之技術領域】 【先前技術】 刀離,藉此測量出該物件表面的黏著力。 、 表面 (如/帶的方i對薄膜狀物件 ^表面時不舰薄财生_哪, ί在操作上賴料雜小心,否動 ❹ 每讀雜制力 其係二新揭露-種黏度測試裝置’ 利用固定峨 3 201031905 測頭則可^町歡勤峰似戦财拉力峰值。 :EF工:度:二::, ❹ 具有能夠適同i 二:種表面黏著力測量裝置,其 測量物。 式的待測量物,例如圓柱型或平面型的待 體及的Λ的ί功效,該黏著力測量裝置係包含一機 而可活動地且受驅動機構驅動 卿擦作用,—測量器組财該浮動座上,装空 座而位移。如此該測量器能夠以穩定ΐί 的測量^^ 細量物表面,以獲得穩U具參考價值 配合目_效,以下_—較佳實施例,並 【實施方式】 置,圖及第2圖,本發明揭露一種黏著力測量裝 -底ί 1G及—驅賴構2G。機體ig的構成包括 座敝合’且更有紐16組設在該底 24播ί Γ 。驅動機構2〇係由一馬達22及一螺桿 體fot端ϋ言’馬達22可以是一飼服馬達且安裝在機 ,/4干24 —端連接馬達22,另一端可轉動地組設 4 201031905 在一塊體26上。塊體26可以組設在立座14上或為立座14的 一部份。 一承载座30係可活動地組設在機體1〇上;更詳而言之, 承載座30係一滑塊32結合一承載塊34所構成,其中滑^免& 開設有穿孔35和36分別供導柱16及螺桿24穿過。其中穿孔 36内固設有嚙合件38與螺桿24嚙合(如第2圖所示)上述的 嚙合件38可以是螺帽。承載塊34係固接或形成在滑塊% 一 侧’其具有一貫穿構造的穿孔39(如第2圖所示)。 凊再參閱第2圖,一浮動座40係組設在承載座3〇上。更 ® ί触4G储H浮元件50,域浮元件5〇 的穿孔39内,使得浮動座4〇藉自重靠置在 此外’浮動座4G能夠相對承載座30位移,特 別疋軋汁疋件50能夠與承載座30形成低摩擦作用。 及承載座氣浮元㈣ ⑼的12上錄在測量器 參 及-感:^二80包含-受偵測器82 二為為感測器,其===: 物的表^ _於11柱形之待測量 置 狀之待測量物的表 201031905 於一平台74組設在工件载具7〇上,且平台 6〇的位移路徑。換言之,將平面形狀的待測量物iiUf 74上,即可操侧量㈣來進行表轉著力置在千。 關於本發明的使用,請參閱第4圖,以 物可以呈現轉固1^1 崎縮構造’所以待測量 70的仞罢佔eydT丨旦狀&,此外,使用者可以微調工件載呈 70的位置使侍侍測量物9〇對準測量器⑼。 漱-、 ❹ ❿ 爐20螺^與响合件%的相對運動促使承載座30受驅動機 同時浮動座4〇因疊靠在承載座3〇 量物卯Λ面 測量器6〇的探頭62會接觸到待測 人,第5圖’測量器60與浮動座40及氣浮元件50結 LΖ動座4〇靠置在承載座30上,所以螺桿24持續轉動 ^氏觸座30繼續向下位移;然而測量器6〇的探頭62 在量物9G的表面,所以測量㈣不再向下位“ 座40及氣浮疋件50保持在固定的高度,而相對 承載座30而言形成分離狀。 野 所元件%可崎低其與承載座3G _摩擦作用, 4〇與承載座3〇分開的過程不會過度改變探頭6〇 9〇 90表面的接觸力;再者測量器60作用於待測量物 知沾舌I力包含測41160的自身4量及浮誠4G、氣浮元件 往:si if,是以即使重覆操作,本發明仍可以使測量器60與 、Z置物90的接觸力保持在極小的誤差變化範圍。 、 咖參閱第6圖,浮動座40與承载座30分離的過程,受偵 戽站、t。與感測器84也隨之相對運動;當感測器84偵測不到 又煩測器82時’承載座3G停止向下位移。 π參閱第7圖,驅動機構2〇的螺桿24可以進行反轉,此 6 201031905 載座3G穩定地向上位移重新與浮動座* 座3j)的向上位移可以帶動浮動座4〇及測由承载 90表面脫離時所產生黏著接作用可測量物 面黏著力,絲_著力的參考數值。乍切騎物90的表 用所述,本發_露對制量物提供固定的接_ 著力測量數值具有相當高的參雜及可驗。目此所得到黏201031905 VI. Description of the invention: [Technical field to which the invention pertains] [Prior Art] The knife is separated, thereby measuring the adhesion of the surface of the object. , surface (such as / with the side of the film on the surface of the film ^ surface is not a thin Fortune _ which, ί in the operation of the care of the care, no move ❹ every read miscellaneous force of its new two exposed - kind of viscosity test device' Using the fixed 峨3 201031905 probe, you can use the peak of the 町 欢 勤 勤 戦 戦 : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : The object to be measured, such as a cylindrical or planar type of body and the effect of the crucible, the adhesion measuring device comprises a machine and is movable and driven by the driving mechanism to wipe the effect, the measuring device group is floating On the seat, the displacement is filled with empty seats. Thus, the measuring device can measure the surface of the fine object with a stable measurement to obtain a stable reference value of the U-shaped reference, the following _ - preferred embodiment, and [embodiment The present invention discloses an adhesive force measuring device-bottom 1G and a drive-by structure 2G. The body ig is composed of a seat mate and a group of 16 is set at the bottom of the broadcast.驱动 Drive mechanism 2 is a motor 22 and a screw body fot end rumor 'motor 22 It can be a feeding motor and mounted on the machine, the /4 dry 24 - terminal is connected to the motor 22, and the other end is rotatably assembled 4 201031905 on the block 26. The block 26 can be assembled on the stand 14 or stand A portion of the seat 14. A carrier 30 is movably assembled to the body 1; more specifically, the carrier 30 is formed by a slider 32 coupled to a carrier block 34, wherein the slider Perforations 35 and 36 are provided for the passage of the guide post 16 and the screw 24, respectively, wherein the engaging member 38 is engaged with the screw 24 in the through hole 36 (as shown in Fig. 2). The engaging member 38 may be a nut. The carrier block 34 is fastened or formed on the side of the slider %. It has a through-hole 39 (as shown in Fig. 2). Referring to Fig. 2, a floating seat 40 is assembled on the carrier 3. In the perforation 39 of the domain floating element 5〇, the floating seat 4〇 is placed on the other side of The cymbal 50 can form a low friction with the carrier 30. And the carrier floating air element (4) (9) is recorded on the measuring device 12-sensing: ^80 package - The detector 82 is a sensor, and its ===: table of objects ^ _ table of 2010-11905 to be measured in a column shape to be measured, set in a platform 74 on the workpiece carrier 7 〇上, and the displacement path of the platform 6〇. In other words, on the plane shape of the object to be measured iiUf 74, the amount of the side can be manipulated (4) to set the table turning force to 1000. For the use of the present invention, please refer to Fig. 4 The object can be turned into a solid 1^1 crunching structure' so that the 待 丨 ey ey ey ey , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Measuring device (9).漱-, ❹ ❿ The relative movement of the furnace 20 screw and the hinge member % causes the carrier 30 to be driven by the driver at the same time. The probe 62 is stacked on the carrier 3 and the probe 62 of the measuring device 6〇 Contacting the person to be tested, FIG. 5 'measuring device 60 and the floating seat 40 and the air floating element 50 are connected to the movable seat 4 〇 on the bearing seat 30, so the screw 24 continues to rotate the contact seat 30 to continue downward displacement However, the probe 62 of the measuring device 6 is on the surface of the measuring object 9G, so the measurement (4) is no longer in the downward position "the seat 40 and the air floating element 50 are maintained at a fixed height, and form a separate shape with respect to the carrier 30. The component % can be lower than the carrier 3G _ friction, and the process of separating from the carrier 3 不会 does not excessively change the contact force of the surface of the probe 6 〇 9 〇 90; again, the measuring device 60 acts on the object to be measured Knowing the tongue I force includes measuring the self 4 amount of 41160 and the float 4G, the air floating element to: si if, the present invention can maintain the contact force between the measuring device 60 and the Z storage 90 even if the operation is repeated. A very small range of error variation. See Figure 6, the process of separating the floating seat 40 from the carrier 30, subject to The station, t. and the sensor 84 also move relative to each other; when the sensor 84 does not detect the anomaly 82, the carrier 3G stops moving downward. π Refer to Fig. 7, the driving mechanism 2〇 The screw 24 can be reversed. This 6 201031905 carrier 3G stably displaced upwards and the upward displacement of the floating seat *3) can drive the floating seat 4〇 and measure the adhesion caused by the surface of the bearing 90 to be measured. The surface adhesion, the reference value of the wire _ force. The table of the cut-cut riding object 90, the hair _ dew provides a fixed connection to the measuring object _ force measurement value has a relatively high impurity and can be tested. This gets sticky
請參閱第8圖,探頭62係由一探針64及 f成’其中探針62魏触雜穿較錢66。4二:所 塊66具有一凹入構造的定位槽67,且探針64穿過 =;來,待測量物9G為圓柱形時,定位塊 置在待測量物90表面,而騎64可以?過 ^ 測量物90的表面。 牙313疋位塊66接觸待 面椹圖,探頭62的另一實施例係定位塊邰為一平 面構k的塊體’且探針64能夠穿過定位塊68 = 以測量平面構造的待測量物92。 此構乂適合用 ,上乃本發明之較佳實施例以及設計圖式,惟較 =設計赋僅是舉舰明,並侧於關本發蔽^ 範圍’凡以均等之技藝手段、或為下述「申請專利範;之^ 範圍而實施者’均不脫離本發明之範« 【圖式簡單說明】 第1圖係本發明第一實施例外觀圖。 第2圖係為本發明第一實施例結構示意圖。 第3圖係本發明第二實施例外觀圖。 第4圖係本發明承載座向下位移使用狀態示意圖。 7 201031905 第5圖係本發明浮動座與承載座分離狀態示意圖 第6圖係本發明浮動座與承載座分離狀態示意圖 第7圖係本發明承載座向上位移使用狀態示意圖 第8圖係本發明探頭結構示意圖之一。 第9圖係本發明探頭結構示意圖之二。 【主要元件符號說明】 10機體 12底座 赢 14立座 20驅動機構 16導柱 22馬達 24螺桿 26塊體 30承載座 32滑塊 34承載塊 35、36穿孔 38喃合件 39穿孔 40浮動座 50氣浮元件 60測量器 64探針 62探頭 66定位塊 67定位槽 68定位塊 70工件載具 72置物槽道 74平台 80行程偵測組件 82受偵測器 84感測器 90、92待測量物Referring to Fig. 8, the probe 62 is formed by a probe 64 and f, wherein the probe 62 is in contact with the money 66. 4: the block 66 has a recessed configuration of the positioning groove 67, and the probe 64 When the object to be measured 9G is cylindrical, the positioning block is placed on the surface of the object to be measured 90, and the ride 64 can be? Pass ^ to measure the surface of object 90. The tooth 313 clamp block 66 contacts the to-be-faced view, and another embodiment of the probe 62 is a block block that is a planar k-piece and the probe 64 can pass through the positioning block 68 = to measure the planar configuration to be measured Matter 92. This configuration is suitable for use, and is a preferred embodiment of the present invention and a design pattern, but the design is only for the purpose of the ship, and the scope of the invention is limited to the technical means of equalization or the following The invention is not limited to the scope of the present invention. [Fig. 1 is an external view of the first embodiment of the present invention. FIG. 2 is a first embodiment of the present invention. 3 is an external view of the second embodiment of the present invention. Fig. 4 is a schematic view showing a state in which the carrier of the present invention is displaced downward. 7 201031905 FIG. 5 is a schematic view showing the state of separation of the floating seat and the carrier of the present invention. FIG. 7 is a schematic view showing the structure of the probe of the present invention. FIG. 9 is a schematic diagram of the structure of the probe of the present invention. FIG. 9 is a schematic diagram of the structure of the probe of the present invention. Component symbol description] 10 body 12 base win 14 stand 20 drive mechanism 16 guide column 22 motor 24 screw 26 block 30 carrier 32 slider 34 carrier block 35, 36 perforation 38 mate 39 piercing 40 floating seat 50 Floating element 60 measuring probe 62 of the probe 66 is positioned 64 block 67 block 70 positioning groove 68 is positioned the workpiece carrier 72 the cargo platform 80 channels 74 travel detecting sensor assembly 8284 to be measured by the detectors 90, 92 thereof