TW584586B - Multi-functional fastener driver device - Google Patents
Multi-functional fastener driver device Download PDFInfo
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- TW584586B TW584586B TW91120589A TW91120589A TW584586B TW 584586 B TW584586 B TW 584586B TW 91120589 A TW91120589 A TW 91120589A TW 91120589 A TW91120589 A TW 91120589A TW 584586 B TW584586 B TW 584586B
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584586 ⑴ 玖、發明說明 實犯方式及圖式簡單說明) (發明說明應敘明:發明所屬之技術領域、先前技術、内容 發明背景 1 ·發明範疇 本發明概略關於一扣結件驅動器,尤其關於一可以提供 旋轉力至具有不同尺寸及形態之扣結件的扣結件驅動器。 2 ·先前技藝背景 提供旋怜動作而將扣結件旋入工件内之扣結件驅動器 ,具有各種尺寸及形態。這些驅動器被設計以配合預選扣 結件之尺寸及形態。某些扣結件形態呈非對稱或是,,奇特,, 形狀,因而帶來提供一種可以承接且旋轉扣結件之驅動器 的問題。這些奇特形狀扣結件之範例’包含平頭螺釘、翼 形螺帽以及帶鈎螺釘。 可以旋轉這些奇特形狀扣_結件先^技藝驅動為’被歸 類僅可禮接^種形狀之扣結件。此外,先前技藝驅動器針 對對應於預選形狀之扣結件尺寸變化,僅具有限之裕度。 先前技藝扣結件驅動器,揭示於美國專利第5,697,268 ; 4 724 731 ; 4,7〇6,380 ; 3,812,894 ; 3,742,533 號以及 Des. 3 7 9 4 2 0號。這些先前技藝工具均無法提供將可傳送旋轉 動作至兩個或多個奇特形狀扣結件之工具’其包含但未限 定為平頭ί?、釘、翼形螺帽或帶釣螺釘。當遭逢兩個或多個 不同扣結件時,需用兩個或多個不同之扣結件驅動器。需 要一種多功能之扣結件驅動工具,其將針對各種扣結件而 傳送旋轉力至預定尺寸範圍内之各種扣結件形態。 發明總論 584586 (2) 圓_圖__ 本發明目標為提供一種多功能扣結件驅動工具,其可克 服先前技藝之許多缺點。 本發明之主要目標為提供一種工具,其可容許個人採用 一種工具以驅動數種扣結件型式及尺寸之一至工件内。此 工具特性為其具有多個切槽及通口,用以承接預選之扣結 件。此工具之一優點為當驅動不同尺寸或形態之扣結件時 ,其可以一種工具取代多種驅動工具。 本發明另二目標為提供多數個六角形態之通口。此工具 之一特性為’内置”通口。此工具之優點為其僅需用一個扣 結件驅動器而讓數種尺寸之六角頭扣結件驅送至工件内。 本發明另一目標為提供一種當驅動較大扣結件時,防止 工具變形之方法。此工具之特性為其呈一圓筒形態,其可 讓工具強力地插入一套筒。此工具之優點為其可以驅動較 大扣結件卻不會損壤嚙各i旋养扣結聲敢 本發明另一目標為提供一種旋轉較大帶鈎螺釘或平頭 式扣結件之方法。此工具之特性為一位於工具之扣結件承 接端之預選切槽,其對正一付位於套筒端壁内之對置凹槽 。此工具之優點為其可以驅動較大扣結件卻不會損壞臂構 件或扣結件。 本發明另-一目標為提供一傳送旋轉動作至翼形螺帽扣 結件之工具。此工具之特性為一大體上呈’’ V ”形之外側0 槽,其其具收歛式側壁及一底壁。此工具之優點為其引導 翼形螺帽之”翼部”與底壁及側壁之配合部位呈適當嚙合 ,用以充分地傳送旋轉作至翼形螺帽。 -6- 584586 (3) 本發明另一目標為提供一種工具,其傳送旋轉動作至包 含翼形螺帽,帶鈎螺釘或平頭螺釘之各種扣結件形態。此 工具之特性為一内側之長方形凹槽,其徑向地與外側之大 體呈”V”形之凹槽易位。此工具之優點為其可以提供旋轉 動作至具有較廣尺寸範圍之各種扣結件形態。 本發明另一目標為增加扣結件與工具間之嚙合。此工具 之特性為多數個突面嚙接扇形件,其内凹表面對應翼形螺 帽突面部位'之外凸表面。此工具之優點為當翼形螺帽被主 具強力旋轉蒔,用以穩定翼形螺帽。 本發明另一目標為提供一可以強力驅動一螺樁至一工 件内之工具,此螺樁可拆卸地承接一翼形螺帽。此工具之 特性為一”内置”於第一孔徑之平直螺紋式第二孔徑。此工 具之優點為一種工具可套住螺樁,同時強力地旋翼形螺帽 至螺樁上。 - 本發明另一目標為增加翼形螺帽之’’翼部”與工具間之 嘴合面積。此工具之特性為一位於工具外側凹槽内之區域 性底壁。底壁之内側平面區域,嚙接翼形螺帽之翼部平面 部位。底壁之平面斜角形或變通地呈弓形之外側區域,嚙 接翼形螺帽之翼部弓形部位。此工具之優點為當強力旋轉 翼形螺帽至-一 ”緊’’或”鬆”位置時,其將不會變形翼形螺帽 之翼部。一 一 本發明另一目標為當旋轉式嚙合翼形螺帽之翼部時,用 以增大外側凹槽之’’抓持f’能力。此工具之特性為位於外側 凹槽側壁及座壁上之滾紋表面。此工具之優點為增加翼形 584586584586 玖 玖, the description of the actual mode of committing the invention and the simple description of the drawings) (The description of the invention should state: the technical field, the prior art, and the content of the invention. Background of the invention 1. The scope of the invention The invention relates generally to a fastener driver, especially A fastener driver capable of providing a rotational force to fasteners having different sizes and shapes. 2 · The previous technology background provided a fastener driver which rotates the fastener into the workpiece, and has various sizes and shapes. These actuators are designed to match the size and shape of the pre-selected fasteners. Some fasteners have an asymmetrical shape, or a peculiar shape, and thus pose the problem of providing a driver that can accept and rotate the fasteners. Examples of these peculiar shaped buckles' include flat head screws, wing nuts and hook screws. You can rotate these peculiar shaped buckles In addition, the previous technology driver only has a limited margin for the size change of the fasteners corresponding to the pre-selected shape. Actuators, as disclosed in U.S. Patent Nos. 5,697,268; 4 724 731; 4,708,380; 3,812,894; 3,742,533; and Des. 3 7 9 4 2 0. None of these prior art tools provide the ability to transmit a rotary motion to two Or multiple tools with a unique shape, including but not limited to flat heads, nails, wing nuts, or fishing screws. When two or more different fasteners are encountered, two or more A plurality of different fastener driver. A multifunctional fastener driving tool is needed, which will transmit the rotational force to various fasteners to various fastener shapes within a predetermined size range. Summary of the Invention 584586 (2)圆 _ 图 __ The object of the present invention is to provide a multifunctional fastener driving tool which can overcome many shortcomings of the prior art. The main object of the present invention is to provide a tool that allows individuals to use one tool to drive several types of fasteners One of the type and size of the knot is into the workpiece. This tool is characterized by its multiple cuts and openings for receiving pre-selected fasteners. One of the advantages of this tool is when driving fasteners of different sizes or shapesIt can replace multiple driving tools with one tool. Another object of the present invention is to provide a plurality of hexagonal ports. One of the characteristics of this tool is a 'built-in' port. The advantage of this tool is that it only requires a knot The driver enables several sizes of hexagonal knots to be driven into the workpiece. Another object of the present invention is to provide a method for preventing deformation of a tool when a larger knot is driven. The characteristic of this tool is that it is a cylinder Shape, which allows the tool to be strongly inserted into a sleeve. The advantage of this tool is that it can drive larger knots without damaging the spine knots. Another object of the present invention is to provide a rotary Method for large hook screws or flat-head fasteners. The characteristic of this tool is a pre-selected cut groove located at the receiving end of the fastener of the tool, which is aligned with an opposite groove located in the end wall of the sleeve. The advantage of this tool is that it can drive larger knots without damaging the arm or knots. Another object of the present invention is to provide a tool for transmitting a rotation action to a wing nut fastener. The characteristic of this tool is a generally "V" -shaped outer 0 slot, which has a converging side wall and a bottom wall. The advantage of this tool is that it guides the "wing" of the wing nut with the bottom wall and The mating portions of the side walls are properly meshed to sufficiently transmit rotation to the wing nut. -6- 584586 (3) Another object of the present invention is to provide a tool for transmitting the rotation action to the wing nut including the wing nut. Various forms of knots for hook screws or flat head screws. The characteristic of this tool is a rectangular groove on the inside, which is radially displaced from a generally "V" shaped groove on the outside. The advantage of this tool is that it can Provide rotation action to various buckle pieces with a wide range of sizes. Another object of the present invention is to increase the engagement between the buckle piece and the tool. The tool is characterized by a large number of convex engaging teeth, and its concave surface Corresponds to the convex surface of the convex surface of the wing nut. The advantage of this tool is that when the wing nut is strongly rotated by the main body, it is used to stabilize the wing nut. Another object of the present invention is to provide a strong drive. From a screw to a workpiece The tool has a wing-shaped nut that can be detachably received. The characteristic of this tool is a straight threaded second hole that is "built-in" in the first hole. The advantage of this tool is that a tool can cover the screw while Rotate the wing-shaped nut strongly onto the screw pile.-Another object of the present invention is to increase the area of the mouth between the "wing" of the wing-shaped nut and the tool. The tool is characterized by a regional bottom wall located in a groove on the outside of the tool. The inner flat area of the bottom wall engages the flat part of the wings of the wing nut. The plane of the bottom wall is obliquely or alternatively has an arcuate outer area, engaging the winged arcuate portion of the wing nut. The advantage of this tool is that when the wing nut is strongly rotated to a "tight" or "loose" position, it will not deform the wing portion of the wing nut.-Another object of the present invention is to be a rotary type When engaging the wing portion of the wing nut, it is used to increase the `` holding f '' ability of the outer groove. The characteristic of this tool is the knurled surface located on the side wall and the seat wall of the outer groove. The advantage of this tool is Increase wing shape 584586
(4) 螺帽自工具獲得之旋轉力。 本發明另一目標為提供一承接工具中第一孔徑之較大 螺樁。此工具之特性為用於第一孔徑之較長縱口尺寸。此 工具之優點為其在内部承接一具有以較長部位伸越其間 之螺樁,同時與一緊固於螺樁上之翼形螺帽對置。在内部 承接螺樁,可讓工具合適地嚙接翼形螺帽,俾強力地在 π旋緊’’或’f旋鬆”方向中旋轉。 簡言之,沐發明提供多功能扣結件,其包含具有承接炎 轉動作之裝 '置之第一部位;整體結合該第一部位之第二部 位,該第二部位具有用以傳送旋轉動作至一扣結件之裝置 ,該旋轉動作承接裝置包含一具有六角形態之柄部,該旋 轉動作傳送裝置另外包含一六角形態之通孔,其縱向地自 該第二部位之扣結件承接端延伸;一用以承接具有第一尺 寸之平頭式扣結並之蓋一土槽L蓋篡二 二部位之扣結件承接端延伸;以及一用以承接具有第二尺 寸之平頭式扣結件之第二切槽,該第二切槽縱向地自該第 二部位之扣結件承接端延伸。 圖式簡單說明 前述發明及其優點,可自下面較佳實例之詳細說明且搭 配附圖之閱讀而可即時認知,其中: 圖1為根據本發明之多功能扣結件驅動工具之前視透視 圖; 圖2為圖1中工具之前視正面圖; 圖3為圖1中工具之側視正面圖; 584586(4) Rotational force obtained by the nut from the tool. Another object of the present invention is to provide a larger screw post having a first hole diameter in a receiving tool. The characteristic of this tool is the longer vertical mouth size for the first aperture. The advantage of this tool is that it internally receives a screw pile with a longer portion extending therebetween, and at the same time opposes a wing nut fastened to the screw pile. Internally receiving the screw pile can allow the tool to properly engage the wing nut, and forcefully rotate in the direction of π tightening or 'f unscrewing.' In short, Mu invention provides a multi-functional fastener, It includes a first part having a device for receiving inflammatory transfer action; a second part integrally combined with the first part, the second part having a device for transmitting a rotating action to a knot, the rotating action receiving device It includes a handle with a hexagonal shape, and the rotary motion transmission device further includes a through hole with a hexagonal shape, which extends longitudinally from the receiving end of the knot of the second part; a flat head with a first size And a second groove for covering a soil groove L and a cover for two or two positions of the fastener; and a second slot for receiving a flat-head type fastener with a second size, the second slot is longitudinal The ground extends from the receiving end of the buckle at the second part. The drawings briefly explain the foregoing invention and its advantages, which can be recognized immediately from the detailed description of the following preferred examples and reading in conjunction with the drawings, where: Figure 1 is based on Many inventions Before can perspective buckled member driving tool; Figure 2 is a front view of the tool of FIG prior to Figs. 1; FIG. 3 is a front view of one side of the tool; 584586
(5) 圖4為一套筒之前視透視圖,其根據本發明而在其内承 接多功能扣結件驅動工具; 圖5為插入圖4套筒内之圖1工具之側視正面圖; 圖5A為圖1及4之組合圖,其對正圖4之套筒,用以承接 圖1之工具; 圖6為根據本發明之多功能翼形螺帽扣結件驅動工具之 透視圖; 圖7為圖δ中工具之前視正面圖; 二 圖8為圖6·中工具之側視正面圖; 圖9為圖6中工具之頂視正面圖; 圖1 0為圖9中沿1 0 -1 0連線所取之斷面圖; 圖1 1為圖9中沿1 1 -1 1連線所取之斷面圖; 圖12為圖11中工具之斷面圖,其中一螺樁旋入第二孔口; 圖13為圖10工具之斷面圖,其中一翼形螺帽插入。外侧 凹槽,使得翼形螺帽之’’翼部”,嚙接外側凹槽之座壁; 圖1 4為圖6中根據本發明之多功能翼形螺帽扣結件驅動 工具之變通實施例之透視圖; 圖15為圖14中工具之前視斷面圖; 圖16為圖14中工具之頂視斷面圖;和 圖1 7為圖1 6中沿1 7 -1 7連線所取之斷面圖。 •及 * - 較佳實施例說明 — 現在參考圖式,尤其參考圖1 -3,其根據本發明之多功 能扣結件驅動器之透視,前視及側視斷面圖,以編號1 0 表示。多功能扣結件驅動工具1 0為一單件工具,其由根據 584586 (6) 截峰獅買ί 熟諳本技藝者熟知之製造技術而用鋼材或類似強度材料 製作。驅動器1 0自一手動或動力驅動源(未圖示)承接受旋 轉動作,同時傳送旋轉動作至一扣結件(未圖示)。扣結件 之尺寸及形態範圍,自較小之帶鈎螺釘至較大之平頭扣結 件。 多功能扣結件驅動工具1 0,包含整體聯結至第二部位1 4 之第一部位1 2。第一部位1 2具有六角形態(當自工具1 0之 側視部位觀看),以及大體上較對應之橫向尺寸更長之3從 向尺寸,因&提供一内含一掣子1 8之柄部位1 6,用以最終 插入動力工具之夾頭,或是提供旋轉動作之手動驅動器之 套筒内。 第二部位1 4包含一圓筒形外壁2 0、一六角形態(當自第 二部位1 4之側視部位觀之)之内壁2 2,其構成一六角形扣 結件承接通孔24,其與圓筒形外壁20同軸向地角一扣結件 承接端2 5延伸、一大體上靠近第二部位1 4中段2 8之縱向距 離、以及四個平行第二部位1 4之縱軸延伸之凹槽2 6,俾構 成四個在其間具有四個扣結件頭端嚙接壁3 1之互隔臂構 件30。 六角形扣結件承接通孔2 4,具有預定之橫斷面積,其合 適地承接二對應形態之扣結件頭端。雖然較佳之通孔2 4 形態為六-角形,但亦可採用包含正方形及三角形之變通遒 孔2 4形態。四個凹槽等距隔開,使得鄰接凹槽徑向分隔、 或是偏位9 0度,因而對立地置放四個凹槽中之兩個以構成 徑向切槽3 2及3 4 (雖然凹槽3 2及3 4可以徑向對齊、或是如 -10- ⑺ _ ___贫 果扣結件設計需要不同之偏位泉 位、,i斯八蚤拉、s β 数而異於9〇度地徑向偏 位),其配合承接通孔24而讓— 或34之一中。明顯可見,第 刀棺 θ 加,一人 ^位14僅可在任一承接通孔 24或疋一個徑向切槽32或34 Κ接一預選之扣結件。因此 ,苐二部位14由於其可承接多變 缺 之扣結件而具多功能性。 然而,第二部位1 4在當傳详 _ 於臂構件3。間之間隙而具有::?:至-扣結件時,由 隔内及外壁22及2〇且決定形趙勢。同樣地,分 之 y 牛3 0杈向厚度及對應剛9生 離,為一影響第二部位丨4變 地,目+ ± 4支形度之重要參數。更特別 ♦彳# ?又大秩向厚度之臂構件30 ,其在 田傳送旋轉力至一插入其内之扣 n 4 、、σ仵牯,將具有較小之撓 -及變形。因此,更大之旋轉力被傳送至扣結件。 、本工具10之多功能性能,藉由改變兩個切槽32及之尺 寸或軸向對齊而增大。切槽32及34可同時改變縱向及橫响 尺寸,因而容許不同大小之平頭式扣結件被第二部位Μ 承接。此外切槽32及34可軸向對齊不同之橫向尺寸,因此 形成一 ”内置”之切槽形態。減小切槽32縱向尺寸獲致之外 加好處,為鄰接切槽3 2之臂構件3 〇對應部位,在當傳送旋 轉力至已插入之扣結件時,將更能阻抗變形。除了改變切 槽之縱向及橫向尺寸以減少第二構件丨4及臂構件3 〇之變 外另可藉由提供一推拔至構成切槽3 2及3 4之内側縱方李 3 6而進一步減少變形。相較於可讓扣結件頭端接觸嚙接壁 3 1之平行式内側壁縱壁3 6而言,推拔形壁面3 6在當—扣梦 件頌端插入切槽3 2及3 4時收歛,直至扣結件頭端最終喃接 -11 - 584586 (8) 縱壁3 6之兩面。相較於奎扣結件頭端及平行壁3 6間容許間 隙產生而導致不穩定旋轉力傳送之平行式内側縱壁3 6而 s ’推拔式壁面3 6由於在推拔式壁面3 6及扣結件頭端間之 持續嚙接而提供一種自第二部位丨4至一平頭式扣結件之 連續傳送旋轉動作之方法。(5) FIG. 4 is a front perspective view of a sleeve that receives a multifunctional fastener driving tool therein according to the present invention; FIG. 5 is a side front view of the tool of FIG. 1 inserted into the sleeve of FIG. 4; Fig. 5A is a combined view of Figs. 1 and 4, which is aligned with the sleeve of Fig. 4 to receive the tool of Fig. 1; Fig. 7 is a front view of the tool in Fig. Δ; Fig. 8 is a side view of the tool in Fig. 6; Fig. 9 is a front view of the tool in Fig. 6; Sectional view taken along the -1 0 line; Figure 11 is a sectional view taken along the line 1 1 -1 1 in Figure 9; Figure 12 is a sectional view of the tool in Figure 11, one of which is a screw pile Screw into the second hole; FIG. 13 is a sectional view of the tool of FIG. 10, in which a wing nut is inserted. The outer groove makes the “wing” of the wing nut engage the seat wall of the outer groove; FIG. 14 is a modified implementation of the driving tool of the multifunctional wing nut fastening device according to the present invention in FIG. 6 A perspective view of the example; FIG. 15 is a cross-sectional view of the tool in FIG. 14; FIG. 16 is a top cross-sectional view of the tool in FIG. 14; and FIG. 17 is a line along the line 1 7 -1 7 in FIG. A cross-section view is taken. • and *-Preferred embodiment description-Reference is now made to the drawings, particularly to Figs. 1-3, a perspective, front and side cross-sectional view of a multifunctional fastener driver according to the present invention. , Denoted by the number 1 0. The multi-functional fastener driving tool 10 is a single-piece tool, which is made of steel or a similar strength material according to manufacturing techniques familiar to those skilled in the art based on 584586 (6) Truncus. The driver 10 accepts the rotation from a manual or power drive source (not shown), and transmits the rotation to a knot (not shown). The size and shape of the knot are from the smaller belt Hook screws to larger flat-head fasteners. Multi-function fastener driver 10, including integral connection to The first part 12 of the two parts 14 is the first part 12. The first part 12 has a hexagonal shape (when viewed from the side view of the tool 10), and is generally longer than the corresponding lateral dimension of 3 dimensions, because & amp Provide a handle part 16 containing a detent 18 for final insertion into a chuck of a power tool or a sleeve of a manual drive that provides a rotary action. The second part 14 includes a cylindrical outer wall 2 0. The inner wall 22 of a hexagonal shape (when viewed from the side view of the second part 14), which constitutes a hexagonal knot receiving hole 24, which is coaxial with the cylindrical outer wall 20 to the ground angle A buckle receiving end 25 extends, a longitudinal distance substantially close to the middle section 14 of the second part 2 8 and four grooves 2 6 extending parallel to the longitudinal axis of the second part 14 4 form four There are four interlocking arm members 30 with four end-to-end engaging walls 3 1 therebetween. The hexagonal-shaped knots receive the through holes 24 and have a predetermined cross-sectional area, and they suitably receive two correspondingly shaped knots. Head end. Although the preferred shape of the through hole 2 4 is hexagonal, it can also include squares and triangles. The shape of the countersunk holes 2 4. The four grooves are equally spaced, so that adjacent grooves are radially spaced or offset by 90 degrees, so two of the four grooves are placed opposite to form a radial direction. Grooves 3 2 and 3 4 (Although the grooves 3 2 and 3 4 can be aligned radially, or as -10- _ _ _ _ _ _ _ poor fruit knot design needs a different offset spring position, The number of pulls and s β varies from 90 degrees to the radial deviation), and it cooperates with the receiving hole 24 to make one of—or 34. It can be clearly seen that the first knife θ plus, one person ^ bit 14 can only be at any one The receiving hole 24 or a radial slit 32 or 34 is connected to a pre-selected fastener. Therefore, the second part 14 is multifunctional because it can take on various fasteners. However, the second part 14 is more detailed in the arm member 3. With a gap between ::? : To-buckle, the inner and outer walls 22 and 20 determine the shape of the Zhao potential. In the same way, the y-three-thickness thickness of the branch and the corresponding thickness of n = 9 are important parameters that affect the change of the second part, the ground, and the shape of the +4 branch. More special ♦ 彳 #? Arm member 30 with a large rank thickness, which transmits the rotating force in the field to a buckle n 4, σ 仵 牯 inserted into it, will have less deflection-and deformation. Therefore, a greater rotational force is transmitted to the knot. The multifunctional performance of the tool 10 is increased by changing the size or axial alignment of the two notches 32 and. The slits 32 and 34 can change the vertical and horizontal dimensions at the same time, thus allowing flat-head fasteners of different sizes to be taken over by the second part M. In addition, the grooves 32 and 34 can be axially aligned with different lateral dimensions, thus forming a "built-in" groove shape. An additional advantage is obtained by reducing the longitudinal dimension of the cut slot 32, which is the corresponding position of the arm member 30 adjacent to the cut slot 32, and when the rotational force is transmitted to the inserted fastener, it will be more resistant to deformation. In addition to changing the longitudinal and lateral dimensions of the slot to reduce the change of the second member 4 and the arm member 3 0, it can be further advanced by providing a push to the inside longitudinal plum 3 6 constituting the slot 3 2 and 3 4 Reduce deformation. Compared with the parallel inner wall longitudinal wall 3 6 which can make the head end of the fastener contact the engaging wall 3 1, the push-shaped wall surface 3 6 is inserted into the cut groove 3 2 and 3 4 Converge until the head end of the knot finally touches -11-584586 (8) Both sides of the vertical wall 36. Compared with the parallel inner longitudinal wall 3 6 which allows the gap between the head end and the parallel wall 3 6 of the knuckle knot to allow the generation of unstable rotational force, and s' push-type wall surface 3 6 because of the push-type wall surface 3 6 And the continuous engagement between the head and the end of the knot to provide a method for continuously transmitting and rotating the movement from the second position to a flat head knot.
多功能驅動工具1 〇之性能,可藉由將,,内置,,之六角形通 孔’ 38與承接通孔24同軸向而進一步增強。内置通孔38 具有大體上相同於承接通孔2 4之六角形態,只是内置通二孔 3 8之對應尺’寸較小。此種内置式排列,造成一外緣壁4〇 成形於承接通孔24底部。外緣壁40不僅作用為插入承接通 孔24之扣結件六角形頭端之止動壁,其同時提供外加之橫 向厚度至與其鄰靠之臂構件3〇對應部位。外加之橫向厚度 ,在當傳送旋轉力至扣結件時,減少臂構件3〇之撓度。 現在參考圖4[5二錢The performance of the multi-function driving tool 10 can be further enhanced by coaxially aligning the hexagonal through-holes 38 with the through-holes 24 with the built-in. The built-in through hole 38 has a hexagonal shape substantially the same as the receiving through hole 24, except that the corresponding size of the built-in through hole 38 is smaller. This built-in arrangement causes an outer edge wall 40 to be formed at the bottom of the receiving hole 24. The outer edge wall 40 not only functions as a stop wall of the hexagonal head end of the fastening member inserted into the receiving hole 24, but also provides an additional lateral thickness to the corresponding position of the arm member 30 adjacent thereto. In addition, the lateral thickness reduces the deflection of the arm member 30 when transmitting the rotational force to the fastener. Referring now to Figure 4 [5 Erqian
之旋轉力將扣結件驅入工件中。在這些情況下,第二部《 14將不顧工具1〇之設計而變形成不可接送之形態。為了予 防此種變形度,具有一大體上與第二部位14之外壁2〇同夕 徑具同轴向之内壁44之圓筒拟冰仇丨太性 心圓同形外側套筒42,強力地承接$ 一部位1 4,使得第二部位1 & & 14之扣結件承接端25呈平面形 或是與套筒42之對應承接端 鲕46片十。套筒42包含一較戸 壁44外徑—更大之圓筒形外辟4 外漉48,因此防止第二構件以之^ 形,同時提供足夠之表面面穑播 囬積以構成一端壁50,其可讓- 付對置之凹槽5 2,在第二構 t件I4之承接端25内,鄰靠切才 32或34之一置放。 •12-The rotational force drives the fastener into the workpiece. Under these circumstances, the second "14" will change into a non-receivable form regardless of the design of tool 10. In order to prevent such a degree of deformation, a cylinder having an inner wall 44 with a coaxial inner wall 44 substantially coaxial with the outer wall 20 of the second part 14 and a concentric outer sleeve 42 with a concentric heart shape is strongly received. $ 1 site 14 so that the receiving end 25 of the buckle of the second site 1 & 14 has a flat shape or 46 pieces of ooli 46 corresponding to the receiving end of the sleeve 42. The sleeve 42 includes a cylindrical outer opening 4 which is larger than the outer diameter of the wall 44, and thus prevents the second member from being shaped, and at the same time provides a sufficient surface area to spread back to form an end wall 50. It can be used to deal with the opposite groove 52, and it can be placed adjacent to one of the cut 32 or 34 in the receiving end 25 of the second structure t4. • 12-
584586 凹槽52平行套筒42縱軸延伸一段較切槽32及34之縱命 伸展為小之距離。凹槽52具有與切槽32或34之一之橫向尺 寸相同之橫向尺寸。凹槽52鄰靠切槽32或34之一置放,因 而將選定切槽32或34之縱向尺寸,放大至大體上相同於套 筒42之外壁4 8外徑,因此容許嚙接更大之扣結件頭端,同 日守可藉由組合之第二部位1 4及套筒4 2而加以旋轉。 操作時’多功能扣結件驅動工具丨〇之第一部位丨2,藉由 柄部位1 6緊、固一手動或動力式旋轉驅動工具。具有預定% 態之扣結件,,被插入與第一部位丨2整體聯結之第二部位1 4 内之對應形態六角形通孔2 4或3 8,或是切槽3 2或3 4内。旋 轉動作藉由臂構件3 0自旋轉驅動工具傳送至扣結件,因而 &供足夠之旋轉力將扣結件推入工件。 套筒42被用以合適地承接工具1〇於其内,俾當選定之扣 、(件較大且需要更大之1轉力將扣結件驅入件時,防止 臂構件3 0之變形。套筒42包含一與第二部位丨4之扣結件承 接端25同平面之外緣或端壁5〇。套筒42端壁50包含對置之 凹槽52,其鄰靠任一切槽32或34置放以加長選定之切槽, 因而提供較大扣結件與已組合工具丨〇及套筒4 2間之更大 喃接面積’因此傳送旋轉力至扣結件頭端之更大部位,同 時減少工具1 〇及套筒42之磨耗。 現在參4圖6-9,其根據本發明描述一多功能翼形螺帽 扣結件驅動工具6 0之透視、前、側及頂視斷面圖。翼形螺 帽扣結件驅動工具6 0為上面詳述之多功能扣結件驅動工 具1 0之變通實施例。翼形螺帽工具6 〇包含一第一或柄部位 -13- 584586 (ίο) 62、一第二或圓筒形部位64、以及一整體聯結柄部位62 至圓筒形部位6 4之截錐形中間部位6 6,使得施加至柄部位 6 2上之旋轉力,得以傳送至圓筒形部位6 4之扣結件端或驅 動端68。584586 The groove 52 extends parallel to the longitudinal axis of the sleeve 42 for a distance smaller than the longitudinal life of the cut grooves 32 and 34. The groove 52 has the same lateral dimension as the lateral dimension of one of the cutouts 32 or 34. The groove 52 is placed adjacent to one of the cutouts 32 or 34, so that the longitudinal dimension of the selected cutout 32 or 34 is enlarged to be substantially the same as the outer diameter of the outer wall 48 of the sleeve 42, so that a larger engagement The head of the knot can be rotated by combining the second part 14 and the sleeve 42. In operation, the first part of the multi-functional fastener driving tool 丨 〇 2 is tightened and fixed by a handle part 16 to a manual or powered rotary driving tool. A fastener with a predetermined% state is inserted into the corresponding hexagonal through hole 2 4 or 3 8 in the second part 1 4 which is integrally connected with the first part 丨 2 or in the slot 3 2 or 3 4 . The rotary motion is transmitted to the knot by the arm member 30 from the rotary driving tool, so that a sufficient rotational force is used to push the knot into the workpiece. The sleeve 42 is used to properly receive the tool 10 therein. When the selected fastener is larger and requires a greater 1 turn force to drive the fastener into the component, the arm member 30 is prevented from being deformed. The sleeve 42 includes an outer edge or an end wall 50 that is in the same plane as the receiving end 25 of the fastener at the second portion 4. The end wall 50 of the sleeve 42 includes opposite grooves 52 that abut any groove 32. Or 34 is placed to lengthen the selected notch, thus providing a larger coupling area between the fastener and the combined tool and the sleeve 42, so the rotation force is transmitted to the larger end of the fastener. Parts, while reducing the abrasion of the tool 10 and the sleeve 42. Now refer to FIG. 6-9, which describes a perspective, front, side, and top view of a multifunctional wing-shaped nut fastener driving tool 60 according to the present invention. Sectional view. Wing nut driving tool 60 is a modified embodiment of the multifunctional buckle driving tool 10 detailed above. Wing nut tool 60 includes a first or shank portion-13 -584586 (ίο) 62, a second or cylindrical portion 64, and a truncated cone-shaped intermediate portion 6 of the integral connecting shank portion 62 to the cylindrical portion 6 6 So that the rotational force applied to the handle portion 62, is transmitted to the cylindrical portion 64 of the member buckled or driving end 68 side.
柄部位62呈六角形態,其包含一掣子70以及最終插入一 旋轉工具内之配合末端部位7 2。柄部位6 2之橫向及縱向尺 寸,適可插入一標準式旋轉工具,使得中間及圓筒形部位 64及66可離靠旋轉工具定位卻避免與旋轉工具相聯,因二而 提供安全性:及最大之旋轉力。 中間部位6 6與柄部位6 2同軸且整體相聯,其包含一與工 具60之圓筒形部位64同軸且整體相聯之圓筒形段74。圓筒 形段74外徑,大於柄部位62之橫向尺寸,但小於圓筒形部 位6 4之外徑,因此可讓工具6 0驅動一尺寸較旋轉工具之驅 動端更大之翼形螺帽。 __________________________________________ -The shank portion 62 has a hexagonal shape and includes a detent 70 and a mating end portion 72 which is finally inserted into a rotary tool. The horizontal and vertical dimensions of the shank part 62 can be inserted into a standard rotary tool, so that the middle and cylindrical parts 64 and 66 can be positioned away from the rotary tool but avoid being associated with the rotary tool. It provides safety due to two: And maximum rotational force. The middle portion 6 6 is coaxial and integrally connected with the shank portion 62 and includes a cylindrical section 74 coaxially and integrally connected with the cylindrical portion 64 of the tool 60. The outer diameter of the cylindrical section 74 is larger than the lateral dimension of the shank portion 62, but smaller than the outer diameter of the cylindrical portion 64. Therefore, the tool 60 can drive a wing nut with a larger size than the driving end of the rotary tool. . __________________________________________-
圓筒形部位6 4包含一自中間部位6 6縱向伸至驅動端6 8 之圓筒形夕卜耳7 6、一與外壁7 6同軸向且自驅動端6 8延伸一 較短軸向距離之圓筒形内壁78、一與内壁78同軸向之第一 孔徑7 9,其延伸一段鄰靠圓筒形部位6 4之縱向中間部位以 定位第一孔徑7 9底壁8 1之軸向距離、一與第一孔徑7 9同軸 向且自第,孔徑79底壁81伸至一大體上鄰靠工具60中間 部位6 6之-縱向位置之第二非推拔形或平直螺紋式孔徑B 3 、一橫向伸越圓筒形部位6 4之驅動端6 8且伸至一較内壁7 8 軸向長度稍長之’’深度’’尺寸之外側推拔凹槽8 0、以及一徑 向伸越驅動端6 8且與外側凹槽8 0徑向易位之内側長方形 -14- 584586 ⑼ 發明說明續頁 凹槽82。The cylindrical portion 6 4 includes a cylindrical body 7 extending longitudinally from the intermediate portion 6 6 to the driving end 6 8, a coaxial axis with the outer wall 7 6 and extending a short axial distance from the driving end 6 8. A cylindrical inner wall 78, a first aperture 79, which is coaxial with the inner wall 78, extends a section of the longitudinal middle portion adjacent to the cylindrical portion 64, to locate the axial distance of the first aperture 7 9 bottom wall 81 A second non-push or straight threaded aperture B, coaxial with the first aperture 79, and extending from the bottom wall 81 of the aperture 79 to a position substantially adjacent to the middle portion 6 of the tool 60 in the longitudinal position. 3. A driving end 6 8 extending laterally beyond the cylindrical portion 6 4 and extending to an inner wall 7 8 with a slightly longer “depth” in the axial length, and pushing the groove 8 0 outside, and a radial Inner rectangle -14- 584586 which extends beyond the driving end 68 and is radially displaced from the outer groove 80. 说明 Description of the groove 82 on the continuation sheet.
外側推拔形凹槽80大體上呈nV,’型(見圖7中自工具60之 前視圖觀之),其配置自驅動端6 8延伸至座壁8 6之較’f陡’f 收歛式側壁8 4。側壁8 4承接翼形螺帽1 0 4之”翼部π 1 0 2,俾 引導翼形螺帽104合適地與座壁86及收歛式側壁84嚙接( 見圖13)。座壁86之橫向尺寸較其縱向尺寸為小。座壁86 包含被第一孔徑7 9分開之兩段,每段包含嚙接翼形螺帽對 應部位之内'部及外部斜角形接面部位8 8及9 0。内側部位弋8 為對置之平:面徑向延伸壁,其垂直圓筒形部位6 4之心軸, 同時自第一孔徑7 9四周伸至座壁8 6之外側部位9 0。外側部 位9 0整體聯結對應之内側部位8 8以及圓筒形部位64之外 壁76,使得一較大之銳角成形於圓筒形内壁78與座壁86 之外側部位90之間。内側部位88嚙接翼形螺帽104翼部102 之對應平面部位,而外側部位90嚙接翼部1 02之對應弓形 部位,因而在工具60與翼形螺帽1 04間,提供多處接觸點 ,俾自工具60傳送旋轉動作之至翼形螺帽104而不致使翼 部1 0 2變形。雖然外側部位9 0已在上面細述為”平面形’’, 但外側部位形態可以呈弓形以增進與翼形螺帽1 04翼部 1 0 2之弓形部位喃接。旋轉動作之傳送,可藉由在外側凹 槽8 0之側壁8 4與座壁8 6上,增加滾紋表面型式之’f抓持” 能力而進-一步加強。 參考圖6,9,1 0,1 1,1 2及1 3,長方形内側凹槽8 2,徑 向地與外側推拔形凹槽8 0易位大約9 0度,因而可讓工具6 0 不僅承接且旋轉翼形螺帽扣結件,同時旋轉驅動上面詳述 -15- 584586 (12) 纖___綫_;纖:_数麵凝数灘_ 之平頭形及帶钩螺釘扣結件。内側凹槽82徑向伸越驅動端 68’俾與圓靖形内壁78及第一與第二孔經79與83整體聯結 。内側凹槽82與外側凹槽80及第一孔徑79配合以形成四個 自圓筒形部位64之驅動端6 8呈錐坑形之突面嚙接扇形件 92。每,突面嚙接扇形件具有一内凹突面嚙接表面94,其 相合地嚙接翼形螺帽1 〇 4之一對應突面部位丨〇 6,俾當工具 60藉由嚙接且旋轉翼形螺帽104翼部102之外側凹槽8〇而 傳送旋轉tT作至翼形螺帽時,用以穩定翼形螺帽丨〇4。二第 一孔徑79之外徑,較固合於一第一工件(未圖示)内之預選 螺樁9 6外徑為大,俾最終地承接且緊固一第二工件(未圖 示)。螺樁96具有一第一端98,其通過第一孔徑79且旋入 縱向”内置’’於第一孔徑7 9内側之平直螺紋式第二孔徑8 3 ’用以緊固螺樁96至工具60上。第二孔徑83之尺寸,適可 疑轉承接螺樁9 對直_^―牙之盖一貧 具有一第二端100 ’其凸出工具60驅動端68之外一段尺寸 ,俾容許第二端100插入第一工件一段可緊固螺樁96至第 一工件之深度。第二孔徑83可讓工具6〇旋轉式驅動螺樁96 之帶螺紋第二端100至第一工件,直至螺樁96與其緊固且 旋合方止。一旦螺樁96被緊固後,工具之反向旋轉可由於 第二孔徑8-3之平直螺紋之非黏合特徵而可輕易地將工具 60與螺樁$6分開。 - 螺樁9 6最終地插過第二工件内之孔徑,因此一翼形螺帽 用手旋緊於螺樁9 6上。工具6 0被定位於螺樁9 6上,使得工 具6 0之外側凹槽8 0,承接翼形螺帽1 〇 4之翼部1 〇 2,而第一 (13) (13) 584586 孔徑79承接螺樁96之第一端98。工具60旋轉式旋緊翼形螺 幅104’直至第一工件被緊固至第一工件方止。明顯可見 ,第一孔徑7 9之縱向尺寸,必須可以承接伸越已鎖緊翼形 螺樁104,翼部102之螺樁96縱向部位,因而防止阻擔螺樁 9 6縱向伸越翼形螺帽。此外,第二孔徑83之縱向尺寸,必 須小於翼形螺帽104之軸向尺寸,俾當旋緊翼形螺帽ι〇4 而將第二工件與第一工件緊固時,預防螺樁96再插入第二 孔徑83内。、 二 操作時,一多功能翼形螺帽扣結件裝置6〇被用以移去或 旋聚一翼形螺巾i 1 0 4於一螺樁9 6上。同樣地,此裝置6 〇可 以強力驅動螺樁9 6至一工件内。為了固定螺樁於工件内, 螺樁9 6經由工具6 0之驅動端6 8旋入一平直螺紋式第二孔 徑8 3 ’使得部分螺樁9 6凸出驅動端6 8之外。工具6 〇可拆除 地被固至 旋轉動作工具上’同時外凸螺格9 4被旋入工 件内。一旦緊固螺樁96後,工具60因反轉旋轉工具之旋轉 方向而自螺樁96中拆下。一個需要鬆脫或旋轉之翼形螺帽 1 0 4 ’喝接工具6 0圓同开> 邵位6 4之驅動端6 8。螺樁9 6 #弛 地插入第一孔徑7 9至一靠近第二孔徑8 3之位置。翼形螺帽 1 0 4合適地配入工具6 0之驅動端6 8,使得翼形螺帽1 0 4之翼 部1 0 2,同時嚙接驅動端6 8内一外側凹槽8 0之收敛式側壁 8 4及座壁6 ;而翼形螺帽1 〇 4之外凸突面部位1 〇 6,嚙接Μ 由在與第一孔徑7 9配合之驅動6 8内之外側及内側凹槽8 0 及82行成形之突面禮接扇形件92之對應内凹突面嗤接表 面9 4。接著’翼形螺帽1 〇 4可被鬆:弛或緊固至必要位置而 -17- 584586The lateral push-out groove 80 is generally nV, (see Fig. 7 viewed from the front view of the tool 60), and its configuration extends from the driving end 6 8 to the seat wall 8 6 and is more steep than f. Side wall 8 4. The side wall 84 receives the wing portion π 1 0 2 of the wing nut 104, and the 俾 guide wing nut 104 is suitably engaged with the seat wall 86 and the converging side wall 84 (see FIG. 13). The lateral dimension is smaller than its longitudinal dimension. The seat wall 86 includes two sections separated by the first aperture 7 9, and each section includes the inner portion of the corresponding portion of the mating wing nut and the outer beveled portion 8 8 and 9 0. The inner part 弋 8 is the opposite flat: the surface extends radially, and the mandrel of its vertical cylindrical part 64 is extended from the periphery of the first aperture 7 9 to the outer part 90 of the seat wall 8 6. The outer portion 90 is integrally connected to the corresponding inner portion 88 and the outer portion 76 of the cylindrical portion 64, so that a large acute angle is formed between the cylindrical inner wall 78 and the outer portion 90 of the seat wall 86. The inner portion 88 is engaged The wing-shaped nut 104 corresponds to the corresponding flat portion of the wing portion 102, and the outer portion 90 engages the corresponding arc-shaped portion of the wing portion 102. Therefore, a plurality of contact points are provided between the tool 60 and the wing-shaped nut 104. The tool 60 transmits the rotation action to the wing nut 104 without deforming the wing part 102. Although the outer part 90 has been described in detail above as "Planar shape" ', but the shape of the outer part may be arched to enhance the articulation with the arched part of the wing nut 104, the wing part 102. The transmission of the rotation action can be further strengthened by adding the 'f-holding' ability of the knurled surface pattern on the side wall 8 4 and the seat wall 86 of the outer groove 80. Refer to FIG. 6, 9, 1 0,1 1,1 2 and 1 3, the rectangular inner groove 8 2 is radially displaced from the outer push groove 8 0 by about 90 degrees, so that the tool 6 0 can not only receive and rotate the wing screw. Cap buckle, rotate and drive at the same time detailed above -15- 584586 (12) fiber _ line _; fiber: _ number surface Ning number beach _ flat head shape and hook screw fastener. The inner groove 82 diameter The driving end 68 ′ is extended to the circular inner wall 78 and the first and second holes 79 and 83 as a whole. The inner groove 82 cooperates with the outer groove 80 and the first hole 79 to form four self-cylinders. The driving end 6 8 of the shaped part 64 is a cone-shaped convex surface engaging sector 92. Each convex surface engaging sector has a concave convex surface engaging surface 94, which engages the wing nut 1 in conformity. One of 〇4 corresponds to the protruding surface area 丨 〇6. When the tool 60 transmits the rotation tT to the wing nut by engaging and rotating the wing nut 104 and the groove 80 on the outer side of the wing portion 102, Stable wing Nut 丨 04. The outer diameter of the second first hole 79 is larger than the outer diameter of the pre-selected screw 9 6 which is fixed in a first workpiece (not shown), and finally accepts and fastens a second Workpiece (not shown). The screw pile 96 has a first end 98, which passes through the first aperture 79 and is screwed into the longitudinal direction. The straight threaded second aperture 8 3 'is inside the first aperture 7 9 To fasten the screw pile 96 to the tool 60. The size of the second aperture 83 is suitable for suspicious transfer of the screw pile 9 to the straight _ ^-the tooth cover has a second end 100 'which protrudes beyond the driving end 68 of the tool 60, and allows the second end 100 Inserting a section of the first workpiece can tighten the screw pile 96 to the depth of the first workpiece. The second aperture 83 allows the tool 60 to rotationally drive the threaded second end 100 of the screw pile 96 to the first workpiece until the screw pile 96 is fastened and screwed together. Once the stud 96 is tightened, the reverse rotation of the tool can easily separate the tool 60 from the stud $ 6 due to the non-adhesive feature of the straight thread of the second aperture 8-3. -The screw pile 9 6 is finally inserted through the hole in the second workpiece, so a wing nut is screwed onto the screw pile 9 6 by hand. The tool 60 is positioned on the screw pile 96, so that the groove 60 on the outer side of the tool 60 receives the wing portion 10 of the wing nut 10 and the first (13) (13) 584586 aperture 79 To receive the first end 98 of the screw pile 96. The tool 60 rotates and tightens the airfoil 104 'until the first workpiece is fastened to the first workpiece. Obviously, the longitudinal dimension of the first aperture 7 9 must be able to take over the longitudinal portion of the locked wing screw 104 and the screw portion 96 of the wing portion 102, thereby preventing the stud 9 6 from extending longitudinally beyond the wing screw. cap. In addition, the longitudinal dimension of the second aperture 83 must be smaller than the axial dimension of the wing nut 104. When the wing nut is tightened and the second workpiece is fastened to the first workpiece, the screw pile 96 is prevented. It is then inserted into the second aperture 83. During the operation, a multifunctional wing-shaped nut-fastening device 60 was used to remove or rotate a wing-shaped towel i 1 0 4 on a screw pile 9 6. Similarly, the device 60 can strongly drive the screw pile 96 into a workpiece. In order to fix the screw pile in the workpiece, the screw pile 96 is screwed into a straight threaded second hole diameter 8 3 ′ through the driving end 6 8 of the tool 60 so that part of the screw pile 9 6 protrudes beyond the driving end 68. The tool 60 is detachably fixed to the rotary action tool 'while the convex screw grid 9 4 is screwed into the work piece. Once the screw pile 96 is tightened, the tool 60 is removed from the screw pile 96 by reversing the direction of rotation of the rotating tool. A wing nut 1 0 4 ′ which needs to be loosened or rotated is a driving end 6 8 of the connecting tool 6 0 in the same position > The screw pile 9 6 is inserted loosely into the first hole 79 to a position close to the second hole 83. The wing nut 1 0 4 is suitably fitted into the driving end 6 8 of the tool 60, so that the wing portion 10 of the wing nut 10 2 is engaged with an outer groove 8 0 of the driving end 6 8 at the same time. Converging side wall 8 4 and seat wall 6; while the wing nut 1 0 4 is convex on the convex surface part 1 06, and the joint M is driven by the driving 6 8 which cooperates with the first aperture 7 9 and is concave inside and outside The corresponding convex concave surface butt joint surfaces 9 4 of the convex surface gift joint sector 92 formed in the rows of grooves 80 and 82. Then the 'wing nut 1 04 can be loosened: relaxed or fastened to the necessary position and -17- 584586
(14) 不需將螺樁96插入第二孔徑83。一旦翼形螺帽104被旋至 必要位置後’工具6 0可輕易地自翼形螺帽i 〇 4及螺樁9 6中 拆下。 現在參考圖1 4至1 7,概示一多功能翼形螺帽扣結件驅動 工具6 0之變通型或修改型實施例,其用數字1 5 〇表示。修 翼形螺帽扣結件驅動工具1 5 〇大體上與早先工具6 〇相同, 差異處為早先工具60之推拔式凹槽8〇,被一具有平行式縱 向側壁1 5 4.之長方形凹槽丨5 2 (見圖1 5 )取代,此側壁1 5 4較 底壁156略長·且與其垂直。長方形凹槽152之尺寸,適可合 適地承接翼形螺帽1 〇 4之翼部1 〇 2 (見圖1 3 ),同時可在翼部 1 0 2與側壁1 5 4之間提供加多之嚙接面積,因此當增加施加 至翼形螺帽1 0 4上之旋轉動作量而將較大物件緊固在一起 時,可以預防翼部102之變形。為了進一步加大自工具15〇 傳送至翼形螺帽J 0 4之旋 相對於翼形螺帽1 〇 4之橫向移動,工具1 5 〇之底壁1 5 6可經 成形而相合地嚙接翼部1 〇 2之對應部位,因此當翼形螺帽 104被緊固至或自一螺紋式螺樁96中拆下時(見圖13),穩 定工具1 5 0與翼形螺帽1 〇 4間之鄰接位置。 而述說明僅供概說明的,無意限制本發明所述之保護範 圍。保護範-圍由下面之申請專利範圍規範,其視本具創意 傑作之範i而儘可能廣泛地加以解說。 圖式代表符號說明 10 多功能扣結件驅動工具 12 第一部位 -18 - 584586 (15) 14 第二部位 16 柄部位 18 掣子 20 圓筒件外壁 22 内壁 24 扣結件承接通孔 25 扣結件承接端 26 :凹槽 28 、第二部位之中段 30 臂構件 31 嚙接壁 32,34 徑向切槽 36 内側縱向壁 38 内置通孔 40 外緣壁 42 套筒 44 内壁 46 承接端 48 外壁 50 -端壁 52 一 凹槽 60 翼形螺帽扣結件驅動工具 62 第一或柄邵位 64 第二或圓筒形部位(14) It is not necessary to insert the screw pile 96 into the second aperture 83. Once the wing nut 104 is screwed to the necessary position, the 'tool 60' can be easily removed from the wing nut 104 and the nut 96. Referring now to FIGS. 14 to 17, there is shown an alternative or modified embodiment of a multifunctional wing nut knot driving tool 60, which is represented by the number 150. The winged nut fastener driving tool 1 5 〇 is substantially the same as the previous tool 6 〇 The difference is the push-in groove 80 of the previous tool 60, which is rectangular with a parallel longitudinal side wall 1 54. The groove 5 2 (see FIG. 15) is replaced, and the side wall 1 5 4 is slightly longer than the bottom wall 156 and is perpendicular to the bottom wall 156. The size of the rectangular groove 152 is suitable for receiving the wing part 10 of the wing nut 1 104 (see FIG. 13), and at the same time, it can provide more between the wing part 102 and the side wall 1 54. The engagement area of the wing portion 102 can be prevented when the larger objects are fastened together by increasing the amount of rotation action applied to the wing nut 104. In order to further increase the lateral movement of the rotation transmitted from the tool 15 to the wing nut J 0 4 relative to the wing nut 104, the bottom wall 156 of the tool 150 can be shaped to engage with each other. Corresponding part of the wing part 102, so when the wing nut 104 is fastened to or removed from a threaded screw pile 96 (see FIG. 13), the stabilizing tool 150 and the wing nut 1 〇 Adjacent position of 4 rooms. The description is only for general description, and is not intended to limit the protection scope described in the present invention. The protection scope is covered by the following patent application scope, which is explained as widely as possible according to the scope of the original creative masterpiece. Description of Symbols of the Drawings 10 Multi-function fastener driving tool 12 First part -18-584586 (15) 14 Second part 16 Handle part 18 Detent 20 Outer wall of cylindrical member 22 Inner wall 24 Fastener receiving hole 25 Buckle Receiving end 26: groove 28, middle section 30 of second part 30 arm member 31 engaging wall 32, 34 radial groove 36 inner longitudinal wall 38 built-in through hole 40 outer edge wall 42 sleeve 44 inner wall 46 receiving end 48 Outer wall 50-end wall 52 a groove 60 wing nut fastener driving tool 62 first or shank position 64 second or cylindrical portion
-19--19-
Claims (1)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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US09/568,299 US6715384B1 (en) | 2000-05-09 | 2000-05-09 | Multi-functional fastener driver device |
Publications (1)
Publication Number | Publication Date |
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TW584586B true TW584586B (en) | 2004-04-21 |
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ID=34062189
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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TW91120589A TW584586B (en) | 2000-05-09 | 2002-09-10 | Multi-functional fastener driver device |
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TW (1) | TW584586B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103507016A (en) * | 2012-06-26 | 2014-01-15 | 鑫爵实业股份有限公司 | Improved sleeve structure |
-
2002
- 2002-09-10 TW TW91120589A patent/TW584586B/en not_active IP Right Cessation
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103507016A (en) * | 2012-06-26 | 2014-01-15 | 鑫爵实业股份有限公司 | Improved sleeve structure |
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