1341765 六、發明說明: 【發明所屬之技術領域】 本心月係與手工具套合部結構有關,主要係將套合於 ίί:合件之手工具套合部作一改良’尤指-種旋動時係 套5於公制、英制尺寸、·Χ及各式形狀螺合件之套人 部結構。 卞 【先前技術】 、按吾人先前所知,可套合各形狀螺合件之套筒結構, 如美國專利3 6 7 5 5 1 6以及美國公告號2 Q 〇 4/ 0093996即台灣專利申請號:〇9121828 6此一件專利案結構原理係為:該套筒成型有—套人 ^該套合孔内環狀排列有十二個凸塊, ° 相同形狀且該各凸塊間之凹槽係為同樣之大小,如 =二圖所示,該美國專利3675516之凸塊結構如 =不係呈44度及45度之尖形凸塊,該美國公告 " 4/0 0 9 3 9 9 6係呈圓弧狀抵頂面之凸 结:原理,該二件專利案之套筒即可套合齒輪 直 $、,、邊形之螺合件進行旋動作業,此即為二件 專利案之優點 姓槿将2 1美國公開刖案之缺失係為:螺合件最常見之 ϋ制、六邊形英制'齒輪形以及星形五規 Ί $胃/λ邊形公制為Umniaf係與六邊形英制 絲形19及星形E24搭配同一套筒,而六邊 ^制為18咖時係與六邊形英制11/B、齒輪形 3 1341765 1 8及星形e 2 2搭配同一套筒,但六邊形公制為1 9 m與六邊形英制3/4及星形E 2 4三者間係有不同差m 矩,同理六邊形公制為1 8mm與六邊形英制丄j/工6 及星形E 2 2差矩又不同,該二件美國專利案套筒之十二 凸塊係呈環狀問隔排列,該間隔排列係使各凸塊間具相= / 間矩,若設計時使該套筒旋動六邊形公制19mm符合旋 /動時公差時,該套筒旋動六邊形英制3/4或星形E g ^ 鲁公差即不同也許太大或太小,同理該套筒旋動六邊形公制 為18mm符合旋動時公差時,該套筒旋動六邊形英制工 .1/1 6及星形E 2 2公差即不同也許太大或太小 .形狀之螺合件有其不同之規格其公差範圍即不同,該各種 =之螺合件間所形成之差矩亦不同且係無法有公式可 二之’该㈣係環設有十二個凸塊,原理上即具相同間 ^该相同間隔結構並無法符合套合各種形狀螺合件時之 述…件美國么開刖案另-缺失係在於,請參閱第十 二不’係為習用手工具套合部之前視圖亦為上述二件美 國專利案之結構原理,第+ 一 、 圖’該本p ( 圖係為第十圖之A處放大 η:六(0)套合孔作用端係設有十二個凸塊(9 向中,、:置槽:9 2)相環狀間隔排列,該凸塊(9 1 ) ι° 1二係凸起—卡制部(91 1 ),該卡制部(9 為相同二: = 該十二個凸塊(9 1 )係均 六邊形之第-套合綠塊(9 1 )係向内係相切構成 、(9 3)及第二套合線(9 4),該 4 1341765 第-套合線(9 3)及第二套合線 長之六邊形。 y 4)係為邊面相專 人件但;1T工廠中最常旋動的螺合件係為六邊形螺 形螺合件中即設有公制及英制尺寸規袼,雖 之螺二、國公開讀之結構設計係可符合多種形狀 累口件套合旋動,如齒輪型螺合件、星形E螺合件、三 角形螺口件··等’但其使用的比例仍不及公制尺寸及英 制尺寸之六相螺合㈣的多,而公制及㈣尺寸間雖部 分規格可相互配合套用,但仍有多數規格尺寸卻相距甚大 而無法共用。 該A制或英制之尺寸規格均有統一公定,該公定尺寸 規格之製作係有- R A N G E可依據,意即該一種尺寸的 套合部有其最大及最小之尺寸範圍,其中又如公制尺寸2 1mm及英制尺寸1 3/1 6的套合部來作解說,該公制 尺寸21mm之尺寸range係為21 .06〜21 · 籲 3 6 m m間使疑動2 1公制螺合件時符合其公差,而該英 制尺寸1 3/1 6其尺寸RANGE係為20. 75 2〜 2 0. 9 8 8 m m使旋動1 3/1 6英制螺合件時可符合 其公差,但若要將此一套筒(g 〇 )可旋動公制及英制時, 比較該英制尺寸之最大尺寸值係仍不及公制尺寸之最小 值範圍。 當第十圖之套筒之第一套合線(9 3 )及第二套合線 (9 4 )設計符合公制2 1 m m規格時,該第一套合線(9 3)及第二套合線(94)即無法符合英制尺寸13/1 1341765 6,此雖可套合但其間隙即太大並不附合標準,該兩者間 之套合部即係無法共用之,該第十三圖係為旋動2丄公制 螺合件(2 0)時,若第一套合線(9 3)及第二套合線 (9 4)係符合公制2 1 mm規格時,旋動2 1之公制螺 合件(2 0) η寺’第-套合線(9 3 )與公制螺合件(2 0 )即可符合公差Η,但該第十二圖旋動丄3/;1 6之英1341765 VI. Description of the invention: [Technical field to which the invention belongs] The heart and the moon are related to the structure of the hand tool and the combination of the hand tool, and the main part is to fit in the hand tool sleeve of the ίί: When swung, the sleeve 5 is in the metric structure of the metric, inch size, Χ and various types of screw fittings.卞[Prior Art], as previously known by us, can fit the sleeve structure of each shape screw, such as US Patent 3 6 7 5 5 1 6 and US Bulletin No. 2 Q 〇 4 / 0093996, Taiwan Patent Application No. :〇9121828 6 The structural principle of this patent case is as follows: the sleeve is formed with a set of people. The sleeve is arranged in a circular shape with twelve protrusions, ° the same shape and the groove between the protrusions. The same size, as shown in the figure 2, the bump structure of the US patent 3,675,516, such as = not pointed at 44 degrees and 45 degrees, the US Bulletin " 4/0 0 9 3 9 9 The 6 series is a convex arc with an arc-shaped top surface: the principle, the sleeve of the two patents can be fitted with the gear straight, and the screw-shaped part of the edge is rotated, which is two patents. The advantage of the case is that the missing part of the US public lawsuit is: the most common twisting of the screw fittings, the hexagonal inch 'gear shape and the star five gauges Ί $ stomach / lambda metric metric is Umniaf and The hexagonal inline wire 19 and the star E24 are matched with the same sleeve, and the six sides are made of 18 coffee and hexagonal 11/B, geared 3 1341765 1 8 and The star e 2 2 is matched with the same sleeve, but the hexagonal metric is 19 m and the hexagonal 3/4 and the star E 2 4 have different difference m moments. The same hexagon is metric. The difference between the 1 8mm and the hexagonal inch /j/gong 6 and the star E 2 2 is different. The twelve bumps of the two US patent sleeves are arranged in a ring-shaped interval, and the spacing arrangement is The phase between the bumps has a phase = / mutual moment. If the sleeve is designed to rotate the hexagonal metric 19mm to meet the rotational/moving tolerance, the sleeve is rotated by the hexagonal inch 3/4 or star E g ^ Lu tolerances may be too large or too small. Similarly, when the sleeve is rotated hexagonal metric is 18mm to meet the tolerance of the rotation, the sleeve is rotated by the hexagonal inchman.1/1 6 and star E 2 2 The tolerance is different or too small. The shape of the screw has different specifications and the tolerance range is different. The difference between the various screw parts is different and there is no formula. The 'fourth ring' is provided with twelve bumps. In principle, it has the same space. The same spacing structure does not meet the requirements of fitting various types of screwing parts. Please refer to the twelfth non-section as the prior art tool kit. The front view is also the structural principle of the above two US patent cases. The first one, the figure 'this p' (the figure is the tenth part of the figure A) η: The six (0) sleeve hole end is provided with twelve bumps (9-way, :: groove: 9 2), which are arranged in an annular interval, and the bumps (9 1 ) ι° 1 Bulge-carding part (91 1 ), the carding part (9 is the same two: = the twelve bumps (9 1 ) are hexagonal-the first set of green blocks (9 1 ) The internal tangent composition, (9 3) and the second set of wires (9 4), the 4 1341765 first-fit line (93) and the second set of line-length hexagons. y 4) is a special component for the side surface; however, the most commonly rotated screw in the 1T factory is a hexagonal screw-shaped screw with metric and inch size gauges. The structural design of the reading system can meet the rotation of a variety of shape fittings, such as gear type screwing parts, star E screwing parts, triangular screw parts, etc. 'but the proportion used is still less than the metric size and inch size The size of the six-phase screwing (four) is much, while the metric and (four) dimensions can be used in combination with some specifications, but most of the sizes are still very large and cannot be shared. The size specifications of the A or the British system are uniformly defined. The production of the standard size specification is RANGE, which means that the size of the sleeve has the largest and smallest size range, and the metric size is 2 The 1mm and the inch size 1 3/1 6 sleeves are used for explanation. The size of the metric size 21mm is 21 .06~21 · The call of 3 6 mm makes the suspected 2 1 metric screw fit the tolerance. And the inch size 1 3/1 6 has a size RANGE of 20.75 2~ 2 0. 9 8 8 mm, the tolerance can be met when the 1 3/1 6 inch screw is rotated, but to When a sleeve (g 〇) can be rotated in metric and inch sizes, the maximum size of the inch size is still less than the minimum range of the metric size. When the first set of wires (9 3 ) and the second set of wires (9 4 ) of the sleeve of the tenth figure are designed to conform to the metric 2 1 mm specification, the first set of wires (9 3) and the second set are The wire (94) cannot meet the inch size 13/1 1341765 6. Although it can be nested but the gap is too large and does not conform to the standard, the fitting between the two cannot be shared. When the three drawings are used to rotate the 2 metric metric screw (20), if the first splicing line (9 3) and the second splicing line (9 4) conform to the metric 2 1 mm specification, the rotation 2 1 metric screw fittings (2 0) η寺' first-sheathing wire (9 3) and metric screwing fittings (20) can meet the tolerance Η, but the twelfth figure is rotating 丄3/;1 6 English
制螺合件(2 1 )時,產生公差η即太大並不符合其旋動 標準。 中又如公制尺寸2 〇 m m之r a N G Ε係為2 〇·06〜20.36mm’該英制尺寸25/32其尺 ANGE係為 1 9 . 9 3 9 〜2 0 · 1 7 5mm,比較唁 兩者間雖有部分尺寸重疊,但若需製作出符合兩者尺寸範 圍之套合部即需相當的技術及困難度, 3)及第二套合線(94)需在2〇.175 = (〇9 6間才可旋動公制2 0mm及英制尺寸2 5 / 3 2,狄八 制及英制之標準規格其尺賴部份有重4、部分尺寸卻^ =交集’此規格尺寸上無交集或重4過小時,該二件美國 利之某尺寸套筒即無法設計旋動英制及公制,如可旋 :公制2 1即無法旋動英制1 3/1 6,此係為二件美國 專利結構原理上無法突破之處,該二件 ^ :=合件,但大多數卻無法旋動英制螺二即 负繼π上述 ‘<丁夭图寻利示心釈失,申抹 專利案,臺灣專利申請號〇9222〇41^、該專= 6 、、、。構係為.—種套筒結構改良,其主要係包含有:—套筒 於作用端内役面依序形成卡制緣、容置槽及凹槽呈順序環 狀排列’套筒内;^面之卡制緣係為突出面’於卡制緣與另 一卡制緣間係為容置槽,並於卡制緣突出之孤面接近;心 ^處凹凹槽,使其卡制緣由原先之—弧面增加為二個 此+件專利案邊套筒設有卡制緣,該卡制緣上凹設有一 凹槽’藉由卡制緣、容置槽與凹槽間之關係即可套合 ㈣之螺合件’但該套筒實際旋動螺合件時,該專利案雖 y比上述—件美國專利案旋動各種形狀螺合件時可減少 叙動很多規格上之旋動公差,但此結構亦無法由公制物 Μ至3 6MM均可配合所有英制與星形E規格,相當多之 規格上旋動公差仍過大或過小,此專利案於結構即需有修 本發明人有鑑於上述各專㈣之優點,乃藉多年從事 行業之經驗,終於有—實雜且能改善㈣弊端之產 品問世。 【發明内容】 #π·ΓΓ尤指—種手卫具套合部結構,該套合部旋動時 係可套s於公制、英制尺寸、贿及各式形狀之套合部择 構。 、、口 具體而言,本發明係關於一種手工具 =一本體設有十二個卡制緣,每一該卡制二; 第一谷置槽及第二容置槽間,該每_卡制緣係包括—個卡 制部、第一漸進面及 内相切構成二個六邊^ 1,該十二個卡制緣係可向 每一卡制部係頂抵於第t套合線及第二套合線,亦即 上,第-套入_!1合線與第二套合線之邊面 係套合於英败权;尺寸之螺合件,第二套合線 該每二個卡制緣本體係設有六條對分線’ :侧邊係設有第-容置槽及第二:置=二= 一星形螺合件之星形凸塊且 塊且度係可容納齒輪形螺合件之齒輪凸 藉此,該本體設有十二個卡制緣,絲—卡制緣兩侧 ^係设有不同寬度之第—容置槽及第二容置槽,該十二個 卡制緣係可内相切構成第一套合線及第二套合線,該第一 套合線係配合公制螺合件,該第二套合線係配合英制螺合 件,該本體即可套合於公制螺合件、英制螺合件、星形螺 合件、齒輪形螺合件或其它形狀螺合件而驅動,該第一容 置槽係容設星形螺合件’該第二容置槽係容設齒輪形螺合 件,該本體設有二不同容置槽結構即可符合旋動該二螺合 件之公差。 為使鈞局委員及熟習於此項技藝人士對本發明之 功效完全瞭解,茲配合圖式及圖號就本發明之結構、組成 詳細說明於后: 【實施方式】 1341765 及閱!:圖及第二圖所示’係本發明之前視圖 及A處放大圖’本發明係關於一種手工具套合部結構,其 係包括: α ,太:=ΐθ)’該本體(Μ)外觀約為圓筒形, :本-(1⑸内面依序設有沿著該中心縱軸線的十二個 卡制緣(11 ),每-該卡制緣(11)係介於第一容置 槽(1 2)及第二容置槽(i 2 1 )間,哕第 2)及第二容置槽(121)俜為丄個3 —谷置槽(1 L = i 第二容置槽(121)的長度延伸 万向係與該中心縱軸線平行; 該每一卡制緣(1 1 )係包括一個卡制部(i i 第一漸進面(112)及第二漸進面(113), 部(11 1 )係略呈朝中心縱軸線凸起,該每—卡制部“ 1 1)係呈弧面狀’該卡制部(1i u : 對稱狀之第一漸進面(112)及第二漸進二〜有)非 漸進面(112)係與卡制部及第一容 置寺曰(1 2 )圓滑地相接,該第二漸進面(1 窗一 第一合置“ 1 2 1 )圓滑地相切,該 漸進面(1 1 2)及第二漸進面(i丄3)係 =兩者間係具有一夾角該夾角c係為45度至55 平之Ϊ十ί個㈣緣(11)係可向内相切構成二個六邊 —乂 套合線(1 3)及第二套合線(丄4)’亦即每 J邛(1 1 1 )係頂抵相切於第—套合線(1 3 )與 9 1341765 第二套合線(14)之邊面上,該第一套合線3)與 第二套合線(1 4)係相矩3 0度,第一套合線(1 3) 與第二套合線(1 4)中心線均係與中心縱軸線重合,該 第—套合線(1 3)及第二套合線(i 4)兩者係為不同 邊面長度之/、邊形,第一套合線(1 3 )係套合於公制尺 寸之螺合件,第二套合線(1 4)係套合於英制尺寸之螺 合件; ' 該本體(1 〇 )係設有六條對分線(丄5 ),該每一 對分線(1 5)均係通過第二套合線(工4)之各角端處 並與第-套合線(1 3 )之各邊面相垂直’該每一對分線 (1 5 )係自本體(1 〇)之中心縱軸線處往外發射,該 卡制緣(1 1 )之中心處相對於對分線(工5 )間係具有 -夾角B,該失角b係介於i 2度至i 8度之間,該第一 圖所有之爽角線均重合於本體(1 0 )之令心縱軸線,當 第一圖A處放大圖之卡制緣(11)設為第-卡制緣(1 1 ),該順時針數來之第二卡制緣(i i )係以對分線(2 5)為中心與第—卡制緣(1 1)呈相對稱,該第三卡制 緣(1 1)與第四卡制緣(1 1)同樣以第二對分線(1 5):中心兩者相對稱,同理該依序之每二個卡制緣(1 制绫:广;'刀、線(1 5)為中心呈對稱狀’每相鄰之二卡 f ϋ )係以第-容置槽(1 2)呈對稱,以及每相 狀二卡制緣(11)係以第二容置槽When the screw (2 1 ) is made, the tolerance η is too large to meet the standard of the rotation. In the metric size of 2 〇mm, the NG Ε system is 2 〇·06~20.36mm'. The inch size is 25/32. The ANGE system is 1 9 . 9 3 9 ~ 2 0 · 1 7 5mm. Although some of the dimensions overlap, if you need to make a fit that meets the size range of the two, you need to have considerable skill and difficulty. 3) and the second set of wires (94) need to be at 2〇.175 = ( 〇9 6 can be rotated metric 20 mm and inch size 2 5 / 3 2, Di eight system and imperial standard specifications, the size of the ruler has a weight of 4, part of the size but ^ = intersection 'this size does not intersect Or the weight of 4 hours, the two pieces of the United States can not be designed to rotate the inch and metric, such as the spin: metric 2 1 can not be rotated 1 3 / 1 6, this is two US patent structure In principle, there is no way to break through, the two pieces ^ := fittings, but most of them can not rotate the imperial snails, that is, the negative π above '<Ding 夭 寻 寻 寻 寻 , , 申 申 申 申 申 申 申 申 申 申 申 申The patent application number 〇9222〇41^, the special = 6 , , ,. The structure is a kind of improvement of the sleeve structure, which mainly includes: the sleeve is in the inner end of the working end. The card edge, the accommodating groove and the groove are arranged in a circular arrangement in the sleeve; the card edge of the surface is a protruding surface, and the accommodating groove is formed between the card edge and the other card edge, and The solitary surface protruding from the edge of the card is close to the groove; the concave groove of the heart is increased, so that the card edge is increased from the original one to the arc surface. The + side patent sleeve has a clamping edge, and the card edge is concave. A groove is provided to fit the screw of the (4) by the relationship between the clamping edge and the receiving groove and the groove. However, when the sleeve actually rotates the screwing member, the patent is more than the above- The U.S. patent case can reduce the swirling tolerance of many specifications when rotating various shape screwing parts, but this structure can not be adjusted from metric to 3 6MM, and can match all the inch and star E specifications, quite a lot. In terms of specifications, the rotation tolerance is still too large or too small. The patent case needs to be repaired in the structure. In view of the advantages of the above-mentioned special (4), the inventor has been working in the industry for many years, and finally has some problems and can improve (4) [Inventive content] #π·ΓΓ Especially refers to the structure of the hand-held slings, when the slewing part is rotated The sleeve is in the metric system, the inch size, the bribe, and the various parts of the shape of the sleeve. In particular, the present invention relates to a hand tool = a body with twelve card edges, each of the cards Between the first valley slot and the second accommodating slot, the _ card edge includes a carding portion, a first progressive surface, and an inner tangent to form two hexagons ^ 1, the twelve The carding edge can be applied to the t-sleeve and the second splicing line to each of the clamping portions, that is, the first-side _!1 splicing line and the second splicing line Fitted in the English defeat; the size of the screw, the second set of the line, each of the two card edge system has six bisectors': the side is equipped with a first accommodating slot and the second: Set = two = a star-shaped projection of the star-shaped screw and the block and the system can accommodate the gear of the gear-shaped screw member. The body is provided with twelve card edges, and the wire-card edge The side is provided with a first accommodating groove and a second accommodating groove of different widths, and the twelve clamping edges can be internally tangentially formed to form a first set line and a second set line, the first set The line is matched with the metric screw, the second set The utility model is matched with the English screwing component, and the body can be driven by the metric screwing component, the inch screwing component, the star screwing component, the gear shape screwing component or the other shape screwing component, and the first accommodating groove is driven. The second accommodating groove is provided with a gear-shaped screwing member, and the body is provided with two different accommodating groove structures to meet the tolerance of rotating the two screwing members. In order to enable the members of the Board and those skilled in the art to fully understand the effects of the present invention, the structure and composition of the present invention will be described in detail with reference to the drawings and drawings: [Embodiment] 1341765 and read!: 2 is a front view of the present invention and a magnified view of A. The present invention relates to a hand tool sleeve structure, which comprises: α, too: = ΐ θ) 'The body (Μ) looks about a cylinder Shape, the inner surface of the present (1(5) is sequentially provided with twelve card edges (11) along the longitudinal axis of the center, and each of the card edges (11) is interposed between the first receiving grooves (1 2) And between the second accommodating groove (i 2 1 ), the 哕 2nd) and the second accommodating groove (121) 丄 are a 3-valley groove (1 L = i the length of the second accommodating groove (121) The extension cardan is parallel to the longitudinal axis of the center; the each card edge (1 1 ) includes a carding portion (ii a first progressive surface (112) and a second progressive surface (113), a portion (11 1 ) The system is slightly convex toward the central longitudinal axis, and each of the "1 1" is in a curved shape. The carding portion (1i u : the first progressive surface (112) of the symmetry and the second progressive second Yes) The progressive surface (112) is smoothly connected to the locking portion and the first housing temple (12), and the second progressive surface (the first window "1 2 1" is smoothly and tangentially cut, The progressive surface (1 1 2) and the second progressive surface (i丄3) system have an angle between the two. The angle c is 45 degrees to 55 degrees. The tenth (four) edge (11) can be inward. Tangent to form two six-sided 乂 乂 line (1 3) and the second set of line (丄 4)', that is, every J 邛 (1 1 1) system top tangential to the first line (1) 3) and 9 1341765 on the side of the second set of wires (14), the first set of wires 3) and the second set of wires (1 4) are at a moment of 30 degrees, the first set of wires (1) 3) The center line of the second set of wires (14) coincides with the central longitudinal axis, and the first and second sets of wires (13) and the second set of wires (i4) are different lengths of the sides. /, edge shape, the first set of wire (1 3) is fitted to the metric size screw, the second wire (14) is fitted to the inch size screw; 'the body ( 1 〇) There are six bisectors (丄5), each of which is passed through the corners of the second set of wires (work 4) And perpendicular to each side of the first-clamping line (1 3 )', each of the pair of dividing lines (15) is emitted outward from the central longitudinal axis of the body (1 〇), the clamping edge (1 1 ) The center has an angle -B with respect to the bisector (Work 5), and the angle b is between i 2 degrees and 8 degrees, and all the cool lines of the first figure coincide with the body ( 1 0) The longitudinal axis of the heart, when the card edge (11) of the enlarged view at the first figure A is set as the first card edge (1 1 ), the clockwise number of the second card edge (ii) It is symmetrical with the first card edge (1 1) centering on the halve line (25), and the third card edge (1 1) is the same as the fourth card edge (1 1). Branch line (1 5): The center is symmetrical, and each of the two card edges is the same (1 绫: wide; 'knife, line (1 5) is symmetrical in the center'. The two cards f ϋ are symmetrical with the first accommodating groove (12), and the second accommodating edge (11) of each phase is the second accommodating groove
或該六條對分線(15… J 良(1 5)令,母一對分線(i 5)二側之 ,· 1 )細該對分線(1 5 )為中心呈對稱狀, 1341765 該十二個卡制緣(1 1)係以六個二對稱之卡制緣(l l) 所組成; 〜每一卡制緣(1 1 )兩側邊係設有第一容置槽(丄2 ) 士第二容置槽(1 2 1 )’該第一容置槽(i 2 )及第二 4置槽(1 2 1 )係呈交錯間隔排列,該第一容置槽(丄 f:及第二容置槽(1 2 1 )間係設有一卡制緣(χ χ ), 及第一谷置槽(1 2 )及第二容置槽(工2工)之長度延 伸方向係與中^縱軸線呈平行,該第—容置槽(12)寬 X係大於第一谷置槽(丄2丄)寬度,該第一容置槽(1 。之寬度係可容納-星形螺合件(3 0)之星形凸塊(3 可符合其公差’該第二容置槽(1 2 1 )之寬度係 輪形螺合件(4〇)之齒輪凸塊(41)且可符 :稱,差,該第一容置槽(12)形狀係以對分線(15) 请參閱第三圖所示,係太恭 邊形公制螺合件(20)時合部於旋動六 1)係相切構成一六邊形之第 套人绫……之第一套合線(1 3),該第― 〇Γ> \ 長係可套合於六❹彡公制螺合件(2 〇 ),忒六邊形公制螺合件( 二容置槽(⑴)内,該第一二角=容設於第 合件(2 0)㈣合公如二(3)與公制螺 制螺合件(2 〇 )。 枣粗(1 0 )係可驅動公 請參閱第四圖所示,係明 (2 1)之示意圖,該本體(1二二形英制螺合件 )之數Ή丨緣(1 1 ) 係向内相切構成一第二套合部(丄4),該第二套合線(工 4)之邊長係可套合於六邊形英制螺合件(2丄),該> 邊形英制螺合件(2 1 )之六角端係容設於第一容置槽^、 2 ^内’遠第二套合線(1 4)與英制螺合件(2工)間 即符合公差Η ’該六邊形英制螺合件(2丄)係可被驅動 八請繼續參閱第五圖所示,係本體(1〇)旋動星形螺 =(3〇)即為_螺合件(3〇)之示意圖,該星形 ::,(30)之六個星形凸塊(31)係卡制於第一容 j ( 1 2)處’該本體(! 〇)即可旋動星賴合件㈡ U ) 〇 型螺=續t閱第六圖所示’係為本體(10)旋動齒輪 夕;、D丨(40)時之示意圖,該齒輪型螺合件(4 0) 輪凸塊(41)係容設於第—容置槽( _ A 1 )間具有大間隔係不符合旋動公差,但該第 (⑴)與齒輪凸塊(41)間即符合公差h, x ( 1 0)與齒輪型螺合件(4 〇 π 處且可符合公差,該本二二4 〇 )間具有六個旋動 (4 〇)。 體(1〇)係可旋動齒輪型螺合件 於套圖所示’係為本發明之本體(10)運用 部觀圖’該本體(10)另端係設有-驅動 合驅動之 動部(16)係呈四角槽狀以供扳手套 1341765 圖 圖 月^第八圖.’係本體(1 0 )運用於板手立體 請參閲第九圖所示’係本體(10)運用於棘輪立體 螺合件?ί)本:(邊10)於結構上即可配合六邊形公制 螺。件(2 ◦)、六邊形英制螺合件(2工) (3 0) Ε規格及齒輪形螺合 ^ 可配合9 7心上且)此^原理約 之優點。 了付—此即為本發明最大 本發明最大之優點乃在於: 1、 4本體(1〇)設有十二個卡制緣(i 每一卡制緣(11)兩侧邊係設有不同寬度之第—容置;; (12)及第二容置槽(121),該十二個卡制= 1 )係可内相t刀構成第―套合線(丄3 )及第二套合線 ^’該第-套合線(13)係配合公制螺合件(v〇), 該第二套合線(1 4 )係配合英制螺合件(2 1 ),1本 體(1 Q )即可套合於公制螺合件(2 〇 )、英制螺:件 (2 1 )、星形螺合件(3 〇 )、齒輪形螺合件(4 ◦) 其它形狀螺合件而驅動2 2、 一般而言市面上最常見之螺合件係為六邊形,意 即使用者旋動六邊形螺合件之比例相當高,其中又屬公制 及英制尺寸之六邊形螺合件最為經常使用,該齒輪形^合 件(4 0)及星形螺合件(3 〇 )之使用比例係相當低, 該本體(1 〇)係可同時符合公制及英制尺寸之螺合件旋 13 ^41765 動之。 3、該本體(10)設有第一容置槽(12)及第二 容置槽(1 3 ),該第一容置槽(i 2 )係容設星形螺合 件(3 0),5亥第二容置槽(1 2 1 )係容設齒輪形螺合 件(4 0 ),該本體(1 〇 )設有二不同容置槽結構即可 付合旋動公差。 紅上所返,本發明具新穎性、進步性及實用性,並能 改進習用之缺點,確為_ 要件,爰縣_ 極佳=發”能符合發明專利之 賜准專利為禱。'^祈貴審查委員詳核細審並早日 14 1341765 【圖式簡單說明 第一圖 第二圖 第三圖 第四圖 第五圖 第六圖 第七圖 第八圖 ‘係本發明手工具套合部之前視圖。 係本發明第一圖之A處放大圖。 係本發明旋動六邊形公制螺合件示意圖。 係本發明旋動六邊形英制螺合件示意圖。 係本發明旋動星形螺合件示意圖。 係本發明旋動齒輪形螺合件示意圖。 係本發明運用於套筒之立體外觀圖。 #本發明利於扳手之立體外觀圖。 九圖係、本發明運用於棘輪之立體外觀圖。 =十圖、係為習用手I具套合部之前視圖。 第十—圖、係為第十圖之A處放大圖。 :十-圖、係習用套合部旋動六邊形公 二圖、係S用套合部旋動六邊形英制螺合件示音= • ( 1 〇 )本體 (111)卡制部 (113)第二漸進面 (121)第二容置槽 (14)第二套合線 (16)驅動部 (2 〇)公制螺合件 (3 〇)星形螺合件 (4 〇)齒輪形螺合件 (1 1 )卡制緣 (112)第一漸進面 (1 2)第—容置槽 (13)第一套合線 (15)對分線 (21)英制螺合件 (3 1 )星形凸塊 (4 1 )齒輪凸塊 15 1341765 (9 Ο)本體 ' (9 1 )凸塊 (9 1 1 )卡制部 (9 2 )容置槽 (93)第一套合線 (94)第二套合線 16Or the six bisectors (15... J liang (1 5), the mother's pair of points (i 5) on the two sides, · 1), the bisector (1 5 ) is symmetrical, 1341765 The twelve card edges (1 1) are composed of six two-symmetric card edges (11); ~ each card edge (1 1 ) is provided with a first receiving groove on both sides (丄2) The second accommodating groove (1 2 1 ) 'the first accommodating groove (i 2 ) and the second 4 groove (1 2 1 ) are arranged at a staggered interval, and the first accommodating groove (丄f And a second clamping groove (1 2 1 ) is provided with a clamping edge (χ χ ), and a length extending direction of the first valley groove (1 2 ) and the second receiving groove (working 2) Parallel to the longitudinal axis of the middle portion, the width of the first receiving groove (12) is greater than the width of the first valley groove (丄2丄), and the width of the first receiving groove (1. The star-shaped bump of the screwing member (30) (3 can conform to its tolerance 'the width of the second receiving groove (1 2 1 ) is the gear bump (41) of the wheel-shaped screwing member (4〇) and can Symbol: said, the difference, the shape of the first accommodating groove (12) is halved (15). See the third figure, the snail is too slanted. The first part of the joint (20) is tangentially formed by the first part of the hexagonal hexagram (1 3), the first 合 〇Γ \ 可Fitted in a six-inch metric screw (2 〇), a hexagonal metric screw (two accommodating slots ((1)), the first two corners = accommodated in the first (2 0) (four) Gong Gongru 2 (3) and metric screwing fittings (2 〇). Jujube thick (1 0) can be driven. Please refer to the fourth figure, which is a schematic diagram of (2 1), the body (1 The number of edges of the two-dimensional inch screw fittings (1 1 ) is inwardly tangentially formed to form a second sleeve portion (丄4), and the length of the second sleeve wire (work 4) can be set Combined with a hexagonal inch screw (2丄), the hexagonal end of the edge-shaped inch screw (2 1 ) is accommodated in the first receiving groove ^, 2 ^ ' far second set The line (1 4) and the inch screw (2 work) are in compliance with the tolerance Η 'The hexagonal inch screw (2丄) can be driven. Please continue to refer to the figure shown in the fifth figure. 〇) Rotating star snail = (3 〇) is a schematic diagram of _ screwing piece (3 〇), the star::, (30) six star convex Block (31) is stuck at the first capacity j (1 2) 'The body (! 〇) can be rotated to slap the star (2) U) 〇 type snail = continued to read the figure shown in the sixth figure The body (10) rotates the gear eve; D 丨 (40), the gear type screw (40) wheel bump (41) is accommodated between the first accommodating groove ( _ A 1 ) The large spacing system does not meet the rotation tolerance, but the first ((1)) and the gear projection (41) meet the tolerance h, x (1 0) and the gear type screw (4 〇 π and can meet the tolerance, There are six rotations (4 〇) between the two. The body (1〇) is a rotatable gear type screwing member shown in the sleeve drawing. The body is the body (10) of the invention. The body (10) is provided with a driving unit. (16) is a four-corner groove for the wrench cover 1341765 Figure Figure Month 8th figure. 'System body (1 0) is applied to the wrench body. Please refer to the ninth figure for the 'body body (10) applied to the ratchet Three-dimensional screw? ί) Ben: (edge 10) can be fitted with a hexagonal metric screw on the structure. Pieces (2 ◦), hexagonal inch screw parts (2 work) (3 0) ΕSpecifications and gear-shaped screwing ^ can be combined with the advantages of 9 7 cores and this principle. The payment is the greatest advantage of the invention. The maximum advantage of the invention is that: 1, 4 body (1 inch) has twelve card edges (i each card edge (11) has different sides The width - the accommodating;; (12) and the second accommodating groove (121), the twelve cards = 1) the inner phase t-knife constitutes the first - the splicing line (丄3) and the second set The first cable (13) is fitted with a metric screw (v〇), and the second wire (1 4) is matched with an inch screw (2 1 ), 1 body (1 Q) ) can be fitted to metric screw (2 〇), inch screw: (2 1 ), star screw (3 〇), gear-shaped screw (4 ◦) driven by other shape screws 2 2. Generally speaking, the most common screw parts on the market are hexagons, which means that the proportion of the user's rotating hexagonal screw parts is quite high, and the hexagonal screw of the metric and inch sizes is also included. The most frequently used parts, the gear-shaped fittings (40) and the star-shaped screwing parts (3 〇) are used in a relatively low proportion. The body (1 〇) can be fitted with both metric and inch sizes. Spin 13 ^ 41765 to move. 3. The main body (10) is provided with a first accommodating groove (12) and a second accommodating groove (13), and the first accommodating groove (i2) is provided with a star-shaped screwing member (30) The 5th second accommodating groove (1 2 1 ) is provided with a gear-shaped screwing member (40), and the body (1 〇) is provided with two different accommodating groove structures to meet the screwing tolerance. The invention is novel, progressive and practical, and can improve the shortcomings of the conventional use. It is indeed a _ element, and the county _ excellent = hair can meet the patent granted by the invention patent as a prayer. '^ The principal review committee detailed review and early 14 1341765 [Simplified illustration of the first picture, second picture, third picture, fourth picture, fifth picture, sixth picture, seventh picture, eighth picture, 'the hand tool kit part of the invention The front view is an enlarged view of A of the first figure of the present invention. It is a schematic diagram of the rotating hexagonal metric screw of the present invention. It is a schematic diagram of the rotating hexagonal inch screw of the present invention. Schematic diagram of the screwing member. It is a schematic view of the rotating gear-shaped screwing member of the present invention. The present invention is applied to the three-dimensional appearance of the sleeve. # The invention is advantageous for the three-dimensional appearance of the wrench. The nine-drawing system, the invention is applied to the three-dimensional ratchet Appearance diagram. = Ten map, which is the front view of the hand-fitted I. The tenth-picture is the enlarged view of the tenth part of the tenth figure: Ten-figure, the system is used to rotate the hexagon In the second picture, the S part is used to rotate the hexagonal inch screw parts to indicate the sound = • ( 1 〇) body (111) carding part (113) second progressive surface (121) second accommodating groove (14) second binding line (16) driving part (2 〇) metric screwing piece (3 〇) Star screw (4 〇) gear-shaped screw (1 1 ) card edge (112) first progressive surface (1 2) first - accommodating groove (13) first wire (15) halve Wire (21) Inch screw (3 1 ) Star bump (4 1 ) Gear bump 15 1341765 (9 Ο) Body ' (9 1 ) Bump (9 1 1 ) Carding part (9 2 ) Slot (93) first set line (94) second set line 16