M318490 八、新型說明: 【新型所屬之技術領域】 本創作係有關-種固定式套筒伸縮卫具,尤其是一種 :體使用二種規格型態之預定螺件的套筒工具創新型態 设計者。 “ 【先前技術】 按’套筒工具因具有可驅鎖螺栓、螺帽、螺絲釘,立 1產生的實際應用在工業界上乃多不勝數,然而,_般套 其所欲驅鎖之螺栓件具有各種規格大小 所相對驅鎖使用之手工且 丁八 / 4 “ 盘 W 2,,> 碑 如:3 / 8 “ 與 3 卻需多準備t 件的規格尺寸,其規格相差不大 部而夕準備一套對應的、 卜八 時間就是金錢,效率就θ J進打互換使用,然而, 颊林女丨刀 因其驅鎖的螺检件之尺寸 規格大小問題,而需轉換胃 千之尺寸 間和金錢。 % 套同工具無疑就是浪費時 是以,針對上述習知工旦姓 >開發一種更具理相垂 、構所存在之問題點,如何 切企盼,亦係相:=;:::!,實使用消費者所般 有鑑於此,創你人士 發大破之目標及方向。 與設計經驗,針對上 千攸事相關產品之製造開發 攻之目標。 【新型内容】 即,本創作之主要目的, 縮工具;主要係難 係在提供一種固定式套筒伸 |Γ 田一工 1 另於工具本體適處 < 女/、體内部形成第一驅動空間, 、岭故有一制動 初褒置,而該第一驅動空間内 M318490 導設有一導組 導組件之外緣 而於工具本體 動件;藉此創 組件滑動於工 接不同尺寸的 ‘ 之實用進步性 φ 【實施方式】 請參閱第 具之較佳實施 請上並不受此 首先,如 ^ 一工具本 的第一驅動空 1 2 )係為六 _、螺帽對應驅鎖 設有一彈性組 有彈性件(1 復其中,該彈 1 ),該嵌組 嵌槽(1 6 2 部(1 6 1 ) 1 7 )於内, 致掉落,另於 件導組件内部貫設有第一 ^ J^L ± ^ ^ 〜驅動空間,另於 小成有對應工具本體之制 之制動裝置έ A 動裝置之制動部, π助裝置及導組件之制 ^ m # - 成丄 勒°卩之間設有一制 且太舻$ π > 用制動件可限位導 ,、本體至預定行程,並使 ZS ^ , 具本體可一體套 疋螺件驅鎖使用,進而 j $到使用上的便利 〇 1〜4圖所示’係本創作固定式套筒伸縮工 例’惟此等實施例僅供說明之用,在專利申 結構之限制。 第1 、2圖所示,其係包括: 體(1 0 )’其係内部形成有多角斷面形態 間(1 2 },其中該所述之第一驅動空間( 邊形斷面形態,可用以螺接六角螺栓或六角 使用’而該第一驅動空間(1 2)内端面連 件(1 4 ),其中該彈性組件(1 4 )包括 5 )、導座(1 6 )及一磁吸件(1 7 ), 性件(1 5 )之延伸端形成有嵌組端(1 5 端(1 5 1 )係對應嵌組於導座(1 6 )之 )内,而該導座6)之另面設有一容置 ,該容置部(1 6 i )可供容置一磁吸件( 利用該磁吸件(i 7 )可供吸附螺栓件而不 工具本體(1 〇 )適處設有一制動裝置(;[ 6 M318490 i ),其中該制動裝置(i丄)於本實施例係為一穿孔形 態,另該工具本體(1 〇 )之相對第一驅動空Μ (工 之另端形成有驅動端(1 3 ),該驅動端(i 3 )於本實 施例係為-延伸六角桿形態,τ用以組裝一對應的驅動: 具者; 一導組件(3 〇 ),其係内部貫設有第二驅動空間( 34),該所述之第二驅動空間(34)係為六角斷面且 -可供套接,、角螺私或螺帽,且該第二驅動空間 ^ 鲁較小於第一驅動空間(;[2 )之規格型態,而該導組件( 3 0 )係恰可導組於工具本體(i 〇 )的第一驅動空間( 1 2 )位移至預定行程,並相對頂撐於前述之彈性組件( 14) ’另於導組件(30)之外緣形成有對應卫具本體 -(1 〇 )之制動裝置(1 1 )之制動部(3丄),其中= 、所述之制動部(3 1 )於本實施係為一滑溝形離, ^ 心、 且制動 部(3 1 )二側分別形成有第一擋部(3 2 ) 一 7汉乐二擔部 一制動件(2 0 ),其係相對導滑組裝於r θ ^ #、工具本體( 1 〇 )之制動裝置(1 i )及導組件(3 0 )之制動部( 3 1 )之間’其中該制動件(2 0 )於本實施例係為—導 柱形態,並相對穿設於工具本體(1 〇 )之制動梦置(1 1 ),並使制動件(2 0 )之一端嵌入於導組件(3 〇 ) 之制動部(3 1 ),因該導組件(3 0 )之制動部(3工 )係為一滑溝形態,以使導組件(3 0 )可相對導滑於工 具本體(1 〇)至預定行程。 藉由上述之結構、組成設計’兹就本創作之使用作動 7 M318490 情形說明如下: 吞月參閱第3〜4圖所示,因工具本體(1 〇)内部之 彈性組件(1 4 )於常態下係呈復位狀態並相對頂撐該導 組件(3 0 ),同時導組件(3 〇 )之第二擋部(3 3 ) 係相對擋止於制動件(2 〇 ),以使導組件(3 〇 )之第 4 )係與工具本體(1 〇 )的第 驅動空間 間(1 2 )對位切齊,俾利於使用導組件(3 〇 )之第二 驅動工間(3 4 ) *接六角螺栓及螺帽驅鎖使用;繼而欲 使用工具本體(i 〇 ) <第一驅動空間(、2 )驅鎖使用 時,而使預疋套接的螺件迫壓導組件(3 〇 )朝内直向位 移’其中導組件(3 0 )即相對頂撐其彈性組件(1 4 ) 呈壓縮狀態,@時該導組件(3 〇 )之第一擋部(3 2 ) p相對擋止於制動# ( 2 〇 )之延伸端限位;藉此,利用 制動件(2 0 )可限位導組# ( 3 〇 )滑動於工具本體( 1 0 )至預定行程’並使工具本冑(1〇 )可—體套接不 同尺寸的預定螺件驅鎖使用。 η閱第5圖所不’其係本創作之第二實施例,主要係該 工具本體(1〇Α)夕生1丨紅壯取 )之制動裝置(1 1 A )、制動件(2 〇 A )及導組件(2 n ^ 0 A )之制動部(3 1 A )之相對結 構變化設計,其中該.έ 土 < ^ 、、件(3 〇 a )之制動部(3 1 A )係為一環槽形離, ^且該制動件(2 0 A )可為一對應 嵌卡於制動部(3 1 A、> 2- M t f )之彈性扣環形態,而該工具本體 (1 0 A )之制動裝置( 、 )可為一滑溝且二側形成 、 丄丄丄A ),以使導組件(3 0 A )之扣環形態的制動件( 什(ΖϋΑ)可滑動於工具本體 8 M318490 (1 〇 a)之滑溝形態的制動裝置 程,另該工具本體(1〇A)之驅 〜_預定行 施例係為一四角孔形態,俾可供 1 3 A )於本實 具以供驅鎖使用者。 、 〜套筒形態之驅動工 請參閱第β 柯第b 7圖所不,其係本 主要係該工具本體(1 0 B)之制動第三實施例, 之又-結構變化設計,纟中該導組件(3 :部(3 1 B ) (3 1 B )於本實施例係為一環槽形熊 )之制動部 0 B )可為一對應嵌卡於制動部(3 1飞且該制動件(2 態’而該工具本體(丄〇 B )之制動裝置)之彈性扣環形 實施例係為分設具預定行程的二定位斜样(1 1 B )於本 該導組件(3 0 Β )位移,以使所對應心利用前後掣動 〇 Β )滑動於工具本體(i 〇 β )之二斜裝的制動件(2 置(1 1 Β )至一預定行程;另本實施例:形恕之制動裴 Β )係為多角孔形態且設有轉向鋼珠孔(驅動端(13 向鋼珠孔(1 3 2 Β ),且該驅動端(丄1 3 1 Β )及定 驅動工具(4 0 )之多角球頭(4 1 )套接Β )係可供一 角球頭(41)之適處埋設有一鋼珠(43使用’且於多 於驅動端(13Β)内時,其鋼珠(43)j ’當其套接 求而活動嵌卡於轉向鋼珠孔(1 3 1 b ) w、3因應使用需 1 32B)内,以使驅動工具(4〇)相向鋼珠孔( 具(4 〇 )可為 1 0 B )作轉向或定向使用;另如第7圖戶謗工具本體( “T”字型工具型態:。斤示’該驅動工 9 M318490 功效說明】 本創作功效增進之事實如 主要係藉由該工具本體( 間(12),另於工具本體( (11),而該第一驅動空間 (30),導組件(3 0 )内 4 ),另於導組件(3 0 )之 1 0 )之制動裝置(1 1 )之 本體(1 0 )之制動裝置(1 動部(3 1 )之間設有一制動 以改良【先前技術】所述因其 小問題,而需轉換對應之套筒 問題點,·使本創作利用制動件 0)滑動於工具本體(10) (10)可一體套接不同尺寸 達到使用上的便利之實用進步 上述實施例所揭示者係藉 g透過特定的術語進行說明, 之專利範圍;熟悉此項技術領 t精神與原則後對其進行變更 而此等變更與修改,皆應涵蓋 所界定範疇中。 下: 10)内部形成第一驅動空 1 0)適處设有一制動裝置 (1 2 )内導設有一導組件 邛貝沒有第二驅動空間(3 外緣形成有對應工具本體( 制動部(3 1 ),而於工具 1 )及導組件(3 〇 )之制 件(2 0 )之創新設計,轉 驅鎖的螺栓件之尺寸規格大 工具之問題點;相較習知之 (2 0 )可限位導組件(3 至預定行程’並使工具本體 的預定螺件驅鎖使用,進而 性。 以具體說明本創作,且文中 當不能以此限定本新型創作 域之人士當可在瞭解本創作 與修改而達到等效之目的, 於如后所述之申請專利範圍 10 M318490M318490 VIII. New description: [New technical field] This creation is related to a kind of fixed sleeve telescopic protective gear, especially one: the innovative design of the sleeve tool using the predetermined screw type of the two specifications. Count. "[Prior Art] According to the 'sleeve tool, because of the lockable bolts, nuts, screws, the actual application of the vertical 1 is in the industry, but the bolts that they want to lock There are various sizes and sizes of manual locks and manual use and Ding 8 / 4 "Disc W 2,, > monuments such as: 3 / 8" and 3 but need to prepare more t-size specifications, the specifications are not much different In the evening, a set of corresponding ones is prepared, and the time is the money. The efficiency is used interchangeably. However, the cheek forest female sickle needs to change the size of the stomach because of the size and size of the threaded parts of the lock. Between and money. % The same tool is undoubtedly a waste of time, for the above-mentioned customary Gongdan surname> to develop a more rational and structural problem, how to cut the hope, also the phase: =;: ::!, the actual use of consumers in view of this, create the goal and direction of your people's big break. With the design experience, aiming at the manufacturing development of thousands of related products. [New content] That is, this creation Main purpose, shrinking tools; It is difficult to provide a fixed sleeve extension | Γ Tian Yigong 1 Another suitable for the tool body < Female / body to form the first drive space inside, Ling has a brake initial set, and the first In the drive space, the M318490 is provided with a guide assembly outer edge and the tool body moving member; thereby creating a component to slide on different dimensions of the practical progress φ [embodiment] Please refer to the preferred implementation of the device Please do not be the first, such as ^ a tool of the first drive empty 1 2) is six _, the nut corresponding to the lock is provided with an elastic group of elastic parts (1 complex, the bomb 1), the embedded The group of embedded grooves (1 6 2 parts (1 6 1 ) 1 7 ) is inside, causing the drop, and the first ^ J ^ L ± ^ ^ ~ drive space is arranged inside the component guide assembly, and the other has a small Brake device corresponding to the tool body έ A brake device of the moving device, π aid device and guide assembly system ^ m # - 成丄勒°卩 is provided with a system and is too 舻 $ π > Positioning, the body to the predetermined stroke, and the ZS ^, with the body can be integrated with the screw to lock and use, into j $ to the convenience of use 〇 1 to 4 shown in the figure 'This is a fixed sleeve expansion case', but these examples are for illustrative purposes only, in the scope of the patent application structure. Figures 1 and 2 The system includes: a body (10)' having a polygonal cross-sectional shape (1 2 } formed therein, wherein the first driving space (the shape of the edge section can be used to screw a hexagon bolt or The hexagonal use 'and the first drive space (12) inner end piece (14), wherein the elastic component (14) comprises 5), the guide (16) and a magnetic member (17), The extending end of the member (15) is formed with an inset end (1 5 end (1 5 1 ) correspondingly embedded in the guide seat (16)), and the guide 6) is provided with a rest on the other side The receiving portion (1 6 i ) is adapted to receive a magnetic member (using the magnetic member (i 7 ) for absorbing the bolt member without the tool body (1 〇) being provided with a braking device; [6 M318490 i ), wherein the braking device (i丄) is in the form of a perforation in the embodiment, and the first driving space of the tool body (1 〇) is opposite to the first driving space. 1 3), the driving end (i 3 ) is in the form of an extended hexagonal rod in the embodiment, and τ is used to assemble a corresponding driving: a component; a guiding component (3 〇), which is internally connected a second driving space (34), the second driving space (34) is a hexagonal cross section and - can be socketed, a corner screw or a nut, and the second driving space is smaller than the first a drive space (; [2) specification type, and the guide assembly (30) is adapted to be displaced from the first drive space (1 2 ) of the tool body (i 〇) to a predetermined stroke, and is relatively top Supporting the elastic component (14) of the foregoing, and forming a braking portion (3丄) of the braking device (1 1 ) corresponding to the body-(1 )), the outer edge of the guiding assembly (30), wherein In the present embodiment, the braking portion (3 1 ) is a sliding groove shape, and the first blocking portion (3 2 ) is formed on both sides of the braking portion (3 1 ). Brake member (20), which is assembled relative to the sliding guide between r θ ^ #, the braking device (1 i ) of the tool body ( 1 )) and the braking portion ( 3 1 ) of the guiding assembly (30) The system In the embodiment, the member (20) is in the form of a guide column, and is relatively disposed on the brake body (1 1 ) of the tool body (1 〇), and one end of the brake member (20) is embedded in the guide assembly. The braking portion (3 1 ) of the (3 〇) is formed in a sliding groove shape by the braking portion (3 working) of the guiding assembly (30), so that the guiding assembly (30) can be relatively guided to the tool body ( 1 〇) to the scheduled itinerary. With the above structure and composition design, the operation of this creation is 7 M318490. The situation is as follows: Swallow the moon as shown in Figures 3 to 4, because the elastic component (1 4 ) inside the tool body (1 〇) is in the normal state. The lower system is in a reset state and relatively supports the guiding assembly (30), and the second blocking portion (3 3) of the guiding assembly (3 )) is relatively blocked against the braking member (2 〇) to enable the guiding assembly ( 3)) 4) is aligned with the first drive space (1 2 ) of the tool body (1 〇), and facilitates the use of the second drive unit (3 4 ) of the guide assembly (3 )) Hex bolts and nuts are used for unlocking; then, the tool body (i 〇) <first drive space (, 2) is used for unlocking, and the pre-clamped screw is forced to press the guide assembly (3 〇) Inwardly displaced displacement 'where the guide assembly (30) is compressed relative to the top support member (1 4), and the first stop (3 2 ) p of the guide assembly (3 相对) is relatively blocked The extension end of the brake # ( 2 〇); thereby, the brake guide (20) can be used to slide the guide body # (3 〇) to the tool body (10) to the pre- The fixed stroke 'and the tool body (1〇) can be used to lock the predetermined screw of different sizes. Ηreading Figure 5 is not the second embodiment of the present invention, mainly the braking device (1 1 A) and the braking device (2 〇) of the tool body (1〇Α) Xisheng 1丨红强取) A) and the relative structural change design of the braking portion (3 1 A ) of the guiding component (2 n ^ 0 A ), wherein the braking portion (3 1 A ) of the soil < ^ , , (3 〇 a ) The ring is shaped like a ring, and the braking member (20A) can be in the form of a resilient buckle that is embedded in the braking portion (3 1 A, > 2- M tf ), and the tool body (1) 0 A) The brake device ( , ) can be a sliding groove and formed on both sides, 丄丄丄A ), so that the brake member of the guide assembly (30A) can be slidable to the tool. The braking device of the sliding body of the body 8 M318490 (1 〇a), and the driving body of the tool body (1〇A) is a four-corner hole shape, and the 俾 is available for 1 3 A) This utility is intended to unlock users. ~ The driver of the sleeve shape, please refer to the β-Ke b7 figure, which is mainly the third embodiment of the brake of the tool body (10B), and the structure change design. The guiding component (3: the part (3 1 B ) (3 1 B ) in the embodiment is a ring-shaped bear) braking part 0 B ) can be a correspondingly embedded in the braking part (3 1 flying and the braking piece The elastic buckle ring embodiment of the 2 state 'and the braking device of the tool body (丄〇B) is a second positioning oblique sample (1 1 B ) with a predetermined stroke to the guide assembly (3 0 Β ) Displacement so that the corresponding heart is slid before and after the slanting of the tool body (i 〇β ) to the two obliquely mounted brake members (2 (1 1 Β ) to a predetermined stroke; another embodiment: forgiveness Brake 裴Β) is a polygonal hole shape with a steering ball hole (drive end (13-direction steel ball hole (1 3 2 Β), and the drive end (丄1 3 1 Β) and fixed drive tool (40) The multi-angle ball head (4 1 ) socket Β ) is suitable for the corner ball head ( 41 ) to be embedded with a steel ball (43 used 'and more than the drive end (13 Β), its steel ball (43) j 'When it is socketed, the activity is embedded in the steering ball hole (1 3 1 b ) w, 3 should be used within 1 32B) so that the driving tool (4〇) faces the ball hole (with (4 〇) can be 1 0 B ) for steering or orientation use; another example is Figure 7: 谤 tool body (“T” type tool type: 斤示' the driver 9 M318490 Function Description] The fact that the creative effect is enhanced is mainly By means of the tool body (between (12), another tool body ((11), and the first drive space (30), the guide assembly (30), 4), and the guide assembly (30) 0) The brake device (1 1 ) of the brake device (1 0 ) is provided with a brake between the moving parts (3 1 ) to improve the [previously described] due to its small problem, and the corresponding set needs to be converted. The problem of the cylinder, the use of the brake member 0) sliding on the tool body (10) (10) can be integrated into different sizes to achieve practical advantages in use. The above embodiments disclose the use of specific terms. Explain the scope of the patent; familiarize yourself with the spirit and principles of this technology and change it and make such changes. Modifications should cover the defined categories. Bottom: 10) Internally forming the first drive air 1 0) Properly equipped with a brake device (1 2 ) The inner guide is provided with a guide assembly. The mussel has no second drive space (3 outer edge An innovative design of the workpiece (20) corresponding to the tool body (the brake portion (3 1 ), and the tool 1) and the guide assembly (3 形成) is formed, and the size of the bolt member of the rotary drive lock is large. Compared with the conventional (20) limitable guide assembly (3 to the predetermined stroke 'and the predetermined screw of the tool body is used for unlocking, and thus. To specifically describe the creation, and those who cannot limit the scope of this new creation in this article can achieve the equivalent purpose by understanding the creation and modification, and apply for the patent scope as described later. 10 M318490
【圖式簡單說明】 第1圖:係本創作固定 第2圖:係本創作固定 第3圖:係本創作之動 位以使導組件 第4圖:係本創作之動 縮以使導組件 第5圖:係本創作第二 第6圖:係本創作第三 第7圖:係本創作第三 接T字形驅動 【主要元件符號說明】 工具本體(1 0 ) 第一驅動空間(1 2 ), 彈性組件(1 4 ) 嵌組端(1 5 1 ) 容置部(1 6 1 ) 磁吸件(1 7 ) 制動件(2 0 ) 導組件(3 0 ) 第一擋部(3 2 ) 第二驅動空間(3 4 ) 驅動工具(4 0 ) 鋼珠(4 3 ) 工具本體(10A) 式套筒伸縮工具之組 式套筒伸縮工具之分 作示意圖一,其係顯 呈伸出狀態。 作示意圖二,其係顯 呈内縮狀態。 實施例之剖示圖。 實施例之剖示圖。 實施例之剖示圖,其 工具之實施型態。 制動裝置(1 驅動端(1 3 彈性件(1 5 導座(1 6 ) 嵌槽(1 6 2 合立體圖。 解立體圖。 示彈性組件復 示彈性組件壓 係工具本體組 1 ) )) 制動部(3 1 第二擋部(3 多角球頭(4 ) 3 ) 制動裝置(1 1 A ) 11 M318490 > 擋部(1 1 1 A ) -第一驅動空間(1 2 A ) 制動件(2 0 A ) 導組件(3 0 A ) 第二驅動空間(34A) 工具本體(1 OB) '第一驅動空間(1 2 B ) -轉向鋼珠孔(131B) 制動件(2 0 B ) 導組件(3 0 B ) 第二驅動空間(3 4 B ) 擋部(1 1 2 A ) 驅動端(1 3 A ) 制動部(3 1 A ) 制動裝置(1 1 B ) 驅動端(13 B) 定向鋼珠孔(1 3 2 B ) 制動部(3 1 B ) 12[Simple description of the diagram] Figure 1: This is the fixed version of the creation of the second picture: the original creation of the creation of the third picture: the movement of the creation of the guide to the fourth component: the creation of the creation of the contraction to make the assembly Figure 5: The second picture of this creation: the third picture of the creation: the third T-shaped drive of this creation [the main component symbol description] tool body (1 0) the first drive space (1 2 ), elastic component (1 4 ) inset end (1 5 1 ) accommodating part (1 6 1 ) magnetic member (1 7 ) brake member (20) guide assembly (3 0 ) first stop (3 2 ) Second drive space (3 4 ) Drive tool (4 0 ) Steel ball (4 3 ) Tool body (10A) Type sleeve telescopic tool group sleeve telescopic tool is divided into schematic diagram 1 . As a schematic diagram 2, the system is in a contracted state. A cross-sectional view of an embodiment. A cross-sectional view of an embodiment. A cross-sectional view of an embodiment, an embodiment of the tool. Braking device (1 drive end (1 3 elastic member (1 5 guide seat (1 6 ) slot) (1 6 2 with stereo view. Solve the perspective view. Show elastic component repeating elastic component pressure system tool body group 1))) Brake (3 1 second stop (3 multi-angle ball head (4) 3) brake device (1 1 A ) 11 M318490 > stop (1 1 1 A ) - first drive space (1 2 A ) brake (2 0 A ) Guide assembly (3 0 A ) Second drive space (34A) Tool body (1 OB) 'First drive space (1 2 B ) - Steering ball hole (131B) Brake (20B) Guide assembly ( 3 0 B ) Second drive space (3 4 B ) Stop (1 1 2 A ) Drive end (1 3 A ) Brake (3 1 A ) Brake (1 1 B ) Drive end (13 B) Oriented ball Hole (1 3 2 B ) Brake (3 1 B ) 12