200908909 1 » .九、發明說明: 【發明所屬之技術領域】 本發明有關可供工人配戴之工具攜行裝置,尤其有關 一種改良的鍵子攜行裝置。就本發明一實施方式而言,係 有關一種可與使用者腰帶旋轉耦接之工具攜行裝置。 【先前技術】 自從人類開始使用工具以來,就一直設法尋求更好的 攜行工具方法。工人經常發現自己在組合或使用工具時需 要使用雙手’因此需要有個方便的地方安置工具,以於再 度需要使用工具時,可以隨時取得工具。為此,已有多種 不同的攜行裝置設計’從縫在工人褲子或工作圍裙的簡易 布環,到接設在工人腰帶的複雜皮套與口袋。 目前已有數種廣受利用的設計,包括1968年5月24 曰授予J. J.荷德卡(J. J· Hodelka)的美國專利第 3384277號。此專利必須使用一種特定的方式將鎚子頭部 放入工具口袋,如第2圖所示。此外,其中還有一個設計 y 為利用鎚子頸部的扣夾。美國專利第3384277號之設計係 用以耦接在長褲的後口袋上。 另一項於2003年12月9日授予詹姆斯提摩太伯爾 森(James Timothy Borson)的美國專利第 6659317 B2 號 包括一鎚頭扣持部。其中,鎚子之拔釘爪甚至鎚頭都露在 外部而與工人接觸。此外,根據此項專利,當工人將工具 套接设到工作圍裙或工具腰帶時,並不能改變工具套的角 度。再者,此項專利須使用磁鐵(標號3),此種設計對於 200908909 •非鐵材質⑽子並非有效 趟子顯部連接的可轉構件專利紐用―個與 另一項相關的專利是丁) 麥克古(L. J. Ma—的、,1964年4月28曰授予L.】· 專利係設計作為手斧的_專利第⑽觀號。此項 時,須使用數個連接裂置將^護稍圍住工具的整個頌部 s 置將工具頭部與把手扣持定私 腿^須額外提供一皮帶’將護勒的頭雜接在X人的^ 柏森年8月13曰授予“ 專利,鎚子須呈垂直位置国=:5;°號。根據此項 0 ^ 呈並使把手朝上。此外,m 圖及第4圖所示,尚包括―標號9的非常 如其第 寺機構。對於鍵面特別大的鍵子,諸如構架釘製::扣 (framing hammer),此種扣持機構並非十分有效斥解錢 萬-鍵子表面間的寬度相當大,將無法如 =卜’ =Γ袋内。最後’由於鍵子皮套與一= 臺:思構*要使用凸耳連接到使用者的腰帶,所以其性質 Λ於永久(固疋)性。當工人移動時,此種接合機構似 乎並不允許鎚子穩定擺動。 【發明内容】 本發明揭示-種工具扣持與攜行裝置,而欲撼行的工 具則具有-細長把手及-與把手連接的頭部。此工具扣持 與攜行裝置包括-具有主軸之頭部容置部,其形狀大致可 包覆並保護工具的頭部。 200908909 .此工具扣持與攜行裝置進而包括一具有第 端之支撐部。此支撐莊描总认甘哲 、、,°構係於其第-端近處_接於該頭部 合置4 ’亚大致與頭部容置部之主軸成垂直。 支撐、σ構近第一端處接設一連接部,此 輛接於使用者。連接部之一實施形式亦包括=動 藉此將一第一構件活動固接於一基座構件,且該第^牛 y以m線為中心旋轉,並使該支撐 件以該橫軸線為中心重新定位。 暴座構 =4,纽具扣持與攜行裝置還包括—把手扣持部, f係接設於該支撐結構的第二端,可接合並扣持工具的把 手部。 【實施方式】 進入詳細說明前,請先參閱第2圖,其中顯示一轴系 =以協助說明本案之各圖式。以標號12標示的轴線 大致和不縱向,而其箭頭係指向頭部方向。以 =的轴線指示橫向,並與轴線12成直角。第3圖中^ 號一 14a標不的轴線指示朝向趟子趟面之方向,而標: 指示朝向趟子拔釘爪之方向杜I 下化 以Μ μ月參閱第6圖,橫軸線16 =號16a和不朝左之方向,而職脱指示朝右 向。上述各轴線係供-般參照之用並大致說明各方向 便於說明本案所述各組件及其大致方位。 本發明整體說明-種具備四個主要結構的褒置。如 3圖=示’第一個結構為連接部22,第二個結構為支據部 24’第二個結構為頭部容置部或容置結構%,第四個結構 200908909 .為把手扣持結構28。 根據以上有關本發明較佳實施例主要組件的基本說 明,以下將更詳盡說明其他不同結構。當然,必須了解的 是,此等說明僅屬表現本發明較佳實施例形式之一,其實 尚可利用其他方法與構件組成。 請參照第1圖,從圖中可以看出,工具套20係附掛 在環繞使用者18腰部之腰帶21上。所示使用者18正要 從工具套20取出一鎚子30。如圖所示,使用者18握持鎚 子30時,不須改變他抓持鎚子30的方式,即可直接使用 鎚子30作為敲擊工具。人們使用鎚子作為敲擊工具時, 通常會將食指與大姆指置於最靠近鎚子頭部32的位置。 許多先前技術實例並未包括此特性,若使用者於改變鎚子 握持位置而準備鬆開握持時,可能會造成危險。 請參照第2圖。從圖中可以看出如何將鎚子30插入 工具套20上頭部容置部26的口袋29内。鎚子30的鎚頭 32係放置在頭部容置部26的口袋29内,並可如箭頭31 所示旋動,使鎚子30之把手34通過把手扣持結構28的 槽孔42,而被容置在把手扣持結構28的空心區44内定 位。請參照第3圖,從圖中可以看出鎚子30如何容置在 工具袋20的頭部容置部26與把手扣持結構28内定位。 特別要注意的是,鎚子30的整個頭部32係包覆在頭部容 置部26内,並大致與頭部容置部26的主軸76(如第4圖 所示)成一直線。在本發明此一實施例中,使用者、其他 人員、及工地的易碎部份,都與鎚子30的拔釘爪36及鎚 200908909 .面38隔離,受到保護。有些先前技術實例並未包括此種 保護設計,讓使用者及他人易在接觸拔釘爪36時受傷。 拔釘爪36部位具有銳利性,萬一與人員或工地的某些部 位接觸時,可能造成傷害。也請參照第3圖,其中顯示腰 帶與工具套連接部的可行實施例之一。腰帶21通常是圍 繞在使用者身上,並可用一帶扣調整。在本發明中,腰帶 21係穿過連接部22内定義透孔51的多數表面。以此方 式,工具套20可活動地固接在腰帶21上。因此,鎚子30 可保持在使用者18易於伸手取用的範圍内,如第1圖所 示。 現在請參照第5圖,其中顯示把手扣持結構28之一 可行實施例。在此實施例中,有一撓性構件40耦接於支 撐結構24(附參第3圖)。支撐結構24之主軸78大致與頭 部容置部26之主軸76成垂直(附參第4圖)。請再參閱第 5圖,依照第2圖所示及以上說明,鎚子把手34係可置於 把手扣持結構28之空心區44内。先前已述及槽孔42,在 第5圖中亦有顯示。把手扣持結構28亦可包括一反向笟 部43,使把手34更容易置入空心區44内。反向弧部43 包括一扣持臂45,扣持臂45係具有一把手接合面47。其 中,扣持臂45的功能或作用像一懸臂狀彈簣,使其第一 端49可沿橫向朝右方向16b活動朝外旋轉,藉此將鎚子 之把手部34扣持在中空區44内。當然,應該注意的是, 槽孔42之位置可面向橫向朝後方向,亦可面向橫向朝前 方向。在一較佳形式中,扣持臂45係與基部區41成一整 200908909 .體結構。 本發明實施例之一對某些頸部特別細的鎚子設計尤 其有用。有些先前技術實例包含一扣持部,用以扣持鎚子 30之頸部37(此標號見第1圖)。 為了易於將鎚子30之鎚頭32置入頭部容置部26内, 頭部容置部26有部份係朝外展開,形成一反向弧部62, 從第2圖中亦可看出。在此實施例中,弧部62並未延伸 頭部容置部26的全長,而僅涵蓋其一極小的部份。如此 仍可保護鎚子30的整個頭部,避免側面的撞擊。 第6圖係第4圖中沿截線6的剖面圖,顯示鎚子30 正容置在頭部容置部26的口袋29内。如圖所示,鎚子30 的頭部32係置於口袋29内,並被一鎚頭扣持構件48扣 持定位。扣持構件48可為一段彈簧材料,諸如彈簧鋼、 聚合物等,以於鎚子30插入或取出口袋29時,在鎚子30 頭部32與頭部容置結構26之内壁64間產生一摩擦力, 使鎚子30免於意外掉落至口袋29之外。第6圖進而顯示 先前所述位於頭部容置郭26上的反向弧部43使口袋29 之上端開口 66比口袋29之下部68加寬,因此形成一較 大開口,便於將鎚子置入其中。 請參照第7圖,其中顯示本發明另一層面。其中,支 撐結構24係可相對連接部22旋轉。請參閱第11圖,實 線指示一中間無偏斜位置,旋轉箭頭53顯示可能的朝前 旋動53’或朝後旋動53” ,分別如虛線所示。請再參照 第7圖至第10圖,以下將較詳細說明此旋轉結構。第7 200908909 : 員示第4圖中沿截線7之局部剖視 連接部22,其表面定義二透孔51。連接二員:-腰帶 腰帶之厚度與寬度。 镬。卩22可具有標準 一細長構件58穿過一第一構件 據本發明一實施例,細長構件5 連接部22。根 螺絲,其可裝設到腰帶連接部22上^義=如螺栓或 孔57内。細長構件58之軸可表將 連接部22拉緊。腰帶連接部22之設 = 相對腰帶或其他裝置來調整工 ^使用者 方便使用的角度。透過數種不同的=於^與 第:構件7。結合的細長構件58及二:可= 成此項§周整。盆中,楚一 JL« AL 7Λ •運 上。細長構/wri —接於支撐結構24 ,長構件58可為螺絲、螺栓、铆釘、或任何盆他類 =的=組件。細長構件58之頭部74可為一滚花螺帽 贈)或類似的裝置’使細長構件58可以朝第一 / Π拉緊’❿第一構件7〇進而再朝腰帶連接部22拉 圖1示。其中’第一構件7〇包括-組凸齒54 及凹槽56,以與腰帶連接部22内的凸齒及凹槽匹配。第 8时顯示的細長構件係在拉緊狀態,凸齒⑷系緊緊㈣ 於凹槽56,因此防止第一構件7〇相對腰帶連接部22環繞 橫軸線61旋轉。 當支樓結構24與第-構件7〇麵合時,工具套係固設 在支撑結構24上,並可重新定位(調整位置)。當細長構 件58放氣、0夺’被塵縮的彈簧構件6〇自動伸展,並在腰帶 200908909 .連接部22與第一構件70間產生一朝外之力,使凸齒54 與凹槽56脫離,如第9圖所示。如圖所示,第一構件70 係與支樓結構24連接,並可於凸齒54與凹槽56脫離時 相對腰帶連接部22旋轉,如第11圖之箭頭53所示。 請注意,用以旋轉工具套20之樞轉機構在其旋轉方 向上並無限制,因此,鎚子30可扣持在垂直且頭部朝下 的位置、水平位置、或上下倒轉位置;在上下倒轉位置時, 鎚頭32係垂向位於把手上方。任何位置,包括鎚頭位在 最下方的垂直位置及鎚頭位在上方的垂直位置,都是可能 的。 第10圖為第9圖中沿截線10之局部剖視圖,顯示第 一構件70上的凸齒54與凹槽56。第10圖之平面並進一 步顯示其上定義的一穿孔72,係對應細長構件58之外徑。 第12圖至第14圖顯示數種凸齒54與凹槽56之可行 實施例。第12圖中,凸齒54a與凹槽56a具有正弦波形 之橫截面。第13圖中,凸齒54b與凹槽56b具有方波形 ' 之橫截面。第14圖顯示之凸齒54c與凹槽56b實施例, 係具有三角波形之橫截面。這三種不同實施例各具有特定 的用途與不同的可調整度。凸齒56與凹槽之數目可以增 減,以改變可能的旋轉位置數目。 雖然以上舉例說明本發明若干實施例,且以相當詳盡 方式說明此等實施例,但申請人並無意將所附申請專利範 圍限制或限定於等實施例之細節。對於熟悉此類技術之人 士而言,顯然可以在所附請求範圍内作其他修改與變化。 12 200908909 ‘因此’從廣義而言’本發明並不限於前述特定 性裝置與方法、及圖示之實例。因此,從此等細節可以產 生變化而不脫離申請人整體概念的精神與範圍。 【圖式簡單說明】 趟子插 第1圖為一外部視圖,顯示一使用者正在將 入一工具套; 第2圖為本發明之外部視圖; 同 · 園, •第3圖為本發明容置一鍵子並接合於一腰帶之侧視 第4圖為本發明未容置鎚子之侧視圖,並指 7圖之截面位置; 示第5 、h n .第5圖為第4圖中沿截線5顯示之把手扣持結構上視 , 第6圖為第4圖中沿截線6齡之本發明端視圖· 視圖, 第7圖為第4圖中沿截線7顯示之腰帶連接部局部剖 第8圖為第7圖之側視圖’顯示成咬 凹槽部; 大面興 第9圖為第7圖之側視圖,顯示成脫離 凹槽部; 大回興 第10圖為第9圖中沿截線1〇之局部剖視圖; 性; •第11圖為本發明之側視圖,顯示本發明之旋轉可能 第12圖顯示突齒與凹槽部成正弦波形之實施例; 13 200908909 . 第13圖顯示突齒與凹槽部成方波形之實施例;以及 第14圖顯示突齒與凹槽部成三角波形之實施例。 【主要元件符號|兒明】 10 . ·轴系 36 · •拔釘爪 12 · •縱軸線 37 · •頸部 14 · •橫轴線 38 · •鍵面 14a ••橫轴鐘面朝向 40 · •撓性構件 14b ••橫轴拔釘爪朝向 41 · •基部區 16 · •橫軸線 42 · •槽孔 16a ••橫軸線朝左方向 43 · •反向弧部 16b ••橫轴線朝右方向 44 · •空心區 18 · •使用者 45 · •扣持臂 20 . •工具套 47 · •把手接合面 21 · •腰帶 48 · •鍵頭扣持構件 22 · •連接部 49 · •第一端 24 · •支撐結構 51 · •透孔 26 · •頭部容置部 53 · •旋轉方向指示箭頭 28 · •把手扣持結構 53’ ••朝前旋動方向 29 · •口袋 53” ••朝前旋動方向 30 · .錄子 54 · •凸齒 31 · •鍵子旋動方向 54a ••正弦波形凸齒 32 . •鍵頭 54b ••方波形凸窗 34 . •把手 54c ••三角波形凸齒 14 200908909 56 · •凹槽 62 56a · •正弦波形凹槽 64 56b . •方波形凹槽 66 56c . •三角波形凹槽 68 57 · •内螺紋穿孔 70 58 . •細長構件 72 59 . •螺紋 74 60 . •彈簣構件 76 61 · •橫軸線 78 •反向弧部 •頭部容置結構内壁 •口袋上端開口 •口袋下部 •第一構件 •穿孔 •細長構件頭部 .主軸 •主軸 15200908909 1 » . 9. Description of the Invention: [Technical Field] The present invention relates to a tool carrying device that can be worn by workers, and more particularly to an improved key carrying device. In one embodiment of the invention, there is a tool carrying device that is rotatably coupled to a user's belt. [Prior Art] Since humans began using tools, they have been trying to find better ways to carry tools. Workers often find themselves using both hands when assembling or using tools. Therefore, there is a need for a convenient place to place tools so that when tools are needed again, tools are readily available. To this end, there are a number of different carrying device designs that range from simple cloth loops that are sewn to workers' pants or work aprons to complex leather cases and pockets that are attached to workers' belts. There are several widely used designs, including U.S. Patent No. 3,384,277 issued to J. J. Hodelka, May 24, 1968. This patent must use a specific way to place the hammer head into the tool pocket, as shown in Figure 2. In addition, there is also a design y for the use of the clip of the neck of the hammer. U.S. Patent No. 3,384,277 is designed to be coupled to the back pocket of the trousers. Another U.S. Patent No. 6,659,317 B2, which was issued to James Timothy Borson on December 9, 2003, includes a hammerhead holding portion. Among them, the claws of the hammer and even the hammer are exposed to the outside and come into contact with the workers. In addition, according to this patent, when a worker sets a tool to a work apron or a tool belt, the angle of the tool sleeve cannot be changed. Furthermore, this patent must use a magnet (reference number 3), this design is for the 200908909 • non-ferrous material (10) is not a valid part of the translatable component of the effective tweezers connection - one related to another patent is Ding ) McGuire (LJ Ma-, April 28, 1964, awarded L.) The patent system was designed as a hand-axe _ patent (10). At this time, several connection splits were used to protect the wall. The entire crotch of the tool will hold the head of the tool and the handle to hold the leg. ^An extra belt will be provided. The head of the guard will be mixed with the X person's ^Bersen August 13曰 awarded the patent, the hammer must In the vertical position country =: 5; ° number. According to this 0 ^ and put the handle up. In addition, the m map and the fourth figure, including the label 9 is very much like its temple mechanism. Large keys, such as framing hammers, are not very effective in repelling the width of the surface of the key-keys, which will not be as good as = '. Finally 'because the key holster and one = station: think * use the lug to connect to the user's belt, so its nature It is permanent (solid). When the worker moves, the joint mechanism does not seem to allow the hammer to swing stably. [Disclosed] The present invention discloses a tool holding and carrying device, and the tool to be used is There is an elongated handle and a head that is coupled to the handle. The tool holding and carrying device includes a head receiving portion having a main shaft that is substantially shaped to cover and protect the head of the tool. The holding device and the carrying device further comprise a support portion having a first end. The support sheet is generally embossed, and the structure is at the vicinity of the first end thereof. The main shaft of the accommodating portion is vertical. The support and the σ structure are connected to the first end to connect a connecting portion, and the vehicle is connected to the user. One embodiment of the connecting portion also includes a movement to fix a first member. Connected to a base member, and the first y is rotated about the m line, and the support is repositioned centering on the horizontal axis. The violent structure = 4, the button fastening and carrying device further includes - a handle latching portion, f is attached to the second end of the support structure and engageable Hold the handle of the tool. [Embodiment] Before entering the detailed description, please refer to Figure 2, which shows the one-axis system = to help explain the various drawings of the case. The axis indicated by 12 is roughly and not longitudinal. The arrow is directed to the direction of the head. The axis is indicated by the axis of = and is at right angles to the axis 12. In Figure 3, the axis marked with the number 14a indicates the direction toward the face of the die, and the mark: Indicates that the direction of the claws of the scorpion is lowered. Μ μ Month refers to Figure 6, the horizontal axis 16 = the number 16a and the direction that does not face the left, and the position of the job is directed to the right. The above axes are for - DETAILED DESCRIPTION OF THE INVENTION The various aspects and the general orientation of the components described in the present invention are generally described in the various aspects. The present invention is generally described as a device having four main structures. As shown in Fig. 3, the first structure is the connecting portion 22, the second structure is the branch portion 24', the second structure is the head receiving portion or the receiving structure %, and the fourth structure is 200908909. Hold structure 28. In view of the above basic description of the main components of the preferred embodiment of the present invention, other different configurations will be described in more detail below. Of course, it must be understood that such descriptions are merely one of the forms of the preferred embodiments of the invention, and that other methods and components may be utilized. Referring to Figure 1, it can be seen that the tool sleeve 20 is attached to the waistband 21 that surrounds the waist of the user 18. The user 18 is shown removing a hammer 30 from the tool cover 20. As shown, when the user 18 holds the hammer 30, the hammer 30 can be directly used as a tapping tool without changing the manner in which he grips the hammer 30. When a hammer is used as a tapping tool, the index finger and the thumb are usually placed closest to the hammer head 32. Many prior art examples do not include this feature, which can be dangerous if the user is ready to release the grip while changing the grip position. Please refer to Figure 2. It can be seen from the figure how the hammer 30 is inserted into the pocket 29 of the head housing portion 26 of the tool sleeve 20. The hammerhead 32 of the hammer 30 is placed in the pocket 29 of the head receiving portion 26 and is rotatable as indicated by arrow 31 to allow the handle 34 of the hammer 30 to pass through the slot 42 of the handle latching structure 28 Positioned within the hollow region 44 of the handle fastening structure 28. Referring to Figure 3, it can be seen from the figure how the hammer 30 is received within the head receiving portion 26 of the tool bag 20 and the handle retaining structure 28. It is particularly noted that the entire head 32 of the hammer 30 is wrapped within the head receiving portion 26 and generally aligned with the major axis 76 of the head receiving portion 26 (shown in Figure 4). In this embodiment of the invention, the user, other personnel, and the fragile portion of the worksite are protected from the claws 36 of the hammer 30 and the hammer 38. Some prior art examples do not include such a protective design, making it easy for the user and others to be injured when contacting the claws 36. The claws 36 are sharp and can cause injury in case of contact with personnel or certain parts of the site. See also Figure 3, which shows one of the possible embodiments of the belt and tool sleeve connection. The belt 21 is usually wrapped around the user and can be adjusted with a buckle. In the present invention, the waist belt 21 passes through a plurality of surfaces defining the through holes 51 in the joint portion 22. In this manner, the tool sleeve 20 is movably secured to the waistband 21. Therefore, the hammer 30 can be maintained within a range in which the user 18 can easily reach out, as shown in Fig. 1. Referring now to Figure 5, there is shown a possible embodiment of the handle latching structure 28. In this embodiment, a flexible member 40 is coupled to the support structure 24 (see Figure 3). The main shaft 78 of the support structure 24 is substantially perpendicular to the main shaft 76 of the head receiving portion 26 (see Fig. 4). Referring again to Figure 5, the hammer handle 34 can be placed in the hollow region 44 of the handle retaining structure 28, as illustrated in Figure 2 and described above. The slot 42 has been previously described and is also shown in Figure 5. The handle latching structure 28 can also include a reverse crotch portion 43 to facilitate placement of the handle 34 into the hollow region 44. The reverse arc portion 43 includes a latching arm 45 having a handle engagement surface 47. Wherein, the function or function of the latching arm 45 is like a cantilevered magazine, so that the first end 49 can be rotated outward in the lateral direction 16b, thereby holding the handle portion 34 of the hammer in the hollow region 44. . Of course, it should be noted that the slot 42 may be oriented in a laterally rearward direction or in a laterally forward direction. In a preferred form, the latching arm 45 is integral with the base region 41. One of the embodiments of the present invention is particularly useful for certain hammer designs that are particularly thin in the neck. Some prior art examples include a retaining portion for holding the neck 37 of the hammer 30 (see Figure 1 for this designation). In order to facilitate the placement of the hammer head 32 of the hammer 30 into the head receiving portion 26, a portion of the head receiving portion 26 is deployed outwardly to form a reverse arc portion 62, as can also be seen from FIG. . In this embodiment, the arc portion 62 does not extend over the entire length of the head receiving portion 26, but only covers a very small portion thereof. This still protects the entire head of the hammer 30 from side impacts. Fig. 6 is a cross-sectional view taken along line 6 in Fig. 4, showing that the hammer 30 is housed in the pocket 29 of the head receiving portion 26. As shown, the head 32 of the hammer 30 is placed within the pocket 29 and is held in place by a hammer retaining member 48. The retaining member 48 can be a length of spring material, such as spring steel, polymer, etc., to create a friction between the head 32 of the hammer 30 and the inner wall 64 of the head receiving structure 26 when the hammer 30 is inserted or removed from the pocket 29. , to prevent the hammer 30 from accidentally falling out of the pocket 29. Figure 6 further shows that the reverse arc portion 43 previously located on the head receiving member 26 widens the upper end opening 66 of the pocket 29 from the lower portion 68 of the pocket 29, thereby forming a larger opening for the placement of the hammer. among them. Please refer to Fig. 7, which shows another aspect of the present invention. Wherein the support structure 24 is rotatable relative to the connecting portion 22. Referring to Fig. 11, the solid line indicates an intermediate unbiased position, and the rotation arrow 53 indicates a possible forward rotation 53' or a rearward rotation 53", as indicated by a broken line. Please refer to Fig. 7 to Figure 10, this rotating structure will be described in more detail below. No. 7 200908909: Partial cross-sectional view of the connecting portion 22 along the section line 7 in Figure 4, the surface defining two through holes 51. Connecting two members: - Belt belt Thickness and width. The crucible 22 can have a standard elongate member 58 through a first member. According to an embodiment of the invention, the elongate member 5 is connected to the portion 22. A screw can be attached to the waistband connection portion 22 = as in the bolt or hole 57. The shaft of the elongate member 58 can be used to tighten the connecting portion 22. The belt connecting portion 22 is set to be opposite to the waist belt or other device to adjust the angle of the user's convenient use. = ^ and the: member 7. The combined elongate members 58 and 2: can be = this week §. In the basin, Chu Yi JL « AL 7Λ • shipped. Slender structure / wri - connected to the support structure 24, The elongate member 58 can be a screw, a bolt, a rivet, or any other component of the pot = slender. The head 74 of the member 58 can be a knurled nut or the like - the elongate member 58 can be pulled toward the first/twisting ❿ first member 7 〇 and then toward the belt connector 22 Wherein the 'first member 7' includes a set of convex teeth 54 and a groove 56 to match the convex teeth and the groove in the waist belt connecting portion 22. The elongated member shown in the eighth time is in a tension state, the convex tooth (4) Tightly (four) to the recess 56, thereby preventing the first member 7〇 from rotating relative to the waistband connecting portion 22 about the transverse axis 61. When the branch structure 24 is in contact with the first member 7, the tool sleeve is fixed to the support structure 24, and can be repositioned (adjusted position). When the elongate member 58 is deflated, the 'fresh-retracted spring member 6' is automatically extended, and at the belt 200908909. The connecting portion 22 and the first member 70 are formed one toward the other. The external force causes the male teeth 54 to disengage from the recess 56, as shown in Fig. 9. As shown, the first member 70 is coupled to the branch structure 24 and is detachable when the male teeth 54 are disengaged from the recess 56. Rotating relative to the belt link 22 as indicated by arrow 53 in Fig. 11. Please note that the pivoting mechanism for rotating the tool sleeve 20 is There is no restriction in the direction of rotation. Therefore, the hammer 30 can be held in a vertical position with a head down, a horizontal position, or an upside down position; in the upside down position, the hammer 32 is vertically positioned above the handle. It is possible to include the vertical position of the hammer head in the lowermost position and the vertical position of the hammer head in the upper position. Fig. 10 is a partial cross-sectional view along the section line 10 in Fig. 9, showing the convexity on the first member 70. The teeth 54 and the grooves 56. The plane of Fig. 10 further shows a perforation 72 defined therein corresponding to the outer diameter of the elongate member 58. Figures 12 through 14 show several types of convex teeth 54 and grooves 56. Possible embodiments. In Fig. 12, the convex teeth 54a and the grooves 56a have a sinusoidal cross section. In Fig. 13, the convex teeth 54b and the grooves 56b have a square waveform 'section. Fig. 14 shows an embodiment of the convex teeth 54c and the recess 56b having a triangular waveform cross section. Each of these three different embodiments has a particular use and a different degree of adjustability. The number of teeth 56 and grooves can be increased or decreased to change the number of possible rotational positions. While the invention has been described by way of illustration, the embodiments of the invention For those skilled in the art, it is obvious that other modifications and changes can be made within the scope of the appended claims. 12 200908909 'Therefore,' the present invention is not limited to the specific apparatus and method described above, and the illustrated examples. Therefore, changes can be made from such details without departing from the spirit and scope of the applicant's overall concept. [Simple diagram of the diagram] Figure 1 is an external view showing a user is entering a tool holder; Figure 2 is an external view of the present invention; Tongyuan, • Figure 3 is the present invention 4 is a side view of the unacceptable hammer of the present invention, and refers to the cross-sectional position of the figure 7; showing the 5th, hn. Fig. 5 is the cut along the 4th figure Line 5 shows the handle holding structure in the upper view, Fig. 6 is an end view and view of the invention at the age of 6 along the cut line in Fig. 4, and Fig. 7 is a part of the belt connecting portion shown along the cut line 7 in Fig. 4 Fig. 8 is a side view of Fig. 7 showing a bite groove portion; Fig. 9 is a side view of Fig. 7 showing a disengaged groove portion; Fig. 10 is a figure 9 A partial cross-sectional view of the middle section line 1; sexuality; • Figure 11 is a side view of the present invention, showing a rotation of the present invention. Figure 12 shows an embodiment in which the teeth and the groove portion are sinusoidal; 13 200908909 . 13 shows an embodiment in which the protruding teeth and the groove portion are squared; and FIG. 14 shows an embodiment in which the protruding teeth and the groove portion are in a triangular shape[Main component symbol|Children's name] 10 · Shaft system 36 · • Claw claw 12 · • Longitudinal axis 37 · • Neck 14 · • Horizontal axis 38 · • Key face 14a • • Horizontal axis clock face 40 · • Flexible member 14b • • Horizontal axis claws facing 41 • • Base area 16 • • Horizontal axis 42 • • Slot 16a • • Horizontal axis toward left direction 43 • • Reverse arc 16b • • Horizontal axis toward Right direction 44 · • Hollow area 18 • User 45 • • Buckle arm 20 • Tool sleeve 47 • Handle joint surface 21 • Belt 5 • Key head holding member 22 • Connection unit 49 • • One end 24 • • Support structure 51 • • Through hole 26 • • Head housing 53 • • Direction of rotation arrow 28 • Handle holding structure 53' • • Direction of rotation 29 • Pocket 53” • • Rotation direction 30. • Recorder 54 • • Claw 31 • • Key rotation direction 54a • Sinusoidal convex tooth 32. • Key head 54b • • Square wave window 34. • Handle 54c •• Triangular corrugated teeth 14 200908909 56 · • Groove 62 56a · • Sinusoidal waveform groove 64 56b. • Square wave groove 66 56c. • Triangle wave groove 68 57 • • Internal thread hole 70 58 . • Elongate member 72 59 . • Thread 74 60 . • Magazine member 76 61 • • Horizontal axis 78 • Reverse Arc • Head accommodating structure inner wall • Pocket upper end opening • Pocket lower part • First member • Perforated • Elongated member head. Spindle • Spindle 15