M374942 五、新型說明: 【新型所屬之技術領域】 本創作係涉及一種手工具,尤指—種 擊工具。 、成震效果的敲 【先前技術】 目前一般現有的敲擊工具,係設有敲擊产g & +仵及套固;^ # 擊桿的實心握持套,但是在使用者進行敲擊時,敲== 震動會傳至握持套,造成使用者手部痠疼不舒適拏杯*的 Φ擊欲加工的物體時,所回傳的反作用力亦會傳至握持並套良敲 因此,現有的敲擊工具存有造成使用、 々于邵痩疼不舒 適的缺點,實有改善之必要。 【新型内容】 為解決現有的敲擊工具有關於造成使用者手部痠疼不 舒適之缺點,本創作的目的在於提供一種具減震效果的敲 擊工具,其係能夠減緩敲擊桿因敲擊或反作用力傳至握持 .套的震動,進而減緩使用者手部痠疼不舒適的問題。 • 本創作所運用的技術手段在於提供一種具減震效果的 敲擊工具,包括: 敲擊杯’其係设有一敲擊端、一工作端、一抵部、 兩谷置。卩及兩抵緣;該抵部係形成於該敲擊桿異於該敲擊 端及忒工作端之一外周面;該兩容置部係分別鄰接於該抵 β的兩端且各容置部的直徑係小於該抵部的直徑而使該敲 擊桿之外周面形成高低段差;該兩抵緣係分別形成於該抵 部與該兩容置部之相接之高低段差處; 3 兩封閉蓋,其係可.、典氣i丄八 別與該抵部具有一定間::;刀別套設於該兩容置部並分 =’其係相對應於該兩封閉蓋設置而▲,該兩彈 相=該兩容置部’各彈黃的兩端係分別抵靠於 子應的封閉蓋及相對應的抵緣而呈可壓縮狀態;以及 :握持套’其係套設於該抵部之一外周面並分別與該 、閉蓋結合固定而與該兩封閉蓋一體連動。 入/斤述^敲擊工具,其中各封閉蓋係設有-蓋孔及-結 Z、彖,各蓋孔係軸向穿設於相對應封閉蓋的中間位置丨各 β 口緣係由相對應的封閉蓋朝向前述之抵部之一面環凸設 :成並環繞於該蓋孔’各結合緣的直徑係小於相對應二 蓋的最大直徑;各彈簧異於前述之抵緣的一端係抵靠於相 對應的結合緣;前述之握持套係設有一套孔,該套孔係轴 向穿設於該握持套的中間位置而形成兩開口,該套孔之兩 開口係分別與該兩結合緣緊配套合固定。 所述之敲擊工具,其中各封閉蓋係設有一環凸緣,各 環凸緣係環凸設於相對應的結合緣朝向前述之抵部之—面 並環繞於前述之蓋孔,各環凸緣的直徑係小於相對應結合 緣的直徑;前述之握持套之兩端面係分別抵靠於前述之兩 封閉蓋異於相對應結合緣及相對應環凸緣之處,該握持套 係將相對應的彈簧異於該抵部之一端夹掣固定於該握持套 及相對應環凸緣之間。 所述之敲擊工具,前述之工作端係與一快拆接頭裝置 結合固定。 所述之敲擊工具,其中前述之封閉蓋及前述之握持套 M374942 2呈-體成形的金屬形式而形成一結合套,該結合套传設 有—結合套孔,該結合套孔#空& ’、 #孔係穿设於該結合套之一外周面 的中間位置;並另設有一遠姓知 ,^ 連、、,σ柄及兩榔頭塊,該連結柄係 ^屬製成並穿經該結合套孔並與前述之抵料接固定/ 連結柄的外徑係小於該結合套孔的㈣而可在該結^ ^上下位移;該兩挪頭塊係由金屬製成並分別與前述之 該結合套具有一定間隔。 其…挪頭係分別與 本創作所提供的具減震效果的敲擊工具,可以獲得的 /、體效益及功效增進至少包括: 1.減緩使用者手部痠疼不舒適:本創作在敲擊時,靠 ^工作端㈣簧會壓縮’而在敲擊桿因反仙力回彈時, 罪近敲擊端的彈簧會被壓縮;藉由兩㈣的彈簧可有效地 減緩敲擊桿因敲擊或反作用力傳至握持套的震動,進而減 緩使用者手部痠疼不舒適的問題,實用性極高。 【實施方式】 為能詳細瞭解本創作的技術特徵及實用功效,並可依 照說明書的内容來實施’兹進一步以如圖式所 施例,詳細說明如后: f —本創作所提供的一種具減震效果的敲擊工具的第一較 佳實施例’如第一、二圖所示’係包括:一敲擊桿。⑸、 兩封閉蓋(20)、兩彈簧(30)及一握持套(4〇)等元件,其中 如第二、三圖所示,該敲擊桿⑽係呈金屬長形圓桿 形式並形成有一敲擊端⑴)、—卫作端(12)、_抵部⑴) 5 M374942 、兩容置部(14)及兩抵緣(15); 該敲擊端(1丨)係形成於該敲擊桿(1〇)之一端而可供鍵 子(A)敲擊[如第四圖所示]; 該工作端(12)係形成於該敲擊桿(10)異於該敲擊端 (11)之 %,較佳地,該工作端(12)係與一快拆接頭裝置 (B)結合固定,該快拆接頭裝置(B)可與不同尺寸的鑿刀或 其他手工具結合,由於該快拆接頭裝置(B)係屬於習知技術 且非本創作的創作重點,在此容不贅述; 該抵部(13)係形成於該敲擊桿(1〇)之一外周面的中間 I部份; 該兩容置部(14)係分別鄰接於該抵部(13)的兩端且各 容置部(14)的直徑係小於該抵部(13)的直徑而使該敲擊桿 (1 0)之外周面形成高低段差; 該兩抵緣(15)係呈環形並分別形成於該抵部(13)與該 兩容置部(14)相接之高低段差處。 如第二、三圖所示,該兩封閉蓋(2〇)係可滑動地分別 鲁套設於該兩容置部(14 )並分別與該抵部(丨3 )具有一定間距 :各封閉蓋(2 0)係呈具高低段差的環形蓋體形式,各封閉 蓋(2 0 )係設有一蓋孔(21 )、一結合緣(2 2)及一環凸緣(2 3) 各蓋孔(21)係軸向穿設於相對應封閉蓋(2〇)的中間位 置; 各結合緣(2 2 )係由相對應的封閉蓋(2 〇)朝向該抵部 (1 3)之一面環凸設而成並環繞於該蓋孔(2丨),各結合緣 (22)的直徑係小於相對應封閉蓋(2〇)的最大直徑; 6 M374942 各環凸緣(23)係環凸設於相對應的結合緣(22)朝向該 抵部(13)之一面並環繞於該蓋孔(21),各環凸緣(23)的直 徑係小於相對應結合緣(22)的直徑。 如第二、三圖所示,該兩彈簧(30)係相對應於該兩封 閉蓋(2。)設置而成,該兩彈簧(3〇)係分別套設於該兩容置 部(14),其中,各彈簧(3〇)的兩端係分別抵靠於相對應的 結合緣(22)及相對應的抵緣(1 5)而呈可壓縮狀態。 如第一、二圖所示,該握持套(4〇)係由塑膠製成且一 外周面係由橡膠包覆而供使用者握持;該握持套(4〇)係套 設於該抵部(13)之一外周面並分別與該兩封閉蓋(2〇)結合 固定,該握持套(40)係設有一套孔(41),該套孔(41)係軸 向穿設於該握持套(40)的中間位置而形成兩開口,該套孔 (41)之兩開口係分別與該兩結合緣(22)緊配套合固定而使 該握持套(40)與該兩封閉蓋(30)一體連動,其中,該握持 套(40)之兩端面係分別抵靠於該兩封閉蓋(2〇)異於相對應 結合緣(22)及相對應環凸緣(23)之處,該握持套(4〇)係將 相對應的彈簧(3〇)異於該抵部(13)之一端夾掣固定於該握 持套(40)及相對應環凸緣(23)之間。 如第一、四圖所示,本創作在使用的時候,使用者係 利用鎚子(A)敲擊敲擊端(11),並將工作端(12)對準所欲 加工的物體;請進一步參看第五、六圖,當敲擊端(ιι)被 敲擊時,敲擊桿(1 〇 )係向欲加工物體的方向位移,靠近工 作端(1 2)的抵緣(丨5)向下並將相對應彈簧(3〇)壓縮,此時 靠近敲擊端(11)的彈簧(30)並沒有被壓縮;藉此,彈筹 (30)可減緩敲擊時傳至握柄套(4〇)的震動; 7 M374942 俟敲擊桿(10)受到欲加工物體的反作用力而向上位移 時,罪近敲擊端(11)的抵緣(15)向上並將相對應彈簧(3〇) 壓縮,此時靠近工作端(12)的彈簧(30)並沒有壓縮;藉此 ,彈簧(30)可減緩反作用力傳至握柄套(4〇)的震動。 如第七圖所示,本創作的第二較佳實施例係大致與第 幸又佳實把例相同,其中,第一實施例的該兩封閉蓋(2。) •及該握持套(40)係呈—體成形的金屬%式而形成一結合套 • (6〇),該結合套(60)係設有一結合套孔(61),該結合套孔 > (61)係穿設於該結合套(6〇)之一外周面的中間位置; 第一較佳實施例係另設有一連結柄(70)及兩榔頭塊 (8〇),该連結柄(70)係由金屬製成並穿經該結合套孔(61) 並與β亥抵部(1 3)焊接固定,該連結柄(7〇)的外經係小於該 結合套孔⑴)的内徑而可在該結合套孔(61)内上下位移; X兩榔頭(8 0 )塊係由金屬製成並分別與該敲擊端(1】) 乂工作端(1 2)焊接固定,其中該兩榔頭(㈣)係分別與該 。套(60)具有—定間隔;藉此,本創作的第二較佳實施 鲁例可作為一榔頭敲擊工具使用。 【圖式簡單說明】 第一圖係本創作第一較佳實施例之立體外觀圖。 第二圖係本創作第一較佳實施例之分解圖。 第一圖係本創作第一較佳實施例之剖面圖。 第圖係本創作第一較佳實施例之使用示意圖。 第五圖係本創作第—較佳實施例之作動示意圖。 第'、圖係本創^乍第一較佳實施例之作冑示意圖。 第七圖係本創作第二較佳實施例之剖面圖。 8 M374942 【主要元件符號說明】 (10) 敲擊桿 (1 2)工作端 (14)容置部 (11) 敲擊端 (13)抵部 (22)結合緣 (1 5)抵緣 (20)封閉蓋 ' (21)蓋孔 - (23)環凸緣 (30)彈簧 Φ (4G)握持套 (41)套孔 (60) 結合套 (61) 結合套孔 (70)連結柄 (80)榔頭塊 (A)槌子 • (B)快拆接頭裝置M374942 V. New description: [New technical field] This creation involves a hand tool, especially a tool. Knocking effect of the shocking effect [Prior Art] At present, the existing percussive tools are provided with a tapping g & + 仵 and a nesting; ^ # a solid grip of the striking rod, but the user taps When knocking, the vibration will be transmitted to the grip sleeve, causing the user's hand to be sore and uncomfortable. When the Φ hits the object to be processed, the reaction force returned will also be transmitted to the grip and set. Therefore, the existing percussive tools have the disadvantages of causing use and being uncomfortable with Shao Yu, which is necessary for improvement. [New content] In order to solve the shortcomings of the existing tapping tools, which cause the user's hands to be sore and uncomfortable, the purpose of the present invention is to provide a percussive tool with a shock absorbing effect, which is capable of slowing down the tapping rod by knocking The impact or reaction force is transmitted to the grip. The shock of the sleeve, thereby alleviating the problem of uncomfortableness of the user's hand. • The technical means used in this creation is to provide a shock-absorbing tapping tool, including: a knocking cup' which is provided with a tapping end, a working end, abutting portion, and two valleys. And the two abutting portions; the abutting portion is formed on the outer peripheral surface of the tapping rod different from the tapping end and the working end of the crucible; the two receiving portions are respectively adjacent to the two ends of the abutting β and are respectively accommodated The diameter of the portion is smaller than the diameter of the abutting portion, so that the outer peripheral surface of the striking rod forms a height difference; the two flanges are respectively formed at a height difference between the abutting portion and the two receiving portions; The cover is closed, and the system is provided with a certain space between the two parts: the knife is sleeved on the two receiving portions and is divided into two parts corresponding to the two closed covers. , the two elastic phases = the two receiving portions 'the ends of each of the elastic yellows are respectively in a compressible state against the closed cover of the sub-receiver and the corresponding abutting edge; and: the grip sleeve 'the sleeve is set The outer peripheral surface of one of the abutting portions is fixedly coupled to the cover and the cover, and is integrally coupled to the two closed covers. The tapping tool is provided with a cap hole and a knot Z and a cymbal, and each cap hole is axially disposed at an intermediate position of the corresponding cap. Corresponding closed cover protrudes toward a surface ring of the abutting portion: a diameter of each of the connecting edges formed around and surrounding the cover hole is smaller than a maximum diameter of the corresponding two covers; and one end of each spring different from the aforementioned abutting Corresponding to the corresponding binding edge; the foregoing holding sleeve is provided with a set of holes, the sleeve hole is axially disposed at an intermediate position of the holding sleeve to form two openings, and the two opening portions of the sleeve hole respectively The two combined edges are tightly matched and fixed. The tapping tool, wherein each of the closing caps is provided with a ring flange, and each ring flange ring protrudes from a corresponding connecting edge toward the surface of the abutting portion and surrounds the aforementioned cover hole, each ring The diameter of the flange is smaller than the diameter of the corresponding joint edge; the two ends of the grip sleeve are respectively abutted against the two closed covers different from the corresponding joint edge and the corresponding ring flange, the grip sleeve The corresponding spring is fixed between the holding sleeve and the corresponding ring flange differently than the one end of the abutting portion. In the tapping tool, the working end is fixed in combination with a quick release joint device. The tapping tool, wherein the sealing cover and the aforementioned grip sleeve M374942 2 are formed in a metal form to form a joint sleeve, and the joint sleeve is provided with a joint sleeve hole, and the joint sleeve hole is empty. & ', # hole system is placed in the middle of the outer peripheral surface of one of the joint sleeves; and there is another far-known name, ^ lian,, σ shank and two hoe blocks, the shank is made and The outer diameter of the fixing sleeve/the shank is not smaller than the (4) of the joint sleeve hole and can be displaced up and down at the joint; the two head blocks are made of metal and respectively The coupling sleeve has a certain interval from the foregoing. Its... The heads and the percussive tools provided by this creation, respectively, can achieve the /, body benefits and enhancements including: 1. Slowing the user's hands are sore and uncomfortable: the creation is knocking When hitting, the ^ working end (four) spring will compress 'and when the tapping rod rebounds due to the anti-fair force, the spring near the knocking end will be compressed; the spring of two (four) can effectively slow down the tapping rod due to knocking The shock or reaction force is transmitted to the vibration of the grip sleeve, thereby alleviating the problem of uncomfortableness of the user's hand, and the utility is extremely high. [Embodiment] In order to understand the technical features and practical functions of the creation in detail, and in accordance with the contents of the specification, the following is further illustrated in the following figure: a detailed description of the following: f - a tool provided by the present invention A first preferred embodiment of the impact tool of the shock absorbing effect, as shown in the first and second figures, comprises: a tapping rod. (5), two closed covers (20), two springs (30) and a holding sleeve (4〇) and the like, wherein as shown in the second and third figures, the tapping rod (10) is in the form of a metal elongated round bar and Forming a tapping end (1)), a guarding end (12), a _ abutting portion (1), 5 M374942, two receiving portions (14) and two abutting edges (15); the tapping end (1丨) is formed in One end of the tapping rod (1〇) is available for the key (A) to be tapped [as shown in the fourth figure]; the working end (12) is formed on the tapping rod (10) different from the tapping % of the end (11), preferably, the working end (12) is fixed in combination with a quick release joint device (B), which can be combined with different sizes of chisels or other hand tools. Since the quick-release joint device (B) belongs to the prior art and is not the creative focus of the present invention, it is not described here; the abutting portion (13) is formed on one outer peripheral surface of the knocking rod (1〇). The intermediate portion I; the two receiving portions (14) are respectively adjacent to the two ends of the abutting portion (13) and the diameter of each receiving portion (14) is smaller than the diameter of the abutting portion (13) The outer circumference of the knocker (10) forms a high and low step The two abutting edges (15) are annular and are respectively formed at a height difference between the abutting portion (13) and the two receiving portions (14). As shown in the second and third figures, the two closed covers (2〇) are slidably sleeved on the two receiving portions (14) and respectively spaced apart from the abutting portion (丨3): each closed The cover (20) is in the form of an annular cover with a high and low step, and each cover (20) is provided with a cover hole (21), a joint edge (2 2) and a ring flange (2 3) cover holes. (21) is axially disposed at an intermediate position of the corresponding closing cover (2〇); each of the coupling edges (2 2 ) is oriented by a corresponding closing cover (2 〇) toward a face ring of the abutting portion (13) Protruding and surrounding the cover hole (2丨), the diameter of each bonding edge (22) is smaller than the maximum diameter of the corresponding closing cover (2〇); 6 M374942 ring flange (23) ring protruding The corresponding bonding edge (22) faces one of the abutting portions (13) and surrounds the cover hole (21), and the diameter of each ring flange (23) is smaller than the diameter of the corresponding bonding edge (22). As shown in the second and third figures, the two springs (30) are disposed corresponding to the two closed covers (2.), and the two springs (3) are respectively sleeved on the two receiving portions (14). ), wherein the ends of each spring (3〇) are in a compressible state by abutting against the corresponding bonding edge (22) and the corresponding abutting edge (15), respectively. As shown in the first and second figures, the grip sleeve (4〇) is made of plastic and an outer peripheral surface is covered by rubber for the user to hold; the grip sleeve (4〇) is sleeved on the sleeve One outer peripheral surface of the abutting portion (13) is respectively fixedly coupled with the two closed covers (2), and the holding sleeve (40) is provided with a set of holes (41), which are axially worn. Two openings are formed in the middle of the holding sleeve (40), and the two openings of the sleeve (41) are respectively tightly coupled with the two binding edges (22) to fix the holding sleeve (40) The two closure caps (30) are integrally linked, wherein the two end faces of the grip sleeve (40) respectively abut against the two closure caps (2) different from the corresponding joint edges (22) and corresponding ring flanges (23), the holding sleeve (4〇) is fixed to the holding sleeve (40) and the corresponding ring convex by a corresponding spring (3〇) different from one end of the abutting portion (13) Between the edges (23). As shown in the first and fourth figures, when the creation is in use, the user taps the tapping end (11) with the hammer (A) and aligns the working end (12) with the object to be processed; please further Referring to the fifth and sixth figures, when the tapping end (ιι) is struck, the tapping rod (1 〇) is displaced in the direction of the object to be processed, close to the working end (1 2) (丨5) Lowering and compressing the corresponding spring (3〇), the spring (30) near the knocking end (11) is not compressed; thereby, the spring (30) can slow down the tap to the grip sleeve ( 4〇) vibration; 7 M374942 俟 When the tapping rod (10) is displaced upward by the reaction force of the object to be processed, the sin near the knocking end (11) is up (15) and the corresponding spring (3〇) Compressed, the spring (30) near the working end (12) is not compressed; thereby, the spring (30) can slow the vibration of the reaction force transmitted to the grip sleeve (4〇). As shown in the seventh figure, the second preferred embodiment of the present invention is substantially the same as the first and second embodiment, wherein the two closed covers (2) of the first embodiment and the holding sleeve ( 40) forming a joint sleeve (6〇) in the form of a metal formed by body forming, the joint sleeve (60) is provided with a joint sleeve hole (61), and the joint sleeve hole (61) is threaded. In the middle of the outer peripheral surface of one of the joint sleeves (6〇); the first preferred embodiment is further provided with a joint handle (70) and two hammer blocks (8), which are made of metal. And passing through the joint sleeve hole (61) and being welded and fixed to the β-helmet portion (13), the outer warp of the joint handle (7〇) is smaller than the inner diameter of the joint sleeve hole (1), and the joint can be The upper hole (61) is vertically displaced; the X two-head (80) block is made of metal and is respectively fixed to the tapping end (1)) working end (12), wherein the two heads ((4)) The system is separate from this. The sleeve (60) has a predetermined interval; whereby the second preferred embodiment of the present invention can be used as a hammer tapping tool. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing is a perspective view of the first preferred embodiment of the present invention. The second drawing is an exploded view of the first preferred embodiment of the present creation. The first figure is a cross-sectional view of a first preferred embodiment of the present creation. The figure is a schematic diagram of the use of the first preferred embodiment of the present creation. The fifth drawing is a schematic diagram of the operation of the first preferred embodiment of the present invention. The figure is a schematic diagram of the first preferred embodiment of the present invention. Figure 7 is a cross-sectional view showing a second preferred embodiment of the present invention. 8 M374942 [Explanation of main component symbols] (10) Impact lever (1 2) Working end (14) accommodating part (11) Knocking end (13) Abutting part (22) Bonding edge (1 5) Abutment (20) ) Closure cover ' (21) cover hole - (23) ring flange (30) spring Φ (4G) grip sleeve (41) sleeve hole (60) joint sleeve (61) joint sleeve hole (70) joint handle (80 )Taro block (A) tweezers • (B) quick release joint device