TWI564124B - Magnetic handheld tool suspension rack - Google Patents
Magnetic handheld tool suspension rack Download PDFInfo
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- TWI564124B TWI564124B TW103145396A TW103145396A TWI564124B TW I564124 B TWI564124 B TW I564124B TW 103145396 A TW103145396 A TW 103145396A TW 103145396 A TW103145396 A TW 103145396A TW I564124 B TWI564124 B TW I564124B
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Description
本發明係涉及一種手工具固定架;特別是指一種利用磁吸方式,將各式手工具定位於鐵製工具櫃或展示架之創新結構設計者。The present invention relates to a hand tool holder; in particular, to an innovative structural designer who uses magnetic means to position various hand tools in an iron tool cabinet or display stand.
按,手工具對於機械之組裝或拆卸係為一不可或缺之工具,尤其是機械維修或組立。而隨著DIY風氣的盛行,許多家庭亦會選購一些常用之手工具放置在家中以備不時之需。而其中最受歡迎者則非套筒莫屬,只要搭配一把棘輪扳手即可旋動各式不同規格之螺栓、螺帽,堪稱是一種相當方便的手工具。然由於套筒是一種旋動工具,為了要縮小旋動時所需之作業面積、方便操作,套筒通常皆為圓筒狀之結構體,因此容易滾來滾去不方便收納,於是坊間便出現許多供收納套筒之結構問世。Pressing, hand tools are an indispensable tool for the assembly or disassembly of machinery, especially mechanical repair or assembly. With the prevalence of DIY, many families will also purchase some commonly used hand tools for home use in case of emergency. The most popular ones are non-sleeve, as long as they are equipped with a ratchet wrench to rotate various bolts and nuts of different specifications, which is a very convenient hand tool. However, since the sleeve is a kind of rotary tool, in order to reduce the work area required for the rotation and to facilitate the operation, the sleeve is usually a cylindrical structure, so that it is easy to roll and roll, which is inconvenient to store, so that it is easy to store. A number of structures for the storage sleeve have appeared.
習用之長條狀手工具(套筒)固定架,其置放方式不外乎懸吊於牆上、配掛於腰間或是手持式,然懸吊於牆上於工作時並不容易拿取/放置;佩掛於腰間又因重量的關係導致不適;手持式於工作時又不具定位功能;基於以上原因便有業者開發出磁吸式之手工具吊架,藉以將手工具以磁吸的方式將手工具定位於工具櫃或展示架上。如 鈞局2014年11月11日核准公告之I460059、I460060號發明專利案,揭示利用磁吸方式固定之手工具吊架。The long strip hand tool (sleeve) holder is used for hanging on the wall, hanging on the waist or hand-held, but it is not easy to hang on the wall when working. Take/place; hang on the waist and cause discomfort due to weight; hand-held type does not have positioning function at work; based on the above reasons, some people have developed a magnetic hand tool hanger to make the hand tool magnetic The suction tool positions the hand tool on the tool cabinet or display stand. For example, the invention patents I460059 and I460060 approved by the bureau on November 11, 2014 disclose the hand tool hangers fixed by magnetic means.
該兩專利案雖可改善前述習用手工具吊架之缺 失,然而其本身之結構仍未臻完善,尚有改進之空間。例 如:該兩專利案之磁性座由於其總寬度小於結合軌道開口之寬度,因此必須利用兩相鄰之定位座來限位外基架兩端之延伸翼片,方可使磁性裝置不致於從軌道盤上掉落,最後再利用封閉塊將所有磁性座與定位塊定位於結合軌道內。其最大之缺點在於,所有磁性座與定位塊間之組裝關係必須非常準確,其原因在於若磁性座與定位塊間之相對位移量,超過磁性座延伸翼片之長度時,將導致所有磁性座逐一自軌道盤上掉落,喪失其最重要之磁吸功能。再者,該兩專利案之磁性塊係直接與被吸附物(如工具櫃)接觸,因此,若是磁性塊與被吸附物間之磁吸效應,大於磁性塊與外基架間之磁吸效應時,當該兩專利案之軌道盤從被吸附物上移除時,該磁性塊有可能自外基架上脫離,同樣會令該兩專利案喪失其磁吸功能。而若為避免此一缺失,而將磁性塊以黏膠或是其他方式緊固於外基架上,則將使製程變得更加繁複,且提高生產成本。Although the two patents can improve the lack of the aforementioned hand tool hangers, their structure is still not perfect, and there is still room for improvement. For example, since the magnetic seats of the two patents have a total width smaller than the width of the joint track opening, it is necessary to use two adjacent positioning seats to limit the extending fins at both ends of the outer base frame, so that the magnetic device can not be removed from the magnetic device. The track disk is dropped, and finally the magnetic block and the positioning block are positioned in the combined track by the closing block. The biggest disadvantage is that the assembly relationship between all the magnetic bases and the positioning block must be very accurate. The reason is that if the relative displacement between the magnetic base and the positioning block exceeds the length of the magnetic seat extension fin, all magnetic seats will be caused. Drop one by one from the track plate and lose its most important magnetic function. Moreover, the magnetic blocks of the two patents are directly in contact with the adsorbed object (such as a tool cabinet), so if the magnetic attraction between the magnetic block and the adsorbed object is greater than the magnetic attraction between the magnetic block and the outer base frame, When the track discs of the two patents are removed from the adsorbed material, the magnetic block may be detached from the outer base frame, which also causes the two patents to lose their magnetic attraction function. If the magnetic block is glued or otherwise fastened to the outer base frame to avoid this deficiency, the process will become more complicated and the production cost will be increased.
是以,針對上述習知技術所存在之問題點,如何研發出一種能夠更具理想實用性之創新構造,實有待相關業界再加以思索突破之目標及方向者。Therefore, in view of the problems existing in the above-mentioned conventional technologies, how to develop an innovative structure that can be more ideal and practical, and the relevant industry should further consider the goals and directions of breakthrough.
有鑑於此,發明人本於多年從事相關產品之製造開發與設計經驗,針對上述之目標,詳加設計與審慎評估後,終得一確具實用性之本發明。In view of this, the inventor has been engaged in the manufacturing development and design experience of related products for many years. After detailed design and careful evaluation, the inventor has finally obtained the practical invention.
本發明之主要目的,係在於提供一種手工具吊架,其所欲解決之技術問題,係針對如何研發出一種更具理想實用性之新式磁吸式手工具吊架為目標加以思索創新突破。The main object of the present invention is to provide a hand tool hanger, and the technical problem to be solved is to solve the innovative breakthrough of how to develop a new type of magnetic hand tool hanger which is more ideal and practical.
本發明解決問題之技術特點主要在於該磁吸式手工具固定架,其主要係包含有一主架體、至少一滑設於主架體底面之磁吸結構以及複數滑設於主架體頂面之手工具固定結構;其中,該手工具固定結構係供使用者將各式手工具收集限位於該主架體上,而利用該磁吸結構可將裝設有手工具之主架體任意磁吸固定於鐵製工具櫃或展示架上,而達於工作現場方便定位取用手工具,或於賣(展)場向消費者展示各式手工具之用。The technical feature of the present invention mainly lies in the magnetic hand tool holder, which mainly comprises a main frame body, at least one magnetic structure slidingly disposed on the bottom surface of the main frame body, and a plurality of sliding sliding on the top surface of the main frame body. The hand tool fixing structure is used for the user to limit the collection of various hand tools to the main frame body, and the magnetic frame can be used to arbitrarily magnetize the main frame body with the hand tool. The suction is fixed on the iron tool cabinet or display stand, and it is convenient to locate the hand tool at the work site, or display various hand tools to the consumer in the sales (exhibition) field.
其次,滑槽之斷面係概呈T型;該磁吸結構係包含有一由磁感材質所製成之滑座,該滑座之兩側係分別水平伸設有一限位結構,該兩限位結構係分別卡制於該滑槽兩側,藉以避免滑座自主架體上掉落,然並未限制滑座相對於主架體之滑動關係,該滑座中係形成有一容置槽,該容置槽中係裝設有一磁鐵,該磁鐵係利用其本身之磁吸力以及滑座之材料特性而定位於滑槽中,藉以達簡化製程之功效。Secondly, the cross-section of the chute is generally T-shaped; the magnetic structure comprises a sliding seat made of a magnetically sensitive material, and the two sides of the sliding seat are respectively horizontally extended with a limiting structure. The positional structure is respectively clamped on both sides of the sliding slot to avoid falling on the autonomous frame of the sliding seat, but the sliding relationship of the sliding seat relative to the main frame body is not limited, and a receiving groove is formed in the sliding seat. A magnet is mounted in the accommodating groove, and the magnet is positioned in the chute by its own magnetic attraction and material properties of the sliding seat, thereby simplifying the process.
再者,該容置槽具有兩相對之側壁且其深度係大於磁鐵之厚度,令滑槽兩側壁之端部與磁鐵之端面間形成有一高度差,避免磁鐵與磁感金屬結構直接接觸,藉以利用滑槽之兩側壁提高磁鐵之磁吸效應。Furthermore, the accommodating groove has two opposite side walls and the depth thereof is larger than the thickness of the magnet, so that a height difference is formed between the end portions of the two side walls of the sliding groove and the end surface of the magnet, thereby avoiding direct contact between the magnet and the magnetic metal structure. The magnetic side effect of the magnet is increased by the two side walls of the chute.
請參閱第1、2、3圖所示,係本發明磁吸式手工具固定架之較佳實施例,惟此等實施例僅供說明之用,在專利申請上並不受此結構之限制;所述磁吸式手工具固定架係包含有一主架體10、至少一滑設於主架體10底面之磁吸結構20以及複數滑設於主架體10頂面之手工具固定結構30;其中,該手工具固定結構30係供使用者將各式手工具40收集於該主架體10上,而利用該磁吸結構20可將裝設有手工具40之主架體10任意固定於鐵製工具櫃(圖中未示)或展示架(圖中未示)上,而達於工作現場方便定位取用手工具40,或於賣(展)場向消費者展示各式手工具40之用。如圖中所示者,本發明之主架體10係為一長條狀之結構體,而手工具40則以套筒為代表予以說明。Please refer to Figures 1, 2 and 3 for a preferred embodiment of the magnetic hand tool holder of the present invention. However, these embodiments are for illustrative purposes only and are not limited by this structure in the patent application. The magnetic hand tool holder includes a main frame body 10, at least one magnetic structure 20 slidably disposed on the bottom surface of the main frame body 10, and a plurality of hand tool fixing structures 30 slidably disposed on the top surface of the main frame body 10. The hand tool fixing structure 30 is used for the user to collect various hand tools 40 on the main frame body 10, and the main frame body 10 equipped with the hand tool 40 can be arbitrarily fixed by the magnetic structure 20. On the iron tool cabinet (not shown) or the display stand (not shown), it is convenient to locate the hand tool 40 at the work site, or display various hand tools to the consumer at the sales (exhibition) field. 40 used. As shown in the figure, the main frame body 10 of the present invention is a long strip-shaped structure, and the hand tool 40 is illustrated by a sleeve.
請進一步配合參閱如第7、9圖所示,該主架體10之底面係縱向形成有一具限位功能之滑槽11,且該主架體10之頂面係縱向設有一第一滑設結構12,本較佳實施例中,該滑槽11之斷面概呈T型,當然亦可以鳩尾槽(圖中未示)之方式實施。該磁吸結構20係包含有一由磁感材質所製成之滑座21,該滑座21之兩側係分別水平伸設有一限位結構22,該兩限位結構22係分別卡制於滑槽11之兩側,藉以避免滑座21自主架體10上掉落,然並未限制滑座21相對於主架體10之滑動關係,其中該限位結構22係分別延伸自滑座21頂面任一對角線兩端,而達節省材料成本之功效。當然前述限位結構22亦可沿滑座21頂面之兩側分別向外延伸成一縱向之長條狀結構,或是複數間隔設置之水平結構體,然因成本之考量,故選用圖示中所示之較佳實施態樣。該滑座21中係形成有一容置槽23,該容置槽23中係裝設有一磁鐵24,該磁鐵24係利用其本身之磁吸力以及滑座21之材料特性而定位於容置槽23中,其中,該容置槽23之深度係大於磁鐵24之厚度,令容置槽23之兩側壁231之端部與磁鐵24之端面間形成有一高度差H(如第9圖所示),避免磁鐵24與被磁吸物(鐵製工具櫃或展示架)直接接觸;再者,磁鐵24其吸力最強處係位於其兩磁極處,而本發明則利用容置槽23之兩側壁231直接與磁鐵24之兩磁極接觸,並改變磁吸方向,利用兩磁極同時吸附之原理,雙倍強化磁鐵24與被磁吸物間之磁吸效應。又本實施例中,該主架體10之兩端係分別以可拆卸方式裝設有一限位塊13,藉以避免該滑座21連同磁鐵24自主架體10之滑槽11上軸向滑落。Further, as shown in FIGS. 7 and 9, the bottom surface of the main frame body 10 is longitudinally formed with a slot 11 having a limiting function, and the top surface of the main frame body 10 is vertically provided with a first sliding frame. Structure 12, in the preferred embodiment, the cross section of the chute 11 is generally T-shaped, and of course, it can also be implemented by means of a dovetail groove (not shown). The magnetic structure 20 includes a sliding seat 21 made of a magnetic material. The two sides of the sliding seat 21 are horizontally extended with a limiting structure 22, and the two limiting structures 22 are respectively clipped to the sliding structure. The two sides of the slot 11 are used to avoid the sliding of the slider 21 on the main frame 10. However, the sliding relationship of the slider 21 relative to the main frame 10 is not limited. The limiting structure 22 extends from the top of the sliding block 21 respectively. Face the ends of any diagonal, and save the cost of materials. The limiting structure 22 can also extend outwardly along the two sides of the top surface of the sliding seat 21 to form a longitudinal strip-shaped structure, or a horizontal structure with a plurality of intervals. However, due to cost considerations, The preferred embodiment is shown. An accommodating groove 23 is formed in the sliding seat 21, and a magnet 24 is disposed in the accommodating groove 23, and the magnet 24 is positioned in the accommodating groove 23 by its own magnetic attraction force and the material property of the sliding seat 21. The depth of the accommodating groove 23 is greater than the thickness of the magnet 24, so that a height difference H is formed between the end of the two side walls 231 of the accommodating groove 23 and the end surface of the magnet 24 (as shown in FIG. 9). The magnet 24 is prevented from being in direct contact with the magnetic material (iron tool cabinet or display stand); furthermore, the magnet 24 has the strongest suction at its two magnetic poles, and the present invention utilizes the two side walls 231 of the accommodating groove 23 directly. The two magnetic poles of the magnet 24 are in contact with each other, and the direction of the magnetic attraction is changed. By the principle of simultaneous adsorption of the two magnetic poles, the magnetic attraction between the magnet 24 and the object to be magnetized is double strengthened. In this embodiment, the two ends of the main frame body 10 are respectively detachably mounted with a limiting block 13 to prevent the sliding block 21 from sliding axially off the sliding groove 11 of the autonomous frame body 10 of the magnet 24 .
該手工具固定結構30之底面係設有一第二滑設結構31,而其頂面則伸設有一結合柱32,其中該第一滑設結構12與第二滑設結構31係互相互補配合,而該結合柱32則供卡置定位手工具40,本發明之較佳實施例中,該結合柱32係具有一多邊形斷面。如第7圖所示,該第一滑設結構12係為一滑軌,而該第二滑設結構31則為一滑槽;又如第10圖所示係本發明之另一實施態樣,其中該第一滑設結構12係為一滑槽,而該第二滑設結構31則為一滑軌。The bottom surface of the hand tool fixing structure 30 is provided with a second sliding structure 31, and a top surface thereof is extended with a coupling post 32, wherein the first sliding structure 12 and the second sliding structure 31 complement each other. The binding post 32 is for positioning the hand tool 40. In the preferred embodiment of the invention, the binding post 32 has a polygonal cross section. As shown in FIG. 7 , the first sliding structure 12 is a sliding rail, and the second sliding structure 31 is a sliding slot; and FIG. 10 is another embodiment of the present invention. The first sliding structure 12 is a sliding slot, and the second sliding structure 31 is a sliding rail.
請在參閱如第4-8圖所示,圖中所示者係為本發明之第二實施例,於本實施例中,該主架體10與手工具固定結構30之結構型態與前述第一實施例中完全相同,該主架體10之滑槽11則滑設有複數磁吸結構50。而每一組磁吸結構50同樣包含有一由磁感材質所製成之滑座51以及一容置於滑座51中之磁鐵54,其中該滑座51除長度小於前述第一實施例所定義滑座21之長度外,在其它結構型態上大致相同,同樣具有由兩側水平伸設並卡制於主架體10滑槽11中之限位結構52,以及一容置磁鐵54之容置槽53。於本實施例中,由於磁吸結構50之長度相較於前述第一實施例大幅縮減,因此,當主架體10連同手工具40以水平方式磁吸固定於工具櫃或展示架上時,仍可視現場之空間配置作往復式左右平移,不僅可充分利用空間以方便操作。當然,亦可進一步利用主架體10之滑槽11,於兩兩相鄰之磁吸結構50間滑設有一限位板60,利用該限位板60可限制磁吸結構50相對於主架體10之滑動距離或滑動關係,如第5圖中所示者,係為限位板60限制磁吸結構50相對於主架體10之滑動關係之實施態樣。Please refer to FIG. 4-8, which is a second embodiment of the present invention. In this embodiment, the structure of the main frame 10 and the hand tool fixing structure 30 and the foregoing In the first embodiment, the sliding groove 11 of the main frame body 10 is slidably provided with a plurality of magnetic structures 50. Each of the magnetic structures 50 also includes a slider 51 made of a magnetic material and a magnet 54 accommodated in the slider 51. The slider 51 has a smaller length than the first embodiment. The length of the slider 21 is substantially the same in other structural types, and has a limiting structure 52 which is horizontally extended from both sides and is locked in the sliding groove 11 of the main frame body 10, and a capacity of a receiving magnet 54. Slot 53. In this embodiment, since the length of the magnetic structure 50 is greatly reduced compared with the foregoing first embodiment, when the main frame 10 and the hand tool 40 are magnetically fixed to the tool cabinet or the display frame in a horizontal manner, It can still be reciprocating left and right translation according to the space configuration of the scene, which not only makes full use of space for convenient operation. Of course, the sliding slot 11 of the main frame body 10 can be further utilized, and a limiting plate 60 is slidably disposed between the two adjacent magnetic structures 50. The limiting plate 60 can be used to limit the magnetic structure 50 relative to the main frame. The sliding distance or sliding relationship of the body 10, as shown in Fig. 5, is the embodiment in which the limiting plate 60 limits the sliding relationship of the magnetic structure 50 with respect to the main frame 10.
本發明並可進一步於磁吸結構20/50之滑座21/51上進一步裝設一防滑片70,當本發明利用磁吸結構20/50吸附於工具櫃或展示架時,該防滑片70除可提升滑座21/51與工具櫃或展示架間之摩擦力外,亦可避免由磁感金屬製之滑座21/51刮傷工具櫃或展示架之表面。The present invention can further further comprise an anti-slip sheet 70 on the sliding seat 21/51 of the magnetic structure 20/50. When the present invention utilizes the magnetic structure 20/50 to be adsorbed to the tool cabinet or the display stand, the anti-slip sheet 70 In addition to improving the friction between the carriage 21/51 and the tool cabinet or display stand, it is also possible to prevent the surface of the tool cabinet or display frame from being scratched by the magnetic metal slides 21/51.
請參閱如第11圖所示,圖中所示者係為本發明之第三實施例。於本實施例中,其主要係將如第2圖或第3圖中所示之第一實施例或第二實施例一體併排使用,藉以滑設更多手工具固定結構30,方便連結更多不同型式之手工具40 (圖中未示)。Referring to Figure 11, the figure is shown as a third embodiment of the present invention. In this embodiment, the first embodiment or the second embodiment shown in FIG. 2 or FIG. 3 is used side by side in order to slide more hand tool fixing structures 30 to facilitate connection. Different types of hand tools 40 (not shown).
請參閱如第12、13圖所示,圖中所示者係為本發明之第四實施例。本實施例與前述各實施例最大之不同點在於:該主架體10A之頂面則垂直伸設有一板體14,該板體14之任一面上係形成有複數第一滑設結構12,該第一滑設結構12係與手工具固定結構30上所設之第二滑設結構31互補滑動配合。Referring to Figures 12 and 13, the figures are shown as a fourth embodiment of the present invention. The maximum difference between this embodiment and the foregoing embodiments is that a plate body 14 is vertically protruded from the top surface of the main frame body 10A, and a plurality of first sliding structures 12 are formed on either side of the plate body 14 . The first sliding structure 12 is complementary to the second sliding structure 31 provided on the hand tool fixing structure 30.
本發明之優點說明: 本發明所揭「磁吸式手工具固定架」主要藉由所述等創新獨特結構型態與技術特徵,使本發明對照[先前技術]所提習知結構而言,確實具有如下之優點:1、結構簡單:該磁吸結構係利用其滑座本身所沿伸之限位結構,而直接限位於主架體之滑槽中,故不需其它結構自其兩側夾固定位;2、磁吸效應強:該容置槽具有兩相對之側壁且其深度係大於磁鐵之厚度,令滑槽之兩側壁之端部與磁鐵之端面間形成有一高度差,避免磁鐵與磁感金屬結構直接接觸,藉以利用滑槽之兩側壁提高磁鐵之磁吸效應;3、製程簡化:該磁鐵係利用其本身之磁吸力以及滑座之材料特性而定位於容置槽中,無須任何黏著劑或是限位結構,可達至成簡化之目的;4、磁鐵不易脫落:本創作之磁鐵因不會於被吸附物直接接觸,故不會如習用固定架結構因磁吸效應不對等而脫落,影響磁吸式手工具固定架之正常功能。Advantages of the present invention: The "magnetic hand tool holder" disclosed in the present invention mainly uses the innovative unique structural types and technical features to make the present invention compare with the conventional structure proposed in [Prior Art]. It has the following advantages: 1. The structure is simple: the magnetic structure utilizes the limit structure of the sliding seat itself, and is directly limited to the sliding groove of the main frame body, so no other structure is required to be clamped from both sides thereof. Fixed position; 2. Strong magnetic attraction effect: the accommodating groove has two opposite side walls and the depth is greater than the thickness of the magnet, so that a height difference is formed between the end portions of the two side walls of the sliding groove and the end surface of the magnet to avoid the magnet and The magnetic induction metal structure is in direct contact, thereby utilizing the two side walls of the chute to improve the magnetic attraction effect of the magnet; 3. Process simplification: the magnet is positioned in the accommodating groove by using its own magnetic attraction force and the material property of the sliding seat, without Any adhesive or limit structure can be used for the purpose of simplification; 4. The magnet is not easy to fall off: the magnet of this creation is not directly contacted by the adsorbed material, so it will not be as the conventional structure of the fixed frame due to the magnetic attraction effect. Peer-off and fall off, affecting the normal function of the magnetic hand tool holder.
上述實施例所揭示者係藉以具體說明本發明,且文中雖透過特定的術語進行說明,當不能以此限定本發明之專利範圍;熟悉此項技術領域之人士當可在瞭解本發明之精神與原則後對其進行變更與修改而達到等效之目的,而此等變更與修改,皆應涵蓋於如后所述之申請專利範圍所界定範疇中。The above embodiments are intended to be illustrative of the present invention, and are not to be construed as limiting the scope of the invention. The principles are changed and modified to achieve an equivalent purpose, and such changes and modifications are to be included in the scope defined by the scope of the patent application as described later.
10、10A‧‧‧主架體
11‧‧‧滑槽
12‧‧‧第一滑設結構
13、13A‧‧‧限位塊
14‧‧‧板體
20、50‧‧‧磁吸結構
21、51‧‧‧滑座
22、52‧‧‧限位結構
23、53‧‧‧容置槽
231‧‧‧側壁
24、54‧‧‧磁鐵
30‧‧‧手工具固定結構
31‧‧‧第二滑設結構
32‧‧‧結合柱
40‧‧‧手工具
60‧‧‧限位板
70‧‧‧防滑片
H‧‧‧高度差10, 10A‧‧‧ main frame body 11.‧‧ chute 12‧‧‧ first sliding structure 13, 13A‧‧‧ limit block 14‧‧‧ plate body 20, 50‧‧‧ magnetic structure 21, 51‧‧‧ Slides 22, 52‧‧‧ Limiting structures 23, 53‧‧‧ Sockets 231‧‧‧ Sidewalls 24, 54‧‧‧ Magnets 30‧‧‧Hand tool fixing structure 31‧‧‧ second Sliding structure 32‧‧‧ Combined column 40‧‧‧Hand tools 60‧‧‧ Limiting plate 70‧‧‧Slip sheet H‧‧‧ height difference
第1圖係本發明之立體外觀圖。 第2圖係本發明第一實施例之立體分解圖。 第3圖係本發明第一實施例之仰視圖。 第4圖係本發明第二實施例之立體分解圖。 第5圖係本發明第二實施例之仰視圖。 第6圖係第5圖之局部透視圖。 第7圖係本發明沿第5圖中第7-7割面線之剖視圖。 第8圖係本發明沿第5圖中第8-8割面線之剖視圖。 第9圖係前列第7圖之局部放大圖。 第10圖係本發明手工具固定結構與主架體另一滑動結合態 樣之示意圖。 第11圖係本發明第三實施例之立體外觀圖。 第12圖係本發明第四實施例之剖視圖。 第13圖係本發明第四實施例之側視圖。Figure 1 is a perspective view of the present invention. Fig. 2 is a perspective exploded view of the first embodiment of the present invention. Figure 3 is a bottom view of the first embodiment of the present invention. Figure 4 is a perspective exploded view of a second embodiment of the present invention. Figure 5 is a bottom plan view of a second embodiment of the present invention. Figure 6 is a partial perspective view of Figure 5. Figure 7 is a cross-sectional view of the present invention taken along line 7-7 of Figure 5 of the present invention. Figure 8 is a cross-sectional view of the present invention taken along line 8-8 of Figure 5 of the present invention. Figure 9 is a partial enlarged view of the seventh row of the foregoing. Fig. 10 is a schematic view showing another sliding joint of the hand tool fixing structure of the present invention and the main frame body. Figure 11 is a perspective view of a third embodiment of the present invention. Figure 12 is a cross-sectional view showing a fourth embodiment of the present invention. Figure 13 is a side view of a fourth embodiment of the present invention.
10‧‧‧主架體 10‧‧‧Main frame
11‧‧‧滑槽 11‧‧‧Chute
12‧‧‧第一滑設結構 12‧‧‧First sliding structure
13‧‧‧限位塊 13‧‧‧Limited blocks
50‧‧‧磁吸結構 50‧‧‧Magnetic structure
51‧‧‧滑座 51‧‧‧Slide
52‧‧‧限位結構 52‧‧‧Limited structure
53‧‧‧容置槽 53‧‧‧ accommodating slots
54‧‧‧磁鐵 54‧‧‧ magnet
30‧‧‧手工具固定結構 30‧‧‧Hand tool fixing structure
31‧‧‧第二滑設結構 31‧‧‧Second sliding structure
32‧‧‧結合柱 32‧‧‧ binding column
40‧‧‧手工具 40‧‧‧Hand tools
60‧‧‧限位板 60‧‧‧Limited board
70‧‧‧防滑片 70‧‧‧Slips
Claims (9)
Priority Applications (1)
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TW103145396A TWI564124B (en) | 2014-12-25 | 2014-12-25 | Magnetic handheld tool suspension rack |
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Application Number | Priority Date | Filing Date | Title |
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TW103145396A TWI564124B (en) | 2014-12-25 | 2014-12-25 | Magnetic handheld tool suspension rack |
Publications (2)
Publication Number | Publication Date |
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TW201622907A TW201622907A (en) | 2016-07-01 |
TWI564124B true TWI564124B (en) | 2017-01-01 |
Family
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TW103145396A TWI564124B (en) | 2014-12-25 | 2014-12-25 | Magnetic handheld tool suspension rack |
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TW (1) | TWI564124B (en) |
Citations (1)
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