200827111 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種工具置放架,特別是指一種可擴 展收納面積且可穩固地吸附於不平整的金屬壁面上的磁吸 式工具置放裝置。 【先前技術】 美國專利US 5743416號揭露一種可用於收納手工具的 工具架,此種工具架並無法視使用者需求去擴展其用於收 納手工具的收納面積。 美國專利US 6571966B1號與US D487193 S號分別揭 路出一種可利用磁力吸附於一金屬壁面上的工具架。然而 ,美國專利US 0571966B1號的工具架亦無法視使用者需求 去擴展其用於收納手工具的收納面積。此外,由於該工具 架的一磁性元件是直接固設於一長形殼體背側上,而無法 相對於該長形殼體移動,因此,一旦該金屬壁面有不平整 的情形出現,即可能導致該磁性元件的吸附面無法全面地 吸附於該金屬壁面上,而影響該工具架的定位穩固性。 美國專利US D487193 S號的工具架則具有一底面積固 定大小的盒體,及多數固設於該盒體背面上的磁性元件, 因此,此種工具架亦會產生與上述美國專利us 6571966bi 號相同的缺失。 【發明内容】 因此,本發明之目的,即在提供一種可視使用者需求 來擴展工具收納面積且可穩固地吸附於不平整的金屬壁面 5 200827111 上的磁吸式工具置放裝置。 本發明磁吸式工具置放裝置之一種態樣,包含一主架 體’及至少二浮動式磁吸組。該主架體具有數工具置放部 ’及一定位壁。該等浮動式磁吸組是裝設於該定位壁上, 每一浮動式磁吸組具有一裝設於該定位壁上且不導磁的固 定座’及至少一磁性元件,該固定座具有一容置空間,及 一相反於該定位壁且與該容置空間連通的開口,該磁性元 件疋可線性移動地裝設於該固定座的容置空間内,且,該 磁性7G件具有一對應於該開口的外側面,當該磁性元件的 外側面從該開口伸出時,該磁性元件的外側面與該開口之 間可界定出一可變的間隔距離。 禋態樣,包含一 本發明磁吸式工具置放裝置之另 架體—收納架’及至少一磁吸組。該主架體具有一定位 壁,及-從該定位壁朝外延伸出的承載壁,該承載壁具有 數第一工具置放孔。該等收納架是可移動地裝設於該主架 體的承載壁上,而可相對該主牟# 里也 t x木體在一互相靠近的收合位 置與一互相遠離的展開位置間 有數第-工且h 置之間移動,該等收納架分別具 當該等收納架相向移動至該收合位 置時,該4收納架的第二工呈置 mm , 、置放孔疋分別與該承載壁的 L:時=,當該等收納架反向移動至該展 開位置時,該等收納架的部分第二 承載壁的部分第-工且置放孔^ #置放孔是分別與該 置放孔對應連通。該 ^ 於該主架體的定位壁相反於該承載壁的—側上、,,疋'^又 【實施方式】 伤丨上° 200827111 有關本發明之前述及其他技術内容、特點與功效,在 以下配合參考圖式之一較佳實施例的詳細說明中,將可清 楚的明白。 參閱圖1、2、3,本發明磁吸式工具置放裝置的一較佳 實施例,該磁吸式工具置放裝置包含:一主架體1〇、二收 納架20,及二浮動式磁吸组3〇。 該主架體10具有一定位壁u、一從該定位壁u朝外 延伸出的承載壁12、一裝設於該定位壁n上的磁性元件13 ,及數間隔地設置於該定位壁u上且位於該承載壁12下方 的掛鉤14。 該疋位壁11具有一立壁部丨丨丨、一從該立壁部HI的 一頂緣朝内水平延伸出的頂壁部112、一從該頂壁部112的 一外端緣朝上延伸出的上擋壁部113、一從該上擋壁部113 的一頂緣朝外水平延伸出的容置壁部114、數連續地形成於 該容置壁冑114上的套筒置放缺口 115、二間隔地設置於該 立壁部111上的限位片116、二分別界定於該等限位片116 與該立壁部111之間的限位導槽117,及二間隔地設置於該 上擋壁部113上的吊掛孔118。在本實施例中,該等套筒置 放缺口 115疋"於該等吊掛孔丨丨8之間,該磁性元件13是 裝設於該頂壁部112上,t不同尺寸的套筒被擺置於該等套 筒置放缺口 115内時,即可被該磁性元件13吸附定位,而 ,該等掛鉤14是間隔地設置於該立壁部lu上,而可供手 工具吊掛。 該承載壁12具有一從該立壁部lu朝外延伸出的底壁 7 200827111 f 121、一從該底壁部121的一外端緣朝上延伸出的前擋壁 ^ 2數刀別形成於該底壁部121上的第一工具置放孔 123、二間隔地設置於該前撞壁部122上並朝内延伸出的導 鈕邛124、二間隔地設置於該前擋壁部122上並朝内延伸出 的第&卡部125,及二間隔地設置於該前擔壁部⑵上並 朝岐伸出的第二凸卡部126,該等第二凸卡部126是分別 鄰近於該等導紐部124且介於該等導紐部124之間,該等 第一凸卡部125是介於該第二凸卡部126之間。 辟該等收納架20是可移動地裝設於該主架體1〇的承載 壁12上’而可相對該主架體1〇在一互相靠近的收合位置 見圖1、2)與一互相遠離的展開位置(見圖3)之間移 =。該等收納架20分別具有—底壁21、—從該底壁21的 :内端緣朝上延伸出且鄰近於該立壁部111 _壁22、一 21的一外端緣朝上延伸出且鄰近於該前擂壁部 於^夕壁I 一從該底壁21的一側端緣朝上延伸出且介 外壁22、23之間的側壁24、數分別形成於該底壁 導溝26,:=放孔Μ、一形成於該外壁23上的水平 中,該等收έ /、於該外壁23上的卡孔27。在本實施例 #Τ17 :: 内壁22是分別與該定位壁U的限位 泠槽⑴岣接,該承載壁的! 該等水平^ 則是分別穿過 十V溝26,而與該等水平導 架20相向㈣至該收合位置i接±田該專收納 12的第—凸卡 (見圖卜2)時’該承載壁 卡,且,,望P 125疋分別與該等收納架2〇的卡孔27嵌 該等收納架2〇的第二工具置放孔25是分別與該 8 200827111 承載壁12的第-工具置放孔123對應連通 接連通的第-、二手工具置放孔123、25即可供螺= 之類的手工具插掛;相反地,當該等收納架20反向移動至 該展開位置(見圖3)時’該承載壁12的第二凸卡部126 是分別與該等收納架2G的卡孔27嵌卡,且,該等收納架 20的部分第二工具置放孔25是分別與該承_ 12的部分 具置…23對應連通’如此,互相疊接連通的第 一、二手工具置放孔123、25與互相錯開的第一、二手工 具置放孔123、25亦可分別供手工具插掛。 如圖2、4所示,該等浮動式磁吸組3〇是間隔地裝設 於該主架體10的定位壁U相反於該承載壁12的一内側面 上,每一浮動式磁吸組30具有一裝設於該定位壁u上且不 導磁的固定座31、二磁性元件32,及一間隔件33。 該固定座31具有一裝設於該定位壁u的立壁部〖η上 的立壁311、一從該立壁311的一頂緣朝相反於該定位壁“ 的方向水平延伸出的頂壁312、一從該立壁311的一底緣朝 相反於該定位壁Π的方向水平延伸出的底壁313、一從該 頂壁312的一外端緣朝下延伸出的上擋壁314、一從該底壁 313的一外端緣朝上延伸出的下擋壁315、二分別從該頂壁 312的二側緣朝下延伸出的上限位塊316、二分別從該底壁 313的二側緣朝上延伸出的下限位塊317、一由該立壁311 、該頂壁312、該底壁313、該上擋壁314與該下擋壁315 配合界定出的容置空間318,及一形成於該上、下擋壁314 、315相對端緣之間的開口 319,該開口 319是相反於該定 200827111 位壁11且與該容置空間318連通。該等磁性元件Μ是可線 性=動地裝設於該固定座31的容置空間318内,該間隔件 33是裝設於該等磁性元件32之間而位於該容置空間318内 該等上、下限位塊316、317原是呈水平狀,在該等磁性 元件32與該間隔件33組入該固定座31的容置空間318内 後,才分別朝下、朝上彎折,以限位該等磁性元件32。 該等磁性元件32分別具有二間隔設置的導磁鐵片321 裝没於該等導磁鐵片321之間的磁鐵322,及一對應於 T固定座31的開口 319的外側面323。該等導磁鐵片321 分別具有一朝向該固定座31的上擋壁314的上肩部324, 及一相反於該上肩部324且朝向該固定座31的下擋壁315 的下肩部325。在本實施例中,該等磁性元件32的外側面 323疋形成於該等導磁鐵片321相反於該立壁Μ〗的一侧上 ,並介於該等導磁鐵片321的上、下肩部324、325之間。 如圖4、5所示,當該磁性元件32的外側面323從該固定 座31的開口 319伸出時,該磁性元件32的外側面323與 該開口 319之間可界定出一可變的間隔距離d,當該磁性元 件32移動至該外側面323與該開口 319之間的間隔距離d 為最大值時,該等導磁鐵片321的上、下肩部324、325是 分別抵接於該固定座31的上、下擋壁314、315上。 藉此,如圖2、4、5所示,該主架體1〇利用左右兩個 浮動式磁吸組30的磁性元件32的磁力即可吸附定位於一 金屬壁面100上,由於該等磁性元件32是可相對於該等固 定座31線性移動,因此,即使該金屬壁面1〇〇的左右側並 10 200827111 不平整,左右兩個浮動式磁吸組30的磁性元件32在吸附 時,亦可自行調整該外側面323與該開口 319之間的間隔 距離d,舉例來說在圖4中的間隔距離d為最小值,即表示 左側磁性兀件32的外側面323所面對的金屬壁面1〇〇是為 較凸出,而在圖5中的間隔距離d為最大值,即表示右侧 磁性兀件32的外侧面323所面對的金屬壁面1〇〇是為較内 縮,因此,左右兩個浮動式磁吸組3〇的磁性元件32的外 側面323均可全面且一致地吸附於該金屬壁面1〇〇上,而 使該主架體10穩固地定位於不平整的金屬壁面1〇〇上。 接著,如圖1所示,當使用者要收納較少的手工具時 ,即可將該等收納架20移動至該收合位置,如此,使用者 即可把手工具插掛於該承載壁12與該等收納架2〇全部互 相疊接連通的第一、二手工具置放孔123、25内;相反地 ,如圖3所示,當使用者要收納較多的手工具時,即可將 該等收納架20移動至該展開位置,使該等收納架2〇的底 壁21錯開該承載壁12的底壁部121,而擴展可用於收納工 具的面積,如此,使用者即可把手工具插掛於該承載壁12 與該等收納架20部分互相疊接連通的第一、二手工具置放 孔123、25内,或該承載壁12與該等收納架2〇互相錯開 的第一、二手工具置放孔123、25内。 經由以上的說明,可再將本發明的優點歸納如下: 一、本發明的收納架20是可相對該主架體1〇在該收 合位置(最小收納面積)與該展開位置(最大收納面積) 之間移動,因此,使用者即可視需求去擴展本發明可用於 11 200827111 收納手工具的收納面積。 二、本發明的浮動式磁吸組30的磁性元件32是可移 動地裝設於該等固定座31内,因此,在該等磁性元件32 分別吸附住該金屬壁面100時,即可配合該金屬壁面1〇〇 不平整的情形,而相對該等固定座31自行移動至該等外侧 面323完全貼附於該該金屬壁面10〇上,進而使該主架體 10穩固地定位於該金屬壁面1 〇〇上。 歸納上述,本發明之磁吸式工具置放裝置,不僅可視 使用者需求去擴展可用於收納手工具的面積,更可穩固地 吸附於不平整的金屬壁面上,故確實能達到發明之目的。 惟以上所述者,僅為本發明之較佳實施例而已,當不 能以此限定本發明實施之範圍,即大凡依本發明申請專利 範圍及發明說明内谷所作之簡單的等效變化與修飾,皆仍 屬本發明專利涵蓋之範圍内。 12 200827111 【圖式簡單說明】 前視立體示音:月:及式工具置放裝置的-較佳實施例的 位置·忍圖,說明該較佳實施例的二收納架在一收合 位置 =2是該較佳實施例的局部分解後視立體示意圖; 圖3是一類似目1的視圖,說明該等收納架在一展開 位置; 圖4是圖1的侧視示意圖,說明該較佳實施例的一左 側洋動式磁吸組的一磁性元件是全面地吸附於一金屬壁面 較凸出的左侧上;及 圖5是圖1中5-5割面線的剖視示意圖,說明該較佳實 施例的一右側浮動式磁吸組的一磁性元件是全面地吸附於 該金屬壁面較内縮的右側上。 13 200827111 【主要元件符號說明】 100 ......金屬壁面 23- * * * *,♦夕卜 10… ……主架體 24… ……側壁 11… ……定位壁 25- •…♦•第二工具置放孔 111 …♦…立壁部 26… ……水平導溝 112 ••…頂壁部 27- .......卡孔 113 ……上擋壁部 30… ……浮動式磁吸組 114, ……容置壁部 31… ……固定座 115 ,…套筒置放缺口 311 ……立壁 116 * …·♦限位片 312 ► «…♦«了頁 117 · ♦…·限位導槽 313 ……底壁 118 ♦ …"吊掛孔 314 ……上撞壁 12… •…·承載壁 315 ••…下擋壁 121 « …·♦底壁部 316 ……上限位塊 122 ♦…♦前擋壁部 317 ……下限位塊 123 ♦ -…第一工具置放孔 318 (♦•…容置空間 124 ♦ —*導紐部 319 •…"開口 125 · …♦•第一凸卡部 32… ……磁性元件 126 * ♦…♦第二凸卡部 321 ……導磁鐵片 1 3… ♦…♦磁性元件 322 < ……磁鐵 14… .....掛鉤 323, ……外側© 20… ……收納架 324 ……上肩部 21… ……底壁 325, ……下肩部 22… ……内壁 33… ……f曰1隔件 14 200827111200827111 IX. Description of the Invention: [Technical Field] The present invention relates to a tool placement frame, and more particularly to a magnetic tool holder that can expand a storage area and can be stably adsorbed on an uneven metal wall surface. Release device. [Prior Art] U.S. Patent No. 5,714,416 discloses a tool holder that can be used to house a hand tool which does not expand the storage area for receiving hand tools depending on the needs of the user. U.S. Patent Nos. 6,571,966 B1 and US Pat. No. 4,487,193, respectively, disclose a tool holder that can be magnetically attracted to a metal wall. However, the tool holder of U.S. Patent No. 057,1966 B1 cannot expand the storage area for storing hand tools depending on the user's needs. In addition, since a magnetic component of the tool holder is directly fixed on the back side of an elongated casing and cannot move relative to the elongated casing, once the metal wall surface is uneven, it is possible The adsorption surface of the magnetic component is not fully adsorbed on the metal wall surface, which affects the positioning stability of the tool holder. The tool holder of U.S. Patent No. 4,487,193 has a casing having a fixed bottom area and a plurality of magnetic members fixed on the back surface of the casing. Therefore, the tool holder is also produced in accordance with the above-mentioned U.S. Patent No. 6571966bi. The same missing. SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a magnetic tool placement apparatus that can expand a tool storage area and can be stably adsorbed to an uneven metal wall surface 5 200827111. One aspect of the magnetic tool placement apparatus of the present invention includes a main frame body and at least two floating magnetic groups. The main frame body has a plurality of tool placement portions ' and a positioning wall. The floating magnetic group is mounted on the positioning wall, and each of the floating magnetic groups has a fixing base disposed on the positioning wall and not magnetically conductive, and at least one magnetic component, the fixing seat has An accommodating space, and an opening opposite to the positioning wall and communicating with the accommodating space, the magnetic element 疋 is linearly movably mounted in the accommodating space of the fixing seat, and the magnetic 7G member has a Corresponding to the outer side of the opening, when the outer side of the magnetic member protrudes from the opening, a variable separation distance can be defined between the outer side of the magnetic member and the opening. In other words, the housing body of the magnetic tool placement device of the present invention, the storage rack, and the at least one magnetic group are included. The main frame body has a locating wall and a carrier wall extending outwardly from the locating wall, the carrier wall having a plurality of first tool placement holes. The storage racks are movably mounted on the carrying wall of the main frame body, and are opposite to the main folding frame and the tx wood body in a mutually close folding position and a mutually distant deployment position. Moving between the workers and the h, the storage racks respectively have a second work placement mm of the storage racks when the storage racks are moved toward the folding position, and the placement holes are respectively associated with the load L: when the wall is reversed, when the storage rack is reversely moved to the deployed position, part of the second carrying wall of the storage rack is placed and placed and placed separately The holes are connected to each other. The positioning wall of the main frame body is opposite to the side of the bearing wall, and then the embodiment of the invention relates to the above-mentioned and other technical contents, features and effects of the present invention. The detailed description of one of the preferred embodiments of the present invention will be clearly understood. Referring to Figures 1, 2 and 3, in a preferred embodiment of the magnetic tool placement device of the present invention, the magnetic tool placement device comprises: a main frame body 1 〇, two storage shelves 20, and two floating type The magnetic group is 3〇. The main frame body 10 has a positioning wall u, a bearing wall 12 extending outward from the positioning wall u, a magnetic component 13 mounted on the positioning wall n, and a plurality of spacers disposed on the positioning wall A hook 14 above and below the carrier wall 12. The clamping wall 11 has a vertical wall portion 丨丨丨, a top wall portion 112 extending horizontally from a top edge of the vertical wall portion HI, and an upward extending edge from an outer end edge of the top wall portion 112. The upper wall portion 113, a receiving wall portion 114 extending horizontally outward from a top edge of the upper wall portion 113, and a plurality of sleeve receiving recesses 115 continuously formed on the receiving wall 114 And a limiting piece 116 disposed at the upper wall portion 111 and a limiting guide groove 117 defined between the limiting piece 116 and the vertical wall portion 111, and spaced apart from the upper position A hanging hole 118 in the wall portion 113. In the present embodiment, the sleeves are disposed between the hanging holes 8 and the magnetic members 13 are mounted on the top wall portion 112. When placed in the sleeve receiving recesses 115, the magnetic element 13 can be adsorbed and positioned, and the hooks 14 are spaced apart from the vertical wall portion lu for hanging by the hand tool. The carrying wall 12 has a bottom wall 7 extending from the vertical wall portion lu toward the outer wall 7 200827111 f 121 , and a front retaining wall extending upward from an outer end edge of the bottom wall portion 121 . The first tool placement hole 123 on the bottom wall portion 121 and the guide button 124 spaced apart from the front wall portion 122 and extending inwardly are disposed on the front wall portion 122 at intervals And a second & card portion 125 extending inwardly and a second convex portion 126 which is disposed on the front wall portion (2) and protrudes toward the top, and the second convex portions 126 are adjacent to each other The first cam portions 125 are interposed between the guide portions 124 and between the guide portions 124. The storage racks 20 are movably mounted on the carrying wall 12 of the main frame body 1', and can be folded relative to the main frame body 1 in a close position to each other as shown in Figs. 1, 2) and Move away from each other (see Figure 3). The storage racks 20 respectively have a bottom wall 21 extending upward from the inner end edge of the bottom wall 21 and extending outwardly from an outer end edge of the vertical wall portion 111 _ wall 22, a Adjacent to the front wall portion, a side wall 24 extending from the side edge of the bottom wall 21 and extending between the outer walls 22, 23 is formed in the bottom wall guide groove 26, respectively. : = a hole Μ, a level formed on the outer wall 23, the receiving hole 27 on the outer wall 23. In this embodiment, the inner wall 22 is respectively connected to the limiting groove (1) of the positioning wall U, and the bearing wall is! The levels ^ are respectively passed through the ten V-grooves 26, and when the horizontal guides 20 are opposed to each other (4) to the folding position i, the first convex card of the exclusive storage 12 (see FIG. 2) And the second tool placement hole 25, which is respectively inserted into the storage hole 2 of the storage tray 2, and the second tool placement hole 25 of the storage tray 2, respectively, is the same as the 8200827111 carrier wall 12 - the tool placement hole 123 is correspondingly connected to the first and second-hand tool placement holes 123, 25 which are connected to each other, that is, a hand tool for screwing or the like; and conversely, when the storage rack 20 is reversely moved to the deployment In the position (see FIG. 3), the second convex portion 126 of the carrying wall 12 is respectively engaged with the card hole 27 of the storage rack 2G, and a part of the second tool placing hole 25 of the storage rack 20 is provided. The first and second-hand tool placement holes 123 and 25 which are connected to each other and the first and second-hand tool placement holes 123 and 25 which are mutually offset are also connected to each other. It can be used for hanging and unloading tools. As shown in FIG. 2 and FIG. 4, the floating magnetic groups 3 are spaced apart from the positioning wall U of the main frame 10 opposite to an inner side of the carrying wall 12, and each floating magnetic attraction The group 30 has a fixing base 31, two magnetic elements 32, and a spacer 33 which are mounted on the positioning wall u and are not magnetically conductive. The fixing base 31 has a vertical wall 311 mounted on the vertical wall portion η of the positioning wall u, and a top wall 312 extending horizontally from a top edge of the vertical wall 311 opposite to the positioning wall. a bottom wall 313 extending horizontally from a bottom edge of the vertical wall 311 in a direction opposite to the positioning wall, an upper retaining wall 314 extending downward from an outer edge of the top wall 312, and a bottom wall 314 A lower retaining wall 315 extending from an outer end edge of the wall 313, and two upper limit blocks 316 extending downward from the two side edges of the top wall 312, respectively, from the two side edges of the bottom wall 313 a lower limit block 317 extending upwardly, an accommodating space 318 defined by the vertical wall 311, the top wall 312, the bottom wall 313, the upper retaining wall 314 and the lower retaining wall 315, and a space formed therein An opening 319 between the opposite end edges of the upper and lower retaining walls 314, 315, the opening 319 is opposite to the wall of the 200827111 and communicating with the accommodating space 318. The magnetic components are linearly movable The spacer 33 is disposed between the magnetic components 32 and located in the accommodating space 318 of the fixing base 31. The upper and lower limit blocks 316 and 317 are originally horizontal, and the magnetic members 32 and the spacers 33 are assembled into the accommodating space 318 of the fixing base 31, respectively, and then face down and upward respectively. The magnetic element 32 is bent to limit the magnetic elements 32. The magnetic elements 32 respectively have two magnets 322 spaced apart from each other, and a magnet 322 that is mounted between the conductive magnet pieces 321 and one corresponding to the T mount 31. The outer side surface 323 of the opening 319. The conductive magnet pieces 321 respectively have an upper shoulder portion 324 facing the upper blocking wall 314 of the fixing base 31, and a lower side opposite to the upper shoulder portion 324 and facing the fixing seat 31. a lower shoulder portion 325 of the retaining wall 315. In this embodiment, the outer side surface 323 of the magnetic element 32 is formed on a side of the conductive magnet piece 321 opposite to the vertical wall, and is interposed between the conductive guides 321 Between the upper and lower shoulder portions 324, 325 of the magnet piece 321 . As shown in Figs. 4 and 5, when the outer side surface 323 of the magnetic member 32 protrudes from the opening 319 of the fixing base 31, the outer side of the magnetic member 32 A variable separation distance d can be defined between the side 323 and the opening 319 when the magnetic element 32 moves to the outer side 323 When the distance d between the openings 319 and the opening 319 is the maximum value, the upper and lower shoulder portions 324 and 325 of the conductive magnet pieces 321 abut against the upper and lower retaining walls 314 and 315 of the fixing base 31, respectively. Therefore, as shown in FIGS. 2, 4 and 5, the main frame body 1 can be adsorbed and positioned on a metal wall surface 100 by the magnetic force of the magnetic elements 32 of the left and right floating magnetic groups 30, due to the magnetic properties. The element 32 is linearly movable relative to the fixing base 31. Therefore, even if the left and right sides of the metal wall 1〇〇 and the 10200827111 are uneven, the magnetic elements 32 of the left and right floating magnetic groups 30 are adsorbed. The distance d between the outer side surface 323 and the opening 319 can be adjusted by itself. For example, the spacing distance d in FIG. 4 is a minimum value, that is, the metal wall surface facing the outer side surface 323 of the left side magnetic element 32. 1〇〇 is more convex, and the spacing distance d in FIG. 5 is the maximum value, that is, the metal wall surface 1〇〇 facing the outer side surface 323 of the right magnetic element 32 is relatively retracted, so The outer side 323 of the magnetic element 32 of the left and right two floating magnetic groups can be comprehensive Uniformly adsorbed on the metal wall 1〇〇, and that the main frame 10 is firmly positioned on the metal wall 1〇〇 uneven. Then, as shown in FIG. 1 , when the user wants to store less hand tools, the storage rack 20 can be moved to the folding position, so that the user can insert the handle tool on the carrying wall 12 . The first and second-hand tool placement holes 123 and 25 are all overlapped with the storage racks 2; conversely, as shown in FIG. 3, when the user wants to store more hand tools, the user can The storage rack 20 is moved to the deployed position, so that the bottom wall 21 of the storage rack 2 is offset from the bottom wall portion 121 of the carrying wall 12, and the area available for accommodating the tool is expanded, so that the user can handle the tool. Inserted in the first and second-hand tool placement holes 123, 25 of the carrier wall 12 and the storage rack 20 portions, or the carrier wall 12 and the storage racks 2 are offset from each other. Used tools are placed in holes 123, 25. Through the above description, the advantages of the present invention can be further summarized as follows: 1. The storage rack 20 of the present invention is slidable relative to the main frame body 1 at the folding position (minimum storage area) and the deployed position (maximum storage area) Between the two, the user can expand the storage area of the hand tool that can be used for the 11 200827111 as needed. 2. The magnetic element 32 of the floating magnetic group 30 of the present invention is movably mounted in the fixing base 31. Therefore, when the magnetic elements 32 respectively adsorb the metal wall 100, the magnetic element 32 can be matched. When the metal wall surface is not flat, the fixing frame 31 is moved to the outer side surface 323 to be completely attached to the metal wall surface 10, so that the main frame body 10 is stably positioned on the metal. The wall is 1 on the wall. In summary, the magnetic tool placement device of the present invention not only expands the area that can be used for accommodating hand tools, but also stably adsorbs on the uneven metal wall surface, so that the object of the invention can be achieved. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention cannot be limited thereto, that is, the simple equivalent change and modification made by the valley in accordance with the scope of the invention and the invention. All remain within the scope of the invention patent. 12 200827111 [Simplified description of the drawings] Front-view stereoscopic sound: Month: Position and endurance of the preferred embodiment of the tool placement device, indicating that the two storage shelves of the preferred embodiment are in a retracted position = 2 is a partially exploded perspective view of the preferred embodiment; FIG. 3 is a view similar to FIG. 1 illustrating the storage rack in a deployed position; FIG. 4 is a side elevational view of FIG. a magnetic element of a left-handed magnetic group of the example is fully adsorbed on a left side of a metal wall; and FIG. 5 is a cross-sectional view of the line 5-5 of FIG. A magnetic element of a right floating magnetic group of the preferred embodiment is fully adsorbed on the right side of the metal wall that is retracted. 13 200827111 [Description of main component symbols] 100 ... metal wall 23- * * * *, ♦ 卜 10 10... ...... main frame body 24... ...... side wall 11... ...... positioning wall 25- •...♦ • Second tool placement hole 111 ... ♦ ... vertical wall portion 26 ... ... horizontal guide groove 112 • • ... top wall portion 27 - ....... card hole 113 ... upper wall portion 30 ... ... floating Magnetic group 114, ... accommodating wall portion 31... ...... fixing seat 115, ... sleeve placing notch 311 ... standing wall 116 * ... ♦ limiting piece 312 ► «...♦ «Page 117 · ♦... ·Limited guide groove 313 ... bottom wall 118 ♦ ..." hanging hole 314 ... upper collision wall 12... •...·bearing wall 315 ••... lower retaining wall 121 « ...·♦ bottom wall portion 316 ... upper limit Bit block 122 ♦...♦ front wall portion 317 ... lower limit block 123 ♦ -... first tool placement hole 318 (♦•... accommodating space 124 ♦ —* guide 319 •..." opening 125 ... ♦•First convex card portion 32.........Magnetic element 126* ♦...♦Second convex portion 321 ......Conducting magnet piece 1 3... ♦...♦ Magnetic element 322 < ...... Magnet 14... ..... Hook 323, ... outside © 20... ... storage rack 324 ... upper shoulder 21 ... ... bottom wall 325, ... lower shoulder 22 ... ... inner wall 33 ... ... f曰1 spacer 14 200827111