201217122 六、發明說明: 【發明所屬之技術領域】 本發明/步及一種根據權利要求1的前序部分的特徵的用 於容納手工具的工具收納裝置。 【先前技術】 由現有技術已知在汽車修理廠、裝配車間或其他機械製 造技術應用中、但也在私人興趣領域中專業使用的工具收 納裝置。這些工具收納裝置用於保存大規模的成套工具, 所述成套工具例如包括套筒扳手組套、螺絲刀、梅花扳 手、開口扳手、銼刀、鉗子和多種其他手工具。這些工具 收納裝置已知為工具箱、插入保持器和類似物。這些工具 收納裝置設置或放置在工具箱、車間用車、工作臺^^ δ又置或放置工具箱、車間用車、工作臺上。 5 【發明内容】 因此,從之前所述的現有技術出發,本發明的目的在於 提供一種工具收納裝置,其提供對成套工具的改進的可觸 及性以及"作人體卫程學,同時保持其相對于由現有技術 已知的工具收納裝置的外部尺寸不變。_,本發明的目 的在於,容納更大的成套工具。 本發明的目的通過—猶且古 種具有根據推利要求i 的用於包括細長形的手工且 们特徵 昇的成套工具的工具收納梦罟杳 現。本發明的有利的實 部分。 k孓万架為攸屬推利要求的組成 ’其特徵在 根據本發明的用於成套 工具的工具收納裝置 I5771I.doc 201217122 於,細長形手工具的縱軸豎直定向地設置在所述工具收納 裝置中,其中所述工具收納裝置由發泡材料構成,其中所 述成套工具優選包括套筒扳手組套、螺絲刀、梅花扳手和 /或開口扳手。 通過位置固定的設置,確保各個手工具的清晰的結構化 設置。因而可以直接抓取相應所需的手工具。此外,所述 位置固定的設置阻止工具在車間用車移動期間發出聲響。 同樣,通過對細長形手工具的精確豎直定向的設置確保呈 現出问品質的外觀,這特別是在價格高的工具和工具附件 的情況下反映出工具的品質。 在本發明的另外優選的實施變型方案中,所述嵌入模組 在其底側上具有附著層❶該附著層可以例如為橡膠塗層或 者也可為具有尚附著係數的其他表面。由此避免一方面嵌 入模組由於車間用車的打開和關閉過程或車間用車的滾動 而在抽屜本身中意外地活動。另外,避免嵌入模組放置例 如在工作表面上、在車間用車的工作板上或在其他表面上 滑動或意外的容易的移動。 在本發明的另外有利的實施變型方案中,所述工具收納 裝置具有抓持構件,從而該工具收納裝置可易於取出。這 裏例如可以為把手,其可樞轉地設置在工具收納裝置上或 可放下地設置在工具收納裝置上。在工作板中或在抽屜本 身中下沉的工具收納裝置的情況下,經由抓持構件能夠實 現容易地抓持工具收納裝置以及因此放置工具收納裝置。 同樣,工具收納裝置也可以經由該抓持構件以工具箱的形 J57711.doc 201217122 式^攜帶到相應的工作地點。由此確保通過工具本身的暨 直設置並經由抓持構件的保持而避免工具掉出。 在本發明的範圍内,工具收納裝置特別是由發泡材料構 成。為此可使用不同的塑膠,其構造成具有泡孔結構和較 低密度。在此,尤其是可使用各個泡孔之間的壁完全封閉 .的閉孔型的發泡材料,或也可使用泡孔壁不封閉的開孔型 '的發泡材料。也可考慮包含上述兩種泡孔類型的混合泡孔 的發泡材料。也可考慮整體發泡材料,其具有封閉的厚外 皮和與此相對的泡孔的芯部。尤其是發泡材料在此可具有 極不同的密度和/或至少局部不同的硬度。 匕卜特別疋優選使用橡膠材料或石夕材料。在使用發泡 材料時,尤其是使用PU泡沫材料和/或?]£泡沫材料。在此 其疋}日聚乙浠泡殊或聚氨醋泡珠。 在發泡材料的情況下,密度為5至80 kg/m3之間、尤其是 1〇至70 kg/m3之間、優選是15至4〇 kg/m3之間並且特別優 選20至30 kg/m3之間。在本發明的範圍中,對於上層,密 度優選為20至40 kg/m3之間、尤其是25至35 kg/m3之間並 • 且特別優選28至32 kg/m3之間。與此相比,下方的中間層 和下層的密度在1〇至50 kg/m3之間、尤其是15至25 kg/m3 之間並且特別優選在18至23 kg/m3之間。由此又確保通過 k南上層的密度實現增強的夾緊作用’並且與此相比,在 下層上’把更多的重點放在對插入的手工工具的純導向 上。 在本發明的範圍内,工具收納裝置也可由聚苯乙烯材料 157711.doc 201217122 或擠出型聚笨乙烯硬質發泡材料(Styr()du_e^製成 通過彈性結構,能夠位置固定地形鎖合地定位工且並且必 要時對此補充地摩擦鎖合地固定。因此在根據本發明的: 具收納裝置中,工具的滑落或者工具的搖動是不可能的。 在本發明的另外有利的實施變型方案中,為了容納每個 手工工具自身,在工具收納裝置中構造有容納口,優選單 獨為每個手工具構造各容納口的橫截面。在本發明的範圍 中’容納口的橫截面面積基本上對應於待插入該容納口的 手工具和/或手工具柄的橫截面面積。根據使用場合,容 納口的橫截面積在此可構造成略微小於對應的手工且的橫 截面積’⑼而實現摩擦鎖合的防滑的位置固定。必要時容 納口的橫截面積也可略微大於對應的手工具的橫截面積, 從而能夠容易地取出或者插入。 立在本發明的範圍中,容納口比相應待插入的手工具的外 邛尺寸、尤其是工具柄的外部尺寸小i至、優選$至 3〇%、尤其是大約10%。由此,實現良好的位置固定和力 鎖合及形鎖合的保持以及簡單的插入和拔出之間的最佳折 中。 在另一種優選的實施方式中,容納口在邊緣上具有至少 -個卸載槽。由此在發泡材料或聚苯乙烯嵌入件的情況下 確保·在多年使用和多次乃至數千次插人和拔出過程的情 況下不會由於形成裂紋或類似物而對容納口的橫截面積造 成損壞。在卸載槽的情況下’因此使出現於容納口内表面 上的表面應力最小化或卸載。因此容納口也可構造為星形 1577Jl.doc 201217122 或十字形槽形的。 在本發明的另-種優選的實施變型方案中,在容納口本 身中設置清潔唇。通過清潔唇或容納口本身或者容納口的 内側可以在插入或者拔出過程中對工具進行清潔。例如可 以擦去工具的油或油脂並且必要時通過嵌入模組的内表面 t開孔結構來這樣吸收所述油或油脂,使得至少粗略地清 潔工具。 在另-種優選的實施變型方案中,工具收納裝置構造為 多層的,各層的分層面垂直於工具的登直結構延伸。由此 工具收納裝置可特聽成本地製造。單獨地製造不同的 層。由此能夠使每個層單獨匹配於所要求的情況。例如對 ;位於更上面的層,在其材料構造方面使用比位於更下面 的層更硬的材料。由此確保在上部區域中實現柄的位置固 定’相反,由於較軟的下層,用於插人的力本身保持較 J此外,與例如構造為15或20 cm或甚至更高的僅僅— 層相比’明顯成本更低的是,製造高度為直至2⑽ '尤其 是直至3 cm、優選小於1〇 crn的多個層。 此外在本發明的範圍中,優選上層的容納口設有比下層 的孔更J的谷納直徑。由此,在上層區域中確保了導向作 用和同時夾緊作用’其防止所容納的工具晃動。下層在此 主要起導向作用,使得在此既確保容易的插入和拔出,並 且儘管如此仍確保手工具可靠地、位置固定地保持於容納 口中。在本發明的範圍中,上層的容納口的内直徑優選構 造為過盈配合。尤其是容納口的直徑相對於待插入的手工 15771I.doc 201217122 具的外部輪廓減小1至40%、尤其是5至3〇%之間、特別是 10至20%之間。在中間層和下層中優選構造為過渡配合, 在此,容納口的直徑相對於待插入的手工具的外部輪廓減 小1至30%之間、尤其是2至2〇%之間並且特別優選大約 10% 〇 因此在本發明的範圍中,也可考慮:對於工具收納裝 置,將一個由聚苯乙烯材料製成的層和另一個由塑膠泡沫 製成的層組合起來。各個層可以例如彼此粘接。但也可設 想:各個層通過形鎖合嵌接地彼此連接。在此,各層之間 的形鎖合的嵌接本身可通過模組化原理或也利用相應的貫 穿插接螺栓來構造。 在本發明的另一種有利的方案中,工具收納裝置中的用 於收納各個手卫具的容納σ與手工具的插人深度有關。尤 其是容納口按層地構造。因此在本發明的範圍巾,容納口 優選完全地貫過各個層。因此可以在最上層,將用於每個 待插入的手工具的容納口構造為完全穿過該層。這裏可採 用成本低廉的麼制過程或衝壓過程。 與工具的插入深度有關地,例如,相對于具有高達1〇 ⑽或更大的插入深度的螺絲刀或開口扳手,套筒扳手套裝 件僅具有最大達2至3 em的小的插人深度,從最上面看接 連的每個層通過在相應的層中衝壓容納口而匹配手工具的 各個插入深度。 、 因此在本發明的範圍中 限的插入深度的工具。例 ,可容納由於其自身結構具有受 如螺絲刀由於其工具柄和連接於 157711.doc 201217122 f上的手柄在手柄的區域中與最上層碰撞,由此不能在進 -步插入。與此相對地’套筒扳手套裝件本身構造為圓柱 並且θ相應落入構造得深的容納口中。因此,在此需要 f過,鎖合的底錄τ面使得套筒扳手套襄件過深的插入 是:可能的。在此,可通過各個分層面來單獨為每個工具 調卽插人深度^相匹的實施變型根據本發明如下地實 現:在較深的層中不構造相應的容納口。 在本發明的範圍中,尤其是所形成的插人孔或者插入槽 的底部又構造有附加的底部嵌人件,由此避免聚苯乙稀或 泡本材料的損壞。底部嵌入件例如可由金屬或也可由塑膠 製成、但至少由比嵌Λ模組更硬的材料製成。 在本發明的另外有利的實施變型方案中,在工具收納裝 置的上端設置有插入板,其中該插入板與嵌入模組聯接。 插入板優選並且在最簡單的實施方式中是指孔板,其防止 嵌入件、尤其是嵌入件的最上層在多年或者幾十年的時常 使用中散裂(Ausfransen)。 插入板負責一方面用於最上層的表面不受到損壞,另一 方面此夠使各個手工具目標精確地插回原處。為此例如插 入板可通過文字、雕刻或其他標誌將插入口配置給各個工 具。由此也可避免尖銳的手工具、如—字螺絲刀不小心插 入嵌入模組的軟的泡沫材料中。 優4插入板由與工具收納裝置相比較硬的材料製成、優 選由塑勝、尤纟是由金屬材料並且完全特別優選由輕金屬 如鋁材料製成◊由此,插入板可低成本地製造,同時插入 157711.doc 201217122 板的品質保持很小。插入板以及工具收納裝置的小重量是 重要的,從而能夠使具有所設置的工具的工具收納裝置容 易地移動。 插入板為此優選與嵌入模組的最上層連接、例如通過力 鎖合和/或材料鎖合連接。優選,插入板與最上層粘接。 此外可想到,插入板本身具有固定芯銷(Fixierd〇rne),其 又與最上層形鎖合的嵌接。 在本發明的另外有利的實施變型中,插入板具有插入 口,其中该插入口的橫截面結構與相應的待插入的工具橫 截面相匹配。優選對於工具頭相對於工具柄較大的特殊 況(例如在叉形扳手的情況下),相應的工具的插入口必須 具有對應的插入口,從而叉形頭可穿過該插入口。同時, 通過根據本發明的結構確保將開口板手的柄再次位置固定 且豎直定向地設置在工具容納裝置中。 此外優選在插入板中在至少一個插入口中設置用於使 插入〃、中的手工具位置固定的鎖止元件。在此所述鎖止元 件可理解為例如夾子、夾緊唇或者彈簣接片,其在工具插 入時附加地形鎖合摩擦鎖合地位置固定工具。這尤其是在 插入具有大的工具頭、但相對較細或者較小的工具柄的工 具時是有利的,因為這些工具不再因為比柄大許多的容納 口鬆動地容納於工具箱中’而是基本上牢牢固定。由此在 將手工具插入至,丨根據本發明的工具收納裝置中和從其中拔 出的過程中時產生特別高品質的操作。 在本發明的另一種有利的實施變型方案中,插入口具有 15771I.doc 201217122 咿有比位於其下方的嵌入件的容納口更大的開口橫截面的 橫截面外形。由此確保通過插人板目標定向地將手工具插 入正確的谷納口中。此外’避免了不小心插入表面或者刺 入嵌入件的表面。但同時又通過位於其下方的嵌入件確保 形鎖合和摩擦鎖合地容納手工具。 在本心月的另—優選另外有利的實施變型方案中,在插 入板上構成有側部邊緣,其中該側部邊緣相對於工具收納 裝置(特別是工具收納裝置的發泡材料基體)突出地構成。 由此所述工具收納裝置可連接在不同的所述槽中。所述 工具收納裝置的絕大部分下沉地設置在所述槽中,而插入 板的突出的側部邊緣實現形鎖合,從而避免穿過所述槽掉 出。 在本發明的有利實施變型方案中,卫具收納裝置構造為 嵌入模組並可從㈣中取出。模組化的結構理解為所述嵌 入模組例如佔據所述抽屜的基面的一半或甚至僅是述抽屜 的基面的四分之—式审,丨;《。_ . t 次更J。因此,至少一個嵌入模組(優 選兩個或更多嵌入模組)可單獨地安置在一個抽屜中。如 果對於特定的工作過程,較頻繁地需要具有不同工具的嵌 入模組,則所述嵌入模組可從所述抽屜中取出,從而可以 直接抓取經常需要的工具。 例如,對於專門的汽車製造商,在檢查期間可頻繁地存 在工作過程。為此,有時f要特別地挑選工具。典型地已 知為兩個螺絲刀、五個不同的套筒扳手套裝件、—個手柄 以及兩個不同的梅花扳手或開口扳手。這些挑選出的成套 157711.doc 201217122 -可被安置在僅_個嵌人模組中,該嵌入模組可通過從 #屜中取出而放在卫作表面上。因此,可簡單、有效且快 速地執行相應的檢查過程,因為通過將需要的工具放置在 起而使工作則後的準備時間縮短到最少。因此同樣地可 月b的是JL具收納裝置自身或嵌人模組不僅局部地位於車 間用車上,而且例如可以放置在裝配地點。例如,其可被 放在升降架上或直接放在汽車的發動機艙中。這裏還提供 對所需工具的快速操作。 此外優選的是’所述嵌入模組通過形鎖合,優選通過夾 具緊固件,而位置固定地設置在所述抽履自身中。由此在 抽屜自身的拉出或推入過程中,嵌入模組可以不相對於抽 屜運動1此_絲人模組和位於其中的工具總是位於其 在抽屜自身中的規定位置上。例如,可通過夾具緊固件實 見形鎖α。所述夾具可集成在嵌入模組的底部,或者還集 成在嵌入模組的側部。這裏,嵌入模組自身可以位置固定 地設置在抽屈:底部或抽屜側部。 同樣,在本發明的範圍内可以考慮,在抽屜底部構造有 棘突(Dornfortsatze),該棘突嵌接在嵌入模組下面的容納 腔中,從而位於抽屉中的嵌入模組位置固定地位於抽屜自 身中。 在本發明的有利的實施變型方案中,車間用車在工作板 中具有至少一個槽,其中所述槽可被堵塞件封閉。在取出 所述堵塞件之後’所述嵌入模組可形鎖合地設置在所述槽 自身令,優選所述嵌入模組能夠下沉地設置在所述槽中, I577II.doc 201217122 從而所述嵌入模組的前側邊緣與所述工作板的表面對準地 貼靠。由此為了工作準備’可以將嵌入模組從抽屜中取出 並設置在車間用車的工作板上。 在本發:的範圍内還設想:將嵌入模組直接設置在工作 板上。這裏,可能有利的是,相對於抽展開口方向將車間 模組設置在車間用車後面或車間用車側面的工作板上。 π對於堵塞件’其也例如可以涉及這樣的定位,即:經由 彈篑構件將堵塞件保持在工作板的高度上,從而具有很小 強度的負載(例如手工具或類似物)不會導致堵塞件的運 動在欣入所述肷入模組自身時,可以克服彈菁力向下壓 堵塞件,亚因而能夠將嵌入模組設置在工作表面中或工作 板自身中。 在本發明的範圍内’在下壓堵塞件的情況下利用推麼打 開的功月b β可疋成嵌入模組的插入。因此,如果欲入模組 被放到堵塞件上方並克服彈簧力向下壓,則其經由鎖定裝 置而卡鎖。在該位置上,工具然後可被取出並且相應地執 行一個工作過程°如果還要取出嵌人模組’則其通過解鎖 t過向上_力)這樣地被解鎖’從而嵌入模组再次 通過彈簧力被略微地提起並因而可被取出。 然而,堵塞件也可被取出,從而在取出堵塞件之後,嵌 入模組重新設置在槽中。該槽自身也可以是形式為孔的凹 槽,從而嵌入模組被掛在該凹槽中。在經由彈簣構件可下 沉的堵塞件上,可以將裝入工作板中的嵌入模組經由鎖定 構件鎖定並解鎖用於移除鎖定構件,從而嵌入模組通過彈 15771 l.doc 13· 201217122 簧力被提起》由此實現簡單地操控根據本發明的車間用 車。 在另外有利的實施變型方案巾,所述槽設置在所述工作 板的後端’並且至少上面的抽屉的深度這樣地構造,使得 當所述嵌入模組設置在所述工作板中時,所述上面的抽展 能夠完全閉合。因而在本發明的範圍内,例如可以使钱入 模..且自身以車間用車深度的約一半的深度設置在最上面的 抽屜中。然後可以在打開抽屜之後取出所述嵌入模組並且 f置在所述槽中。接著,所述抽屜同樣可以被完全閉合。 這提供對在根據本發明的車間用車中的工作空間的工作人 體工程學以及存儲空間利用能力的優化。 這襄在本發明的範圍内,還可設想:所述槽設置在所述 工作板上’從而該槽朝一伽 _ 一 槽朝側開口。延晨,嵌入模組被構造 二°從開放側推入到槽中。就此而言,在本發明的範圍 ’在工作板中和/或在敌人模組以及導向槽中構造有導 向接片,從而可推人嵌人模組。如果嵌人模組到達其在工 :::的要佔據的位置,則其可以經由鎖定構件 置固定。 掛)在内’還可以將嵌入模組設置(特別是懸 面a @工作板的與抽屜開口側相反的-側的後 上,人模組可直接懸掛在卫作板和/或車間用車 或者懸掛在位於工作板中的其他嵌入模組上。 在本發明的範圍内還可能的是,當車間用車具有用於容 '•不问工作構件的側向的孔板時,懸掛所述嵌入模組。 157711.doc 201217122 在本發明的另外有利的實施變型中,在抽屜自身中構造 有至少一個槽,其中所述槽可利用堵塞件封閉,並且所述 嵌入模組可形鎖合地設置在所述槽中。由此可以將嵌入模 組形鎖合地設置在抽屜甲,例如通過嵌入或懸掛。在本發 明的範圍内,在抽屜自身中構造有中間底板,而該抽屜底 板自身可省略。經由堵塞件可另外提供附加的存儲空間, 從而在取出嵌入模組的情況下借助於堵塞件提供所述抽屜 底板,以在此存放物品。 【實施方式】 在附圖中,對於相同或相似構件使用同一附圖標記,即 使在出於簡化的原因而省略了重複的說明。 圖1示出用於容納成套工具的車間用車丨,其中所述成套 工具具有套筒扳手組套2、螺絲刀3、梅花扳手4和開口扳 手5。車間用車!自身包括可滾動的殼㈣,可拉出的抽展7 設置在該殼體中。工作板8位於殼體6的上側。在可拉出的 抽屜7本身中設置用於收納成套工具的根據本發明的工具 收納裝置9。特別是,細長形的工具(如螺絲刀3、套筒扳 手組套2的手柄和螺旋扳手4、5)沿£直軸線_方 地設置。 圆/不出抽屜7的 納部。這裏,在抽屜7的後側u 舌片12,其t舌片12與在工具收納裝置9上的在 此未示出的嵌接件連接 設置在抽屜7卜 &而-收納裝置9位置固定地 圖3示出根據本發明的車間用車^的另-實施變型方案, 157711.doc •】5- 201217122 其:在這裏工具收納裝置9構造有略微傾斜的表面!3。由 此實現人體工程學地抓取位於工具收納裝置9中的成套工 -此外,在圖3中示出的實施變型方案中,工具收納裝 置9嵌入工作板8的槽14中。i古重,τ曰 甲k裏工具收納裝置9的前側 邊緣15與工作板8的工作表面16對準地貼靠。 圖4示出根據圖3的車間用車1的側視圖,其令在圖4中從 車間用車丨的前側17可看“ p和由此實現的 對工具的可抓取性。 狂予 山圖5示出根據本發明的車間用車1的另-實施變型,其中 這裏在工作板8上存在四個槽14。兩個槽14設有孔塞18, 而在其他槽14中相應地裝入嵌入模組9。由此實現可選擇 據待實施的卫作過程將相應適配的嵌人模組9從抽屜7 中取出並裝人槽14中的可能性。槽14與卫作板8的深度^ 相關地構造,優選為深度由此確保存在足夠 的剩餘工作面來執行裝配工作。此料保特別是當工且收 二裝置9裝入抽屜7的區域中時,還可以打開和關閉㈣ 優選地,抽屜7構造層最多為工作板7的深度9的約 一半。 圖6示出本發明的另-實施變型,其中在這裏一方面在 工作板8上’具有成套王具的H㈣置9可放在工作表 面16上。由此對於相應的工作裝配過程,能夠單獨選擇工 具收納裝置9的位置。另-方案規定:在車間用軺的容納 區域2U用於袭人工具收納裝置9的㈣容納部 搁架容納部21人體工程學地這樣設置,使得它能夠與車間 157711.doc •16- 201217122 用車1的前側18成角度β地設置。因此可為作業的裝配工人 提供工作板8的整個工作表面16,從而直接快速地抓取相 應的所需工具。 圖7示出根據本發明的工具收納裝置9,在圖、中為側視 圖,在圖7b中為俯視圖,在圖7c中為透視圖。其分別示出 工具收納裝置9的多個層,包括上層22、第一中間層23、 第二中間層24和下層25。其上設置有螺絲刀3、套筒扳手 套裝件26、套筒扳手手柄2、插接塊27、開口扳手28以及 棘輪裝置29。 圖8a至圖8c示出類似的實施變型方案,但其具有傾斜表 面其中表面13與工作表面3〇成角度v。 圖9不出根據本發明的用於收納細長形的手工具的工具 收納裝置9的剖視圖。特別是,這裏示出螺絲刀3、梅花板 手4加長件3 1以及棘輪裝置29。另外,根據本發明的工 具收納裝置9具有插入板32並分層地構造,從而構造有上 層22、第一中間層23、第二中間層24和下層25 ^設置在根 $本發明的工具收納裝置9中的手工具以其相應的縱軸沿 豎直軸線10定向。根據本發明的工具收納裝置9的結構在 正面中變得清晰可見,據此,用於相應的手工具的貫穿各 個層的容納口限定手工具相應的插入深度33a、3扑。這 裏,長的加長件31的插入深度33a相應地一直構造到第二 中門層24相反地,短的加長件3 1以及棘輪裝置29的插入 深度33b構造成僅貫穿上層22。 Η 〇示出根據本發明的工具收納裝置9的構造可能性的 157711.doc 201217122 俯視圖° 裏’容納口 34這樣地構造,使得用於容納相應 的未洋、、.田示出的手工具的谷納口的橫截面外形為具有不同 尺寸。這樣’所示的容納口 34中的至少一些具有十字形構 造的橫截面。由此,在設計成十字形的容納心處形成卸 載槽3 5 ’其避免根據本發明的工具收納裝置9的在環繞容 納口 34的區域中材料經過長期使用而散裂(Au^叫或者 裂開或偏轉(Ausschlagen)。 圖11示出另—實施變型方案,其中這裏容納口34中的至 少一些的橫截面外形為乂形。在構造成χ形的邊緣區域中 形成却載槽35’纟防止根據本發明的工具收納裝置9經過 長期使用而引起材料疲勞。 …圖12示出插人板32以及位於其下面的工具收納裝置9的 從上方觀察的視圖。這裏可以清楚地看出,插人板32具有 插入口 36,以及工具收納裝置9具有位於其下面的容納口 與插人板32的插人σ36相比,容納心的橫載面面積 相應稍小地構造。由此,由於插人板32的較大硬度能將工 具貫穿地插入,而不貼靠在插入口 36上。相反地,這導致 在工具與工具收納裝置9的容納口 34之間形成形鎖合和/或 力鎖合的接觸。由此,相應插人的手卫具位置固定地保持 在根據本發明的工具收納裝置9中。 【圖式簡單說明】 本發明的其他優點、特徵、特點和觀點是下面的說明書 的組成部分。優選的實施方式在示意性附圖中示出 用於更加簡單地理解本發明。附圖如下: 157711.doc 201217122 圖1為根據本發明的具有 視圖; 已打開的抽屜的車間用車的透 圖2為抽屜的細部透視圖,_ 圖3為根據本發明的車間用車的實施變型的透視圖; 圖4為根據本發明的車間用車的實施變型的侧視圖; 圖5為根據本發明的具有不同槽的工作板; 圖6為車間用車的根據本發明的另-實施變型; 圖7為平直結構的嵌入模組; 圖8為傾斜結構的嵌入模組; 圖9為根據本發明的嵌入模組的剖視圖; 圖10為根據本發明的具有知葡揭沾τ θ 、,坪戟糟的工具收納裝置的從上 方觀察的視圖; 圆11為類似於圖1 〇的可巻扁香h , 幻j朁代貫施變型方案;以及 圖12為根據本發明的具有 方觀察的視圖。 插入板的工具收納裝置的從上 【主要元件符號說明】 1 車間用車 2 套筒扳手 3 螺絲刀 4 梅花扳手 5 開口扳手 6 殼體 7 抽屜 8 工作板 157711.doc -19- 201217122 9 工具收納裝置 10 豎直軸線 11 後側 12 舌片 13 9的表面 14 8的槽 15 9的前側邊緣 16 8的工作表面 17 1的前側 18 14的堵塞件 19 8的深度 20 容納區域 21 擱板容納部 22 上層 23 第一中間層 24 第二中間層 25 下層 26 套筒扳手卡口 27 插接塊 28 開口板手 29 棘輪裝置 30 工作表面 31 加長件 32 插入板 157711.doc -20- 201217122 33a 插入深度 長 33b 插入深度 短 34 容納口 35 卸載槽 36 插入口 V. 角度 β. 21的角度 157711.doc -21 -201217122 VI. Description of the Invention: [Technical Field] The present invention/step and a tool storage device for accommodating a hand tool according to the features of the preamble of claim 1. [Prior Art] Tool receiving devices known in the art for use in automotive repair shops, assembly shops or other mechanical manufacturing technology applications, but also in the private interest field are known from the prior art. These tool storage devices are used to hold large-scale kits, including, for example, socket wrench sets, screwdrivers, wrenches, open-end wrenches, trowels, pliers, and a variety of other hand tools. These tool storage devices are known as tool cases, insertion holders and the like. These tool storage devices are placed or placed in a toolbox, a workshop vehicle, a workbench, a toolbox, a workshop vehicle, and a workbench. 5 SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a tool storage device that provides improved accessibility to a kit and "human body maintenance while maintaining its The outer dimensions of the tool storage device known from the prior art are unchanged. The object of the invention is to accommodate a larger kit. The object of the present invention is to provide a tool storage dream for a kit comprising a slender hand-made and a feature-increasing kit according to the claim i. An advantageous real part of the invention. The k-frame is a composition of the genus of the genus, which is characterized by the tool accommodating device for the kit according to the invention, I5771I.doc 201217122, on which the longitudinal axis of the elongated hand tool is vertically oriented. In the accommodating device, wherein the tool accommodating device is composed of a foamed material, wherein the kit preferably includes a socket wrench set, a screwdriver, a wrench, and/or an open end wrench. A clear, structured setup of each hand tool is ensured by a fixed position setting. Therefore, the corresponding hand tools can be directly captured. In addition, the fixed position setting prevents the tool from making a sound during the movement of the shop. Also, the appearance of the questionable quality is ensured by the precise vertical orientation of the elongated hand tool, which reflects the quality of the tool, especially in the case of expensive tools and tool attachments. In a further preferred embodiment variant of the invention, the insert module has an adhesive layer on its underside, which can be, for example, a rubber coating or other surface having a factor of adhesion. This prevents accidental movement of the embedded module in the drawer itself due to the opening and closing process of the workshop vehicle or the rolling of the workshop vehicle. In addition, avoid embedding module placement such as sliding or accidental easy movement on the work surface, on the work panel of the workshop vehicle, or on other surfaces. In a further advantageous embodiment variant of the invention, the tool receptacle has a gripping member, so that the tool receptacle can be easily removed. Here, for example, a handle can be provided which is pivotally arranged on the tool receiving device or can be placed down on the tool receiving device. In the case of a tool storage device that sinks in the work board or in the drawer itself, it is possible to easily grasp the tool storage device and thus the tool storage device via the gripping member. Similarly, the tool accommodating device can also be carried to the corresponding work place via the gripping member in the shape of a toolbox. This ensures that the tool is prevented from falling out by the erection of the tool itself and by the holding of the gripping members. Within the scope of the invention, the tool receiving device is in particular constructed of a foamed material. Different plastics can be used for this purpose, which are constructed to have a cell structure and a low density. Here, in particular, a closed-cell type foamed material in which the walls between the respective cells are completely closed can be used, or an open-cell type foamed material in which the cell walls are not closed can also be used. Foamed materials comprising mixed cells of the above two cell types are also contemplated. Also contemplated is a unitary foamed material having a closed thick outer skin and a core of cells opposite thereto. In particular, the foamed material can here have very different densities and/or at least partially different hardnesses. In particular, it is preferable to use a rubber material or a stone material. When using foamed materials, especially PU foam and/or? ] £ foam material. Here, the 聚 聚 聚 浠 浠 或 或 or Polyurethane vesicles. In the case of foamed materials, the density is between 5 and 80 kg/m 3 , in particular between 1 and 70 kg/m 3 , preferably between 15 and 4 kg/m 3 and particularly preferably between 20 and 30 kg / Between m3. In the context of the invention, for the upper layer, the density is preferably between 20 and 40 kg/m3, in particular between 25 and 35 kg/m3 and, and particularly preferably between 28 and 32 kg/m3. In contrast to this, the density of the lower intermediate layer and the lower layer is between 1 and 50 kg/m3, in particular between 15 and 25 kg/m3 and particularly preferably between 18 and 23 kg/m3. This in turn ensures that the enhanced clamping action is achieved by the density of the upper layer of k and, in contrast, the more emphasis on the lower layer is placed on the pure guidance of the inserted hand tool. Within the scope of the present invention, the tool accommodating device can also be made of polystyrene material 157711.doc 201217122 or extruded polystyrene rigid foam material (Styr() du_e^ through an elastic structure, capable of being fixed in a positional manner. In the case of the accommodating device, the sliding of the tool or the swaying of the tool is not possible. In a further advantageous embodiment of the invention, the locating device is also possible. In order to accommodate each hand tool itself, a receiving opening is formed in the tool receiving device, preferably a cross section of each receiving opening is formed separately for each hand tool. In the scope of the invention, the cross-sectional area of the receiving opening is substantially Corresponding to the cross-sectional area of the hand tool and/or the hand tool shank to be inserted into the receiving opening. Depending on the application, the cross-sectional area of the receiving opening can be configured here to be slightly smaller than the corresponding manual cross-sectional area '(9). The anti-slip position of the friction lock is fixed. If necessary, the cross-sectional area of the receiving opening can also be slightly larger than the cross-sectional area of the corresponding hand tool, thereby enabling It is easy to remove or insert. In the scope of the invention, the receiving opening is smaller than the outer diameter of the hand tool to be inserted, in particular the outer dimensions of the tool shank, preferably from $ to 3%, in particular about 10 Thus, a good compromise between position fixing and force-locking and form-locking and a simple compromise between simple insertion and removal is achieved. In a further preferred embodiment, the receiving opening has an edge on the edge. At least one unloading groove. This ensures that in the case of foamed materials or polystyrene inserts, there is no cracking or the like due to years of use and multiple or even thousands of insertion and extraction processes. In addition, the cross-sectional area of the receiving opening is damaged. In the case of the unloading groove, the surface stress appearing on the inner surface of the receiving opening is thus minimized or unloaded. Therefore, the receiving opening can also be configured as a star 1577Jl.doc 201217122 or a cross. In a further preferred embodiment variant of the invention, a cleaning lip is provided in the receiving opening itself. The cleaning lip or the receiving opening itself or the inner side of the receiving opening can be inserted or The tool is cleaned during the process. For example, the oil or grease of the tool can be wiped off and, if necessary, the oil or grease is absorbed by the inner surface t of the module, so that the tool is at least roughly cleaned. In a preferred embodiment variant, the tool receptacle is constructed in multiple layers, the layer of each layer extending perpendicular to the straightening structure of the tool. The tool receptacle can thus be produced in a particularly cost-effective manner. It is possible to match each layer individually to the desired situation. For example, the layer above the upper layer uses a material that is harder than the layer located below in its material construction. This ensures that the position of the handle is achieved in the upper region. Fixedly, on the contrary, due to the softer lower layer, the force for insertion itself remains more than J, compared to, for example, only 15 layers of 20 or 20 cm or even higher, the apparent cost is lower, the manufacturing height It is a plurality of layers up to 2 (10) 'in particular up to 3 cm, preferably less than 1 〇 crn. Further, in the scope of the present invention, it is preferable that the accommodating opening of the upper layer is provided with a glutinous diameter which is J more than the hole of the lower layer. Thereby, the guiding action and the simultaneous clamping action are ensured in the upper region, which prevents the contained tool from shaking. In this case, the lower layer serves primarily as a guide, so that both easy insertion and removal are ensured and, in still, the hand tool is reliably and securely held in the receptacle. In the scope of the invention, the inner diameter of the receiving opening of the upper layer is preferably constructed as an interference fit. In particular, the diameter of the receiving opening is reduced by 1 to 40%, in particular between 5 and 3%, in particular between 10 and 20%, relative to the outer contour of the manual 15771I.doc 201217122 to be inserted. In the intermediate layer and the lower layer, a transition fit is preferably provided, the diameter of the receptacle opening being reduced by between 1 and 30%, in particular between 2 and 2 %, and particularly preferably with respect to the outer contour of the hand tool to be inserted. Approximately 10% 〇 Therefore, it is also within the scope of the invention to combine a layer made of polystyrene material with another layer made of plastic foam for the tool storage device. The individual layers can be bonded to each other, for example. However, it is also conceivable that the individual layers are connected to each other by means of a form-locking ground. In this case, the form-locking engagement between the individual layers can be constructed by the modular principle or also by the corresponding through-bolt bolts. In a further advantageous embodiment of the invention, the accommodation σ in the tool receiving device for accommodating the individual hand guards is related to the insertion depth of the hand tool. In particular, the receiving opening is constructed in layers. Therefore, in the scope of the present invention, the receiving opening preferably passes completely through the respective layers. It is thus possible to configure, at the uppermost level, the receiving opening for each hand tool to be inserted to pass completely through the layer. Here, a low cost manufacturing process or a stamping process can be employed. In relation to the insertion depth of the tool, for example, with respect to a screwdriver or open-end wrench having an insertion depth of up to 1 〇 (10) or more, the socket wrench set has only a small insertion depth of up to 2 to 3 em, from Each layer that is viewed at the top is matched to each insertion depth of the hand tool by punching the receiving opening in the corresponding layer. Therefore, a tool for inserting depth is limited in the scope of the present invention. For example, it can be accommodated due to its own structure with a screwdriver due to its tool handle and the handle attached to the 157711.doc 201217122 f in the area of the handle colliding with the uppermost layer and thus cannot be inserted in the step-by-step. In contrast, the 'sleeve wrench set itself is constructed as a cylinder and θ falls correspondingly into the deeply configured receiving opening. Therefore, it is necessary here to f, the locking of the bottom surface of the τ surface makes the socket wrench sleeve too deep insertion: possible. In this case, the individual variants can be used to adjust the depth of each tool by means of the individual layers. According to the invention, it is achieved that no corresponding receptacles are formed in the deeper layers. In the scope of the invention, in particular the bottom of the insertion opening or the insertion groove is formed with an additional bottom insert, thereby avoiding damage to the polystyrene or the foam material. The bottom insert can be made, for example, of metal or plastic, but at least made of a material that is harder than the embedding module. In a further advantageous embodiment variant of the invention, an insert plate is provided at the upper end of the tool receptacle, the insert plate being coupled to the insert module. The insert plate is preferably and, in the simplest embodiment, an orifice plate which prevents the insert, in particular the uppermost layer of the insert, from spalling during many years or decades of use. The insert plate is responsible for the fact that the surface of the uppermost layer is not damaged on the one hand, and that the individual hand tool targets are accurately inserted back in place on the other hand. For this purpose, for example, the insertion plate can be configured for each tool by means of text, engraving or other markings. This also prevents sharp hand tools, such as a word screwdriver, from being accidentally inserted into the soft foam of the embedded module. The insert 4 is made of a relatively hard material, preferably of plastic, in particular of a metal material and is particularly preferably made of a light metal such as an aluminum material, whereby the insert can be produced at low cost. At the same time insert 157711.doc 201217122 board quality remains small. The small weight of the insertion plate and the tool storage device is important so that the tool storage device having the set tool can be easily moved. For this purpose, the insertion plate is preferably connected to the uppermost layer of the insert module, for example by a force-locking and/or a material-locking connection. Preferably, the insert plate is bonded to the uppermost layer. In addition, it is conceivable for the insert plate to have a fixed core pin which is in engagement with the uppermost layer. In a further advantageous embodiment variant of the invention, the insert plate has an insertion opening, the cross-sectional structure of the insertion opening being matched to the cross-section of the respective tool to be inserted. Preferably, for the particular condition of the tool head relative to the tool shank (e.g. in the case of a fork wrench), the corresponding tool insertion opening must have a corresponding insertion opening through which the yoke can pass. At the same time, it is ensured by the structure according to the invention that the shank of the open plate hand is again fixed in position and arranged vertically in the tool receiving device. Furthermore, it is preferred to provide a locking element for fixing the position of the hand tool inserted into the jaw in at least one of the insertion openings in the insertion plate. In this case, the locking element can be understood to mean, for example, a clip, a clamping lip or a magazine tab, which additionally attaches a top-locking friction-locking position fixing tool when the tool is inserted. This is advantageous in particular when inserting a tool having a large tool head but a relatively thin or small tool shank, since these tools are no longer loosely accommodated in the tool case due to the larger accommodating opening than the shank' It is basically fixed firmly. Thereby, a particularly high quality operation is produced when the hand tool is inserted into the tool receiving device according to the invention and during the process of being pulled out therefrom. In a further advantageous embodiment of the invention, the insertion opening has a cross-sectional profile of the opening cross section of the larger opening of the insert of the insert located below it. This ensures that the hand tool is inserted into the correct valley opening by the insertion plate target. In addition, care has been taken to accidentally insert the surface or penetrate the surface of the insert. At the same time, however, the inserts underneath it ensure a positive fit and a friction fit for the hand tool. In a further advantageous embodiment of the present invention, a side edge is formed on the insertion plate, wherein the side edge protrudes relative to the tool storage device, in particular the foam material base of the tool storage device. Composition. Thereby the tool receiving device can be connected in different slots. The majority of the tool receiving device is seated in the slot, and the protruding side edges of the insert plate are form-locked to avoid falling out through the slot. In an advantageous embodiment variant of the invention, the implement receptacle is embodied as an insert module and can be removed from the (four). The modular structure is understood to mean that the embedded module, for example, occupies half of the base of the drawer or even a quarter of the base of the drawer, 丨; _ .t times more J. Therefore, at least one of the embedded modules (preferably two or more embedded modules) can be separately placed in one drawer. If, for a particular work process, an embedded module having a different tool is required more frequently, the embedded module can be removed from the drawer so that the tools that are often needed can be directly captured. For example, for a specialized car manufacturer, the work process can be frequently performed during the inspection. For this reason, sometimes f has to choose tools in particular. Typically known as two screwdrivers, five different socket wrench sets, one handle and two different wrenches or open ended wrenches. These selected sets of 157711.doc 201217122 - can be placed in only _ inlay modules that can be placed on the surface of the Guard by taking them out of the # drawer. Therefore, the corresponding inspection process can be performed simply, efficiently, and quickly, because the preparation time after the work is minimized by placing the required tools. Therefore, the same can be used for the month B. The JL storage device itself or the embedded module is not only partially located on the vehicle for the vehicle, but can be placed, for example, at the assembly site. For example, it can be placed on a crane or placed directly in the engine compartment of a car. It also provides quick access to the tools you need. It is further preferred that the insert module is fixedly positioned in the draw itself by a form fit, preferably by a clip fastener. As a result, during the pulling or pushing of the drawer itself, the insert module can be moved relative to the drawer. The lining module and the tool located therein are always located at their specified positions in the drawer itself. For example, the shape lock α can be seen by a clamp fastener. The clamp can be integrated at the bottom of the embedded module or integrated into the side of the embedded module. Here, the embedding module itself can be placed in a fixed position on the flexion: the bottom or the side of the drawer. In the context of the invention, it is conceivable to have a spine on the bottom of the drawer, which engages in a receiving space below the insert module, so that the insert module in the drawer is fixedly situated in the drawer. In itself. In an advantageous embodiment variant of the invention, the workshop vehicle has at least one groove in the work plate, wherein the groove can be closed by the plug. After the clogging member is removed, the embedding module is disposed in a form-fitting manner on the slot itself, preferably the embedding module can be placed in the slot in a sinking manner, I577II.doc 201217122 The front side edge of the embedded module abuts against the surface of the work board. Thus, in order to prepare for work, the embedding module can be taken out of the drawer and placed on the work board of the workshop car. It is also envisaged within the scope of this: to place the embedded module directly on the work board. Here, it may be advantageous to arrange the shop floor module behind the shop vehicle or on the work side of the workshop vehicle with respect to the direction of the pumping opening. π for the blocking member, which can also, for example, relate to the positioning of the blocking member at the level of the working plate via the magazine member, so that loads with a low strength (for example, hand tools or the like) do not cause clogging. When the movement of the piece is immersed in the intrusion module itself, the clogging force can be pressed against the elastic force, so that the embedding module can be placed in the working surface or in the working plate itself. Within the scope of the present invention, the power cycle b β that is opened by pushing in the case of pressing the plugging member can be inserted into the insertion module. Therefore, if the module to be inserted is placed above the blocking member and pressed downward against the spring force, it is locked via the locking device. In this position, the tool can then be removed and a work process performed accordingly. If the inlay module is to be removed, it is unlocked by unlocking t over the force _ so that the embedding module passes the spring force again. It is slightly lifted and can therefore be removed. However, the plugging member can also be removed, so that the inserting module is repositioned in the slot after the plugging member is removed. The slot itself may also be a recess in the form of a hole such that the embedded module is hung in the recess. On the clogging member that can be sunk through the magazine member, the embedding module loaded into the working plate can be locked and unlocked via the locking member for removing the locking member, thereby embedding the module through the bomb 15771 l.doc 13· 201217122 The spring force is lifted, thereby achieving a simple manipulation of the workshop vehicle according to the invention. In a further advantageous embodiment variant, the groove is arranged at the rear end of the work plate and the depth of at least the upper drawer is configured such that when the insert module is arranged in the work plate, The above drawing can be completely closed. It is thus within the scope of the invention, for example, that money can be placed in the mold and that it is placed in the uppermost drawer at a depth of about half of the depth of the shop. The insert module can then be removed after opening the drawer and f placed in the slot. The drawer can then also be completely closed. This provides an optimization of the working ergonomics and storage space utilization capabilities of the work space in the workshop vehicle according to the present invention. It is also within the scope of the invention to envisage that the groove is provided on the work plate so that the groove opens toward the side toward a gamma groove. In the morning, the embedded module is constructed two degrees from the open side into the slot. In this regard, in the scope of the present invention, a guide tab is constructed in the work panel and/or in the enemy module and the guide slot, so that the human module can be pushed. If the embedded module reaches its position to be occupied by :::, it can be fixed via the locking member. Hanging inside the 'embedded module can also be set (especially the back side of the hanging surface a @ working board opposite to the open side of the drawer, the human module can be directly hung on the guard board and / or workshop car Or hanging on other embedded modules located in the work board. It is also possible within the scope of the invention to suspend the work when the work vehicle has a lateral orifice for receiving the work member. In a further advantageous embodiment variant of the invention, at least one groove is formed in the drawer itself, wherein the groove can be closed by means of a plug, and the insert module can be positively locked. In this case, the insert module can be arranged in a form-locking manner in the drawer, for example by embedding or hanging. Within the scope of the invention, an intermediate base plate is formed in the drawer itself, and the drawer base itself It may be omitted. Additional storage space may be additionally provided via the blocking member, so that the drawer bottom plate is provided by means of the blocking member in the case of taking out the embedded module to store the article therein. [Embodiment] In the drawing The same reference numbers are used for the same or similar components, even if the description is omitted for the sake of simplicity. Figure 1 shows a shop rut for accommodating a kit, wherein the kit has a socket wrench set The sleeve 2, the screwdriver 3, the wrench 4 and the open-end wrench 5. The workshop car itself comprises a rollable casing (4) in which the extractable draw 7 is placed. The work plate 8 is located on the upper side of the casing 6. A tool storage device 9 according to the invention for accommodating a kit is provided in the pull-out drawer 7 itself. In particular, an elongated tool (such as a screwdriver 3, a handle of the socket wrench set 2 and a screw wrench 4) 5) Set along the straight axis _ square. Round/not the middle of the drawer 7. Here, on the rear side u of the drawer 7, the tongue 12, its t-tab 12 and the tool storage device 9 are not here. The illustrated connector connection is provided in the drawer 7 and the storage device 9 is fixed in position. The map 3 shows a further embodiment variant of the workshop vehicle according to the invention, 157711.doc •] 5 - 201217122 Here the tool storage device 9 is constructed with a slight inclination In this way, in the embodiment variant shown in FIG. 3 , the tool receptacle 9 is inserted into the groove 14 of the work plate 8 . The front side edge 15 of the tool storage device 9 is in alignment with the working surface 16 of the work plate 8. Figure 4 shows a side view of the shop vehicle 1 according to Figure 3, In Fig. 4, the front side 17 of the rudder of the shop can be seen as "p and the grippability of the tool thus achieved. Fig. 5 shows a further embodiment variant of the workshop vehicle 1 according to the invention, wherein There are four slots 14 on the working plate 8. The two slots 14 are provided with plugs 18, and the other modules 14 are correspondingly fitted with the insert module 9. This makes it possible to select the possibility that the correspondingly fitted inlay module 9 is removed from the drawer 7 and loaded into the slot 14 in accordance with the guarding process to be carried out. The groove 14 is constructed in relation to the depth of the visor 8 , preferably in depth, thereby ensuring that there is sufficient remaining working surface to perform the assembly work. This material protection can also be opened and closed, in particular when working and the receiving device 9 is inserted into the area of the drawer 7, preferably the construction layer of the drawer 7 is at most about half of the depth 9 of the working plate 7. FIG. 6 shows a further embodiment variant of the invention in which an H(four) arrangement 9 with a set of kingpieces on the working plate 8 on the one hand can be placed on the work surface 16. Thereby, the position of the tool storage device 9 can be individually selected for the corresponding work assembly process. In addition, the solution stipulates that the accommodating area 2U for the squatting tool storage device 9 is ergonomically arranged in such a way that it can be used with the workshop 157711.doc •16-201217122 The front side 18 of the car 1 is placed at an angle β. It is thus possible to provide the assembly worker of the job with the entire working surface 16 of the work panel 8, thereby directly and quickly grasping the corresponding required tool. Fig. 7 shows a tool storage device 9 according to the invention, in a side view in the drawing, a top view in Fig. 7b, and a perspective view in Fig. 7c. It shows a plurality of layers of the tool storage device 9, respectively, including an upper layer 22, a first intermediate layer 23, a second intermediate layer 24, and a lower layer 25. A screwdriver 3, a socket wrench set 26, a socket wrench handle 2, a plug block 27, an open end wrench 28, and a ratchet device 29 are disposed thereon. Figures 8a to 8c show a similar embodiment variant, but with an inclined surface in which the surface 13 is at an angle v to the working surface 3. Figure 9 is a cross-sectional view of the tool storage device 9 for housing an elongated hand tool according to the present invention. In particular, the screwdriver 3, the plum wrench 4 extension 3 1 and the ratchet device 29 are shown here. Further, the tool accommodating device 9 according to the present invention has the insertion plate 32 and is structured in a layered manner, thereby configuring the upper layer 22, the first intermediate layer 23, the second intermediate layer 24, and the lower layer 25 to be disposed at the root of the tool storage of the present invention. The hand tools in the device 9 are oriented with their respective longitudinal axes along a vertical axis 10. The structure of the tool storage device 9 according to the present invention becomes clearly visible in the front side, whereby the receiving opening for each hand tool through the respective layers defines the corresponding insertion depths 33a, 3 of the hand tool. Here, the insertion depth 33a of the long elongated member 31 is correspondingly configured to the second middle door layer 24, and the short elongated member 31 and the insertion depth 33b of the ratchet device 29 are configured to penetrate only the upper layer 22.容纳 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 157 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' 容纳 容纳 容纳 容纳 容纳The cross-sectional shape of the Gunakou is of different sizes. At least some of the receiving openings 34 thus shown have a cross-shaped cross section. Thus, an unloading groove 35' is formed at the receiving core designed in the shape of a cross, which avoids the material from being ruptured by the long-term use of the material in the region surrounding the receiving opening 34 of the tool receiving device 9 according to the invention (Au^ or cracking) Fig. 11 shows a further embodiment variant in which at least some of the receiving openings 34 have a cross-sectional shape that is meandered. The groove 35' is formed in the edge region which is configured in a meandering shape. The material accommodating device 9 according to the present invention is prevented from causing material fatigue after long-term use. Fig. 12 shows a view from above of the insertion plate 32 and the tool accommodating device 9 located thereunder. It can be clearly seen here that The human plate 32 has an insertion opening 36, and the tool receiving device 9 has a receiving opening located at a lower side thereof than the insertion σ36 of the insertion plate 32, and the cross-sectional area of the receiving core is correspondingly slightly smaller. The greater stiffness of the man plate 32 enables the tool to be inserted therethrough without abutting against the insertion opening 36. Conversely, this results in a form fit and/or between the tool and the receiving opening 34 of the tool receiving device 9. The force-locked contact is thereby fixedly held in the tool receiving device 9 according to the invention. [Brief Description] Other advantages, features, features and viewpoints of the present invention are as follows The preferred embodiments are shown in the schematic drawings for a more simple understanding of the invention. The drawings are as follows: 157711.doc 201217122 Figure 1 is a view of the invention according to the invention; Figure 2 is a perspective view of a drawer, and Figure 3 is a perspective view of an embodiment variant of a workshop vehicle according to the present invention; Figure 4 is a side elevational view of an embodiment variant of a workshop vehicle according to the present invention; 5 is a work plate having different grooves according to the present invention; FIG. 6 is a further embodiment of the work vehicle according to the present invention; FIG. 7 is an embedded module of a straight structure; FIG. 8 is an embedded module of the inclined structure; Figure 9 is a cross-sectional view of the embedding module according to the present invention; Figure 10 is a view from above of the tool storage device having the squirrel τ θ , 戟 戟 ; according to the present invention; 1 巻 巻 巻 , , , , , , ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; Car 2 socket wrench 3 screwdriver 4 jack wrench 5 open end wrench 6 housing 7 drawer 8 working plate 157711.doc -19- 201217122 9 tool storage device 10 vertical axis 11 rear side 12 tongue 13 9 surface 14 8 groove 15 9 front side edge 16 8 working surface 17 1 front side 18 14 blocking member 19 8 depth 20 receiving area 21 shelf receiving portion 22 upper layer 23 first intermediate layer 24 second intermediate layer 25 lower layer 26 socket wrench card Port 27 plug block 28 open wrench 29 ratchet device 30 working surface 31 extension 32 insertion plate 157711.doc -20- 201217122 33a insertion depth 33b insertion depth short 34 receiving port 35 unloading groove 36 insertion port V. angle β. Angle of 21157711.doc -21 -