200902357 九、發明說明: 【發明所屬之技術領域】 本發明係有關-種以令可動體在到達預定之移動位置 之前以接近四節環之平行滑動的動作移動,在到達預定之 往動位置之後大致上以—軸為中心令可動體旋轉運動=動 =控=裝置,以及利用此裂置而構成的駕駛座中間儲存箱。 【先前技術】 在令駕駛座中間儲存箱之蓋體等、自由端與轉動组裳 部分間的節距相對較長之可動體,單純地以一軸為中心轉 動打開時,在打開狀態下蓋體之自由端的位準會變高二且 :::之移動軌跡會變長’而使把持該自由端等開: 的勞力過大。 ^此,以往提案有_種以令此種蓋體進行朝後方滑動 移動與轉動之組合動作之方4古拉 τ之方式支持的機構。(參照專利文獻 丄主d) [專利文獻1]曰本特開2000-1 59251號公報 [專利文獻2]日本特開第3752856號公報 [專利文獻3]日本特開2006-1 5129丄號公報 【發明内容】 (發明欲解決的課題) 本發明欲解決之主要㈣題點在於,不會使此種可 體產生機構的複雜化,且對於固定體合理地組 豆 2之途中為止以接近㈣環之平行滑動的動作令可動 ㈣’之後大致以一轴為中心令可動體旋轉運動,並且: 319761 200902357 由彈壓力強制地進行此動作的一部分。 (解決課題的手段) H達成上述的課題,本發_令可動體之動作 .-裝置具備以下(1)至(6)之構成者。 ' 〇)具備朝向可動體之枢軸部A與朝向固定體之樞軸部B 的第一臂; ⑵二朝向可動體之樞軸部c與朝向固定體 的第二臂; 干I u ⑶=了臂賦予以樞轴部β為中心之轉動力的第一彈壓 (4) 對第二臂賦予以樞軸部 手段; 轉動力的弟二彈壓 (5) 在可動體到達預定的往動位 彈愿力不作用於第.二臂,“产/弟一彈屢手段的 後入第in车& “且在到達預定之往動位置 段::: 彈壓力作用於第二臂的切換手 ⑹在可_職狀㈣綠置為止將 部C之間隔維持為大致固定,並且在到達預^=由 位置後將其解除並容許以樞轴 <動 轉動的凸輪手段。為中〜之弟二臂的 根據如此的構成,在到達預定之往動位 體的動作係可控制為接近 ^止’可動 卜在到達預定往動位置後,可藉由凸輪手段令 致以第二臂之㈣t 體大 仃奴轉運動。在可動體到 319761 7 200902357 達預定之往動位置為止可藉由第—彈料段之彈屋力, :可令可動體定位於往動前位置。此外,在可動體 以主動位置後,可藉由切換手段令第二彈壓手段之彈舞力 、作用於可動體而使可動體強制地往動至往動結束位置為 - 止。 巧 由只要上述第一彈屢手段令第一臂彈堡至以樞軸部B為 之正轉方向的同時,第二彈屢手段令第二編至以 二:D為中心之反轉方向’便能令可動體於往位 ,由第-彈塵手段的㈣進行定位,並且於往 ==段的彈•進行定位,同時在往動至預定的 動由第二彈㈣段的彈㈣制地往動到移 ϋ位置,此外,從往動結束位置復動至預定之往動位 置(亦即預定之復動位置)為止後,可藉由第一彈 彈屡強制地復動到復動結束位置(亦即往動前位置^止。、 上述切換手段係具備: 煮側凸輪部,設置於第二臂; 第二臂,以樞軸部D的位置為轉 裝於固定體側並且承受第二彈壓手段的彈廢力1動地組 固定體側凸輪部’設置於固定體側;以及 臂與第骨=__與兩凸輪部所支持且連接第二 其中’臂側凸輪部具備沿著以抱轴部^為 圓弧的弧狀部位與接續於此弧狀部位的解除:陳. 而且,滑動轴係在可動體到達預定之往動位置為止, 319761 200902357 於臂側凸輪部之弧狀部位蓄 •固定側凸輪部之—端部; 第—_手段同時定位於 並且,在可動體到達預定之往動位置 .部之解除部位’且藉由第:關手段 #側凸輪 .體側凸輪部之另一端部側。 而導引至固定 上述凸輪手段係具備: = = 形成於可動體側且導引樞輛部A,·以及 抱軸部A與樞轴❹間的姿勢控制滑動^置於弟一臂之 其:’該第二凸輪溝具備沿著以第一凸輪 為中心的假想圓之圓弧冓知 口丨刀,以及接續該第一部分 且谷許以樞軸部!)為中心之 刀 部分。 男徑制/月動子的移動的第二 上★兒本發明之駕敬座中間儲存箱,係以構成以 體控制機構之固定體為上方開口的儲存箱本 體並以可動體為在往動前位置閉窠兮 構成者。 i閉塞該上面開口的蓋體而 在如此構成之駕駛座中間儲存箱,罢 到達狀的往動位置為止—邊㈣^體的動作係為在 臂H 心在職敢的㈣位置後大致以第二 C至^由Γ白D為中心進行旋轉運動,故即使從上述框轴部 j的自由端為止的節距變長,亦可儘可能地壓低往 動、、·。束位置之蓋體自由端的位準。 (發明的效果) 319761 9 200902357 • 根據本發明,令蓋體等可動體隔介第 .組合在固定趙’並且在可動體到達預定 凸輪二令相對於可動體之第一臂_部== 、在到_定的㈣位置後則解除此定位,藉此至 -途中為止以接近四節環之平行滑動的動作移動,之後大 ::::與固定體之樞軸部為中心進行旋轉運動,並進 一步地藉由彈1力強制地進行此動作的一 進 【實施方式】 77 以下,根據第1圖至第10圖,說明 明之最佳形態。 關用以Λ鈿本發 之動:二制1 :至第3圖係顯示適用關於實施形態 顯所構成的駕駛座中間儲存箱,第3圖係 ',頁丁一體10亦即可動體丨在往動前位 :係顯示在預定往動位置的狀態,第2 干:第1 束位置的狀態。第4圖係顯示以 ::、在, 駕駛座中門性六、 固弋中〜線X位置將 W座中間錯存相分割並觀察其右側 5 9圖係以容易了解動作控制裝置3之功月m 至 駕,駛座中門健y_ — b々方式分別顯示 係顯亍上、ί =相 側的主要部份。第5圖及第6圖 第!: 置’第7圖係顯示預定之往動位置, /圖係顯不通過此預定往動位置之往動 圖係顯示往動結束位置之情三 成第-㈣手段32以及第二彈厂 1第手=^^ 此外,第10 nt弹土手#又33的彈簧321、331) 弟10圖係顯示令構成駕駛座中間儲 離之狀態,if於動倾龍置3 各構件刀 1皇刀離頒不—組份的主要 319761 200902357 構成構件。 關於此實施形態之動作控制裝置 臂30與第二臂31組合於固 糸為々隔7丨苐一 •定的往動位置為止以接、斤一 "體1,在到達預 々it以接近四郎每之平行 '而在到達預定的往動位置後大致進行 為二作移動’ 運動者。 釉為中心之旋轉 此外,有關此實施形態之駕敬座 此之固定體2作為上面開口 21之儲存箱本乂如 可動體!為在往動前位置閉塞此 :蓋並且以 構成者。 之蓋體10而 圖示之例係顯示作為動 駕敬座中間儲存箱。在圖示之典型適用例的 =結後述框軸部A舆樞轴部B的線段:以第二3° 的線段m 動刖位置的狀態下大致平杆, 盈粒在在 部B之上方且比柩轴部B更仃二:轴部A係位在柩轴200902357 IX. Description of the Invention: [Technical Field] The present invention relates to a movement in which a movable body moves in parallel with a parallel movement of a four-section ring before reaching a predetermined moving position, after reaching a predetermined forward position Generally, the movable body is rotated by the center of the axis = motion = control = device, and the driver's seat intermediate storage box is constructed by using the split. [Prior Art] In the movable body in which the pitch between the free end and the rotating group portion of the driver's seat intermediate storage box is relatively long, the cover body is opened in an open state, and the cover body is opened in the open state. The level of the free end will become higher and the ::: the movement trajectory will become longer' and the labor of holding the free end will be too large. ^ This is a mechanism that has been supported by a method in which the cover body is moved in a rearward direction and the combination of rotations is performed. (Patent Document 1) Japanese Laid-Open Patent Publication No. Hei. No. 3 752 856 [Patent Document 3] JP-A-2006-1 5129 公报SUMMARY OF THE INVENTION (Problems to be Solved by the Invention) The main (four) problem to be solved by the present invention is that it does not complicate such a body generating mechanism, and is close to (4) in the way of properly positioning the bean 2 for the fixed body. The action of the parallel sliding of the ring causes the movable body to rotate substantially after the movable (4)' is centered on one axis, and: 319761 200902357 A part of this action is forcibly performed by the elastic pressure. (Means for Solving the Problem) H. The above-mentioned problem is achieved, and the present invention has the following components (1) to (6). '〇' has a first arm that faces the pivot portion A of the movable body and the pivot portion B that faces the fixed body; (2) a pivot portion c that faces the movable body and a second arm that faces the fixed body; the dry I u (3) = The first biasing force (4) of the arm imparting a rotational force centered on the pivot portion β is applied to the second arm by a pivoting means; the second biasing force of the rotating power (5) is reached at a predetermined moving position of the movable body The force does not act on the second arm. "The production/diet has a repeated means of entering the first car &" and at the scheduled moving position::: The switching force (6) of the elastic force acting on the second arm is The position of the portion C can be maintained substantially constant until the position is reached, and the cam means can be released and allowed to pivot by < According to such a configuration, the action of the second arm of the middle to the second arm can be controlled to be close to the action of the movable body after reaching the predetermined forward position, and the cam can be used to cause the first action. The two-armed (four) t body is a big slave. The movable body can be positioned in the forward position by the first elastic section of the movable body until the predetermined position of the movable body reaches 319761 7 200902357. Further, after the movable body is in the active position, the movable means can be forcibly moved to the forward end position by the switching means to cause the elastic force of the second biasing means to act on the movable body. As long as the first round of the above-mentioned first means is used to make the first arm bounce to the direction of the pivotal portion B, the second round of the second round to the second: D is the center of the reverse direction' It is possible to make the movable body in the position, and to locate by the (4) of the first-drum method, and to position the bullet in the == section, and at the same time move to the predetermined movement of the second (four) section (four) The ground moves to the moving position, and after the reversal of the moving end position to the predetermined moving position (that is, the predetermined reversing position), the first spring can be repeatedly forced to the double action. The end position (that is, the forward movement position). The switching means includes: the boiling side cam portion is disposed on the second arm; and the second arm is pivotally mounted on the fixed body side and receives the position of the pivot portion D The elastic force of the second elastic means 1 is set on the fixed body side; and the arm and the first bone = __ and the two cam portions are supported and connected to the second side of the 'arm side cam portion The arc-shaped part with the arc of the hoop axis and the splicing of the arc-shaped part: Chen. Moreover, sliding When the movable body reaches the predetermined moving position, 319761 200902357 is stored in the arc portion of the arm side cam portion and the end portion of the fixed side cam portion; the first_means are simultaneously positioned and the movable body reaches the predetermined position. The position of the moving portion is the same as that of the second side of the body cam portion. The guiding and fixing of the cam means is: = = formed on the movable body side and guided The armature portion A, and the posture control slide between the axle portion A and the pivot shaft are placed on the arm of the younger brother: 'The second cam groove has a circle along the imaginary circle centered on the first cam The arc knives know the knives, and the knives that follow the first part and the valley is centered on the pivot!! The second storage unit of the male diameter system/the movement of the moon mover is the storage box body which is formed by the fixed body of the body control mechanism and is movable in the moving body. The front position is closed. i occludes the upper open cover and in the middle of the driver's seat storage tank so that the moving position of the driver's seat is reached, and the side (four) body motion is substantially second after the arm H is in the position of the head (4) Since C to ^ is rotated by the center of the white D, even if the pitch from the free end of the frame shaft portion j becomes long, it is possible to reduce the forward movement as much as possible. The position of the free end of the cover at the beam position. (Effects of the Invention) 319761 9 200902357 • According to the present invention, the movable body such as the cover body is combined with the first arm in the fixed body and the first arm of the movable body is returned to the predetermined body. After the position is reached to the (fourth) position, the positioning is released, and the movement is performed by the parallel sliding movement of the four-section ring until the middle of the way, and then the large:::: is rotated about the pivot portion of the fixed body. Further, the above-described operation is forcibly performed by the elastic force 1. [Embodiment] Hereinafter, the best mode will be described based on the first to tenth drawings. The function of the Λ钿 Λ钿 : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : : Forward position: It is displayed in the state of the predetermined forward position, and the second dry: the state of the first bundle position. The fourth picture shows the following::, in the driver's seat, the door is six, the solid 〜~ line X position divides the middle of the W seat and observes the right side of the figure to easily understand the function of the motion control device 3. Month m to drive, the seat in the middle door y_ — b々 way to display the main part of the system, ί = phase side. Figure 5 and Figure 6 : Set 'Fig. 7 to show the predetermined moving position, / The picture shows the moving picture that does not pass this predetermined moving position. The display shows the situation of the moving end position. The third---fourth means 32 and the second one Hand = ^^ In addition, the 10th nt play soil hand #33 33 springs 321, 331) The younger brother 10 shows the state that constitutes the middle of the driver's seat, if the yoke dragon is set 3 each component knife 1 knives away from the award No - the main component of the component 319761 200902357 constitutes a component. The operation control device arm 30 and the second arm 31 of this embodiment are combined with each other until the fixed position of the shackle is fixed, and the body 1 is connected to the 々it. Shiro is parallel to each other's and is moved to the second movement after reaching the predetermined forward position. The glaze is centered on the rotation. In addition, the holder 2 of this embodiment is used as the storage case of the upper opening 21, such as a movable body! To occlude this in the forward position: cover and with the constructor. The cover 10 is shown as an intermediate storage tank for the driver's seat. In the typical application example of the figure, the line segment of the frame shaft portion A 舆 pivot portion B is described as a substantially flat rod in a state where the second 3° line segment m is moved, and the surplus grain is above the portion B and More than the 柩 shaft B: the shaft A is in the 柩 axis
方)處,並且,樞軸部C係位在樞軸部0上=:, 更靠近蓋體10之自由端u丨 、方且比樞軸部D 止,由於& 1 免。在到達預定往動位置為 由於已刖傾之各臂3〇、31 勹 方式動作,葚I*〗η沾無从’、 又立起並由此後傾的 開-邊滑^動至後方者。==一^從儲存箱本體2 〇離 圖的位置)後,第二劈y纟達在動位置(第7 上朝後方脫離,並於此狀C係從儲存箱本體20 不妨礙以第二臂31之㈣:部後所t第-臂3°係成為 pD為中心之朝後方之轉動的狀 319761 11 200902357 態,蓋體ίο亦追隨第二臂31 .使從上述樞軸部(:至蓋體 而轉動。因此,即 具介座 的自由端Η為止的筋拓戀 長’亦儘可能㈣低往動結束位置(第的即距¥ *-】〇的自由端11的位準。 立置)之蓋體 • 有闕圖示例之駕駛座中間儲存箱之塞鍊 依以下之順序進行。 體10的往動係 ^動前位置(闕閉位置/第5圖卜預 位 二=°之復動係依如以下之順序進行。 设動别位置(全開位置亦即往 動位置(半開位置亦即預定的往 置)預疋的復 (關閉位置亦即往動前位置) )一復動結束位置 體10此的夕 圖示之例,從關閉位置至半開位置為止之蓋 、<動係抵抗後述之第一彈壓手段32 從半開位置至全開位置為止之蓋體心 位置壓手段33的彈Μ而強制地進行,位於全開 穩此第二謝段33_* 认十 此外,攸全開位置至半開位置為止之芸Ρ ( η 二设動係抵抗後述之第二彈屋手段33的彈壓而以手-動進 -?Γ壓半手 1位3^關閉位置為止之蓋體1 〇的復動係藉由第 的狀而強制地進行,位於關閉位置之蓋體 ·_由此第一彈壓手段32的彈壓而穩定地維持。 ⑴第一 =控制裝置3係包含以下⑴至⑻的要素。 319761 12 200902357 (2) 第二臂31 (3) 第—彈壓手段32 (4) 第二彈壓手段33 (5) 切換手段34 (6) 凸輪手段35 在圖不之例中,蓋體10係具備呈大致長方形之板狀的 主體部1 ?、芬—上 及在其自由端11與相反側從沿著主體部12之 ,度方向的邊緣部突出至下方之一對側板部13、13。儲存 相本體20係具備藉由以該蓋體10閉塞之細長的開口 21。 ^位於儲存相本體2(3之開口 21之-端側的外側部,形成 蔣控制裝置3之支持托架(braCket)22。蓋體10係以 : 持托架22收容於一對側板部13、13間之方式纟且人 =Γ2°。支持托架22係分別設置於左右《 —之側板部13之一方與支持托架22之一方,由一 二:作控制褽置3連接蓋體1〇與儲存箱本體20。亦即, 儲◦連藉接由二广動作控制裝置3、3令蓋體10與 成構件,係:對於對, 件,而配右侧動作控制裝置3的各構成構 端間的假相中=體⑺之自由端^與相對側之基 11的下部;且借圍二為線對稱之位置。在蓋體10之自由端 此m 元件符號14所示之㈣(WdO, 之厚度方向的端面,在:門14之#作部142係位於蓋體10 面在關閉位置面向於形成在儲存箱本體 319761 13 200902357 ’ 21的側方的壁部24。在圖示之例中,於此壁部 :、有由圖中以元件符號25所示之罩蓋所閉塞之 面f門鎖14之操作部142的空間26,抵抗彈壓而麗下此 -罩二25,同日可刼作閂鎖14之操作部。此外,圖中以元 _件符號4表示者’係為追隨蓋體1〇之往動而滑動移動於開 :21上的第一掩蓋板,圖中以元件符號5表示者,係為令 自/端11(&f地推壓在蓋體之主體部12内面且軸支在 盖體上0之,對側板部13、13間的第二掩蓋板。 弟一臂30係具備朝向可動體1之樞軸部A與朝向固定 體2之枢軸部B。在圖示之例中,樞轴部A為橫跨左右方 向之軸體係刀別穿通形成於構成左右之動作控制裝置3 =弟一臂30上端的貫通孔3〇1,且由轴體&所構成,該轴 體a係令軸左端作為滑動子進人形成於蓋體1()左侧之侧板 』13之内面的後述..第—凸輪溝351 ’且令軸右端作為滑 子進入形成於蓋體10右側之側板部13之内面部的後述 第一凸輪溝35卜此外,姉部B為横跨左右方向之轴體, 係分別穿通形成於構成左右之動作控制裝置3之第—臂如 下端的貝通孔302 ’且由軸體b所構成,該軸體b係令軸 左端可轉動地組裝至左側的支持托架22,且令軸右端可轉 動地組裝至右側的支持托架22。在第一臂30之樞軸部A 與樞軸部B間係具傷後述之姿勢控制滑動子3Q3。此外, 在圖示之例中,於第一臂的下端形成齒條部(rack) 304’其嗔合於小齒輪(pini〇n)2Ub,該小齒輪係裝設在用 以使定子(stator)211a固定在支_22之阻尼(―) 319761 14 200902357 _ f置211的輥子。有關圖示例中之緩衝器裝置211係以對 、 了於疋子211a内之黏性流體的阻力之 ,構成。在圖示之例中該阻尼裝置211係對第一臂3〇 ' -的移動施加制動。 第二臂31係具備朝向可動體ι之樞軸部。與朝向固定 體2之樞軸部D。在圖示之例中,第一臂3〇係比第二㈣ 更位於盍體10之自由端11側’第二臂31係位在第一臂 =之後方。在圖示之例中,樞軸部c為橫跨左右方向之轴 f ’係分別穿通形成於構成左右之動作控制裝置3之第二 I 31上端的貫通孔311,且由轴體c所構成,該轴體^ 々轴左端可轉動地組裝至蓋體左側之侧板部13之内面 部,且令軸右端可轉動地組裝至蓋Μ 1〇 之内面部。此外,插轴為橫跨左右方向之袖艘板: 別=通形成於構成左右之動作控制裝置3之第二臂“下端 的貝通孔312 ,且由軸體(!所構成,該軸係令軸左端 °,動地、、且衣至左側的支持托架22,且令轴右端可轉動地 、,且裝至右側的支持托架22。在第二臂31之後方側形成有 以樞轴部D為中心之扇狀部313 ,並且在此扇狀部加形 成有後述之臂側凸輪部341的弧狀部位341&。 乂 在圖不之例中,樞軸部A與樞軸部B間的節距係較樞 軸部c與樞軸部D間的節距長。藉此,可動體i亦 10從往動前位置到達預定之往動位置為止,蓋體1〇係以 具有樞軸部A、姉部B、樞軸部G、以及樞轴部D之四節 環機構的動作移動’且蓋體1。係以令自由端11位於斜: 319761 15 200902357 * •方的方式一邊傾斜一邊滑動移動至後 第一彈壓手段32係對第一臂 : 轉動力者。此外,第二彈壓手予乂樞軸部β為中心之 ..軸部D為中心之轉動力者。在又系為對第二臂賦予以樞 ' 32係藉由線圈彈簧321所構成,:::’第-彈壓手段 在第-臂3"互常承受有以插/由此第一㈣手段32 位於關閉位置之方向的轉動力為?且又蓋體1。定 捲繞至構成樞轴部Β之抽體b =圈舞黃321係 m令彈簧另-端Μ至支^端以於第 示之例中,第二彈屬手段33 托架22 °此外,在圖 藉由此第二㈣手段33在隔介第圈=咖所構成, 之往動位置後在第_臂31 i Λ 〇到達預定 1η〜 # 31承叉以樞軸部D為中心且令罢俨 1〇疋位於打開位置之方向的轉動力之作用,令線圈;: =係捲繞至構成榷軸部D之轴體d,彈簧= 於第三臂且令彈簧另―端㈣至支持托架22 %固疋 30彈ΓΓ、在圖示之例中,第一彈麼手段32係將第一臂 :以樞軸部β為中心之正轉方向 二 于肝弟一 # 31弹壓至以樞軸部D為中心之反 二=蓋體10亦即可動體1係藉由第-彈壓手段32 :£疋位於往動前位置,藉由第二彈壓手段Μ之彈星定 藉由’並且於往動至預定的往動位置為正後 "— 手段33之彈壓強制地往動至往動結束位置 =此:,從往動結束位置復動至預定的往動位置(亦即 疋、彳位置)為止後,藉由第一彈壓手段32之彈壓強 319761 16 200902357 :制:至復動結束位置(亦即往動前位置)為正。 3。强乘1 τ之例外’例如’若令第—彈壓手段32將第-臂 30弹屢至以抱輛部β 弟# •手段33蔣筮-μ 之反轉方向,亚且令弟二彈壓 、第一 # 31推壓至以樞轴部D -向,則解開上述問鎖之鉤人0车為令〜之反轉方 _ 茂* 鉤合時,盍體10會因第一彈壓手段 彈塗力強制地往動至預定的往動位 10可藉由第二彈壓手段厭山 傻现體 束位置為止。 &33之㈣力強制地往動至往動結 第係在可動體1到達預定的往動位置為止令 jm33之彈屢力不作用於第二臂31,同 ?預:的往動位置後令第二彈屢侧之彈壓力作用於 第二臂31者。 w κ ⑴切換手段34係包含以下⑴至⑷的要素而構成。 (1)5又置於弟二臂31之臂側凸輪部341 ⑵以梅軸部D的位置為轉動中心可轉動地組裝於固定體2 側並且承文第二彈壓手段的彈壓力之第三臂342 . ⑻設置於固定體2側之固定體側凸輪部3:3;以及 ⑷分別被支持於第三臂撕、臂側凸輪部34卜以及固定 =凸輪部343 ’且連接第二臂3!與第三臂如的滑動轴 。該臂側凸輪部341係具傷沿著以枢轴部D為中心之假 想圓弧的弧狀部位341a與接續於此弧狀部位3仏的解除 部位3仍。在圖示例之中,該臂侧凸輪部341係令形成凸 輪板狀之第二臂31構成為貫通左右之貫通溝。弧狀部位 319761 17 200902357 .34^a係於蓋體1〇位在關閉位置的狀態下以使彎曲内側朝 向前方的方式形成。此外,解除部位341b係於蓋體1〇位 在關閉位置的狀態下從弧狀部位341a之上端延伸至朝斜 前方從樞軸部D遠離之方向。 ’ -- 另一方面,固定體側凸輪部343在圖示之例中,係妒 成於上述支持托架22,並將此支持托架22構成為貫通左 右之貫通溝。在圖示之例中,該固定體側凸輪部343係令 弩曲内側朝向前方,且令其一端部343a沿著上方,令另一 鳊《卩343b沿著位於下方之圓之大致四分之一的圓弧而形 成。臂側凸輪部341之弧狀部位341a係於以第二臂31之 樞軸部D為中心之任一轉動位置皆連通至固定體側凸輪部 343之一端部343a。另一方面,固定體側凸輪部343之另 一端部343b係位於比此弧狀部位341a更後方處。 此外’第二臂342係形成屈曲成大略L字形之板狀, 同時令屈曲位置可轉動地支持在上述軸體d,且具備突出 於後方之上部342a與突出至下方之下部342c。於第三臂 342之上部形成前後長形之貫通溝342b,穿通於此第三臂 342之貫通溝342b與臂側凸輪部341之滑動軸344之端部 為引導至固定體側凸輪部343。在此例中,於第三臂342 之下部开> 成齒條部342d ’在左右方向大致中間的位置唾合 於小齒輪213b,該小齒輪213b係裝設在用以使定子213a 固定在隔介後部連接板212而支持於支持托架22側之中央 壁214的阻尼裝置213的輥子。在圖示之例中,於該阻尼 裝置213係對輥子之旋轉賦予封入至定子213a之黏性流體 18 319761 200902357 的阻力而構成,在圖示之例中’阻尼裝置213係對第三臂 342之移動施加制動。此外,在圖示之例中,滑動軸 係令其左端引導至左端的支持托架22之固定體側凸輪部 343 ’並令其右端引導至右端的支持托架22之固定體側凸 輪部343 ’並共用構成左右動作控制裝置3之切換手段34 的滑動抽344。 然後’上述滑動軸344係在可動體1到達預定的往動 位置為止位於臂側凸輪部341之弧狀部位34la,一邊蓄勢 於第一彈壓手段33 一邊定位於固定體側凸輪部343之一端 部 343a 。 在可動體1到達往動位置後進入臂側凸輪部341之解 ,部位341b,並藉由第二彈壓手段33之彈壓而導入至固 疋體側凸輪部343之另一端部343b側。 具體而言,在圖示之例中”蓋體1〇位於關閉位置時滑 動子係位於臂側凸輪部341之弧狀部位341a的下端,而且 由於固疋體側凸輪部343之一端部343a與樞軸部D間的節 ,係大致與樞軸部D與此弧狀部位341a間的節距相等,在 疏體1 〇移動至預定的往動位置為止,轉動軸344係定位於 固定體側凸輪部343之-端部343a,儘管在第5圖中欲以 順時針方向轉動第三臂342之第二關手段33的彈屢,第 :臂342亦不會轉動。若蓋體1〇往動至預定的往動位置 日守,滑動軸344係因進入朝從樞軸部D遠離之方向延伸之 臂側凸輪部341之解除部位鳩,而容許移動至固定 凸輪部343之另一端部難。#此,第三臂342係藉由第 319761 19 200902357 •二彈壓手段33之彈壓而以樞軸部d為中 、 344進入至解除部位34化之’使滑動軸 地被轉動,可動體!係強制地由此而強制 •.往動結束位置。 疋纟彺動位置被移動至 • 接著,上述凸輪手段%係在可動體2到、查猫^ ^ 位置為止將樞軸部A盥樞 、疋的往動 並且在到達預定之往二=維持為大致固定,And the pivot portion C is located on the pivot portion 0 =:, closer to the free end u 丨 of the cover 10, and closer than the pivot portion D, since & 1 is free. When the predetermined forward movement position is reached, the arm 〇I* η η 无 、 、 、 、 、 、 、 、 、 、 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 == a ^ from the storage box body 2 〇 图 的 ) ) , , , , , , , , , , 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后 后(4) of the arm 31: the third arm of the rear portion of the arm is the state of the rearward rotation of the pD 319761 11 200902357 state, and the cover ίο also follows the second arm 31. From the above pivot portion (: to The cover rotates. Therefore, the rib extension of the free end of the seat is as close as possible to the position of the free end 11 of the lower end position (the first distance is ¥ *-). Cover of the cover • The chain of the intermediate storage case of the driver's seat is shown in the following order. The position of the moving body of the body 10 is in front of the position (closed position / 5th position, pre-position 2 = ° The repetitive motion is performed in the following order. The position of the full-open position (the full-open position, that is, the forward position (the half-open position, that is, the predetermined forward position) is the complex (the closed position, that is, the position before the movement). In the example of the eve of the moving end position body 10, the cover from the closed position to the half open position, and the <moving system resist the first elastic means described later 32 The forcible position of the cover body position pressing means 33 from the half open position to the fully open position is forcibly performed, and is located at the full opening position of the second thank-you section 33_*. In addition, the full opening position to the half open position is 芸Ρ (η The second set of movements resists the spring pressure of the second bomb house means 33, which is described later, and the hand movement of the cover body 1 is closed by the hand-moving---------------------------- The cover body at the closed position is stably maintained by the biasing force of the first biasing means 32. (1) The first = control device 3 includes the following elements (1) to (8). 319761 12 200902357 (2) Second arm 31 (3) First-elastic means 32 (4) Second biasing means 33 (5) Switching means 34 (6) Cam means 35 In the example of the figure, the cover 10 is provided with a main body portion having a substantially rectangular plate shape. 1 , fen-upper and at the free end 11 and the opposite side thereof protrude from the edge portion along the direction of the main body portion 12 to the lower one of the pair of side plate portions 13, 13. The storage phase body 20 is provided with The elongated opening 21 in which the cover 10 is closed. ^ is located on the outer side of the end side of the opening 21 of the storage phase body 2 The support bracket (braCket) 22 of the Chiang control device 3 is formed. The cover 10 is such that the bracket 22 is housed between the pair of side plate portions 13 and 13 and the number of people is Γ2°. They are respectively disposed on one side of the side plate portion 13 of the left and right sides and one of the support brackets 22, and are connected to the cover body 1 and the storage box body 20 by a control device 3; that is, the storage connection is borrowed by two The wide motion control device 3, 3 causes the cover body 10 and the member to be connected to the free end and the opposite side of the dummy phase (7) between the respective constituent ends of the right motion control device 3 for the pair. The lower part of the base 11; and the second is a line symmetrical position. At the free end of the cover 10, the end face in the thickness direction indicated by the m-element symbol 14 (WdO) is placed on the cover body 10 in the closed position toward the storage case body. 319761 13 200902357 'The side wall portion 24 of the 21'. In the illustrated example, the wall portion has an operation portion of the door lock 14 that is closed by the cover shown by the reference numeral 25 in the figure. The space 26 of the 142 is slid down against the spring pressure, and the cover 2 is smashed. On the same day, it can be used as the operation portion of the latch 14. In addition, the symbol "4" in the figure indicates that it is following the movement of the cover 1 And sliding the first cover plate on the opening: 21, which is indicated by the symbol 5 in the figure, is such that the self/end 11 is pressed against the inner surface of the main body portion 12 of the cover body and the shaft is supported on the cover. The second cover plate between the pair of side plate portions 13 and 13 is provided with a pivot portion A facing the movable body 1 and a pivot portion B facing the fixed body 2. In the illustrated example, The pivot portion A is formed in a through-hole 3〇1 which constitutes the left and right motion control device 3=the upper end of the arm 30, and is formed by the shaft body & The shaft body a is configured such that the left end of the shaft is formed as a slider, and the inner surface of the side plate 13 formed on the left side of the lid body 1 is described later. The first cam groove 351 'and the right end of the shaft serves as a slider. The first cam groove 35, which will be described later, is formed in the inner surface portion of the side plate portion 13 formed on the right side of the lid body 10. Further, the crotch portion B is a shaft body that straddles the left-right direction, and is formed to be formed in the right and left motion control device 3, respectively. - a beacon hole 302' at the lower end of the arm and consisting of a shaft b that rotatably assembles the left end of the shaft to the support bracket 22 on the left side, and rotatably assembles the right end of the shaft to the support bracket on the right side The frame 22 is attached to the posture control slider 3Q3 which will be described later between the pivot portion A of the first arm 30 and the pivot portion B. Further, in the illustrated example, the rack portion is formed at the lower end of the first arm ( Rack 304' is coupled to a pinion gear (Pini〇n) 2Ub, which is mounted on a damper (-) 319761 14 200902357 _ f 211 for fixing the stator 211a to the branch _22 Roller. The damper device 211 in the example of the figure is adapted to the resistance of the viscous fluid in the scorpion 211a. In the illustrated example, the damper device 211 applies a brake to the movement of the first arm 3''. The second arm 31 has a pivot portion facing the movable body ι and a pivot portion facing the fixed body 2. D. In the illustrated example, the first arm 3 is more located on the free end 11 side of the body 10 than the second (four). The second arm 31 is in the first arm = rearward. In the illustrated example. The pivot portion c is a through hole 311 formed in the upper end of the second I 31 constituting the right and left motion control device 3 so as to pass through the axis f′ in the left-right direction, and is constituted by the shaft body c. The left end of the shaft is rotatably assembled to the inner surface portion of the side plate portion 13 on the left side of the cover body, and the right end of the shaft is rotatably assembled to the inner surface portion of the cover. Further, the splicing shaft is a cuff plate that straddles the left and right direction: 别 = pass through the bead hole 312 formed at the lower end of the second arm of the left and right motion control device 3, and is constituted by a shaft body (! The left end of the shaft is moved to the left side of the support bracket 22, and the right end of the shaft is rotatably mounted to the support bracket 22 on the right side. The shaft portion D is a central fan portion 313, and an arc-shaped portion 341 & which is an arm-side cam portion 341 to be described later is formed in the fan-shaped portion. In the example of the figure, the pivot portion A and the pivot portion are formed. The pitch between B is longer than the pitch between the pivot portion c and the pivot portion D. Thereby, the movable body i also reaches the predetermined forward position from the forward position, and the cover 1 has The movement of the four-pronged mechanism of the pivot portion A, the crotch portion B, the pivot portion G, and the pivot portion D moves and the cover body 1 is positioned such that the free end 11 is inclined: 319761 15 200902357 * The first biasing means 32 is slid to the first arm and is rotated to the first arm: the power is turned on. Further, the second biasing arm is pivoted to the pivot portion β .. the shaft portion D is the center of the rotational force. In addition, the second arm is provided with a pivotal '32 series by the coil spring 321 , ::: 'The first - elastic means in the first arm 3 " The rotation force is received by the insertion/the first (four) means 32 in the direction of the closed position, and the cover body 1 is fixed. The winding body is fixed to the pivoting portion constituting the pivot portion b = circle dance yellow 321 series m spring In the example shown in the first example, the second bullet means 33 bracket 22 °, in addition, in the figure by the second (four) means 33 in the compartment of the second circle = coffee, to After the moving position, the first arm 31 i Λ 〇 reaches the predetermined 1 η 〜 # 31 yoke with the pivoting portion D as the center and the slamming force 1 〇疋 in the direction of the opening position, so that the coil; Winding to the shaft body d constituting the shaft portion D, the spring = on the third arm and the other end of the spring (4) to the support bracket 22% solid 30, in the illustrated example, the first means The 32-series first arm: the positive direction of rotation centered on the pivot portion β is 2, and the heel of the liver is #31 to the opposite of the pivot portion D=the cover body 10 is also the movable body 1 by First-elastic means 32: £ The 疋 is located in the forward position, and the second slamming means smashes the smashing star by 'and moves to the predetermined moving position to be positively forward' - the force of the means 33 is forced to move to the end position = this: after the reversal of the forward end position to the predetermined forward position (ie, the 疋, 彳 position), the spring pressure by the first biasing means 32 is 319761 16 200902357: system: to the reversal end position ( That is, the position before the move is positive. 3. The exception of the strong multiply 1 τ 'for example, if the first - the elastic means 32 will be the first arm 30 to repeatedly hold the car part β brother # • means 33 Chiang 筮 -μ In the reverse direction, the second and the second brother press the first two, and the first #31 pushes to the pivotal portion D-direction, and then unlocks the hook of the above-mentioned question lock, the 0 car is the reversal of the _ 茂* hook When the carcass 10 is forcibly moved to the predetermined moving position 10 by the first elastic means, the second elastic means can be used to make the body bundle position. (4) Force to move forward to the moving knot. When the movable body 1 reaches the predetermined forward position, the jm33's elastic force does not act on the second arm 31, and the same pre-position The elastic force of the second elastic side is applied to the second arm 31. The w κ (1) switching means 34 is composed of the following elements (1) to (4). (1) 5 is further placed on the arm side cam portion 341 of the second arm 31 (2) rotatably assembled to the side of the fixed body 2 with the position of the shaft portion D as the center of rotation, and the third of the elastic pressure of the second elastic means The arm 342. (8) the fixed body side cam portions 3:3 provided on the fixed body 2 side; and (4) respectively supported by the third arm tearing, the arm side cam portion 34b, and the fixed=cam portion 343' and connecting the second arm 3 ! With the sliding arm of the third arm. The arm-side cam portion 341 is wound with an arc-shaped portion 341a along an imaginary arc centered on the pivot portion D and a releasing portion 3 that is continuous with the arc-shaped portion 3A. In the illustrated example, the arm side cam portion 341 is configured such that the second arm 31 forming the cam plate shape is formed to penetrate the right and left through grooves. The arcuate portion 319761 17 200902357 .34^a is formed such that the lid body 1 is placed in the closed position so that the curved inner side faces forward. Further, the releasing portion 341b extends from the upper end of the arcuate portion 341a to the direction away from the pivot portion D toward the oblique front in a state where the lid body 1 is clamped in the closed position. On the other hand, in the illustrated example, the fixed body side cam portion 343 is formed in the support bracket 22, and the support bracket 22 is formed to penetrate through the right and left through grooves. In the illustrated example, the fixed body side cam portion 343 is such that the inner side of the curved body faces forward, and the one end portion 343a thereof is along the upper side, so that the other side "卩343b is substantially four-quarters along the circle below. An arc is formed. The arcuate portion 341a of the arm side cam portion 341 is connected to one end portion 343a of the fixed body side cam portion 343 at any rotational position centering on the pivot portion D of the second arm 31. On the other hand, the other end portion 343b of the fixed body side cam portion 343 is located further rearward than the arcuate portion 341a. Further, the second arm 342 is formed in a plate shape which is bent into a substantially L shape, and the buckling position is rotatably supported by the shaft body d, and is provided to protrude from the rear upper portion 342a and protrude to the lower lower portion 342c. The front and rear elongated through grooves 342b are formed in the upper portion of the third arm 342, and the end portions of the through shaft 342b of the third arm 342 and the sliding shaft 344 of the arm side cam portion 341 are guided to the fixed body side cam portion 343. In this example, the lower portion of the third arm 342 is opened. The rack portion 342d' is sprinkled on the pinion 213b at a position substantially midway in the left-right direction, and the pinion 213b is attached to fix the stator 213a at The roller of the damper device 213 supporting the central wall 214 on the side of the bracket 22 is supported by the rear connecting plate 212. In the illustrated example, the damper device 213 is configured to impart resistance to the rotation of the roller to the viscous fluid 18 319761 200902357 enclosed in the stator 213a. In the illustrated example, the damper device 213 is attached to the third arm 342. The movement applies a brake. Further, in the illustrated example, the sliding shaft is guided to the fixed body side cam portion 343' of the support bracket 22 at the left end and the right end thereof is guided to the fixed body side cam portion 343 of the support bracket 22 at the right end. 'Sliding extraction 344 constituting the switching means 34 of the left and right motion control device 3 is shared. Then, the sliding shaft 344 is located at the arcuate portion 34la of the arm side cam portion 341 until the movable body 1 reaches the predetermined forward position, and is positioned at one end of the fixed body side cam portion 343 while being stored on the first biasing means 33. Department 343a. After the movable body 1 reaches the forward position, it enters the solution portion 341b of the arm side cam portion 341, and is guided to the other end portion 343b side of the solid body side cam portion 343 by the biasing of the second biasing means 33. Specifically, in the illustrated example, the slider is located at the lower end of the arcuate portion 341a of the arm side cam portion 341 when the cover 1 is in the closed position, and the end portion 343a of the solid body side cam portion 343 is The node between the pivot portions D is substantially equal to the pitch between the pivot portion D and the arcuate portion 341a, and the rotating shaft 344 is positioned on the fixed body side when the body 1 〇 moves to a predetermined forward position. The end portion 343a of the cam portion 343, although in the fifth figure, is to rotate the second closing means 33 of the third arm 342 in the clockwise direction, the arm 342 does not rotate. When the predetermined sliding position is moved to the predetermined forward position, the sliding shaft 344 is allowed to move to the other end of the fixed cam portion 343 by entering the releasing portion 臂 of the arm-side cam portion 341 extending away from the pivot portion D. The third arm 342 is rotated by the spring force of the 319761 19 200902357 • two elastic means 33, and the pivot portion d is centered, and the 344 enters the release portion 34 to rotate the sliding shaft, and the movable body! Forced to force the position to move forward. The tilt position is moved to • Next, the above-mentioned cam means % pivots the pivot portion A until the movable body 2 reaches the position of the cat, and moves forward until it reaches the predetermined position.
為中心之第二臂的轉動者。氣解除而容許以抱轴部D 該凸輪手& 35係具備:形成於可動體 部A亦即軸體3之第一導引㈣由 側且導引讲署协筮辟 冓51,以及形成於可動體i ^ ' 30之樞軸部人與樞軸部B間的姿勢 控制滑動子303之第二凸輪溝352。在圖示之例中\的二勢 勢控制滑動子303係在連处;^ Λ 5χ文 魂卜與插軸部6之假想直 :二構編於兩者中間..之位置的第一臂3〇中 之側板部13内面之側面突出的突起。此外,第 =如係於蓋體1G之關閉位置令f曲内側朝向下方,且 ”冓一端351a位於後方且比溝另1 35ib更上方, 另-端祕位於前方且比溝—端351a更下方而構成y 此外,該第二凸輪溝352係具備:沿著以第一凸輪 351之溝-端351a為中心之假想圓之圓弧的第一部位/ 352a;以及接續於此第一部分抓且容許以拖抽部 心之姿勢控制滑動子303之移動的第二部分352c。第二 係接續第-部分352a之前端麟且朝下方。, 使彎曲内側朝向與第-凸輪溝351相同之方向,且 319761 20 200902357 弟一凸輪溝351的下方。 輪溝輪溝352之第一部分咖係沿著以第-凸 1;聿二 351a為中心之假想圓之,瓜,故可動體 •動位置為止,枢軸部“即軸體“系定位 、於弟一凸輪溝351之溝一端,廿此一 土 C之門_部A與枢軸部 、幸箱^ 致Μ。因此,可動體1之往動係在到 ^在動位置為止成為接近四節環之平行滑動的動 二。二;:Γ:動體1係以㈣ 力,::第/第一臂3〇’故第-彈壓手段32之彈塵 該弟-臂30作用於可動體卜在圖示之例中,往 位置之蓋體10係定位於該位置(關閉位置),此外,復 至復= = 為止之蓋體"係於其後強制地復動The center of the second arm of the rotator. The cam brakes are allowed to be released, and the cam levers & 35 series are provided on the first guide (four) side of the movable body portion A, that is, the side of the shaft body 3, and guide the association 51, and form The posture between the pivot portion of the movable body i ^ ' 30 and the pivot portion B controls the second cam groove 352 of the slider 303. In the illustrated example, the two potential control sliders 303 are connected at the joint; ^ Λ 5 χ 魂 卜 与 与 与 与 与 与 : : : : : : : : : : : : : : : : : : : : : : : : : : : A protrusion that protrudes from the side surface of the inner surface of the side plate portion 13 of the third crucible. In addition, the second position is such that the closed position of the cover 1G is such that the inner side of the f curve faces downward, and the "one end 351a is located at the rear and is located above the groove 1 35ib, and the other end is located at the front and is lower than the groove-end 351a. In addition, the second cam groove 352 is provided with a first portion/352a along an arc of an imaginary circle centered on the groove-end 351a of the first cam 351; and the first portion is grasped and allowed The second portion 352c of the movement of the slider 303 is controlled in a posture of dragging the center portion. The second portion is connected to the front end portion 352a and the front end portion is oriented downward, so that the curved inner side faces the same direction as the first cam groove 351, and 319761 20 200902357 The lower part of the cam groove 351. The first part of the groove groove 352 is along the imaginary circle centered on the first convex 1; the second 351a, the melon, so the movable body and the moving position, the pivot The "shaft body" is positioned at the end of the groove of the ji-cam groove 351, and the door of the soil C is _ part A and the pivot part, and the box is smashed. Therefore, the moving body 1 is moving to the ^Becomes the moving position of the parallel movement of the four-section ring until the moving position. Two; Body 1 is the force of (4), :: the first arm of the first arm 3〇', the first - the elastic means 32, the younger arm 30 acts on the movable body, in the illustrated example, the cover 10 of the position Positioned at this position (closed position), in addition, the cover to the complex = = is forced to repeat
亦_a從第-凸輪溝35=:::=㈣A 著第—凸輪、、盖q 再%d51a朝溝另一端沿 部分咖移動,第制滑動 心之第二臂31所進 叙 '切追隨以樞軸部D為中 例中,第- _手段3 2體1^^轉^之動作。在圖示之 述第二臂3〗並大致動位置之蓋體1〇係隔介上 置為止藉由第二彈D為中心,在到達往動結束位 若令位於往動結^ = 3之㈣而強制地被轉動。 置之蓋體10抵抗第二彈壓手段 319761 21 200902357 )之㈣而復動至預定的復動位置,由於追 轉動之弟一臂31’第二臂動作而 〇 乐一# 342亦會轉動而使滑 度定位於固定體侧凸輪部# 344再 铷4 343之一端部343a,且 γ 手段33之彈壓力不作用於第二臂31。與此同:差 軸部Α之軸體a係再❹位於第—凸輪溝35 ^Also _a from the first - cam groove 35 =::: = (four) A with the first - cam, cover q and then %d51a toward the other end of the groove along the part of the coffee, the second sliding arm of the first sliding heart 31 In the example of the pivot portion D, the first-_means 3 2 body 1 ^ ^ ^ ^ ^ action. In the second arm 3 of the figure, the cover body 1 in the substantially moving position is placed on the second arm D, and the second bullet D is centered on the second arm D. (4) It is forcibly rotated. The cover 10 is moved back to the predetermined double-moving position against the fourth elastic means 319761 21 200902357), and the second arm movement of the arm 31' is also rotated by the second arm of the chasing brother. The slip is positioned at one end portion 343a of the fixed body side cam portion #344 and then 4343, and the spring pressure of the γ means 33 does not act on the second arm 31. Same as this: the axis of the shaft is abundance and is located in the first cam groove 35 ^
=動子咖係再度進入第二凸輪溝I 之彈壓而強㈣a Γ此蓋體10係藉由第一彈壓手段32 =[而強制地復動至復動結束位置,亦即復動至往動前 【圖式簡單說明】 第1圖係駕駛座中間儲存箱之斜視構造圖。 第 第 第 第 弟2圖係駕駛座中間储存箱之斜視構造圖。 圖係駕駛座中間儲存箱之斜視構造圖。 圖係駕駛座中間儲存箱之剖面構造圖。 =:系:作控制裝置3之主要部分侧面構造圖。 ::作控制裝置3之主要部分側面構造圖。 =糸動作控制裝置3之主要部分側面構造圖。 J圖係動作控制裝置3之主要部分側面構造圖。 弟9圖係動作控制裝詈 第10 要部分側面構造圖。 卑丄ϋ圖係駕駛座中間儲 【主要元件符號說明】 存相之分解斜視構造圖。 固定體 第一掩蓋板 蓋體 1 可動體 9 〇 乙 4 10 動作控制裝置 5 第二掩蓋板 319761 22 200902357 11 自由端 12 主體部 13 側板部 14 閂鎖 20 儲存箱本體 21 開口 22 支持托架 23 被鉤合部 24 壁部 25 罩蓋 26 空間 30 第一臂 31 第二臂 32 第一彈壓手段 33 第二彈壓手段 34 切換手段 35 凸輪手段 141 鉤合部 142 操作部 211 > 213阻尼裝置 211a 、213a定子 211b 、213b小齒輪 212 連接板 214 中央壁 301 ^ 302、311、312 貫通孔 303 安勢控制滑動子 304 齒條部.- 313 扇狀部 321、 331線圈彈簧 341 臂側凸輪部 341a 孤狀部位 341b 解除部位 342 第三臂 342a 上部 342b 貫通溝 342c 下部 342d 齒條部 343 固定體側凸輪部 343a 、343b端部 344 滑動軸 351 第一凸輪溝 351a 溝一端 351b 溝另一端 352 第二凸輪溝 352a 第一部分 352b 前端 352c 第二部分 319761 23 200902357 A、B、C、D樞軸部 a、b、c、d軸體 24 319761= the muzzle is again pressed into the second cam groove I and is strong (4) a. The cover 10 is forcibly re-activated to the end of the reversal by the first biasing means 32 = [ [Front description of the drawing] Figure 1 is a squint structure diagram of the middle storage box of the driver's seat. The first second brother 2 is a squint structure diagram of the driver's seat intermediate storage box. Figure is a squint structure diagram of the middle storage box of the driver's seat. The cross-sectional structure of the intermediate storage tank of the driver's seat. =: is a side structural view of the main part of the control device 3. :: The main part side construction diagram of the control device 3. = 侧面 The main part side structure diagram of the motion control device 3. J is a side view of the main part of the motion control device 3. Brother 9 is the action control device. The 10th part of the side structure diagram. Despicable diagram of the driver's seat intermediate storage [Main component symbol description] Decomposition squint structure diagram of the storage phase. Fixed body first cover cover body 1 movable body 9 4B 4 10 Motion control device 5 Second cover plate 319761 22 200902357 11 Free end 12 Main body portion 13 Side plate portion 14 Latch 20 Storage box body 21 Opening 22 Support bracket 23 Hooked portion 24 Wall portion 25 Cover 26 Space 30 First arm 31 Second arm 32 First biasing means 33 Second biasing means 34 Switching means 35 Cam means 141 Hooking part 142 Operating part 211 > 213 Damping means 211a 213a stator 211b, 213b pinion 212 connecting plate 214 central wall 301 ^ 302, 311, 312 through hole 303 amperage control slider 304 rack portion. - 313 fan portion 321, 331 coil spring 341 arm side cam portion 341a Solitary portion 341b Release portion 342 Third arm 342a Upper portion 342b Through groove 342c Lower portion 342d Rack portion 343 Fixing body side cam portion 343a, 343b End portion 344 Slide shaft 351 First cam groove 351a Groove end 351b Groove other end 352 Second Cam groove 352a first portion 352b front end 352c second portion 319761 23 200902357 A, B, C, D pivot portion a, b, c, d shaft body 24 319761