200936865 , 六、發明說明: * 【發明所屬之技術領域] 本發明係關於幫助可動體相對於固定體之移動操作之 拉入機構之中,具備在卡入銷(striker)及捕捉件(catcher) 以及可動體之移動過程中儲存彈性勢能之彈性勢能賦予手 段,且在卡入銷與捕捉件卡合之狀態下藉由儲存於彈性勢 能賦予手段之彈性勢能將可動體拉入之拉入機構。 【先前技術】 第11圖係顯示專利文獻1所揭示之拉入機構,(a)係❹ 為未圖示之拉出體之拉人位置,(b)係為在拉出位置之示意 圖。符號50係為本體侧壁,55係為拉出體侧之驅動銷 (pin) ’ 60係為配置在本體侧壁與拉出體之間之傾斜部分, 符號65係為彈簧。在本體側壁5〇中係設有由朝前後方向 延伸之筆直之部分51a及弓形部分51b所構成之引導軌道 (tradOSl。傾斜部分60係具有上開放之槽縫(si〇t)6i及 從該槽縫61之前侧延伸之傾斜之側壁犯,且將螺检⑽〇 63、63喪合於引導軌道51。彈簧β5係卡止一端在本體側〇 壁’且在將另-端卡止在傾斜部分6{)之狀態下,於拉出體 在從拉入位置朝拉出位置移動之過程中儲存彈性勢能。 再者,拉出體朝拉出方向移動時,係於傾斜部分6〇沿 著引導軌道之筆直部分51a移動之後,在弓形部分训朝 前方傾斜,且驅動銷55從槽縫61朝傾斜之侧壁62之方向 移動。藉此,拉出體係與彈簧65之彈性勢能抵抗而卡止於 拉出位置,並且在朝後方推壓,藉此而使驅動銷55從傾斜 320878 4 200936865 拉^返回槽縫61之後,以儲存於彈簧65之彈性勢能 【發曰本特公平 [發明欲解決之問題] ❹ ❹ 入方ΐ上構中,例如,拉出體從拉出位置朝拉 出方向亦隨之自動方式滑動,惟從拉入位置朝拉 性變差。此外,以/強之拉引操作力量,而使得使用方便 鎖定(1〇。1〇機構^彈簧65之彈性勢能而卡止拉出體之 驅動銷55從㈣^由於係藉由傾斜部分6G之前傾斜將 會有卡合力較弱拔出,而卡合於傾斜之侧壁62,因此 在習知結構中*且因為振動等而解除卡止之虞。而且, 變化,而產生傾因為拉出體之承载量或收納荷重之 而無法正常動作==6G與驅動銷55之相對位置之偏移 拉入的= = = 體從中途,性勢能 或防ί·άΓ紅μ 適用在防止強迫壓入該可動體時之彈門 ^ " 之不完全之壓入狀態之產生,尤其®g由^ &關聯構件彼此之相對位置變化,亦吸收該變;匕:P使卡 1 之動作’藉此而防止誤動作之產生而保持良 [解決問題之方案] mi·生。 J為了達成上述之目的,本發明係一種拉 =鱗,設在以體心可㈣方式支胁 體= 動體之任-方;捕捉件,設於另-方且在前述可 320878 200936865 動位置以可卡合脫敎方式與前述卡人銷卡合;及 賦予手段,在前述可動體之移動過程中可將彈性 勢月匕儲存;且在前述卡入銷與前述捕捉件卡合之狀態下藉 =儲存於前述賴勢能料手段之彈㈣祕前料動體 =fr為:具有用以規限前述卡入銷與前述捕捉件 變之引導手段’且於前述卡人銷與前述捕捉件改 可對位置時’藉由前述引導手段吸收其改變而成為 〇 拉=明中,固定體係包含拉出體用收納本體或 == 體只要是拉出體及拉門等,相對於 疋體具有何移動之關係即可 =可:體對應設置,只要是具有在== 勢能將可動二藉儲存於彈性勢能賦予手段之彈性 了動體拉人之關係即可。以具體例而言’若為專利 ❹ 銷㈣_當_捉件,而傾斜部=當 以上之本發明具體化如下為更佳。 (1)如申請專利範圍第 入鐵係與前述彈性勢能賦主 A機構,其中,前述卡 述捕捉件係支持在保持^予件手段一同配設在盒體,並且前 項)。 ' 之構成(申請專利範圍第2 (2)如申請專利範圍第2 捉件係以可相對於前述保、之拉入機構’其中’前述捕 、、攝件移動預定尺寸之方式支持 320878 200936865 之構成(申請專利範圍第3項)。 (3) 如申請專利範圍第1項之拉入機構,其中,前述卡 入銷係以可經由前述盒體而相對於前述固定體移動預定尺 寸之方式安裝之構成(申請專利範圍第4項)。 (4) 如申請專利範圍第2至4項中任一項之拉入機構, 其中,前述引導手段係具有:引導溝,設於前述盒體側且 將溝出入口部分形成為較溝的其他部分寬廣;及突起,設 於前述捕捉件侧且滑動於前述引導溝之構成(申請專利範 〇 圍第5項)。 [發明之功效] 在申請專利範圍第1項之發明中,例如,可動體若為 拉出體,則即使由於收納於該拉出體之物品荷重之變化等 所引起,使得卡入銷與捕捉件之相對位置變位或變化,卡 入銷與捕捉件亦會由因為引導手段之變化吸收作用而修正 為正規位置而成為可卡合。藉此,以拉入機構而言,即可 ❹確實阻止因為相對位置偏移所引起之動作不良,且藉此而 可提升品質及可靠性。 在申請專利範圍第2項之發明中,由於卡入銷係與彈 性勢能賦予手段一同配設在盒體而單元化,且捕捉件係支 持在保持構件而單元化,因此任一者均具有優異之處理性 及對於固定體或可動體之安裝性等。 在申請專利範圍第3項之發明中,由於捕捉件係以可 相對於保持構件移動預定尺寸之方式支持,因此在該容許 之移動範圍内可變更位置而相對於卡入銷可調整為最佳位 7 320878 200936865 置。相對於此,在申請專利範圍第4項之發明中,卡入銷 係以可經由盒體而相對於固定體移動預定尺寸之方式安 裝’因此在該容許之移動範圍内可變更位置而相對於捕捉 件可調整為最佳位置。 在申請專利範圍第5項之發明中,若實施形態之例 敘述,則由於捕捉件係在相對於附設在固定體侧之盒體之 引導溝嵌合突起之狀態下滑動,因此可維持對於卡:銷之200936865, VI. Description of the invention: * Technical field to which the invention pertains The present invention relates to a pull-in mechanism for assisting the movement of a movable body with respect to a fixed body, and is provided with a snapr and a catcher. And an elastic potential energy imparting means for storing the elastic potential energy during the movement of the movable body, and the pulling mechanism of the movable body is pulled by the elastic potential energy stored in the elastic potential energy imparting means in a state where the engaging pin and the catching member are engaged. [11] FIG prior art display system of Patent Document 1 discloses drawing mechanism, (a) Department of ❹ to pull the body of the person (not shown) is pulled out of position, (b) is a schematic view drawn based on the position. Reference numeral 50 is a main body side wall, and 55 is a pull pin on the side of the pull-out body. The 60 is an inclined portion disposed between the side wall of the main body and the pull-out body, and the symbol 65 is a spring. A guide rail (tradOS1) composed of a straight portion 51a and an arcuate portion 51b extending in the front-rear direction is provided in the body side wall 5, and the inclined portion 60 has an upper open slot (si〇t) 6i and The inclined side wall of the front side of the slot 61 is broken, and the thread check (10) 〇 63, 63 is lost to the guide rail 51. The spring β5 is locked at one end on the body side wall 'and the other end is locked at the tilt In the state of the portion 6{), the elastic potential energy is stored in the process of moving the pull-out body from the pulled-in position to the pull-out position. Further, when the pull-out body is moved in the pull-out direction, after the inclined portion 6〇 is moved along the straight portion 51a of the guide rail, the bow portion is inclined forward, and the drive pin 55 is moved from the slit 61 toward the inclined side. The direction of the wall 62 moves. Thereby, the elastic force of the pull-out system and the spring 65 resists and is locked in the pulled-out position, and is pushed rearward, whereby the drive pin 55 is pulled back from the tilt 320878 4 200936865 to the slot 61 for storage. The elastic potential energy of the spring 65 [the problem of the invention is to be solved] [the problem to be solved by the invention] ❹ 入 In the upper structure, for example, the pull-out body is automatically slid from the pull-out position toward the pull-out direction, but The pull-in position is deteriorated toward the pull-up. In addition, the operating force is pulled by / strong, so that it is easy to lock (1〇. 1〇 mechanism ^ spring 65 elastic potential energy and lock the pull-out body of the driving pin 55 from (4) ^ due to the inclined portion 6G If the tilting force is weak, the engaging force is weakly pulled out, and it is engaged with the inclined side wall 62, so that in the conventional structure * and the locking is released due to vibration or the like. Moreover, the tilting occurs due to the change. The bearing capacity or the receiving load cannot be operated normally. == The offset of the relative position of the 6G and the driving pin 55 is pulled in. = = = The body is in the middle, the potential energy or the anti-cluster blush μ is applied to prevent forced pressing into the load. In the case of the movable body, the incomplete press-in state of the slamming door ^ ", especially the relative position change of the ^ & associated members, also absorbs the change; 匕: P causes the action of the card 1 to And to prevent the occurrence of malfunctions and maintain good [solution to the problem] mi·sheng. J In order to achieve the above purpose, the present invention is a pull = scale, set in the body can be (four) way to support the body = the body of the body - a catching member, disposed on the other side and at the aforementioned position of 320878 200936865 The snap-fit disengagement method is engaged with the card holder pin; and the means for providing the elastic potential moon 匕 during the movement of the movable body; and borrowing from the state in which the card-in pin and the catching member are engaged = The spring stored in the above-mentioned reliant energy means (4) The pre-pregnant moving body = fr is: has a guiding means for restricting the aforementioned engaging pin and the aforementioned catching member change, and is modified by the aforementioned card holder pin and the aforementioned catching member In the case of position, the movement is absorbed by the above-mentioned guiding means, and the fixing system includes the storage body for the pull-out body or the body of the body, and the body is moved relative to the body as long as it is a pull-out body and a sliding door. The relationship can be: can be: the body corresponding to the setting, as long as it has the elasticity of the movable potential energy in the == potential energy can be stored in the elastic potential energy of the means to pull the relationship. In the specific case, if the patent Pin (four) _ when _ catching parts, and inclined parts = when the above invention is embodied as follows. (1) as claimed in the scope of the entry of the iron system and the aforementioned elastic potential energy to the main A mechanism, wherein the aforementioned capture capture The support of the piece is supported by the means of maintaining It is equipped in the box and the front item). The composition of the patent application scope (2) (2) if the patent application scope 2nd capture unit is supported by 320878 200936865 in a manner that allows the aforementioned capture and movement of the camera to move relative to the aforementioned security device. (3) The pull-in mechanism of claim 1, wherein the snap-in pin is mounted in a manner movable relative to the fixed body via the casing. (4) The plunging mechanism of any one of the second aspect of the invention, wherein the guiding means has a guiding groove disposed on the side of the casing and The groove inlet and outlet portion is formed to be wider than the other portions of the groove; and the protrusion is disposed on the side of the catching member and slides on the guide groove (Applicant's patent item 5th item). [Effect of the invention] Patent application scope In the invention of the first aspect, for example, if the movable body is a pull-out body, the relative position of the snap-in pin and the catching member is displaced or changed due to a change in the load of the article stored in the pull-out body or the like. The card insertion pin and the catching member are also corrected to be normal positions due to the absorption action of the guiding means, thereby becoming engageable. Thus, in the case of the pulling mechanism, it is possible to prevent the relative positional displacement from being caused. In the invention of claim 2, in the invention of the second application of the patent application, the snap-in pin system and the elastic potential energy imparting means are united in the casing to be unitized, and the catching member is Supporting unitization in the holding member, and therefore any of them has excellent rationality and mountability to a fixed body or a movable body, etc. In the invention of claim 3, since the catching member is relatively maintainable member of the predetermined size moves supported manner, so position can be changed within the allowable moving range of the card with respect to the pin may be adjusted to set optimal bit 7,320,878,200,936,865. in contrast, in the scope of the patent disclosure, Paragraph 4 The card insertion pin is mounted in such a manner as to be movable by a predetermined size with respect to the fixed body via the casing. Therefore, the position can be changed within the allowable movement range relative to the capture. In the invention of the fifth aspect of the invention, in the case of the embodiment, the catching member is in a state of fitting the projection with respect to the guide groove of the casing attached to the fixed body side. Sliding down, so it can be maintained for the card: pin
穩定之卡合。此外,由於突起係於引導溝之中寬度較廣 溝出入口部分被接受而移轉至寬度較窄之溝部分,因此^ 使捕捉件與卡入鎖之溝寬度方向之位置(即為上下位置)變" 化’亦可有效率地修正。 【實施方式】 雄參照m說明本發明之實施形態例。Stable engagement. In addition, since the protrusion is received in the guide groove and the width of the entrance and exit portion of the guide groove is accepted and moved to the groove portion having a narrow width, the position of the catch member and the groove of the lock lock is set to be in the width direction (ie, the up and down position). Changing "ification' can also be corrected efficiently. [Embodiment] An embodiment of the present invention will be described with reference to m.
I减體之構成及動作特徵,第5圖4 使用例,之構成及動作特徵,第6至第9圖係澤 略-部分。在咖明中,圖係:製圖」 組裝體、捕捉件組裝體、使用:序動 (機構特徵)實施形態之:作、_。 :拉出體8技進拉出於收納本體:構’例如’只要用途 :33’用,成卡入鎖組裝:體/二障形,則,^ =收納本體9及以可移動方式#該卡人銷組裝體A係 體8之任-方;捕捉件5,用4=該收納本體9之拉 柯我捕捉件組裝體B,該 320878 8 200936865 捉件組裝體^係設於另-方,且在拉出體8之預定之移動 位置以可卡合脫離之方式與卡人鎖33卡合;及在拉出體8 之移動過程令可將彈性勢能儲存而作為彈性勢能賦予手段 之線圈彈簧S ;且在卡入銷33與捕捉件5卡合之狀態下, 藉由儲存於線圈彈簧S之彈性勢能將拉出體8拉入者。創 作點係尤其具有用以限制卡入銷35與捕捉件5之相對位置 之引導手段7 ’且於卡人銷35與捕捉件5因為拉出體8之 ❹承載荷重之大小等而使前述相對位置變化時,藉由引導手 段7可吸收其變化而得以卡合者。 〇 (卡入銷組裝體)如第1至第4圖所示,此組裝體Μ 具備:大致矩形狀之盒體1 ;以可滑動方式配置在盒體 之滑件(slider)2 ;連結於滑件2之臂3 ;上述之線;彈養 S ;及用以制動滑件2及臂3之移動之制動手段6。其中\ 制動手段6係由活塞式阻尼器(damper)34i旋轉式阻尼器 37所構成。活塞式阻尼器34係具有㈣35及緩緩出入參 該缸體之活塞桿36 ’且活塞桿36係為相對於紅體犯缓 驅動之構成。旋轉式阻尼器37係為具有盒體⑽、夢柄 盒體内之動作料所制動之缺裝設在姉之齒輪^ -構成。惟制動手段6係省略,僅㈣阻34、π < 或反之亦可使用複數個阻尼器 盒體1係在前後方向成為細長,办役 h面U、上下面12、13、及一端面u所概略界定,另 -端面則開口。在正面1G係設有用以卡合 器之虹體35之支持'溝10a;阻尼器 塞式阻尼 衣札l〇c ;及與臂 320878 9 200936865 3之對應部分嵌合之引導孔15。在阻尼器用安裝孔1〇c中, 係以將其盒體38卡合固定之狀態安裝有阻尼器37。引導 孔15係具有從一端面14之則面朝水平延伸之水平孔15a 及從該水平孔之端部朝下折變之卡止孔15b。在正面1〇及 背面11中,條相對向設有用以引導滑件2之引導孔10b、 lib。在背面11,除引導孔lib以外’尚設有凹狀收容部 11a、在與引導孔15相對向之部位凹缺而成之大致矩形之 開口部11c、及突出在開口部11c之下内面之彈簧用釣掛 部18。在收容部11a,係以將其缸體35卡合固定之狀態安 ❹ 裝有阻尼器34。 在上面12係設有從大致中間朝向一端面14側延伸之 剖面匚字狀弓丨導溝16。此引導溝16係由立設在上面12之 縱壁17a、突設在該縱壁17a且與上面12相對向之橫壁 17b、位於一端面14侧且將橫壁17b及上面12之各端部連 接之立壁17c所界定。此外,溝出入口部分163係形成為 較更内侧之溝部分16b寬廣’亦即形成為上下間隔較大。 ^ 再者’在溝出入口部分16a中,上面12及橫壁17b之對向 部分係形成為愈接近溝部分16b則上下間隔愈窄之斜錐 (taper)面。符號19係為突設在上面12、下面13、橫壁 17b之具有孔之安裝部。 滑件2係作成全體為由兩侧面20及上下面21、22以 及相對向之端面23所概略界定之細長板狀,且具有分別突 設在兩侧面20而與盒體侧引導孔l〇b、lib嵌合之複數個 凸部24 ;從一方之端面23朝向另一方之中途延設而供插 320878 10 200936865 通上述活塞桿36之插通孔25;開設於兩侧面2〇而橫切插 通孔25之前端之卡止用小開口 26 ;位於上面2〗且從一方 端面23連續設置到另一方端面之稍前方之齒條&ack)27 及立設在齒條27與端面23之間之大致U形支持部28。 臂3係一端部30以可自由轉動之方式以樞軸支持在滑 件侧支持部28,且另一端部32突設有嵌合於引導孔15之 軸部31b(參照第3圖)。亦即,一端部3〇係作成大致匚字 ❹形,且具有设在該C字形之兩片部間之連結轴31a,且相 對於滑件一侧之支持部28在將該連結軸31a嵌合於u形内 之狀態下連結。另一端部32係在相同轴線上形成有:突出 於侧面之前述軸部31b、以在轴部31b之前端加大一圈直 徑俾不會從引導孔15脫落之凸緣部32a、及突出於凸緣部 32a之外面之卡入銷33。此外,在一端部3〇之前方,係朝 下突設有彈簧用鉤掛部3a 〇 以上之滑件2及臂3以及線圈彈簧s,係依以下之順 ❹序組入於盒體1。首先,滑件2係對於盒體1從與一端面 14相對向之另一端面之開口置入於盒體内,並且藉由將兩 侧之凸部24嵌合於引導孔10b、Ub,而可沿著該引導孔 水平滑動。此時’裝設在收容部lla内之阻尼器側活塞桿 36係插入於滑件側插入孔25,而且,在突出於小開口加 之前端裝設罩蓋(cap)狀之固定具36a,藉此而連結於滑件 2。此外,裝設於安裝孔1〇c之阻尼器37係為齒輪39與滑 ,侧之齒條27嚙合。因此,滑件2係形成藉由活塞式阻尼 器34及旋轉式阻尼器37—面制動一面滑動。 11 320878 200936865 此外,如第4圖所示,辟〇 y 嵌合於滑件侧之支持 ’ 3係-端部30之連結軸3la 插通於引導孔15之狀綠:且’端部32之輪部 用設在水平孔15a之端^'、、且人1 1内。此時’利 緣部32a插通於料’加大之退避孔而將大徑之凸 盒體1配置成防止脫落’藉此,另—端部32即相對於 η, ^ 4。在此狀態下,卡入銷33係從 體側釣掛突出。接著,線圈彈簧S係一端鉤止於^ 體側鉤掛部18,且另一山 、现 ❹ 完成卡入職裝W。釣止在臂賴掛部%。藉此,即The composition and operational characteristics of the I-reduced body, Fig. 5 is a use case, the composition and the action characteristics, and the sixth to the ninth drawings are a part-part. In the case of the coffee, the drawing is: drawing" assembly, catching assembly, use: sequence (mechanical feature) embodiment: making, _. : Pull out the body 8 into the storage body: the structure 'for example' as long as the use: 33', into the card lock assembly: body / two barrier shape, then ^ = storage body 9 and in a movable way pin assembly according to any cardholder system 8 A - A side; capture member 5, with the housing body 4 La = 9 my catcher assembly body B, the 3,208,788,200,936,865 catch member assembly provided in another system ^ - Fang And engaging with the card lock 33 in a manner of being engageable and detachable at a predetermined moving position of the pull-out body 8; and the movement of the pull-out body 8 so that the elastic potential energy can be stored as a coil of the elastic potential energy imparting means The spring S; and in a state where the snap pin 33 is engaged with the catching member 5, the pull-out body 8 is pulled in by the elastic potential energy stored in the coil spring S. In particular, the creative point has a guiding means 7' for limiting the relative position of the latching pin 35 and the catching member 5, and the relative position of the latching pin 35 and the catching member 5 due to the load of the pull-out body 8 When the position changes, the guiding means 7 can absorb the change and the person can be engaged. Square (snap pin assembly) As shown in FIGS. 1 to 4, this assembly Μ comprising: a cartridge body 1 of a substantially rectangular shape; slidably disposed in the cartridge body of the slider (slider) 2; coupled to The arm 3 of the slider 2; the above-mentioned line; the spring S; and the braking means 6 for braking the movement of the slider 2 and the arm 3. The brake means 6 is composed of a piston damper 34i rotary damper 37. The piston damper 34 has a (four) 35 and a piston rod 36' that slowly enters and exits the cylinder block, and the piston rod 36 is configured to be driven with respect to the red body. The rotary damper 37 is configured to have a casing (10) and a gear that is braked by the operating material in the sleeper casing. However, the braking means 6 is omitted, and only the (four) resistance 34, π < or vice versa can also use a plurality of damper boxes 1 to be elongated in the front and rear direction, the service h surface U, the upper and lower surfaces 12, 13, and one end u Generally defined, the other end face is open. The front 1G is provided with a support 'groove 10a for the rainbow body 35 of the snap-fit; a damper plug-type damping garment; and a guide hole 15 fitted to a corresponding portion of the arm 320878 9 200936865 3. In the damper mounting hole 1〇c, the damper 37 is attached in a state in which the case 38 is engaged and fixed. The guide hole 15 has a horizontal hole 15a extending horizontally from the one end surface 14, and a locking hole 15b which is folded downward from the end portion of the horizontal hole. In the front side 1 and the back side 11, the strips are provided with guide holes 10b, lib for guiding the sliders 2 oppositely. In addition to the guide hole lib, the back surface 11 is provided with a concave accommodating portion 11a, a substantially rectangular opening portion 11c which is recessed at a portion facing the guide hole 15, and an inner surface which is protruded below the opening portion 11c. The fishing hook 18 is used for the spring. In the accommodating portion 11a, a damper 34 is mounted in a state in which the cylinder 35 is engaged and fixed. The upper 12 series is provided with a cross-sectional U-shaped guide groove 16 extending from the substantially intermediate side toward the one end surface 14 side. The guide groove 16 is defined by a vertical wall 17a that is erected on the upper surface 12, a lateral wall 17b that protrudes from the vertical wall 17a and faces the upper surface 12, and is located on one end surface 14 side and ends each of the lateral wall 17b and the upper surface 12. The portion of the connecting wall 17c is defined. Further, the groove inlet and outlet portion 163 is formed to be wider than the groove portion 16b on the inner side, i.e., formed to have a large vertical interval. Further, in the groove inlet and outlet portion 16a, the opposing portions of the upper surface 12 and the lateral wall 17b are formed such that a taper surface which is narrower in spacing between the upper and lower sides is formed closer to the groove portion 16b. Reference numeral 19 is a mounting portion having holes formed in the upper surface 12, the lower surface 13, and the lateral wall 17b. The slider 2 is formed in an elongated plate shape which is generally defined by the two side faces 20 and the upper and lower faces 21, 22 and the opposite end faces 23, and has protrusions respectively formed on the both side faces 20 and the case side guide holes lb a plurality of convex portions 24 fitted by lib; extending from one end surface 23 toward the other, and inserting 320878 10 200936865 through the insertion hole 25 of the piston rod 36; a small opening 26 for locking at the front end of the through hole 25; a rack & ack) 27 located on the upper side and continuously disposed from one end surface 23 to the other end surface, and erected on the rack 27 and the end surface 23 A substantially U-shaped support portion 28 therebetween. One end portion 30 of the arm 3 is pivotally supported by the slider side support portion 28 so as to be rotatable, and the other end portion 32 is provided with a shaft portion 31b fitted to the guide hole 15 (see Fig. 3). That is, the one end portion 3 is formed in a substantially U-shaped shape, and has a coupling shaft 31a provided between the two C-shaped portions, and the support portion 28 with respect to the slider side is embedded in the coupling shaft 31a. Linked in the state of the u shape. The other end portion 32 is formed on the same axis with the above-mentioned shaft portion 31b protruding from the side surface, a flange portion 32a which is increased in diameter by a circle at the front end of the shaft portion 31b, and which does not fall off from the guide hole 15, and protrudes from The pin 33 is engaged on the outer surface of the flange portion 32a. Further, the slider 2, the arm 3, and the coil spring s, which are provided with the spring hooking portion 3a 〇, are protruded downward from the one end portion 3, and are assembled to the casing 1 in the following order. First, the slider 2 is placed in the casing with respect to the opening of the casing 1 from the other end surface facing the one end surface 14, and by fitting the convex portions 24 on both sides to the guide holes 10b, Ub, It can slide horizontally along the guide hole. At this time, the damper-side piston rod 36 installed in the accommodating portion 11a is inserted into the slider-side insertion hole 25, and a cap-like fixture 36a is attached to the front end of the small opening. This is connected to the slider 2. Further, the damper 37 attached to the mounting hole 1〇c is such that the gear 39 meshes with the slip and the side rack 27. Therefore, the slider 2 is formed to slide by the piston damper 34 and the rotary damper 37. 11 320878 200936865 Further, as shown in Fig. 4, the connecting shaft 3la of the supporting '3 series-end portion 30 fitted to the slider side is inserted into the green of the guiding hole 15: and the end portion 32 The wheel portion is provided at the end of the horizontal hole 15a and in the person 11 . At this time, the edge portion 32a is inserted into the evacuation hole which is enlarged by the material, and the large-diameter convex body 1 is placed to prevent falling off, whereby the other end portion 32 is opposed to η, ^4. In this state, the snap pin 33 protrudes from the body side. Then, the coil spring S is hooked to the body side hook portion 18 at one end, and the other mountain and the door are now engaged in the job W. Fishing is stopped at the arm hangs. With this,
择且^捉件崎體)如第1圖及第5圖所示,此組震體B 二式支件4、及以可移動預定上下尺寸 …” ' 冓件4之捕捉件5。其中,保持構件4 二、有.設於背面側之上下較長之矩形凹部4〇 ;除 ^上下部及左右部以外貫通表背之矩形之開口化將凹 ^ 側部分H從凹部4G内通往外部之返避 ❹ °"2 ’及扠置於複數個位置之安裝孔43。 #捉件5係具有··與凹部40對應之板部50 ;突設在 m〇之表面侧而從開口 41突出配置在正面側之上 51及下卡合部52;及以可上下移動之方式組裝於上保 持。P 51之爪構件45。板部5Q係在—方侧面之上側形成有 ,上述之引導溝16喪合之突起53,且在凹部40内配置成 可朝^下方向移動時,突起53亦在從退避部42朝外突出 之狀癌下上下移動。上保持# 51及下卡合部52係在從開 σ 41以可朝板部50之正面侧上下動之方式突出之狀態 320878 12 200936865 下,透過設在上保持部51之兩外側面之爪5 5而防止脫落。 下卡合部52係形成為愈往下愈低之斜面,且在與上述卡止 狀態之卡入鎖33碰撞時,藉由捕捉件組裝體B之前進移 動,而使卡入銷33藉由前述斜面作用從卡止孔15b退避於 水平孔15a。 相對於此,上保持部51係形成突出前端侧將下部及端 面之一部分54開口之空洞部。再者,在該空洞部中,係在 兩内側面對向設有用以引導爪構件45之引導肋部56。亦 即,如第5圖(b)、(d)所示,爪構件45係前端形成為傾斜 面,並且具有設在兩側之縱溝45a、及突設在上側之彈性 片部46。再者,爪構件45係將各縱溝45a與對應之引導 肋部56嵌合,而且,將片部46配置成與前述空洞部之内 上面抵接之狀態,藉此通常係透過片部46而彈推成該圖之 突出狀態。當受到向上之應力,則抵抗片部46之彈力而暫 時朝沒入方向退避之後,應力即消失而再度成為突出狀態。 〇 (使用例)第6圖(及第1圖中顯示於右上之部分)係將 以上之拉入機構應用在拉出體8之拉入之一例。在此配置 中,卡入銷組裝體A安裝在收納本體9之内側面,並且捕 捉件組裝體B安裝在拉出體8之後端面8b。此時,卡入銷 組裝體A係使用上述之盒體側安裝部19及螺絲等而固著。 捕捉件組裝體B雖係使用上述之安裝孔43及螺絲等而固 著,惟此時,突起53係與卡入銷組裝體A之引導溝16對 應,而以從拉出體8之側面8a突出之方式定位。另外,以 其他配置而言,係將卡入銷組裝體A安裝於拉出體8側, 13 320878 200936865 且與其對應而將捕捉件組裝體B安裝於收納本體9侧亦 可。此外,卡入銷組裝體A及捕捉件組裝體B雖亦有使用 2組可動體而拉人之情形,惟此種情形只要是拉出體8,則 另一方即相對於上述實施形態成為左右對稱形。 、 (動作)-面參照第3圖與第4圖、及第7圖至第9圖 -面詳述以上拉人機構之動作n在第?圖至第 中,雖係為假設以第6圖之使用例而顯示主要之動作者, 惟為了將各構件之關係明確化而加以簡化或模式化。 〇 ⑴首先,㈣卡謂組㈣A m崎 在線圈彈簧S如第3圖所示地儲存彈性勢能之彈性勢能= 存狀態、及線圈彈菩ς如笛^ 勢_狀二 釋放彈性勢能之彈性 勢此釋放狀L之間切換。在此拉入機構中,於彈 ::態下,線圈彈簧S透過臂3之滑動而將彈性勢二 到最大。臂3係將軸部31b卡土卡 ,θ _ , 下卞止孔15b。阻尼器34 =絲從缸體35大幅拉出。然後,從此彈性勢妒 儲存狀態,若轴部31 b從+ μ a 1 b ❹ 平孔㈣,則卡止而退㈣ s之彈性勢能-㈣!! 滑件2即利用線圈彈簧 卡止料#刺* /σ#水平孔15a*滑動。如後所述此 銷者捕捉件組裝想b(之捕捉件5)對於卡入 持卡入銷33與捕:件公:卡止’則捕捉件組裝體B會保 換言之,-面以上、Λ卡合狀態而與臂3連動地滑動, 在此拉入機構中=阻尼器34、37制動-面自動拉入。 過臂3之典動而雄 勢能釋放狀態下,線圈彈簧S透 # ^月動而釋玫彈性勢能或使彈性勢能為最小臂3 320878 14 200936865 係將軸部31b配置在水平孔15a之適當位置:阻尼器⑷系 形成使活塞桿36最沒入於缸體35之狀態。 ^ (2)第7圖係顯示在捕捉件組裝體B卡合於組裝體a之 ❹ 别階袄,藉由引導手段7矯正彼此位置關係之變化吸收動 作。以上述第6圖之使用例來說,此動作係例如,由於拉 出體8之承載量及收納荷重之變化,使捕捉件組裝體β之 捕捉件5與卡人銷組裝體Α之卡人銷33之相對位置變化, 使捕捉件5與卡入鎖33無法正常卡合之問題,藉由引導 段7來解決者。亦即,如第7圖⑻所示,此引導手段 ^捕=組裝體B接近卡人銷城心時,則會因為'' 由於捕捉件側之突起53對盒體1之引導溝16喪合之狀離 w w獅45)與二 二 起53而一面對準寬度較窄之溝部八 16b中心一面移動,故即使捕捉件 刀 咖之溝寬度方向之位置= :構移動達預定尺寸之方式對於保持二Τι 調整為最佳位;許位,對於卡入鎖33 (3)第8圖係顯示捕捉件組裝 合而藉由彈性勢能拉入時之拉 〃入"組裝體Α卡 亦即,在此拉人機構中,若 可動體之拉入動作。 捕捉件組裝體B如第8圖(a) 320878 15 200936865 所丁地接近卡入銷組裝體A,則首先捕捉 Π:之片部46之彈性勢能而朝上移二 斜上方向33因下卡合部52(之斜錐形狀)而朝上或 卡止。藉2以致從卡止孔脱退避至水平孔15a而解除 所示地保持括除此卡止’捕捉件組裝體B即如第8圖⑻ 33之卡1捉件5(下卡合部52與爪構件45)與卡入鎖 而典動°曰:使臂3及滑件2藉由線圈彈簧S之彈性勢能 /月且與該滑動動作連動而拉入可動體。此係為了防 〇 由第6圖之使用例中,從麗入拉出體8之途中,藉 =予在面線圈彈t s之彈性勢能自動地拉入至最終之壓入 ^ 藉㈣動手段6㈣),藉此防止拉出體8被強 ^入時之回彈,並防止發生拉出體8之不完全之壓入狀 〇 之拉^第狀顯示上述拉出體8等可動體從第8圖⑹ t再度朝拉出方向移動而解除前述卡合時之動 2即,在此拉人機構巾,係在捕捉件㈣體B再度如 =)所錢_開卡人雜裝體A之方向移動之過程 ⑹卡人之^入銷33與捕捉件5(下卡合部52與爪構件 上則若來到較水平孔❿更低之卡止孔15b 、】在爪構件45被推壓而進入卡止孔取而卡止,之後, 第9圖⑸所示物除她件5(下卡 1 45)與卡入銷33之卡合,且單獨朝操作 件&(下+人,在此拉出機構中’係在卡入銷33與捕捉 %下卡“P 52與爪構件45)卡合之狀態下,若捕捉件組 320878 16 200936865 裝體JB藉由拉出體8等之拉出操作而 n 、 „ 向攸第8圖(b)移動到第 9圖(a)之位置,則卡入銷33,亦即臀q ” j丨’ 3及滑件2亦連動而 朝同方向㈣’因此在線圈彈簧Sf轉彈性勢能。此彈性 直到裝體B之捕捉件5與卡入銷抑解 除卡合為止。 , (變形例)第H)圖係顯示上述拉入機構之變形例。此變 形例係作成卡人鎖33以可經由盒體i相對於收納本體9等 ❹固定體移動預定尺寸之方式安裝之構成。在此說明中,係 對於與上述實施形態侧構件及作用上相同部位赋予相同 符號,且儘力省卻重複之記載。此拉出機構係相對於上述 實施形態將構成卡入銷組裝體A之盒體丨之安裝部加以變 更者。此安裝部190係設於盒體1之複數個位置,且該等 位置係形成為將供插入螺絲等固定具M之孔19〇3作成上下 尺寸較寬度大之長孔。再者,在此拉出機構中,係將固定 /、Μ插入於上下較長之孔i9〇a而使卡入銷址裝體a對收納 本體9之内侧面女裝,藉此卡入銷33即可經由盒體1而移 動與孔190a之長度成比例之尺寸。藉此,以上述之引導手 奴7而言,縱使將捕捉件組裝體B之捕捉件5加以簡化而 體形成於保持構件4,卡入銷33亦可經由盒體1而在前 述谷許之移動範圍内變更位置,而町相對於捕捉件5調整 至最佳位置。 另外,本發明之拉入機構只要實質上具備申請專利範 圍第1項所特別界定之構成即可,細部係可視需要而作 種變更或展開。 320878 17 200936865 【圖式簡單說明】 第1圖係為顯示構成本發明實施形態之拉入機構之卡 入銷組裝體與捕捉件組裝體之關係之概略斜視圖。 八紐ί 2圖係為顯示上述卡人銷組裝體之構成元件之概略 分解圖。 第囷係以彈性勢能儲存狀態顯示上述卡入銷組裝 體’(a)係俯視圖’⑸係正視圖,(e)係後視圖。 © 體,(a)4俜在彈性勢能釋放狀態顯示上述卡入銷組裝 體(a)係俯視圖,⑻係正視圖,(c)係後視圖。 係正視圖=捕捉件組裝體,⑷係俯視圖,⑻ 第6圖你齡圖’⑷係右側面圖,(e)係左側面圖。 例,⑷餘上㈣體與捕捉件組諸之配置 示意圖。 、τ圖,係從側面觀察(a)狀態之 ❹ 捕捉件組】入機構之巧導動作’⑻係為顯示 示料手段之動體之關係之示意圖,⑹係為顯 户不忍圖〇 第8圖係顯示上述構 時之狀態之示意圖,(b)係為入’⑷料顯示卡合 第9圖係為顯示上逑拉人:人時之狀態之示意圖。 係為顯示彈性勢能 冑之彈性勢能儲存,⑷ 不卡合解除後之狀態之示专J之狀態之示意圖’(b)係為顯 構之圖(a)及(b)係為與第6圖對m 霉之變形例之圖。 岡對應而顯不上述拉入機 320878 200936865 第11圖(a)及(b)係為用以說明專利文獻1之拉入機構 之參考圖。 【主要元件符號說明】 ❹Optional ^ catch member and Kawasaki body) As shown in FIG.1 and FIG. 5, the two group of formula B shock body support member 4, and is movable to a predetermined vertical dimension ... " 'ten billions member 4 of 5 wherein the capture member, The holding member 4 has a rectangular recessed portion 4 较长 which is provided on the back surface side and has a rectangular shape which is formed on the back side and has a rectangular opening which penetrates the front and back sides except the upper and lower portions, and the concave side portion H is led from the recessed portion 4G to the outside. The returning ❹°"2' and the mounting hole 43 in which the fork is placed at a plurality of positions. The catching member 5 has a plate portion 50 corresponding to the recessed portion 40; and protrudes from the surface side of the m〇 from the opening 41 The protruding portion 51 is disposed on the front side upper surface 51 and the lower engaging portion 52; and is mounted on the upper holding portion P 51 claw member 45. The plate portion 5Q is formed on the upper side of the side surface, and the above guiding is performed. When the projections 53 of the groove 16 are disengaged and are disposed in the recessed portion 40 so as to be movable in the downward direction, the projections 53 are also moved up and down in a state in which the projections 53 protrude outward from the retracting portion 42. The upper holding #51 and the lower engaging portion are moved up and down. The 52 series is protruded from the opening σ 41 so as to be able to move up and down toward the front side of the plate portion 50. The claws 5 5 on the outer side of the 51 are prevented from falling off. The lower engaging portion 52 is formed as a slope which is lower as it goes downward, and is caught by the catching member when colliding with the latching lock 33 in the above-described locked state. B moves forward, and the snap pin 33 is retracted from the locking hole 15b by the inclined surface 15b to the horizontal hole 15a. On the other hand, the upper holding portion 51 forms a cavity in which the lower end portion and the end portion 54 are opened at the protruding front end side. Further, in the hollow portion, guide ribs 56 for guiding the claw members 45 are provided facing the inner sides. That is, as shown in Fig. 5 (b), (d), the claw members are provided. The front end of the 45-series is formed as an inclined surface, and has a longitudinal groove 45a provided on both sides and an elastic piece portion 46 protruding from the upper side. Further, the claw member 45 embeds each of the longitudinal grooves 45a and the corresponding guide rib 56. Further, the sheet portion 46 is disposed in a state of abutting against the inner surface of the hollow portion, whereby the sheet portion 46 is normally pushed into the protruding state of the sheet by the sheet portion 46. When subjected to the upward stress, the sheet portion is resisted. After the elastic force of 46 and temporarily retreating in the direction of immersion, the stress disappears and becomes prominent again. 〇 (Usage Example) Fig. 6 (and the portion shown in the upper right in Fig. 1) is an example in which the above pull-in mechanism is applied to the pull-in body 8. In this configuration, the snap-in pin assembly The body A is attached to the inner side surface of the storage body 9, and the catcher assembly B is attached to the rear end surface 8b of the pull-out body 8. At this time, the snap-in pin assembly A uses the above-described case-side mounting portion 19, screws, and the like. The catch assembly B is fixed by using the above-described mounting hole 43, screw or the like, but in this case, the projection 53 corresponds to the guide groove 16 of the snap pin assembly A, and the pull-out body 8 is used. The side 8a is positioned to protrude. Further, in another arrangement, the snap-in assembly A is attached to the side of the pull-out body 8, 13 320878 200936865, and the catch assembly B may be attached to the storage body 9 side. Further, the card-in-pin assembly A and the catcher assembly B may be pulled by using two sets of movable bodies. However, in this case, as long as the pull-out body 8 is used, the other one is about the above-described embodiment. Symmetrical shape. (Operation)--Refer to Figures 3 and 4, and Figures 7 to 9 - detail the action of the above-mentioned pull mechanism in the first? In the figures to the middle, it is assumed that the main actor is displayed in the use example of Fig. 6, but the simplification or patterning is made in order to clarify the relationship between the components. 〇⑴ First, (iv) that the cards in the storage group ㈣A m Kawasaki coil spring S as shown in FIG. 3, the elasticity of the elastic potential energy = potential energy storage state, and a coil, such as playing the flute ς Pu ^ _ like two potential elastic energy of the released elastic potential This release is switched between L. In this pull-in mechanism, the coil spring S is slid by the arm 3 to maximize the elastic potential in the state of the bomb:. The arm 3 is configured such that the shaft portion 31b is stuck, θ _ , and the lower end hole 15b. Damper 34 = The wire is pulled out from the cylinder 35. Then, from this elastic potential storage state, if the shaft portion 31 b is from + μ a 1 b ❹ flat hole (4), then the elastic potential energy of the (4) s is locked and retracted - (4)!! The slider 2 is the coil spring stopper # The thorn * / σ # horizontal hole 15a* slides. As will be described later, the pin-receiving member assembly b (the catching member 5) is for the card-in holding pin 33 and the catching member: the card is locked, then the catching member assembly B is guaranteed, in other words, In the engaged state, it slides in conjunction with the arm 3, and in this pull-in mechanism, the brake-surface is automatically pulled in by the dampers 34 and 37. When the arm 3 is in the state of being able to release, the coil spring S transmits the elastic potential energy or makes the elastic potential energy the minimum arm 3 320878 14 200936865. The shaft portion 31b is disposed at the appropriate position of the horizontal hole 15a. The damper (4) is formed in a state in which the piston rod 36 is most immersed in the cylinder 35. (2) Fig. 7 shows a change absorption operation in which the positional relationship of the catching member assembly B is engaged with the assembly body a by the guiding means 7. According to the use example of the above-mentioned Fig. 6, the operation is, for example, the catching member 5 of the catching member assembly β and the card holder of the card-pin assembly due to the change in the load amount and the storage load of the pull-out body 8. The problem that the relative position of the pin 33 changes so that the catching member 5 and the snap-in lock 33 cannot be normally engaged is solved by the guiding section 7. That is, as shown in Fig. 7 (8), the guiding means ^ catching = assembly B is close to the card pin, but because of the ''the projection 53 on the catch side, the guide groove 16 of the case 1 is lost. The shape moves away from the ww lion 45) and the second and the second 53 and the side is aligned with the width of the narrow groove 8b center, so even if the position of the width direction of the catching knife and the groove is = the configuration moves to the predetermined size. Keep the two-inch adjustment to the best position; the position, for the snap-in lock 33 (3) Figure 8 shows the capture assembly and the pull-in when the elastic potential is pulled in. In this pull mechanism, if the movable body pulls in. As shown in Fig. 8 (a) 320878 15 200936865, the catch assembly B first captures the elastic potential energy of the piece 46 and moves upwards in the upward direction 33 because of the lower card. The hinge portion 52 (the tapered shape) faces upward or is locked. 2, so as to retreat from the locking hole to the horizontal hole 15a, and to release the card holder, the capture member assembly B is as shown in Fig. 8 (8) 33 (the lower engagement portion 52 and The claw member 45) is engaged with the locking lock. The arm 3 and the slider 2 are pulled into the movable body by the elastic potential energy/month of the coil spring S in conjunction with the sliding operation. In order to prevent smashing, in the use example of Fig. 6, in the middle of pulling out the body 8 from the lining, the elastic potential energy of the surface coil ts is automatically pulled to the final press-in (four) moving means 6 (four) Therefore, the rebound of the pull-out body 8 is prevented, and the indentation of the pull-out body 8 is prevented from being pulled, and the movable body such as the pull-out body 8 is displayed from the eighth Figure (6) t moves again in the pull-out direction to release the movement 2 when the above-mentioned engagement is released, that is, the pull-in mechanism towel is in the direction of the capture member (four) body B again as = _ cardholder miscellaneous body A The process of moving (6) the pin 33 and the catching member 5 (the lower engaging portion 52 and the locking member 15b on the claw member that is lower than the horizontal hole) are pushed by the claw member 45. After entering the locking hole, the card is locked. After that, the object shown in Fig. 9 (5) is engaged with the engaging pin 33 except for the piece 5 (the lower card 1 45), and is separately directed to the operating member & (lower + person, in In the pull-out mechanism, in the state in which the snap-in pin 33 and the capture-% lower card "P 52 and the claw member 45" are engaged, if the catch member group 320878 16 200936865, the body JB is pulled by the pull-out body 8 or the like. Out of operation and n, „ Move to figure 8 (b) to position 9 (a), then snap into pin 33, ie hip q ” j丨′ 3 and slide 2 are also linked in the same direction (four) 'so in the coil The spring Sf is rotated to the elastic potential energy. This elasticity is until the catching member 5 of the package B is released from the engagement pin. (Modification) Figure H) shows a modification of the above-described pull-in mechanism. The card lock 33 is attached so as to be movable by a predetermined size with respect to the housing body 9 such as the housing body 9. In this description, the same components as those of the above-described embodiment are given the same reference numerals. Further, the above-described embodiment is modified to change the mounting portion of the cartridge body that is engaged with the pin assembly A. The mounting portion 190 is attached to a plurality of positions of the casing 1 with respect to the above-described embodiment. And the positions are formed such that the hole 19〇3 for inserting the fixing tool M such as a screw is formed into a long hole having a larger vertical width and a larger width. Further, in the pulling mechanism, the fixing/and the cymbal are inserted into the upper and lower sides. The longer hole i9〇a makes the card into the pin assembly a to the storage book The inner side of the woman 9 can thereby move the pin 33 to move through the casing 1 in proportion to the length of the hole 190a. Thus, in the case of guiding the slave 7 described above, even the catching assembly is used. The catching member 5 of B is simplified and formed in the holding member 4, and the engaging pin 33 can also be changed in position within the movement range of the above-mentioned valley via the casing 1, and the town can be adjusted to the optimum position with respect to the catching member 5. Further, the drawing mechanism of the present invention may be configured to have a structure specifically defined in the first item of the patent application scope, and the details may be changed or expanded as needed. 320878 17 200936865 [Simplified illustration] Fig. 1 The schematic perspective view showing the relationship between the snap-in pin assembly and the catcher assembly constituting the pull-in mechanism according to the embodiment of the present invention. The eight-button ί 2 diagram is a schematic exploded view showing the constituent elements of the above-described card-pin assembly. The third crucible displays the above-mentioned snap-in pin assembly '(a) in plan view' (5) in a front view, and (e) is a rear view. © Body, (a) 4俜 The above-mentioned snap-in pin assembly (a) is a top view in the elastic potential release state, (8) is a front view, and (c) is a rear view. Front view = catch assembly, (4) top view, (8) Figure 6 your age chart '(4) is the right side view, (e) is the left side view. For example, (4) Schematic diagram of the configuration of the remaining (four) body and the capture member group. , τ map, from the side view (a) state 捕捉 capture member group] into the mechanism of the clever action ' (8) is a schematic diagram showing the relationship between the moving means of the display means, (6) is the display of the household can not bear the picture 8 The figure shows a schematic diagram of the state of the above-mentioned structure, and (b) is a schematic diagram showing the state of the display of the (4) material display. It is a schematic diagram showing the elastic potential energy storage of the elastic potential energy, (4) a schematic diagram showing the state of the state after the release of the card is not shown in the figure (b) is a diagram of the display (a) and (b) is the same as the figure 6 A diagram of a variant of m mold. The above-mentioned pull-in machine is shown in the corresponding section. 320878 200936865 Fig. 11 (a) and (b) are reference drawings for explaining the pull-in mechanism of Patent Document 1. [Main component symbol description] ❹
1 拿體 2 滑件 3 臂 4 保持構件_. 5 捕捉件 6 制動手段 7 引導手段 8 拉出體(可動體) 8a 侧面 8b 後端面 9 收納本體(固定體) 10 正面 10a 支持溝 10b 引導孔 10c 阻尼器用安裝孔 11 背面 12 上面 13 下面 15 引導孔 15a 水平孔 15b 卡止孔 16 引導溝 16a 溝出入口部 16b 其他溝部分 17a 縱壁 17b 橫壁 17c 立壁 19 盒體侧安裝部 20 侧面 21 上面 22 下面 23 端面 24 凸部 30 一端部 31a 連結軸 31b 軸部 32 另一端部 33 卡入銷 34 阻尼器 35 叙體 36 活塞桿 36a 固定具 320878 19 200936865 37 阻尼器 38 盒體 39 齒輪 40 凹部 41 開口 45 爪構件 50 板部 51 上保持部 52 下保持部 53 突起 60 活塞式阻尼器 65 旋轉式阻尼器 A 卡入銷組裝體 Β 捕捉件組裝體 Μ 固定具 線圈彈簧(彈性勢能賦予手段) 〇 20 3208781 Holder 2 Slider 3 Arm 4 Holder _. 5 Snapper 6 Brake means 7 Guide means 8 Pull-out body (movable body) 8a Side 8b Rear end face 9 Storage body (fixed body) 10 Front side 10a Support groove 10b Guide hole 10c Damper mounting hole 11 Back surface 12 Upper surface 13 Lower surface 15 Guide hole 15a Horizontal hole 15b Locking hole 16 Guide groove 16a Groove entrance portion 16b Other groove portion 17a Vertical wall 17b Cross wall 17c Vertical wall 19 Box side mounting portion 20 Side 21 Top 22 23 End face 24 convex portion 30 One end portion 31a Connecting shaft 31b Shaft portion 32 Other end portion 33 Engagement pin 34 Damper 35 Revolving body 36 Piston rod 36a Fixing device 320878 19 200936865 37 Damper 38 Case 39 Gear 40 Recess 41 Opening 45 Claw member 50 Plate portion 51 Upper holding portion 52 Lower holding portion 53 Projection 60 Piston damper 65 Rotary damper A Snap-in pin assembly 捕捉 Capture member assembly 固定 Fixture coil spring (elastic potential energy imparting means) 〇 20 320878