1253326 狄、發明說明: 【發明所屬之技術領域】 本發明是有關於一種茶葉萎凋設備,特別是指一種可 5 10 15 20 以穩固承載升降台產生升降的茶葉萎凋機之升降滑座。 【先前技術】 為了解決公告編號第262638號「半自動茶葉萎凋架」 新型專利案存在有整體構成複雜、傳動穩固性差、承載茶 葉靜置盤的置放台升降平衡度不易控制等缺失,所以申請 人乃創作申請並已核准有公告編號第435〇86號「茶葉萎 «升降構造」新型專利案’如圖工所示’ 一茶葉萎调機 10具有定架u、—位於㈣定架η旁側並置放有數 茶葉靜置盤12的靜置架13、一裝設在該固定架η上並且 有雙向傳動功能的馬it…受該馬達14傳動的數轴们5 與數縱向鏈條16’及一固結於該等縱向鏈條“並可承載 其中一茶葉靜置盤12產生升降的升降台17。 當啟動該馬達Η,就可使該等縱向鏈條16轉動,並 帶動該升降台π載運該茶葉靜置盤12產升升降以達可方 =置放於該茶葉靜置盤12的茶葉(圖未示)進行翻攪作 業的使用功效,但申請人進一步發現,該升降台17在受 =等縱向鏈條16帶動產生升降時,仍具有易生摇晃導致 有組件較易磨損、使用壽命較短及該茶葉萎〉周機1〇較易 產生故障的待改良處。 【發明内容】 因此,本發明之目的是在提供一種升降台在升降過程 4 1253326 中不搖晃,可以有效提高升降台的升降穩固性、減少組件 磨損以增長組件使用壽命,及可降低故障率的茶葉萎〉周機 之升降滑座。 於是,本發明之升降滑座是安裝在一茶葉萎凋機 5 上,該茶葉萎凋機具有由數縱向立柱所組成的一固定架、 一裝設在該固定架上並可傳動數傳動件的馬達,及一受該 等傳動件帶動並可載運一茶葉靜置盤產生升降的升降 口,母一^向立柱具有沿其縱向成型的至少一導塊;該升 降⑺座包含有相互組結並配合形成一容納該縱向立柱之 〇 容室的一第一連結塊、二承塊、一第二連結塊,及裝設在 該二承塊之間並位於該容室内且可貼靠該導塊升降的導 輪組合體。 該第一連結塊具有呈反向設置之固結該升降台的一 第一側面,及一第二側面。 5 該二承塊是相互間隔固結於該第二側面。 忒第一連結塊是固結於該二承塊並與該第一連結塊 間隔且彼此配合界定出容納該縱向立柱的該容室。 忒導輪組合體是裝設在該二承塊之間並位於該容室 〇 内且具有相對應該導塊數量的至少一導輪。 猎由上述組成,當該升降滑座受該等傳動件帶動而 ^亥縱向立柱升降時,藉由該導輪可貼靠該導塊移動,將 具,可使該升降滑座、該升降台在升降過程中不搖晃,相 對可以有效提高升降穩固性、可減少組件磨損,及可降低 故障率的使用特性。 5 1253326 【實施方式】 本發明茶葉萎關之升降滑座前述以及其他技術内 容、特點與功效,在以下配合參考圖式之六較佳實施例 的詳細說明中,將可清楚的明白。 要庄思的疋,在整篇說明書中所使用的相對位置用 如丁頁、纟”是以使用者的使用方位而使用,且類似 的元件是以相同的標號說明。 如圖2、3、4、5所示,本發明升降滑座之一第 -較佳實施例是安裝於-茶葉萎_ 2G,該茶葉萎_ 20具有由數相互間隔平行的縱向立柱μ及一連結在該等 縱向立柱22頂端的數固定桿23所組成的一固定架21, 固置於其中一固定桿23並具有雙向傳動功能的馬達 24,受該馬達24傳動的數轉動桿25,受其中二轉動桿 25傳動並鄰近每一縱向立柱22的數傳動件%,及一位 於該固定架21内並受該等傳動件26帶動且可載運一茶 葉靜置盤29產生升降的升降台27。 母縱向立柱22具有沿其縱向成型的至少一導塊, 在該第一較佳實施例中,該縱向立柱22是舉I形鋼樑為 例進行說明,所以具有二平行翼板221及一連結該二翼 板221的腹板222,進一步地,該二翼板221在該第一較 佳貫施例中自然形成了以該腹板2 2 2為界的四導塊2 2 3。 值得說明的是,該縱向立柱22亦可呈自該腹板222 直接成型出數導塊的造形,例如「丽」形、「亞^」形...· 等等。 6 1253326 該傳動件26在該較佳實施例中是舉縱向鏈條為例進 行說明,但是並不侷限本發明範疇,舉凡可以帶動該升 降台27產生升降者皆應屬於該傳動件26之等效物。 該升降台27在該較佳實施例中是由二角形載座271 5 所組成。 在該第一較佳實施例中,該升降滑座301包含有相 互組結並配合形成一容納該縱向立柱22之容室35的一 第一連結塊31、二承塊32、33、一第二連結塊34,及裝 設在該二承塊32、33之間並位於該容室35内且可貼觸 〇 該導塊223升降的四導輪組合體36。 該第一連結塊31具有呈反向設置之一第一侧面311 與一第二側面312,連結該二側面311、312並相互平行 間隔的一頂側面313肖一底側面314,一自該第一侧面 3U^向該第二側面312設置供容置該載座271的橫向凹 槽3丨5,一自该第二側面312朝向該第一側面311設置供 容置該二承塊32、33的二縱向凹槽316,一自該頂側面 313朝向該底側面314設置供容置該傳動件%的容置槽 317及一自该第一側面311朝向該第二側面312設置並 連通該容置槽317的二定位槽318。 «亥載座271是藉由數鎖件4〇將其鎖固定位在該横向 凹槽315内,並進而與該第一連結塊31組結。 該傳動件26在置入該容置槽317内之後,再將一定 位=41穿過該傳動件26 ’然後再將該定位柱41置入該 二定位槽318内’就可以使該傳動件%與該第—連結塊 7 1253326 31組結;較佳地,為避免該定位柱41自該二定位槽3i8 脫落,可將一蓋板(圖未示)鎖設於該第一側面311並封蓋 該定位柱41。 5 該二承塊32、33各具有呈反向設置之—可置入該縱 向凹槽316的第一端部321、331與一第二端部322、332, 及四橫向穿孔323、333。 是使用數鎖件42鎖在該第一連結塊31與該二第一 端部321、331之間,以使該二承塊32、33與該第一連 10 結塊31組結並分別位於該縱向立柱22的二翼塊221外 側。 該第二連結塊34具有呈反向設置之一第一側面341 與一第二侧面342,及自該第二側面342朝向該第一侧面 341設置供容置該二承塊32、33之第二端部322、332的 —縱向凹槽343。 15 是使用數鎖件43鎖在該第二連結塊34與該二第二 端部322、332之間,以使該二承塊32、33與該第二連 結塊34組結。 20 當該第一連結塊31與該二承塊32、33及該第二連 結塊34組結完成之後,該四者就可配合界定出該容室35。 每一導輪組合體36具有一管狀本體361,成型於該 本體361的二反向端部並各形成有一環形導槽363的二 導輪362,及一沿該本體361的軸向穿設的穿孔364。 是將該等導輪組合體36置放在該二承塊32、33之 間並位於該容室35内且使該等導塊223進入該等導槽 8 1253326 内再將四軸扣37穿過該承塊32、該等穿孔364與 該承塊33,末將二定位件38分別夾固於每—軸桿37的 二反向端部’就可使該等導輪組合體36定位在該容室35 5 二…導輪組合想36的二導輪軸觸該二導塊 10 藉由上述組成’當該馬達24傳動該等轉動抽^轉 動,續帶動該等傳動件26產生轉動並帶動該升降台27 產生升降時,藉由該等導輪組合體36的數導輪362貼靠 該等導塊223轉動,將使該升降滑座3Q1在升降過程中 無可偏移空間,相對不會產生搖晃,進而可有效提高該 升降台27之升降穩固性。 15 20 如圖6所示,本發明一第二較佳實施例與該第一較 佳實施例之差異處,在於該第二較佳實_之升降滑座 302删減了該升降滑座3〇1之第一連結塊31鱼該第二連 結塊34,並該二間隔承塊32、33是直接鎖結該升降台 27的載座271’及該傳動件26亦是直接組結該載座27ι· 藉此,當該傳動件26帶動該升降台27的載座271產生 升降時,也可藉由該升降_繼在升降過程中無可偏 移空間,相對不會產生搖晃,進而具有可有效提高該升 降台2 7之升降穩固性的使用效果。 如圖7所示,本發明-第三較佳實施例與該第一較 佳實施例之差異處,在於該第三較佳實施例之升降滑座 303的導輪組合體39具有固結於該第—連結塊31與該第 二連結塊34並平行於該二翼板221的數輪轴391,及X套 9 1253326 設於每-輪軸391並貼觸該等導塊223的内側面224的 數滾輪392;藉此,當該傳動件26帶動該升降台27的载 座271產生升降時’也可藉由料降滑座_在升降過 程中可偏移空間極小幾乎不會產生搖晃,進而具有可有 效提高該升降台27之升降穩固性的使用效果。 —如圖8所示’本發明一第四較佳實施例與該第三較 t貝施例之差異冑’在於該第四較佳實施例之升降滑座 304的二間隔承塊32、33距離較長,並與該二翼板221 之間配合界定出二第二容室35(),且增設了數導輪組合體 39,使數滾輪392可分別貼觸該等導塊223的内側面 224、外側面225與該二承塊32、33 ;藉此,也具有可有 效提面該升降台27之升降穩固性的使用效果。 如圖9所示,本發明一第五較佳實施例與該第三較 佳貫鉍例之差異處,在於該第五較佳實施例之升降滑座 305刪減了該第一連結塊31與該第二連結塊34,該二承 塊32、33皆呈角形塊體設計並分別藉由一鎖塊犯4、334 直接鎖結於該升降台27的載座271,及該傳動件26亦是 直接組結該載座271,至於該導輪組合體39具有固結於 二鎖塊324、334並平行於該二翼板221的數輪軸391, 及套e又於母一輪軸391並貼觸該等導塊223的内側面224 的數滾輪392,及組設於該二承塊32、33並各具有滾輪 392貼觸該縱向立柱22之腹板222的二導輪組合體39 ; 藉此’當該傳動件26帶動該升降台27的載座271產生 升降時’也可藉由該升降滑座305在升降過程中可偏移 10 1253326 空間極小幾乎Μ產生搖晃,進而具有可有效提高該升 降台27之升降穩固性的使用效果。 如圖1 0、1 1所示,本發明升降滑座之一第六較 佳實施例也是安裝於一茶葉萎凋機2〇(配合參閱圖2), 該茶葉萎誠20#該第-較佳實施例之不同處在^該固 定架21是由數縱向立管28與連結該等縱向立管28的連 結桿22所組成;每一縱向立管28具有相互連結平行的 二第一侧塊281與二第二側塊282。 、 在該第六較佳實施例中,該升降滑座5〇包含有相互 間隔的二承架51,組結於該二承架51的二定位塊2, 組設於該二承架51並分別貼觸該縱向立管28之二第一 侧塊281的二導輪組合體53,及組結該二承架η的二連 結組合體54。 每一承架51各具有呈一體之鄰近該第一侧塊281的 一承塊511及一自該承塊511彎設的鎖塊512,該承塊 511具有呈反向設置之一第一側面513與一鄰近該第—側 塊281的第二側面514,及自該第一側面513貫穿該第二 侧面514的二穿孔515。 每一定位塊52是藉由二鎖件56鎖固定位於該二承 塊511的第一側面513並位於該二穿孔515之間。 每一導輪組合體53具有一穿設該定位塊^的框桿 531,及套設於該樞桿531並分別位於該二穿孔us内且 凸出於該第二側面514從而貼觸該第一侧塊281的二主 導輪532’及分㈣設於該樞桿531的二反向端部以防止 11 1253326 該二主導輪532脫落的二定位件533。 5 每一連結組合體54具有一穿設在該二承塊511之間 的樞桿54卜一套設於該樞桿541的套管542,及組設於 該樞桿541並分別位於該二承塊511的第二側面514外 的二定位件543。 較佳地,該第六較佳實施例更包含套設於該樞桿541 並位於該套管542的二反向端面旁側且貼觸該縱向立管 28之二第二側塊282的數副導輪55,及套設於該樞桿 10 並位於該副導輪55與該第二側Φ 514之間的二定位管 56° 15 當該升降滑座5G已組裝完成,再將該升降台27的載 座271藉由鎖件60鎖結於該二鎖塊512,該升降台π就 可與4升降滑座5G組結並可受該升降滑座5()帶動產生升 降’且在升降過財,藉由該等主導輪⑽、副導輪心分 別貼靠於該縱向立管28的二第一側塊28卜二第二側塊 282,將使該升降滑座50在升降過程中無可偏移㈣,相 對不會產生搖晃,進而可有效提高該升降台27之升降穩 固性。 ^ 20 歸納上述,本發明茶葉萎賴之升降滑座具有如下所 述之使用功效及優點,故確能達成本發明目的: -、因為本發明該升降滑座3〇卜3〇2是裝設在該固定 架21的縱向立柱22外,且具有數導輪362貼靠於該縱向 立柱22的數導塊223,使得該升降滑座烟、搬在 動產生升降過程中並無可偏移㈣,相對不會產生搖晃, 12 !253326 進而具有可有效提高該升降台27之升降穩固性,可減少 、、且件磨彳貝、可延長纟且件使用壽命及可降低故障率的功效及 優點。 一、因為本發明該升降滑座303、304、305具有數滾 輪392貼罪於該縱向立柱22的數導塊223、該承塊Μ、]]、 該腹板222,使得該升降滑座303、304、305在受帶動產 生升降過程中可偏移空間極小幾乎不會產生搖晃,進而具 有可有效提高該升降台27之升降穩固性,可減少組件磨 扣、可延長組件使用壽命及可降低故障率的功效及優點。 1〇 三、因為本發明該升降滑座50是裝設在該固定架21 的:向立管28外,且具有數主導輪532、副導輪55分別 貼罪於該縱向立管28的二第一側塊281、二第二側塊 282,使得該升降滑座5〇在升降過程中無可偏移空間,相 對不έ產生搖晃,進而具有可有效提高該升降台a?之升 15 #%固性’可減少組件磨損、可延長組件使用壽命及可降 低故障率的功效及優點。 惟以上所述者,僅為本發明之六較佳實施例而已,當 不能以此限定本發明實施之範圍,即大凡依本發明申請: 利靶圍及發明說明書内容所作之簡單的等效變化與修 20 飾,皆應仍屬本發明專利涵蓋之範圍内。 【囷式簡單說明】 圖1是公告編號第435086號「茶葉萎凋架升降構造 新型專利案的立體圖; 」 圖2是一立體圖,說明本發明升降滑座的一第一較佳 13 1253326 實施例安裝在一茶葉萎凋機上的狀態; 圖3是本發明該第一較佳實施例的一組合立體圖; 圖4疋本發明該第一較佳實施例的一分解立體圖; 5 圖5是該第一較佳實施例的一俯視剖視圖,說 輪與一縱向立柱的配合狀態; 圖6是一類似於圖5的視圖,說明本發 眚始也丨· 示―季父佳 10 ^圖7疋一俯視剖視圖,說明本發明升降滑座的一第一 佳只施例與一縱向立柱的配合狀態; 實二8是一類似於圖7的視圖’說明本發明-第四較佳 圖9是一類似於圖7的視圖,說明本發 實施例; 弟五較佳 15 體 圖1 0是本發明一第六較佳實施例的一局部分 圖;及 f 、曾圖1 1是該第六較佳實施例的一俯視剖視圖,說明數 ^輪與數副導輪及一縱向立管的配合狀態。 14 1253326 【圖式之主要元件代表符號說明】 20茶葉萎凋機 22縱向立柱 222腹板 224内側面 23固定桿 25轉動桿 27升降台 28縱向立管 282第二側塊 301升降滑座 303升降滑座 305升降滑座 3 1第一連結塊 3 11第一側面 313頂側面 315橫向凹槽 317容置槽 32承塊 322第二端部 33承塊 332第二端部 341第一側面 343縱向凹槽 21固定架 221翼板 223導塊 225外側面 24馬達 26傳動件 271載座 281第一側塊 29茶葉靜置盤 302升降滑座 304升降滑座 312第二側面 314底側面 3 16縱向凹槽 318定位槽 321第一端部 323穿孔 331第一端部 34第二連結塊 342第二側面 35容室 15 1253326 350第二容室 36導輪組合體 3 61本體 362導輪 363導槽 364穿孔 37軸桿 3 8定位件 39導輪組合體 391輪軸 392滾輪 40鎖件 41定位柱 42鎖件 43鎖件 50升降滑座 51承架 511承塊 512鎖塊 5 13第一側面 514第二側面 5 15穿孔 52定位塊 53導輪組合體 531樞桿 532主導輪 533定位件 54連結組合體 541樞桿 542套管 543定位件 55副導輪 5 6定位管 60鎖件 161253326 Di, invention description: [Technical field to which the invention pertains] The present invention relates to a tea withering device, and more particularly to a lifting and sliding seat for a tea withering machine capable of stably lifting and carrying a lifting platform. [Prior Art] In order to solve the problem that the new patent case No. 262638 "Semi-automatic tea wilting frame" has a complicated overall structure, poor transmission stability, and difficulty in controlling the balance of the lifting platform for carrying the tea stationary plate, the applicant is therefore missing. It is an application for creation and has approved the new patent case No. 435〇86, “tea stalk «lifting structure” as shown in the figure. A tea slashing machine 10 has a fixed frame u, which is located at the side of the (four) fixed frame η A stationary rack 13 with a plurality of tea stationary plates 12, a horse mounted on the fixed frame η and having a bidirectional transmission function, a number 5 driven by the motor 14, and a plurality of longitudinal chains 16' and a Consolidating in the longitudinal chain "can carry one of the tea leaves rest trays 12 to generate the lifting platform 17. When the motor is activated, the longitudinal chain 16 can be rotated, and the lifting platform π carries the tea leaves. The stationary tray 12 is raised and lowered to achieve the effect of the tea leaves (not shown) placed on the tea stationary tray 12 for the tumbling operation, but the applicant further finds that the lifting platform 17 is under the acceptance of Vertical chain When the 16 is driven to rise and fall, there is still a situation in which the component is easy to wear, the service life is short, and the tea is wilted and the machine is prone to failure. [Invention] Therefore, the object of the present invention It is to provide a lifting platform that does not shake during the lifting process 4 1253326, can effectively improve the lifting stability of the lifting platform, reduce the wear of the components to increase the service life of the components, and reduce the failure rate of the tea lifting and the lifting machine. Thus, the lifting carriage of the present invention is mounted on a tea withering machine 5 having a fixing frame composed of a plurality of longitudinal columns, a motor mounted on the fixing frame and capable of transmitting the number of transmission members And a lifting port driven by the transmission member and capable of carrying a tea tray to raise and lower, the mother column has at least one guiding block formed along a longitudinal direction thereof; the lifting (7) seat comprises a combination of each other and cooperates Forming a first connecting block, two supporting blocks, and a second connecting block for accommodating the chamber of the longitudinal column, and installing between the two blocks and located in the chamber and attachable a guide wheel assembly for lifting and lowering the guide block. The first connecting block has a first side surface and a second side surface fixed to the lifting platform in a reverse direction. 5 The two bearing blocks are fixed to each other at intervals a second side. The first connecting block is fixed to the two blocks and spaced apart from the first connecting block and cooperates with each other to define the chamber for accommodating the longitudinal column. The 忒 guide wheel assembly is mounted on the second Between the blocks and located in the chamber 且 and having at least one guide wheel corresponding to the number of guide blocks. The hunting is composed of the above, when the lifting carriage is driven by the transmission members and the vertical column is raised and lowered by The guide wheel can be moved against the guide block, so that the lifting slide and the lifting platform can not be shaken during the lifting process, and the lifting stability can be effectively improved, the component wear can be reduced, and the failure rate can be reduced. 5 1253326 [Embodiment] The foregoing and other technical contents, features and effects of the lifting and sliding seat of the tea leaf of the present invention will be clearly understood in the following detailed description of the preferred embodiment of the sixth embodiment with reference to the drawings. . For the enthusiasm of Zhuangsi, the relative position used in the entire specification is used as the page, 纟" is used by the user's orientation, and similar components are denoted by the same reference numerals. As shown in Figs. 4 and 5, a first preferred embodiment of the lifting carriage of the present invention is mounted on - tea wilt _ 2G having a longitudinal column μ parallel to each other and a joint in the longitudinal direction. A fixing frame 21 composed of a plurality of fixing rods 23 at the top of the column 22, a motor 24 fixed to one of the fixing rods 23 and having a bidirectional transmission function, and a plurality of rotating rods 25 driven by the motor 24 are subjected to two of the rotating rods 25 The transmission unit is adjacent to each of the plurality of longitudinal members 22, and a lifting platform 27 is disposed in the holder 21 and is carried by the transmission member 26 and can carry a tea leaf rest tray 29 to elevate and descend. The female longitudinal column 22 Having at least one guide block formed along a longitudinal direction thereof, in the first preferred embodiment, the longitudinal upright 22 is exemplified by an I-shaped steel beam, so that there are two parallel wings 221 and a joint of the two wings a web 222 of 221, further, the two wings 221 In the first preferred embodiment, the four guide blocks 2 2 3 bounded by the web 2 2 2 are naturally formed. It is worth noting that the longitudinal column 22 can also be directly formed from the web 222. The shape of the guide block, such as "Li" shape, "Asia^" shape... and so on. 6 1253326 The transmission member 26 is illustrated by taking a longitudinal chain as an example in the preferred embodiment, but is not limited to the scope of the present invention, and the equivalent of the transmission member 26 should be driven by the lifting platform 27. Things. The lifting platform 27 is in the preferred embodiment comprised of a quadrangular carrier 2715. In the first preferred embodiment, the lifting carriage 301 includes a first connecting block 31, two receiving blocks 32, 33, and a first assembly block 31 which are combined with each other to form a receiving chamber 35 for receiving the longitudinal column 22. The two connecting blocks 34 and the four-wheel assembly 36 disposed between the two blocks 32, 33 and located in the chamber 35 and attachable to the lifting and lowering of the guiding block 223. The first connecting block 31 has a first side surface 311 and a second side surface 312 disposed in opposite directions, and a top side surface 313 which is connected to the two side surfaces 311 and 312 and is parallel to each other, and a bottom side surface 314. A lateral groove 3 丨 5 for accommodating the carrier 271 is disposed on the second side 312. The second side 312 is disposed from the second side 312 toward the first side 311 for receiving the two blocks 32 and 33. Two longitudinal grooves 316, a receiving groove 317 for receiving the transmission member from the top side 313 toward the bottom side 314, and a receiving and connecting the first side 311 from the first side 311 toward the second side 312 Two positioning slots 318 of the slot 317 are disposed. The "hai carrier 271" is fixed in the lateral groove 315 by a plurality of lock members 4, and is further assembled with the first joint block 31. After the transmission member 26 is placed in the accommodating groove 317, a positioning member 41 is passed through the transmission member 26' and then the positioning post 41 is placed in the two positioning grooves 318. % is coupled to the first connecting block 7 1253326 31; preferably, in order to prevent the positioning post 41 from falling off the two positioning slots 3i8, a cover (not shown) can be locked to the first side 311 and The positioning post 41 is closed. The two retaining blocks 32, 33 each have a first end portion 321, 331 and a second end portion 322, 332 which are disposed in the opposite direction, and four transverse perforations 323, 333. The first locking block 31 is locked between the first connecting block 31 and the two first end portions 321 and 331 so that the two receiving blocks 32 and 33 are combined with the first connecting member 10 and are respectively located. The longitudinal column 22 is outside the two wing blocks 221 . The second connecting block 34 has a first side 341 and a second side 342 disposed in a reverse direction, and a second side 342 is disposed from the second side 342 toward the first side 341 for receiving the two blocks 32, 33. The longitudinal ends 343 of the two ends 322, 332. 15 is locked between the second connecting block 34 and the second end portions 322, 332 by the number lock member 43 to assemble the two retaining blocks 32, 33 with the second connecting block 34. After the first connecting block 31 is assembled with the two supporting blocks 32, 33 and the second connecting block 34, the four can cooperate to define the chamber 35. Each of the guide wheel assemblies 36 has a tubular body 361 formed at two opposite ends of the body 361 and each formed with a second guide wheel 362 having an annular guide groove 363 and a longitudinal direction of the body 361. Perforation 364. The guide wheel assembly 36 is placed between the two blocks 32, 33 and located in the chamber 35, and the guide blocks 223 are inserted into the guide grooves 8 1253326 and then the four-axle buckle 37 is worn. Through the bearing block 32, the through holes 364 and the bearing block 33, respectively, the two positioning members 38 are respectively clamped to the two opposite ends of each of the shafts 37 to position the guide wheel assembly 36. The two chambers of the guide wheel assembly 35 5 and the two guide wheels of the guide wheel combination 36 are driven by the above-mentioned composition. When the motor 24 drives the rotation of the rotation, the transmission member 26 is driven to rotate and drive. When the lifting table 27 is raised and lowered, the number of the guide wheels 362 of the wheel combination assembly 36 is rotated against the guiding blocks 223, so that the lifting carriage 3Q1 has no space to be displaced during the lifting process, and relatively no Shaking can occur, which can effectively improve the lifting stability of the lifting platform 27. 15 20 shows a difference between the second preferred embodiment of the present invention and the first preferred embodiment in that the second preferred embodiment of the lifting carriage 302 reduces the lifting carriage 3 The first connecting block 31 of the crucible 1 fishes the second connecting block 34, and the two spacer blocks 32, 33 are the carrier 271' that directly locks the lifting platform 27, and the transmission member 26 also directly assembles the carrier In this case, when the transmission member 26 drives the carrier 271 of the lifting platform 27 to rise and lower, the lifting and lowering of the lifting platform 27 can also be performed without any shifting space during the lifting process, and relatively no shaking occurs. The effect of the lifting and lowering stability of the lifting platform 27 can be effectively improved. As shown in FIG. 7, the difference between the third preferred embodiment of the present invention and the first preferred embodiment is that the guide wheel assembly 39 of the lifting carriage 303 of the third preferred embodiment has a The first connecting block 31 and the second connecting block 34 are parallel to the number of axles 391 of the two wing plates 221, and the X sleeves 9 1253326 are disposed on each of the axles 391 and are in contact with the inner side surface 224 of the guiding blocks 223. The number of rollers 392; thereby, when the transmission member 26 drives the carrier 271 of the lifting platform 27 to rise and fall, it can also be caused by the material drop slider _ during the lifting process, the offset space is extremely small and there is almost no shaking. Further, it has an effect of effectively improving the lifting stability of the lifting platform 27. - As shown in Fig. 8, the difference between the fourth preferred embodiment of the present invention and the third comparative embodiment is the two spacers 32, 33 of the lifting carriage 304 of the fourth preferred embodiment. The distance between the two wings 221 defines a second second chamber 35(), and a plurality of guide wheel assemblies 39 are added, so that the plurality of rollers 392 can respectively touch the inside of the guide blocks 223. The side surface 224, the outer side surface 225, and the two sockets 32, 33; thereby, the utility model can also effectively improve the lifting stability of the lifting platform 27. As shown in FIG. 9, the difference between the fifth preferred embodiment of the present invention and the third preferred embodiment is that the lifting slider 305 of the fifth preferred embodiment deletes the first connecting block 31. And the second connecting block 34, the two retaining blocks 32, 33 are both in the shape of an angular block and are directly locked to the carrier 271 of the lifting platform 27 by a locking block 4, 334, respectively, and the transmission member 26 The carrier 271 is also directly assembled. The guide wheel assembly 39 has a plurality of axles 391 that are fixed to the two lock blocks 324, 334 and parallel to the two wings 221, and the sleeve e is again on the mother axle 391. a plurality of rollers 392 that are attached to the inner side surface 224 of the guide block 223, and a two-wheel assembly 39 that is disposed on the two sockets 32, 33 and each has a roller 392 that contacts the web 222 of the longitudinal column 22; Therefore, when the transmission member 26 drives the carrier 271 of the lifting platform 27 to rise and lower, the lifting slider 305 can be offset by 10 1253326 during the lifting process, and the space is extremely small and almost shakes, thereby being effective. The use effect of the lifting and lowering stability of the lifting platform 27 is improved. As shown in FIGS. 10 and 11 , a sixth preferred embodiment of the lifting carriage of the present invention is also installed in a tea wiping machine 2 (refer to FIG. 2 ), the tea leaf is 20# the first-best The difference between the embodiments is that the holder 21 is composed of a plurality of longitudinal risers 28 and a connecting rod 22 connecting the longitudinal risers 28; each of the longitudinal risers 28 has two first side blocks 281 which are connected in parallel with each other. And two second side blocks 282. In the sixth preferred embodiment, the lifting carriage 5A includes two brackets 51 spaced apart from each other, and two positioning blocks 2 assembled to the two brackets 51 are disposed on the two brackets 51. The two guide wheel assemblies 53 of the first side block 281 of the longitudinal riser 28 are respectively attached, and the two joint assemblies 54 of the two frames η are assembled. Each of the brackets 51 has a block 511 adjacent to the first side block 281 and a lock block 512 bent from the block 511. The block 511 has a first side disposed in a reverse direction. 513 and a second side 514 adjacent to the first side block 281 and a second through hole 515 extending through the second side 514 from the first side 513. Each of the positioning blocks 52 is fixed to the first side 513 of the two blocks 511 by two locking members 56 and located between the two through holes 515. Each of the guide wheel assemblies 53 has a frame rod 531 that is disposed through the positioning block, and is disposed on the pivot rod 531 and is respectively located in the two through holes us and protrudes from the second side surface 514 to contact the first portion 514. The two main wheels 532' and the sub-fourth portions of the one side block 281 are disposed at the two opposite ends of the pivot rod 531 to prevent the two positioning members 533 of the 11 1253326 from disengaging the two main wheel 532. Each of the joint assemblies 54 has a sleeve 54 disposed between the two blocks 511 and a sleeve 542 disposed on the pivot rod 541, and is disposed on the pivot rod 541 and located at the two Two positioning members 543 outside the second side 514 of the block 511. Preferably, the sixth preferred embodiment further includes a number of second side blocks 282 that are sleeved on the pivot rod 541 and are located on opposite sides of the opposite end faces of the sleeve 542 and are in contact with the longitudinal riser 28 a sub-guide wheel 55, and two positioning tubes 56° disposed between the sub-guide wheel 55 and the second side Φ 514. When the lifting carriage 5G has been assembled, the lifting and lowering is performed. The carrier 271 of the table 27 is locked to the two locking blocks 512 by the locking member 60, and the lifting platform π can be combined with the lifting platform 5G and can be lifted and lowered by the lifting slider 5 (). When the main wheel (10) and the sub-guide wheel center respectively abut the two first side blocks 28 of the longitudinal riser 28 and the second side block 282, the lifting slide 50 is lifted and lowered. There is no offset (4), and there is relatively no shaking, which can effectively improve the lifting stability of the lifting platform 27. ^ 20 In summary, the lifting slide of the tea leaf of the present invention has the following functions and advantages, so that the object of the present invention can be achieved: - Because the lifting slide 3 〇 3 〇 2 is installed in the present invention Outside the longitudinal column 22 of the fixing frame 21, and having a plurality of guide wheels 362 abutting against the plurality of guiding blocks 223 of the longitudinal column 22, the lifting slider smoke and the moving movement are not offset during the lifting process (4) Relatively no wobble, 12!253326 further has the effect and advantage of effectively improving the lifting stability of the lifting platform 27, reducing, and grinding the mussels, extending the life of the piece and reducing the failure rate. . 1. Because the lifting slides 303, 304, 305 of the present invention have a plurality of rollers 392 affixed to the number of guide blocks 223 of the longitudinal uprights 22, the retaining blocks, the web 222, such that the lifting slides 303 304, 305 can be tilted in the process of being lifted and raised, and there is almost no shaking, which can effectively improve the lifting stability of the lifting platform 27, reduce component grinding, extend component life and reduce The efficacy and advantages of the failure rate. Because the lifting carriage 50 of the present invention is disposed outside the riser 28 of the fixing frame 21, and has a plurality of leading wheels 532 and a secondary guiding wheel 55 respectively affixed to the longitudinal riser 28 The first side block 281 and the second side block 282 enable the lifting slide 5 to have no offset space during the lifting process, and the swinging of the lifting platform 5 is relatively strong, thereby further improving the lifting of the lifting platform a? %solid' reduces the wear and tear of components, extends component life and reduces the failure rate. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention cannot be limited thereto, that is, the application according to the present invention: the simple equivalent change of the target range and the contents of the description of the invention And repair 20 ornaments, should still fall within the scope of the invention patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a new patent application of the tea leaf withering structure according to the publication No. 435086; FIG. 2 is a perspective view showing the installation of a first preferred 13 1253326 embodiment of the lifting carriage of the present invention. 3 is a combined perspective view of the first preferred embodiment of the present invention; FIG. 4 is an exploded perspective view of the first preferred embodiment of the present invention; FIG. 5 is the first A top cross-sectional view of the preferred embodiment, showing the state of engagement of the wheel with a longitudinal column; FIG. 6 is a view similar to FIG. 5, illustrating a start-up view of the present invention. 1 is a cross-sectional view showing a first preferred embodiment of the lifting carriage of the present invention in cooperation with a longitudinal column; the second embodiment 8 is a view similar to that of FIG. 7 illustrating the present invention - the fourth preferred FIG. 9 is similar to Figure 7 is a view showing an embodiment of the present invention; a fifth embodiment of the present invention is a partial view of a sixth preferred embodiment of the present invention; and f, and Figure 11 is the sixth preferred embodiment. A top cross-sectional view of an example, illustrating a number of wheels and a number of sub-guide wheels and a The mating state of the vertical riser. 14 1253326 [The main components of the diagram represent the symbol description] 20 tea withering machine 22 longitudinal column 222 web 224 inner side 23 fixed rod 25 rotating rod 27 lifting platform 28 vertical riser 282 second side block 301 lifting slide 303 lifting slip Seat 305 lifting slide 3 1 first connecting block 3 11 first side 313 top side 315 lateral groove 317 receiving groove 32 bearing block 322 second end 33 bearing block 332 second end portion 341 first side 343 longitudinal concave Slot 21 Fixture 221 Wing 223 Guide Block 225 Outer Side 24 Motor 26 Transmission 271 Carrier 281 First Side Block 29 Tea Resting Plate 302 Lifting Slider 304 Lifting Sliding 312 Second Side 314 Bottom Side 3 16 Vertical Concave Slot 318 positioning groove 321 first end portion 323 perforation 331 first end portion 34 second joint block 342 second side surface 35 chamber 15 1253326 350 second chamber 36 guide wheel assembly 3 61 body 362 guide wheel 363 guide groove 364 Perforation 37 shaft 3 8 positioning member 39 guide wheel assembly 391 wheel shaft 392 roller 40 lock member 41 positioning column 42 lock member 43 lock member 50 lifting slide 51 bracket 511 bearing block 512 lock block 5 13 first side 514 second Side 5 15 perforation 52 positioning block 53 guide wheel assembly 531 pivot 532 main wheel 533 positioning piece 54 joint assembly 541 pivot 542 sleeve 543 positioning piece 55 sub guide wheel 5 6 positioning tube 60 lock 16