M352346 八、新型說明: 【新型所屬之技術領域】 本創作為一種脫水結構,特別是指無需電力的脫水結構,利用 脫水元件轉動產生的離心力使含水物體脫除水份。 【先前技術】 水是自然界最好的清潔劑、溶劑,人們利用水沾黏灰塵、雜M352346 VIII. New description: [New technical field] This creation is a dehydration structure, especially a dehydration structure that does not require electricity. The centrifugal force generated by the rotation of the dehydration element removes water from the water-containing object. [Prior Art] Water is the best cleaning agent and solvent in nature. People use water to stick dust and impurities.
物、並溶解污物達到清潔生活環境、器物的目的。除了怕潮濕的 器物是使用乾的布料直接清除,通常都是利用吸收適當水分的濕 布料來清潔。 夂 擦拭地板是人們日常生活中的例行事務,一般說來是利用 含水的單片布料來擦地板,最常見的則是以各式拖把來清潔地 板。不管是單片布料或是拖把’都需要重復用水清洗沾黏於布料 的灰塵'雜物及污物’且需將單片布料及拖把中的水分去除到適 當,濕度。單>1布料可以直接彻脫水機、或直接用手扭轉擠出, 但是,拖把布料通常結合於拖把桿體,因而不能或不便於置放脫 水機中脫水’若时直接扭轉將水擠出,則有施力不易、耗費體 力的問題。另者,用手直接扭轉單片布料或拖把布料,所含的灰 塵、雜物、污物可能傷及使用者手部、傷害皮膚或造成皮膚粗链, 對於現代都會的女性來說,更視為畏途。以上都是清潔工作使用 單片布料或拖把在重復清洗、使用上的缺點。 改良的習用拖把中,有在拖把桿體結合—組爽持滾輪,可利 =輪來將清洗後的拖把布料的水分㈣,㈣者可免於手部接 的問題·’但’其缺點為:爽持滾輪固定於拖把桿體上 加^把的體積、重量·,該失持滾輪僅提供單—拖把的脫水,無法 M352346 使用於其他拖把或單>;布料的脫水;增加製造的成本,及提高拖 -把的售價。 現行已有一種習用的壓乾筒,用於多種拖把布料的脫水用 途’該壓乾筒利用-滾㈣擠拖把的布料端,將水分擠出而達到 拖把布料脫水的目的;然而,市面習用的盤式拖把或轉盤式拖把, 由於其布料結合分布於盤體或轉盤體的下方’且其布料較短而無 ,法湘前述的習賴乾㈣滾筒來_此種盤式拖把或轉盤式拖 把的布料或達到脫水的目的。 • 中華民國專利公告新型M338634號的脫水裝置,參考第一、 -圖’主要目的就在解決前述的習用轉盤式拖把的脫水問題,立 設置有-殼體⑽、-轉動單元細、—傳動單元雇及—推桿單 疋_,將轉盤式拖把500的布料5〇1置於轉動元件2〇〇的承置元 件201内,藉由推桿單元4〇〇驅動傳動單元3〇〇、轉動單元加〇, 使承置凡件201中的轉盤式拖把5〇〇的布料5〇1脫水。該中華民 國新型Μ遍34號雖然可以達到使轉盤式拖把5〇〇的布料5〇ι脫 水的目的、然而在具體實施上’其結構仍存在缺點如下: _ (Α)推桿單元彻施力時,結構體位移、跳動,穩定性不足。該 推桿單元400的推桿4()1上端極接於—軸桿⑻,推桿顿 並以軸桿1G1為中心向左旋動來推動傳動單元·。該推桿 向左方她力,整體會被推動向左方,返復施力時,其整 體結構將呈現間歇性、向左的跳動位移,不能固定於原位, 造成推桿單元彻的推桿彻不能穩线操作或返復施 問題。 (Β)傳動不順,加速不易,離心脫水力不足。轉盤式拖把_的 布料501脫水,主要就在於轉動單元2〇〇旋轉的離心力作用, 邊轉動早兀200的承置元件2〇1的必須要到達一定的轉速才 6 M352346 月有足夠的離心力使布料5〇1脫水;由於推桿單元4〇〇的推 桿401不能穩定地返復操作、施力,難以順暢地推動齒排301 水平帶動同軸齒輪302、單向齒輪3〇3轉動,造成傳動單元 300驅動轉動單元2〇〇的轉速難以提高。 (C) 由於整體結構間歇性、向左跳動位移,使轉盤式拖把500的 布料501無法定位於轉動單元2〇〇的承置元件2〇1中心,使 承置元件201產生晃動,阻礙轉速。 (D) 殼體1〇〇下方設置滾輪1〇2,雖然方便移動,然而,由於推 • 柃單兀400的推桿401返復向左施力的結果,滾輪102反而 使結構體更不穩定,施力更加困難。 由岫述中華民國新型M338634號的缺點,明白可知,利用旋 轉離心力原理來脫水,一定要使結構體穩固定位、傳動順暢、以 及穩定加速到一定的轉速,才能達到脫水的目的功效。 【新型内容】 φ所欲解決之技術問題: - 本_提出-種脫水結構,無需使用電力,可適用於單片布料或 各式拖把布料的脫水,並可解決水裝置在反復施力時,整體結 構不能穩固定位’結構體跳動、位移,傳動單元傳動不順,轉速不足 及結構翻倒的問題。 解決問題的技術手段: —脫水元件、及一作動裝置; ,該脫水元件為一空心且可滲 一種脫水結構,包含一容裝座體、 s亥谷裝座體包令—容裝槽、一組裝空間 7 M352346 透液體的盛物槽體,脫水元件置設於前述容裝槽内;作動裝置,包含 一作動件、一座體、一傳動部,作動件設一齒條並嵌組一彈性件,彈 性件負予作動件一向上的彈性力,作動件活動組合於座體並使作動件 上、下滑動位移,該傳動部包含一齒輪組與一傳動桿,齒輪組包含至 少一同軸齒輪盤與一不可逆齒輪盤,且該同轴齒輪盤與該不可逆齒輪 盤垂直嚅合,同軸齒輪盤與作動件的齒條嚅合,傳動轴與不可逆齒輪 盤組合且傳動軸上端穿過容裝槽底面並組合脫水元件。 新型之技術手段功效: 本創作提供一種脫水結構,其主要目的功效在於,使用者僅需反 復施力、放開一作動裝置的作動件,藉由作動件的齒條來帶動齒輪組、 不可逆轉的傳動軸,使脫水元件持續旋轉或加速旋轉,達到置放於脫 水元件中的含水物體離心脫水。 本創作提供一種脫水結構,其另一目的功效在於,該作動裝置的 施力與地面垂直或近於垂直,無施力矩問題,整體結構穩固定位於原 地,反復施力時,不會跳動或產生位移,也無結構翻倒的問題。 本創作提供一種脫水結構,其再一目的功效在於,脫水元件的旋 轉無需電力,成本低,合於節能及環保的訴求。 【實施方式】 對本創作做一詳細說明如后: 為能詳細揭露本創作之目的、特徵及功效,茲藉由下述較佳 之具體實施例,配合所附之圖式, 8 M352346 如第三、四、五、六圖所示,係本創作實施例的立體組合示意圖、 立體大部分解示意圖、作動裝置的細部分解示意圖、及組合剖視示意 圖。本創作一種脫水結構,包含一容裝座體10、一脫水元件20、及一 作動裝置30 ;其中: 該容裝座體10,概為近似橢圓空心柱狀,其包含一容裝槽11、一 組裝空間12;該容裝槽11與組裝空間12之間以水密性材料分隔成二 個獨立空間。該容裝槽11用以容納液體,一般來說,容納的液體為水 φ或水溶液;該組裝空間12位於容裝槽11下方。 該脫水元件20,概為一空心且可滲透液體的盛物槽體,脫水元件 20置設於前述容裝槽11内。脫水元件20的下底面重心處設一組合孔 21,參第六圖。 該作動裝置30,包含一作動件31、一座體32、一傳動部33 ;其 中: 該作動件31概為一 L形板體,L形板體的垂直板内部設一結合孔 修311,外側結合一齒條312,二側形成厚度較小的翼部313,於該結合 孔311嵌組一彈性件314,該彈性件314負予作動件31 —向上的彈性 力。在本實施例中,該該彈性件314為螺旋彈簧。 該座體32結合設置至少二結合架321,該二結合架321分別設長 形的滑槽3211,該滑槽3211中容置前述作動件31的翼部313,於結 合架321上端以螺栓穿過並固定結合一固定架322,該固定架322防 止作動件31脫離結合架321,該翼部313得以在滑槽3211中滑動、 位移,使作動件31上、下滑動位移。座體32結合設置至少一支架323, 9 M352346 該支架323設一轴孔3231。另,座體32底面設一支柱324、一軸孔柱 325,該支柱324用以對應套組前述作動件31的彈性件314,該支柱 324使彈性件314保持軸向的壓縮、伸展。 該傳動部33,包含一齒輪組與一傳動桿333 ;該齒輪組包含至少 一同軸齒輪盤331與一不可逆齒輪盤332,該同轴齒輪盤331柩接於 前述座體32支架323的轴孔3231,同軸齒輪盤331的小齒輪3311與 作動部31的齒條312嚅合,同轴齒輪盤331的齒盤與該不可逆齒輪盤 φ 332嚆合,在本實施例中,同轴齒輪盤331與不可逆齒輪盤332垂直 的嚅合。該傳動轴333與不可逆齒輪盤332組合,傳動轴333的下端 活動嵌入於座體32底面的轴孔柱325,傳動轴333上端穿過容裝槽11 底面並組合於前述脫水元件20下底面的組合孔21。 參考第六圖係本創作實施例在未施力前的一般狀態,第七圖為施 力的作動狀態圖、第八圖為移除施力後的持續作動狀態示意。未施力 前的一般狀態,作動件31被彈性件314推頂而位於高位處,如第六圖; 當使用者向下施力F於作動件31,使作動件31向下位移至低位處, —作動過程中,該作動件31的齒條312向下帶動同轴齒輪盤331的小齒 輪3311(參第四、五圖)及同轴齒輪盤331同步以逆時針方向旋轉,該 同軸齒輪盤331帶動不可逆齒輪盤332、傳動轴333與脫水元件20順 時針方向旋轉,如第七圖所示,此時,該彈性件314受到作動件31 向下位移壓縮而蓄積向上反彈的彈性回復力;當移除對作動件31的施 力F時,彈性件314以彈性回復力將作動件31向上推頂至高位處,如 10 M352346 第八圖,作動件31向上位移過程,齒條312則向上位移帶動同軸齒輪 盤331的小齒輪3311及同轴齒輪盤331同步以順時針方向旋轉,同 時,該同軸齒輪盤331也帶動不可逆齒輪盤332以逆時針方向旋轉, 由於該不可逆齒輪盤332僅能以單向(順時針)帶動傳動軸333旋轉, 故傳動轴333與脫水元件20仍以本身的慣性,繼續向順時針方向旋轉。 本創作利用反復施力F、移除施力F(放開作動件31),得利用作動 裝置30的齒條312,傳動於同軸齒輪盤331、不可逆齒輪盤332、傳 φ動軸333,而帶動脫水元件20順時針方向持續旋轉或加速旋轉。 具體實施上,可於該脫水元件20内置放一含水物體(未圖示),經 由前述作動方式使脫水元件20旋轉,利用脫水元件20旋轉產生的離 心力,可將該含水物體内的水份或水溶液經由脫水元件20向離心力方 向拋離,進而達到含水物體脫水的目的,且可以完全不需要電力帶動。 藉由以上較佳具體實施例,將本新型作一詳細說明,惟以上所 述者,僅為本創作之較佳實施例而已,當不能限定本創作實施之範 ®圍。即凡依本創作申請範圍所作之均等變化與修飾等,皆應仍屬本 _創作專利涵蓋範圍内。 M352346 【圖式簡單說明】 第一圖係前案中華民國新型M338634號的部份分解圖。 第二圖係前案中華民國新型M338634號的剖视示意圖。 第二圖係本創作實施例的立體組合示意圖。 第四圖係本創作實施例的立體大部分解示意圖。 ^五圖係本創作實施例的作動裝置3〇的細部分解示意圖 第六圖係本創作實施例的組合剖視示意圖。The object and the dissolved dirt reach the purpose of cleaning the living environment and utensils. In addition to the fact that the wetted utensils are removed directly with dry cloth, they are usually cleaned with a damp cloth that absorbs the proper moisture.擦拭 Wiping the floor is a routine practice in people's daily lives. It is generally done by using a single piece of cloth that contains water to clean the floor. The most common is to use a variety of mops to clean the floor. Whether it is a single piece of fabric or a mop, it is necessary to repeatedly remove the dust and debris that adheres to the fabric and remove the moisture from the single piece of fabric and the mop to the proper humidity. Single >1 fabric can be directly passed through the dehydrator or directly twisted by hand. However, the mop cloth is usually combined with the mop rod body, so it is not convenient or convenient to place the dehydrator in the dehydration. , there are problems of hard work and labor. In addition, directly twisting a single piece of cloth or mop cloth by hand, the dust, debris, dirt may damage the user's hand, damage the skin or cause a thick chain of skin. For modern women, look more For fear of the way. All of the above are the disadvantages of using a single piece of cloth or a mop for repeated cleaning and use. In the improved conventional mop, there is a combination of the mop body - the group of holding the roller, the profit = the wheel to clean the moisture of the mop cloth (4), (4) can be free from the problem of hand connection · 'but' its shortcoming is : The holding roller is fixed on the mop body and the volume and weight of the handle are added. The lost roller only provides the dehydration of the single-tap, and the M352346 cannot be used for other mops or singles; the dehydration of the fabric; And increase the price of the trailer. There is a conventional press-drying cylinder for the dewatering use of a variety of mop fabrics. The press-drying cylinder uses the -rolling (four) to squeeze the cloth end of the mop to squeeze out the moisture to achieve the purpose of dehydrating the mop cloth; however, the market is used. Disc mop or carousel mop, because its fabric is combined with the disc body or the bottom of the carousel body and its fabric is short and there is no such thing as the above-mentioned Xi Laiqian (four) roller _ such disc mop or carousel mop The fabric or the purpose of dehydration. • The dehydration device of the Republic of China Patent Announcement No. M338634, with reference to the first, - Fig. 'main purpose is to solve the problem of dehydration of the aforementioned conventional rotary mop, which is provided with a housing (10), a rotating unit, and a transmission unit. Employing and pushing the single 疋 _, placing the fabric 5〇1 of the rotary mop 500 in the receiving member 201 of the rotating member 2〇〇, driving the transmission unit 3〇〇, the rotating unit by the push rod unit 4〇〇 The twisting is performed to dehydrate the fabric 5〇1 of the turntable mop in the case 201. Although the new model of the Republic of China on the 34th can achieve the purpose of dewatering the fabric of the turntable mop 5 〇 5 〇 ι, however, in the specific implementation, its structure still has the following disadvantages: _ (Α) putter unit When the structure is displaced, it is not stable. The upper end of the push rod 4 () 1 of the pusher unit 400 is connected to the shaft (8), and the push rod is swung leftward around the shaft 1G1 to push the transmission unit. The push rod is biased to the left, and the whole will be pushed to the left. When the force is applied back, the overall structure will exhibit intermittent and leftward beating displacement, which cannot be fixed in the original position, causing the pusher unit to be pushed all the way. The rod can not be operated smoothly or returned to the problem. (Β) The transmission is not smooth, the acceleration is not easy, and the centrifugal dehydration force is insufficient. The dewatering of the cloth 501 of the rotary mop_ is mainly due to the centrifugal force of the rotation of the rotating unit 2, and the rotation of the bearing element 2〇1 of the early 兀200 must reach a certain rotational speed before the 6 M352346 has sufficient centrifugal force. The fabric 5〇1 is dehydrated; since the push rod 401 of the pusher unit 4〇〇 cannot be stably returned and applied, it is difficult to smoothly push the tooth row 301 to horizontally drive the coaxial gear 302 and the one-way gear 3〇3 to rotate, thereby causing the transmission. It is difficult for the unit 300 to drive the rotational speed of the rotating unit 2〇〇. (C) The cloth 501 of the rotary mop 500 cannot be positioned at the center of the mounting member 2〇1 of the rotary unit 2〇〇 due to the intermittent intermittent movement of the entire structure, and the mounting member 201 is shaken to hinder the rotation speed. (D) The roller 1〇2 is disposed under the casing 1〇〇. Although it is convenient to move, the roller 102 is more unstable due to the return of the push rod 401 of the push-pull unit 400 to the left. It is more difficult to apply force. By clarifying the shortcomings of the new M338634 of the Republic of China, it is clear that the principle of rotating centrifugal force is used for dehydration. It is necessary to make the structure stable and fixed, the transmission is smooth, and the acceleration is accelerated to a certain speed to achieve the purpose of dehydration. [New content] Technical problems to be solved by φ: - This _ proposed-dehydration structure, which does not require the use of electric power, can be applied to the dewatering of single-piece fabrics or various mop fabrics, and can solve the repeated application of water devices by water devices. The overall structure can not be fixed in the fixed position 'structure jump, displacement, transmission unit transmission is not smooth, the speed is insufficient and the structure is overturned. Technical means for solving the problem: - a dewatering element, and an actuating device; the dewatering element is a hollow and can be infiltrated into a dehydration structure, and comprises a container body, a shack package body package - a receiving slot, a Assembly space 7 M352346 liquid-permeable container body, the dewatering element is disposed in the above-mentioned receiving groove; the actuating device comprises an actuating member, a body, a transmission portion, the actuating member is provided with a rack and an elastic member is embedded The elastic member is negatively biased to the actuator, and the actuating member is combined with the movable body to slide the upper and lower parts of the movable member. The transmission portion includes a gear set and a transmission rod, and the gear set includes at least one coaxial gear plate. And an irreversible gear disc, and the coaxial gear disc is vertically coupled with the irreversible gear disc, the coaxial gear disc is coupled with the rack of the actuating member, the transmission shaft is combined with the irreversible gear disc, and the upper end of the transmission shaft passes through the bottom surface of the receiving slot And combined dehydration components. The new technical means: This creation provides a dehydration structure, the main purpose of which is that the user only needs to repeatedly apply force and release the actuating device of an actuating device, and the gear set is driven by the rack of the actuating member, irreversible The drive shaft allows the dewatering element to continue to rotate or accelerate to achieve centrifugal dewatering of the aqueous object placed in the dewatering element. The present invention provides a dehydration structure, and another purpose of the object is that the force applied by the actuating device is perpendicular or nearly perpendicular to the ground, and there is no problem of applying a moment, and the overall structure is stably located in place, and does not jump when repeatedly applied. There is a displacement and there is no problem of structural overturning. The present invention provides a dehydration structure, and the other purpose of the invention is that the rotation of the dewatering element does not require electricity, and the cost is low, which is in line with the demands of energy saving and environmental protection. [Embodiment] A detailed description of the present invention is as follows: In order to disclose the purpose, features and effects of the present invention in detail, the following preferred embodiments, together with the attached drawings, 8 M352346, as in the third, 4, 5, and 6 are schematic diagrams of a three-dimensional combination of the present embodiment, a schematic diagram of a majority of the three-dimensional solution, a schematic diagram of a detailed part of the actuator, and a schematic cross-sectional view. The present invention relates to a dewatering structure comprising a container body 10, a dewatering element 20, and an actuating device 30. The container body 10 is substantially an elliptical hollow column and includes a receiving slot 11. An assembly space 12; the container groove 11 and the assembly space 12 are separated into two independent spaces by a watertight material. The receiving tank 11 is for accommodating a liquid. Generally, the liquid contained therein is water φ or an aqueous solution; the assembly space 12 is located below the receiving tank 11. The dewatering element 20 is a hollow and liquid permeable container body, and the dewatering element 20 is disposed in the receiving groove 11. A combination hole 21 is disposed at the center of gravity of the lower bottom surface of the dewatering element 20, as shown in the sixth drawing. The actuating device 30 includes an actuating member 31, a body 32, and a transmission portion 33. The actuating member 31 is an L-shaped plate body, and a vertical hole plate 311 is disposed inside the vertical plate of the L-shaped plate body. In combination with a rack 312, the two sides are formed with a wing portion 313 having a smaller thickness, and an elastic member 314 is embedded in the coupling hole 311, and the elastic member 314 is negatively biased to the actuator 31. In this embodiment, the elastic member 314 is a coil spring. The base body 32 is provided with at least two coupling brackets 321 . The two coupling brackets 321 are respectively provided with an elongated sliding slot 3211. The sliding slot 3211 accommodates the wing portion 313 of the actuating member 31 and is bolted through the upper end of the coupling frame 321 . The fixing frame 322 is prevented from being detached from the coupling frame 321 by the sliding frame 3211. The wing portion 313 is slidably displaced in the sliding groove 3211 to slide the actuator 31 up and down. The base 32 is combined with at least one bracket 323, 9 M352346. The bracket 323 is provided with a shaft hole 3231. In addition, a bottom rib 324 and a shaft hole 325 are disposed on the bottom surface of the base 32. The struts 324 are used for correspondingly arranging the elastic members 314 of the actuating member 31. The struts 324 maintain the elastic members 314 in axial compression and extension. The transmission portion 33 includes a gear set and a transmission rod 333. The gear set includes at least one coaxial gear plate 331 and a non-reciprocal gear plate 332. The coaxial gear plate 331 is coupled to the shaft hole of the bracket 32 of the base 32. 3231, the pinion gear 3311 of the coaxial gear plate 331 is coupled with the rack 312 of the actuating portion 31, and the tooth plate of the coaxial gear plate 331 is coupled with the irreversible gear plate φ 332. In the present embodiment, the coaxial gear plate 331 A twist that is perpendicular to the irreversible gear plate 332. The transmission shaft 333 is combined with the irreversible gear plate 332. The lower end of the transmission shaft 333 is movably embedded in the shaft hole post 325 of the bottom surface of the base body 32. The upper end of the transmission shaft 333 passes through the bottom surface of the receiving groove 11 and is combined with the bottom surface of the dewatering element 20. The holes 21 are combined. Referring to the sixth embodiment, the general state before the application of the present embodiment is applied, the seventh diagram is the actuation state diagram of the force application, and the eighth diagram is the state of the continuous actuation state after the force application is removed. In the general state before the force is applied, the actuating member 31 is pushed up by the elastic member 314 to be at a high position, as shown in the sixth figure; when the user applies a downward force F to the actuating member 31, the actuating member 31 is displaced downward to the lower position. During the operation, the rack 312 of the actuating member 31 drives the pinion 3311 (refer to the fourth and fifth figures) of the coaxial gear plate 331 and the coaxial gear plate 331 to rotate in a counterclockwise direction. The disc 331 drives the irreversible gear disc 332, the drive shaft 333 and the dehydrating element 20 to rotate clockwise, as shown in the seventh figure. At this time, the elastic member 314 is subjected to the downward displacement and compression of the actuating member 31 to accumulate the elastic restoring force which rebounds upward. When the biasing force F of the actuating member 31 is removed, the elastic member 314 pushes the actuating member 31 upward to the upper position with an elastic restoring force, for example, 10 M352346, the eighth figure, the actuating member 31 is displaced upward, and the rack 312 is The upward displacement causes the pinion gear 3311 of the coaxial gear plate 331 and the coaxial gear plate 331 to rotate in a clockwise direction, and at the same time, the coaxial gear plate 331 also drives the irreversible gear plate 332 to rotate in a counterclockwise direction, since the irreversible gear plate 332 is only Can The one-way (clockwise) drives the transmission shaft 333 to rotate, so that the transmission shaft 333 and the dewatering element 20 continue to rotate clockwise by their own inertia. The present invention utilizes the repeated application of force F, the removal of the biasing force F (release of the actuating member 31), the use of the rack 312 of the actuating device 30, the transmission to the coaxial gear plate 331, the irreversible gear plate 332, and the φ moving shaft 333, and The dewatering element 20 is driven to continuously rotate or accelerate in the clockwise direction. Specifically, a water-containing object (not shown) may be placed in the dewatering element 20, and the dewatering element 20 may be rotated by the above-described actuation method, and the moisture in the water-containing object may be obtained by the centrifugal force generated by the rotation of the dewatering element 20 or The aqueous solution is thrown away from the centrifugal force via the dewatering element 20, thereby achieving the purpose of dehydration of the aqueous object, and can be completely driven by electric power. The present invention will be described in detail by the preferred embodiments of the present invention, and the foregoing description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited. That is, all changes and modifications made in accordance with the scope of this creation application shall remain within the scope of this _ creation patent. M352346 [Simple description of the diagram] The first picture is a partial exploded view of the new M338634 of the Republic of China. The second picture is a schematic cross-sectional view of the new M338634 of the Republic of China. The second figure is a three-dimensional combination diagram of the present embodiment. The fourth figure is a schematic diagram of a large part of the solution of the present embodiment. The fifth figure is a schematic diagram of a detailed operation of the actuating device 3 of the present embodiment. The sixth figure is a schematic cross-sectional view of the present embodiment.
七圖 係本創作實施例的組合剖視圖 的作動狀態示意圖。 顯示作動裝置30加一施力Figure 7 is a schematic diagram showing the actuation state of the combined sectional view of the present embodiment. Display actuation device 30 plus one force
F 第八圖係在第七圖移除施力 後的持續作動狀態示意圖。 【主要元件符號說明】 10容裝座體 11容裝槽 12組裝空間 20脫水元件 21組合孔 30作動裝置 31作動件 311結合孔 312齒條 313翼部 12 M352346 314彈性件 32座體 321結合架 3211滑槽 322固定架 323支架 3231軸孔 φ 324支柱 325轴孔柱 33傳動部 331同轴齒輪盤 3311小齒輪 332不可逆齒輪盤 333傳動軸 籲F施力 .100殼體 101轴桿 102滾輪 200轉動單元 201承置元件 300傳動單元 301齒排 302同轴齒輪 13 M352346 303單向齒輪 4〇〇推桿單元 401推桿 500轉盤式拖把 501布料F The eighth figure is a schematic diagram of the continuous operation state after the force is removed in the seventh figure. [Main component symbol description] 10 accommodating body 11 accommodating groove 12 assembly space 20 dehydrating element 21 combination hole 30 actuating device 31 actuating member 311 coupling hole 312 rack 313 wing portion 12 M352346 314 elastic member 32 seat body 321 combination frame 3211 chute 322 fixing frame 323 bracket 3231 shaft hole φ 324 strut 325 shaft hole column 33 transmission portion 331 coaxial gear plate 3311 pinion 332 irreversible gear plate 333 transmission shaft F force. 100 housing 101 shaft 102 roller 200 Rotating unit 201 bearing element 300 transmission unit 301 tooth row 302 coaxial gear 13 M352346 303 one-way gear 4 〇〇 push rod unit 401 push rod 500 rotary mop 501 cloth