201134448 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種旋轉式拖把之設計,特別是關於 一種具有下壓旋轉機構之拖把旋轉裝置。 【先前技術】 為了環境清潔’ 一般常使用拖把作為地板之清潔用 具’其中拖把是一種幾乎家家必備之清潔地板工具,傳 統拖把必須不斷地清洗拖把布條並擰乾才能清理大面BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the design of a rotary mop, and more particularly to a mop rotating device having a pressing mechanism for pressing down. [Prior Art] For environmental cleaning, the mop is often used as a cleaning tool for the floor. The mop is a must-have cleaning floor tool for almost every family. The conventional mop must constantly clean the mop cloth and wring it to clean the large surface.
積之地板,使用起來十分不方便,而且每次清理拖把布 條時使用者必須遷就水桶彎腰,使得清潔工作變成相當 累人之苦差事。因此,便有業者將拖把管採旋轉式設計 再利用離心力將拖把頭上之水分甩乾,堪稱是一結構新 穎且貼心之設計。然而,目前許多市售具旋轉拖把管之 拖把設計並不非常完善,仍存在有許多結構上之缺失有 待改進。 “參閱第1圖所示,其係顯示習知旋轉式拖把之局部 :面圖。处轉式拖把100包括有一握持㊣、一旋轉 :11、螺旋形桿件12、一單向轴承13及一圓柱狀導 ”中使用者可藉由下壓握持管使螺旋形桿件 下而下推該圓柱狀導向件14而與該單向軸承13相 =此而使單向軸承13在無法旋轉的受力下, 進::動旋轉管U轉動’而使旋轉管n之底端連接的 :拖把頭(圖未示之)湘離心力將拖 201134448 虽使用者上拉该握持管10時,螺旋形桿件12帶動 圓柱狀導向件14上拉而使圓柱狀導向件14與單向軸承 13產生間隙,但並無互相分離,藉此單向軸承〗3順著 螺旋形桿件12之施力而在可為旋轉的單向旋轉方向下 文力而轉動,因此不會帶動旋轉管Μ之轉動而使旋轉 管11保持下壓時之旋轉方向。藉由持續的將握持管1〇 相對於旋轉管11下壓以及上拉,可使拖把頭持續地沿 旋轉方向旋轉,以達到脫水之功能。 【發明内容】 本發明所欲解決之技術問題 然而,上述之旋轉式拖把,其單向軸承之成本較 咼,具有生產成本較高的缺點。且單向軸承之原理係為 單方向轉動,由於受力方向的限制,必須與該螺旋形桿 件之螺紋方向配合,否則無法達成下壓時旋轉管加速旋 轉而上拉保持$疋轉的工作方式β因此在工廠組裝時較容 易出錯。且導向件與單向轴承皆以平面方式而相互卡 合,在上拉後仍會使卡合有些脫離,因此在卡合脫離後 之脫離距離往往报短,在此種平面方式卡合下,當下次 再為下壓時,導向件與單向軸承之間因為該平面卡合之 故,會有較大瞬間應力,造成卡合齒件上之磨損較大而 衫響裝置奇命,故雖然藉由持續的將握持管與旋轉管下 壓與上拉,能達到脫水之功能,但使用一段時間後,其 導向件與單向軸承必定因為磨擦耗損而降低其使用壽 命,甚至故障無法使用,而增加對使用者之困擾。 緣此,本發明之目的即是提供一種拖把旋轉裝置, 在拖把管機構設置有一下魘旋轉機構,並藉由驅動構件 5 201134448 及卡合對應構件之設計,改善習知_式拖把 計及使用上所存在线點。讀式餘在結構汉 本發明解決問題之技術手段 係為一H為^f知技術之問題所採用之技術手段 二:=二=褒置,包含一拖把管機構、-螺紋長 j 頭。拖把管機構具有1 把管之上拖把官’第—拖把管接合於第二拖 為小,第㈣徑㈣—拖把管之内徑 動。第-拖把g可在第一拖把管之内徑中而上下移 螺紋長條係為-表面具有螺紋結構之長條體, 鳊固設於拖把管機構的一内徑中。 /、 下壓旋轉機構為一殼體設置於第二拖把管之一 :内仏處’设體内之上下端分別具有—驅動構件以及_ 。對應構件’卡合對應構件係—體成型於殼體内,且 2構件設置於卡合對應構件之下部份之内徑處,驅動 ,件之下表面為-凸出結構’凸出結構之外表面 f固凹凸卡合件,卡合對應構件之上料-内凹結構, 凹結構之外表面設置有對應於多數個凹凸卡合件的 卡合對應件,其中驅動構件之外徑與殼體之内徑具有一 間隙,卡合對應構件固設於殼體之内表面。二/、 =頭具有-拖把頭框錢—拖把布條,且拖 叹置於拖把管機構之下端。 π 其中當第-拖把管下壓時’驅動構件受到螺紋長 之螺紋結構之應力而下壓’藉此驅動構件之卡合件斑 卡合對應件相互卡合,祕著第—拖fefT壓,下壓旋 201134448 轉機構受到螺紋結構之應力而旋轉,而帶動第二拖把管 旋轉。 其中當第一拖把管上拉時,驅動構件受到螺紋長條 上之螺紋結構之應力而上拉,藉此而使驅動構件之卡合 件與卡合對應件之間的卡合脫離,而使第一拖把管上 拉。 且卡合對應構件之中心孔不受螺紋長條之螺紋體 所受力。 本發明對照先前技術之功效 經由本發明所採用之技術手段,在於該卡合對應構 件並非為單向轴承,而係為雙向皆可轉動,因此不會有 螺旋形桿件之螺紋方向需與單向軸承之方向配合之問 題。且藉由設置該下壓旋轉機構之驅動構件之下表面之 凸出結構以及該卡合對應構件之上端之内凹結構,而以 立體的方式將該驅動構件以及該卡合對應構件相互卡 合,因此較不會受磨損。 此外,本發明之下壓旋轉機構不需要單向軸承之設 置,而利用結構簡單與價格低廉之驅動構件及卡合對應 構件所組成,可降低其生產上之成本。 本發明所採用之具體實施例,將藉由以下之實施例 及附呈圖式作進一步之說明。 【實施方式】 同時參閱第2圖至第4圖所示,第2圖係顯示本發 明第一實施例之立體分解圖,第3圖係顯示本發明第一 實施例之立體示意圖,第4圖係顯示本發明第一實施例 之剖視圖。本發明之拖把旋轉裝置200包含有一拖把管 201134448 $機構2 了㈣轉機構3、—螺紋長條*及一拖把頭 管22拖具有一第-拖把管21及-第二拖把 1拖把Λ:1接合於第二拖把管22上,且第 ί-拖^ 第—拖把管21之内徑為小,以使 =:22能在第-拖把管21之内徑中上下移動。The floor of the product is very inconvenient to use, and the user must move the bucket to bend each time the mop cloth is cleaned, making the cleaning work a rather tiring task. Therefore, some operators will use the rotary design of the mop tube and use the centrifugal force to dry the water on the mop head. It is a new and intimate design. However, many of the commercially available mop mops with rotating mop tubes are not very well designed, and there are still many structural defects that need to be improved. "Refer to Figure 1, which shows a portion of a conventional rotary mop: a plan view. The rotary mop 100 includes a grip, a rotation: 11, a spiral member 12, a one-way bearing 13 and In a cylindrical guide, the user can press the cylindrical rod member down and down the cylindrical guide member 14 by pressing down the grip tube to cause the one-way bearing 13 to be unable to rotate. Under the force, the following:: the rotating tube U rotates 'and the bottom end of the rotating tube n is connected: the mop head (not shown), the centrifugal force will drag 201134448, although the user pulls up the holding tube 10, The spiral rod member 12 drives the cylindrical guide member 14 to pull up to cause the cylindrical guide member 14 to form a gap with the one-way bearing 13, but is not separated from each other, whereby the one-way bearing 〗 3 follows the spiral rod member 12. The force is rotated by the force in the unidirectional rotation direction of the rotation, so that the rotation of the rotary tube 11 is not caused to keep the rotation direction of the rotary tube 11 when pressed down. By continuously pressing and pulling the grip tube 1 相对 relative to the rotary tube 11, the mop head can be continuously rotated in the rotational direction to achieve the function of dehydration. SUMMARY OF THE INVENTION Problems to be Solved by the Invention However, the above-described rotary mop has a disadvantage in that the cost of the one-way bearing is relatively high and the production cost is high. The principle of the one-way bearing is a single-direction rotation. Due to the limitation of the direction of the force, it must be matched with the thread direction of the spiral rod. Otherwise, the rotation of the rotating tube can be accelerated and the pull-up can be maintained at the time of the pressing. Mode β is therefore more prone to error when assembled at the factory. Moreover, the guide member and the one-way bearing are mutually engaged in a planar manner, and the latching is still somewhat disengaged after being pulled up, so the disengagement distance after the engagement is disengaged is often short, and in the case of such a planar manner, When the next time it is pressed down, there will be a large momentary stress between the guide member and the one-way bearing because the plane is engaged, resulting in a large wear on the engaging tooth member and a shocking device, so although By continuously pressing and pulling the holding tube and the rotating tube, the function of dehydration can be achieved, but after using for a period of time, the guiding member and the one-way bearing must be reduced in service life due to friction loss, and even the failure cannot be used. And increase the trouble for the user. Accordingly, it is an object of the present invention to provide a mop rotating device in which a mop tube mechanism is provided with a lower rotation mechanism, and the design of the driving member 5 201134448 and the corresponding component is improved to improve the conventional mop and use. There are line points on it. The reading technique is in the structure of Han. The technical means for solving the problem in the invention is a technical means adopted by the problem of the technology of the H. The second method is as follows: ============================================================= The mop pipe mechanism has 1 upper pipe mop officer's first-draft pipe jointed to the second tow small, and the fourth (4) diameter (four)-drag pipe inner diameter. The first-mog g can be moved up and down in the inner diameter of the first mop tube. The threaded strip is a long strip having a threaded structure on the surface, and is fixed in an inner diameter of the mop tube mechanism. /, the pressing mechanism is a housing disposed on one of the second mop tubes: the inner bottom portion has upper and lower ends of the body having a driving member and a _. The corresponding component 'the corresponding component is formed in the casing, and the 2 component is disposed at the inner diameter of the lower part of the engaging corresponding component, and the lower surface of the component is a convex structure. The outer surface f is fixed to the concave-convex engaging member, and the corresponding member is engaged with the material-concave structure, and the outer surface of the concave structure is provided with a snap-corresponding member corresponding to the plurality of concave-convex engaging members, wherein the outer diameter of the driving member and the shell The inner diameter of the body has a gap, and the engaging corresponding member is fixed on the inner surface of the casing. The second/, = head has - the mop head frame money - the mop cloth strip, and the drag is placed at the lower end of the mop tube mechanism. π wherein when the first-muff tube is pressed, the driving member is pressed by the stress of the thread-length thread structure, whereby the engaging portion of the driving member is engaged with each other, and the first-fetching fefT pressure is secreted. The lower pressing screw 201134448 rotates the mechanism by the stress of the thread structure, and drives the second mop tube to rotate. When the first mop tube is pulled up, the driving member is pulled up by the stress of the thread structure on the threaded strip, thereby disengaging the engagement between the engaging member of the driving member and the engaging counterpart, thereby The first mop tube is pulled up. And the center hole of the corresponding component is not subjected to the force of the threaded body of the threaded strip. The technical means adopted by the present invention against the prior art is that the engaging corresponding member is not a one-way bearing, but is rotatable in both directions, so that the thread direction of the spiral member is not required The problem of fitting to the direction of the bearing. And the driving member and the engaging corresponding member are mutually engaged in a three-dimensional manner by providing a protruding structure of the lower surface of the driving member of the pressing rotating mechanism and a concave structure of the upper end of the engaging corresponding member. Therefore, it is less subject to wear and tear. Further, the lower pressing mechanism of the present invention does not require the provision of a one-way bearing, but is composed of a driving member and a snap-corresponding member which are simple in structure and inexpensive, and can reduce the cost of production thereof. The specific embodiments of the present invention will be further described by the following examples and the accompanying drawings. [Embodiment] Referring to Figures 2 to 4, FIG. 2 is a perspective exploded view showing a first embodiment of the present invention, and FIG. 3 is a perspective view showing a first embodiment of the present invention, and FIG. A cross-sectional view showing a first embodiment of the present invention. The mop swivel device 200 of the present invention comprises a mop tube 201134448 $ mechanism 2 (four) swivel mechanism 3, a threaded strip * and a mop head tube 22 with a first - mop tube 21 and - a second mop 1 mop Λ: 1 Engaged on the second mop tube 22, and the inner diameter of the first-tow-draft tube 21 is small so that =: 22 can move up and down in the inner diameter of the first-sweep tube 21.
之内徑處於3第:拖把管22之上端部221 人#疋轉機構3具有一驅動構件31、一卡 二=牛32、—殼體33及一平衡構件 : 對應構件32係固置於殼體33中,且 :置::合33 Θ,且平衡構件% ”之卡a件^ ^之7部份之内徑處’驅動構件 由擠壓靠合而分別靠可藉 之上拄鰥卹m D耵馮稱仵32之貫孔321 接觸。P 32Ia及下接觸部321b,驅 ^為:凸出結構,在—較佳實施例中係為—錐形^下 ^合置有複數個凹凸狀之卡合件34,且該 分為=:凹;結構’而卡合 ===:而轉動。該卡合對應: m 201134448 如圖所示’螺紋長條4之表面具有—螺紋結構Μ, 且為了在圖示中充份表現螺紋長條4之螺紋結構4ι, =^發明之剖視圖中,螺紋長條4之外部螺紋皆有表 見^而無加以剖視,螺紋長條4之上端係藉由一μ 兀件固設於拖把管機構2之第一拖把 ° 0 處,在本發日种,敎絲何移動 w及卡合對應構件32所相對應之貫孔川、m t平衡構件36平衡其上下移動時所可能產生之晃動:The inner diameter is at 3: the upper end portion 221 of the mop tube 22, the human body 3 has a driving member 31, a card 2 = cow 32, a housing 33 and a balancing member: the corresponding member 32 is fixed to the shell In the body 33, and: set:: 33 Θ, and the balance member % ” card a piece ^ ^ of the 7 part of the inner diameter of the 'drive member by pressing the fit and can rely on the top m D 耵 仵 仵 之 32 contact hole 321 contact. P 32Ia and lower contact portion 321b, drive: convex structure, in the preferred embodiment is - cone ^ lower ^ combined with a plurality of bumps a snap-in member 34, and the division is =: concave; the structure 'and the engagement ===: and rotates. The engagement corresponds to: m 201134448 As shown in the figure, the surface of the threaded strip 4 has a thread structure Μ And in order to fully express the threaded structure 4 of the threaded strip 4 in the figure, in the cross-sectional view of the invention, the external thread of the threaded strip 4 is shown in the figure without the cross section, and the upper end of the threaded strip 4 It is fixed to the first mop ° 0 of the mop tube mechanism 2 by a μ 兀 piece, and the 敎 何 何 mt mt mt mt mt mt mt mt mt mt mt mt mt The balancing member 36 may be generated when it moves up and down rattling of:
構3之整體結構,故在第二 戠斷線截斷螺紋長條4之部份乂右八 構3内元件之位置配置。Μ㈣露下壓旋轉機 把頭3頭If有一拖把頭桓51及一拖把布條52,拖 拖把51樞接於拖把管機構2之第二 拖把s 22之下端位置處。 aa笛同寺彡閱第5圖及第6圖所示,第5圖彳㈣干未菸 明第一實施例盥一脫皮驻番十*,, 圃你顯不本發 處於一下乂:;够 剖視圖,其中第一拖把管 -拖把管下麼時之局部擴大視圖本發月第-貫施例之第 當第-拖把管21下壓時,係 ::移動’由於螺紋長條4之螺紋結構 式與下壓旋轉機構3之驅動構件31 ^^轉方 觸,且固設於該殼體33 内壁接 之貫孔321不會接觸於該蟬構件32,其具有 受到螺紋長條4之螺紋結構41^故驅動構件31 得驅動構㈣之卡合件34與卡 201134448 對應件35相互對應卡合,並隨著第一拖把管21下壓, 而由於卡合對應構件32係固設於該第二拖把管22之内 徑表面,因此下壓旋轉機構3受到螺紋長條4之旋 轉動,並帶動第二拖把管22旋轉,且同時帶動拖把頭 5於脫水裝置8之脫水槽81中沿一旋轉方向Di旋轉, 由於脫水裝置8之脫水槽81能提供拖把頭5穩固的 撐,故使用者於脫水過程中不易有打翻脫水裝置8 況發生。The overall structure of the structure 3 is such that the second smash line cuts off the position of the element in the right octave 3 of the threaded strip 4 . Μ (4) Depressing the rotary machine The head 3 includes a mop head 51 and a mop cloth 52, and the mop 51 is pivotally connected to the lower end of the second mop s 22 of the mop tube mechanism 2. Aa flute in the temple read the 5th and 6th pictures, the 5th figure (4) dry unsmoulded the first embodiment of a peeling in the ten *,, you are not in the hair is: A cross-sectional view, in which the first mop tube - the partial expansion view of the mop tube under the time of the first embodiment of the month - the mop tube 21 is pressed:: moving 'because of the threaded strip 4 thread structure The drive member 31 of the lower pressing mechanism 3 is rotated, and the through hole 321 fixed to the inner wall of the casing 33 does not contact the dam member 32, and has a thread structure of the threaded strip 4. Therefore, the engaging member 34 of the driving mechanism (4) and the corresponding member 35 of the card 201134448 are engaged with each other, and the first corresponding mop tube 21 is pressed down, and the engaging corresponding member 32 is fixed to the first portion. The mop tube 22 has an inner diameter surface, so that the pressing mechanism 3 is rotated by the threaded strip 4, and drives the second mop tube 22 to rotate, and simultaneously drives the mop head 5 along the dewatering tank 81 of the dewatering device 8. The rotation direction Di rotates, since the dewatering tank 81 of the dewatering device 8 can provide the stable support of the mop head 5, so the user takes off There are easily knocked over during the dewatering device 8 happens.
請再同時參閱第7圖及第8圖所示,第7圖係續示 本發明第-實施例與-脫水裝置之剖視圖,其中第一拖 把管處於-上拉狀態,第8圖係顯示本發明第—實 之第一拖把管上拉時之局部擴大視圖。 鬲他杷埤〕π貺水裝置8進行完脫水之單一半 時’使用者可輕易地將第一拖把管21》主上拉起,驅’ 構件31受到螺紋長條4之螺紋結構41之應力作 拉’使得驅動構件31之卡合件34與卡合對應構件^ 之卡合對應们5之_互分離,而由於卡合對應⑽ 32之中心孔不文螺紋長條4之螺紋結構41所受力 此卡合對應構件32保持原來旋轉方向。如 “ 用,使用者就完成拖把旋轉裝置2〇〇之脫水步驟。 參閱第9圖所示,其係顯示本發明第二ί施例圖 本實施例之拖把旋轉裳置200a之組成元件斑第一二 例相同,故相同之元件乃標示以相同之元件編號,以: 對應。其差異在於為了方便使用者能更輕易操 : 轉裝置200a,在拖把管機構2之第—拖把管2丨上f 可組設有至少-可加長之拖把管構件23,並藉由= 201134448 固元件7固定拖把管構件23與第一拖把管2 方便不同使用者對於操作時之實際高^^ 調整,由於作動方式及原理係與第—實施例/適= 此不多加贅述。 U故在 =上之實_可知,本發明所提供之拖把 =具產業上之湘價值,故本發„已符合於專利= 2 °惟以上之敘述僅為本發明之較佳實施例說明,凡 =此項㈣者當可依據上述之朗而作其它種種之 2專變仍屬於本發明之發明精神及以下所界 【圖式簡單說明】 ,1圖係顯示習知旋轉式拖把之局部斷面圖; 第2圖係顯示本發明第一實施例之立體分解圖; 第3圖係顯示本發明第一實施例之立體示意圖; ,4圖係顯示本發明第一實施例之剖視圖; =5圖係顯示本發明第一實施例與一脫水裝置之剖視 •,其中第一拖把管處於一下壓狀態; 第6圖係顯示本發明第一實施例之第一拖把管下壓 之局部擴大視圖; =7圖係顯示本發明第一實施例與一脫水裝置之剖視 ,其中第一拖把管處於一上拉狀態; 第8圖係顯示本發明第一實施例之第一拖把管上拉時 之局部擴大視圖; ,9圖係顯示本發明第二實施例圖。 【主要元件符號說明】 〇 旋轉式拖把 201134448Please refer to FIG. 7 and FIG. 8 at the same time. FIG. 7 is a cross-sectional view showing the first embodiment of the present invention and the dehydrating device, wherein the first mop tube is in the -upward state, and the eighth image is shown in FIG. Inventively - a partial enlarged view of the first mop tube when pulled up.鬲 杷埤 杷埤 π π 贶 贶 贶 进行 贶 贶 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 进行 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' 使用者The force pulling pulls 'the engaging members 34 of the driving member 31 and the engaging corresponding members of the engaging corresponding members ^ are separated from each other, and the threaded structure 41 of the center hole of the engaging (10) 32 is not threaded by the threaded strip 4 The force is applied to the engaging member 32 in the original rotation direction. For example, "the user completes the dehydration step of the mop rotating device 2". Referring to Fig. 9, the second embodiment of the present invention is shown in the second embodiment of the present invention. The same components are denoted by the same component numbers, with the following: The difference is that it is easier for the user to operate: the rotating device 200a, on the mop tube 2 of the mop tube mechanism 2 f can be provided with at least - an extensible mop tube member 23, and the mop tube member 23 and the first mop tube 2 are fixed by the solid element 7 to facilitate the adjustment of the actual height of the operation by the different users, due to the actuation The method and principle are the same as the first embodiment. The following is a description of the fact that the mop provided by the present invention has the value of Xiang in the industry, so the present invention has been met with the patent = 2 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 Simple description], 1 graphic display 2 is a perspective view showing a first embodiment of the present invention; FIG. 3 is a perspective view showing a first embodiment of the present invention; 1 is a cross-sectional view showing a first embodiment of the present invention and a dewatering apparatus, wherein the first mop tube is in a lower pressure state; and FIG. 6 is a first embodiment of the first embodiment of the present invention. a partially enlarged view of the lowering of the mop tube; the figure 7 shows a cross-sectional view of the first embodiment of the present invention and a dewatering device, wherein the first mop tube is in a pull-up state; and FIG. 8 shows the first embodiment of the present invention. A partially enlarged view of the first mop tube when it is pulled up; 9 shows a second embodiment of the present invention. [Main component symbol description] 旋转 Rotary mop 201134448
10 握持管 11 旋轉管 12 螺旋形桿件 13 單向軸承 14 圓柱狀導向件 200、 200a拖把旋轉裝置 2 拖把管機構 21 第一拖把管 22 第二拖把管 221 上端部 23 拖把管構件 3 下壓旋轉機構 31 驅動構件 311 貫孔 32 卡合對應構件 321 貫孔 321a 上接觸部 321b 下接觸部 33 殼體 34 卡合件 341 接觸部 35 卡合對應件 36 平衡構件 4 螺紋長條 ί b;] 12 201134448 41 螺紋結構 5 拖把頭 51 拖把頭框 52 拖把布條 7 鎖固元件 8 脫水裝置 81 脫水槽 D1 旋轉方向 D2 拉升方向10 holding tube 11 rotating tube 12 spiral rod 13 one-way bearing 14 cylindrical guide 200, 200a mop rotating device 2 mop tube mechanism 21 first mop tube 22 second mop tube 221 upper end 23 mop tube member 3 Pressing rotary mechanism 31 driving member 311 through hole 32 engaging corresponding member 321 through hole 321a upper contact portion 321b lower contact portion 33 housing 34 engaging member 341 contact portion 35 engaging corresponding member 36 balance member 4 threaded strip ί b; 12 201134448 41 Thread structure 5 Mop head 51 Mop head frame 52 Mop cloth strip 7 Locking element 8 Dehydrator 81 Dewatering tank D1 Direction of rotation D2 Pulling direction