M357276 五、新型說明: 【新型所屬之技術領域】 尤指一種旋翼 出膠棉所含水 本創作係與清潔工具有關,進一步而言, 擠水膠棉拖把,其藉由首創構成而可有效擠 液。 【先前技術】 工具’目前市場上用 、種類繁多,其中,M357276 V. New description: [New technical field] Especially for a kind of rotor-based cotton, the creative department is related to cleaning tools. Further, the water-sucking cotton mop can be effectively squeezed by the first creation. liquid. [Prior Art] Tools are currently used on the market and have a wide variety of them, among them,
拖把是一種常用於擦拭地面的清潔 於清潔家庭或室内衛生的拖把結構不一 膠棉拖把是㈣長條狀㈣棉作為擦拭部件,㈣棉擦找地 當膠棉使用時,需 、異物,而膠棉經 面並沾附灰塵、異物,達到清潔的目的, 要將膠棉水洗,藉以去除膠棉所沾附灰塵 過水洗後將飽含水液,為了便於再次使用或收存,需要將膠 棉所飽含的水液擠出,故而膠棉拖把多具有可擠出膠棉所含 水液的擠水構造。 中國大陸ZL02277710.5專利揭示一種具有左右壓板式 擠水構造的多功能吸水拖把,圓筒形膠棉通過基座固定在左 右兩塊夾板下方,兩塊夾板結構相同並且左右對稱,其内端 相互鉸接在一起並且通過上端的擠壓拉桿向上提升;夾板的 外端開有滑動槽’壓板上的鉸鏈軸嵌在該滑動槽中。這樣拉 動擠壓拉才干使夾板鉸接點上升,進而使下端的膠棉在中部折 彎並且相互擠壓,完成擠水動作。 但是,前述習知膠棉拖把在清洗後擠水的過程中,存在 M357276 阻力和磨擦力都較大的現象,擠壓時非常費力,特別是擠水* 到末端時,支撐體兩端的支撐面張開,從而使兩擠水滑板末 鈿張開成爲v形,使得膠棉兩端處的水不容易被擠出,擠水 效果不彰。 有鑑於此’本案創作人遂積極進行研究、開發,而終於 獲得創新且具產業利用價值的本創作。 【新型内容】 本創作主要目的在於提供一種膠棉拖把,其藉由首創構 成,而得以提高擠水的容易度及擠水效果好。 可達成上述創作目的之旋翼擠水膠棉拖把,包括有: -握桿、-長形膠棉頭及《擠水構造,《中,該膠棉頭 藉由該擠水構造設於該握桿底端,該膠棉頭頂緣設一連接 板; 該擠水構造包含-支撐體、二滑板、二導滑板、二旋轉 件、-連接頭…扳動件及二拉條,其中,該支樓體具有二 側部,該支撲體於該側部内緣形成凹槽,該凹槽與該支樓體 底部貫通’該二滑板對稱狀分設於該連接板頂緣,該二導滑 板對稱狀分設於該二滑板頂緣,並與該滑板滑動連接,該導 滑板上部平行立設二固定板,該固定板穿設有滑槽,該二導 滑板分別藉由該二旋轉件活却你—_ 於忒二側部底緣,該旋轉件具 有一第一臂端、一第二臂端及-第三臂端,該第-臂端轴槐 於該滑槽’該第二臂端於該 該凹槽與該側部鉸接,該第三臂端 5 M357276 與該導滑板末端鄰近,該連接頭設於該二滑板之間,且該二. /月板刀別舆該連接頭鉸接,該扳動件活設於該握桿中段處, 該一拉條一端分別與該連接頭相接,另一端分別與該扳動件 樞接,據以掣動該連接頭位移,俾供該二滑板相對擠壓該膠 棉頭的含水者。 【實施方式】 請參閲圖一,本創作所提供之旋翼擠水膠棉拖把,主要 Φ 包括有: 一握桿(10)、一長形膠棉頭(20)及一擠水構造(3〇),其 中,該握桿(10)主要具有一主管(11)、一伸縮管(12)、一鎖 環(13)及一套頭(14),該握桿(1〇)主要具有一主管(n)、一 伸縮官(12)、一鎖環(13)及一套頭(14),該伸縮管(12)底端 軸插於該主管(11),該套頭(14)套設於該伸縮管(12)頂端, 該鎖環(13)設於該主管(11)與該伸縮管(12)之間,據此,該 鲁伸縮管(12)可依需要沿軸向與該主管⑴)相對滑動,並據該 鎖環(13)鎖固定位,藉此變化該握桿(1〇)長度,俾供提高操 作使用方便性,該膠棉頭(20)藉由該擠水構造(3〇)橫設於該 握桿(10)底端。 如圖一至三所示,該膠棉頭(20)頂緣接設一可折式連接 板(21),該連接板(21)頂緣凸設複數個倒扣(212),該擠水 構造(30)包含一支撐體(31)、二滑板(32)、二導滑板(33)、 二旋轉件(34)、一連接頭(35)、一扳動件(36)及二拉條 M357276 (37) ’其中’該支撐體(31)設於該握桿(1〇)底端,該支撐體* (31)具有彼此對稱的二側部(311),該支撐體(31)於該側部 (311)内緣形成凹槽(312),如圖四所示,該凹槽(312)與該 支撐體(31)底部貫通’該二側部(311)於該凹槽(3丨2)的上端 處對稱狀分別形成一斜面(313),且該斜面(313)係由下而上 向著該支撐體(31)的中央部位方向傾斜;如圖五所示,該二 滑板(32)對稱狀分設於該連接板(21)頂緣的兩侧,該滑板 • (32)貫穿複數個扣槽(321),據使該連接板(21)藉其倒扣 (212)分別扣鉤於該扣槽(321),俾供該滑板(32)與該連接板 (21)頂緣相接者,該滑板(32)頂緣平行立設二立板(322), 該滑板(32)於該二立板(322)之間貫穿一滑動槽(323),該二 立板(322)为別於頂緣相對凸設嵌塊(324) ’該二導滑板(33) 對稱狀分設於該二滑板(32)頂緣。 如圖二、五、六所示,該導滑板(33)上部平行立設二固 0 定板(331),並於該二固定板(331)之間形成一通槽(332), 該二固定板(331)分別穿設有滑槽(333),如圖六所示,該導 滑板(33)於該通槽(332)的一端向上形成有凸部(334),該固 定板(331)於該通槽(332)的另一端處形成弧面(335),並於 該二固定板(331)之間設有加強板(336)連接,該二固定板 (331)外側也設有加強板(336),該導滑板(33)下部為開π ^ 下的内空殼體(337),該導滑板(33)底緣於該殼體(337)中部 沿軸向下凸一滑塊(338) ’該滑塊(338)底緣徑向設有嵌舌 M357276 (3382)’該滑塊(338)滑入該二立板(322)之間,該嵌舌(338幻 滑入該嵌塊(324)與該滑板(32)的本體之間,並藉該嵌塊 (324)對該嵌舌(3382)形成限止,俾供該導滑板(33)與該滑 板(32)相接,且,該導滑板(33)底緣設有定位梢(339),該 定位梢(339)延伸於該滑動槽(323),據使該滑板(32)與該導 滑板(33)彼此相對滑移時,藉該定位梢(339)形成限止定位 ' 作用,避免該滑板(32)與該導滑板(33)彼此滑脫。 鲁如圖二、三所示,該二導滑板(33)分別藉由該二旋轉件 (34)活設於該支撐體(31)的該二側部(311)底緣,如圖八所 示,該旋轉件(34)具有一第一臂端(341)、一第二臂端(342) 及一第二臂端(343) ’該第一臂端(341)進入該通槽(332) 内’且該第一臂端(341)軸向延伸於該滑槽(333),該第二臂 端(342)設於該侧部(311)的凹槽(312) ’並與該侧部(Mi)鉸 接’該第三臂端(343)進入該通槽(332)内,並與該凸部(334) • 鄰近,該旋轉件(34)於該第一、三臂端(341)(343)之間及該 第二、三臂端(342)(343)之間,分別為内凹弧面(344)連接。 該連接頭(35)設於該二滑板(32)之間,且該二滑板(32) 分別與該連接頭(35)欽接’該板動件(36)活設於該握桿(1〇) 中段處’且該扳動件(36)的一端與該握桿(1〇)鉸接,該二拉 條(37)—端分別與該連接頭(35)的兩侧相接,該二拉條(37) 另一端分別與該扳動件(3 6 )兩端之間的兩侧樞接,據此,使 用者往復扳動該扳動件(3 6 )’即可藉由該拉條(3 7 )掣動該連 M357276 接頭(3 5 )於該二侧部(311)之間上下往復位移,俾供該二滑· 板(32)相對擠壓該膠棉頭(20)的含水者。 如圖一、三及圖九所示,欲擠出該膠棉頭所吸取的 水液時,扳動該扳動件(36),該扳動件(36)藉由該拉條(37) 拉動該連接頭(35),使該連接頭(35)於該二侧部(311)之間 向上位移,此時,該二滑板(32)相對旋擺,而可使該膠棉頭 (20)據其中段相對折靠,並藉該二滑板(32)相對擠壓該膠棉 • 頭(20) ’且’該旋轉件(34)據該第二臂端(342)旋轉,該導 滑板(33)隨著該滑板(32)而旋擺,該連接頭(35)持續帶引著 該滑板(32)上移時,該導滑板(33)相對於該滑板(32)向下滑 移一定距離’藉以強化對該膠棉頭(2〇)末端的擠壓作用, 且,該旋轉件(34)的第三臂端(634)相對壓制於該導滑板(33) 的凸部(334),使該導滑板(33)的底端相對於頂端形成一個 向内傾斜的負角度α (如圖九所示),本實施例中,^約為 _ ―2.5度,而呈下端收緊的V形狀態,據以對該膠棉頭(2〇) 的末端形成有效的擠壓作用,以利於將流向該膠棉頭(2〇)末 端的水液擠出。再者,該支撐體(31)藉由該斜面(313)與該 導滑板(33)的弧面(335)緊密接觸,由於在擠水操作的過程 中,該導滑板(33)的頂端受力大,藉由該導滑板(33)與該斜 面(313)的接觸’以及在該導滑板(33)的弧面(335)之間設置 该加強板(336),而可產生支撐加固的作用,確保擠水拖把 的使用壽命。 M357276 上列詳細說明係針對本創作之一可行實施例之具體說. 明,惟該實施例並非用以限制本創作之專利範圍,凡未脫離 本創作技藝精神所為之等效實施或變更,均應包含於本案之 專利範圍中。 綜上所述,本案不但在空間型態上確屬創新,並能較習 用物βσ增進上述多項功效,應已充分符合新穎性及進步性之 法定新型專利要件,爰依法提出中請ϋ貴局核准本件 ‘新型專利巾請案,以勵創作,至感德便。 【圖式簡單說明】 圖一係本創作一種旋翼擠水膠棉拖把之立體圖。 圖二係本創作一種旋翼擠水膠棉拖把之立體分解圖。 圖三係本創作一種旋翼擠水膠棉拖把之前視圖。 圖四係本創作支撐部之剖面示意圖。 圖係本創作一種旋翼擠水膠棉拖把之滑板的立體圖。 圖六係本創作—種旋翼擠水膠棉拖把之導滑板的側視 岡尔圃穴的10—10剖面圖。 圖 圖八係本創作—種旋翼擠水膠棉拖把之旋轉件的前 圖九係本創作—種旋翼擠水膠棉拖把於擠水操作時之 局部前視圖。 【主要元件符號說明】 M357276 握桿 主管 伸縮管 鎖環 套頭 膠棉頭 連接板 倒扣 擠水構造 支撐體 侧部 凹槽 斜面 滑板 扣槽 立板 滑動槽 敌塊 導滑板 固定板 通槽 滑槽 M357276 334 凸部 335 弧面 336 加強板 337 殼體 338 滑塊 3382 喪舌 339 定位銷 34 旋轉件 341 第一臂端 342 第二臂端 343 第三臂端 344 弧面 35 連接頭 36 扳動件 37 拉條The mop is a kind of mop that is commonly used for wiping the floor to clean the home or indoor hygiene. The mop is not (4) long strips (four) cotton as a wiping part, (4) cotton rubbing to find the ground when the cotton is used, foreign objects, and The rubber wool is covered with dust and foreign matter to achieve the purpose of cleaning. The cotton wool should be washed with water to remove the dust from the cotton wool. After washing, the aqueous liquid will be saturated. In order to facilitate reuse or storage, the cotton wool needs to be used. The water contained in the saturated liquid is extruded, so that the cotton mop has a water squeezing structure of the aqueous liquid of the extrudable rubber. The Chinese patent ZL02277710.5 discloses a multi-functional water-absorbing mop with a left and right pressure plate type water squeezing structure. The cylindrical rubber cotton is fixed under the two left and right splints through the base. The two splints have the same structure and are bilaterally symmetrical, and the inner ends are mutually symmetrical. They are hinged together and lifted upward by the upper extrusion bar; the outer end of the clamping plate is provided with a sliding groove. The hinge shaft on the pressure plate is embedded in the sliding groove. In this way, the squeezing and pulling is performed to raise the hinge point of the splint, so that the rubber at the lower end is bent in the middle portion and pressed against each other to complete the squeezing action. However, in the process of squeezing water after cleaning, the M357276 has a large resistance and frictional force, and it is very laborious to squeeze, especially when the water is squeezed* to the end, the support surfaces at both ends of the support body The opening is opened, so that the end of the two squeezed water slides is opened into a v shape, so that the water at the two ends of the rubber wool is not easily squeezed out, and the water squeezing effect is not good. In view of this, the creators of this case actively carried out research and development, and finally obtained the original creation with innovative and industrial value. [New content] The main purpose of this creation is to provide a cotton mop, which is constructed by the first initiative to improve the ease of squeezing and the effect of squeezing water. The rotor-squeezing cotton mop can achieve the above-mentioned creation purposes, including: - a grip, a long rubber head and a "squeezing water structure," wherein the rubber head is provided on the grip by the squeeze structure a bottom end of the rubber wool head is provided with a connecting plate; the water squeezing structure comprises a support body, two sliding plates, two guiding slide plates, two rotating members, a connecting head, a pulling member and two pulling strips, wherein the branch building The body has two sides, the baffle body forms a groove on the inner edge of the side portion, and the groove is perpendicular to the bottom of the support body. The two slide plates are symmetrically arranged on the top edge of the connecting plate, and the two guide slides are symmetric. Separatingly disposed on the top edge of the two sliding plates, and slidingly connecting with the sliding plate, the upper portion of the guiding sliding plate is erected in two parallel fixing plates, the fixing plate is provided with a sliding slot, and the two guiding sliding plates respectively live by the two rotating parts - _ at the bottom edge of the second side, the rotating member has a first arm end, a second arm end and a - third arm end, the first arm end shaft is disposed on the chute 'the second arm end The groove is hinged to the side portion, the third arm end 5 M357276 is adjacent to the end of the guide slide, and the connection head is disposed on the two slide plates And the two-piece knives are hinged to the connector, the trigger member is disposed at the middle portion of the grip, the one end of the pull bar is respectively connected with the connecting head, and the other end is respectively connected with the connecting The pivoting member is configured to sway the displacement of the connector, and the two slide plates are relatively pressed against the hydrate of the rubber head. [Embodiment] Please refer to Figure 1. The rotor squeezing cotton mop provided by this creation mainly includes: a grip (10), a long rubber head (20) and a water squeezing structure (3)握), wherein the grip (10) mainly has a main pipe (11), a telescopic tube (12), a lock ring (13) and a set of heads (14), the grip (1〇) mainly has a main pipe (n), a telescopic officer (12), a lock ring (13) and a set of heads (14), the bottom end shaft of the telescopic tube (12) is inserted into the main pipe (11), and the set head (14) is sleeved on the a top end of the telescopic tube (12), the lock ring (13) is disposed between the main tube (11) and the telescopic tube (12), according to which the lug tube (12) can be axially associated with the main tube (1) Relatively sliding, and locking the fixing position according to the locking ring (13), thereby changing the length of the grip (1〇) for improving the ease of operation, the rubber head (20) is constructed by the squeeze water ( 3〇) is placed horizontally at the bottom end of the grip (10). As shown in FIG. 1 to FIG. 3, the top edge of the rubber head (20) is connected with a foldable connecting plate (21), and a plurality of undercuts (212) are protruded from the top edge of the connecting plate (21). (30) comprising a support body (31), two slide plates (32), two guide slide plates (33), two rotating members (34), a connecting head (35), a pulling member (36) and two pulling bars M357276 ( 37) 'wherein the support body (31) is disposed at the bottom end of the grip (1〇), the support body * (31) has two side portions (311) symmetrical to each other, and the support body (31) is on the side The inner edge of the portion (311) forms a groove (312). As shown in FIG. 4, the groove (312) and the bottom of the support body (31) penetrate through the two side portions (311) in the groove (3丨2). a slanted surface (313) is formed symmetrically at the upper end, and the inclined surface (313) is inclined from the bottom to the central portion of the support (31); as shown in FIG. 5, the two slides (32) The symmetrical shape is disposed on two sides of the top edge of the connecting plate (21), and the sliding plate (32) runs through a plurality of buckle grooves (321), so that the connecting plate (21) is respectively hooked by the reverse buckle (212) In the buckle groove (321), the skateboard (32) is connected to the buckle The top edge of the plate (21) meets, the top edge of the sliding plate (32) is parallel with two vertical plates (322), and the sliding plate (32) runs through a sliding groove (323) between the two vertical plates (322). The two vertical plates (322) are symmetrical to the top edge of the two sliding plates (32). As shown in FIG. 2, FIG. 5 and FIG. 6, the upper portion of the guide slide plate (33) is vertically erected with two fixed plates (331), and a through groove (332) is formed between the two fixed plates (331). The plate (331) is respectively provided with a sliding slot (333). As shown in FIG. 6, the guiding slide plate (33) is formed with a convex portion (334) at one end of the through slot (332), and the fixing plate (331) A curved surface (335) is formed at the other end of the through groove (332), and a reinforcing plate (336) is connected between the two fixing plates (331), and the outer side of the two fixing plates (331) is also reinforced. a plate (336), the lower part of the guide slide plate (33) is an inner hollow shell (337) opened at π ^, and the bottom edge of the guide slide plate (33) protrudes axially downward from the middle of the casing (337) (338) 'The bottom edge of the slider (338) is provided with a tongue M357276 (3382) in the radial direction. The slider (338) slides between the two vertical plates (322), which is slid into the 338 Between the insert (324) and the body of the sliding plate (32), and by the insert (324), the tongue (3382) is restricted, and the guiding slide (33) is connected to the sliding plate (32) And the bottom edge of the guide slide (33) is provided with a positioning tip (339), The sliding end (339) extends from the sliding groove (323), and when the sliding plate (32) and the guiding sliding plate (33) slide relative to each other, the positioning tip (339) forms a limit positioning function to avoid the sliding plate. (32) sliding off from the guide slides (33). As shown in Figures 2 and 3, the two guide slides (33) are respectively disposed on the support body (31) by the two rotary members (34). The bottom edge of the two side portions (311), as shown in FIG. 8, the rotating member (34) has a first arm end (341), a second arm end (342) and a second arm end (343)' The first arm end (341) enters the through slot (332) and the first arm end (341) extends axially to the chute (333), and the second arm end (342) is disposed at the side a groove (312)' of (311) is hinged with the side portion (Mi). The third arm end (343) enters the through groove (332) and is adjacent to the convex portion (334). The member (34) is connected between the first and third arm ends (341) (343) and the second and third arm ends (342) (343), respectively, by a concave curved surface (344). a head (35) is disposed between the two slides (32), and the two slides (32) are respectively associated with the The connector (35) is inscribed with the plate member (36) being disposed at a middle portion of the grip (1〇) and one end of the trigger member (36) is hinged to the grip (1〇), the two The ends of the pull strips (37) are respectively connected to the two sides of the connecting head (35), and the other ends of the two pull strips (37) are respectively pivotally connected to the two sides between the two ends of the pulling member (36). Accordingly, the user can reciprocate the trigger member (3 6 )' to swing the connecting M357276 connector (35) up and down between the two side portions (311) by the pulling bar (37). Displacement, for the two sliding plates (32) relative to the hydrate of the rubber head (20). As shown in FIG. 1 , FIG. 3 and FIG. 9 , when the liquid water sucked by the rubber head is to be squeezed, the triggering member (36) is pulled, and the pulling member (36) is pulled by the pulling rod (37). Pulling the connector (35) to move the connector (35) upward between the two sides (311). At this time, the two sliders (32) are relatively swivel, and the cotton head can be made. According to the middle portion of the relative folding, and by the two slides (32) relatively squeeze the cotton • head (20) 'and 'the rotating member (34) according to the second arm end (342), the guide skate (33) as the slider (32) swings, the connector (35) continues to bring the slider (32) up, the slider (33) slides down relative to the slider (32) A certain distance 'to strengthen the pressing action on the end of the rubber head (2〇), and the third arm end (634) of the rotating member (34) is relatively pressed against the convex portion of the guiding slide (33) (334) The bottom end of the guide slide (33) is formed with an inwardly inclined negative angle α with respect to the top end (as shown in FIG. 9). In this embodiment, ^ is about _-2.5 degrees, and the lower end is tightened. V-shaped state, according to the head of the cotton End 2〇) forming an effective pressing action, to facilitate the flow of the plastic cotton head (2〇) extruding liquid water-terminal. Furthermore, the support body (31) is in close contact with the curved surface (335) of the guide slide plate (33) by the inclined surface (313), because the top end of the guide slide plate (33) is subjected to the water squeezing operation. The force is large, and the reinforcing plate (336) is disposed between the guiding plate (33) and the inclined surface (313), and the reinforcing plate (336) is disposed on the curved surface (335) of the guiding plate (33), thereby generating support reinforcement. The role of ensuring the life of the squeeze mop. The detailed description of the above is a specific description of a possible embodiment of the present invention, but the embodiment is not intended to limit the scope of the patent, and the equivalent implementation or modification is not departing from the spirit of the present invention. It should be included in the patent scope of this case. In summary, this case is not only innovative in terms of space type, but also can enhance the above-mentioned multiple functions compared with the conventional βσ, and should fully comply with the statutory new patent requirements of novelty and progressiveness. Approved this article 'new patent towel request, to encourage creation, to the sense of virtue. [Simple description of the diagram] Figure 1 is a perspective view of a rotor-squeezing cotton mop. Figure 2 is a three-dimensional exploded view of a rotor-squeezing cotton mop. Figure 3 is a front view of a rotor-squeezing cotton mop. Figure 4 is a schematic cross-sectional view of the creative support section. The figure is a perspective view of a skateboard of a rotary squeezing cotton mop. Figure 6 is a side view of the guide of the rotor-squeezing water-sucking cotton mop. Figure VIII is the creation of the front part of the rotor of the rotor-squeezing water-proof cotton mop. Figure IX is a partial front view of the rotor-squeezing water-proof cotton mop in the water squeezing operation. [Main component symbol description] M357276 Grip main tube telescopic tube lock ring Socket head rubber head connecting plate squeezing water squeezing structure support side groove slanting surface skateboard buckle groove vertical plate sliding slot enemy block guide plate fixed plate through slot chute M357276 334 convex portion 335 curved surface 336 reinforcing plate 337 housing 338 slider 3382 tongue 339 positioning pin 34 rotating member 341 first arm end 342 second arm end 343 third arm end 344 curved surface 35 connecting head 36 pulling member 37 zipper