200800089 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種清潔用布,特指一種具有可均勻儲 存、釋放水分之複數層結構之濕式清潔布,且該清潔布 之清潔面呈現爲立體狀。 【先前技術】 傳統除塵紙由於大多採用可拋棄之材質,用料較爲單 ® 薄,因此針對灰麈容置、收集的效果較差,由於材質的 關係,更不可用於濕式表面之清潔。 如第1至3圖爲台灣專利公告第5921 1 8名爲『改良 型3D除塵紙』之新型專利,其即爲一乾式的除塵紙之 典型,如圖所示,該先前專利主要在複數層的除塵紙之 中間層1 2兩側設置容置層11,並將容置層1 1鑿設數容 置空間9,俾可供污垢及灰塵容置於該容置空間9內, φ 且該容置空間9上設有呈不同方向延伸之肋片8,並將 該肋片8以高週波黏合至容置層11上,俾使該肋片8 與容置空間9形成一相互對應之功效,且該容置層1 1 兩側分別設有一黏貼部,俾可將該除塵紙本體1黏固於 一拖把本體2上(請見第2圖),又該容置層11兩端分 別向外延伸有數凸片,藉由該凸片伸進待清潔物之縫 隙。 然而,乾式除塵紙(布)之吸水性較差,又無儲存、 5 200800089 平均釋放水分之設計,故一旦用於清潔濕表面,灰塵污 垢容易隨著除塵紙(布)之邊緣移動,且濕表面之水分 無法被抹乾,造成使用上的不便。 【發明內容】 有鑑於先前技術之缺點,本案發明人特提出一種濕式 立體清潔布,其中該濕式立體清潔布之結構係在基布與 耐磨不織布之間設置有一個或一個以上之襯墊,使得該 _ 濕式立體清潔布之清潔面呈現爲立體狀,藉以將大量之 污水、髒垢聚集於一個或以上之立體空間內並藉由親水 之耐磨不織布與襯墊將多餘之水分吸收、釋放,同時由 於該濕式立體清潔布之清潔面形成爲立體狀,故在清潔 時更能集中摩擦力,產生一邊刮除一邊收容灰塵污垢, 一邊釋放或吸收水分之效果。該濕式立體清潔布係在製 造過程中,將具吸水性之布條或海綿經由導引機構喂入 基布與耐磨不織布之間當作襯墊,藉此產製經濟且效果 • 良好之濕式立體清潔布。在使用時,本發明之濕式立體 清潔布能夠穩定的釋放或吸收水量,且由於該清潔布因 置入襯墊而成立體狀,在清潔時清潔布與待清潔面接觸 之摩擦力不致過大,可避免在拖地過程產生拖把面板翻 覆的現象。 【實施方式】 爲了達到上述發明之各種目的,於此提出一本發明最 佳之實施方式。請參閱第4A與4B圖,爲本發明之俯視 6 200800089 圖與剖面圖,其中第4A圖中兩個黑色箭頭所構成的虛 線,即爲第4B圖之剖面子圖所取樣的參考線。如第4A 圖與第4B圖所示,該清潔布本體(1 )主要係由基布 (24)、耐磨不織布(21 )所組成,並且在該基布(24)、 耐磨不織布(21)中夾置有多數之襯墊(22),用以將 該清潔布本體(1)局部撐起’以形成如第4B圖所示之 立體層狀。且該具有複合層結構之耐磨不織布(21)係 _ 經刀輪裁切而開設有多數三角形之肋片(7),且該多數 肋片(7)之下方更可開設對應之多數容置空間(9), 該多數之肋片(7)可幫助將灰塵或污垢推入用以提供 容納灰塵或污垢的容置空間(9),再配合局部塡有襯墊 (22)之清潔布本體(1),即可形成多種層間立體形狀 之除塵布,達成極佳的清潔、吸收、釋放水分之功效。 本發明實施例所使用之襯墊(22)可爲耐磨不織布 (21)於生產過程中所裁切剩餘之條狀廢料,如第4A • 圖所示,由於耐磨不織布(21)兩邊之尺寸被裁切的比 基布( 24)小,因此耐磨不織布(21)兩邊之廢料即可 作爲襯墊(22)之基材,而襯墊(22)之寬幅可視欲裁 切掉之廢料的大小來自由調整。同時,該襯墊(22)可 使用親水材質之原料,如海綿、天然或人造纖維織物, 用以提供吸收、釋放水分之功效,並在清潔時進一步控 制水分的吸取、釋放量。請參閱第5圖,爲本發明之第 一種實施樣態,其中該兩個襯墊(22)係各自被夾設在 7 200800089 基布(24 )與耐磨不織布(2 1 )之間,圖中粗黑框線係 標示出兩個襯犖(22)被塡入之位置。因此,第一實施 例之清潔布本體(1 )即會如第4圖下方之剖面圖所示 的一般,於塡有襯墊(22)之處局部凸起,在清潔布本 體(1)上形成兩個長形的凸起空間,因此當拖動本發 明之濕式立體清潔布時,該兩個凸起空間之間的長縫, 以及兩個凸起空間之外側邊,即可刮除大量的髒水、灰 塵或污垢,並藉由具吸水性之耐磨不織布(21)及襯墊 (22 )將過多的水分吸收,並於清潔水分較少時釋出, 使得在清潔時能藉由此立體之造型,集中摩擦力於濕式 立體清潔布凸起之部位,於使用時,由於使用者拖動拖 把時所產生的按壓力道,使得該清潔布本體(1)隨壓 力重複釋放與吸收水分,產生一邊刮除一邊吸收髒水與 去除灰塵污垢之效果,並可避免在拖地過程產生拖把面 板翻覆的現象。。 接著請參閱第6圖,爲本發明第二種實施態樣,如圖 黑框線處所示,該襯墊(22)係有1/2的面積相互重疊 在一起,因此由於襯墊(22)厚度的關係,在襯墊(22) 中央重疊處將產生較高的高度,也就是清潔布本體(1) 之中間將會隆起較高,而往兩邊將會漸次降低高度’依 此方式配置襯墊(22),則摩擦力將主要集中於清潔布 本體(1 )之中央部位,產生刮除灰塵或污垢之功效’ 尤其對於清理濕清潔表面,本實施態樣之濕式立體清潔 8 200800089 布將可產生如玻璃刮刀之效果,將髒泥刮除,並且將髒 水、污泥收集在中央凸起部位之兩側,同時藉吸水材料 之配置調節水量之釋放吸收。 續請參閱第7圖,爲本發明之第三種實施態樣,如圖 中粗黑框線所示,該襯墊(22)係可配置爲類似S型, 用以增加清潔布本體(1 )之摩擦力。由於襯墊(22 ) 以S型平均配置於清潔布本體(1)上,因此當使用者 _ 在操作時,會感覺到摩擦力平均施加於整片清潔布本體 (1)上,而擁有較舒適的施力手感,同時亦可達到上 述之一邊刮除一邊收容污水、灰塵污垢之效果。 另外襯墊(22)除了上述之配置形狀,亦可形成爲U 形、弧線及波浪狀或者是將襯墊(22 )製作成片狀,整 片置於該清潔布本體(1)內,藉以增加清潔布本體(1) 局部或全部區域的摩擦力,同時減低整片清潔布本體 (1)在清潔時之阻力,避免因清潔布本體(1)與待清 ® 潔表面因水之阻力,而使得清掃時產生沾黏遲滯、重 拖,並可避免在拖地過程產生拖把面板翻覆的現象。 本發明所採用之耐磨不織布(21)之材料爲水針布、 熱融不織布等含水或吸水性之材質,並具有良好的水分 吸收、釋放效果;基布(24)材料可爲不透水之化學纖 維或天然纖維如PE或PET等,如此可減少不必要的水 分浪費,並保持掃具(如平面拖把)的乾爽。而襯墊(22) 之材料則可爲濕式立體清潔布在製造加工時因裁切所 9 200800089 產生之布條,也可以是添加的其他材料,同時該襯墊 (22 )之材質,係至少部分含有含水之性質’例如 RAYON、COTTON,以及具吸水,但不含水的材質’如 PP、PET等。該襯墊(22)之材質亦可爲海綿’使得清 潔布本體(1 )過多的水分得以儲存,待清潔時再緩慢 釋出,同時該水分亦可添加清潔劑,在水分儲存與釋放 間達成良好的清潔去污效果。 p 基布(24)、耐磨不織布(21)與襯墊(22),係使用 超音波點焊的技術,以點狀的方式來焊接上述之各層材 料,以減低焊接設備之功率輸出。當然,若採用物理縫 合等手段來固定各層材料與襯墊亦是可行的。 同時本發明之濕式立體清潔布最佳係配合具有平面 面版的拖把使用,且以耐磨不織布(21)來接觸待清潔 表面,而基布(24)則可用來與平面面版的拖把結合, 以提供固定之用。該耐磨不織布(21 )係用於強調該不 ® 織布之材質係具有較佳之耐磨性質,以防止不織布之棉 絮脫落,惟若待清潔面是光滑的,則該耐磨不織布(21) 亦可爲一般之不織布。 以上之較佳實施例僅是用來解說本發明之最佳實 施方式’本發明之專利範圍仍應以申請專利範圍所載爲 準。 10 200800089200800089 IX. Description of the Invention: [Technical Field] The present invention relates to a cleaning cloth, in particular to a wet cleaning cloth having a plurality of layers of structure capable of uniformly storing and releasing moisture, and the cleaning surface of the cleaning cloth is presented It is three-dimensional. [Prior Art] Conventional dust-removing papers are mostly made of disposable materials. The materials used are relatively thin and thin. Therefore, the effect of ash storage and collection is poor. Due to the material relationship, it is not suitable for the cleaning of wet surfaces. Figures 1 to 3 are the new patents of the Taiwan Patent Publication No. 5921 18 entitled "Modified 3D Dust-Removing Paper", which is typical of a dry-type dust-removing paper. As shown in the figure, the prior patent is mainly in multiple layers. The accommodating layer 11 is disposed on both sides of the intermediate layer 12 of the dust-removing paper, and the accommodating layer 1 1 is provided with a plurality of accommodating spaces 9 for allowing dirt and dust to be accommodated in the accommodating space 9, φ The accommodating space 9 is provided with ribs 8 extending in different directions, and the ribs 8 are adhered to the accommodating layer 11 with high frequency, so that the ribs 8 and the accommodating space 9 form a corresponding function. And the adhesive layer body 1 is respectively adhered to a mop body 2 (see FIG. 2), and the two ends of the receiving layer 11 are respectively A plurality of tabs are extended outside, and the tabs extend into the gap of the object to be cleaned. However, the dry dust-removing paper (cloth) has poor water absorption and no storage, 5 200800089 average moisture release design, so once used to clean the wet surface, dust and dirt easily move along the edge of the dust-removing paper (cloth), and the wet surface The moisture cannot be dried, causing inconvenience in use. SUMMARY OF THE INVENTION In view of the disadvantages of the prior art, the inventors of the present invention have proposed a wet three-dimensional cleaning cloth, wherein the structure of the wet three-dimensional cleaning cloth is provided with one or more linings between the base cloth and the wear-resistant non-woven fabric. The pad makes the cleaning surface of the wet three-dimensional cleaning cloth appear three-dimensional, thereby collecting a large amount of sewage and dirt in one or more three-dimensional spaces and excess water by hydrophilic wear-resistant non-woven fabric and padding Since the cleaned surface of the wet three-dimensional cleaning cloth is formed in a three-dimensional shape, the frictional force can be more concentrated during cleaning, and the effect of releasing or absorbing moisture while accommodating dust and dirt while scraping off is generated. The wet three-dimensional cleaning cloth is used in the manufacturing process to feed the absorbent cloth or sponge into the base fabric and the wear-resistant non-woven fabric via the guiding mechanism, thereby producing economical and effective effects. Wet three-dimensional cleaning cloth. In use, the wet three-dimensional cleaning cloth of the present invention can stably release or absorb the amount of water, and since the cleaning cloth is formed into a three-dimensional shape by the gasket, the frictional force of the cleaning cloth in contact with the surface to be cleaned during cleaning is not excessively large. It can avoid the phenomenon that the mop panel is overturned during the mopping process. [Embodiment] In order to achieve the various objects of the above invention, a preferred embodiment of the invention has been proposed. Please refer to FIGS. 4A and 4B for a plan view and a cross-sectional view of the present invention. The virtual line formed by the two black arrows in FIG. 4A is the reference line sampled by the cross-sectional sub-picture of FIG. 4B. As shown in Figures 4A and 4B, the cleaning cloth body (1) is mainly composed of a base fabric (24) and a wear-resistant non-woven fabric (21), and the base fabric (24) and the wear-resistant non-woven fabric (21). A plurality of spacers (22) are disposed in the middle to hold the cleaning cloth body (1) partially to form a three-dimensional layer as shown in FIG. 4B. The wear-resistant non-woven fabric (21) having a composite layer structure is cut by a cutter wheel and has a plurality of triangular ribs (7), and a plurality of ribs (7) can be opened under the majority of the ribs (7). Space (9), the majority of the ribs (7) can help push dust or dirt into the accommodating space (9) for accommodating dust or dirt, and then cooperate with the cleaning cloth body partially lining the gasket (22) (1), it can form a multi-layer three-dimensional shape of the dust-removing cloth, achieving excellent cleaning, absorption and release of water. The liner (22) used in the embodiment of the present invention may be a non-woven fabric (21) for cutting the remaining strip waste during the production process, as shown in Fig. 4A, because the wear-resistant non-woven fabric (21) is on both sides. The size is cut smaller than the base fabric (24), so the waste on both sides of the wear-resistant non-woven fabric (21) can be used as the substrate of the liner (22), and the width of the liner (22) can be cut off. The size of the scrap comes from adjustments. At the same time, the liner (22) can use a hydrophilic material such as a sponge, a natural or man-made fabric to provide the function of absorbing and releasing moisture, and further controlling the amount of moisture absorbed and released during cleaning. Referring to FIG. 5, a first embodiment of the present invention, wherein the two pads (22) are respectively sandwiched between 7 200800089 base fabric (24) and wear-resistant nonwoven fabric (2 1 ), The thick black line in the figure indicates where the two linings (22) are broken. Therefore, the cleaning cloth body (1) of the first embodiment will be partially convex at the side of the liner (22) as shown in the cross-sectional view at the bottom of Fig. 4, on the cleaning cloth body (1). Forming two elongated convex spaces, so when dragging the wet three-dimensional cleaning cloth of the present invention, the long slit between the two convex spaces, and the sides of the two convex spaces, can be scraped Except for a large amount of dirty water, dust or dirt, and absorb excessive moisture by the absorbent non-woven fabric (21) and the gasket (22), and release it when the cleaning water is small, so that it can be cleaned By means of the three-dimensional shape, the frictional force is concentrated on the convex portion of the wet three-dimensional cleaning cloth. In use, the cleaning cloth body (1) is repeated with the pressure due to the pressing pressure path generated when the user drags the mop. Releases and absorbs moisture, which produces the effect of absorbing dirty water and removing dust and dirt while scraping, and avoids the phenomenon that the mop panel is overturned during the mopping process. . Referring to FIG. 6 again, in accordance with a second embodiment of the present invention, as shown in the black line of the present invention, the pads (22) have 1/2 of the area overlapped with each other, and thus the liner (22) The relationship of the thickness will produce a higher height at the center overlap of the liner (22), that is, the middle of the cleaning cloth body (1) will be raised higher, and the height will gradually decrease toward both sides. The pad (22), the friction will mainly concentrate on the central part of the cleaning cloth body (1), resulting in the effect of scraping dust or dirt ' Especially for cleaning the wet cleaning surface, the wet stereo cleaning of this embodiment 8 200800089 The cloth will produce the effect of a glass scraper, scraping off the dirty mud, and collecting the dirty water and sludge on both sides of the central raised portion, and adjusting the release of the water amount by the configuration of the water absorbing material. Continuing to refer to FIG. 7, a third embodiment of the present invention, as shown by the thick black line in the figure, the pad (22) can be configured to be similar to the S shape for adding the cleaning cloth body (1). ) the friction. Since the pad (22) is evenly disposed on the cleaning cloth body (1) in an S-shape, when the user_ operates, it is felt that the frictional force is equally applied to the entire cleaning cloth body (1), and has a higher Comfortable force feel, but also can achieve the effect of one side of the scraping side to contain sewage, dust and dirt. In addition, the pad (22) may be formed in a U shape, an arc shape, and a wave shape in addition to the above-described configuration shape, or the pad (22) may be formed into a sheet shape, and the entire piece is placed in the cleaning cloth body (1). Increase the friction of the cleaning cloth body (1) in part or all of the area, and reduce the resistance of the entire cleaning cloth body (1) during cleaning, so as to avoid the water resistance caused by the cleaning cloth body (1) and the cleaning surface. It causes sticking hysteresis and heavy towing during cleaning, and can avoid the phenomenon that the mop panel is overturned during the mopping process. The material of the wear-resistant non-woven fabric (21) used in the invention is water-containing or water-absorbent material such as water-needle cloth, hot-melt nonwoven fabric, etc., and has good moisture absorption and release effects; the base cloth (24) material can be impervious to water. Chemical fiber or natural fiber such as PE or PET can reduce unnecessary water waste and keep the sweeper (such as flat mop) dry. The material of the gasket (22) may be a cloth strip produced by the cutting machine 9 200800089 during the manufacturing process, or may be other materials added, and the material of the gasket (22) is At least partially contains water-containing properties such as RAYON, COTTON, and materials that absorb water but do not contain water, such as PP, PET, and the like. The material of the pad (22) can also be a sponge, so that too much moisture of the cleaning cloth body (1) can be stored, and then slowly released when it is cleaned, and the moisture can also be added with a cleaning agent, which is achieved between moisture storage and release. Good cleaning and decontamination effect. The p-base fabric (24), the non-woven fabric (21) and the liner (22) are ultrasonically spot-welded to weld the above-mentioned layers in a point-like manner to reduce the power output of the welding equipment. Of course, it is also feasible to use physical seaming and the like to fix the layers of material and the liner. At the same time, the wet three-dimensional cleaning cloth of the invention is preferably used with a mop having a flat surface plate, and the non-woven fabric (21) is used to contact the surface to be cleaned, and the base cloth (24) can be used for the mop with the flat surface plate. Combined to provide a fixed use. The non-woven fabric (21) is used to emphasize that the material of the non-woven fabric has better wear resistance to prevent the batt of the non-woven fabric from falling off, but if the surface to be cleaned is smooth, the wear-resistant non-woven fabric (21) It can also be a general non-woven fabric. The above preferred embodiments are merely illustrative of the preferred embodiments of the invention. The scope of the invention should be determined by the scope of the claims. 10 200800089
【圖式簡 第1圖爲 第2圖爲 第3圖爲 第4A圖 第4B圖 第5圖爲 思圖, 第6圖爲 回 · 思圖, 第7圖爲 意圖。 單說明】 先前技術之除塵布的剖面圖; 先前技術之除塵布的使用狀態圖; 先前技術之除塵布的局部放大圖; 爲本發明之除塵布的俯視圖; 爲本發明之除塵布的局部剖面圖; 本發明之第1實施型態之濕式立體清潔布的示 本發明之第2實施型態之濕式立體清潔布的示 本發明之第3實施型態之濕式立體清潔布的示[Simplified in the drawing Figure 1 is the second picture, the third picture is the 4A picture, the 4th picture, the fifth picture is the thinking picture, the sixth picture is the back · thinking picture, the seventh picture is the intention. A single sectional view of a dust removing cloth of the prior art; a state of use of the dust removing cloth of the prior art; a partial enlarged view of the dust removing cloth of the prior art; a top view of the dust removing cloth of the present invention; a partial section of the dust removing cloth of the present invention Fig. shows a wet three-dimensional cleaning cloth according to a second embodiment of the present invention, and a wet three-dimensional cleaning cloth according to a second embodiment of the present invention.
II 200800089 【主要元件符號說明】 1…清潔布本體 7、8…肋片 9 …容置空間 21…耐磨不織布 22…襯墊 24…基布 ❿II 200800089 [Description of main component symbols] 1...cleaning cloth body 7,8...ribs 9 ... accommodating space 21...wear-resistant non-woven fabric 22...cushion 24...base fabric ❿
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