M345577 八、新型說明: 【新型所屬之技術領域】 本新型係一種自動給皂機之出皂機構,尤指一種具有 倍增出皂量的機構。 【先前技#?】 自動給皂機大量應用於居家或公共的場所,提供人們 經由感應輸出皂液,以不必接觸皂液供給裝置的衛生使用 方式。 φ 自動給皂機的出皂方式係利用電力驅動的擠壓機構去 推或擠壓一貯存有皂液的皂包或輸出管,並藉由設定擠壓 行程或擠壓時間,而得以輸出固定量的皂液。然而上述固 定皂液的輸出,卻不能滿足所有的使用需求,例如有些使 用環境污穢不堪、有些使用者認為較多量皂液始能達清潔 效果的迷思,或是有些人認為皂液太稀,這些都是造成固 定出皂量不符需求的原因。另外,在相同的出皂機構作用 下,濃稠的皂液可能比稀薄的皂液的出皂量多,這是因為 ⑩ 稀薄的皂液容易向上回流,雖然兩者間皂液量的變化甚 微,但使用者卻有明顯變化的錯覺。 在大量生產的給皂機上,並不會針對不同的使用對象 ^ 或環境來提供特定出皂量的機種,其僅是提供一種最普及 . 或最低需求出皂量的機種,而特殊使用者有增加出皂量的 需求時,只能重複數次出皂操作至滿足為止,但使用者通 常並未聯想到此舉所招致的電力及機器壽命的減損,而且 也耽誤了時間。 5 M345577 【新型内容】 為解決前述先前技術之缺失,因此本新型提供— 動給皂機,其具有一種出皂量倍增機構,以期可以彈性自 或固疋地增加皂液的輸出量,使符合不同的使用需长 也 如上述之一種具有倍增出皂量之自動給皂機,包 在給皂機内部由一馬達及一減速機所組成的驅動装置,又 中減速機的輸出端連接—推桿,而—抵板設於推桿= 向侧的給皂機内部機殼上;以及,一皂筒,其底 : ,出管並位於前獅桿及抵板之間。如此之自動給急了 八出皂量倍增機構的特徵在於:一塾 人 對向於推桿的/ 4抵板 1貼近輸出管中段部橡膠管的外瞢 出丄f此^科變給4機既有㈣輸《構及推桿的輸 近ΓΓ至 板娜有抵板更貼 使得推桿朝抵板側推移的特性’ 完成-行程為止,據此,可以、/進仃I液輸出直到推桿 出矣量,例如既知出急機構=既知出皂機構倍增的 出皂量為2cc。 每量為lcc,則本新型的 如上述本新型之自動給皂 墊片較佳的係以任何可活動拆告之出皂量倍增機構,其中 合於抵板上,以提供使用者卩的方式如嵌合、扣合等結 液的黏稠度等因素,而自行,據專液使用量的需求、皂 當欲增加皂液輸出量時可是否增加皂液輸出量,且 上;而無此需求時,則可τ 片方便快速地結合於抵板 、jT不必、塾片或將塾片自抵板上 6 M345577 卸除。 根據上述的出皂量達成方式,亦可選擇將墊片直接固 疋結合於抵板上;或是’於形成抵板時,直接延伸加長抵 板朝皂液輪出管方向的寬度,而達成倍增出皂量的目的, 但此方式則未具有前述活動式結合墊片般可回復正常出皂 量的功能。 - 如前述之自動給皂機之出皂量倍增機構,其中皂筒的 - 輪出管的中段部橡膠管的硬度較佳為HS50〜HS55(蕭氏硬 _ 度’ Shore Hardness) ’使皂筒輸出管受推桿及抵板、墊 片共擠壓時,較既有輸出管產生較小的阻力並能產生更大 的變形量,以更能達成出皂量倍增的目的。 以下為配合圖式及較佳實施例,以詳細說明本新型之 構造特徵及其功效。 【實施方式】 本新型之一種給皂機之出皂量倍增機構的較佳實施例 如第一圖所示,該自動給皂機1〇包括設在内部由一馬達11 及-減速機12所組成的驅動裝置,且減速機12的輸出端連 接-推桿13 ; -抵板14設於推桿13前進方向側的給息機内 部機殼15上,-皂筒20,其底部具有—輸出管21,並使輸 '出管21位於前述推桿13及抵板14之間;以及,一墊片3〇 -或墊塊,係結合於前述抵板14對向於推桿13的一侧,並貼 近輸出管21外表面。 請爹閱第二、三圖,如上述的塾片3〇,較佳的以可活 動拆裝地結合於抵板14上,而其活動結合結構如第二圖所 7 M345577 示,可以是於抵板14朝推桿13的一側設一如嵌合槽141的 欲合,構’而相對於墊片3G —侧設與喪合槽141可對應欲 接的喪合塊31之傲合結構;歧,如第三圖所示於塾片4〇 朝抵板14的一側設一散合槽41,独此嵌合槽41套置於抵 板14朝向推桿13的一侧142。 一 请茶閱第四、五圖。在不改變給皂機1〇既有皂液輸出 機構及推桿13的輪出行程的情形τ,分職抵板14上裝設 有墊片30的實施模式一(第四圖)與墊片3〇未裝設於抵板M345577 VIII. New description: [New technical field] This is a soaping mechanism for automatic soap dispensers, especially a mechanism with doubled soap. [Previous technology #?] Automatic soap dispensers are widely used in homes or public places to provide a way for people to output soap through induction without having to contact the soap supply device. φ The soaping method of the automatic soaping machine uses an electric driving pressing mechanism to push or squeeze a soap bag or an output tube storing soap liquid, and the output is fixed by setting the pressing stroke or the pressing time. Amount of soap. However, the output of the above fixed soap liquid can not meet all the use requirements, for example, some use environments are filthy, some users think that a large amount of soap liquid can achieve the cleaning effect, or some people think that the soap liquid is too thin. These are the reasons why the amount of fixed soap does not meet the demand. In addition, under the same soaping mechanism, the thick soap liquid may have more soap than the thin soap liquid, because 10 thin soap liquid is easy to reflux upward, although the amount of soap liquid changes between the two. Micro, but the user has the illusion of obvious change. In mass-produced soap dispensers, it does not provide a specific amount of soap for different use objects or environments. It only provides one of the most popular or lowest-demand soap types, while special users. When there is a need to increase the amount of soap, the soaping operation can only be repeated several times until the satisfaction is satisfied, but the user usually does not think of the loss of power and machine life caused by the action, and also delays the time. 5 M345577 [New content] In order to solve the above-mentioned lack of prior art, the present invention provides a soap dispenser with a soap multiplication mechanism, which can increase the output of the soap liquid elastically or solidly, so as to meet the requirements. Different use needs to be as long as the above-mentioned automatic soaping machine with doubled soap amount, which is composed of a driving device composed of a motor and a speed reducer inside the soaping machine, and the output end of the speed reducer is connected-push a rod, and the plate is disposed on the inner casing of the soap dispenser on the side of the pusher; and a soap pot, the bottom of which is: the outlet tube is located between the front lion and the abutment plate. The feature of the automatic rushing eight-boiler multiplier mechanism is that a 塾 对 对 推 4 4 4 1 1 1 1 贴 贴 贴 1 1 贴 贴 贴 贴 橡胶 橡胶 橡胶 橡胶 橡胶 ^ ^ ^ ^ ^ There is a (four) loss "construction and putter of the near ΓΓ 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性 特性The amount of rods emitted, for example, is known to be an emergency mechanism = the amount of soap that is multiplied by the soap mechanism is 2 cc. For each quantity of lcc, the automatic soaping pad of the present invention as described above is preferably a movable multi-disposal mechanism, which is fitted to the plate to provide a user's way of smashing. Such as the consistency of the liquid, such as chimerism, fastening, etc., and according to the demand of the use of the special liquid, whether the soap can increase the output of the soap when it is desired to increase the output of the soap, and above; In this case, the τ piece can be easily and quickly combined with the plate, the jT is not necessary, the cymbal piece or the cymbal piece is removed from the 6 M345577. According to the above method for achieving the amount of soap released, it is also possible to selectively bond the gasket directly to the abutting plate; or to directly extend the width of the elongated plate toward the outlet of the soap liquid wheel when forming the plate. The purpose of multiplying the amount of soap, but this method does not have the function of returning the normal amount of soap as in the above-mentioned movable type combined with the gasket. - The soaping amount multiplication mechanism of the automatic soaping machine as described above, wherein the hardness of the middle portion of the rubber tube of the soap tube is preferably HS50~HS55 (Shore Hardness ' Shore Hardness' When the output tube is co-extruded by the push rod and the anti-plate and the gasket, the output tube has less resistance and can generate a larger deformation amount, so as to achieve the purpose of multiplying the amount of soap. The following is a schematic diagram and a preferred embodiment to explain in detail the structural features of the present invention and its effects. [Embodiment] A preferred embodiment of the soaping amount multiplying mechanism of the present invention is as shown in the first figure. The automatic soaping machine 1 includes an internal motor 11 and a speed reducer 12. Drive device, and the output end of the reducer 12 is connected to the push rod 13; the resisting plate 14 is disposed on the inner casing 15 of the feeder of the pusher 13 on the advancing direction side, the soap pot 20 has a discharge tube at the bottom thereof 21, and the output 'outlet tube 21 is located between the push rod 13 and the abutting plate 14; and a spacer 3〇- or a pad is coupled to the side of the abutting plate 14 opposite to the push rod 13, And close to the outer surface of the output tube 21. Please refer to the second and third figures, such as the above-mentioned cymbal 3 〇, preferably movably attached to the splicing plate 14, and the movable coupling structure is as shown in the second figure 7 M345577, which may be The abutting plate 14 is provided with a fitting groove 141 on one side of the push rod 13, and is disposed on the side of the spacer 3G with respect to the spacer 3G. As shown in the third figure, a dispersing groove 41 is provided on the side of the baffle plate 4 toward the abutting plate 14, and the fitting groove 41 is placed on the side 142 of the abutting plate 14 facing the push rod 13. Please read the fourth and fifth pictures of tea. In the case where the soaping machine 1 does not change the take-up stroke of the soap liquid output mechanism and the push rod 13, the implementation mode 1 (fourth figure) and the gasket on which the spacer 30 is mounted on the substack 14 3〇 is not installed on the board
14上的實施模式二(第五圖)進行其出皂量的比較;而第 四、五圖中的推桿13朝抵板的一侧皆已觸接至輸出管21的 表面,甚至產生輕微壓陷。如第四圖所示,當墊片3〇裝設 於抵板14後,將使抵板14朝輸出管外表面前進15〜2 腿,即輸出管21的中段部橡膠管211外管面更貼近或甚至 已接觸於墊片3G表面;因此,在推和朝抵板㈣推移的 瞬間’皂液5G馬上輸出直到推桿13完成—行程為止。反 之’實施模式二的推桿開始她板14侧轉時,僅先將輸 出管21朝抵板14側推移,直到輪出管-侧被抵板14抵頂時 才輸出皂液直到推桿完成—行程·,就實施模式二而言,推 3開始運2後具有一段只推移輸出管但未輸出皂液的行 杈式一的推桿全行程皆有輸出皂液相比 I 5出皂機構及使用相同黏度的皂液測試所得的結 果,杈式一的出皂量約為模式二的二倍。 、斤述僅為本新型最佳具體實施例,並非用以限制 8 M345577 本新型之構造特徵,且本新型領域之通常知識者根據本新 型技術所輕易思及之變化或修飾皆是可預知的;因此,本 新型之技術特徵以後附之申請專利範圍所述為依歸。 【圖式簡單說明】 第一圖為本新型之自動給皂機之出皂機構右側剖視 圖。 , 第二、三圖為本新型自動給皂機之出皂機構的局部結 構圖,其中第二圖顯示一墊片及其嵌入抵板的示意;而第 • 三圖顯示墊片與抵板結合的另一型態。 第四、五圖為既知及本新型的自動給皂機之出皂機構 的出息動作比較圖,其中第五圖顯示本新型於抵板一側加 設有墊片。 【主要元件符號說明】 10· · .自動給皂機 20· · .皂筒 11.. .馬達 21.. .輸出管 12.. .減速機 211. .中段部橡膠管 13· · .推桿 30· · .墊片 14.. .抵板 31.. .嵌合塊 141· .後合槽 40.. .墊片 142. .抵板側 41.. .散合槽 15. · .機殼 50· · .皂液The second embodiment (fifth figure) on the 14 performs a comparison of the amount of soap discharged; and the side of the push rod 13 in the fourth and fifth figures is contacted to the surface of the output tube 21, even slightly Indentation. As shown in the fourth figure, when the spacer 3 is mounted on the resisting plate 14, the resisting plate 14 is advanced toward the outer surface of the output tube by 15 to 2 legs, that is, the outer tube portion of the rubber tube 211 of the middle portion of the output tube 21 is further It is close to or even in contact with the surface of the spacer 3G; therefore, the soap liquid 5G is immediately outputted until the push rod 13 is completed-stroke at the moment of pushing and pushing the plate (four). On the other hand, when the pusher of the second embodiment starts to turn side of the plate 14, the output pipe 21 is first pushed toward the side of the abutting plate 14, and the liquid is discharged until the push-out pipe-side is abutted against the plate 14 until the pusher is completed. - Stroke · In the implementation mode 2, after the start of 2, there is a row of push-pull-type push-pulls with only one output tube but no liquid soap output. And using the same viscosity of the soap test results, the amount of soap produced by the formula 1 is about twice the mode two. The descriptions of the present invention are merely preferred embodiments of the present invention, and are not intended to limit the structural features of the present invention, and the changes or modifications that are readily conceived by those of ordinary skill in the art in light of the present disclosure are foreseeable. Therefore, the technical features of the present invention are described in the following claims. [Simple description of the drawing] The first figure is a right side sectional view of the soaping mechanism of the automatic soap dispenser of the present invention. The second and third figures are partial structural views of the soap-discharging mechanism of the novel automatic soap dispenser, wherein the second figure shows a gasket and its insertion into the plate; and the third figure shows that the gasket is combined with the plate. Another type of. The fourth and fifth figures are comparison diagrams of the action of the soap dispenser of the automatic soap dispenser of the present invention, and the fifth figure shows that the new type is provided with a gasket on the side of the plate. [Explanation of main component symbols] 10··. Automatic soap dispenser 20·· . Soap canister 11.. Motor 21.. Output tube 12... Reducer 211. Middle section rubber tube 13· · Putter 30··.shield 14..permeal plate 31..fitting block 141·. rear joint groove 40..shield 142..butting plate side 41..fitting groove 15.·. 50· · . Soap