M257113 捌、新型說明: 【新型所屬之技術領域】 本創作係指一種浸潰手套之新型結構,其手套本體係 具有塗覆層,該塗覆層係由電離子防黴抗菌劑所構成,進 5而可在穿戴使用時具有戳殺細菌病毒以及抗菌效果。 【先前技術】 按,習用之浸潰手套(4)(如圖一所示)通常係使用後 即拋棄,然而經查手套在行為的使用當中難免會接觸不同 之細菌或病毒,當其不小心接觸病人或者手套戴脫過程不 10小心接觸皆有可能導致病人或者使用者自己受到細菌、病 毒感染之虞。 有鑑於此,本創作者乃加以研究改良而創作設計出一 種浸潰手套之新型結構。 是以本創作之主要目的乃在於提供一種浸潰手套之 15新型結構,其手套本體係具有塗覆層,進而可在穿戴使用 與醫療過程中均具有戳殺細菌病毒以及抗菌效果者。 【新型内容】 一種浸潰手套之新型結構,其特徵乃在於:該浸潰手 套係由手套本體披覆一外塗覆層與内塗覆層,且其中該外 20塗覆層與内塗覆層皆係由電離子防黴抗菌劑所構成之薄 膜層’進而在穿戴使用接觸病毒細菌時具有戳殺細菌病毒 以及抗菌效果,且使用者之手部與手套本體的内塗覆層接 觸部位亦具有戳殺細菌病毒以及抗菌效果。 另者’前述手套本體之外塗覆層或内塗覆層所構成之 M257113 電離子防黴抗菌劑係利用特殊交聯之方式處理(此種技術 非本案申請之範圍故不另贅述)而構成,因此可與手套本 體產生鍵結,使殺菌效果與手套本體結合為一,而此種電 離子防黴抗菌之殺菌原理係利用電擊及戮刺方式殺菌,而 5由於内、外塗覆層皆係為電離子防黴抗菌劑所構成,且其 各具有分佈緊密均勻之正電離子電耦場,當一般病毒帶負 電離子經過後會被正電耦吸附進而殺死病毒,而其不但不 會傷害人體亦不會影響環境生態,且亦具有抗靜電果效。 茲配合圖式詳加說明如后。 10【實施方式】 如圖二所示,本創作一種浸潰手套之新型結構,係包 括有一橡膠/塑膠成形之手套本體(1),該手套本體(1)具 有手指部位(11)、手掌部位(12)與手腕部位⑽而概略呈 手形輪廓; 15 其特徵乃在於: 該浸潰手套之手套本體(1)乃具有一外塗覆層(2)(參 考圖二),該外塗覆層(2)係由電離子防黴抗菌劑所構成之 薄膜層,進而可在穿戴使用接觸病毒細菌時具有戳殺細菌 病毒以及抗菌效果。 20 再者’參考圖三所示係本創作之另一實施例,該浸潰 手套係由手套本體(1)彼覆一外塗覆層(2)與内塗覆層(3), 且其中該外塗覆層(2)與内塗覆層(3)皆係由電離子防黴 抗菌劑所構成之薄層,進而在穿戴使用接觸病毒細菌時具 有戳殺細菌病毒以及抗菌效果,且使用者之手部與手套本 M257113 體(1)的内塗覆層(3)接觸部位亦具有戳殺細菌病毒以及 抗菌效果。 、 另者’前述手套本體(1)之外塗覆層(2)或内塗覆層(3) · 所構成之電離子防黴抗菌劑係利用特殊交聯之方式處理 5 (此種技術非本案申請之範圍故不另贅述)而構成,因此可 與手套本體(1)產生鍵結,使殺菌效果與手套本體(1)結合 為一,而此種電離子防黴抗菌之殺菌原理係利用電擊及戮 刺方式殺菌,而由於内、外塗覆層(3)(2)皆係為電離子防 黴抗菌劑所構成,且其各具有分佈緊密均勻之正電離子電 _ ίο耦場,當一般病毒帶負電離子經過後會被正電耦吸附進而 殺死病毒,而其不但不會傷害人體亦不會影響環境生態, 且亦具有抗靜電果效。 綜上所述,本創作可歸納具有下列增進功效·· 1·手套本體(10)具有電離子防徽抗菌劑所構成之内、外塗 15 覆層(3)(2),進而可在穿戴使用與醫療過程中均具有戳 殺細菌病毒以及抗菌效果。 2·手套本體(1)之内、外塗覆層(3)(2)皆係為電離子防黴鲁 抗菌劑所構成,乃具有分佈緊密均勻之正電離子電耦 場,當一般病毒帶負電離子經過後會被正電耦吸附進而 20 殺死病毒,可有效達到戳殺細菌病毒以及抗菌作用,且 其不但不會影響環境生態,且亦具有抗靜電果效。 是以’本案創作乃確具其實用增進功效,乃謹以新型 專利申請之,懇請鈞局貴審查委員予以詳查並賜准專 利,至感德便。 7 M257113 惟,以上所述者僅為本創作之較佳實施例而已,當不 能以之限定本創作實施之範圍,舉凡依本創作申請專利範 圍所作之均等變化與修飾皆應仍屬本創作涵蓋之專利範 圍内。 5【圖式簡單說明】 圖一係習用浸潰手套之斷面示意圖。 圖二係本創作實施例之斷面示意圖。 圖三係本創作另一施例之斷面示意圖。 圖號說明: ίο (1)手套本體(11)手指部位(12)手掌部位(13)手腕部 位(2)外塗覆層(3)内塗覆層M257113 新型 Description of the new type: [Technical field to which the new type belongs] This creation refers to a new structure of impregnated gloves. The glove has a coating system in the system. The coating layer is composed of an ionized mold and antibacterial agent. 5 It can kill bacteria and viruses and antibacterial effect when worn. [Previous technology] Press, the conventional immersion gloves (4) (shown in Figure 1) are usually discarded after use. However, it is inevitable that the gloves will be exposed to different bacteria or viruses during the use of behavior. Careless contact with the patient or wearing or removing gloves may cause the patient or the user to be infected by bacteria or viruses. In view of this, the author researched and improved and created a new structure of impregnated gloves. The main purpose of this creation is to provide a new type of structure of impregnated gloves. The glove has a coating system, which can also kill bacteria and viruses and antibacterial effects during wear and use and medical treatment. [New content] A new type of impregnated glove is characterized in that the impregnated glove is covered with an outer coating layer and an inner coating layer by the glove body, and wherein the outer 20 coating layer and the inner coating layer The layers are all thin film layers made of anti-fungal antibacterial agents, and they have the ability to kill bacteria and viruses and antibacterial effects when they are exposed to viruses and bacteria. The contact area between the user's hand and the inner coating layer of the glove body is also With anti-bacterial and anti-bacterial effect. In addition, the M257113 electric ion mold and antibacterial agent composed of the aforementioned outer coating layer or inner coating layer of the glove body is processed by a special cross-linking method (this technology is not in the scope of the present application and will not be described in detail). Therefore, it can generate a bond with the glove body, so that the sterilization effect is combined with the glove body, and the sterilization principle of this kind of ion ion mold and antibacterial is sterilization by electric shock and stabbing, and 5 because the inner and outer coating layers are both It is composed of electric ion antifungal and antibacterial agent, and each of them has a positive and negative ion coupling field which is tightly and evenly distributed. When the negatively charged ions of a general virus pass through, they will be adsorbed by the positive ion coupling and kill the virus. Harm to the human body will not affect the environment and ecology, and also has antistatic effect. Detailed descriptions are given below in conjunction with the drawings. 10 [Embodiment] As shown in FIG. 2, a novel structure of impregnated gloves is created, which includes a rubber / plastic molded glove body (1), which has a finger part (11) and a palm part. (12) It is roughly in the shape of a hand with the wrist part; 15 It is characterized by: The glove body (1) of the impregnated glove has an outer coating layer (2) (refer to Figure 2), and the outer coating layer (2) It is a thin film layer composed of an anti-fungal antibacterial agent, which can also kill bacteria and viruses and antibacterial effects when exposed to viruses and bacteria when worn. 20 Furthermore, reference to FIG. 3 shows another embodiment of the present creation. The impregnated glove is covered with an outer coating layer (2) and an inner coating layer (3) on the glove body (1), and wherein The outer coating layer (2) and the inner coating layer (3) are both thin layers composed of an electric ion antifungal antibacterial agent, and further have a killing effect on bacteria and viruses and antibacterial effects when worn and exposed to the virus and bacteria. The contact part of the person's hand with the inner coating layer (3) of the glove M257113 body (1) also has a bactericidal and antibacterial effect. ”In addition, the outer coating layer (2) or inner coating layer (3) of the glove body (1) mentioned above is treated by a special cross-linking method of the ionomer mold and antibacterial agent 5 (this technology is not The scope of the application in this case is not described in detail), so it can be bonded to the glove body (1), so that the sterilization effect is combined with the glove body (1). Sterilization by electric shock and stabbing method, and because the inner and outer coating layers (3) (2) are all made of anti-ion mold and antibacterial agent, and each of them has a tightly and uniformly distributed positive-electron field_ ίο coupling field, When the negatively charged ions of the virus pass through, they will be adsorbed by the positive coupler and kill the virus. It will not only harm the human body, but will not affect the environment and ecology. It will also have an antistatic effect. In summary, this creation can be summarized as having the following enhancement effects: 1. The glove body (10) has an inner and outer coating of 15 coatings (3) (2) made of anti-ionic anti-bacterial antibacterial agent, which can be worn on the body. It has antibacterial effect and antibacterial effect during use and medical treatment. 2. The inner and outer coatings (3) and (2) of the glove body (1) are made of anti-fungal and anti-bacterial agents, and have a tightly and uniformly distributed positive-electron coupling field. The negatively charged ions will be adsorbed by the positive coupler to kill the virus, which can effectively kill bacteria and viruses and antibacterial effect, and it will not only affect the environment and ecology, but also have antistatic effect. Therefore, the creation of this case really has its practical and useful effects. It is for the application of a new type of patent. We invite the examiner of the Bureau to examine it carefully and grant a patent. 7 M257113 However, the above is only a preferred embodiment of this creation. When the scope of the implementation of this creation cannot be limited, all equivalent changes and modifications made in accordance with the scope of the patent application for this creation should still be covered by this creation. Within the scope of patents. 5 [Schematic description] Figure 1 is a schematic sectional view of a conventional immersion glove. Fig. 2 is a schematic sectional view of this creative embodiment. Figure 3 is a schematic sectional view of another embodiment of this creation. Drawing number description: (1) glove body (11) finger part (12) palm part (13) wrist part (2) outer coating layer (3) inner coating layer