TWI554334B - Nano - coating system and nano - coating method - Google Patents

Description

奈米塗佈系統與奈米塗佈方法Nano coating system and nano coating method

本發明是關於奈米塗料的塗佈技術領域，特別是一種可對載體之全表面(包含內表面或外表面)塗佈奈米塗料的奈米塗佈系統與奈米塗佈方法。The invention relates to the technical field of coating of nano coatings, in particular to a nano coating system and a nano coating method capable of coating a whole surface (including an inner surface or an outer surface) of a carrier with a nano coating.

傳統中，為了提高電子產品之外殼的防水度、硬度或防塵度等，可藉由在該外殼形成一奈米塗層，以強化該防水度、該硬度與該防塵度。Conventionally, in order to improve the waterproofness, hardness, dustproofness, and the like of the outer casing of an electronic product, a water-repellent degree, the hardness, and the degree of dustproof can be enhanced by forming a nano-coating layer on the outer casing.

一般形成該奈米塗層的方式，必須在該電子產品組裝之前，讓該外殼預先地塗佈該奈米塗料。常用的塗佈方式，係將該外殼浸泡在充滿該奈米塗料的一液體槽中，使得該奈米塗料附著在該外殼，藉以形成該奈米塗層。The manner in which the nanocoating is generally formed must be such that the outer coating is pre-coated with the nanocoating prior to assembly of the electronic product. A commonly used coating method is to soak the outer casing in a liquid tank filled with the nano paint so that the nano paint adheres to the outer casing to form the nano coating.

然而，前述的方式存在缺點，例如需要大量的奈米塗料、產生厚薄不均勻的該奈米塗層、需要較長的乾燥時間以及無法有效地控制該奈米塗料附著的多寡，而易形成廢材。However, the foregoing methods have disadvantages such as requiring a large amount of nano-coating, producing the nano-coating having a thick and uneven thickness, requiring a long drying time, and failing to effectively control the adhesion of the nano-coating, and easily forming waste. material.

有鑑於此，本發明提出一種奈米塗佈系統與奈米塗佈方法，以解決習知技術的缺失。In view of this, the present invention proposes a nano coating system and a nano coating method to solve the drawbacks of the prior art.

本發明提供一種奈米塗佈系統，能在一載體(特別是已經完成組裝之產品)之全表面上均勻地塗佈一奈米塗料。The present invention provides a nano coating system capable of uniformly coating a nano-coating on the entire surface of a carrier, particularly a product that has been assembled.

本發明根據上述的奈米塗佈系統，包含夾具單元、箱體與霧化產生單元，該夾具單元將該箱體切割成複數空間，該霧化產生單元將一奈米塗料霧化成一奈米氣體，該奈米氣體透過該載體的孔洞，在該等空間之間流動，以將該奈米塗料附著在該載體。According to the above invention, the nano coating system comprises a clamp unit, a box body and an atomization generating unit, and the clamp unit cuts the box into a plurality of spaces, and the atomization generating unit atomizes a nano paint into a nanometer. A gas that permeates through the pores of the carrier and flows between the spaces to adhere the nanocoating to the carrier.

本發明根據上述的奈米塗佈系統，在該等空間之其一者設置一氣孔單元，該氣孔單元提供一負壓(或稱一吸力)，以吸引位於該等空間之另其一者的該奈米氣體，以增加附著的速度與均勻度。According to the above-described nano coating system, the present invention provides a venting unit in one of the spaces, the venting unit providing a negative pressure (or a suction force) to attract the other of the spaces. The nano gas is used to increase the speed and uniformity of adhesion.

本發明根據上述的奈米塗佈系統，該等空間各包含氣孔單元，各該氣孔單元皆提供一負壓，且該等空間又各設置霧化產生單元，藉由操作該氣孔單元與該霧化產生單元，使得該奈米氣體可以在該等空間之間執行單向或雙向流動，以達成均勻地塗佈該奈米塗料的目的。According to the present invention, in the nano coating system, the spaces each include a venting unit, each of the venting units provides a negative pressure, and the spaces are each provided with an atomizing unit, by operating the vent unit and the mist. The unit is generated such that the nano-gas can perform a one-way or two-way flow between the spaces to achieve the purpose of uniformly coating the nano-coating.

本發明根據上述的奈米塗佈系統，更包含控制單元，該控制單元可執行一程序，該程序決定開啟該氣孔單元與該霧化產生單元所需的時間與次數。The present invention further comprises a control unit according to the above-described nanocoating system, the control unit being capable of executing a program which determines the time and number of times required to open the venting unit and the atomizing generating unit.

本發明根據上述的奈米塗佈系統，更包含前置箱體，該載體藉由該前置箱體調整該載體的潔淨度與濕度，以提高該奈米塗料附著該載體的良率。According to the nano coating system described above, the present invention further comprises a front box, wherein the carrier adjusts the cleanliness and humidity of the carrier by the front box to improve the adhesion of the nano paint to the carrier.

本發明根據上述的奈米塗佈系統，該霧化產生單元包含振動單元、壓力調整單元與溫控單元，該振動單元產生一振動力、該壓力調整單元提供加壓/減壓、以及該溫控單元提供一溫度，以將該奈米塗料霧化成該奈米氣體。According to the present invention, in the nano coating system, the atomization generating unit includes a vibration unit, a pressure adjustment unit, and a temperature control unit, the vibration unit generates a vibration force, the pressure adjustment unit provides pressure/decompression, and the temperature The control unit provides a temperature to atomize the nano-coating material into the nano-gas.

本發明提供一種奈米塗佈方法，係能在一載體均勻地塗佈一奈米塗料。The present invention provides a nano coating method capable of uniformly coating a nano-coating material on a carrier.

為達上述目的及其它目的，本發明係提供一種奈米塗佈系統，供在一載體塗佈一奈米塗料，該載體具有一孔洞，該奈米塗佈系統包含一夾具單元、一箱體與一霧化產生單元。該夾具單元形成一開孔。該開孔供插置該載體。該箱體包含一卡槽與一第一氣孔單元。該箱體形成一容置空間。該卡槽結合該夾具單元，以將該容置空間切割成一第一塗佈空間與一第二塗佈空間。該第一氣孔單元設置在該第一塗佈空間。其中，該第一塗佈空間與該第二塗佈空間藉由該夾具單元彼此不相通。該霧化產生單元設置在該第二塗佈空間。該霧化產生單元容置該奈米塗料，讓該奈米塗料霧化成一奈米氣體。該奈米氣體填充該第二塗佈空間。其中，該第一氣孔單元提供一負壓，透過該載體的該孔洞吸引該第二塗佈空間之該奈米氣體。在該奈米氣體自該第二塗佈空間流動至該第一塗佈空間的過程中，該奈米塗料附著在該載體。To achieve the above and other objects, the present invention provides a nano coating system for coating a nano-coating on a carrier, the carrier having a hole, the nano coating system comprising a clamp unit, a case And an atomization generating unit. The clamp unit forms an opening. The opening is for interposing the carrier. The box comprises a card slot and a first air cell unit. The box forms an accommodating space. The card slot is coupled to the clamp unit to cut the receiving space into a first coating space and a second coating space. The first venting unit is disposed in the first coating space. The first coating space and the second coating space are not in communication with each other by the clamp unit. The atomization generating unit is disposed in the second coating space. The atomization generating unit houses the nano coating to atomize the nano coating into a nanometer gas. The nano gas fills the second coating space. Wherein, the first venting unit provides a negative pressure, and the hole passing through the carrier attracts the nano gas in the second coating space. The nano-coating adheres to the carrier during the flow of the nano-gas from the second coating space to the first coating space.

為達上述目的及其它目的，本發明係提供一種奈米塗佈方法，在一載體塗佈一奈米塗料，該載體具有孔洞，該奈米塗佈方法包含，步驟(a)霧化液狀或固狀的該奈米塗料，以形成該奈米氣體；(b)該載體設置在一密閉空間，以將該密閉空間切割成一第一塗佈空間與一第二塗佈空間，其中該第一塗佈空間與該第二塗佈空間透過該孔洞連通；(c)在該第一塗佈空間產生一負壓以吸引在該第二塗佈空間的該奈米氣體，或在該第二塗佈空間產生一負壓以吸引在該第一塗佈空間的該奈米氣體；(d)該奈米氣體在該第一塗佈空間與該第二塗佈空間之間經由該孔洞流動，讓該奈米塗料附著在該載體。其中，藉由調整該負壓的大小、提供該負壓的時間與啟動該負壓的次數之至少其中一者，以決定該奈米塗料形成在該載體的厚度與均勻度。To achieve the above and other objects, the present invention provides a nano coating method for coating a nano-coating on a carrier, the carrier having pores, and the nano coating method comprising the step (a) atomizing liquid Or the solid coating of the nanoparticle to form the nano gas; (b) the carrier is disposed in a sealed space to cut the sealed space into a first coating space and a second coating space, wherein the a coating space is communicated with the second coating space through the hole; (c) generating a negative pressure in the first coating space to attract the nano gas in the second coating space, or in the second The coating space generates a negative pressure to attract the nano gas in the first coating space; (d) the nano gas flows between the first coating space and the second coating space through the hole, The nanocoating is allowed to adhere to the carrier. Wherein, the thickness and uniformity of the nano-coating formed on the carrier are determined by adjusting at least one of the magnitude of the negative pressure, the time during which the negative pressure is supplied, and the number of times the negative pressure is initiated.

相較於習知技術，本發明提供奈米塗佈系統能在一載體均勻地塗佈一奈米塗料，特別是該載體在組合之前與在組合之後皆可均勻地塗佈該奈米塗料。由於該奈米塗料採用霧化的方式，故可以減少該奈米塗料的浪費，也可以提高附著的良率。Compared with the prior art, the present invention provides a nano coating system capable of uniformly coating a nano-coating on a carrier, in particular, the carrier can be uniformly coated with the nano-coating before and after combining. Since the nano coating is atomized, the waste of the nano coating can be reduced, and the adhesion yield can be improved.

為充分瞭解本發明之目的、特徵及功效，茲藉由下述具體之實施例，並配合所附之圖式，對本發明做一詳細說明，說明如後：In order to fully understand the objects, features and advantages of the present invention, the present invention will be described in detail by the following specific embodiments and the accompanying drawings.

請參考圖1，係本發明第一實施例之奈米塗佈系統的結構示意圖。於圖1中，該奈米塗佈系統10能夠在一載體2塗佈一奈米塗料4，例如該載體2可為電子產品、機殼與智慧型手機等。於本實施例中，該載體2係以智慧型手機為例說明，該載體2具有孔洞22，例如耳機孔、揚聲孔與麥克風孔等。Please refer to FIG. 1 , which is a schematic structural view of a nano coating system according to a first embodiment of the present invention. In FIG. 1, the nanocoating system 10 is capable of coating a nano-coating 4 on a carrier 2, for example, the carrier 2 can be an electronic product, a case, a smart phone, or the like. In the embodiment, the carrier 2 is exemplified by a smart phone having a hole 22, such as a headphone hole, a speaker hole, a microphone hole, and the like.

該奈米塗佈系統10包含夾具單元12、箱體14與霧化產生單元16。The nanocoating system 10 includes a gripper unit 12, a case 14 and an atomization generating unit 16.

於本實施例中，該夾具單元12的形狀為矩形，且其材質為泡棉材質。該夾具單元12形成一開孔122，該開孔122的尺寸恰可緊密地固定該載體2。In this embodiment, the shape of the clamp unit 12 is rectangular, and the material thereof is made of foam material. The clamp unit 12 defines an opening 122 that is sized to closely secure the carrier 2.

該箱體14包含卡槽142與第一氣孔單元144。該卡槽142的尺寸可緊密地固定該夾具單元12。該箱體14形成一容置空間146。在該卡槽142結合該夾具單元12之後，該夾具單元12將該容置空間146切割成一第一塗佈空間1462與一第二塗佈空間1464。該第一氣孔單元144設置在該第一塗佈空間1462。其中，該第一塗佈空間1462與該第二塗佈空間1464藉由該夾具單元12彼此不相通。The case 14 includes a card slot 142 and a first air cell unit 144. The card slot 142 is sized to closely secure the clamp unit 12. The casing 14 forms an accommodation space 146. After the card slot 142 is coupled to the clamp unit 12, the clamp unit 12 cuts the accommodating space 146 into a first coating space 1462 and a second coating space 1464. The first vent unit 144 is disposed in the first coating space 1462. The first coating space 1462 and the second coating space 1464 are not in communication with each other by the clamp unit 12.

值得注意的是，該第一氣孔單元144可進一步包含泵浦(圖未示)，藉由該泵浦調整一氣壓，以產生一負壓(或稱一吸力)，於其它實施例中，該泵浦也可產生一正壓。於本實施例中，該第一氣孔單元144係以負壓為例說明，即該第一氣孔單元144產生該吸力，使得一氣流的流動方向係由該第二塗佈空間1464朝向該第一塗佈空間1462。It should be noted that the first vent unit 144 may further include a pump (not shown), and the pump adjusts a gas pressure to generate a negative pressure (or a suction force). In other embodiments, the first vent unit 144 The pump can also generate a positive pressure. In the embodiment, the first venting unit 144 is illustrated by taking a negative pressure as an example, that is, the first venting unit 144 generates the suction force, so that a flow direction of the airflow is directed from the second coating space 1464 toward the first Coating space 1462.

於另一實施例中，該奈米塗佈系統10更包含一過濾單元(圖未示)，供結合該第一氣孔單元144，以過濾該奈米氣體42。該過濾單元形成有複數氣孔(圖未示)，該等氣孔可以阻隔大於或等於該氣孔孔徑的粉塵，以及延長該第一氣孔單元144的使用壽命，更甚至於該泵浦的使用壽命。In another embodiment, the nano coating system 10 further includes a filtering unit (not shown) for combining the first venting unit 144 to filter the nano-gas 42. The filter unit is formed with a plurality of pores (not shown) which can block dust greater than or equal to the pore size of the pores, and extend the service life of the first pore unit 144, and even the service life of the pump.

該霧化產生單元16設置在該第二塗佈空間1464。該霧化產生單元16容置該奈米塗料4，以及讓該奈米塗料4霧化成一奈米氣體42。該奈米氣體42填充該第二塗佈空間1464。由於該第一氣孔單元144產生該負壓，因此，該奈米氣體42以該氣流的方向移動。在該奈米氣體42移動的過程中，由於受到該夾具單元12的阻擋，故在該第二塗佈空間1464之該奈米氣體42僅能(或大部分)從該孔洞22進入該第一塗佈空間1462。The atomization generating unit 16 is disposed in the second coating space 1464. The atomization generating unit 16 houses the nano-coating material 4 and atomizes the nano-coating material 4 into a nano-gas 42. The nano gas 42 fills the second coating space 1464. Since the first vent unit 144 generates the negative pressure, the nano gas 42 moves in the direction of the gas flow. During the movement of the nano-gas 42, due to the blockage of the clamp unit 12, the nano-gas 42 in the second coating space 1464 can only (or mostly) enter the first from the hole 22. Coating space 1462.

詳言之，由於該第一氣孔單元144提供該負壓，使得該載體2的該孔洞22可吸引該第二塗佈空間1464之該奈米氣體42，進而該奈米塗料4可在吸引過程中附著在該載體2，以完成均勻地塗佈。In detail, since the first venting unit 144 provides the negative pressure, the hole 22 of the carrier 2 can attract the nano-gas 42 of the second coating space 1464, and the nano-coating 4 can be in the attraction process. Attached to the carrier 2 to complete uniform coating.

值得注意的是，該霧化產生單元16更可包含振動單元(圖未示)與壓力調整單元(圖未示)、溫控單元(圖未示)。該振動單元產生一振動力、該壓力調整單元提供加壓與減壓、以及該溫控單元提供一溫度，供該奈米塗料4霧化成該奈米氣體42。It should be noted that the atomization generating unit 16 further includes a vibration unit (not shown) and a pressure adjustment unit (not shown) and a temperature control unit (not shown). The vibration unit generates a vibration force, the pressure adjustment unit provides pressurization and decompression, and the temperature control unit provides a temperature for atomizing the nano-coating material 4 into the nano-gas 42.

請參考圖2，係本發明第二實施例之奈米塗佈系統的結構示意圖。於圖2中，該奈米塗佈系統10'除包含第一實施例的該夾具單元12、該箱體14與該霧化產生單元16之外，該箱體14更包含一第二氣孔單元148。Please refer to FIG. 2, which is a schematic structural view of a nano coating system according to a second embodiment of the present invention. In FIG. 2, the nano coating system 10' includes a second venting unit, in addition to the clamping unit 12 of the first embodiment, the housing 14 and the atomization generating unit 16, the housing 14 further includes a second venting unit. 148.

該第二氣孔單元148設置在該第二塗佈空間1464。於本實施例中，該霧化產生單元16除設置在該第二塗佈空間1464之外，也設置在該第一塗佈空間1642。其中，該第二氣孔單元148也提供一負壓，透過設置在該夾具單元12之該開孔122的該載體2的孔洞22吸引該第一塗佈空間1642之該奈米氣體42。在該奈米氣體42自該第一塗佈空間1642流動至該第二塗佈空間1464的過程中，該奈米氣體42附著在該載體2。The second vent unit 148 is disposed in the second coating space 1464. In the embodiment, the atomization generating unit 16 is disposed in the first coating space 1642 in addition to the second coating space 1464. The second venting unit 148 also provides a negative pressure, and the nano-gas 42 of the first coating space 1642 is attracted through the hole 22 of the carrier 2 disposed in the opening 122 of the clamp unit 12. The nano gas 42 is attached to the carrier 2 during the flow of the nano gas 42 from the first coating space 1642 to the second coating space 1464.

值得注意的是，如前所述，除該第一氣孔單元144可結合過濾單元(圖未示)之外，該第二氣孔單元148也可結合過濾單元，供過濾該奈米氣體42。It should be noted that, as described above, in addition to the first vent unit 144 being coupled to a filter unit (not shown), the second vent unit 148 may also incorporate a filter unit for filtering the nano-gas 42.

請參考圖3，係本發明第三實施例之奈米塗佈系統的結構示意圖。於圖3中，該奈米塗佈系統10"除包含第二實施例的該夾具單元12、該箱體14、該霧化產生單元16之外，更包含控制單元18。Please refer to FIG. 3, which is a schematic structural view of a nano coating system according to a third embodiment of the present invention. In FIG. 3, the nano coating system 10" further includes a control unit 18 in addition to the jig unit 12 of the second embodiment, the case 14, and the atomization generating unit 16.

該控制單元18執行一第一程序P1與一第二程序P2。其中，該第一程序P1係該控制單元18開啟該第一氣孔單元144與位在該第二塗佈空間1464之該霧化產生單元16，以及該第二程序P2係該控制單元18開啟該第二氣孔單元148與位在該第一塗佈空間1462之該霧化產生單元16。The control unit 18 executes a first program P1 and a second program P2. The first program P1 is that the control unit 18 turns on the first air cell unit 144 and the atomization generating unit 16 located in the second coating space 1464, and the second program P2 is used by the control unit 18 to turn on the The second vent unit 148 is coupled to the atomization generating unit 16 located in the first coating space 1462.

值得注意的是，該控制單元18可以選擇地控制時間與次數之至少其中一者，以決定該奈米塗料4附著在該載體2的均勻度與厚度等。It should be noted that the control unit 18 can selectively control at least one of time and number of times to determine the uniformity and thickness of the nano-coating 4 attached to the carrier 2.

舉例而言，在另一實施例中，該控制單元18以一第一時間執行該第一程序P1，以及該控制單元18以一第二時間執行該第二程序P2。其中，該第一時間與該第二時間的長度可相同或不同，以及該第一時間與該第二時間具有相同或不同的起始點。For example, in another embodiment, the control unit 18 executes the first program P1 at a first time, and the control unit 18 executes the second program P2 at a second time. The first time and the second time may be the same or different lengths, and the first time and the second time have the same or different starting points.

在另一實施例中，該控制單元18更包含一計數器(圖未示)，該計數器182決定執行一次或多次的該第一程序P1與該第二程序P2。In another embodiment, the control unit 18 further includes a counter (not shown) that determines the first program P1 and the second program P2 to be executed one or more times.

值得注意的是，該奈米塗佈系統10"更包含一前置箱體(圖未示)。該前置箱體可調整該載體2的濕度與潔淨度。該前置箱體的目的能提高該奈米塗料4附著在該載體2的良率。It should be noted that the nano coating system 10" further includes a front box (not shown). The front box can adjust the humidity and cleanliness of the carrier 2. The purpose of the front box The yield of the nano-coating 4 attached to the carrier 2 is increased.

請參考圖4，係本發明第四實施例之奈米塗佈方法的流程示意圖。於圖4中，該奈米塗佈方法能夠在一載體塗佈一奈米塗料。其中，該載體包含孔洞。該奈米塗佈方法步驟起始於步驟S41，係霧化液狀或固狀的該奈米塗料，以形成該奈米氣體。Please refer to FIG. 4, which is a schematic flow chart of a nano coating method according to a fourth embodiment of the present invention. In Figure 4, the nanocoating process is capable of coating a nanocoat of a carrier. Wherein the carrier comprises a hole. The nano coating method step begins in step S41 by atomizing the liquid coating in a liquid or solid form to form the nano gas.

步驟S42，係該載體設置在一密閉空間，以將該密閉空間切割成第一塗佈空間與該第二塗佈空間。其中，該第一塗佈空間與該第二塗佈空間透過該孔洞連通。In step S42, the carrier is disposed in a sealed space to cut the sealed space into a first coating space and the second coating space. The first coating space and the second coating space are in communication with the hole.

步驟S43，係在該第一塗佈空間產生一負壓以吸引在該第二塗佈空間的該奈米氣體，或在該第二塗佈空間產生一負壓以吸引在該第一塗佈空間的該奈米氣體。Step S43, generating a negative pressure in the first coating space to attract the nano gas in the second coating space, or generating a negative pressure in the second coating space to attract the first coating The nano gas in space.

步驟S44，係該奈米氣體在該第一塗佈空間與該第二塗佈空間之間經由該孔洞流動，讓該奈米塗料附著在該載體。Step S44, the nano-gas flows between the first coating space and the second coating space through the hole, and the nano-coating material is attached to the carrier.

其中，前述步驟S41至S44中，可藉由調整該負壓的大小、提供該負壓的時間與啟動該負壓的次數之至少其中一者，以決定該奈米塗料形成在該載體的厚度與均勻度。Wherein, in the foregoing steps S41 to S44, at least one of the magnitude of the negative pressure, the time for providing the negative pressure, and the number of times the negative pressure is activated may be adjusted to determine the thickness of the nano-coating formed on the carrier. With uniformity.

本發明在上文中已以較佳實施例揭露，然熟習本項技術者應理解的是，該實施例僅用於描繪本發明，而不應解讀為限制本發明之範圍。應注意的是，舉凡與該實施例等效之變化與置換，均應設為涵蓋於本發明之範疇內。因此，本發明之保護範圍當以申請專利範圍所界定者為準。The invention has been described above in terms of the preferred embodiments, and it should be understood by those skilled in the art that the present invention is not intended to limit the scope of the invention. It should be noted that variations and permutations equivalent to those of the embodiments are intended to be included within the scope of the present invention. Therefore, the scope of protection of the present invention is defined by the scope of the patent application.

2‧‧‧載體
22‧‧‧孔洞
4‧‧‧奈米塗料
42‧‧‧奈米氣體
10、10'、10''‧‧‧奈米塗佈系統
12‧‧‧夾具單元
122‧‧‧開孔
14‧‧‧箱體
142‧‧‧卡槽
144‧‧‧第一氣孔單元
146‧‧‧容置空間
1462‧‧‧第一塗佈空間
1464‧‧‧第二塗佈空間
148‧‧‧第二氣孔單元
16‧‧‧霧化產生單元
18‧‧‧控制單元
P1‧‧‧第一程序
P2‧‧‧第二程序
S41-S44‧‧‧方法步驟2‧‧‧ Carrier
22‧‧‧ holes
4‧‧‧Nano paint
42‧‧‧Nano gas
10, 10', 10''‧‧‧ nano coating system
12‧‧‧Clamp unit
122‧‧‧Opening
14‧‧‧ cabinet
142‧‧‧ card slot
144‧‧‧First air cell unit
146‧‧‧ accommodating space
1462‧‧‧First coating space
1464‧‧‧Second coating space
148‧‧‧second vent unit
16‧‧‧Atomization unit
18‧‧‧Control unit
P1‧‧‧ first procedure
P2‧‧‧ second procedure
S41-S44‧‧‧ method steps

圖1係本發明第一實施例之奈米塗佈系統的結構示意圖。 圖2係本發明第二實施例之奈米塗佈系統的結構示意圖。 圖3係本發明第三實施例之奈米塗佈系統的結構示意圖。 圖4係本發明第四實施例之奈米塗佈方法的流程示意圖。BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the structure of a nano coating system according to a first embodiment of the present invention. 2 is a schematic view showing the structure of a nano coating system according to a second embodiment of the present invention. Fig. 3 is a schematic view showing the structure of a nano coating system according to a third embodiment of the present invention. 4 is a schematic flow chart of a nano coating method according to a fourth embodiment of the present invention.

S41-S44‧‧‧方法步驟 S41-S44‧‧‧ method steps

Claims (10)

一種奈米塗佈系統，供在一載體塗佈一奈米塗料，該載體具有一孔洞，該奈米塗佈系統包含： 夾具單元，形成一開孔，該開孔供插置該載體； 箱體，具有一卡槽與一第一氣孔單元，該箱體形成一容置空間，該卡槽結合該夾具單元，以將該容置空間切割成一第一塗佈空間與一第二塗佈空間，該第一氣孔單元設置在該第一塗佈空間，其中該第一塗佈空間與該第二塗佈空間藉由該夾具單元彼此不相通；以及 霧化產生單元，設置在該第二塗佈空間，該霧化產生單元容置該奈米塗料，讓該奈米塗料霧化成一奈米氣體，該奈米氣體填充該第二塗佈空間； 其中該第一氣孔單元提供一負壓，透過該載體的該孔洞吸引該第二塗佈空間之該奈米氣體，在該奈米氣體自該第二塗佈空間流動至該第一塗佈空間的過程中，該奈米塗料附著在該載體。A nano coating system for coating a nano-coating on a carrier, the carrier having a hole, the nano coating system comprising: a clamping unit, forming an opening, the opening for inserting the carrier; The body has a card slot and a first air venting unit, the box body forms an accommodating space, and the card slot is combined with the clamping unit to cut the accommodating space into a first coating space and a second coating space. The first venting unit is disposed in the first coating space, wherein the first coating space and the second coating space are not in communication with each other by the clamp unit; and an atomization generating unit is disposed at the second coating a cloth space, the atomization generating unit accommodating the nano coating, and atomizing the nano coating into a nanometer gas, the nano gas filling the second coating space; wherein the first venting unit provides a negative pressure, And attracting the nano gas in the second coating space through the hole of the carrier, and the nano paint adheres to the nano gas during the flow from the second coating space to the first coating space Carrier. 如申請專利範圍第1項所述之奈米塗佈系統，其中該箱體更包含一第二氣孔單元，該第二氣孔單元設置在該第二塗佈空間，該霧化產生單元也設置在該第一塗佈空間，其中該第二氣孔單元提供一負壓，透過該載體的孔洞吸引該第一塗佈空間之該奈米氣體，在該奈米氣體自該第一塗佈空間流動至該第二塗佈空間的過程中，該奈米氣體附著在該載體。The nano coating system of claim 1, wherein the housing further comprises a second venting unit, the second venting unit is disposed in the second coating space, and the atomization generating unit is also disposed at The first coating space, wherein the second venting unit provides a negative pressure, and the nano-gas of the first coating space is attracted through the hole of the carrier, and the nano-gas flows from the first coating space to During the second coating space, the nano gas is attached to the carrier. 如申請專利範圍第2項所述之奈米塗佈系統，其中該箱體更包含控制單元，該控制單元執行一第一程序與一第二程序，其中該第一程序係該控制單元開啟該第一氣孔單元與開啟在該第二塗佈空間之該霧化產生單元，以及該第二程序係該控制單元開啟該第二氣孔單元與開啟在該第一塗佈空間之該霧化產生單元。The nano coating system of claim 2, wherein the housing further comprises a control unit, the control unit executing a first program and a second program, wherein the first program is the control unit a first venting unit and the atomization generating unit opened in the second coating space, and the second program system, the control unit opening the second venting unit and opening the atomization generating unit in the first coating space . 如申請專利範圍第3項所述之奈米塗佈系統，其中該控制單元以一第一時間執行該第一程序，以及該控制單元以一第二時間執行該第二程序。The nano coating system of claim 3, wherein the control unit executes the first program at a first time, and the control unit executes the second program at a second time. 如申請專利範圍第3項所述之奈米塗佈系統，其中該控制單元包含一計數器，該計數器決定執行一次或多次的該第一程序與該第二程序之至少其中一者。The nano coating system of claim 3, wherein the control unit comprises a counter that determines one or more of the first program and the second program to be executed one or more times. 如申請專利範圍第1項所述之奈米塗佈系統，更包含一前置箱體，該前置箱體調整該載體的濕度與潔淨度。The nano coating system of claim 1, further comprising a front box that adjusts the humidity and cleanliness of the carrier. 如申請專利範圍第1項所述之奈米塗佈系統，其中更包含一過濾單元，該過濾單元供該第一氣孔單元過濾該奈米氣體。The nano coating system of claim 1, further comprising a filtering unit for filtering the nano gas by the first air cell unit. 如申請專利範圍第2項所述之奈米塗佈系統，更包含一過濾單元，該過濾單元設置在該第一氣孔單元與該第二氣孔單元之至少其中一者，供該第一氣孔單元與該第二氣孔單元過濾該奈米氣體。The nano coating system of claim 2, further comprising a filtering unit disposed in at least one of the first venting unit and the second venting unit for the first venting unit The nano gas is filtered with the second vent unit. 如申請專利範圍第1項所述之奈米塗佈系統，其中該霧化產生單元包含振動單元、壓力調整單元與溫控單元，該振動單元產生一振動力、該壓力調整單元提供加壓與減壓、以及該溫控單元提供一溫度，供該奈米塗料霧化成該奈米氣體。The nano coating system according to claim 1, wherein the atomization generating unit comprises a vibration unit, a pressure adjusting unit and a temperature control unit, the vibration unit generates a vibration force, and the pressure adjustment unit provides pressure and The reduced pressure, and the temperature control unit provides a temperature for atomizing the nano paint into the nano gas. 一種奈米塗佈方法，供在一載體塗佈一奈米塗料，該載體具有孔洞，該奈米塗佈方法包含： 霧化液狀或固狀的該奈米塗料，以形成該奈米氣體； 該載體設置在一密閉空間，以將該密閉空間切割成第一塗佈空間與該第二塗佈空間，其中該第一塗佈空間與該第二塗佈空間透過該孔洞連通； 在該第一塗佈空間產生一負壓以吸引填充在該第二塗佈空間的該奈米氣體，或在該第二塗佈空間產生一負壓以吸引填充在該第一塗佈空間的該奈米氣體；以及 該奈米氣體在該第一塗佈空間與該第二塗佈空間之間經由該孔洞流動，讓該奈米塗料附著在該載體； 其中藉由調整該負壓的大小、提供該負壓的時間與啟動該負壓的次數之至少其中一者，以決定該奈米塗料形成在該載體的厚度與均勻度。A nano coating method for coating a nano-coating on a carrier, the carrier having a hole, the nano coating method comprising: atomizing the liquid coating or solid-like nano coating to form the nano gas The carrier is disposed in a confined space to cut the confined space into a first coating space and the second coating space, wherein the first coating space and the second coating space communicate through the hole; The first coating space generates a negative pressure to attract the nano gas filled in the second coating space, or generates a negative pressure in the second coating space to attract the nano-filled in the first coating space a meter gas; and the nano-gas flows between the first coating space and the second coating space through the hole, allowing the nano-coating material to adhere to the carrier; wherein by adjusting the size of the negative pressure, providing At least one of the time of the negative pressure and the number of times the negative pressure is initiated to determine the thickness and uniformity of the nano-coating formed on the carrier.