TWI764421B - Polymeric low temperature ionic gas promotes wound healing device - Google Patents
Polymeric low temperature ionic gas promotes wound healing deviceInfo
- Publication number
- TWI764421B TWI764421B TW109143477A TW109143477A TWI764421B TW I764421 B TWI764421 B TW I764421B TW 109143477 A TW109143477 A TW 109143477A TW 109143477 A TW109143477 A TW 109143477A TW I764421 B TWI764421 B TW I764421B
- Authority
- TW
- Taiwan
- Prior art keywords
- molecular sieve
- gas
- oil
- wound healing
- metal tube
- Prior art date
Links
Images
Landscapes
- Electrotherapy Devices (AREA)
- Pharmaceuticals Containing Other Organic And Inorganic Compounds (AREA)
Abstract
本創作係高分子低溫離子氣體促進傷口癒合裝置,其包含一無油空氣壓縮機、一第一分子篩、及複數層離子化空氣產生器。第一分子篩連接於無油空氣壓縮機,且能純化空氣中的氧氣。離子化空氣產生器連接於第一分子篩;各離子化空氣產生器包含一外金屬管、一內金屬管、一介電絕緣陶瓷片、及一出氣管。介電絕緣陶瓷片設於外金屬管及內金屬管之間,且與外金屬管之間形成一離子打擊空間。出氣管連通於離子打擊空間。第一分子篩與離子化空氣產生器能產生高分子且低溫的離子氣體及含氮的雜環化合物,可於傷口上發生波爾效應,快速癒合傷口且恢復皮膚延展性。The invention is a device for promoting wound healing by polymer low-temperature ion gas, which includes an oil-free air compressor, a first molecular sieve, and a plurality of layers of ionized air generators. The first molecular sieve is connected to an oil-free air compressor and can purify oxygen in the air. The ionized air generator is connected to the first molecular sieve; each ionized air generator includes an outer metal pipe, an inner metal pipe, a dielectric insulating ceramic sheet, and an air outlet pipe. The dielectric insulating ceramic sheet is arranged between the outer metal tube and the inner metal tube, and an ion striking space is formed between the outer metal tube and the outer metal tube. The trachea is communicated with the ion striking space. The first molecular sieve and the ionized air generator can generate high-molecular and low-temperature ionic gas and nitrogen-containing heterocyclic compounds, which can produce Bohr effect on wounds, quickly heal wounds and restore skin ductility.
Description
本創作係涉及一種醫療輔助裝置,尤指一種高分子低溫離子氣體促進傷口癒合裝置。This creation relates to a medical auxiliary device, especially a high-molecular low-temperature ion gas promoting wound healing device.
在現有技術中,對於一般皮膚外傷的傷口處理流程,大致上會先清潔並消毒傷口,接著透過紗布敷藥且定期換藥的方式來治療傷口,最後再配合人工皮等醫療用品來促進傷口的癒合並避免留下疤痕。In the prior art, for the general wound treatment process for skin trauma, the wound is generally cleaned and sterilized first, then the wound is treated with gauze dressing and regular dressing changes, and finally medical supplies such as artificial skin are used to promote the wound healing process. Heal and avoid scarring.
然而,現有的處理方式具有下列缺點:However, the existing approach has the following disadvantages:
第一,紗布敷藥且定期換藥的方式會使得傷口癒合所需的時間拉得很長,並且在換藥的過程中傷口會暴露再二度感染的風險之下。First, gauze dressing and regular dressing changes make the wound take a long time to heal, and the wound is exposed to the risk of re-infection during dressing changes.
第二,在敷藥的過程中,傷口所產生的組織液會沾黏至紗布上,並於一段時間後凝固結痂,因此在換藥時勢必要先將紗布由傷口上撕下。這樣一來,不僅會造成傷者疼痛難受,且也會破壞原本已結痂的傷口而再次產生傷口。Second, in the process of dressing, the tissue fluid produced by the wound will stick to the gauze, and it will solidify and form a scab after a period of time. Therefore, it is necessary to tear off the gauze from the wound when changing the dressing. In this way, not only will it cause pain and discomfort to the injured person, but it will also destroy the original scabbed wound and cause another wound.
第三,雖然現有的處理方式最終能夠使傷口癒合,但癒合後原本傷口處所新生成的皮膚,其皮膚延展性將大幅下降(正常的皮膚延展性大約145%左右,而以現有處理方式癒合後的傷口的皮膚延展性僅100%),進而導致傷者行動不便。Third, although the existing treatment methods can eventually heal the wound, the skin extensibility of the newly formed skin at the original wound site will be greatly reduced after healing (normal skin extensibility is about 145%, while the existing treatment method is used to heal the wound. The skin extensibility of the wound is only 100%), which in turn makes the injured person unable to move.
有鑑於前述之現有技術的缺點及不足,本創作提供一種高分子低溫離子氣體促進傷口癒合裝置。其中,高分子的定義為大氣電漿低壓反應而產生的活性氣體分子。高分子低溫離子氣體促進傷口癒合裝置能產生離子氣體並生成含氮的雜環化合物,且能透過壓力吹氣使離子氣體及含氮的雜環化合物與傷口接觸,並於傷口發生波爾效應(Bohr effect),藉以使傷口處的皮膚產生皮質膜,進而能快速恢復癒合傷口,且有助於自然恢復皮膚延展性。In view of the above-mentioned shortcomings and deficiencies of the prior art, the present invention provides a device for promoting wound healing by polymer low-temperature ion gas. Among them, macromolecules are defined as active gas molecules generated by the low-pressure reaction of atmospheric plasma. The polymer low-temperature ion gas promoting wound healing device can generate ion gas and generate nitrogen-containing heterocyclic compounds, and through pressure blowing, the ion gas and nitrogen-containing heterocyclic compounds can be brought into contact with the wound, and the Bohr effect will occur in the wound ( Bohr effect), so that the skin at the wound can produce a cortical film, which can quickly restore the wound and help to restore the skin's ductility naturally.
為達到上述的創作目的,本創作所採用的技術手段為設計一種高分子低溫離子氣體促進傷口癒合裝置,其中包含: 一供電源,其包含 一高壓電端; 一低壓電端; 一無油空氣壓縮機,其能供給帶有壓力的氣體; 一第一分子篩,其連接於該無油空氣壓縮機;該第一分子篩能篩除該無油空氣壓縮機所供給的氣體中氧氣以外的分子; 複數層離子化空氣產生器,其連接於該第一分子篩;各該離子化空氣產生器包含 一外金屬管,其電連接於該供電源的該低壓電端; 一內金屬管,其電連接於該供電源的該高壓電端; 一介電絕緣陶瓷片,其設於該外金屬管及該內金屬管之間,且與該外金屬管之間形成有一離子打擊空間; 一出氣管,其連通於該離子打擊空間;該無油空氣壓縮機所供給的氣體能依序流動至該第一分子篩、該離子打擊空間、及該出氣管。 In order to achieve the above-mentioned creative purpose, the technical means used in this creation is to design a polymer low-temperature ion gas to promote wound healing, which includes: a power supply that includes a high voltage terminal; a low-voltage terminal; an oil-free air compressor capable of supplying gas under pressure; A first molecular sieve, which is connected to the oil-free air compressor; the first molecular sieve can sieve molecules other than oxygen in the gas supplied by the oil-free air compressor; a plurality of layers of ionized air generators connected to the first molecular sieve; each of the ionized air generators includes an outer metal tube, which is electrically connected to the low-voltage electrical terminal of the power supply; an inner metal tube electrically connected to the high-voltage terminal of the power supply; A dielectric insulating ceramic sheet is arranged between the outer metal tube and the inner metal tube, and an ion strike space is formed between the outer metal tube and the outer metal tube; An air outlet pipe is communicated with the ion striking space; the gas supplied by the oil-free air compressor can flow to the first molecular sieve, the ion striking space and the air outlet pipe in sequence.
本創作的優點在於,首先藉由第一分子篩層析純化空氣(即篩除空氣中氧氣以外的分子),使得空氣中的氧氣濃度至約90%至93%。由於純化後的空氣具有足夠的氧氣濃度,因此將純化後的空氣通入離子化氣體產生器後,便能產生高分子並且同時產生因壓力純化及電離得到的低溫的氧原子、氧分子、臭氧、一氧化氮分子、二氧化碳。並且,進一步透過離子化氣體產生器的多道式應用(即複數層離子化氣體產生器並聯使用),便能產生足量的前述該等氣體以及離子;而當具有足量的前述該等氣體以及離子時,便能在出氣管匯集後自然反應生成含氮的雜環化合物。藉此,能透過無油空氣壓縮機的壓力將包括含氮的雜環化合物的該等氣體以及離子吹撫至傷口上,使含氮的雜環化合物接觸到傷口,且進一步與傷者自體的水分子反應而發生波爾效應。如此一來,波爾效應能使皮膚產生皮質膜,進而能快速恢復癒合傷口,且有助於自然恢復皮膚延展性。本創作使用時僅需朝向傷口吹氣,能便於傷者自行使用,並且使用時不僅能藉由臭氧有效殺菌,也能透過波爾效應綜效應用快速恢復癒合傷口,不需要換藥過程故可避免二次感染,也不會有沾黏、組織增生、或結痂的情況,故能有效降低治療時的疼痛。The advantage of the present invention is that the air is first purified by the first molecular sieve chromatography (ie, the molecules other than oxygen in the air are sieved), so that the oxygen concentration in the air is about 90% to 93%. Since the purified air has sufficient oxygen concentration, after the purified air is passed into the ionized gas generator, it can generate macromolecules and simultaneously generate low-temperature oxygen atoms, oxygen molecules, ozone obtained by pressure purification and ionization , nitric oxide molecules, carbon dioxide. Furthermore, through the multi-channel application of the ionized gas generator (ie, the use of multiple layers of ionized gas generators in parallel), a sufficient amount of the aforementioned gases and ions can be generated; and when there is a sufficient amount of the aforementioned gases and ions, they can naturally react to generate nitrogen-containing heterocyclic compounds after they are collected in the outlet pipe. Thereby, the gases and ions including nitrogen-containing heterocyclic compounds can be blown onto the wound through the pressure of the oil-free air compressor, so that the nitrogen-containing heterocyclic compounds can contact the wound and further interact with the wounded's own body. The Bohr effect occurs when water molecules react. In this way, the Bohr effect can create a cortical membrane in the skin, which in turn can quickly restore healing wounds and help to restore skin extensibility naturally. When using this creation, you only need to blow air toward the wound, which is convenient for the injured person to use by himself, and not only can effectively sterilize the wound by ozone, but also can quickly recover and heal the wound through the comprehensive effect of Boer effect, so it can be avoided without the dressing process. In the case of secondary infection, there will be no sticking, tissue hyperplasia, or scabbing, so it can effectively reduce the pain during treatment.
進一步而言,所述之高分子低溫離子氣體促進傷口癒合裝置,其中,該第一分子篩為5A分子篩。Further, in the device for promoting wound healing by polymer low-temperature ion gas, the first molecular sieve is 5A molecular sieve.
進一步而言,所述之高分子低溫離子氣體促進傷口癒合裝置,其中,該高分子低溫離子氣體促進傷口癒合裝置進一步包含一第二分子篩,其連接於該無油空氣壓縮機與該第一分子篩之間,且能篩除該無油空氣壓縮機所供給的氣體中的水分子;該無油空氣壓縮機所供給的氣體能經由該第二分子篩流動至該第一分子篩。Further, the polymer low-temperature ion gas promoting wound healing device, wherein the polymer low-temperature ion gas promoting wound healing device further comprises a second molecular sieve, which is connected to the oil-free air compressor and the first molecular sieve between, and can screen out water molecules in the gas supplied by the oil-free air compressor; the gas supplied by the oil-free air compressor can flow to the first molecular sieve through the second molecular sieve.
進一步而言,所述之高分子低溫離子氣體促進傷口癒合裝置,其中,該第二分子篩為4A分子篩。Further, in the device for promoting wound healing by polymer low-temperature ion gas, the second molecular sieve is 4A molecular sieve.
進一步而言,所述之高分子低溫離子氣體促進傷口癒合裝置,其中,該高分子低溫離子氣體促進傷口癒合裝置進一步包含一噴氣組件,其包含一連接管,其連接於該複數層離子化空氣產生器的該出氣管;該連接管能彎曲;一噴嘴件,其設於該連接管上,且包含一噴口,其連通於該連接管;該無油空氣壓縮機所供給的氣體能經由該複數層離子化空氣產生器的該出氣管流動至該連接管,並經由該噴口噴出。Further, the polymer low-temperature ion gas promoting wound healing device, wherein the polymer low-temperature ion gas promoting wound healing device further comprises a jet component, which comprises a connecting pipe, which is connected to the plurality of layers of ionized air to generate The air outlet pipe of the compressor; the connecting pipe can be bent; a nozzle piece is arranged on the connecting pipe and includes a nozzle, which is communicated with the connecting pipe; the gas supplied by the oil-free air compressor can pass through the plurality of The air outlet pipe of the layer ionized air generator flows to the connecting pipe and is ejected through the nozzle.
進一步而言,所述之高分子低溫離子氣體促進傷口癒合裝置,其中,該噴氣組件進一步包含一旋鈕,其設於該噴嘴件上,且能調整該噴口的口徑大小。Further, in the device for promoting wound healing by polymer low-temperature ion gas, the air jet assembly further comprises a knob, which is arranged on the nozzle member and can adjust the diameter of the nozzle.
以下配合圖式及本創作之較佳實施例,進一步闡述本創作為達成預定創作目的所採取的技術手段。The technical means adopted by the present creation to achieve the predetermined creation purpose are further described below in conjunction with the drawings and preferred embodiments of the present creation.
請參考圖1,本創作之高分子低溫離子氣體促進傷口癒合裝置包含一供電源10、一無油空氣壓縮機20、一第一分子篩30、一第二分子篩40、複數離子化空氣產生器50、及一噴氣組件60。並且,在本實施例中,前述該等元件之間係以一封閉的管路相連接,如此可確保不被環境中的空氣干擾。Please refer to FIG. 1 , the device for promoting wound healing by polymer low-temperature ion gas includes a
供電源10包含一高壓電端11及一低壓電端12。供電源10在本實施例中具有一電源線13用以連接至發電裝置,並變壓由高壓電端11提供高壓電且以低壓電端12提供低壓電。但在其他實施例中供電源10也可以是具有一蓄電池,如此則能便於攜帶。The
無油空氣壓縮機20在本實施例中是一活塞式的空壓機,用於提供整個系統內的氣體壓力,以作為最終噴氣組件60的噴氣動力源。無油空氣壓縮機20能供給帶有壓力的氣體;並且,無油空氣壓縮機20能在第一分子篩30之前初步乾燥空氣,達到初步殺菌的效果,以利於後續使用。In this embodiment, the oil-
第一分子篩30連接於無油空氣壓縮機20,且能篩除無油空氣壓縮機20所供給的氣體中氧氣以外的分子,即層析純化空氣中的氧氣濃度。具體來說,第一分子篩30可以是5A分子篩。一般空氣中的氧氣濃度大約為23%,而通過第一分子篩30層析純化後的空氣中,其氧氣濃度可達到90%至93%。The first
第二分子篩40連接於無油空氣壓縮機20與第一分子篩30之間,且能篩除無油空氣壓縮機20所供給的氣體中的水分子,也就是能乾燥氣體。具體來說,第二分子篩40可以是4A分子篩。無油空氣壓縮機20所供給的氣體能經由第二分子篩40流動至第一分子篩30,藉此第二分子篩40能夠在空氣進入第一分子篩30之前更完整的乾燥空氣,以達到確實的殺菌效果。The second
該複數層離子化空氣產生器50連接於第一分子篩30;換言之,複數個離子化空氣產生器50並聯設置,且全部的離子化空氣產生器50皆個別連接於第一分子篩30,達到離子化空氣產生器50的多道式應用,使第一分子篩30能同時供應層析純化後的空氣至全部的離子化空氣產生器50中,以利於產生足量的所需氣體。各離子化空氣產生器50包含一外金屬管51、一內金屬管52、一介電絕緣陶瓷片53、及一出氣管54。外金屬管51電連接於供電源10的低壓電端12。內金屬管52電連接於供電源10的高壓電端11。介電絕緣陶瓷片53設於外金屬管51及內金屬管52之間,且與外金屬管51之間形成有一離子打擊空間55,以令空氣於此處離子化。出氣管54連通於離子打擊空間55,且無油空氣壓縮機20所供給的氣體能依序流動至第一分子篩30、離子打擊空間55、及出氣管54。The multiple layers of ionized
具體來說,當氧氣濃度90%至93%的空氣進入到離子化空氣產生器50後,以5KW/V至8KW/V之電壓對在離子打擊空間55中的該氧氣濃度90%至93%的空氣進行電暈放電,該電暈放電即以電壓中的負電子將該空氣中的氧分子解離為複數個氧原子,該等氧原子中在常溫常壓下,將會自動鍵合為同素異形體之氧分子以及臭氧,因此,經過前述離子化過程,即能產生氧原子、氧分子、臭氧、一氧化氮分子、及二氧化碳,並且透過離子化空氣產生器50的多道式應用,便能取得足量的氧原子、氧分子、臭氧、一氧化氮分子、及二氧化碳。Specifically, when the air with an oxygen concentration of 90% to 93% enters the ionized
請進一步參考圖2,噴氣組件60包含一連接管61、一噴嘴件62、及一旋鈕63。連接管61連接於該複數層離子化空氣產生器50的出氣管54,也就是說該複數層離子化空氣產生器50的出氣管54匯集並連接於連接管61。連接管61能彎曲,且具體來說連接管61可以是橡膠軟管,也可以是金屬軟管。噴嘴件62設於連接管61上,且包含一噴口;噴口連通於連接管61,且無油空氣壓縮機20所供給的氣體能經由該複數層離子化空氣產生器50的出氣管54流動至連接管61,並經由噴口噴出。藉此,使用者可以藉由連接管61能彎曲的特性任意移動噴嘴件62,並手持噴嘴件62朝向傷口噴氣吹撫,以便使用於任何部位的傷口。旋鈕63設於噴嘴件62上,且能調整噴口的口徑大小。具體來說,旋鈕63調整噴口口徑大小的方式,可以是如同水龍頭調整水流量大小的結構。由於整個系統係以封閉管路連接,因此當噴嘴件62的噴口開啟時,無油空氣壓縮機20所提供的壓力便能作為動力將離子化後的氣體噴出,而噴口的口徑大小便影響了氣體噴出的速度,因此旋鈕63即用於末端調整噴氣的速度與強度。此外,氣體由噴口噴出的速度與強度,可以視情況來藉由旋鈕63來控制到一較佳範圍內,也就是說在相對應的情況下使用適當的噴出速度與強度,藉此可以更有利於傷口的癒合以及皮膚延展性的恢復。Please further refer to FIG. 2 , the
當足量的氧原子、氧分子、臭氧、一氧化氮分子、二氧化碳匯集後(匯集於出氣管54與連接管61的匯集處),便能自然反應生成含氮的雜環化合物;藉此噴氣組件60內的氣體中便包含了前述該等氣體與離子,以及含氮的雜環化合物,故當噴口開啟時,無油空氣壓縮機20的壓力便能將前述該等氣體、離子、及含氮的雜環化合物噴出,以利使用者吹撫於傷口。When a sufficient amount of oxygen atoms, oxygen molecules, ozone, nitric oxide molecules and carbon dioxide are collected (collected at the collection point of the
此外,本創作在本實施例中進一步包含有一空氣儲槽71及複數散熱片72,空氣儲槽71連接於第一分子篩30與並聯的離子化空氣產生器50之間,散熱片72設於空氣儲槽71的外表面,藉此可使通過第一分子篩30的氣體暫時儲存並散熱降溫。空氣儲槽71及散熱片72在其他實施例中可以以一散熱蛇管代替,或者其他實施例中也可以沒有空氣儲槽71及散熱片72。In addition, the present invention further includes an
再者,為降低上述氣體的細菌數,亦可於第一分子篩30前設置一奈米銀纖維(圖未繪示),以初步對空氣進行前置過濾滅菌之功能。Furthermore, in order to reduce the number of bacteria in the above-mentioned gas, a nano-silver fiber (not shown in the figure) can also be arranged in front of the first
本創作使用時,空氣首先經由無油空氣壓縮機20壓縮,接著送入第二分子篩40中乾燥,再來通過第一分子篩30層析純化並使氧氣濃度達到90%至93%,接下來高氧氣濃度的空氣同時被送入並聯的離子化空氣產生器50中,使高氧氣濃度的空氣在離子打擊空間55中被離子化而產生氧原子、氧分子、臭氧、一氧化氮分子、及二氧化碳,再來當全部的離子化空氣產生器50處理完成的空氣匯集後,便能於噴氣組件60內反應生成氮的雜環化合物,最後使用者可以開啟噴氣組件60的噴口,並且以旋鈕63調整適當的噴氣速度與強度,來將處理完的氣體吹撫至傷口。When used in this creation, the air is first compressed by the oil-
本創作的優點在於,首先藉由第一分子篩30層析純化空氣,使得空氣中的氧氣濃度至約90%至93%。由於純化後的空氣具有足夠的氧氣濃度,因此將純化後的空氣通入離子化氣體產生器後,便能產生高分子並且同時產生因壓力純化及電離得到的低溫的氧原子、氧分子、臭氧、一氧化氮分子、二氧化碳。並且,進一步透過離子化氣體產生器的多道式應用(即複數層離子化氣體產生器並聯使用),便能產生足量的前述該等氣體以及離子;而當具有足量的前述該等氣體以及離子時,便能在出氣管54匯集後自然反應生成含氮的雜環化合物。藉此,能透過無油空氣壓縮機20的壓力將包括含氮的雜環化合物的該等氣體以及離子吹撫至傷口上,使含氮的雜環化合物接觸到傷口,且進一步與傷者自體的水分反應而發生波爾效應。如此一來,波爾效應能使皮膚產生皮質膜,進而能快速恢復癒合傷口,且有助於自然恢復皮膚延展性。本創作使用時僅需朝向傷口吹氣,能便於傷者自行使用,並且使用時不僅能藉由臭氧有效殺菌,也能透過波爾效應快速恢復癒合傷口,不需要換藥過程故可避免二次感染,也不會有沾黏、組織增生、或結痂的情況,故能有效降低治療時的疼痛。The advantage of the present invention is that the air is first purified by the first
以上所述僅是本創作的較佳實施例而已,並非對本創作做任何形式上的限制,雖然本創作已以較佳實施例揭露如上,然而並非用以限定本創作,任何所屬技術領域中具有通常知識者,在不脫離本創作技術方案的範圍內,當可利用上述揭示的技術內容作出些許更動或修飾為等同變化的等效實施例,但凡是未脫離本創作技術方案的內容,依據本創作的技術實質對以上實施例所作的任何簡單修改、等同變化與修飾,均仍屬於本創作技術方案的範圍內。The above is only the preferred embodiment of the creation, and does not limit the creation in any form. Although the creation has been disclosed as above in the preferred embodiment, it is not intended to limit the creation. Those of ordinary knowledge, within the scope of the technical solution of this creation, can make some changes or modifications to equivalent embodiments of equivalent changes by using the technical content disclosed above. The technical essence of the creation Any simple modifications, equivalent changes and modifications made to the above embodiments still fall within the scope of the technical solution of the creation.
10:供電源 11:高壓電端 12:低壓電端 13:電源線 20:無油空氣壓縮機 30:第一分子篩 40:第二分子篩 50:離子化空氣產生器 51:外金屬管 52:內金屬管 53:介電絕緣陶瓷片 54:出氣管 55:離子打擊空間 60:噴氣組件 61:連接管 62:噴嘴件 63:旋鈕 71:空氣儲槽 72:散熱片10: Power supply 11: High voltage terminal 12: low voltage terminal 13: Power cord 20: Oil-free air compressor 30: The first molecular sieve 40: Second molecular sieve 50: Ionized Air Generator 51: Outer metal tube 52: Inner metal tube 53: Dielectric insulating ceramic sheet 54: Outlet tube 55: Ion Strike Space 60: Jet components 61: connecting pipe 62: Nozzle parts 63: Knob 71: Air storage tank 72: heat sink
圖1係本創作的管線配置示意圖。 圖2係本創作的噴氣組件的局部放大示意圖。 Figure 1 is a schematic diagram of the pipeline configuration of this creation. Fig. 2 is a partial enlarged schematic diagram of the jet assembly of the present creation.
10:供電源 10: Power supply
11:高壓電端 11: High voltage terminal
12:低壓電端 12: low voltage terminal
13:電源線 13: Power cord
20:無油空氣壓縮機 20: Oil-free air compressor
30:第一分子篩 30: The first molecular sieve
40:第二分子篩 40: Second molecular sieve
50:離子化空氣產生器 50: Ionized Air Generator
51:外金屬管 51: Outer metal tube
52:內金屬管 52: Inner metal tube
53:介電絕緣陶瓷片 53: Dielectric insulating ceramic sheet
54:出氣管 54: Outlet tube
55:離子打擊空間 55: Ion Strike Space
60:噴氣組件 60: Jet components
71:空氣儲槽 71: Air storage tank
72:散熱片 72: heat sink
Claims (6)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW109143477A TWI764421B (en) | 2020-12-09 | 2020-12-09 | Polymeric low temperature ionic gas promotes wound healing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
TW109143477A TWI764421B (en) | 2020-12-09 | 2020-12-09 | Polymeric low temperature ionic gas promotes wound healing device |
Publications (2)
Publication Number | Publication Date |
---|---|
TWI764421B true TWI764421B (en) | 2022-05-11 |
TW202222372A TW202222372A (en) | 2022-06-16 |
Family
ID=82594093
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW109143477A TWI764421B (en) | 2020-12-09 | 2020-12-09 | Polymeric low temperature ionic gas promotes wound healing device |
Country Status (1)
Country | Link |
---|---|
TW (1) | TWI764421B (en) |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TW201811394A (en) * | 2008-04-04 | 2018-04-01 | 美商伊穆諾萊特公司 | Pharmaceutical composition and kit for modifying a target structure which mediates or is associated with a biological activity |
US10674594B2 (en) * | 2007-04-23 | 2020-06-02 | Plasmology4, Inc. | Harmonic cold plasma device and associated methods |
US10806500B2 (en) * | 2014-01-31 | 2020-10-20 | Zeltiq Aesthetics, Inc. | Treatment systems, methods, and apparatuses for improving the appearance of skin and providing other treatments |
TWM609618U (en) * | 2020-12-09 | 2021-03-21 | 羅莎國際有限公司 | Device for promoting wound healing by polymer low-temperature ion gas |
-
2020
- 2020-12-09 TW TW109143477A patent/TWI764421B/en active
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US10674594B2 (en) * | 2007-04-23 | 2020-06-02 | Plasmology4, Inc. | Harmonic cold plasma device and associated methods |
TW201811394A (en) * | 2008-04-04 | 2018-04-01 | 美商伊穆諾萊特公司 | Pharmaceutical composition and kit for modifying a target structure which mediates or is associated with a biological activity |
US10806500B2 (en) * | 2014-01-31 | 2020-10-20 | Zeltiq Aesthetics, Inc. | Treatment systems, methods, and apparatuses for improving the appearance of skin and providing other treatments |
TWM609618U (en) * | 2020-12-09 | 2021-03-21 | 羅莎國際有限公司 | Device for promoting wound healing by polymer low-temperature ion gas |
Also Published As
Publication number | Publication date |
---|---|
TW202222372A (en) | 2022-06-16 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US11071874B2 (en) | Hybrid plasma device for skin beauty and skin regeneration treatments | |
WO2011027542A1 (en) | Method and device for supplying ions to liquid, and method and device for sterilizing | |
US20110171188A1 (en) | Non-thermal plasma for wound treatment and associated apparatus and method | |
CN110201301A (en) | A kind of wound healing device based on triboelectricity | |
CN110404171B (en) | Integrated flexible plasma device for foot dry sterilization | |
CN206024220U (en) | A kind of low-temperature plasma jet device | |
GB2548557B (en) | Wound dressing | |
CN206761952U (en) | A kind of atmospheric pressure flexibility cold-plasma jet endoscope sterilization device | |
US20160271411A1 (en) | Cold plasma pressure treatment system | |
CN108969889A (en) | A kind of flexibility plasma consideration | |
KR20100058715A (en) | Plasma apparatus for tooth bleaching and tooth bleaching method using the plasma apparatus | |
TWM609618U (en) | Device for promoting wound healing by polymer low-temperature ion gas | |
CN106572585A (en) | Plasma generator | |
TWI764421B (en) | Polymeric low temperature ionic gas promotes wound healing device | |
CN112312638A (en) | High-activity low-temperature plasma, preparation method and application thereof | |
CN110996488A (en) | Medical plasma jet device | |
CN112703034B (en) | Electro-medical device for treatment of blood clots and ulcers and other skin lesions in human and animal patients | |
KR101662156B1 (en) | Skin treatment apparatus using ball type plasma generator | |
CN106693009B (en) | Atmospheric pressure flexible cold plasma jet endoscope sterilization device and method | |
US11633532B2 (en) | Device for promoting wound healing by high polymer low temperature ionized gas | |
CN209662991U (en) | A kind of processing unit for fish powder waste gases | |
CN114631879A (en) | Device for promoting wound healing by high-molecular low-temperature ionic gas | |
CN111298251A (en) | Device with COVID-19 virus prevention and treatment functions | |
CN108684129B (en) | Cold plasma jet system and method based on piezoelectric ceramic transformer | |
CN104582227B (en) | Touchable plasma processing system |