M435934 五、新型說明: 【新型所屬之技術領域】 本創作係與呼吸器有關,特別是有關於一種可連結空氣清 淨裝置之呼吸器。 【先前技術】 ^習用之呼吸機係藉由高速風機將空氣吸入機體内供應給 φ患者=療肺部或呼吸之疾病,而由於室内的空氣中大多含有灰 塵、花粉、細菌、病毒等懸浮粒’因此習用之呼吸器皆以過遽 棉遽除上述懸浮粒,而懸浮粒據除的效果則取決於據網過據效 能與渡網材質,雖網目較細小的濾網可以滤除較小的粒子,但 網目較細小的滤網其滤網密度高,導致氣體流阻增加,使低壓 治療呼吸準位的患者於使用上會有吸氣費力或不足的情形且 此類遽網係屬拋棄式濾網,其使用壽命較短而增加呼吸機使用 上之成本。 _ 料可重複使狀過_,雖可拆卸清洗,但其網目較 大,且在清洗過程中常會使過濾棉的結構遭受損壞,而使較小 懸浮粒或細菌通過該過遽棉’故前述兩者用途之遽網皆有直缺 點。且大多數的呼吸機為了防止懸浮粒子通過該等過據棉,而 被病患吸入肺部,會結合設置-哞吸機出口過渡器在其出氣口 端’以避免病患的肺部產生二次傷害,但用以居家長期治療之 呼吸機出口過渡器卻也成為病患固定成本支出,而增加病患經 濟負擔。 綜上所陳’習用之呼吸器具有上述等無法克服之缺失而有 3 待改進。 【新型内容】 ,本創作之主要目的在於提供一種可連結空氣清淨裝置之 3吸器’以便能提供高效率的清淨^氣品質給予病患呼吸,並 、到降低呼吸器抽風機㈣率與使用壽命之延長,其對需要能 夠經常性的更換呼吸器之義’具有減低使用成本的特色。 為達成上述目的,本創作所提供一種可連結空氣 之呼吸器’係包含有:一呼吸器、一空氣清淨裝置以及一連接 管’該坪吸器具n殼體,該第一殼航有—進氣單元以 及:出氣口’該第—殼體内部設有—第—抽氣單^,該第一抽 亂單π藉由該進氣單元吸入空氣然後自該出氣口排出空氣;該 空氣清淨裝置,具有-第二殼體H殼體技有—進氣口 以及一出氣單元,該第二殼體内部設有一第二抽氣單元,該第 二抽氣單元藉由該進氣口吸入空氣然後自該出氣單元排出空 氣,該出氣單元具有一自然出氣口以及一呼吸器出氣口;該連 接官一端連接該呼吸器出氣口,另一端連結該進氣單元。 藉此,本創作所提供可連結空氣清淨裝置之呼吸器透過上 述結構,其能夠降低更換呼吸器濾網的頻率,且同時可提高空 氣過濾的品質,進而避免使用者肺部的二次傷害,且亦可降低 呼吸器使用上的成本。 【實施方式】 為了詳細說明本創作之結構、特徵及功效所在,茲舉以下 M435934 較佳實施例並配合圖式說明如後,其中: 第一圖係為本創作第一較佳實施例之結構示意圖,主要揭 示呼吸器與空氣清淨裝置連結的狀況。 第二圖係為本創作第一較佳實施例之結構示意圖,主要揭 示空氣清淨機的剖面圖。 第三圖係為本創作第一較佳實施例之結構示意圖,主要揭 示呼吸器的剖面圖。 Φ 第四圖係為本創作第一較佳實施例之結構示意圖,主要揭 示呼吸器之進氣單元。 請參閱第一圖及第四圖,一種可連結空氣清淨裝置之呼吸 器10,係包含有:一呼吸器11、一空氣清淨裝置20以及一連 接管30。 該呼吸器11具有一第一殼體12,該第一殼體12設有一進 氣單元13以及一出氣口 14,該進氣單元13包含有一自然進氣 口 131、一空氣清淨裝置進氣口 132以及一控制閥133,該控 • 制閥133於本實施例中以一電磁閥為例,該控制閥133可由手 動或電動的方式開啟或關閉該自然進氣口 131以及該空氣清淨 裝置進氣口 132,當該控制閥133開啟該自然進氣口 131的同 時,該控制閥133關閉該空氣清淨裝置進氣口 132 ;當該控制 閥133關閉該自然進氣口 131的同時,該控制閥133開啟該空 氣清淨裝置進氣口 132;該第一殼體12外側設有一微粒偵測器 16以及一懸浮粒濃度顯示裝置15,該微粒偵測器16係用以偵 測該第一殼體12外部空氣中之懸浮粒濃度含量;該第一殼體 12内部設有一晶片組17、一訊號傳輸單元18以及一第一抽氣 5 M435934 早凡19 ’而於本實施例中該第—抽氣單元ι9以一抽氣風扇為 例’該第-抽氣單元19藉由該自然進氣口 131或是該空氣清 淨褒置進氣口 132吸入空氣,然後自該出氣口 Μ排出空氣; 該晶片組17電性連結於鄉浮粒濃度顯示裝置15以及該微粒 偵測器16,該微__ 16將所測得祕粒訊號傳輸至該晶 片組17 ’使該^、组17數值化料粒之濃度,並將數值化之 結果顯不於該胁粒濃度顯示裝置15 ;該晶片組口亦電性連 結該第-減單元丨9 ’使該晶肢17可調整該第—抽氣單元 19之轉速,使該呼吸ϋ U的進氣源不論是來自 口⑶或是該线清淨裝置進氣口出,經過抽氣單^:轉= 之調整後,由該出氣口 14所排出的空氣量皆為一固定值;該 晶片組17可控制該控制間133開啟或關閉該自然進氣口 131 132;該^組17電性連結該訊號 傳輸早兀18,使__輪單元18可藉㈣日日日片組Η之控制 而發送一訊號至該空氣清淨裝置2〇。 工 該空氣清淨裝置20具有一第二殼體21,該第二殼體Μ 穿设有-進机口 23以及一出氣單元24,該第二殼體21内部設 有-第二減單元25叹—城魏單元%, 魏口 23吸入空氣然後自該出氣單元Μ: 乱’遠出机早疋24具有—自然出氣口 241以及一呼吸 口 242,該訊號錄單元26可減觀料鮮元a;收 之訊號,然後啟動該空氣清淨裝置2〇。 J符队M435934 V. New description: [New technical field] This creation is related to respirators, especially for a respirator that can be connected to an air cleaning device. [Prior Art] The conventional ventilator supplies air into the body by a high-speed fan to supply φ patients = lungs or respiratory diseases, and indoor air contains dust, pollen, bacteria, viruses and other suspended particles. 'Therefore, the respirators used in the past are all used to remove the above-mentioned suspended particles, and the effect of the suspended particles depends on the performance of the net and the material of the net. Although the mesh with smaller mesh can filter out the smaller ones. Particles, but the fine mesh of the mesh has a high density of the filter, which leads to an increase in the gas flow resistance, so that patients with low-pressure treatment of the respiratory level may have difficulty in inhaling or insufficient use, and such a net is a disposable. The filter has a short life and increases the cost of using the ventilator. _ The material can be repeatedly used to make it _, although it can be removed and cleaned, but its mesh is large, and the structure of the filter cotton is often damaged during the cleaning process, so that the smaller suspended particles or bacteria pass through the cotton. Both use of the network have shortcomings. And most ventilators are inhaled into the lungs in order to prevent suspended particles from passing through the cotton, and will be combined with the setting-sucking machine outlet transition at its outlet end to avoid the patient's lungs. The secondary injury, but the ventilator exit transition device used for long-term treatment at home has also become a fixed cost of the patient, and increased the economic burden of the patient. In summary, the conventional respirators have the above-mentioned insurmountable defects and have to be improved. [New content], the main purpose of this creation is to provide a 3 suction device that can be connected to the air cleaning device to provide high efficiency and clean gas quality to the patient, and to reduce the rate and service life of the respirator. The extension, which has the need to be able to change the respirator frequently, has the feature of reducing the cost of use. In order to achieve the above object, the present invention provides a respirator capable of connecting air, which comprises: a respirator, an air cleaning device, and a connecting pipe, the casing of the flat suction device, the first casing is provided with air intake The unit and the air outlet of the first housing are provided with a first air pumping unit, wherein the first pumping unit π draws in air through the air intake unit and then discharges air from the air outlet port; the air cleaning device, The second housing H housing has an air inlet and an air outlet unit, and the second housing is internally provided with a second air suction unit, and the second air suction unit takes in air through the air inlet and then The air outlet unit discharges air, and the air outlet unit has a natural air outlet and a respirator air outlet; the connecting officer end is connected to the respirator air outlet, and the other end is connected to the air intake unit. Therefore, the respirator provided by the creation of the air cleaning device can pass through the above structure, which can reduce the frequency of replacing the respirator filter, and at the same time improve the quality of the air filtration, thereby avoiding secondary injury to the lungs of the user. It also reduces the cost of using the respirator. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to explain the structure, features and functions of the present invention in detail, the following description of the preferred embodiment of the M435934 is made in conjunction with the following description, wherein: the first figure is the structure of the first preferred embodiment of the present invention. The schematic diagram mainly reveals the condition of the connection between the respirator and the air cleaning device. The second drawing is a schematic view of the structure of the first preferred embodiment of the present invention, mainly showing a cross-sectional view of the air cleaner. The third figure is a schematic view of the structure of the first preferred embodiment of the present invention, mainly showing a cross-sectional view of the respirator. Φ The fourth figure is a schematic structural view of the first preferred embodiment of the present invention, mainly showing the air intake unit of the respirator. Referring to the first and fourth figures, a respirator 10 that can be coupled to an air cleaning device includes a respirator 11, an air cleaning device 20, and a connecting tube 30. The respirator 11 has a first housing 12, and the first housing 12 is provided with an air intake unit 13 and an air outlet 14. The air intake unit 13 includes a natural air inlet 131 and an air cleaning device air inlet. 132 and a control valve 133. The control valve 133 is exemplified by a solenoid valve in this embodiment. The control valve 133 can open or close the natural air inlet 131 and the air cleaning device manually or electrically. The air port 132, when the control valve 133 opens the natural air inlet 131, the control valve 133 closes the air cleaning device inlet 132; when the control valve 133 closes the natural air inlet 131, the control The valve 133 opens the air cleaning device inlet 132. The first housing 12 is provided with a particle detector 16 and a suspended particle concentration display device 15. The particle detector 16 is configured to detect the first shell. The concentration of suspended particles in the outside air of the body 12; the first housing 12 is internally provided with a chip set 17, a signal transmission unit 18, and a first pumping 5 M435934 as early as 19' and in the present embodiment - The pumping unit ι9 takes an exhaust fan as an example. The first air pumping unit 19 draws in air through the natural air inlet 131 or the air cleaning air inlet 132, and then exhausts air from the air outlet port; the wafer set 17 is electrically connected to the township floating particle The concentration display device 15 and the particle detector 16, the micro__16 transmits the measured secret cell signal to the chip set 17', so that the group, the group 17 quantify the concentration of the particles, and the result of the numericalization The flake concentration display device 15 is not displayed; the wafer assembly port is also electrically connected to the first-subtractive unit 丨9' so that the crystal limb 17 can adjust the rotation speed of the first suction unit 19 to make the respiratory ϋ U The intake air source is taken from the port (3) or the air inlet of the line cleaning device, and after the air pumping unit is adjusted, the amount of air discharged from the air outlet port 14 is a fixed value; the chip group 17 can control the control room 133 to open or close the natural air inlet 131 132; the group 17 is electrically connected to the signal transmission early 18, so that the __ wheel unit 18 can be controlled by (4) day and day film group Send a signal to the air cleaning device 2〇. The air cleaning device 20 has a second housing 21, which is provided with an inlet port 23 and an air outlet unit 24, and the second housing 21 is internally provided with a second subtracting unit 25 - City Wei unit%, Weikou 23 inhaled air and then from the gas outlet unit: chaos 'far exit early morning 24 has - natural air outlet 241 and a breathing port 242, the signal recording unit 26 can reduce the material fresh a; Receive the signal and then start the air cleaning device 2〇. J team
該連接管連接财吸㈣氣^ 24 空氣清淨裝置進氣口 132。 娜逆…A M435934 再請參閱第一圖,經由上述結構,當使用者於使用本創作 時’先將連接管30 —端連接該呼吸器出氣口 242,另一端連結 該空氣清淨裝置進氣口 132’並連接一呼吸面罩5〇於該出氣口 14,然後使該控制閥133開啟該自然進氣口 131關閉該空氣清 淨裝置進氣口 132,接著啟動該呼吸器u,使該第一抽風單元 19自s亥自然進氣口 131將空氣吸入,並由該出氣口丨4將空氣 排出至呼吸面罩50中,使用者亦可由手動的方式使該控制閥 • 133開啟該空氣清淨裝置進氣口 132,並啟動該空氣清淨裝置 20,使呼吸器11的進氣源來自該空氣清淨裝置2〇。 由上可知,太鲁丨於,、‘,、t . . , .The connecting pipe is connected to the fuel (four) gas ^ 24 air cleaning device inlet 132.娜逆...A M435934 Please refer to the first figure. Through the above structure, when the user uses the creation, the first connection pipe 30 is connected to the respirator air outlet 242, and the other end is connected to the air cleaning device air inlet. 132' is connected to a breathing mask 5 to the air outlet 14, and then the control valve 133 is opened to close the natural air inlet 131 to close the air cleaning device inlet 132, and then the respirator u is activated to make the first exhaust The unit 19 draws in air from the s natural intake port 131, and the air is discharged into the breathing mask 50 by the air outlet port 4, and the user can manually open the air cleaning device by the control valve 133. The port 132 is activated and the air purifying device 20 is activated such that the air source of the respirator 11 is from the air purifying device 2A. It can be seen from the above that Tairu is stunned, ‘,, t . . , .
的二-人场告-0 當呼吸器11的進氣源來自該自然進氣口 131,且該晶片組 Π數值化祕粒濃度之結果上升至-預定數值時,該晶片組 17將控制該控制閥133開啟該空氣清淨裝置進氣口 ,同時 HfL说傳輸單元18傳送-訊號至該空氣清淨裝置2〇,使該 空氣清淨裝置20開始運作,該空氣清淨裝置2()自該進氣口 23 將空氣吸人’空氣經過該第二抽氣單元25後由該出氣單元% 排,’一則經由該自然出氣口 241將空氣排出至週邊環境中, ^淨化周邊環i兄的空氣品質,—則經由呼吸器出氣口 Mi連通 管%排出空氣至該呼吸器11内,而該晶片組17亦會 :虱清淨裴置20開啟的同一時間調整該第一抽風單元㈣ 、、,使出氣口 14所排出的空氣量皆為一固定值。 粒的 祖的 率, 7 姐35934 本創作於前揭實施例中所揭露的構成元件,僅為舉例說 明,並非用來限制本案之範圍,其他等效元件的替代或變化, 亦應為本案之申請專利範圍所涵蓋。 【圖式簡單說明】 第一圖係為本創作第一較佳實施例之結構示意圖,主要揭 示呼吸器與空氣清淨裝置連結的狀況。 第二圖係為本創作第一較佳實施例之結構示意圖,主要揭 示空氣清淨機的剖面圖。 第一圖係為本創作第一較佳實施例之結構示意圖,主要揭 示呼吸器的剖面圖。 第四圖係為本創作第一較佳實施例之結構示意圖,主要揭 示呼吸器之進氣單元。 【主要元件符號說明】 可連結空氣清淨裝置之呼吸器1〇 呼吸器11 進氣單元13 空氣凊淨裝置進氣口 132 出氣口 14 微粒偵測器16 訊說傳輪單元18 二氣凊淨裝置20 進氣口 23 第一殼體12 自然進氣口 131 控制閥133 懸浮粒濃度顯示裝置15 晶片組17 第一抽氣單元19 第二殼體21 出氣單元24The second-person field com- _ - when the air source of the ventilator 11 is from the natural air inlet 131, and the result of the wafer group Π numericalization secret granule concentration rises to a predetermined value, the wafer set 17 will control the The control valve 133 opens the air cleaning device inlet, and the HfL transmission unit 18 transmits a signal to the air cleaning device 2 to cause the air cleaning device 20 to start operating. The air cleaning device 2 (from the air inlet) 23 The air is sucked into the air. After the air passes through the second air extracting unit 25, the air is discharged from the air outlet unit, and the air is discharged to the surrounding environment through the natural air outlet 241, and the air quality of the surrounding ring brother is cleaned. Then, the air is discharged to the respirator 11 via the respirator outlet port Mi, and the wafer set 17 adjusts the first exhaust unit (4) at the same time that the cleaning device 20 is turned on, so that the air outlet 14 is provided. The amount of air discharged is a fixed value. The rate of the ancestors of the granules, 7 sister 35934. The constituent elements disclosed in the previous examples are for illustrative purposes only and are not intended to limit the scope of the case. Alternatives or changes to other equivalent components should also be Covered by the scope of patent application. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a schematic view of the structure of the first preferred embodiment of the present invention, mainly showing the state in which the respirator is connected to the air cleaning device. The second drawing is a schematic view of the structure of the first preferred embodiment of the present invention, mainly showing a cross-sectional view of the air cleaner. The first figure is a schematic view of the structure of the first preferred embodiment of the present invention, mainly showing a cross-sectional view of the respirator. The fourth figure is a schematic structural view of the first preferred embodiment of the present invention, mainly showing the air intake unit of the respirator. [Main component symbol description] Respirator that can be connected to the air cleaning device 1 〇 Respirator 11 Air intake unit 13 Air purifier air inlet 132 Air outlet 14 Particle detector 16 Communication wheel unit 18 Two air cleaning device 20 air inlet 23 first housing 12 natural air inlet 131 control valve 133 suspended particle concentration display device 15 wafer set 17 first air pumping unit 19 second housing 21 air outlet unit 24