TWI404674B - Oxygen machine - Google Patents
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- TWI404674B TWI404674B TW097136909A TW97136909A TWI404674B TW I404674 B TWI404674 B TW I404674B TW 097136909 A TW097136909 A TW 097136909A TW 97136909 A TW97136909 A TW 97136909A TW I404674 B TWI404674 B TW I404674B
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Abstract
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本發明係關於一種製氧機,特別是指一種組成型態全新,組裝空間緊實,而能方便攜帶或搬運,並可降低整體成本及售價之製氧機。The invention relates to an oxygen generator, in particular to an oxygen generator which is novel in composition type, compact in assembly space, can be easily carried or transported, and can reduce overall cost and price.
按,隨著社會文明及醫療科技各方面之發展,人類對於疾病之研究及控制都有顯著進步,因此人類之平均壽命也隨之增加,致使高齡化社會之來臨已是不可避免之趨勢;但相對而言,也帶來諸多負面影響,其中以地球環境遭受嚴重之破壞最為人所垢病,連帶地人類有時會遭受莫名疾病(例如:SARS)或惡劣環境(例如:暴風雨或酷寒、酷暑或土石流)之反撲,實值省思何以致之。既然外在環境令人擔憂,則為因應日漸惡劣的環境及莫名疾病侵襲之可能性,人類應該作好各種準備工作,其中氧氣是人類生存不可或缺之氣體,故於內部裝填分子篩材料並導入高壓空氣而可以自行產生氧氣導出之製氧機即為一種重要之裝置器具;製氧機除用於緊急狀況使用外,在很多慢性疾病之症狀中也常被使用到,例如:氣喘患者及呼吸困難症狀患者都有準備製氧機隨時備用之必要;另,因為多吸純氧可以促進血液循環,使頭腦清新,並可消除疲勞,有效增進工作效率,因此在日常生活或工作場所中,備有製氧機以方便隨時使用,亦為良好之生活方式。According to the development of social civilization and medical technology, human beings have made significant progress in the research and control of diseases, so the average life expectancy of human beings has also increased, and the arrival of an aging society is an inevitable trend; Relatively speaking, it also brings many negative effects. Among them, the earth's environment suffers from severe damage, and the human beings sometimes suffer from inexplicable diseases (such as SARS) or harsh environments (such as: storm or cold, hot summer). Or the counterattack of earth and stone flow, the real value of thinking. Since the external environment is worrying, human beings should make all kinds of preparations in response to the increasingly harsh environment and the possibility of inexplicable diseases. Among them, oxygen is an indispensable gas for human survival. Therefore, molecular sieve materials are internally filled and introduced. An oxygen generator that produces high-pressure air and can generate oxygen by itself is an important device; in addition to being used in emergency situations, oxygen generators are often used in many chronic diseases, such as asthma patients and breathing. Patients with difficult symptoms have the need to prepare oxygen generators at any time. In addition, because more oxygen can promote blood circulation, refresh the mind, eliminate fatigue, and effectively improve work efficiency, so in daily life or workplace, prepare There is an oxygen generator for easy use and a good lifestyle.
習知之製氧機大多是採用現成之零組件加以組裝而成,因 此在組裝空間上較為鬆散而龐大,致攜帶或搬運皆為不便,更因此影響到整體成本,使得售價居高不下,實非完善。針對上述缺失,本發明即構思研發設計一種組成型態全新,組裝空間緊實,而能方便攜帶或搬運,並因此可降低整體成本及售價之製氧機。Most of the conventional oxygen generators are assembled using off-the-shelf components. This is loose and bulky in the assembly space, which is inconvenient to carry or carry, and thus affects the overall cost, so that the price is high, it is not perfect. In view of the above-mentioned deficiencies, the present invention conceives and designs an oxygen concentrator which is novel in composition type, compact in assembly space, and can be easily carried or carried, and thus can reduce overall cost and price.
緣是,本發明之主要目的即在提供一種組成型態全新,組裝空間緊實,而能方便攜帶或搬運,並可降低整體成本及售價之製氧機。The main purpose of the present invention is to provide an oxygen generator which is novel in composition type, compact in assembly space, and can be easily carried or carried, and which can reduce overall cost and price.
針對上述目的,本發明即研發提供一種製氧機,構造組成上由一本體殼體、一上蓋組、一下蓋組、一打氣幫浦、若干轉換電磁閥及一出水控制組所組成;其中,該本體殼體之內部成型多數連接肋壁而區隔出多數供裝填入分子篩材料之大儲存筒,周圍則具有一進氣道、多數組氣流管、多數組氣洩管、一儲氣筒及一供加入純水之濾氣水筒;該本體殼體之底面上開設有對應於該進氣道之通孔,對應於該等氣流管之通孔,對應於該等氣洩管之通孔,對應於該等大儲存筒之通孔,及對應於該濾氣水筒之通孔;該本體殼體之後面設有多數裝設槽及開設有一裝設穿槽,該等裝設槽上分別開設有可以通入氣流管與相鄰氣流管之通孔,及可以通入氣流管與相鄰氣洩管之通孔;該等裝設槽上並分別裝設有轉換電磁閥,以控制使相鄰氣流管間之氣體流通,及控制使相鄰之氣流管與氣洩管間之氣體流通;該裝設穿槽處則裝設一過濾片;該上蓋組係由一上蓋、一第一上墊片、一中間蓋及一第二 上墊片所組成,而組裝固設於該本體殼體頂面上;該上蓋頂面上植立有一出氣管;該第一上墊片密貼於該上蓋之底面,開設有一貫孔供該出氣管向底部伸出之段密貼穿設過;該中間蓋密貼於該第一上墊片之底面,開設有一貫孔供該出氣管向底部伸出之段密貼穿設過;該中間蓋之頂面上開設有多數個與前述大儲存筒分別對應之氣穴,其底面分別由通孔向下通出,該等氣穴內相向各穿設出一通道而相通,並共同向下穿設一集氣孔,在該等氣穴連通通道至該集氣孔向下穿出間設有一逆止裝置,該集氣孔之前方設有一向上通出之通氣孔,其抵達該中間蓋之頂面上則開設為一通槽,再於該通槽之另端設成一插設管向下通出;該插設管供插接一延伸管而可伸進濾氣水筒內;該第二上墊片密貼於中間蓋之底面與本體殼體之頂面間,第二上墊片上開設一貫孔供該出氣管向底部伸出之段密貼穿設過,對應於該中間蓋之通孔、集氣孔、通氣孔及插設管之處分別開設有對應併置之通孔,其中對應於該中間蓋之通孔的通孔係分別通入大儲存筒,對應於該集氣孔及通氣孔之通孔皆通入儲氣筒,而對應於該插設管之通孔則係通入濾氣水筒;該下蓋組係由一下蓋及一下墊片所組成,而組裝固設於該本體殼體底面;該下蓋頂面上開設有一對應到該本體殼體進氣道底面之通孔而向下貫穿之穿孔,二側緣上各開設有二向下貫穿之穿孔,其中各有一穿孔於下蓋之頂面上更連接出一彎折之通槽,其側邊另各設一通槽,該下蓋後側開設有一插槽;該下墊片係可密貼於該下蓋與本體殼體之底面間,下墊片上對應於本體殼體進氣道底面通孔開設有對應併置之穿孔,及對應於下 蓋二側緣非與通槽連接之穿孔開設有對應併置之穿孔,及對應於該等彎折之通槽的另一端頭處各開設有穿孔,以及對應於該等另設之通槽的二端頭處各開設有穿孔;該打氣幫浦係供該下蓋組搭置於其上固接,主要具有一對應於該下蓋上對應本體殼體進氣道底面通孔所開設之穿孔而設之進氣穿孔,及具有分別對應於下蓋二側緣與通槽連接之穿孔而設之出氣管;該出水控制組係由一外殼體、一內擋體、一擋水環、一彈性體、一後蓋體、一前插管及一密水環所組成;該外殼體為可插置於該下蓋後側之插槽內作穩固接合者,內部形成一縱向腔室,向頂面穿出一通孔,內部中段處設有一環擋壁,前端腔口處開設有二限位口,其通入內部後變換為弧形容槽;該內擋體具有一擋環,後端為一圓柱,前端則為一伸縮柱,其上開設有若干縱向之凹槽;該擋水環套接於該內擋體之伸縮柱上並達至其根部,該內擋體自外殼體之後端開口容置入縱向腔室內,該伸縮柱並進入該環擋壁之前側,直至擋環及擋水環抵靠到該環擋壁而呈密封狀態,該彈性體套於該圓柱外,該後蓋體蓋合固接於該外殼體之後端開口處,使該彈性體一端抵住該擋環,而另端則抵住該後蓋體;該前插管之內部縱向貫通,外表上凹設有一接合槽供套接密水環,及突出有上下對稱之二限位塊,並於內部設有一環之通孔壁。In view of the above, the present invention provides an oxygen generator, which is composed of a body casing, an upper cover group, a lower cover group, an air pump, a plurality of switching solenoid valves, and a water discharge control group. The inside of the body shell is formed by a plurality of connecting rib walls and partitions a plurality of large storage cylinders for filling the molecular sieve material, and has an inlet port, a multi-array gas flow tube, a multi-array gas pipe, and a gas storage cylinder. a filter water cartridge for adding pure water; a through hole corresponding to the air inlet is opened on a bottom surface of the body shell, and a through hole corresponding to the air flow tube corresponds to a through hole of the air leakage pipe, Corresponding to the through holes of the large storage cylinders and the through holes corresponding to the filter water cartridges; the rear surface of the main body housing is provided with a plurality of mounting slots and a mounting slot is provided, and the mounting slots are respectively opened The utility model has a through hole which can pass into the air flow pipe and the adjacent air flow pipe, and a through hole which can pass into the air flow pipe and the adjacent air leakage pipe; the installation slots are respectively provided with a switching electromagnetic valve to control the phase Gas circulation between adjacent gas tubes, and control to make adjacent Gas flow between the gas flow pipe and the vent pipe; at the mounting groove through a filter plate is installed; the upper cover by an upper cover-based group, on a first pad, a cover and a second intermediate The upper gasket is assembled and fixed on the top surface of the body casing; an air outlet pipe is formed on the top surface of the upper cover; the first upper gasket is closely attached to the bottom surface of the upper cover, and a uniform hole is opened for the The outlet pipe is closely attached to the bottom portion; the intermediate cover is closely attached to the bottom surface of the first upper gasket, and a continuous hole is opened for the outlet pipe to protrude from the bottom portion; a plurality of air pockets corresponding to the large storage cylinders are respectively disposed on the top surface of the middle cover, and the bottom surfaces thereof are respectively opened downwardly through the through holes, and the air holes are respectively formed with a passage and communicated with each other, and are common to each other. A venting hole is disposed through the venting hole, and a backstop device is disposed between the gas venting passage and the gas venting hole. The gas venting hole is provided with an upward venting hole in front of the gas collecting hole, and reaches the top of the middle cover The surface is formed as a through slot, and the other end of the through slot is formed as a plug-in tube, and the plug tube is inserted into an extension tube to extend into the filter water cartridge; the second upper portion The gasket is closely attached to the bottom surface of the middle cover and the top surface of the body casing, and the second upper gasket is provided with a consistent hole for the out a section of the tube extending toward the bottom is closely attached, and a correspondingly disposed through hole is respectively formed corresponding to the through hole, the air collecting hole, the vent hole and the insertion tube of the middle cover, wherein the corresponding corresponding to the middle cover The through holes of the holes are respectively connected to the large storage cylinders, and the through holes corresponding to the air collecting holes and the vent holes are all connected to the air reservoir, and the through holes corresponding to the insertion pipes are passed through the filter water cartridge; the lower cover The assembly is composed of a lower cover and a lower gasket, and is assembled and fixed on the bottom surface of the body casing; a top surface of the lower cover is provided with a through hole corresponding to the through hole of the bottom surface of the air inlet of the body casing Each of the two side edges is provided with two downwardly extending perforations, wherein each of the perforations is connected with a bent through groove on the top surface of the lower cover, and a through groove is further disposed on the side of the lower cover, and the rear side of the lower cover is provided a lower slot is disposed between the lower cover and the bottom surface of the main body casing, and the lower gasket is corresponding to the through hole of the bottom surface of the air inlet of the main body casing, and correspondingly correspondingly perforated, and corresponding to under The two side edges of the cover are not respectively connected with the through holes, and the corresponding perforations are provided, and the other ends corresponding to the bent grooves are respectively provided with perforations, and corresponding to the other through grooves. Each of the ends is provided with a perforation; the inflating pump is provided for the lower cover group to be fixed thereon, and has a corresponding perforation corresponding to the through hole of the bottom surface of the inlet of the corresponding body casing of the lower cover. An air inlet perforation and an air outlet tube respectively corresponding to the perforation of the two side edges of the lower cover and the through slot; the water outlet control group is composed of an outer casing body, an inner block body, a water retaining ring and an elastic The body, a rear cover body, a front cannula and a dense water ring; the outer casing is a slot that can be inserted into the slot on the rear side of the lower cover for solid connection, and a longitudinal chamber is formed inside, and the top is formed A through hole is formed in the surface, a ring retaining wall is arranged in the inner middle portion, and a second limiting port is opened at the front end opening, and the inner limiting portion is converted into an arc-shaped receiving groove; the inner blocking body has a retaining ring, and the rear end is a cylinder, the front end is a telescopic column, and a plurality of longitudinal grooves are formed thereon; the water retaining ring is sleeved on The telescopic column of the inner block body reaches the root portion thereof, and the inner block body is accommodated into the longitudinal cavity from the rear end opening of the outer casing, and the telescopic column enters the front side of the ring retaining wall until the retaining ring and the water retaining ring reach The elastic body is sleeved outside the cylinder, and the rear cover body is fixedly attached to the rear end opening of the outer casing body, so that one end of the elastic body abuts against the retaining ring, and the other The end is against the rear cover; the front of the front cannula is longitudinally penetrated, and the outer surface is concavely provided with a joint groove for receiving the watertight ring, and the upper and lower symmetrical second limit block is protruded, and a ring is arranged inside. Through hole wall.
在上述製氧機中,在該上蓋底面上開設有多數道通槽,其皆有一端頭向側邊穿出上蓋而分別形成一通孔,該處並組裝一轉換電磁閥;該第一上墊片對應於該上蓋底面之通槽之端頭處 各開設有一小穿孔;該中間蓋對應於該第一上墊片之小穿孔處各開設有一小穿孔;第二上墊片對應於該中間蓋之小穿孔處各開設有一小穿孔,該等小穿孔係分別通入大儲存筒;當開啟該轉換電磁閥時可使其中一大儲存筒內較高氣壓之氣體經由對應鄰接之小穿孔通入對應之通槽,再經轉換電磁閥通入其他通槽,再經由對應鄰接之小穿孔通入其他大儲存筒內。In the above oxygen generator, a plurality of passage grooves are formed in the bottom surface of the upper cover, and each of the ends has a head end penetrating the upper cover to the side to form a through hole, and a switching solenoid valve is assembled there; the first upper pad a piece corresponding to the end of the groove of the bottom surface of the upper cover Each of the small openings has a small perforation; the middle cover has a small perforation corresponding to the small perforation of the first upper spacer; and the second upper spacer has a small perforation corresponding to the small perforation of the intermediate cover. The perforation system is respectively connected to the large storage cylinder; when the switching solenoid valve is opened, the gas of the higher pressure in the large storage cylinder can be passed into the corresponding through slot through the corresponding adjacent small perforation, and then the other is passed through the conversion solenoid valve. The through slots are then passed into other large storage cylinders via correspondingly adjacent small perforations.
在上述製氧機中,該逆止裝置可係於該等氣穴內各置入一閉氣膜片,當氣體自該中間蓋之通孔進入氣穴內時,會推開閉氣膜片上移再沿著通道經過集氣孔及通孔向下進入儲氣筒停留;而反向之氣體則推壓該閉氣膜片向下壓住通孔,達成使氣體逆止之作用。In the above oxygen generator, the backstop device may be provided with a gas-closing membrane in each of the air pockets, and when the gas enters the air pocket from the through hole of the middle cover, the gas-closed diaphragm is pushed up. Then, the channel passes through the gas collecting hole and the through hole to enter the gas storage cylinder to stay; and the reverse gas pushes the gas sealing film downward to press the through hole, thereby achieving the effect of stopping the gas.
在上述製氧機中,該逆止裝置可係於該中間蓋頂面之通槽端頭處下方成型一容槽,供置入一閉氣膜片,再由一彈性體之端頭予以抵住,下方則以一插設管之一端插設入該容槽並抵住該彈性體之另端達成穩固接合,該插設管之下方即插接該延伸管而伸進濾氣水筒內,當氣體自該通槽進入容槽時,會推開閉氣膜片抗拒彈性體之彈力,造成閉氣膜片周緣變形而可供氣體通入,再沿著延伸管進入濾氣水筒內;而反向之氣體則推壓該閉氣膜片壓住通槽,達成使氣體逆止之作用。In the above oxygen generator, the backstop device may form a pocket below the end of the groove of the top surface of the intermediate cover for inserting a gas-tight membrane, and then holding the end of an elastic body In the lower part, a plug end of one of the insertion tubes is inserted into the pocket and abuts against the other end of the elastic body to achieve a stable joint, and the extension tube is inserted under the insertion tube and extends into the water filter cartridge. When the gas enters the receiving groove from the through groove, the elastic force of the closed gas diaphragm is resisted, and the peripheral edge of the closed gas diaphragm is deformed to allow gas to pass through, and then enters the filter water cylinder along the extension tube; The gas pushes the closed gas diaphragm against the through groove to achieve the effect of stopping the gas.
在上述製氧機中,所述之多數大儲存筒其數量係為二(含)個以上。In the above oxygen generator, the number of the large storage cylinders is two or more.
在上述製氧機中,所述之多數組氣流管其數量係與該等大儲存筒對應,而為二(含)個以上。In the above oxygen generator, the number of the plurality of array gas flow tubes corresponds to the large storage cylinders, and is two or more.
在上述製氧機中,所述之多數組氣洩管其數量係與該等大 儲存筒對應,而為二(含)個以上。In the above oxygen generator, the number of the multi-array gas pipes is as large as the above The storage cylinders correspond to two or more.
在上述製氧機中,所述之多數道通槽其數量係與該等大儲存筒對應,而為二(含)個以上。In the above oxygen generator, the number of the plurality of channels is corresponding to the large storage cylinders, and is two or more.
關於本發明為達成上述目的,所採用之技術手段及可達致之功效,茲舉以下數較佳可行實施例配合附圖進行詳細說明,俾利完全瞭解。With regard to the present invention, the technical means and the achievable effects of the present invention will be described in detail with reference to the accompanying drawings.
請參閱第一~四圖所示,本發明實施例係一製氧機1,構造組成上由一本體殼體10、一上蓋組20、一下蓋組30、一打氣幫浦40、若干轉換電磁閥51、52、53、54、55及一出水控制組60所組成;其中,該本體殼體10大體上為一矩形立方體,請配合參閱第五圖所示,由俯視觀之,該本體殼體10頂面四角與中央皆設有一組裝孔101,內部則成型多數連接肋壁而區隔出二分位左右側之大儲存筒11、12,周圍則具有一進氣道13;二組分位左右側之氣流管111、112與121、122;二組同樣分位左右側之氣洩管113、114與123、124;一儲氣筒14及一濾氣水筒15;接著請參閱第四、五圖所示,該本體殼體10之底面四角與中央皆設有一組裝孔102,另於底面上開設有對應於該進氣道13之通孔1013,與對應於該等氣流管111、112與121、122之通孔1011、1012與1021、1022,與對應於該等氣洩管114與124之通孔1014與1024,及對應於該等大儲存筒11、12之通孔1001與1002,以及對應於該濾氣水筒15之通孔1015;接著請參閱第六圖所示,在該本體殼體10之後面設有裝設槽103、104、105、106及較為上方位置開設有 一裝設穿槽107,其中,該等裝設槽103、104上分別開設有可以通入氣流管111、121內之通孔1031、1041及可以通入氣流管112、122內之通孔1032、1042;該等裝設槽105、106上則分別開設有可以通入氣流管112、122內之通孔1051、1061及可以通入氣洩管113、123內之通孔1052、1062;該等裝設槽103、104、105、106上供分別裝設轉換電磁閥51、52、53、54;其作用係當開啟該等轉換電磁閥51、52時可使氣流管111、121內之氣體分別經由該等通孔1031與1032及1041與1042而通入該氣流管112、122內;而當開啟該等轉換電磁閥53、54時則可使氣流管112、122內之氣體分別經由該等通孔1051與1052及1061與1062而通入該氣洩管113、123內;該裝設穿槽107處則供裝設一過濾片108。Referring to FIG. 1 to FIG. 4 , an embodiment of the present invention is an oxygen generator 1 , which is composed of a body casing 10 , an upper cover group 20 , a lower cover group 30 , an air pumping pump 40 , and a plurality of conversion electromagnetic components . The valve body 51, 52, 53, 54, 55 and a water outlet control group 60; wherein the body casing 10 is substantially a rectangular cube, please refer to the fifth figure, as viewed from a top view, the body shell An assembly hole 101 is formed in the four corners of the top surface of the body 10, and a plurality of assembly holes 101 are formed in the center, and the large storage cylinders 11 and 12 on the left and right sides of the dichotom are separated, and an air inlet 13 is arranged around the body; Left and right side air flow pipes 111, 112 and 121, 122; two sets of air discharge pipes 113, 114 and 123, 124 which are equally divided on the left and right sides; a gas storage pipe 14 and a gas filter water cylinder 15; then refer to the fourth and fifth As shown in the figure, the bottom surface of the main body casing 10 is provided with an assembly hole 102 at the four corners and the center, and the through hole 1013 corresponding to the air inlet 13 is opened on the bottom surface, and corresponding to the air flow tubes 111, 112 and Through holes 1011, 1012 and 1021, 1022 of 121, 122, and through holes 1014 and 1 corresponding to the air leakage pipes 114 and 124 024, and through holes 1001 and 1002 corresponding to the large storage cylinders 11, 12, and through holes 1015 corresponding to the water filter water tank 15; then, as shown in the sixth figure, behind the body casing 10 The installation slots 103, 104, 105, 106 and the upper position are provided A through slot 107 is disposed, wherein the mounting slots 103 and 104 respectively have through holes 1031 and 1041 that can pass into the airflow tubes 111 and 121 and through holes 1032 that can pass into the airflow tubes 112 and 122. And the through holes 1051 and 1061 that can pass into the airflow pipes 112 and 122 and the through holes 1052 and 1062 that can pass into the air leakage pipes 113 and 123 respectively; The loading slots 103, 104, 105, 106 are respectively provided with switching solenoid valves 51, 52, 53, 54; the function of which is to enable the airflow tubes 111, 121 when the switching solenoid valves 51, 52 are opened. The gas flows into the gas flow tubes 112, 122 through the through holes 1031 and 1032 and 1041 and 1042, respectively. When the switching solenoid valves 53, 54 are opened, the gases in the gas flow tubes 112, 122 can be respectively passed through The through holes 1051 and 1052 and 1061 and 1062 pass into the air leakage pipes 113 and 123; and the installation groove 107 is provided with a filter 108.
接著,請參閱第三、四、七、八圖所示,該上蓋組20係由一上蓋21、一第一上墊片22、一中間蓋23及一第二上墊片24所組成,其中,該上蓋21之四角及中央皆開設有一組裝孔211,供鎖接件S1(例如:螺栓)一對一對應鎖接入,頂面上植立有一出氣管212,為亦向底部伸出一段者,在其底面上開設有二道通槽213、214,其有一端頭向側邊穿出上蓋21而分別形成通孔2131、2141,該處並供組裝該轉換電磁閥55,因此當開啟該轉換電磁閥55時可使二道通槽213、214間經由該等通孔2131、2141而連通;該第一上墊片22係可密貼於該上蓋21之底面,其於四角及中央皆開設有可與該上蓋21之組裝孔211對應併置而供鎖接件S1穿設入之組裝孔221,另開設一貫孔222供該出氣管212向底部伸出之段密貼穿設過,及對應 於該上蓋21底面之通槽213、214之端頭處各開設有一小穿孔223、224;該中間蓋23係可密貼於該第一上墊片22之底面,其於四角及中央皆開設有可與該第一上墊片22之組裝孔221對應併置而供鎖接件S1穿設入之組裝孔231,另開設一貫孔232供該出氣管212向底部伸出之段密貼穿設過;該中間蓋23之頂面上開設有左右二氣穴233、234,其底面分別由通孔2331、2341向下通出;二氣穴233、234內相向各穿設出一通道2332、2342而相通,並共同向下穿設一集氣孔235,再於該集氣孔235之前方設有一向上通出之通氣孔236,其抵達該中間蓋23之頂面上則開設為一通槽237,再於該通槽237之另端開設成一插設管238向下通出;該插設管238則供插接一延伸管239而可伸進該濾氣水筒15內;組裝時,該等氣穴233、234內各置入一閉氣膜片2333、2343,再貼接於該第一上墊片22底面,另,於對應於該第一上墊片22之小穿孔223、224之處各開設有一小穿孔2334、2344;該第二上墊片24係可密貼於該中間蓋23之底面與本體殼體10之頂面間,其於四角及中央皆開設有可與該中間蓋23之組裝孔231對應併置而供鎖接件S1穿設入之組裝孔241,該等鎖接件S1最後即鎖接入該本體殼體10頂面之組裝孔101作穩固結合,該第二上墊片24上另開設一貫孔242供該出氣管212向底部伸出之段密貼穿設過;同時對應於該中間蓋23之通孔2331、2341、集氣孔235、通氣孔236及插設管238之處分別開設有對應併置之通孔243、244、245、246、248,以及對應於該中間蓋23之小穿孔2334、2344之處各開設有一小穿孔2433、2443;其中,該等通孔243 與244及小穿孔2433與2443係分別通入大儲存筒11、12;而通孔245與246則皆通入儲氣筒14;通孔248則係通入濾氣水筒15。Next, as shown in the third, fourth, seventh, and eighth diagrams, the upper cover group 20 is composed of an upper cover 21, a first upper spacer 22, an intermediate cover 23, and a second upper spacer 24, wherein An assembly hole 211 is defined in the four corners and the center of the upper cover 21 for one-to-one corresponding locking connection of the locking member S1 (for example, a bolt), and an air outlet pipe 212 is formed on the top surface for extending a portion to the bottom. Two through grooves 213 and 214 are opened on the bottom surface thereof, and one end of the head passes through the upper cover 21 to the side to form through holes 2131 and 2141, respectively, where the switching solenoid valve 55 is assembled, so when it is opened When the solenoid valve 55 is switched, the two through grooves 213 and 214 can communicate with each other through the through holes 2131 and 2141. The first upper spacer 22 can be closely attached to the bottom surface of the upper cover 21 at the four corners and the center. An assembly hole 221 which can be juxtaposed with the assembly hole 211 of the upper cover 21 and through which the lock member S1 is inserted is provided, and a constant hole 222 is formed for the extension of the outlet pipe 212 to the bottom. And corresponding A small through hole 223, 224 is defined in each of the ends of the through grooves 213, 214 of the bottom surface of the upper cover 21; the intermediate cover 23 is closely attached to the bottom surface of the first upper spacer 22, and is opened at the four corners and the center. There is an assembly hole 231 which can be juxtaposed with the assembly hole 221 of the first upper spacer 22 for the lock member S1 to be inserted therein, and a constant hole 232 is provided for the end portion of the air outlet tube 212 to protrude to the bottom. The top surface of the middle cover 23 is provided with two left and right air pockets 233 and 234, and the bottom surface thereof is respectively led downward through the through holes 2331 and 2341; the two air pockets 233 and 234 are respectively disposed with a passage 2332 in the opposite direction. 2342 is connected to each other, and a gas collecting hole 235 is disposed downwardly, and an upwardly extending venting hole 236 is disposed in front of the gas collecting hole 235, and a through groove 237 is defined in the top surface of the intermediate cover 23. Further, an insertion tube 238 is opened downwardly at the other end of the through hole 237. The insertion tube 238 is inserted into the extension tube 239 to extend into the filter water cartridge 15; when assembled, the gas is assembled. A gas-closing membrane 2333, 2343 is placed in each of the holes 233 and 234, and is attached to the bottom surface of the first upper gasket 22, and further corresponding to the first upper gasket. A small perforation 2334, 2344 is formed in each of the small through holes 223 and 224 of the 22; the second upper spacer 24 is closely attached to the bottom surface of the intermediate cover 23 and the top surface of the main body casing 10 at the four corners and The central portion is provided with an assembly hole 241 which can be juxtaposed with the assembly hole 231 of the intermediate cover 23 for the locking member S1 to be inserted therein. The lock member S1 is finally locked and assembled to the top surface of the body housing 10 The hole 101 is firmly coupled, and the second upper gasket 24 is further provided with a constant hole 242 for the portion of the air outlet pipe 212 extending toward the bottom portion; and corresponding to the through hole 2331, 2341 of the intermediate cover 23; The gas collecting holes 235, the vent holes 236 and the insertion tube 238 are respectively provided with correspondingly juxtaposed through holes 243, 244, 245, 246, 248, and a small perforation 2334, 2344 corresponding to the intermediate cover 23 is opened. Small perforations 2433, 2443; wherein the through holes 243 The 244 and the small perforations 2433 and 2443 are respectively connected to the large storage cylinders 11 and 12; the through holes 245 and 246 are both connected to the air reservoir 14; the through holes 248 are passed through the air filter water cylinder 15.
接著,請參閱第三、四、九圖所示,該下蓋組30係由一下蓋31及一下墊片32所組成,其中,該下蓋31之四角及中央皆開設有一組裝孔311,供鎖接件S2(例如:螺栓)一對一對應鎖接入,頂面上於接近前緣處開設有一向下貫穿之穿孔312,二側緣上則各開設有二向下貫穿之穿孔313、314、315、316,其中之穿孔313、314於該下蓋31之頂面上更各連接出一彎折之通槽3131、3141,再於其側邊另各設一通槽3132、3142;另,於該下蓋31之後側開設有一插槽317;該下墊片32係可密貼於該下蓋31與本體殼體10之底面間,其於四角及中央皆開設有可與該下蓋31之組裝孔311對應併置而供鎖接件S2穿設入之組裝孔321,該等鎖接件S2最後即鎖接入該本體殼體10底面之組裝孔102作穩固結合,該下墊片32上另開設有與該下蓋31之穿孔312、315、316對應併置之穿孔322、325、326,及對應於該等通槽3131、3141的另一端頭處各開設有穿孔3231、3241,以及對應於該等通槽3132、3142的二端頭處各開設有穿孔3232、3233與3242、3243。Then, as shown in the third, fourth, and ninth drawings, the lower cover group 30 is composed of a lower cover 31 and a lower spacer 32. The assembly hole 311 is defined in the four corners and the center of the lower cover 31. The locking member S2 (for example, a bolt) is connected to the lock by a pair of ones, and a through hole 312 is formed in the top surface near the front edge, and two through holes 313 are formed in each of the two side edges. 314, 315, 316, wherein the through holes 313, 314 are connected to a bent groove 3131, 3141 on the top surface of the lower cover 31, and a through groove 3132, 3142 is further disposed on the side of the bottom cover 31; A slot 317 is defined in the rear side of the lower cover 31. The lower spacer 32 is closely attached between the lower cover 31 and the bottom surface of the main body casing 10, and is openable at the four corners and the center. The assembly holes 311 of the 31 are correspondingly juxtaposed and the assembly holes 321 are inserted into the locking member S2. The locking members S2 are finally locked into the assembly holes 102 of the bottom surface of the body housing 10 for stable bonding. 32 is further provided with through holes 322, 325, 326 juxtaposed corresponding to the through holes 312, 315, 316 of the lower cover 31, and corresponding to the through grooves 3131, 3141 Perforations 3231, 3241 are formed at the other ends, and perforations 3232, 3233 and 3242, 3243 are respectively formed at the two end portions corresponding to the through grooves 3132 and 3142.
該打氣幫浦40係供該下蓋31搭置於其上固接,主要具有一對應於該下蓋31之穿孔312的進氣穿孔42,及分別對應於該等穿孔313、314之出氣管43、44,至於其內部藉由馬達帶動作動而產生抽送空氣之能力則毋庸贅述。The air pumping pump 40 is provided with the lower cover 31 fixed thereon, and has an air inlet perforation 42 corresponding to the through hole 312 of the lower cover 31, and an air outlet tube corresponding to the perforations 313 and 314, respectively. 43, 44, as for the ability to pump air through the action of the motor belt inside, it is unnecessary to repeat.
接著,請配合參閱第十、十一圖所示,該出水控制組60 由一外殼體61、一內擋體62、一擋水環63、一彈性體64、一後蓋體65、一前插管66及一密水環67所組成;該外殼體61之內部形成一縱向腔室611,並向頂面穿出一通孔612,內部中段處設有一環擋壁613,前端腔口處更開設有上下二限位口614,其通入內部一小距離後變換為弧形容槽615;該內擋體62具有一擋環621,後端為一圓柱622,前端則為一伸縮柱623,其上開設有若干縱向之凹槽6231;該擋水環63套接於該內擋體62之伸縮柱623上並達至其根部,然後持該內擋體62自外殼體61之後端開口容置入縱向腔室611內,並使該伸縮柱623進入該環擋壁613之前側,直至擋環621及擋水環63抵靠到該環擋壁613而呈密封狀態為止,然後將彈性體64套於該圓柱622外,並將後蓋體65蓋合並固接於該外殼體61之後端開口處,使該彈性體64之一端即抵住該擋環621,而另端則抵住該後蓋體65;當完成上述組裝後,即可持以插置於該下蓋31後側之插槽317內並作穩固接合;該前插管66則為需要使用時才使用之組件,大體上為圓管狀且內部縱向貫通,外表上凹設有一接合槽661供套接密水環67,及突出有上下對稱之二限位塊662,並於內部設有一環之通孔壁663,外表上可設凹凸狀之手握環664,以方便手掌握持操作轉動用,另其前端可設為多數推拔狀之接合端665;使用時如第十二~十四圖所示,以手握持該手握環664將前插管66後端插置入該外殼體61之前端內(如第十二圖所示),並由該等限位塊662通過對應之限位口614抵達該等弧形容槽615處,並即循著弧形容槽615轉動,此時該等限位塊662即 被該外殼體61前端處之壁體阻擋而無法退出,故會呈現定位狀態,且該通孔壁663會推壓該內擋體62抗拒彈性體64之彈力而後退,使該擋環621及擋水環63離開該環擋壁613(如第十三圖所示),則由環擋壁613所區隔之前後空間即可相通;而該接合端665即可穩固接合延伸用之出水管(如第十四圖所示);故當整體組裝後,該外殼體61之後空間內之液體有必要排出時,即利用該出水控制組60以達成,組裝上述組件,首先將該出水控制組60與下蓋組30組合,然後將該本體殼體10與下蓋組30組合,接著將下蓋組30與該打氣幫浦40加以組合,然後於該等大儲存筒11、12內裝填入分子篩材料,及於該濾氣水筒15內加入純水,接著將上蓋組20與本體殼體10組合,及將該等轉換電磁閥51、52、53、54、55組裝於本體殼體10及上蓋組20上,如此即完成如第一、二圖所示之製氧機1。Next, please refer to the tenth and eleventh figures, the water outlet control group 60 An outer casing 61, an inner block 62, a water retaining ring 63, an elastic body 64, a rear cover 65, a front cannula 66 and a dense water ring 67; the inner portion of the outer casing 61 is formed a longitudinal chamber 611, and a through hole 612 is formed in the top surface, a ring wall 613 is disposed at the inner middle portion, and upper and lower limit ports 614 are further opened at the front end cavity, and a small distance is opened into the inner portion to be converted into The inner retaining body 62 has a retaining ring 621, the rear end is a cylinder 622, and the front end is a telescopic column 623 having a plurality of longitudinal grooves 6231; the water retaining ring 63 is sleeved The telescopic post 623 of the inner block body 62 reaches the root portion thereof, and then the inner block body 62 is received from the rear end of the outer casing 61 into the longitudinal chamber 611, and the telescopic column 623 enters the ring block. The front side of the wall 613 is sealed until the retaining ring 621 and the water retaining ring 63 abut against the ring retaining wall 613, and then the elastic body 64 is sleeved outside the cylinder 622, and the rear cover 65 is covered and fixed. At the rear end opening of the outer casing 61, one end of the elastic body 64 is against the retaining ring 621, and the other end is against the rear cover 65; After being mounted, it can be inserted into the slot 317 on the rear side of the lower cover 31 and firmly engaged; the front cannula 66 is a component that is used when it is needed, and is generally tubular and longitudinally connected. The outer surface of the outer surface is provided with an engaging groove 661 for receiving the watertight ring 67, and a second limiting block 662 protruding from the upper and lower sides, and a through hole wall 663 is formed therein, and the outer surface can be provided with a concave and convex hand. The ring 664 is convenient for grasping and holding the operation, and the front end thereof can be set as a plurality of push-shaped joint ends 665; when used, as shown in the twelfth to fourteenth figures, holding the hand grip ring 664 by hand will The rear end of the front cannula 66 is inserted into the front end of the outer casing 61 (as shown in FIG. 12), and the limiting block 662 reaches the arcuate receiving groove 615 through the corresponding limiting port 614. And rotating along the arcuate pocket 615, at which point the limit block 662 is The wall of the outer casing 61 is blocked by the wall of the outer casing 61 and cannot be withdrawn. Therefore, the through-hole wall 663 pushes the inner body 62 against the elastic force of the elastic body 64 and retreats, so that the retaining ring 621 and The water retaining ring 63 leaves the ring retaining wall 613 (as shown in FIG. 13), and the rear space can be communicated before the ring retaining wall 613 is separated; and the joint end 665 can firmly engage the outlet pipe for extension. (As shown in Fig. 14); therefore, when the liquid in the space after the outer casing 61 is necessary to be discharged after the overall assembly, that is, the water discharge control group 60 is used to complete the assembly, the water discharge control group is firstly 60 is combined with the lower cover group 30, and then the body casing 10 is combined with the lower cover group 30, and then the lower cover group 30 is combined with the air pumping pump 40, and then filled in the large storage cylinders 11, 12 The molecular sieve material is introduced into the filter water cartridge 15 , and the upper cover group 20 is combined with the body casing 10 , and the switching solenoid valves 51 , 52 , 53 , 54 , 55 are assembled to the body casing 10 . And the upper cover group 20, thus completing the oxygen generator 1 as shown in the first and second figures.
使用時係啟動該打氣幫浦40,則其抽吸力量會使空氣經過該過濾片108過濾後進入進氣道13內,再經由本體殼體10底面之通孔1013向下經過該下墊片32之穿孔322及下蓋31之穿孔312,以及該打氣幫浦40之進氣穿孔42而進入該打氣幫浦40內,再分成二路分別由二側之出氣管43、44出氣並即進入該下蓋31之穿孔313、314,然後分別沿著通槽3131、3141及下墊片32之穿孔3231、3241,以及本體殼體10底面之通孔1011、1021而進入該等氣流管111、121內停留並產生高壓;接著,由自動控制系統(另設,未示於圖)控制該等轉換電磁閥51、52輪流啟動,其作用係當轉換電磁閥51啟動時(此時 該轉換電磁閥52停止動作,或者經過一時間差後再啟動),氣流管111內之空氣即經由通孔1031、1032進入氣流管112內,再向下經過下墊片32之通孔1012及該通槽3132以及該大儲存筒11底面之通孔1001而進入該大儲存筒11底部,並被推壓通過分子篩材料而轉化為氧氣向上聚集;接著氧氣即經由該該第二上墊片24之通孔243及該中間蓋23之通孔2331而進入氣穴233內,並推開閉氣膜片2333上移而沿著通道2332經過集氣孔235及通孔245向下進入儲氣筒14停留,並匯集為高壓。在氧氣抵達該通道2332時,也會沿著通道2342抵達氣穴234處,惟其壓力反而推壓該閉氣膜片2343向下壓住通孔2341,使氧氣無法由此進入大儲存筒12內,因此該等閉氣膜片2333、2343為一種逆止裝置之具體實施;然此時該大儲存筒12內不宜沒有氧氣存在,故自動控制系統即會控制該轉換電磁閥55啟動,使該大儲存筒11內之氧氣少量經由小穿孔2433、2334、223及通槽213抵達通孔2131處,再轉換進入通孔2141並經由通槽214及小穿孔224、2344、2443進入大儲存筒12內停留,以利當其要輸出氧氣時能即刻有氧氣供輸出。When in use, the pumping pump 40 is activated, and the suction force causes the air to pass through the filter 108 and enter the air inlet 13 and then pass through the lower gasket through the through hole 1013 of the bottom surface of the body casing 10. The perforation 322 of the 32 and the perforation 312 of the lower cover 31, and the intake perforation 42 of the pumping pump 40 enter the air pumping tube 40, and are further divided into two channels, respectively, and the air outlets 43 and 44 of the two sides are respectively exhausted and enter. The through holes 313 and 314 of the lower cover 31 are respectively entered into the air flow tubes 111 along the through holes 3131 and 3241 of the through grooves 3131, 3141 and the lower spacer 32, and the through holes 1011 and 1021 of the bottom surface of the body casing 10, respectively. 121 stays and generates a high pressure; then, the automatic control system (additional, not shown) controls the switching solenoid valves 51, 52 to take turns to start, when the switching solenoid valve 51 is activated (at this time) The switching solenoid valve 52 stops operating or restarts after a time difference. The air in the air flow tube 111 enters the air flow tube 112 through the through holes 1031 and 1032, and then passes down through the through hole 1012 of the lower spacer 32 and the The through groove 3132 and the through hole 1001 of the bottom surface of the large storage cylinder 11 enter the bottom of the large storage cylinder 11 and are pushed through the molecular sieve material to be converted into oxygen upwardly; then the oxygen passes through the second upper gasket 24 The through hole 243 and the through hole 2331 of the intermediate cover 23 enter the air pocket 233, and pushes the air closing diaphragm 2333 upward to move along the channel 2332 through the air collecting hole 235 and the through hole 245 to enter the air reservoir 14 to stay, and Pooled for high pressure. When the oxygen reaches the channel 2332, it also reaches the air pocket 234 along the channel 2342, but the pressure instead pushes the air-closing membrane 2343 downwardly against the through hole 2341, so that oxygen cannot enter the large storage cylinder 12 thereby. Therefore, the air-closing membranes 2333, 2343 are a specific implementation of the backstop device; however, in the large storage cylinder 12, there is no need to have no oxygen, so the automatic control system controls the switching solenoid valve 55 to start, so that the large storage A small amount of oxygen in the cylinder 11 reaches the through hole 2131 through the small perforations 2433, 2334, 223 and the through groove 213, and then enters the through hole 2141 and enters the large storage cylinder 12 via the through groove 214 and the small perforations 224, 2344, 2443. In order to facilitate the output of oxygen, it can immediately have oxygen for output.
因空氣通過分子篩材料轉化為氧氣之過程會產生熱量,故作用一段時間後自動控制系統即控制該轉換電磁閥51停止,使氣流管111內之空氣無法經由通孔1031、1032進入氣流管112內,同時並控制該轉換電磁閥53啟動,使氣流管112內之空氣經由通孔1051、1052進入氣洩管113內,再經由隔開之壁體頂端切銷成較為低下之處流入氣洩管114內,然後向下經過下墊片32之穿孔325與下蓋31之穿孔315而自然向外洩 出,以降低該氣流管112內之氣壓。在該轉換電磁閥51停止或尚未完全停止前,自動控制系統會適時控制另一轉換電磁閥52啟動,並通過另一組相對應之組件完成與上述相同之製氧過程,最後氧氣即亦經過集氣孔235及通孔245向下進入儲氣筒14停留。Since the process of converting air into molecular oxygen through the molecular sieve material generates heat, the automatic control system controls the switching solenoid valve 51 to stop after a period of time, so that the air in the gas flow pipe 111 cannot enter the gas flow pipe 112 through the through holes 1031 and 1032. At the same time, the switching solenoid valve 53 is controlled to be activated, so that the air in the air flow tube 112 enters the air leakage pipe 113 through the through holes 1051 and 1052, and then flows into the air leakage pipe through the top end of the separated wall body. 114, then pass down through the perforation 325 of the lower shim 32 and the perforation 315 of the lower cover 31 to naturally vent out Out to reduce the air pressure in the gas flow tube 112. Before the switching solenoid valve 51 is stopped or has not been completely stopped, the automatic control system will control the other switching solenoid valve 52 to start at the right time, and complete the same oxygen production process by another set of corresponding components, and finally the oxygen is passed. The gas collecting holes 235 and the through holes 245 enter the gas storage tube 14 to stay.
本發明即由該等大儲存筒11、12輪流製氧之過程使該儲氣筒14內之氧氣量增加。而當要使用氧氣時,該出氣管212先插置一延伸管(如第一、二圖所示),以利拉至需用氧氣處,然後開啟出氣鈕(另設,未示於圖)使氧氣經由該出氣管212及延伸管出氣;其作用係儲氣筒14內之高壓氧氣會經由通孔246、通氣孔236、通槽237、插設管238及延伸管239而進入並通過濾氣水筒15內純水之清潔,再向上飄集為更乾淨之氧氣,然後即由該該出氣管212及延伸管出氣供使用。In the present invention, the amount of oxygen in the air reservoir 14 is increased by the process of oxygen production by the large storage cylinders 11, 12. When oxygen is to be used, the gas outlet pipe 212 is first inserted with an extension pipe (as shown in the first and second figures), so as to pull the oxygen to the oxygen, and then open the gas outlet button (alternatively, not shown) Oxygen is vented through the gas outlet pipe 212 and the extension pipe; the high pressure oxygen in the gas storage cylinder 14 enters through the through hole 246, the vent hole 236, the through groove 237, the insertion pipe 238 and the extension pipe 239 The pure water in the water tube 15 is cleaned and then floated upward to be cleaner oxygen, and then the gas outlet pipe 212 and the extension pipe are used for gas supply.
本發明之製氧機1可以有若干等功效之變化,而同樣為本發明之專利範圍所含括,例如:一、如第十五圖所示,本發明製氧機1之外觀可以變化為更美觀,但因完全不影響本發明應有之功效,故同樣在本發明之專利範圍內;二、第十五圖所示之製氧機1,其全部之立體分解及部份組件之立體剖視放大分解分別如第十六、十七圖所示,其中絕大多數之組件皆相同於前述第一~十四圖所示者,惟原先於中間蓋23之氣穴233、234內所容置入之閉氣膜片2333、2343予以減省,然後於第十六、十七圖中之通槽237之端頭處下方成型一容槽2371,供先置入一閉氣膜片2372,再由一彈性體2373之端頭予以抵住,下方則以一插設管238之一端插設入該容槽2371並抵住該彈性體 2373之另端,以達成穩固接合,該插設管238之下方則即供插接該延伸管239;該部分組裝後之剖視如第十八圖所示,當未使用氧氣時,因內外壓力平衡,故該閉氣膜片2372被彈性體2373所頂抵而會阻塞住該通槽237之出氣;而當使用氧氣時,因濾氣水筒15內部壓力會相對較低,故高壓氧氣到達該通槽237時如第十九圖所示,會推壓該閉氣膜片2372抗拒彈性體2373之彈力,造成其周緣變形而可供氧氣通入,再沿著延伸管239進入濾氣水筒15之純水內,後續即為相同之作用。在此該閉氣膜片2372與彈性體2373即係一種逆止裝置之具體實施。The oxygen generator 1 of the present invention may have a number of equivalent functions, and is also included in the patent scope of the present invention. For example, as shown in the fifteenth diagram, the appearance of the oxygen generator 1 of the present invention may be changed to It is more beautiful, but it does not affect the function of the present invention at all, so it is also within the scope of the patent of the present invention. 2. The oxygen generator 1 shown in the fifteenth figure has all three-dimensional decomposition and three-dimensional assembly of some components. The cross-sectional enlargement and decomposition are respectively shown in the sixteenth and seventeenth views, and most of the components are the same as those shown in the above first to fourteenth drawings, but the air pockets 233 and 234 which are originally preceded by the intermediate cover 23. The closed air film 2333, 2343 which is accommodated is reduced, and then a cavity 2371 is formed below the end of the through groove 237 in the sixteenth and seventeenth drawings for inserting a closed gas film 2372, and then The end of an elastic body 2373 is abutted, and one end of the insertion tube 238 is inserted into the receiving groove 2371 and is pressed against the elastic body. The other end of 2373 is used to achieve a stable joint, and the extension tube 239 is inserted under the insertion tube 238; the section after assembly is as shown in Fig. 18, when oxygen is not used, inside and outside The pressure is balanced, so the air-closing diaphragm 2372 is abutted by the elastic body 2373 and blocks the air outlet of the through-channel 237; and when oxygen is used, since the internal pressure of the filter water cylinder 15 is relatively low, the high-pressure oxygen reaches the When the groove 237 is shown in FIG. 19, the air-tight film 2372 is pressed against the elastic force of the elastic body 2373, so that the peripheral edge is deformed to allow oxygen to pass through, and then enters the filter water cylinder 15 along the extension pipe 239. In pure water, the follow-up is the same. Here, the air-closing diaphragm 2372 and the elastic body 2373 are embodied as a backstop device.
另,必須進一步說明的是,上述實施例因採行二大儲存筒11、12之構成,所以與之配合之氣流管111、112與121、122;氣洩管113、114與123、124;氣穴233、234及通槽通槽213、214也都必須數量為二,亦即形成為二組而輪流進行製氧之動作。然在實際實施時,上述組件之數量並不受二組所限,若組裝成三組、四組---等等皆可,且皆在本發明之專利範圍內。In addition, it must be further explained that the above embodiment is configured by the two large storage cylinders 11, 12, so that the air flow tubes 111, 112 and 121, 122; the air discharge tubes 113, 114 and 123, 124; The air pockets 233, 234 and the through-groove through grooves 213, 214 are also required to have two numbers, that is, two groups are formed and the oxygen is alternately performed. However, in actual implementation, the number of the above components is not limited by the two groups, and may be assembled into three groups, four groups, and the like, and all of them are within the scope of the patent of the present invention.
由以上說明可知,本發明主要即利用本體殼體10、上蓋組20、下蓋組30、打氣幫浦40、轉換電磁閥51、52、53、54、55與出水控制組60之組合,而達成一種組成型態全新,組裝空間緊實,而能方便攜帶或搬運,並可降低整體成本及售價之製氧機。經查本發明所揭露之製氧機,在構造組成之空間型態上完全不曾見諸昔時,而能具備絕對新穎性,同時在使用上因可達成所預期之發明目的,故亦具備實用進步性,爰此依法申請發明專利,懇請審查後早日核准,實感德便。As can be seen from the above description, the present invention mainly utilizes a combination of the main body casing 10, the upper cover group 20, the lower cover group 30, the air pump 40, the switching solenoid valves 51, 52, 53, 54, 55 and the water discharge control group 60. A new type of oxygen generator that is new in composition, compact in assembly space, and easy to carry or carry, and which can reduce overall cost and price. The oxygen concentrator disclosed in the present invention has practical use in the space type of the structural composition, and can have absolute novelty, and at the same time, can achieve the intended purpose of the invention in use, and therefore has practical use. Progressive, in this case, apply for invention patents according to law, and ask for approval as soon as possible after review.
1‧‧‧製氧機1‧‧‧Oxygen generator
10‧‧‧本體殼體10‧‧‧ body shell
11、12‧‧‧大儲存筒11, 12‧‧‧ large storage cylinder
1011、1012、1013、1014、1015‧‧‧通孔1011, 1012, 1013, 1014, 1015‧‧‧ through holes
101、102‧‧‧組裝孔101, 102‧‧‧Assembled holes
1021、1022、1024、1001、1002‧‧‧通孔1021, 1022, 1024, 1001, 1002‧‧‧ through holes
107‧‧‧裝設穿槽107‧‧‧Installation slot
103、104、105、106‧‧‧裝設槽103, 104, 105, 106‧‧‧ installation slots
108‧‧‧過濾片108‧‧‧Filter
1031、1032、1041、1042、1051、1052、1061、1062‧‧‧通孔1031, 1032, 1041, 1042, 1051, 1052, 1061, 1062‧‧‧ through holes
111、112、121、122‧‧‧氣流管111, 112, 121, 122‧‧‧ airflow tubes
13‧‧‧進氣道13‧‧‧ Inlet
113、114、123、124‧‧‧氣洩管113, 114, 123, 124‧‧‧ air venting tube
S1、S2‧‧‧鎖接件S1, S2‧‧‧ locks
14‧‧‧儲氣筒14‧‧‧Air reservoir
15‧‧‧濾氣水筒15‧‧‧Water filter cartridge
20‧‧‧上蓋組20‧‧‧Top cover group
21‧‧‧上蓋21‧‧‧Upper cover
211、221、231‧‧‧組裝孔211, 221, 231‧‧‧ assembly holes
212‧‧‧出氣管212‧‧‧Exhaust pipe
213、214‧‧‧通槽213, 214‧‧ ‧ through slot
2131、2141‧‧‧通孔2131, 2141‧‧‧through holes
22‧‧‧第一上墊片22‧‧‧First upper gasket
222、232‧‧‧貫孔222, 232‧‧‧through holes
223、224‧‧‧小穿孔223, 224‧‧‧ small perforations
23‧‧‧中間蓋23‧‧‧ middle cover
233、234‧‧‧氣穴233, 234‧‧ ‧ cavitation
2331、2341‧‧‧通孔2331, 2341‧‧‧through holes
2332、2342‧‧‧通道2332, 2342‧‧ channels
235‧‧‧集氣孔235‧‧ ‧ stomata
236‧‧‧通氣孔236‧‧‧Ventinel
2333、2343‧‧‧閉氣膜片2333, 2343‧‧‧ Closed air film
2334、2344‧‧‧小穿孔2334, 2344‧‧‧ small perforations
237‧‧‧通槽237‧‧‧through slot
2371‧‧‧容槽2371‧‧‧ 容容
2372‧‧‧閉氣膜片2372‧‧‧Closed air film
2373‧‧‧彈性體2373‧‧‧ Elastomers
238‧‧‧插設管238‧‧‧ inserted tube
239‧‧‧延伸管239‧‧‧ Extension tube
24‧‧‧第二上墊片24‧‧‧Second upper gasket
241‧‧‧組裝孔241‧‧‧Assembled holes
242‧‧‧貫孔242‧‧‧through holes
243、244、245、246、248‧‧‧通孔243, 244, 245, 246, 248 ‧ ‧ through holes
2433、2443‧‧‧小穿孔2433, 2443‧‧‧ small perforation
30‧‧‧下蓋組30‧‧‧Undercover
31‧‧‧下蓋31‧‧‧Under the cover
311‧‧‧組裝孔311‧‧‧Assembled holes
3131、3141‧‧‧通槽3131, 3141‧‧‧ slot
312、315、316‧‧‧穿孔312, 315, 316‧ ‧ piercing
32‧‧‧下墊片32‧‧‧lower gasket
3132、3142‧‧‧通槽3132, 3142‧‧‧ slot
317‧‧‧插槽317‧‧‧Slot
321‧‧‧組裝孔321‧‧‧Assembled holes
322、325、326‧‧‧穿孔322, 325, 326‧ ‧ piercing
3231、3241、3232、3233、3242、3243‧‧‧穿孔3231, 3241, 3232, 3233, 3242, 3243‧‧‧ perforation
40‧‧‧打氣幫浦40‧‧‧Inflated pump
42‧‧‧進氣穿孔42‧‧‧Air intake piercing
43、44‧‧‧出氣管43, 44‧‧‧ gas outlet
42‧‧‧進氣穿孔42‧‧‧Air intake piercing
43、44‧‧‧出氣管43, 44‧‧‧ gas outlet
60‧‧‧出水控制組60‧‧‧Water Control Group
51、52、53、54、55‧‧‧轉換電磁閥51, 52, 53, 54, 55‧‧‧Switching solenoid valves
61‧‧‧外殼體61‧‧‧Outer casing
611‧‧‧縱向腔室611‧‧‧Longitudinal chamber
612‧‧‧通孔612‧‧‧through hole
613‧‧‧環擋壁613‧‧‧ ring wall
614‧‧‧限位口614‧‧‧Limited mouth
615‧‧‧弧形容槽615‧‧‧arc pocket
62‧‧‧內擋體62‧‧‧Internal body
621‧‧‧擋環621‧‧ ‧ retaining ring
622‧‧‧圓柱622‧‧‧Cylinder
623‧‧‧伸縮柱623‧‧‧ Telescopic column
6231‧‧‧凹槽6231‧‧‧ Groove
63‧‧‧擋水環63‧‧‧Water retaining ring
64‧‧‧彈性體64‧‧‧ Elastomers
65‧‧‧後蓋體65‧‧‧Back cover
66‧‧‧前插管66‧‧‧Before intubation
661‧‧‧接合槽661‧‧‧ joint slot
662‧‧‧限位塊662‧‧‧Limited blocks
663‧‧‧通孔壁663‧‧‧through hole wall
664‧‧‧手握環664‧‧‧Hand grip ring
665‧‧‧接合端665‧‧‧ joint end
67‧‧‧擋水環67‧‧‧Water retaining ring
第一圖係本發明實施例前視角度之外觀立體圖The first figure is a perspective view of the appearance of the front view angle of the embodiment of the present invention.
第二圖係本發明實施例後視角度之外觀立體圖The second figure is an external perspective view of the rear view angle of the embodiment of the present invention.
第三圖係本發明實施例前視及俯視角度之立體分解圖The third figure is an exploded perspective view of the front view and the top view angle of the embodiment of the present invention.
第四圖係本發明實施例後視及仰視角度之立體分解圖The fourth figure is an exploded perspective view of the rear view and the bottom view of the embodiment of the present invention.
第五圖係本發明實施例中本體殼體之俯視圖The fifth figure is a top view of the body casing in the embodiment of the present invention.
第六圖係本發明實施例中本體殼體之前視圖The sixth figure is a front view of the body casing in the embodiment of the present invention.
第七圖係本發明實施例中上蓋組前視及俯視角度之立體分解圖The seventh figure is an exploded perspective view of the front cover and the top view of the upper cover group in the embodiment of the present invention.
第八圖係本發明實施例中上蓋組後視及仰視角度之立體分解圖The eighth figure is an exploded perspective view of the rear view and the bottom view of the upper cover group in the embodiment of the present invention.
第九圖係本發明實施例中下蓋組前視及俯視角度之立體分解圖The ninth figure is an exploded perspective view of the front cover and the top view of the lower cover group in the embodiment of the present invention.
第十圖係本發明實施例中出水控制組之立體分解圖The tenth figure is an exploded view of the water discharge control group in the embodiment of the present invention
第十一圖係本發明實施例中出水控制組之組合剖視分解圖The eleventh figure is a sectional exploded view of the water discharge control group in the embodiment of the present invention
第十二圖係本發明實施例中出水控制組之組裝過程示意圖Figure 12 is a schematic view showing the assembly process of the water discharge control group in the embodiment of the present invention
第十三圖係本發明實施例中出水控制組之組裝完成示意圖The thirteenth drawing is a schematic diagram of the assembly completion of the water discharge control group in the embodiment of the present invention
第十四圖係本發明實施例中出水控制組之組裝位置示意圖Figure 14 is a schematic view showing the assembly position of the water discharge control group in the embodiment of the present invention.
第十五圖係本發明另一實施例之外觀立體圖Fifteenth is a perspective view of another embodiment of the present invention
第十六圖係本發明另一實施例之立體分解圖Figure 16 is a perspective exploded view of another embodiment of the present invention
第十七圖係本發明另一實施例中上蓋組部份剖視立體分解圖Figure 17 is a partially exploded perspective view of the upper cover group in another embodiment of the present invention
第十八圖係本發明另一實施例中閉氣膜片之組合剖視示意圖Figure 18 is a cross-sectional view showing the combination of a gas-tight membrane in another embodiment of the present invention.
第十九圖係本發明另一實施例中閉氣膜片之作用剖視示意圖Figure 19 is a cross-sectional view showing the action of a gas-tight membrane in another embodiment of the present invention.
1‧‧‧製氧機1‧‧‧Oxygen generator
10‧‧‧本體殼體10‧‧‧ body shell
108‧‧‧過濾片108‧‧‧Filter
20‧‧‧上蓋組20‧‧‧Top cover group
21‧‧‧上蓋21‧‧‧Upper cover
22‧‧‧第一上墊片22‧‧‧First upper gasket
23‧‧‧中間蓋23‧‧‧ middle cover
24‧‧‧第二上墊片24‧‧‧Second upper gasket
30‧‧‧下蓋組30‧‧‧Undercover
31‧‧‧下蓋31‧‧‧Under the cover
32‧‧‧下墊片32‧‧‧lower gasket
40‧‧‧打氣幫浦40‧‧‧Inflated pump
43、44‧‧‧出氣管43, 44‧‧‧ gas outlet
51、52、53、54、55‧‧‧轉換電磁閥51, 52, 53, 54, 55‧‧‧Switching solenoid valves
Claims (4)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW097136909A TWI404674B (en) | 2008-09-25 | 2008-09-25 | Oxygen machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW097136909A TWI404674B (en) | 2008-09-25 | 2008-09-25 | Oxygen machine |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| TW201012745A TW201012745A (en) | 2010-04-01 |
| TWI404674B true TWI404674B (en) | 2013-08-11 |
Family
ID=44829119
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| TW097136909A TWI404674B (en) | 2008-09-25 | 2008-09-25 | Oxygen machine |
Country Status (1)
| Country | Link |
|---|---|
| TW (1) | TWI404674B (en) |
Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4545790A (en) * | 1983-08-11 | 1985-10-08 | Bio-Care, Incorporated | Oxygen concentrator |
| US5340381A (en) * | 1993-05-17 | 1994-08-23 | Vorih Marc L | Operating system for dual-sieve oxygen concentrators |
| USD471982S1 (en) * | 2002-05-03 | 2003-03-18 | Ming-Chuan Cheng | Oxygen concentrator |
| US20070137487A1 (en) * | 2005-12-20 | 2007-06-21 | Whitley Roger D | Portable medical oxygen concentrator |
| US7368005B2 (en) * | 2005-04-05 | 2008-05-06 | Respironics Oxytec, Inc. | Portable oxygen concentrator |
-
2008
- 2008-09-25 TW TW097136909A patent/TWI404674B/en not_active IP Right Cessation
Patent Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US4545790A (en) * | 1983-08-11 | 1985-10-08 | Bio-Care, Incorporated | Oxygen concentrator |
| US5340381A (en) * | 1993-05-17 | 1994-08-23 | Vorih Marc L | Operating system for dual-sieve oxygen concentrators |
| USD471982S1 (en) * | 2002-05-03 | 2003-03-18 | Ming-Chuan Cheng | Oxygen concentrator |
| US7368005B2 (en) * | 2005-04-05 | 2008-05-06 | Respironics Oxytec, Inc. | Portable oxygen concentrator |
| US20070137487A1 (en) * | 2005-12-20 | 2007-06-21 | Whitley Roger D | Portable medical oxygen concentrator |
Also Published As
| Publication number | Publication date |
|---|---|
| TW201012745A (en) | 2010-04-01 |
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| Date | Code | Title | Description |
|---|---|---|---|
| MM4A | Annulment or lapse of patent due to non-payment of fees |