CN101683972A - Multi-pipeline flowing-type oxygenerator - Google Patents

Abstract

The invention provides a multi-pipeline flowing-type oxygenerator which comprises a body shell, an upper cover group and a base group. The body shell is internally provided with more than two large storage cylinders for filling molecular sieve material; an airflow channel group, an air inlet channel group, an air storage cylinder and an air discharge channel group are arranged around; a pluralityof regularly aligned heat-radiating ribs are molded on and integrated with the external surface of the body shell; the upper cover group is covered on the top surface of the body shell; the bottom surface is provided with filtration and blocking components which correspond to the large storage cylinders and are communicated with the air storage cylinder; and the base group is assembled on the bottom surface of the body shell which is provided with switching electromagnetic valves for controlling alternate intake and discharge at the bottoms of the large storage cylinders. External air is filtered and cleaned by a plurality of pipelines of the airflow channel group, is pumped by an air pump to pass through the air inlet channel for rectification erasure and enters the bottoms of the large storage cylinders to manufacture oxygen under the action of the molecular sieve material; and the oxygen is guided, filtered and blocked by the upper cover group to enter and stay in the air storage cylinder which can directly output clean pure oxygen for use.

Description

Multi-pipeline flowing-type oxygenerator

[technical field]

The present invention relates to a kind of multi-pipeline flowing-type oxygenerator, be meant a kind of other assembly that matches by integrated multitube road body housing assembling periphery especially, make circulation filtration, the air inlet of air and lose heart to be all the oxygenerator of multitube pipeline flowing-type.Belong to medical and health-care products.

[background technology]

Along with the development of social civilization and medical science and technology each side, human research and control for disease all has marked improvement, and therefore human mean lifetime also increases thereupon, and the arriving that causes aging society has been inevitable trend; But comparatively speaking, also bring many negative impacts, wherein with the global environment subject to severe risks of damage by the people dirt sick, the mankind suffer baffled disease sometimes (for example: SARS) or the attacking in retaliation of severe environment (for example: Storms or bitter cold, heat or earth flow), real-valued thinking deeply how cause it jointly.Since external environment is troubling, then be in response to the possibility of rugged environment and baffled affect day by day, mankind's work of should preparing everything well, wherein oxygen is the indispensable gas of human survival, so in inside filling molecular screen material and import high-pressure air and the oxygenerator of deriving that can produce oxygen voluntarily is a kind of important appliance; Oxygenerator also often is used in the symptom of a lot of chronic diseases except that being used for the emergency use, and for example: asthma patient and expiratory dyspnea symptom patient have the standby at any time necessity of the oxygenerator of preparation; In addition, can stimulate circulation more, make brains pure and fresh because inhale pure oxygen, but and Ginseng Extract, effectively promote working efficiency, therefore in daily life or working space, have oxygenerator and use at any time with convenient, also be good mode of life.

Existing oxygenerator is to adopt ready-made spare part to be assembled mostly, and is therefore comparatively loose and huge on assembling space, causes to carry or carry to be all inconvenience, more therefore has influence on whole cost, makes price high, real non-perfect.

[summary of the invention]

The object of the present invention is to provide a kind of multi-pipeline flowing-type oxygenerator, it is other assembly that is matched by integrated multitube road body housing assembling periphery, makes circulation filtration, the air inlet of air and lose heart to be all the multitube pipeline flowing-type; And it is brand-new to become the composition kenel, and the assembling space consolidation is convenient for carrying or carries, to reduce the oxygenerator of whole cost and price.

A kind of multi-pipeline flowing-type oxygenerator of the present invention is made up of a body housing, a loam cake group and a base group; Wherein, this body housing is formed in one and sky is opened on top, the end, and most connection rib walls of inner moulding and separate out mostly for the big storage cylinders that are packed into molecular screen material then have one group of uptake, a gas receiver and one group of gas on every side to let out; These big storage cylinder up/down perforations; This group uptake is made up of the intake ducting of some up/down perforations, and the rib wall between each adjacent intake ducting in regular turn in the top and the bottom offer a groove that can circulate, and form circulation effect one on the other; This gas receiver is the pipeline of an independent up/down perforation; This group gas is let out and is let out pipeline by the gas of some up/down perforations and form, and the rib wall between each adjacent intake ducting in regular turn in the top and the bottom offer a groove that can circulate, and form circulation effect one on the other;

This loam cake group is made up of a loam cake and a Upper gasket, and assembling is fixedly arranged on this body housing end face; Planting on the upper cover top surface to stand has a pressure regulator valve and an escape pipe, periphery to be provided with an inlet mouth and a gas drain port; The bottom surface of loam cake is provided with most the big spherical cavities corresponding respectively with aforementioned big storage cylinder, and the inside of these big spherical cavities also is provided with an indentation cup, is provided with an effuser that communicates between these indentation cups, and offers a gas collection hole downwards in centre, and feeds this gas receiver; Be provided with a room corresponding to the gas receiver position, be installed in it for these pressure regulator valves and escape pipe, a through hole is arranged at its bottom, can feed for the gas in the gas receiver, to enter this pressure regulator valve and escape pipe; These inlet mouths and gas drain port all feed this loam cake inside; Insert an elastic component in the internal space of these indentation cups, and cover the diaphragm of holding one's breath and make and prop up elastic component, cover the lid of holding one's breath then, there is a perforation in its central authorities, then cover a filtering net and a filter, and by fitting piece wore filter, filtering net in regular turn, the periphery of the lid of holding one's breath and with the outer conjugate foramen interlocking of these indentation cup peripheries, with diaphragm seal that these are held one's breath in holding one's breath between lid and the indentation cup; This Upper gasket is closely connected in this loam cake bottom surface, offers big hole corresponding to these big spherical cavity places; Position corresponding to this gas collection hole is provided with a through hole; Be provided with one corresponding to the position of this room and place the hole; Position corresponding to these gas inlet mouths and gas drain port is respectively equipped with through hole;

This base group by a base and once pad forms, be fixedly arranged on this body housing bottom surface and assemble; The end face of base is provided with most the big spherical cavities corresponding respectively with aforementioned big storage cylinder; In the scope of these big spherical cavities, respectively be provided with air inlet perforation; Be provided with air inlet perforation in the position of last intake ducting corresponding to this uptake; Let out the position of pipeline and be provided with a gas and let out perforation letting out initial gas corresponding to this gas; And be equiped with most tools in the bottom of this base and distinguish corresponding conversion electromagnetic valve with aforementioned big storage cylinder, control respectively in these big spherical cavities the air inlet perforation with corresponding to conducting or blocking-up between the set air inlet perforation in the most last intake ducting of this uptake position, and control that air inlet in these big spherical cavities is bored a hole and let out initial gas corresponding to this gas and let out the gas of establishing in the pipeline location place and let out conducting or blocking-up between perforation; This lower gasket is closely connected between the bottom surface of this base and body housing; Offer most the big holes corresponding respectively corresponding to these big spherical cavity parts with aforementioned big storage cylinder; In corresponding to the set air inlet in the most last intake ducting of this uptake position perforation and let out initial gas corresponding to this gas and let out the gas of establishing in the pipeline location place and let out perforation place and offer a perforation respectively.

In the above-mentioned multi-pipeline flowing-type oxygenerator, form the regularly arranged vent rib of most one-tenth on the outer surface of this body housing.

In the above-mentioned multi-pipeline flowing-type oxygenerator, plant the upright adjusting magnetic valve that has on this upper cover top surface, and between these big spherical cavities, being provided with a small-bore ventpipe, the exit end in the big spherical cavity and this adjusting magnetic valve connect and establish therein, to regulate the path or the blocking-up of this ventpipe of solenoid control by this.

In the above-mentioned multi-pipeline flowing-type oxygenerator, the inside of this body housing forms one group of flow channel, airflow line by some up/down perforations is formed, and the rib wall between each adjacent airflow line in regular turn in the top and the bottom offer a groove that can circulate, and form circulation effect one on the other; Then be provided with an air flow inlet and an air stream outlet on the periphery of this loam cake, this air flow inlet is located at the front end of this flow channel, and air stream outlet then is located at the rear end of this flow channel.

In the above-mentioned multi-pipeline flowing-type oxygenerator, offer the fluid cave in position on the end face of this base, constituted by the pilot hole that the fluid hole and that majority is positioned at periphery is positioned at central authorities corresponding to some intake ductings of this uptake; Close the reference column that the liquid film sheet stretches out downwards for one and plant into location in the pilot hole in fluid cave, the diaphragm body then just can all cover these fluid holes.

In the above-mentioned multi-pipeline flowing-type oxygenerator, its quantity of the big storage cylinder of described majority is more than two, comprises two.

A kind of multi-pipeline flowing-type oxygenerator of the present invention, its advantage and effect are: the present invention mainly utilizes body housing, loam cake group and base group each other and the combination of other assembly that matches with periphery, and reach a kind of circulation filtration and air inlet that makes air, losing heart is all the oxygenerator of multitube pipeline flowing-type; Contexture of the present invention is brand-new space kenel really, and the assembling space consolidation, is convenient for carrying or carries, and can therefore reduce whole cost and price.

[description of drawings]

Fig. 1 is the stereoscopic figure of the embodiment of the invention

Fig. 2 is the stereoscopic figure of another angle of the embodiment of the invention

Fig. 3 is the three-dimensional exploded view of body housing and loam cake group in the embodiment of the invention

Fig. 4 is the top perspective view of body housing in the embodiment of the invention

Fig. 5 is the bottom perspective view of body housing in the embodiment of the invention

Fig. 6 is the three-dimensional exploded view of looking up of body housing in the embodiment of the invention and loam cake group

Fig. 7 is the upward view of loam cake in the embodiment of the invention

Fig. 8 is the three-dimensional exploded view of body housing and base group in the embodiment of the invention

Fig. 9 is the vertical view of base in the embodiment of the invention

[concrete label declaration is as follows]

1---oxygenerator 10---body housing 101---assembly hole

102---vent rib 11, the big storage cylinder 13---of 12---flow channel

The 131---first airflow line 1311---groove 132---second airflow line

1321---groove 133---the 3rd airflow line 1331---groove

134---the 4th airflow line 1341---groove 135---the 5th airflow line

The 14---uptake 141---first intake ducting 1411---groove

The 142---second intake ducting 1421---groove 143---the 3rd intake ducting

1431---groove 144---the 4th intake ducting 1441---groove

145---the 5th intake ducting 1451---groove 146---the 6th intake ducting

1461---groove 147---the 7th intake ducting 1471---groove

148---the 8th intake ducting 15---gas receiver 16---gas is let out

161---first gas is let out pipeline 1611---groove 162---second gas and is let out pipeline

1621---groove 163---the 3rd gas is let out pipeline 1631---groove

164---the 4th gas is let out pipeline 20---loam cake group 21---loam cake

211---assembly hole S1---lock-connecting piece 212---tensimeter

213---pressure regulator valve 214---escape pipe 215---regulates magnetic valve

216---air flow inlet 217---air stream outlet 218---gas drain port

219---safety valve 2191---opening 2110---inlet mouth

The big spherical cavity 21A1 of 21A, 21B---, 21B1---indentation cup 21C---effuser

21A2,21B2---block 21C1---gas collection hole 21D---ventpipe

21E---room 21E1---through hole 22---Upper gasket

221--- assembly hole 22A, 22B---big hole 22C1---through hole

22E---places hole 222---through hole 231---wear ring

226,227,228,229,2210---through hole 232---elastic component

The 233---diaphragm 234---that holds one's breath holds one's breath and covers 2341---perforation

235---filtering net 236---filter 237---fitting piece

238---wear ring 30---base group 31---base

311---assembly hole S2---lock-connecting piece 312A, the big spherical cavity of 312B---

313A, 313B, 314--- air inlet perforation 317A, 317B---conversion electromagnetic valve

315---gas is let out perforation 316---fluid cave 3161---fluid hole

3162---pilot hole 32---lower gasket 321---assembly hole

S2---lock-connecting piece 322A, 322B---big hole 327---wear ring

324,325,326---perforation 328---closes liquid film sheet 3281---reference column

[embodiment]

Below in conjunction with accompanying drawing, the embodiment of inventing is described further.

See also shown in Fig. 1,2, the embodiment of the invention is an oxygenerator 1, is made up of a body housing 10, a loam cake group 20 and a base group 30; Wherein, body housing 10 is to open sky and be advisable near rectangle cubes person in top, the end to squeeze the type manufacture one-body molded; Please cooperate and consult shown in Fig. 3,4,5, by depression angle and look up angle and see it, on the periphery and middle place is provided with the assembly hole 101 of some up/down perforations around the end face of this body housing 10 and the bottom surface, consubstantiality forms the regularly arranged vent rib 102 of most one-tenth on the outer surface, most connection rib walls of inner then moulding and separate out the big storage cylinder 11,12 of two branch position left and right sides then have one group of flow channel 13 on every side, one group of uptake 14, a gas receiver 15 and one group of gas let out 16; Wherein, these big storage cylinders 11,12 are up/down perforation; This group flow channel 13 is made up of the airflow line of some up/down perforations, wherein start by one first airflow line 131, itself and offer a groove 1311 (as shown in Figure 5) in the bottom every the rib wall of 132 of neighbour's second airflow lines, this second airflow line 132 and then offer a groove 1321 (as shown in Figure 4) in the top every the rib wall of 133 of neighbour's the 3rd airflow lines, the 3rd airflow line 133 and then offer a groove 1331 (as shown in Figure 5), the 4th airflow line 134 and then offer a groove 1341 (as shown in Figure 4) then in the top every the rib wall of 135 of neighbour's the 5th airflow lines in the bottom every the rib wall of 134 of neighbour's the 4th airflow lines; So when the top of body housing 10, when the bottom all seals, if when having air to be imported in this first airflow line 131, promptly can circulate to enter in the 5th airflow line 135 and stop via groove 1311, second airflow line 132, groove 1321, the 3rd airflow line 133, groove 1331, the 4th airflow line 134 and groove 1341, so can make air-flow through one on the other circulation effect, and then by other approach derivation, it acts on aftermentioned in detail;

This group uptake 14 is made up of the intake ducting of some up/down perforations, wherein start by one first intake ducting 141, itself and offer a groove 1411 (as shown in Figure 5) in the bottom every the rib wall of 142 of neighbour's second intake ductings, this second intake ducting 142 and then offer a groove 1421 (as shown in Figure 4) in the top every the rib wall of 143 of neighbour's the 3rd intake ductings, the 3rd intake ducting 143 and then offer a groove 1431 (as shown in Figure 5) in the bottom every the rib wall of 144 of neighbour's the 4th intake ductings, the 4th intake ducting 144 and then offer a groove 1441 (as shown in Figure 4) in the top every the rib wall of 145 of neighbour's the 5th intake ductings, the 5th intake ducting 145 and then offer a groove 1451 (as shown in Figure 5) in the bottom every the rib wall of 146 of neighbour's the 6th intake ductings, the 6th intake ducting 146 and then offer a groove 1461 (as shown in Figure 4), the 7th intake ducting 147 and then offer a groove 1471 (as shown in Figure 5) then in the bottom every the rib wall of 148 of neighbour's the 8th intake ductings in the top every the rib wall of 147 of neighbour's the 7th intake ductings; So top when body housing 10, when sealing is all done in the bottom, if when having air to be imported in this first intake ducting 141, promptly can be via groove 1411, second intake ducting 142, groove 1421, the 3rd intake ducting 143, groove 1431, the 4th intake ducting 144, groove 1441, the 5th intake ducting 145, groove 1451, the 6th intake ducting 146, groove 1461, the 7th intake ducting 147 and groove 1471 and circulation enter and stop in the 8th induction trunk 148, so make air-flow through one on the other circulation effect, and then by other approach derivation, it acts on aftermentioned in detail;

This gas receiver 15 is positioned at the position, back of body housing 10 inside, is the pipeline of an independent up/down perforation; This group gas is let out 16 gas by some up/down perforations and is let out pipeline and form, wherein letting out pipeline 161 by one first gas starts, itself and offer a groove 1611 (as shown in Figure 4) in the top every the rib wall that neighbour's second gas is let out 162 in pipeline, this second gas is let out pipeline 162 and is then offered a groove 1621 (as shown in Figure 5) in the bottom every the rib wall that neighbour's the 3rd gas is let out 163 in pipeline, the 3rd gas is let out pipeline 163 and is then offered a groove 1631 (shown in Figure 4) in the top every the rib wall that neighbour's the 4th gas is let out 164 in pipeline then, it allows the air-flow do circulation one on the other when losing heart be discharged by other approach again, and it acts on aftermentioned in detail.

Then, see also Fig. 1,2,3,6, shown in 7, this loam cake group 20 is made up of a loam cake 21 and a Upper gasket 22, wherein, the periphery of this loam cake 21 be provided with some can with this body housing 10 around on the assembly hole 211 of assembly hole 101 corresponding lockings, (for example: bolt) corresponding one to one interlocking is gone into for lock-connecting piece S1, plant the upright tensimeter 212 that has on the end face, one pressure regulator valve 213, one escape pipe 214 and one is regulated magnetic valve 215, be provided with an air flow inlet 216 on the periphery in the back, the front is provided with an air stream outlet 217, an one gas drain port 218 and a safety valve 219, the side then is provided with an inlet mouth 2110; (shown in Fig. 6,7) separates out most spaces by some connection rib walls in the bottom surface of this loam cake 21, its quantity and position are all corresponding with the internal space that separated out by the connection rib wall in this body housing 10, mainly be provided with two with corresponding respectively big spherical cavity 21A, the 21B of aforementioned big storage cylinder 11,12, the inside of these big spherical cavity 21A, 21B then respectively is provided with an indentation cup 21A1,21B1, between this two indentation cup 21A1,21B1, be provided with an effuser 21C who communicates, and offer a gas collection hole 21C1 downwards in centre; Be provided with a small-bore ventpipe 21D in addition between this two big spherical cavity 21A, 21B, its exit end in this big spherical cavity 21A and this adjusting magnetic valve 215 connect to be established, so be path or blocking-up by this this ventpipe of adjusting magnetic valve 215 may command 21D; In these indentation cups 21A1,21B1, respectively plant upright some (for example three) block 21A2,21B2 and respectively separate out a space; Be provided with a room 21E in position corresponding to gas receiver 15, be installed in it with escape pipe 214 for these pressure regulator valves 213, one through hole 21E1 is arranged at its bottom, can feed for the gas in the gas receiver 15, to enter this pressure regulator valve 213 and escape pipe 214, and be communicated to tensimeter 212, thus the air pressure that shows in gas receivers 15 by this tensimeter 212, and adjust the atmospheric pressure that of tracheae 214 by this pressure regulator valve 213; In addition, these air flow inlets 216, air stream outlet 217, gas drain port 218 and inlet mouth 2110 all feed this loam cake 21 inside; And be provided with an opening 2191 in position corresponding to the 8th intake ducting 148, be to be communicated to this safety valve 219; Except that above-mentioned structure, at these indentation cups 21A1, more be assembled in the 21B1 and can filter and the assembly of check, it is in these indentation cups 21A1, respectively insert a wear ring 231 on the periphery of 21B1, again in these indentation cups 21A1, block 21A2 in the 21B1, respectively insert an elastic component 232 in the space between 21B2, respectively cover the diaphragm 233 of holding one's breath again, make and prop up elastic component 232, respectively covering one then holds one's breath and covers 234, there is a perforation 2341 in its central authorities, then respectively cover a filtering net 235 and a filter 236, and wore filter 236 in regular turn by some fitting pieces 237 (for example screw rod), filtering net 235, hold one's breath cover 234 periphery and with these indentation cups 21A1, the conjugate foramen interlocking that the 21B1 periphery is outer, with diaphragm 233 that these are held one's breath be sealed in hold one's breath cover 234 with indentation cup 21A1, between the 21B1, and compress this elastic component 232; In addition, on the periphery of these big spherical cavity 21A, 21B, can respectively insert a wear ring 238;

This Upper gasket 22 is can be closely connected in the bottom surface of this loam cake 21, offer on the periphery can be corresponding with the assembly hole 211 of this loam cake 21 and put and for lock-connecting piece S1 wear into assembly hole 221, and also have an assembly hole 221 in central authorities; Offering two big hole 22A, 22B corresponding to these big spherical cavity 21A, 21B part; Position corresponding to this gas collection hole 21C1 is provided with a through hole 22C1; Be provided with one corresponding to the position of this room 21E and place hole 22E; Position corresponding to these air flow inlets 216, air stream outlet 217, gas drain port 218 and inlet mouth 2110 is respectively equipped with through hole 226,227,228,2210; In addition, the position corresponding to the 8th intake ducting 148 is provided with a through hole 229; During assembling, elder generation fits Upper gasket 22 and is incorporated on the end face of this body housing 10, the right time fits in loam cake 21 on the end face of Upper gasket 22, make these wear rings 238 between big spherical cavity 21A, 21B and big hole 22A, 22B, again lock-connecting piece S1 is worn into assembly hole 211,221,101 respectively and locked.

Then, see also shown in Fig. 8,9, this base group 30 is made up of a base 31 and a lower gasket 32, wherein, the periphery of this base 31 be provided with some can with the assembly hole 311 of assembly hole 101 corresponding lockings on this body housing 10, (for example: bolt) corresponding one to one interlocking is gone into, and end face is provided with two big spherical cavity 312A, 312B, is corresponding with aforementioned big storage cylinder 11,12 difference for lock-connecting piece S2; In the scope of these big spherical cavity 312A, 312B, respectively be provided with an air inlet perforation 313A, 313B; Be provided with air inlet perforation 314 in position corresponding to the 8th intake ducting 148; Be provided with a gas in the position of letting out pipeline 161 and let out perforation 315 corresponding to this first gas; Offer fluid cave 316 in position, constituted by the pilot hole 3162 that the fluid hole 3161 and that majority is positioned at periphery is positioned at central authorities corresponding to some intake ductings of this uptake 14; And be equiped with two tool conversion electromagnetic valve 317A, 317B in the bottom of this base 31, wherein, conversion electromagnetic valve 317A can be in conducting or the blocking-up between this air inlet of base 31 inner control perforation 314 and air inlet perforation 313A, and controls this air inlet perforation 313A and gas and let out 315 conducting or the blocking-up of boring a hole; Conversion electromagnetic valve 317B then is in order to controlling conducting or the blocking-up between this air inlet perforation 314 and air inlet perforation 313B, and controls this air inlet perforation 313B and gas and let out 315 conducting or the blocking-up of boring a hole;

This lower gasket 32 is can be closely connected between the bottom surface of this base 31 and body housing 10, and it is corresponding and put and wear into affixed assembly hole 321 for lock-connecting piece S2 to offer some assembly holes 311 with this base 31 on the periphery; Offering two big hole 322A, 322B corresponding to these big spherical cavity 312A, 312B part; Let out perforation 315 parts corresponding to this air inlet perforation 314, gas and offer a perforation 324,325 respectively; Position corresponding to these fluid caves 316 then all offers corresponding perforation 326;

Can respectively insert a wear ring 327 on the periphery of these big spherical cavity 312A, 312B; And each plant goes into to close liquid film sheet 328 on these fluid caves 316, and its central authorities have a reference column that stretches out 3281 downwards, and with location in the pilot hole 3162 in the fluid cave 316 of planting, the diaphragm body then just can all cover these fluid holes 3161; During assembling, earlier this lower gasket 32 is fitted on the end face of this base 31, and make these wear rings 238 between big spherical cavity 312A, 312B and big hole 323A, 322B, bottom surface with body housing 10 fits on the end face of lower gasket 32 then, utilizes lock-connecting piece S2 to wear respectively into assembly hole 311,321 and 101 again and is also locked.

Use oxygenerator 1 of the present invention, the power of delivering gas must be provided by the air pump that a tool is purchased in addition, because of air pump is known device, so not in claim of the present invention.By a pipe connecting air stream outlet 217 of the present invention is connected with the air inlet port of air pump, is connected with inlet mouth 2110 of the present invention by the port of giving vent to anger of another pipe connecting again air pump; Can start this air pump then so that air stream outlet 217 is bled, and inlet mouth 2110 is supplied gas; Its ability of bleeding promptly can impel extraneous air to be entered in this first airflow line 131 by through hole 226 by this air flow inlet 216, and the groove 1311 of flowing through, second airflow line 132, groove 1321, the 3rd airflow line 133, groove 1331, the 4th airflow line 134, groove 1341 and the 5th airflow line 135, flow out by air stream outlet 217 by through hole 227 again, and following pipe connecting and entering in the air pump, therefore if in these airflow lines 131,132,133,134, the material (for example: material or matrix materials such as filter cotton) that filtrated air is used is gone in installing in 135, can be with inhaled air through preliminary filter cleaning; In addition, with the circulation in regular turn one on the other of air-flow do, the effect that increases filtering process and rectification noise reduction is arranged.

Then, air pump is about to transport to this inlet mouth 2110 through the air of preliminary filter cleaning to be made by through hole 2210 and enters in this first intake ducting 141, and the groove 1411 of flowing through, second intake ducting 142, groove 1421, the 3rd intake ducting 143, groove 1431, the 4th intake ducting 144, groove 1441, the 5th intake ducting 145, groove 1451, the 6th intake ducting 146, groove 1461, the 7th intake ducting 147 and groove 1471 and enter in the 8th intake ducting 148, enter in this air inlet perforation 314 by this perforation 324 downwards again, also can be communicated with simultaneously and enter in the safety valve 219 via this opening 2191, with pressure release at once when air inlet air pressure is too high, to avoid dangerous; When in this air inlet of air admission perforation 314, promptly (establish in addition by an automatic control system, be not shown in figure) control these conversion electromagnetic valves 317A, 317B takes turns starting as systematicness, its effect is that (this moment, this conversion electromagnetic valve 317B stopped action when conversion electromagnetic valve 317A starts, perhaps through restarting after the time difference), be conducting (and being blocking-up between air inlet perforation 314 and air inlet perforation 313B) between this air inlet perforation 314 and air inlet perforation 313A, make these big storage cylinder 11 bottoms of air admission, because of these big storage cylinders 11, molecular screen material is all loaded in 12 inside, is converted into upwards gathering of oxygen so air promptly is urged by molecular screen material; Then oxygen promptly arrives in the big spherical cavity 21A of this loam cake 21 by the big hole 22A of this Upper gasket 22, and by filter 236, filtering net 235, enter to hold one's breath by perforation 2341 again and cover in 234, then its air pressure promptly pushes the elastic force of these diaphragm 233 resistance elastic components 232 of holding one's breath and moves up, cause its diaphragm periphery to be opened outward and gapped, therefore high pressure oxygen promptly enters in the effuser 21C by the diaphragm 233 of holding one's breath, and enters gas receiver 15 by gas collection hole 21C1 and stop, and compiles and be high pressure.When oxygen arrives at this effuser 21C, also can arrive at holding one's breath of storage cylinder 12 greatly covered 234 places, precisely because pressure pushes away the diaphragm 233 of holding one's breath that makes this place on the contrary and pushes down its perforation 2341 downwards, oxygen can't be entered in the big storage cylinder 12 thus, so these diaphragms 233 of holding one's breath are a kind of concrete enforcement of non-return device; Should not do not have oxygen to exist in this big storage cylinder 12 right this moment, so promptly can controlling this adjusting magnetic valve 215, automatic control system starts, make the oxygen in this big storage cylinder 11 enter stop in the big storage cylinder 12 via ventpipe 21D on a small quantity, so that oxygen can be arranged at once when it will export oxygen for output.

Because of air can produce heat by the process that molecular screen material is converted into oxygen,, make heat loss early so the present invention can enlarge area of dissipation by the moulding of vent rib 102; Simultaneously automatic control system can be controlled this conversion electromagnetic valve 317A and promptly stops after effect for some time, makes moment blocking-up between this air inlet perforation 314 and air inlet perforation 313A, so that the 8th induction trunk 148 interior air stop to flow to this this big storage cylinder 11 bottoms; Simultaneously automatic control system in good time another conversion electromagnetic valve of control 317B start, make conducting between air inlet perforation 314 and air inlet perforation 313B, make air admission this big storage cylinder 12 bottoms, and be urged by molecular screen material and be converted into the oxygen gathering that makes progress; And enter through the process of above-mentioned filtration and check equally and stop in the gas receiver 15; And regulate magnetic valve 215 via starting this equally, make the oxygen in this big storage cylinder 12 enter big storage cylinder 11 interior stops via ventpipe 21D on a small quantity.

The material that filtrated air is used is gone in also alternative installing in these intake ductings 141,142,143,144,145,146,147,148, so that the air of process can more clean; And air is done circulation in regular turn one on the other in this uptake 14, makes the effect of air through the overcommutation noise reduction; Remove this, air can be heated through air pump the time, therefore when entering uptake 14, can produce because of cooling has water liquid, and promptly flow downward and arrive at this and close on the liquid film sheet 328 along pipeline, when it assembled a great deal of, its gravity can force the central part that closes liquid film sheet 328 to move down, cause peripheral and 316 generations gap, fluid cave of diaphragm, water liquid can and be discharged via these gaps inflow fluid holes 3161, and when the water liquid measure reduced, this closed liquid film sheet 328 and restore to the original state immediately.

When conversion electromagnetic valve 317A or 317B fail, (the oxygen one's share of expenses for a joint undertaking is by the remaining gas in back in order to remove big storage cylinder 11 or 12 bottom gas high pressure, for example: nitrogen), automatic control device converts to together with seasonal this conversion electromagnetic valve 317A or 317B and makes air inlet perforation 313A or 313B and this gas let out the effect of perforation 315 conductings, the gas of then big storage cylinder 11 or 12 bottoms can enter this first gas because of the effect that this air inlet perforation 313A or 313B and this gas are let out 315 conductings of boring a hole and let out in the pipeline 161, again via groove 1611, second gas is let out pipeline 162, groove 1621, the 3rd gas is let out pipeline 163, groove 1631 and the 4th gas are let out pipeline 164 and are drained into atmosphere with the circulation of through hole 228 by gas drain port 218, so making loses heart lets out the circulation of doing in 16 one on the other in regular turn at this gas, and the effect of gas through the overcommutation noise reduction that make arranged equally.

The present invention promptly increases the amount of oxygen in this gas receiver 15 by the process of these big storage cylinder 11,12 in-turn system oxygen, and can directly export oxygen for using.In the time will using oxygen, this escape pipe 214 extension tubes (as shown in Figure 1) of planting earlier need be used the oxygen place in order to being pulled to, and open the button (establish in addition, be not shown in figure) of giving vent to anger then and highly compressed oxygen are given vent to anger via this escape pipe 212 and extension tube get final product.In addition, what must further specify is, the foregoing description constitutes because of implementation has two big storage cylinders 11,12, thus big spherical cavity 21A, the 21B of Pei Heing with it, indentation cup 21A1,21B1, wear ring 231, elastic component 232, the diaphragm 233 of holding one's breath is held one's breath and is covered 234, perforation 2341, filtering net 235, filter 236, fitting piece 237, wear ring 238, big spherical cavity 312A, 312B, air inlet perforation 313A, 313B, big hole 322A, 322B, and conversion electromagnetic valve 317A, 317B must quantity be two also, that is form two groups and the action of making oxygen in turn.So when reality is implemented, the quantity of said modules is not limit by two groups of institutes, if be assembled into three groups, four groups---or the like all can, and all in claim of the present invention.

Claims (6)

1. multi-pipeline flowing-type oxygenerator, it is characterized in that: this oxygenerator is made up of a body housing, a loam cake group and a base group; Wherein, this body housing is formed in one and sky is opened on top, the end, and most connection rib walls of inner moulding and separate out mostly for the big storage cylinders that are packed into molecular screen material then have one group of uptake, a gas receiver and one group of gas on every side to let out; These big storage cylinder up/down perforations; This group uptake is made up of the intake ducting of some up/down perforations, and the rib wall between each adjacent intake ducting in regular turn in the top and the bottom offer a groove that can circulate, and form circulation effect one on the other; This gas receiver is the pipeline of an independent up/down perforation; This group gas is let out and is let out pipeline by the gas of some up/down perforations and form, and the rib wall between each adjacent intake ducting in regular turn in the top and the bottom offer a groove that can circulate, and form circulation effect one on the other;

This loam cake group is made up of a loam cake and a Upper gasket, and assembling is fixedly arranged on this body housing end face; Planting on the upper cover top surface to stand has a pressure regulator valve and an escape pipe, periphery to be provided with an inlet mouth and a gas drain port; The bottom surface of loam cake is provided with most the big spherical cavities corresponding respectively with aforementioned big storage cylinder, and the inside of these big spherical cavities also is provided with an indentation cup, is provided with an effuser that communicates between these indentation cups, and offers a gas collection hole downwards in centre, and feeds this gas receiver; Be provided with a room corresponding to the gas receiver position, be installed in it for these pressure regulator valves and escape pipe, a through hole is arranged at its bottom, can feed for the gas in the gas receiver, to enter this pressure regulator valve and escape pipe; These inlet mouths and gas drain port all feed this loam cake inside; Insert an elastic component in the internal space of these indentation cups, and cover the diaphragm of holding one's breath and make and prop up elastic component, cover the lid of holding one's breath then, there is a perforation in its central authorities, then cover a filtering net and a filter, and by fitting piece wore filter, filtering net in regular turn, the periphery of the lid of holding one's breath and with the outer conjugate foramen interlocking of these indentation cup peripheries, with diaphragm seal that these are held one's breath in holding one's breath between lid and the indentation cup; This Upper gasket is closely connected in this loam cake bottom surface, offers big hole corresponding to these big spherical cavity places; Position corresponding to this gas collection hole is provided with a through hole; Be provided with one corresponding to the position of this room and place the hole; Position corresponding to these gas inlet mouths and gas drain port is respectively equipped with through hole;

This base group by a base and once pad forms, be fixedly arranged on this body housing bottom surface and assemble; The end face of base is provided with most the big spherical cavities corresponding respectively with aforementioned big storage cylinder; In the scope of these big spherical cavities, respectively be provided with air inlet perforation; Be provided with air inlet perforation in the position of last intake ducting corresponding to this uptake; Let out the position of pipeline and be provided with a gas and let out perforation letting out initial gas corresponding to this gas; And be equiped with most tools in the bottom of this base and distinguish corresponding conversion electromagnetic valve with aforementioned big storage cylinder, control respectively in these big spherical cavities the air inlet perforation with corresponding to conducting or blocking-up between the set air inlet perforation in the most last intake ducting of this uptake position, and control that air inlet in these big spherical cavities is bored a hole and let out initial gas corresponding to this gas and let out the gas of establishing in the pipeline location place and let out conducting or blocking-up between perforation; This lower gasket is closely connected between the bottom surface of this base and body housing; Offer most the big holes corresponding respectively corresponding to these big spherical cavity parts with aforementioned big storage cylinder; In corresponding to the set air inlet in the most last intake ducting of this uptake position perforation and let out initial gas corresponding to this gas and let out the gas of establishing in the pipeline location place and let out perforation place and offer a perforation respectively.

2. multi-pipeline flowing-type oxygenerator according to claim 1 is characterized in that: form into regularly arranged vent rib on the outer surface of this body housing.

3. multi-pipeline flowing-type oxygenerator according to claim 1, it is characterized in that: plant the upright adjusting magnetic valve that has on this upper cover top surface, and between these big spherical cavities, be provided with a small-bore ventpipe, exit end in the big spherical cavity and this adjusting magnetic valve connect and establish therein, to regulate the path or the blocking-up of this ventpipe of solenoid control by this.

4. multi-pipeline flowing-type oxygenerator according to claim 1, it is characterized in that: the inside of this body housing forms one group of flow channel, airflow line by up/down perforation is formed, and the rib wall between each adjacent airflow line in regular turn in the top and the bottom offer a groove that can circulate, and form circulation effect one on the other; Then be provided with an air flow inlet and an air stream outlet on the periphery of this loam cake, this air flow inlet is located at the front end of this flow channel, and air stream outlet then is located at the rear end of this flow channel.

5. multi-pipeline flowing-type oxygenerator according to claim 1, it is characterized in that: offer the fluid cave in position on the end face of this base, constituted by the pilot hole that the fluid hole and that majority is positioned at periphery is positioned at central authorities corresponding to the intake ducting of this uptake; Close the reference column that the liquid film sheet stretches out downwards for one and plant into location in the pilot hole in fluid cave, the diaphragm body then just can all cover fluid hole.

6. multi-pipeline flowing-type oxygenerator according to claim 1 is characterized in that: described its quantity of big storage cylinder is more than two, comprises two.

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