CN108862202A - A kind of Novel oxygenerator - Google Patents

Abstract

The present invention relates to oxygenerator technical fields, specifically a kind of Novel oxygenerator, an air inlet partition is equipped between the air inlet of oxygenerator main body and the air inlet side plate of shell, air inlet partition and air inlet side plate are vertically oppositely arranged in parallel and cooperatively form air inlet interlayer, an exhaust partition is additionally provided between the exhaust outlet of oxygenerator main body and the exhaust side plate of shell, exhaust partition and exhaust side plate are vertically oppositely arranged in parallel and cooperatively form exhaust interlayer, filter septum is equipped in air inlet interlayer and exhaust interlayer, denitrogen channel is equipped with multistage noise reduction sound-deadening structure, inside set several noise elimination chambers being sequentially connected in series, active carbon cotton is filled in each noise elimination cavity room；The beneficial effects of the invention are as follows：It can be used in complex environment and dust, steam is effectively prevent to enter inside machine, structure is simple, windage is small and noise elimination noise reduction effect is good.

Description

A kind of Novel oxygenerator

Technical field

The present invention relates to oxygenerator technical field, specifically a kind of Novel oxygenerator.

Background technique

With the development of science and technology and living standard, people focus on health care, and oxygenerator becomes in people's life The health product of selection, but existing oxygenerator noise is to cause maximum puzzlement to user, air inlet larger for oxygen air inflow Time is short, air intake apparatus and inlet air compressor volume of equipment are limited, the air velocity and density is higher can reach 63db in air inlet (A), so that user is in oxygen therapy or strong oxygen, it can not protect and comfortably quietly just use environment, and oxygen generating plant denitrogen noise elimination knot Structure resistance is big, and noise reduction is unobvious, in addition, the oxygen generating plant on existing market is placed on outdoor when used for a long time, is easy inside machine Into dust, in use, being also easy to cause machine inner components to accelerate old into water vapour inside machine in the environment of strong wind and heavy rain Change, greatly shortens oxygenerator service life.

Summary of the invention

In order to overcome the above the deficiencies in the prior art, the task of the present invention is provide one kind can complex environment use and It effectively prevent dust, steam to enter inside machine, the Novel oxygenerator that structure is simple, windage is small and noise elimination effect is good.

Task of the present invention is achieved through the following technical solutions：

A kind of Novel oxygenerator, including shell and the oxygenerator main body that is placed in shell, the air inlet of oxygenerator main body with An air inlet partition is equipped between the air inlet side plate of shell, air inlet partition is vertically oppositely arranged in parallel and cooperatively forms with air inlet side plate Air inlet interlayer is additionally provided with lateral inlet air filtration partition in air inlet interlayer, and air inlet interlayer is divided into two by the inlet air filtration partition, The air inlet side plate of shell is equipped with the first air inlet, and air inlet partition is equipped with the second air inlet, the first air inlet and the second air inlet It is arranged in a staggered manner and is located at the two sides of inlet air filtration partition；Between the exhaust outlet of oxygenerator main body and the exhaust side plate of shell also Equipped with an exhaust partition, exhaust partition and exhaust side plate are vertically oppositely arranged in parallel and cooperatively form exhaust interlayer, are vented interlayer It is inside additionally provided with lateral exhaust gas filter partition, the exhaust gas filter partition is divided into two interlayer is vented, and the exhaust side plate of shell is set There is first row stomata, exhaust partition is equipped with second row stomata, and first row stomata and second row stomata are arranged in a staggered manner and distinguish position In the two sides of exhaust gas filter partition；The denitrogen channel of oxygenerator main body is equipped with multistage noise reduction sound-deadening structure, the multistage noise reduction Noise elimination structure includes silencer hood, and several noise elimination chambers are equipped in silencer hood, fill active carbon in each noise elimination cavity room Cotton, each indoor active carbon cotton of noise elimination cavity are sequentially connected in series by snorkel, the air intake structure of the multistage noise reduction sound-deadening structure and Exhaust structure is respectively several gas vents for being inserted into the air inlet pipe of hood and being arranged on hood, the noise elimination chamber of air inlet pipe connection It is disposed adjacent with the noise elimination chamber of gas vent connection.

It is preferred that first air inlet is located at the lower part of the air inlet side plate and is located under the inlet air filtration partition Side, second air inlet are located at the upside of the air inlet partition；The first exhaust hole is located at the lower part of the exhaust side plate And it is located at the downside of the exhaust gas filter partition, the second exhaust hole is located at the upside of the exhaust partition.

It is preferred that the filtering material of the inlet air filtration partition and exhaust gas filter partition is filter cotton.

It is preferred that the oxygenerator main body further includes the exhaust fan for forced-ventilated heat dissipation, the exhaust fan is set to described second On gas vent, the exhaust outlet of exhaust fan is towards the exhaust interlayer, and the air inlet of exhaust fan is towards the intracorporal compression of oxygenerator master Machine cavity is to discharge the hot gas in compressor chamber.

It is preferred that being set in the silencer hood there are four the noise elimination chamber, four noise elimination chambers are in rectangular arranged.

It is preferred that the oxygenerator main body includes adsorption tower, the both ends of adsorption tower are respectively equipped with screen cover, set in screen cover there are two Import, is equipped with air distribution structure between import and molecular sieve, the air distribution structure includes dividing gas nozzle for divide that gas flows and flowing Sieve plate divides gas nozzle to be fixedly connected with screen cover, divides in gas nozzle filled with loose gas permeable material so that the high pressure gas come in from import Flow point is dissipated and is flowed, and compressed spring is equipped between flow-equalization screen plate and screen cover, and screen cover is supported in one end of compressed spring, and the other end is supported Sieve plate is flowed, sieve pore is uniformly distributed on flow-equalization screen plate further to disperse to flow to from the air-flow for dividing gas nozzle to come out, makes to enter absorption The air pressure in adsorption tower of gas in tower is uniform.

It is preferred that the gas permeable material is environmentally friendly glass fiber cotton.

It is preferred that the oxygenerator main body includes oxygen container, the oxygen container be equipped with for user's oxygen uptake oxygen uptake pipeline and Induction type section oxide structure, the induction type section oxide structure include oxygen supply solenoid valve and controller, and controller is equipped with for detecting The pressure sensitive module of user's suction condition or expiration state, controller connect compressor and oxygen supply solenoid valve, user's air-breathing shape When state, controller can judge that user's air-breathing is strong according to the vacuum degree size that user's air-breathing that pressure sensitive module detects generates It is weak, and then control the revolving speed of time and compressor operation that oxygen supply solenoid valve is opened；When user's expiration state, controller control is supplied Oxygen solenoid valve is closed so that ventilation channel is obstructed.

It is preferred that the shell is equipped with the control button for selecting different oxygen supply modes, each oxygen supply mode is respectively corresponded Different oxygen supply solenoid valves presets the opening time and compressor presets running speed.

Compared to the prior art, a kind of beneficial effect of Novel oxygenerator of the present invention is：1. in air inlet and exhaust outlet point Not She Zhi a sandwich, and filter is set in sandwich, in use, air inlet and exhaust are intended to first pass through interlayer knot Structure simultaneously flows down in the guiding of interlayer through filter, so that dust, steam be effectively prevent to enter inside machine, and can reduce into The noise of gas and exhaust, structure is simple, excellent noise reduction effect；2. the multistage noise reduction sound-deadening structure being arranged on denitrogen channel, this is more Grade noise reduction sound-deadening is simple and compact for structure, can reduce air velocity, nitrogen using the aperture of noise elimination cavity toxicity carbon cottons at different levels The noise because usually reducing denitrogen such as porous plate on space and angle change, silencer hood when flowing through each noise elimination chamber, Structure is simple, and windage is small and noise elimination noise reduction effect is good；3. at least one air inlet is equipped in the screen cover up and down of adsorption tower, and Be arranged by divide gas nozzle and flow-equalization screen board group at air distribution structure, divide and fill glass fiber cotton in gas nozzle, make the high pressure come in from air inlet Air-flow dispersion is flowed, then further disperses to flow by flow-equalization screen plate, is then just entered in adsorption tower, to make gas in adsorption tower Pressure uniformly, avoids the channel effect of through type, moreover, flow-equalization screen plate compresses limitation point over a molecular sieve by compressed spring Son sieve is moved because of gas impact, is avoided the absorption failure of molecular sieve, is extended the molecular sieve service life in adsorption tower and make With rate, the quality and yield of oxygenerator are improved, reduce volume and is reduced costs；4. induction type section oxide structure is arranged, and pre- If a variety of different openings for opening the corresponding oxygen supply solenoid valve of valve vacuum degree, so that the case where realizing according to different users, provide more The air-breathing induction type oxygen supply of kind intensity.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of oxygenerator of the present invention；

Fig. 2 is the decomposition texture schematic diagram of Fig. 1；

Fig. 3 is the schematic diagram of internal structure of multistage noise reduction sound-deadening structure in Fig. 1；

Fig. 4 is the decomposition texture schematic diagram of adsorption tower in Fig. 1.

Wherein, oxygenerator main body 1, compressor chamber 11, exhaust fan 12, adsorption tower 13, screen cover 131, import 132 divide depressed Structure 133 divides gas nozzle 1331, flow-equalization screen plate 1332, compressed spring 1333, oxygen container 14, induction type section oxide structure 141, oxygen supply electricity Magnet valve 1411, controller 1412, oxygen uptake pipeline 142, shell 2, air inlet side plate 21, the first air inlet 211 are vented side plate 22, the One gas vent 221, air inlet interlayer 3, air inlet partition 31, the second air inlet 311, inlet air filtration cotton 32, be vented interlayer 4, exhaust every Plate 41, exhaust gas filter cotton 42, multistage noise reduction sound-deadening structure 5, silencer hood 51, acoustic chamber 52, active carbon cotton 53, snorkel 54, air inlet pipe 55, gas vent 56.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with attached drawing, to the present invention one Kind Novel oxygenerator is further elaborated.It should be appreciated that saying that the specific embodiment of description is used only for explaining this herein Invention, is not intended to limit the present invention.

As shown in Figs. 1-2, a kind of Novel oxygenerator, including shell 2 and the oxygenerator main body 1 being placed in shell 2, oxygenerator An air inlet partition 31 is equipped between the air inlet of main body 1 and the air inlet side plate 21 of shell 2, air inlet partition 31 and air inlet side plate 21 are perpendicular To being oppositely arranged in parallel and cooperatively forming air inlet interlayer 3, lateral inlet air filtration cotton 32, the air inlet are additionally provided in air inlet interlayer 3 Air inlet interlayer 3 is divided into two by filter cotton 32, and the air inlet side plate 21 of shell 2 is equipped with the first air inlet 211, sets on air inlet partition 31 There is the second air inlet 311, the first air inlet 211 and the second air inlet 311 are arranged in a staggered manner and are located at inlet air filtration cotton 32 Two sides；First air inlet 211 is located at the lower part of the air inlet side plate 21 and is located at the downside of the inlet air filtration cotton 32, institute State the upside that the second air inlet 311 is located at the air inlet partition 31, when air inlet, air first enters air inlet from the first air inlet 211 Then interlayer 3 passes through the filtering of inlet air filtration cotton 32 under the guiding of air inlet interlayer 3, then enters oxygen processed from the second air inlet 311 For compressor air inlet inside owner's body 1；A row is additionally provided between the exhaust outlet of oxygenerator main body 1 and the exhaust side plate 22 of shell 2 Air bound plate 41, exhaust partition 41 and exhaust side plate 22 are vertically oppositely arranged in parallel and cooperatively form exhaust interlayer 4, are vented interlayer 4 It is inside additionally provided with lateral exhaust gas filter cotton 42, the exhaust gas filter cotton 42 is divided into two interlayer 4 is vented, the exhaust side plate of shell 2 22 are equipped with first row stomata 221, and exhaust partition 41 is equipped with second row stomata, and first row stomata 221 and second row stomata are staggered It is arranged and is located at the two sides of exhaust gas filter cotton 42；The first row stomata 221 is located at the lower part of the exhaust side plate 22 simultaneously Positioned at the downside of the exhaust gas filter cotton 42, the second exhaust hole is located at the upside of the exhaust partition 41, when discharging nitrogen, Nitrogen first enters exhaust interlayer 4 from second row stomata, and the mistake of exhaust gas filter cotton 42 is then passed through under the guiding of exhaust interlayer 4 Filter, then be discharged from first row stomata 221.A sandwich is respectively set in air inlet and exhaust outlet, and in sandwich Filter cotton is set, in use, air inlet and exhaust are intended to first pass through sandwich and flow down in the guiding of interlayer through filter cotton, thus It effectively prevent dust, steam to enter inside machine, and can reduce the noise of air inlet and exhaust, structure is simple, noise reduction effect It is good.

As shown in figure 3, the denitrogen channel of oxygenerator main body 1 is equipped with multistage noise reduction sound-deadening structure 5, the multistage noise reduction disappears Acoustic form 5 includes silencer hood 51, is set in silencer hood 51 there are four noise elimination chamber 52, four noise elimination chambers 52 are in rectangle Arrangement fills active carbon cotton 53 in each noise elimination chamber 52, the active carbon cotton 53 in each noise elimination chamber 52 by snorkel 54 according to Secondary series connection, the air intake structure and exhaust structure of the multistage noise reduction sound-deadening structure 5 are respectively to be inserted into the air inlet pipe 55 of hood and set Set several gas vents 56 on hood, 52 phase of noise elimination chamber that the noise elimination chamber 52 that air inlet pipe 55 is connected to is connected to gas vent 56 Neighbour's setting.The multistage noise reduction sound-deadening structure 5 being arranged on denitrogen channel, the multistage noise reduction sound-deadening structure 5 is simple and compact, Neng Gouli With the space and angle when the aperture of activated carbon cotton in noise elimination chambers 52 at different levels reduces air velocity, nitrogen flows through each noise elimination chamber 52 The noise because usually reducing denitrogen such as porous plate in degree variation, silencer hood 51.

As shown in Fig. 2, the oxygenerator main body 1 further includes the exhaust fan 12 for forced-ventilated heat dissipation, the exhaust fan 12 is set In on the second row stomata, the exhaust outlet of exhaust fan 12 is towards the exhaust interlayer 4, and the air inlet of exhaust fan 12 is towards oxygen processed Compressor chamber 11 in owner's body 1 is to discharge the hot gas in compressor chamber 11.

As shown in figure 4, the oxygenerator main body 1 includes adsorption tower 13, the both ends of adsorption tower 13 are respectively equipped with screen cover 131, Import 132 there are two setting in screen cover 131, is equipped with air distribution structure 133 between import 132 and molecular sieve, the air distribution structure 133 is wrapped It includes for dividing what gas flowed to divide gas nozzle 1331 and flow-equalization screen plate 1332, divides gas nozzle 1331 to be fixedly connected with screen cover 131, divide gas nozzle Loose gas permeable material is filled in 1331 so that the high pressure draught dispersion come in from import 132 is flowed, flow-equalization screen plate 1332 with Compressed spring 1333 is equipped between screen cover 131, screen cover 131 is supported in one end of compressed spring 1333, and the other end supports flow-equalization screen plate 1332, sieve pore is uniformly distributed on flow-equalization screen plate 1332 further to disperse to flow to from the air-flow for dividing gas nozzle 1331 to come out, make into It is uniform to enter the air pressure in adsorption tower 13 of the gas in adsorption tower 13.At least two are equipped in the screen cover up and down 131 of adsorption tower 13 A import 132, and the air distribution structure 133 by dividing gas nozzle 1331 and flow-equalization screen plate 1332 to form is set, divide filling in gas nozzle 1331 Environmentally friendly glass fiber cotton flows the high pressure draught come in from import 132 dispersion, then further dispersion is equal by flow-equalization screen plate 1332 Then stream just enters in adsorption tower 13, to make in adsorption tower 13 that air pressure is uniform, avoid the channel effect of through type, moreover, Flow-equalization screen plate 1332 is compressed over a molecular sieve by compressed spring 1333, and restriction molecule sieve is moved because of gas impact, avoids making At molecular sieve absorption fail, extend molecular sieve service life and the utilization rate in adsorption tower 13, improve oxygenerator quality and Yield reduces volume and reduces costs.

As shown in Fig. 2, the oxygenerator main body 1 includes oxygen container 14, the oxygen container 14 is equipped with for user's oxygen uptake Oxygen uptake pipeline 142 and induction type section oxide structure 141, the induction type section oxide structure 141 include oxygen supply solenoid valve 1411 and control Device 1412, controller 1412 are equipped with the pressure sensitive module for detecting user's suction condition or expiration state, controller 1412 connect compressors and oxygen supply solenoid valve 1411, when user's suction condition, controller 1412 can be according to pressure sensitive module The vacuum degree size that the user's air-breathing detected generates judges that user's air-breathing is strong and weak, and then controls what oxygen supply solenoid valve 1411 was opened The revolving speed of time and compressor operation；When user's expiration state, controller 1412 control oxygen supply solenoid valve 1411 close so that for Oxygen pipeline is obstructed.Preferably, the shell 2 is equipped with the control button for selecting different oxygen supply modes, each to supply oxygen mode point Different oxygen supply solenoid valves 1421 is not corresponded to presets opening time and the default running speed of compressor.Induction type section oxide structure is set 142, it can judge that user's air-breathing is strong and weak according to the vacuum degree size that user's air-breathing that pressure sensitive module detects generates, And then the revolving speed of time and compressor operation that oxygen supply solenoid valve 1421 is opened are controlled, and preset the corresponding oxygen supply of a variety of oxygen supply modes The different opening times of solenoid valve 1421 and the different running speeds of compressor, thus the case where realizing according to different users, The air-breathing induction type oxygen supply of a variety of intensity is provided

Above description is only the preferred embodiment of the application and the explanation to institute's application technology principle.Those skilled in the art Member is it should be appreciated that invention scope involved in the application, however it is not limited to technology made of the specific combination of above-mentioned technical characteristic Scheme, while should also cover in the case where not departing from the inventive concept, it is carried out by above-mentioned technical characteristic or its equivalent feature Any combination and the other technical solutions formed.Such as features described above has similar function with (but being not limited to) disclosed herein Can technical characteristic replaced mutually and the technical solution that is formed.

Claims (9)

1. a kind of Novel oxygenerator, including shell and the oxygenerator main body being placed in shell, which is characterized in that oxygenerator main body An air inlet partition is equipped between air inlet and the air inlet side plate of shell, air inlet partition and air inlet side plate are vertically oppositely arranged in parallel simultaneously Air inlet interlayer is cooperatively formed, is additionally provided with lateral inlet air filtration partition in air inlet interlayer, the inlet air filtration partition is by air inlet interlayer It is divided into two, the air inlet side plate of shell is equipped with the first air inlet, and air inlet partition is equipped with the second air inlet, the first air inlet and the Two air inlets are arranged in a staggered manner and are located at the two sides of inlet air filtration partition；The exhaust outlet of oxygenerator main body and the exhaust side of shell An exhaust partition is additionally provided between plate, exhaust partition and exhaust side plate are vertically oppositely arranged in parallel and cooperatively form exhaust interlayer, Lateral exhaust gas filter partition is additionally provided in exhaust interlayer, the exhaust gas filter partition is divided into two interlayer is vented, the row of shell Gas side plate is equipped with first row stomata, and exhaust partition is equipped with second row stomata, and first row stomata and second row stomata are arranged in a staggered manner And it is located at the two sides of exhaust gas filter partition；The denitrogen channel of oxygenerator main body is equipped with multistage noise reduction sound-deadening structure, described Multistage noise reduction sound-deadening structure includes silencer hood, and several noise elimination chambers are equipped in silencer hood, are filled out in each noise elimination cavity room Fill active carbon cotton, each indoor active carbon cotton of noise elimination cavity is sequentially connected in series by snorkel, the multistage noise reduction sound-deadening structure into Depressed structure and exhaust structure are respectively several gas vents for being inserted into the air inlet pipe of hood and being arranged on hood, air inlet pipe connection Noise elimination chamber is disposed adjacent with the noise elimination chamber that gas vent is connected to.

2. Novel oxygenerator according to claim 1, which is characterized in that first air inlet is located at the air inlet side plate Lower part and the downside for being located at the inlet air filtration partition, second air inlet are located at the upside of the air inlet partition；Described One gas vent is located at the lower part of the exhaust side plate and is located at the downside of the exhaust gas filter partition, and the second exhaust hole is located at The upside of the exhaust partition.

3. Novel oxygenerator according to claim 1, which is characterized in that the inlet air filtration partition and exhaust gas filter partition Filtering material is filter cotton.

4. Novel oxygenerator according to claim 1, which is characterized in that the oxygenerator main body further includes radiating for forced-ventilated Exhaust fan, the exhaust fan is set on the second row stomata, and the exhaust outlet of exhaust fan is towards the exhaust interlayer, exhaust fan Air inlet towards the intracorporal compressor chamber of oxygenerator master the hot gas in compressor chamber to be discharged.

5. Novel oxygenerator according to claim 1, which is characterized in that the noise elimination there are four being set in the silencer hood Chamber, four noise elimination chambers are in rectangular arranged.

6. Novel oxygenerator according to claim 1, which is characterized in that the oxygenerator main body includes adsorption tower, adsorption tower Both ends be respectively equipped with screen cover, set in screen cover there are two import, air distribution structure be equipped between import and molecular sieve, described point is depressed Structure includes dividing gas nozzle to be fixedly connected with screen cover for dividing what gas flowed to divide gas nozzle and flow-equalization screen plate, is divided in gas nozzle filled with loose Gas permeable material so that come in from import high pressure draught dispersion flow, between flow-equalization screen plate and screen cover be equipped with compressed spring, pressure Screen cover is supported in one end of contracting spring, and the other end supports flow-equalization screen plate, and sieve pore is uniformly distributed on flow-equalization screen plate to from dividing gas nozzle to go out The air-flow come further disperses to flow, and keeps the gas entered in adsorption tower air pressure in adsorption tower uniform.

7. Novel oxygenerator according to claim 6, which is characterized in that the gas permeable material is environmentally friendly glass fiber cotton.

8. Novel oxygenerator according to claim 1, which is characterized in that the oxygenerator main body includes oxygen container, the storage Oxygen tank is equipped with oxygen uptake pipeline and induction type section oxide structure for user's oxygen uptake, and the induction type section oxide structure includes oxygen supply electromagnetism Valve and controller, controller are equipped with the pressure sensitive module for detecting user's suction condition or expiration state, and controller connects Compressor and oxygen supply solenoid valve are connect, when user's suction condition, controller can be inhaled according to the user that pressure sensitive module detects The vacuum degree size that gas generates judges that user's air-breathing is strong and weak, and then controls the time and compressor operation for supplying oxygen solenoid valve unlatching Revolving speed；When user's expiration state, controller control oxygen supply solenoid valve is closed so that ventilation channel is obstructed.

9. Novel oxygenerator according to claim 8, which is characterized in that the shell is equipped with for selecting different oxygen supply moulds The control button of formula, each oxygen supply mode respectively correspond different oxygen supply solenoid valves and preset opening time and the default operation turn of compressor Speed.