CN206437869U - A kind of Vehicular oxygen-making machine - Google Patents

Abstract

The utility model discloses a kind of Vehicular oxygen-making machine, including air compressor, oxygen-enriched membrane element, vavuum pump and air intake assembly, the complete machine of Vehicular oxygen-making machine is used to be assemblied in the cabin of automobile engine, the air inlet of air compressor is directly communicated with outside air, and the outlet side of air compressor is communicated by first gas conduit with the air inlet of oxygen-enriched membrane element；The bleeding point of oxygen-enriched membrane element is communicated by second gas conduit with the pumping end of vavuum pump, and the outlet side of vavuum pump is connected by third gas conduit with air intake assembly；The end of air intake assembly is used to communicate with automobile passenger compartment.Vehicular oxygen-making machine in the utility model directly uses vehicle power, it is oxygen-enriched to oxygen-enriched membrane element in the way of negative pressure is combined to be pressurized, pressure difference is formed in oxygen permeable membrane both sides, oxygen in enriched air produces oxygen rich air, can be to driver and conductor's oxygen supply, prevent the generation of altitude sickness, and the Vehicular oxygen-making machine also has that small volume, low in energy consumption, flow are big, the characteristics of round-the-clock can use.

Description

A kind of Vehicular oxygen-making machine

Technical field

The utility model is related to breathing oxygen technical field, more particularly to a kind of Vehicular oxygen-making machine.

Background technology

The air feature on plateau is low pressure, hypoxemia, with the increase of height above sea level, and air becomes more and more thinner, Headache, dizziness, nausea and vomiting, memory occur without uncomfortable sensation in the general bodies of below 3000m during 3000~4000m Decline, slow in reacting, brain body work efficiency decline obvious；During 4000~5000m, occur it is serious have difficulty in breathing, muscle power decay, eyesight Decline.And there are some researches show human body is when quickly reaching 3350m, and maximum activity ability is down to the 50% of Plain, travel distance The spent time is also twice of Plain.The a series of problem or " injury " that high altitude anoxia is brought to human body are all urgently solved Certainly.

Existing highland oxygen-feeding equipment is all heavier, and not readily portable or utilization rate is not high, it is impossible to be on plateau effectively Human body provides an oxygen-enriched environment, and excessive can be consumed one's strength during personnel carry, or brings other not Necessary trouble or influence.Therefore, how to solve above-mentioned technical problem is one that those skilled in the art are faced Challenge.

Utility model content

The purpose of this utility model is to provide a kind of Vehicular oxygen-making machine, to solve the problem of above-mentioned prior art is present, makes The features such as obtaining the Vehicular oxygen-making machine and have that small volume, low in energy consumption, flow are big, round-the-clock can use, can more it be convenient to use Into altitude environment.

To achieve the above object, the utility model provides following scheme：The utility model provides a kind of Vehicular oxygen-making machine, Including air compressor, oxygen-enriched membrane element, vavuum pump and air intake assembly, the complete machine of the Vehicular oxygen-making machine is used to be assemblied in automobile hair In the cabin of motivation, the air inlet of the air compressor is directly communicated with outside air, the outlet side of the air compressor Communicated by first gas conduit with the air inlet of the oxygen-enriched membrane element；The bleeding point of the oxygen-enriched membrane element is led by second gas Pipe is communicated with the pumping end of the vavuum pump, and the outlet side of the vavuum pump passes through third gas conduit and the air intake assembly phase Even；The end of the air intake assembly is used to communicate with automobile passenger compartment.

Optionally, the air intake of the air compressor is used to communicate with the air inlet of automobile engine.

Optionally, the oxygen-enriched membrane element includes offering the air inlet on housing and multiple plate type membrane components, the housing Mouth and the bleeding point, the plate type membrane component are arranged in the housing.

Optionally, the plate type membrane component includes setting at the top of hollow substrate, oxygen permeable membrane and packing material, the hollow substrate It is equipped with two pumpings and connects hole, the pumping is connect after hole is converged via collection airway is connected with the bleeding point；The middle space base One layer of oxygen permeable membrane is respectively pasted in plate two sides, and the packing material is put in the confined space formed between oxygen permeable membrane described in two layers.

Optionally, the packing material is web bed course.

Optionally, the housing is rectangular parallelepiped structure, and the air inlet is arranged on the bottom of any long side surface of the housing Portion centre position, the multiple plate type membrane component side by side parallel is arranged in the housing, and in the plate type membrane component in Space base plate is parallel with the short sides of the housing；The bleeding point is arranged on the top of the short sides of the housing；The housing Bottom is provided with gas outlet.

Optionally, the housing is rectangular parallelepiped structure, and the quantity of the air inlet is multiple, and the air inlet is arranged on On two long side surfaces of the housing, the multiple plate type membrane component is divided to two groups of both sides being arranged in the housing, and the plate Hollow substrate in formula membrane module is parallel with the bottom surface of the housing；The bleeding point is arranged on the top surface interposition of the housing Put；The housing bottom is provided with gas outlet.

Optionally, the air intake assembly includes magnetic valve and air inlet pipeline, and the magnetic valve is used for and vehicle console Regulation switch and air inflow button electrically connect, the air inlet pipeline be used for gas is passed through in automobile passenger compartment.

Optionally, the air inlet pipeline is used to be connected with vehicle air conditioning outlet.

Optionally, the end seal of the air inlet pipeline is connected with multiple branch pipes, and each branch pipe correspondence is connected with one Sucting mask.

In air oxygen the physiological action of body is not dependent on it in atmosphere shared percent by volume it is (permanent in air Determine the percentage composition of part, be almost constant in 0~100km height from the ground), and depending on its partial pressure. Want to mitigate harm of the high altitude anoxia to body, partial pressure of oxygen must be just improved by every means.The plateau anti anoxia side commonly used at present Method is mainly molecular sieve oxygen generation and chemical oxygen-producing, and both of which has its advantage, but also has its limitation simultaneously, it is difficult to satisfaction pair In the demand of oxygen supply equipment processed.

The utility model achieves following technique effect relative to prior art：

Vehicle power directly is used, oxygen-enriched in the way of negative pressure is combined to be pressurized, prime is from air compressor to oxygen-enriched The air inlet pressurized feed of membrane element, rear class is evacuated by the bleeding point of vavuum pump from oxygen-enriched membrane element and forms negative pressure, and the working method can Increase the pressure difference of oxygen permeable membrane both sides, improve oxygen generation efficiency；

The various forms of arrangements of plate type membrane component, help to increase oxic processes of the oxygen permeable membrane to air, improve oxygen effect processed Rate；

The characteristics of Vehicular oxygen-making machine also has that small volume, low in energy consumption, flow are big, round-the-clock can used simultaneously.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art In required for the accompanying drawing that uses be briefly described, it should be apparent that, drawings in the following description are only of the present utility model Some embodiments, for those of ordinary skill in the art, without having to pay creative labor, can also basis These accompanying drawings obtain other accompanying drawings.

Fig. 1 is the overall structure diagram of Vehicular oxygen-making machine in the utility model；

Fig. 2 is the overall structure diagram of oxygen-enriched membrane element in the utility model specific embodiment one；

Fig. 3 is the overall structure diagram of oxygen-enriched membrane element in the utility model specific embodiment two；

Fig. 4 is the structural representation of plate type membrane component in the utility model；

Wherein, 1 air compressor；2 first gas conduits；3 air inlets；4 oxygen-enriched membrane elements；5 bleeding points；6 second gas are led Pipe；7 vavuum pumps；8 magnetic valves；9 air inlet pipelines；10 plate type membrane components；11 collection airways；12 gas outlets；13 pumpings connect hole；In 14 Space base plate；15 web bed courses；16 oxygen permeable membranes.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

The purpose of this utility model is to provide a kind of Vehicular oxygen-making machine, to solve the problem of above-mentioned prior art is present, makes The features such as obtaining the Vehicular oxygen-making machine and have that small volume, low in energy consumption, flow are big, round-the-clock can use, can more it be convenient to use Into altitude environment.

The Vehicular oxygen-making machine that the utility model is provided, including air compressor, oxygen-enriched membrane element, vavuum pump and air intake assembly, The complete machine of Vehicular oxygen-making machine is used to be assemblied in the cabin of automobile engine, and the air inlet of air compressor is directly and outside air Communicate, the outlet side of air compressor is communicated by first gas conduit with the air inlet of oxygen-enriched membrane element；The pumping of oxygen-enriched membrane element Mouth is communicated by second gas conduit with the pumping end of vavuum pump, and the outlet side of vavuum pump passes through third gas conduit and air inlet group Part is connected；The end of air intake assembly is used to communicate with automobile passenger compartment.

In the course of work, outside air is compressed by air compressor, and oxygen permeable membrane is sent to by first gas conduit In member, oxygen-enriched membrane element carries out oxygen-rich treated to air, and the gas by oxygen-rich treated is by second gas conduit by vacuum pumping Go out, then oxygen rich gas is delivered into air intake assembly via third gas conduit to eventually arrive in passenger compartment, the department in automobile is multiplied Personnel carry out oxygen supply.

To enable above-mentioned purpose of the present utility model, feature and advantage more obvious understandable, below in conjunction with the accompanying drawings and tool Body embodiment is described in further detail to the utility model.

Fig. 1-4 are refer to, wherein, Fig. 1 is the overall structure diagram of Vehicular oxygen-making machine in the utility model；Fig. 2 is this The overall structure diagram of oxygen-enriched membrane element in utility model specific embodiment one；Fig. 3 is in the utility model specific embodiment two The overall structure diagram of oxygen-enriched membrane element；Fig. 4 is the structural representation of plate type membrane component in the utility model.

Embodiment one

As shown in Fig. 1-2 and Fig. 4, the present embodiment provides a kind of Vehicular oxygen-making machine, including air compressor 1, oxygen-enriched membrane element 4th, vavuum pump 7 and air intake assembly, the complete machine of Vehicular oxygen-making machine are used to be assemblied in the cabin of automobile engine, air compressor 1 Air inlet directly communicated with outside air, the outlet side of air compressor 1 passes through first gas conduit 2 and oxygen-enriched membrane element 4 Air inlet 3 is communicated；The bleeding point 5 of oxygen-enriched membrane element 4 is communicated by second gas conduit 6 with the pumping end of vavuum pump 7, vavuum pump 7 Outlet side be connected by third gas conduit with air intake assembly；The end of air intake assembly is used to communicate with automobile passenger compartment.

Wherein, the air intake of air compressor 1 is used to communicate with the air inlet of automobile engine.Oxygen-enriched membrane element 4 includes shell Air inlet 3 and bleeding point 5 are offered on body and multiple plate type membrane components 10, housing, plate type membrane component 10 is arranged in housing.Institute Stating plate type membrane component 10 includes hollow substrate 14, oxygen permeable membrane 16 and packing material, and the hollow top of substrate 14 is provided with two pumpings Hole 13 is connect, pumping is connect after hole 13 is converged via collection airway 11 to be connected with bleeding point 5；Respectively paste one layer in the hollow two sides of substrate 14 Oxygen permeable membrane 16, is internally formed in confined space, confined space and supports filling by web bed course 15, and the web bed course 15 can be with From medical nylon elastic supporting network.

Vehicular oxygen-making machine is arranged in automobile engine nacelle, and during driving on plateau, air compressor 1 and vavuum pump 7 are by vehicle-mounted Power supply is powered start-up operation, and extraneous " fresh " air is pressed into oxygen-enriched membrane element 4 by air compressor 1, and malleation is internally formed at it； Meanwhile, the plate type membrane component 10 inside oxygen-enriched membrane element 4 is in parallel through collecting airway 11, is connected to bleeding point 5 and is evacuated by vavuum pump 7, Negative pressure will be produced in plate type membrane component 10.So, it will be formed inside and outside oxygen permeable membrane 16 in pressure differential, oxygen-enriched membrane element 4 Endlessly fresh air is under the driving of pressure differential, and high-pressure side air passes through the mistake of oxygen permeable membrane 16 " dissolving-infiltration-parsing " Journey, because each component is different by the speed of oxygen permeable membrane 16 in air, is mainly oxygen and nitrogen, oxygen permeable membrane 16 is to oxygen in air The through-rate of gas is greater than nitrogen, will obtain the oxygen-enriched air of high concentration in low-pressure side, then export oxygen-enriched by vavuum pump 7 Gas.

Housing is rectangular parallelepiped structure in the present embodiment, and air inlet 3 is arranged on the bottom interposition of any long side surface of housing Put, multiple side by side parallel of plate type membrane component 10 are arranged in housing, and the hollow substrate 14 in plate type membrane component 10 and housing Short sides are parallel；Bleeding point 5 is arranged on the top of the short sides of housing；Housing bottom is provided with gas outlet 12.

Air is pressed into the housing of oxygen-enriched membrane element 4 by air compressor 1 by air inlet, and plate type membrane component 10 is parallel side by side Set, increase and the contact area of air, so as to improve oxygen generation efficiency, obtained oxygen-enriched air is taken out from the top of housing Go out；When the air pressure in housing exceeds normal range value, it can be deflated from the bottom of housing, by non-oxygen-enriched gas in housing Body is discharged.

If necessary to increase the concentration of oxygen, the larger oxygen permeable membrane 16 of nitrogen oxygen separating factor alpha value can be changed, for example silicon rubber Glued membrane, suspension glassy state TMS-MC films, two bigcatkin willow second diimino cobalts and TMS-MC composite membrane etc..

Air intake assembly include magnetic valve 8 and air inlet pipeline 9, magnetic valve 8 be used for on vehicle console regulation switch and Air inflow button electrical connection, air inlet pipeline 9 be used for gas is passed through in automobile passenger compartment, driver and conductor can according to itself Situation carries out the regulation of oxygen-enriched air flow, it is to avoid waste.

Air inlet pipeline 9 both can be used for being connected with vehicle air conditioning outlet, and disperse oxygen supply is carried out into passenger compartment, also may be used Multiple branch pipes are connected with the end seal in air inlet pipeline 9, each branch pipe correspondence is connected with a sucting mask, multiplies people for taking charge of Member carries out autonomous oxygen uptake according to different healths, and can adjust oxygen absorbed.

Embodiment two

As shown in figure 3, the present embodiment provides a kind of Vehicular oxygen-making machine, on the basis of embodiment one, in the present embodiment Vehicular oxygen-making machine also has the characteristics that：

The difference of vehicle-mounted oxygen enricher and the vehicle-mounted oxygen enricher in embodiment one in the present embodiment is：

Housing in the present embodiment is rectangular parallelepiped structure, and the quantity of air inlet 3 is multiple, and air inlet 3 is arranged on housing Two long side surfaces on, both sides that multiple two groups of plate type membrane components 10 point are arranged in housing, and hollow in plate type membrane component 10 Substrate 14 is parallel with the bottom surface of housing；Bleeding point 5 is arranged on the top surface centre position of housing；Housing bottom is provided with gas outlet 12。

From two long side surface direction air inlets of hopper, the contact area of increase air-flow and plate type membrane component 10 improves oxygen effect processed Rate, in addition, the packet of the plate type membrane component 10 in the present embodiment is not limited to two groups, it is appropriate to carry out as the case may be Packet, the protection object belonged in the present embodiment.

The utility model overcomes the drawbacks such as high, big, the not portable, Maintenance Difficulty of volume of power consumption in molecular sieve oxygen generation, according to film Method oxygen enrichment technology, it is oxygen-enriched with the mode that negative pressure is combined by using supercharging using altitude environment air as raw material, bypass air through Oxygen permeable membrane obtains oxygen-enriched air.

Vehicular oxygen-making machine in the utility model have small volume, low in energy consumption, non-maintaining, flow it is big, beneficial to vehicle-mounted portable The advantages of.Proved by a series of experimental study, the equal energy steady operation under different altitude height, oxygen-rich concentration can be all the time More than 30% is maintained at, the gas flow of gas outlet 12 according to the actual needs can be board-like by increasing the oxygen-enriched inside of membrane element 4 The quantity regulation (be mainly and the surface area of oxygen permeable membrane is directly proportional) of membrane module 10.Human experimentation shows, is made in the utility model Oxygen machine is remarkably improved the blood oxygen saturation of human body under high altitude environment, reduces heart rate, improves operating efficiency.

It should be noted that the packing material in plate type membrane component 10 in the utility model is not limited to using medical Nylon elastic supporting network, other meet the packing material of use requirement, and the utility model embodiment one and embodiment The setting of plate type membrane component 10, air inlet 3 and bleeding point 5 is also not limited to above two form in two, it is every can be effective Ground increases air and the arrangement of the contact area of plate type membrane component 10 is also each fallen within protection domain of the present utility model.

Apply specific case in the utility model to be set forth principle of the present utility model and embodiment, the above The explanation of embodiment is only intended to help and understands method of the present utility model and its core concept；Simultaneously for the one of this area As technical staff, according to thought of the present utility model, will change in specific embodiments and applications.To sum up Described, this specification content should not be construed as to limitation of the present utility model.

Claims (10)

1. a kind of Vehicular oxygen-making machine, it is characterised in that：It is described including air compressor, oxygen-enriched membrane element, vavuum pump and air intake assembly The complete machine of Vehicular oxygen-making machine is used to be assemblied in the cabin of automobile engine, the air inlet of the air compressor directly with the external world Air is communicated, and the outlet side of the air compressor is communicated by first gas conduit with the air inlet of the oxygen-enriched membrane element；Institute The bleeding point for stating oxygen-enriched membrane element is communicated by second gas conduit with the pumping end of the vavuum pump, the outlet side of the vavuum pump It is connected by third gas conduit with the air intake assembly；The end of the air intake assembly is used to communicate with automobile passenger compartment.

2. Vehicular oxygen-making machine according to claim 1, it is characterised in that：The air intake of the air compressor is used for and vapour The air inlet of car engine is communicated.

3. Vehicular oxygen-making machine according to claim 1, it is characterised in that：The oxygen-enriched membrane element includes housing and multiple board-like The air inlet and the bleeding point are offered on membrane module, the housing, the plate type membrane component is arranged in the housing.

4. Vehicular oxygen-making machine according to claim 3, it is characterised in that：The plate type membrane component includes hollow substrate, richness Two pumpings are provided with the top of oxygen film and packing material, the hollow substrate and connect hole, and the pumping connects hole via Ji Qidaoguanhui It is connected after conjunction with the bleeding point；One layer of oxygen permeable membrane is respectively pasted in the hollow substrate two sides, and the packing material is put in two layers In the confined space formed between the oxygen permeable membrane.

5. Vehicular oxygen-making machine according to claim 4, it is characterised in that：The packing material is web bed course.

6. Vehicular oxygen-making machine according to claim 4, it is characterised in that：The housing is rectangular parallelepiped structure, the air inlet Mouth is arranged on the bottom centre position of any long side surface of the housing, and the multiple plate type membrane component side by side parallel is arranged at institute State in housing, and the hollow substrate in the plate type membrane component is parallel with the short sides of the housing；The bleeding point is arranged on The top of the short sides of the housing；The housing bottom is provided with gas outlet.

7. Vehicular oxygen-making machine according to claim 4, it is characterised in that：The housing is rectangular parallelepiped structure, the air inlet Mouthful quantity to be multiple, and the air inlet is arranged on two long side surfaces of the housing, and the multiple plate type membrane component is divided to two The hollow substrate that group is arranged in the both sides in the housing, and the plate type membrane component is parallel with the bottom surface of the housing；Institute State the top surface centre position that bleeding point is arranged on the housing；The housing bottom is provided with gas outlet.

8. Vehicular oxygen-making machine according to claim 1, it is characterised in that：The air intake assembly includes magnetic valve and air inlet pipe Road, the magnetic valve is used to electrically connect with the regulation switch and the button of air inflow on vehicle console, and the air inlet pipeline is used In gas is passed through in automobile passenger compartment.

9. Vehicular oxygen-making machine according to claim 8, it is characterised in that：The air inlet pipeline is used for and automobile air conditioner air outlet Mouth is connected.

10. Vehicular oxygen-making machine according to claim 8, it is characterised in that：The end seal of the air inlet pipeline is connected with Multiple branch pipes, each branch pipe correspondence is connected with a sucting mask.