CN207957925U - A kind of magnetomotive low-purity oxygen plant - Google Patents

Abstract

The utility model belongs to low-purity oxygen plant field, and in particular to a kind of magnetomotive low-purity oxygen plant, including shell, shell both ends are respectively equipped with air inlet and nitrogen outlet；It is equipped with Disengagement zone close to the part of air inlet in shell, is arranged with outside shell and Disengagement zone is matched detaches magnet；It is equipped in Disengagement zone and detaches the matched centring magnet of magnet；It is equipped with heating zone close to the part of nitrogen outlet in shell, heating zone connects with Disengagement zone；It is arranged with and the matched water conservancy diversion magnet in Disengagement zone outside shell；The nitrogen gas-guide tube being connected with nitrogen outlet is equipped in heating zone；The oxygen gas-guide tube being connected with heating zone is equipped in nitrogen gas-guide tube, heating zone is connected with oxygen outlet；The utility model is simple in structure, efficient and service life is long.

Description

A kind of magnetomotive low-purity oxygen plant

Technical field

The utility model belongs to low-purity oxygen plant field, and in particular to a kind of magnetomotive low-purity oxygen plant.

Background technology

Oxygen-enriched is that the oxygen in air is collected by Applied Physics or chemical method, and make after collection in gas oxygen-enriched contains Amount >=21%；By the progress of magnetic air separation technology, this paper is learnt：Oxygen in air has paramagnetism, nitrogen With diamagnetism；Using the different manifestations of oxygen and nitrogen in gradient magnetic, the separation of oxygen-nitrogen may be implemented；But it is empty Gas no longer captures oxygen after reaching saturation by enrichment region behind magnetic field, causes the waste of gradient magnetic；And the oxygen separated and Nitrogen can mix rapidly and cause to waste；Therefore a kind of efficient nitrogen oxygen separating equipment is needed.

Invention content

The purpose of this utility model is to provide a kind of a kind of magnetomotive low-purity oxygen plants simple in structure, efficient.

To achieve the above object, the utility model uses following technical scheme：A kind of magnetomotive low-purity oxygen plant, including shell Body, shell both ends are respectively equipped with air inlet and nitrogen outlet；In shell Disengagement zone, shell outside are equipped with close to the part of air inlet It is arranged with and Disengagement zone is matched detaches magnet；It is equipped in Disengagement zone and detaches the matched centring magnet of magnet；In shell It is equipped with heating zone close to the part of nitrogen outlet, heating zone connects with Disengagement zone；It is arranged with outside shell and is matched with Disengagement zone Water conservancy diversion magnet；The nitrogen gas-guide tube being connected with nitrogen outlet is equipped in heating zone；It is equipped in nitrogen gas-guide tube and heating zone The oxygen gas-guide tube being connected, heating zone is connected with oxygen outlet.

Further, it is equipped with wind turbine at air inlet, strainer is equipped between wind turbine and air inlet.

Further, electric heater is equipped in heating zone.

Further, nitrogen gas-guide tube is equipped with nitrogen inlet end, and nitrogen inlet end is in centring magnet outer end face and separation On the horizontal center line of magnet inner face line.

Further, oxygen gas-guide tube is equipped with oxygen inlet end, horizontal center line and the centring magnet axis at oxygen inlet end Line overlap.

Further, nitrogen inlet end and oxygen inlet end are aligned with the one end of centring magnet far from air inlet.

Further, on the same axis, Disengagement zone section is less than heating zone section for heating zone and Disengagement zone.

Further, centring magnet is connected with shell by supporting rack.

Further, it is tubular structure to detach magnet and water conservancy diversion magnet.

Compared with prior art, the utility model has the advantages that：

1, the utility model includes shell, and shell both ends are respectively equipped with air inlet and nitrogen outlet, close to air inlet in shell Mouthful part be equipped with Disengagement zone, be arranged with outside shell and Disengagement zone is matched detaches magnet, in Disengagement zone equipped with and detach The matched centring magnet of magnet carries out separation raising, the oxygen concentration in air using magnetic separation method to the nitrogen oxygen in air.

2, it is equipped with heating zone close to the part of nitrogen outlet in shell, heating zone connects with Disengagement zone, is arranged outside shell Have with the matched water conservancy diversion magnet in Disengagement zone, the nitrogen gas-guide tube being connected with nitrogen outlet is equipped in heating zone, to oxygen into Row heating improves the escape capability of oxygen, improves the oxygen concentration in air.

3, the oxygen gas-guide tube being connected with heating zone is equipped in nitrogen gas-guide tube, heating zone is connected with oxygen outlet, right Oxygen carries out the escape capability that heating improves oxygen, improves the oxygen concentration in air.

4, it is equipped with wind turbine at air inlet, strainer is equipped between wind turbine and air inlet, setting strainer prevents the impurity in air Into in equipment, it is not easily cleaned.

5, it is equipped with electric heater in heating zone, the escape capability that heating improves oxygen is carried out to oxygen, is improved in air Oxygen concentration.

6, nitrogen gas-guide tube is equipped with nitrogen inlet end, and nitrogen inlet end is in centring magnet outer end face and separation magnet inner end On the horizontal center line of face line, nitrogen gas-guide tube is directly entered convenient for nitrogen, not with oxygen mix.

7, oxygen gas-guide tube is equipped with oxygen inlet end, and the horizontal center line at oxygen inlet end is Chong Die with centring magnet axis, Convenient for the collection to oxygen.

8, nitrogen inlet end and oxygen inlet end are aligned with the one end of centring magnet far from air inlet, it is convenient to nitrogen and Oxygen is collected, and prevents nitrogen and oxygen mix.

9, on the same axis, Disengagement zone section is less than heating zone section, facilitates water conservancy diversion magnet pair for heating zone and Disengagement zone Oxygen carries out water conservancy diversion, is conducive to the concentration for improving oxygen.

10, centring magnet is connected with shell by supporting rack, and centring magnet is made not influenced by wind-force and magnetic force, and raising is set Standby stability.

11, it is tubular structure to detach magnet and water conservancy diversion magnet, more thorough to nitrogen and oxygen separation, is conducive to carry High oxygen concentration.

Description of the drawings

Fig. 1 is the main sectional view of the utility model.

In figure：1, wind turbine, 2, shell, 3, air inlet, 4, oxygen gas-guide tube, 5, oxygen outlet, 6, nitrogen gas-guide tube, 7, filter Net, 8, nitrogen outlet, 9, electric heater, 10, separation magnet, 11, water conservancy diversion magnet, 12, supporting rack, 13, centring magnet.

Specific implementation mode

A kind of magnetomotive low-purity oxygen plant, as shown in Figure 1, including shell 2, shell 2 is tubular structure；Distinguish at 2 both ends of shell Equipped with air inlet 3 and nitrogen outlet 8；It is equipped with wind turbine 1 at air inlet 3, strainer 7 is equipped between wind turbine 1 and air inlet 3；In shell 2 It is equipped with Disengagement zone close to the part of air inlet 3,2 outside of shell is arranged with and Disengagement zone is matched detaches magnet 10；Disengagement zone Interior to be equipped with and detach 10 matched centring magnet 13 of magnet, centring magnet 13 is connected with shell 2 by supporting rack 12；Shell 2 The part of interior close nitrogen outlet 8 is equipped with heating zone, and electric heater 9 is equipped in heating zone；Heating zone connects with Disengagement zone, and adds On the same axis, Disengagement zone section is less than heating zone section for hot-zone and Disengagement zone；2 outside of shell is arranged with to match with Disengagement zone The water conservancy diversion magnet 11 of conjunction；The nitrogen gas-guide tube 6 being connected with nitrogen outlet 8 is equipped in heating zone；Be equipped in nitrogen gas-guide tube 6 with The oxygen gas-guide tube 5 that heating zone is connected, heating zone are connected with oxygen outlet 5；Nitrogen gas-guide tube 6 is equipped with nitrogen inlet end, nitrogen Gas input end is on the horizontal center line of 13 outer end face of centring magnet and separation 10 inner face line of magnet；Oxygen gas-guide tube 4 Equipped with oxygen inlet end, oxygen inlet end is tubular structure and diameter is more than oxygen gas-guide tube 4, straight also greater than centring magnet 13 Diameter；Nitrogen inlet end is arranged outside oxygen inlet end, horizontal center line and the 13 axis weight of centring magnet at oxygen inlet end 4 It is folded；Nitrogen inlet end and oxygen inlet end are aligned with the one end of centring magnet 13 far from air inlet 3；Detach magnet 10 and water conservancy diversion Magnet 11 is tubular structure.

Utility model works process is：Wind turbine 1 works, and air flows to strainer 7, and strainer 7 carries out the impurity in air Filtering；Then air enters Disengagement zone by air inlet 3, and air is moved up and down by 13 barrier effect of centring magnet, air；By Magnetized in separation magnet 10 and 13 magneticaction of centring magnet, air；Since there is oxygen paramagnetism, nitrogen to have diamagnetic Property；Under magnetic fields, the oxygen in air is affixed to separation magnet 10 and centring magnet 13 flows forward towards heating zone and enters oxygen Conductance tracheae 4；Water conservancy diversion magnet 11 acts on oxygen, and oxygen flows to heating zone；The work of electric heater 9 adds oxygen-enriched air Heat improves oxygen escape capability；Oxygen is exported by oxygen outlet 5；At the same time, nitrogen then enters nitrogen by nitrogen inlet end and leads Tracheae 6 is discharged by nitrogen outlet 8.

Claims (9)

1. a kind of magnetomotive low-purity oxygen plant, it is characterised in that：Including shell, the shell both ends are respectively equipped with air inlet and nitrogen Outlet；It is equipped with Disengagement zone close to the part of air inlet in the shell, is arranged with outside the shell matched with Disengagement zone Detach magnet；It is equipped in the Disengagement zone and detaches the matched centring magnet of magnet；Close to nitrogen outlet in the shell Part is equipped with heating zone, and the heating zone connects with Disengagement zone；It is arranged with and the matched water conservancy diversion in Disengagement zone outside the shell Magnet；The nitrogen gas-guide tube being connected with nitrogen outlet is equipped in the heating zone；It is equipped with and heating in the nitrogen gas-guide tube The oxygen gas-guide tube that area is connected, the heating zone are connected with oxygen outlet.

2. magnetomotive low-purity oxygen plant as described in claim 1, it is characterised in that：Wind turbine, the wind are equipped at the air inlet Strainer is equipped between machine and air inlet.

3. magnetomotive low-purity oxygen plant as claimed in claim 2, it is characterised in that：Electric heater is equipped in the heating zone.

4. magnetomotive low-purity oxygen plant as claimed in claim 3, it is characterised in that：The nitrogen gas-guide tube is equipped with nitrogen inlet End, the nitrogen inlet end are on the horizontal center line of centring magnet outer end face and separation magnet inner face line.

5. magnetomotive low-purity oxygen plant as claimed in claim 4, it is characterised in that：The oxygen gas-guide tube is equipped with oxygen inlet End, the horizontal center line at the oxygen inlet end are Chong Die with centring magnet axis.

6. magnetomotive low-purity oxygen plant as claimed in claim 5, it is characterised in that：The nitrogen inlet end and oxygen inlet end are equal It is aligned with the one end of centring magnet far from air inlet.

7. magnetomotive low-purity oxygen plant as claimed in claim 6, it is characterised in that：The heating zone and Disengagement zone are in same axis On, the Disengagement zone section is less than heating zone section.

8. magnetomotive low-purity oxygen plant as claimed in claim 7, it is characterised in that：The centring magnet and shell pass through supporting rack It is connected.

9. magnetomotive low-purity oxygen plant as claimed in claim 8, it is characterised in that：The separation magnet and water conservancy diversion magnet are cylinder Shape structure.