CN203877914U - Magnetic adsorption oxygen-enrichment generation device - Google Patents
Magnetic adsorption oxygen-enrichment generation device Download PDFInfo
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- CN203877914U CN203877914U CN201420322971.3U CN201420322971U CN203877914U CN 203877914 U CN203877914 U CN 203877914U CN 201420322971 U CN201420322971 U CN 201420322971U CN 203877914 U CN203877914 U CN 203877914U
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Abstract
The utility model relates to a magnetic adsorption oxygen-enrichment generation device. The problems that the efficiency is low, the oxygen generation cost is high, the noise is large, and the running cost of equipment is high in the prior art can be effectively solved. According to the technical scheme, an air filter is connected with an air blower through a pipe; the air blower is connected with a first magnetic adsorber and a second magnetic adsorber through a pipe; a coil winds the first magnetic adsorber and a coil winds the second magnetic adsorber; the first magnetic adsorber and the second magnetic adsorber are connected with a nitrogen chamber through pipes respectively; the pipe which is located between the first magnetic adsorber and the nitrogen chamber is provided with a first exhaust valve; the pipe which is located between the second magnetic adsorber and the nitrogen chamber is provided with a second exhaust valve; the first magnetic adsorber and the second magnetic adsorber are connected with a vacuum pump through pipes respectively; the vacuum pump is connected with an oxygen storage tank through a pipe; the air blower is connected with a first motor; the vacuum pump is connected with a second motor. According to the magnetic adsorption oxygen-enrichment generation device, the oxygen generation cost is low, the noise is low, the service life is long, and adsorption and oxygen generation devices are innovated.
Description
Technical field
The utility model relates to technical field of oxygen generation, particularly a kind of magnetic method absorption oxygen-enriching device processed.
Background technology
Oxygen has been widely used in industrial and daily life: fine coal oxygen-rich gasification, the gas making of chemical industry oxygen enrichment, ferment in fuel oil, combustion gas, fire coal, cement, Coal Chemical Industry, blast furnace ironmaking, non-ferrous metal metallurgy (copper, lead, zinc, aluminium etc.), Chemical Manufacture can be widely used; In addition, be widely used in the aspects such as water treatment, fish farming, solid refuse burning.
In air, contain 21%(dry state, volumetric concentration) oxygen, be the most cheap oxygen raw material, therefore oxygen is generally all produced by air separation.The power that magnetic method oxygen is that gradient magnetic has different magnetizing forces to oxygen, nitrogen molecule, and in gradient magnetic, paramagnetic substance is subject to pointing to the power of magneticstrength rising direction, and diamagnetic substance is subject to reverse direction---magneticstrength reduces direction---.Oxygen is paramagnetism gas, and the volume susceptibility under standard state is+1.91 × 10-6; Nitrogen is diamagnetism gas, and normal conditions lower volume susceptibility is-6.8 × 10-9.Because the volume susceptibility of oxygen is than much larger on the volume susceptibility numerical value of nitrogen, thereby in gradient magnetic the suffered magnetizing force of oxygen molecule much larger than the suffered magnetizing force of nitrogen molecule, and be subject to force direction contrary with nitrogen molecule, this makes to utilize gradient magnetic collecting oxygen to become possibility.But existing magnetic method oxygenerator efficiency is low, and oxygen cost is high, and floor space is large, and noise is large, and the running cost of equipment is high, therefore, the improvement and bring new ideas of magnetic method oxygenerator is the problem of needing at present solution badly.
Summary of the invention
For above-mentioned situation, for solving the defect of prior art, the object of the utility model is just to provide a kind of magnetic method absorption oxygen-enriching device processed, can effectively solve prior art efficiency low, and oxygen cost is high, and floor space is large, and noise is large, the high problem of running cost of equipment.
The technical scheme that the utility model solves is, comprise air filter, gas blower, vacuum pump and oxygen container, air filter is connected with gas blower through pipeline, gas blower through pipeline respectively with the first magnetization adsorber, the second magnetization adsorber is connected, the first magnetization adsorber, on the second magnetization adsorber, be all wound with coil, the first magnetization adsorber, the second magnetization adsorber is connected with nitrogen chamber through pipeline respectively, the first magnetization adsorber, on pipeline between the second magnetization adsorber and nitrogen chamber, first row air valve is housed respectively, second row air valve, the first magnetization adsorber, the second magnetization adsorber is connected with vacuum pump through pipeline respectively, vacuum pump is connected with oxygen container through pipeline, gas blower is connected with the first motor, vacuum pump is connected with the second motor.
The utility model efficiency is high, and oxygen cost is low, and floor space is little, and noise is low, can in harsh environment, produce oxygen enrichment, and long service life is the innovation on magnetic method oxygenerator.
Brief description of the drawings
Fig. 1 is structural front view of the present utility model.
Embodiment
Below in conjunction with accompanying drawing, embodiment of the present utility model is described in further detail.
Provided by Fig. 1, the utility model comprises air filter, gas blower, vacuum pump and oxygen container, air filter 1 is connected with gas blower 2 through pipeline, gas blower 2 through pipeline respectively with the first magnetization adsorber 5a, the second magnetization adsorber 5b is connected, the first magnetization adsorber 5a, on the second magnetization adsorber 5b, be all wound with coil 4, the first magnetization adsorber 5a, the second magnetization adsorber 5b is connected with nitrogen chamber 9 through pipeline respectively, the first magnetization adsorber 5a, on pipeline between the second magnetization adsorber 5b and nitrogen chamber 9, first row air valve 8a is housed respectively, second row air valve 8b, the first magnetization adsorber 5a, the second magnetization adsorber 5b is connected with vacuum pump 6 through pipeline respectively, vacuum pump 6 is connected with oxygen container 7 through pipeline, gas blower 2 is connected with the first motor 10a, vacuum pump 6 is connected with the second motor 10b.
In order to ensure result of use, on the pipeline between described gas blower 2 and the first magnetization adsorber 5a, the second magnetization adsorber 5b, the first valve 3a, the second valve 3b are housed respectively.
On pipeline between described the first magnetization adsorber 5a, the second magnetization adsorber 5b and vacuum pump 6, the 3rd valve 3c, the 4th valve 3d are housed respectively.
The light gage wire that all to fill φ 0.01mm ~ φ 5mm, length in described the first magnetization adsorber 5a, the second magnetization adsorber 5b be 5mm ~ 500mm, weight 1kg ~ 50000kg.
The described perfectly straight stream of coil 4 or alternating-current, magnetic induction density is 8T, 10
4~ 10
5more than kilo-oersted.
Service condition of the present utility model is, air filter is by air conveyance drum blower fan, gas blower is transported to magnetization adsorber (two magnetization adsorbers by alternately switching after the m3/h air pressurized of 10m3/h ~ 70000, inside fill light gage wire, light gage wire---φ 0.01mm ~ φ 5mm, length 5mm ~ 500mm, weight 1kg ~ 50 ton), outer winding around, magnetization adsorber upper end vent valve alternation switch discharge nitrogen, in the time of exhaust valve close, coil blackout, in the time of exhaust valve open, coil electricity, when coil electricity, air is carried magnetization adsorber by gas blower, it when coil blackout, is vacuum pump adsorption of oxygen, valve alternation switch coordinates vacuum pump to complete magnetization adsorber absorption oxygen enrichment, vent valve switch time length, can magnetize oxygen enrichment and the Rich Oxygen Amount of producing different concns, gas blower, vent valve switch, valve switch, vacuum pump is repetitive operation and magnetization adsorber switch operating in turn periodically, just can continuously produce the oxygen enrichment of 23% ~ 65% concentration, the Rich Oxygen Amount of 10m3/h ~ 30000 m3/h enters oxygen container 7, the perfectly straight stream of coil 4 or alternating-current can, magnetic induction density is 8T, 10
4~ 10
5more than kilo-oersted.
The utility model efficiency is high; oxygen cost is low; floor space is little; noise is low, and the running cost of equipment is produced the oxygen enrichment of a cubic metre and only needed 0.01KW, produces oxygen-rich concentration, Rich Oxygen Amount Miniaturizable, can maximize, can mass-producing; can in harsh environment, produce oxygen enrichment; long service life, is the innovation on magnetic method oxygenerator, has good economic and social benefit.
Claims (4)
1. a magnetic method absorption oxygen-enriching device processed, comprise air filter, gas blower, vacuum pump and oxygen container, it is characterized in that, air filter (1) is connected with gas blower (2) through pipeline, gas blower (2) through pipeline respectively with the first magnetization adsorber (5a), the second magnetization adsorber (5b) is connected, the first magnetization adsorber (5a), on the second magnetization adsorber (5b), be all wound with coil (4), the first magnetization adsorber (5a), the second magnetization adsorber (5b) is connected with nitrogen chamber (9) through pipeline respectively, the first magnetization adsorber (5a), on pipeline between the second magnetization adsorber (5b) and nitrogen chamber (9), first row air valve (8a) is housed respectively, second row air valve (8b), the first magnetization adsorber (5a), the second magnetization adsorber (5b) is connected with vacuum pump (6) through pipeline respectively, vacuum pump (6) is connected with oxygen container (7) through pipeline, gas blower (2) is connected with the first motor (10a), vacuum pump (6) is connected with the second motor (10b).
2. magnetic method absorption according to claim 1 oxygen-enriching device processed, it is characterized in that, on the pipeline between described gas blower (2) and the first magnetization adsorber (5a), the second magnetization adsorber (5b), the first valve (3a), the second valve (3b) are housed respectively.
3. magnetic method absorption according to claim 1 oxygen-enriching device processed, it is characterized in that, on the pipeline between described the first magnetization adsorber (5a), the second magnetization adsorber (5b) and vacuum pump (6), the 3rd valve (3c), the 4th valve (3d) are housed respectively.
4. magnetic method absorption according to claim 1 oxygen-enriching device processed, it is characterized in that the light gage wire that all to fill φ 0.01mm ~ φ 5mm, length in described the first magnetization adsorber (5a), the second magnetization adsorber (5b) be 5mm ~ 500mm.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420322971.3U CN203877914U (en) | 2014-06-18 | 2014-06-18 | Magnetic adsorption oxygen-enrichment generation device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420322971.3U CN203877914U (en) | 2014-06-18 | 2014-06-18 | Magnetic adsorption oxygen-enrichment generation device |
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| CN203877914U true CN203877914U (en) | 2014-10-15 |
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| CN201420322971.3U Active CN203877914U (en) | 2014-06-18 | 2014-06-18 | Magnetic adsorption oxygen-enrichment generation device |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104748145A (en) * | 2015-01-28 | 2015-07-01 | 烟台九州环保节能科技有限公司 | Magnetic oxygen-enriched energy-saving burning system of tunnel kiln |
| CN109704286A (en) * | 2019-02-13 | 2019-05-03 | 江苏嘉宇特种装备股份有限公司 | A kind of magnetic method oxygen-enriching device |
| CN109704287A (en) * | 2019-02-13 | 2019-05-03 | 江苏嘉宇特种装备股份有限公司 | A kind of magnetic method oxygen-enriching device of automatic control |
-
2014
- 2014-06-18 CN CN201420322971.3U patent/CN203877914U/en active Active
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104748145A (en) * | 2015-01-28 | 2015-07-01 | 烟台九州环保节能科技有限公司 | Magnetic oxygen-enriched energy-saving burning system of tunnel kiln |
| CN109704286A (en) * | 2019-02-13 | 2019-05-03 | 江苏嘉宇特种装备股份有限公司 | A kind of magnetic method oxygen-enriching device |
| CN109704287A (en) * | 2019-02-13 | 2019-05-03 | 江苏嘉宇特种装备股份有限公司 | A kind of magnetic method oxygen-enriching device of automatic control |
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| GR01 | Patent grant |