CN203130297U - Airborne molecular combustion supporting device - Google Patents

Abstract

The utility model discloses an airborne molecular combustion supporting device which comprises a first bottle body. The first bottle body contains liquid, the first bottle body is provided with a gas inlet pipe and a connecting pipe, the connecting pipe is connected with a second bottle body, the second bottle body contains filter materials for separating gas and liquid, the second bottle body is provided with a gas outlet pipe, and the gas outlet pipe is connected with a gas inlet manifold connected with an engine. According to the airborne molecular combustion supporting device, the filter materials for separating the gas and the liquid are used. When airborne molecules passing through the gas inlet pipe and fuel oil are in combustion in a mixing mode, hydrogen and oxygen decomposed by the airborne molecules can achieve the function of supporting combustion, combustion of the engine is made to be full, exhaust emissions are reduced, carbon deposition is reduced, the running of the engine is made to be smooth, and the temperature of the whole engine is reduced.

Description

The gaseous molecular blower

Technical field

The utility model relates to a kind of gaseous molecular blower.

Background technique

General engine is in the normal operation process, move for this engine running in its cylinder implode burning by fuel oil, yet the knocking fuel of air and fuel oil is usually incomplete, thereby produce many waste gas and engine carbon distribution, when an amount of water molecule can decomposite hydrogen and oxygen under hot environment, thereby obtain combustion-supporting effect, make burning more complete, and the engine carbon distribution is removed in the reduction toxic emission.

See also shown in Figure 1, be the schematic representation of known water burner, it includes a bottle 1, for the mixed solution of ccontaining water or water and ethanol, bottle 1 has a suction tude 2, and suction tude 2 is arranged on the bottle 1, and wherein, the outlet side of suction tude 2 is arranged in the ccontaining liquid of bottle 1, in addition, the upper end of bottle 1 more is provided with a steam outlet pipe 3, and the inlet end of steam outlet pipe 3 is arranged on the liquid level of 1 ccontaining liquid of bottle, and the outlet side of steam outlet pipe 3 is connected on the intake manifold 300 of an engine 200.In view of when engine 200 runnings are moved, intake manifold 300 will thereby produce negative pressure, and supplies fuel oil mixed explosion burning by importing air.Therefore, in engine 200 operation process, the negative pressure that intake manifold 300 produces, to cause and also produce negative pressure in the bottle 1 thereupon, and make suction tude 2 suck air, and in this air passes the process of this liquid, produce bubble, thus increase the dissolved oxygen amount in this liquid, and this bubble is also cracked and form oxygen containing droplet in liquid level, and the negative pressure that this droplet produces by intake manifold 300 attracts to import in the engine 200.

Owing in the hot environment of this droplet in engine 200, can absorb the latent heat vaporization, therefore can effectively reduce the ambient temperature in the fuel oil knocking fuel process.But this droplet is after reducing engine temperature, and the high-moisture because of this droplet itself causes the aqueous vapor of thereupon bringing in the engine 200 too much also, thereby cause the pinking of engine 200, even influence the knocking fuel of its fuel oil, what is more, probably cause engine 200 corrosions impaired.

Please consult shown in Figure 2 again, schematic representation for another known water burner, it includes a bottle 4, mixed solution for ccontaining water or water and ethanol, and be provided with an atomizer 5 in the bottle 4, for ccontaining liquid in the atomizing bottle 4, and make it form water molecule, and the upper end of bottle 4 is provided with a connecting tube 6, and the inlet end of connecting tube 6 is arranged on the liquid level of 4 ccontaining liquid of bottle, and the outlet side of connecting tube 6 is arranged in the atomized water collection bottle 7, and the upper end of atomized water collection bottle 7 is provided with a steam outlet pipe 8, and steam outlet pipe 8 is connected on the intake manifold 300 of an engine 200.

When engine 200 running actions, the negative pressure that its intake manifold 300 produces will cause also to produce negative pressure in the atomized water collection bottle 7 thereupon, and the water molecule that atomizer 5 atomizing backs are produced attracts to import in the atomized water collection bottle 7, further import in the engine 200 again, and reduce this engine 200 temperature.Though, by atomized water collection bottle 7 can water content is too high water molecule when the atomized water collection bottle 7, in atomized water collection bottle 7, condense into the globule, and it is stagnated in atomized water collection bottle 7, but it is not good that it makes the too high water molecule of water content condense into the mechanism of the globule, causes its effect limited, and cause the aqueous vapor that imports in the engine 200 still too much, and then cause engine 200 runnings to have some setbacks.

Summary of the invention

In view of this, the technical problems to be solved in the utility model is to provide a kind of gaseous molecular blower, and it can filter to isolate the too high aqueous vapor of water content, pass through and only keep gaseous molecular, can reach combustion-supporting purpose, and then make engine combustion more complete, it is more smooth and easy to turn round.

For solving the problems of the technologies described above, the technical solution of the utility model is achieved in that a kind of gaseous molecular blower, it includes: a bottle, it is equipped with liquid, and this bottle has a suction tude, this suction tude is arranged on this bottle, and the two ends of this suction tude are defined as an inlet end and an outlet side respectively, wherein, this inlet end is positioned at outside this bottle, and communicate with the external world of this bottle, and this outlet side is arranged in this liquid, and this bottle more is equipped with plural gas-liquid separation filter material, and this gas-liquid separation is arranged on this liquid with filter material, and the upper end of this bottle is provided with a steam outlet pipe, the two ends of this steam outlet pipe are defined as an inlet end and an outlet side respectively, and wherein, the inlet end of this steam outlet pipe is positioned at the top that filter material is used in this gas-liquid separation, and the outlet side of this steam outlet pipe is positioned at outside this bottle, and it is connected to the intake manifold of an engine.

As preferred version, the inlet end of this suction tude is provided with one first filter material, and the inlet end of this steam outlet pipe is provided with one second filter material.

As preferred version, the outlet side of this suction tude is provided with a Bubbled stone.

As preferred version, this liquid is water.

As preferred version, this gas-liquid separation filter material is plural foam piece, and is formed with the gap between this foam piece.

As preferred version, this gas-liquid separation filter material is plural plate body, and the heart is downward-sloping outwardly therein with filter material in this gas-liquid separation, and make this gas-liquid separation form a convex globoidal with filter material, and be convexly equipped with a projection in this gas-liquid separation up with the center of filter material, and this projection is provided with a perforation, this perforation axially runs through this projection, and the periphery wall of this projection radially convexes with a location piece, and be provided with a groove in this gas-liquid separation with the corresponding section, bottom surface of filter material, this gas-liquid separation is with the mutual storehouse blocking of filter material, and make this gas-liquid separation form a multi-layer structure with filter material, and this gas-liquid separation is with having plural open-work on the filter material, and this adjacent gas-liquid separation is crisscross arranged with this open-work of filter material, and this gas-liquid separation is up successively successively decreased by its lower floor with this set open-work of filter material, and the outlet side of this suction tude communicates with this perforation of this projection.

The another kind of technological scheme that the utility model provides: a kind of gaseous molecular blower, it includes: one first bottle, its ccontaining liquid, and this first bottle has a suction tude, and this suction tude is arranged on this first bottle, and the two ends of this suction tude are defined as an inlet end and an outlet side respectively, wherein, the inlet end of this suction tude is positioned at outside this first bottle, and communicates with the external world of this first bottle, and the outlet side of this suction tude is arranged in this liquid; One connecting tube, its two ends are defined as an inlet end and an outlet side respectively, and the inlet end of this connecting tube is located at the upper end of this first bottle, and above this liquid; One second bottle, its ccontaining plural gas-liquid separation filter material, and the outlet side of this connecting tube is arranged on this second bottle, and the upper end of this second bottle is provided with a steam outlet pipe, the two ends of this steam outlet pipe are defined as an inlet end and an outlet side respectively, and wherein, the inlet end of this steam outlet pipe is positioned at the top that filter material is used in this gas-liquid separation, and the outlet side of this steam outlet pipe is positioned at outside this second bottle, and it is connected to the intake manifold of an engine.

As preferred version, this liquid is water.

As preferred version, this gas-liquid separation filter material is plural foam piece, and is formed with the gap between this foam piece.

As preferred version, this gas-liquid separation filter material is plural plate body, and the heart is downward-sloping outwardly therein with filter material in this gas-liquid separation, and make this gas-liquid separation form a convex globoidal with filter material, and be convexly equipped with a projection in this gas-liquid separation up with the center of filter material, and this projection is provided with a perforation, this perforation axially runs through this projection, and the periphery wall of this projection radially convexes with a location piece, and be provided with a groove in this gas-liquid separation with the corresponding section, bottom surface of filter material, this gas-liquid separation is with the mutual storehouse blocking of filter material, and make this gas-liquid separation form a multi-layer structure with filter material, and this gas-liquid separation is with having plural open-work on the filter material, and this adjacent gas-liquid separation is crisscross arranged with this open-work of filter material, and this gas-liquid separation is up successively successively decreased by its lower floor with this open-work that filter material installs, and the outlet side of this connecting tube communicates with this perforation of this projection.

The technique effect that the utility model reaches is as follows: the utility model gaseous molecular blower, its steam outlet pipe further connects an intake manifold, and connect an engine by this intake manifold, and this gaseous molecular blower reaches the purpose of the too high aqueous vapor of filtering separation water content with filter material by this gas-liquid separation, when gaseous molecular by this steam outlet pipe is burnt with fuel oil mixed explosion in entering engine, the hydrogen that this gaseous molecular decomposes and oxygen, can reach combustion-supporting effect, and don't cause the aqueous vapor in the engine too much, and then make engine combustion more complete, it is more smooth and easy to turn round, and further reduces the temperature of whole engine.

Description of drawings

Fig. 1 is the schematic representation of known water burner;

Fig. 2 is the schematic representation of another known water burner;

Fig. 3 is the utility model first embodiment's stereogram;

Fig. 4 is the utility model first embodiment's sectional view;

Fig. 5 is the utility model first embodiment's cross-sectional schematic;

Fig. 6 is the utility model second embodiment's cross-sectional schematic;

Fig. 7 is the utility model the 3rd embodiment's cross-sectional schematic.

[symbol description]:

1 bottle

2 suction tude

3 steam outlet pipes

4 bottles

5 atomizers

6 connecting tubes

7 atomized water collection bottles

8 steam outlet pipes

200 engines

300 intake manifold

100 gaseous molecular blowers

10 first bottles

11 suction tude

111 inlet ends

112 outlet sides

12 first filter materials

13 first Bubbled stones

14 liquid

20 connecting tubes

201 inlet ends

202 outlet sides

21 second Bubbled stones

30 second bottles

31 steam outlet pipes

311 inlet ends

312 outlet sides

32 second filter materials

33 gas-liquid separation filter materials

331 projections

332 perforation

333 location pieces

334 open-works

335 grooves

40 bottles

41 suction tude

411 inlet ends

412 outlet sides

42 steam outlet pipes

421 inlet ends

422 outlet sides

46 liquid

47 gas-liquid separation filter materials.

Embodiment

See also Fig. 3 and shown in Figure 4, be the utility model first embodiment's stereogram and sectional view, its exposure has a kind of gaseous molecular blower 100, and gaseous molecular blower 100 includes:

One first bottle 10, it is for ccontaining liquid 14, in the utility model first embodiment, liquid 14 is water, but this is an embodiment only, but not limits to enforcement aspect of the present utility model, and liquid 14 also may be selected to be the mixed solution of ethanol or ethanol and water, it equally also can be effective, and burning-point is low and ethanol that volatility is high equally also has combustion-supporting effect.And first bottle 10 has a suction tude 11, and suction tude 11 is arranged on first bottle 10, the two ends of suction tude 11 are defined as an inlet end 111 and an outlet side 112 respectively, wherein, the inlet end 111 of suction tude 11 is positioned at outside first bottle 10, and communicate with the external world of first bottle 10, and the inlet end 111 of suction tude 11 is provided with one first filter material 12, in the utility model first embodiment, first filter material 12 is an air filter, for the usefulness of filtered air, but the particulate in the filtered air, and the outlet side 112 of suction tude 11 is provided with one first Bubbled stone 13, and the outlet side 112 of suction tude 11 is in first bottle 10 and extend downward the lower end of first bottle 10, and be arranged in liquid 14, because first Bubbled stone 13 has the characteristic of porous, can produce careful bubble in the ccontaining liquid of first bottle 10, giving vent to anger.

The inlet end 201 that one connecting tube 20, its two ends are defined as an inlet end 201 and an outlet side 202 connecting tubes 20 respectively is located at the upper end of first bottle 10, and its outlet side 202 is provided with one second Bubbled stone 21.

One second bottle 30, it is for ccontaining plural gas-liquid separation filter material 33, in first embodiment of the present utility model, this gas-liquid separation is plural foam piece with filter material 33, and forms the gap at this foam interblock, but this only is an embodiment, but not limit to enforcement aspect of the present utility model, gas-liquid separation also may be selected to be proportion less than the liquid of water and ethanol or the identical effect of other tools with filter material 33, and weight overweights the material of air, for example: plural EPS block, plural PU piece etc.And the outlet side 202 of connecting tube 20 is arranged in second bottle 30, and the outlet side 202 of connecting tube 20 extends downward the lower end of second bottle 30 in second bottle 30, in addition, the upper end of second bottle 30 further is provided with a steam outlet pipe 31, the two ends of steam outlet pipe 31 are defined as an inlet end 311 and an outlet side 312 respectively, wherein, the inlet end 311 of steam outlet pipe 31 is positioned at the top that filter material 33 is used in gas-liquid separation, and the inlet end 311 of steam outlet pipe 31 is provided with one second filter material 32, in the utility model first embodiment, second filter material 32 is an air filter, and the outlet side 312 of steam outlet pipe 31 is positioned at outside second bottle 30.

Gaseous molecular blower 100 connects an intake manifold by steam outlet pipe 31, and is connected to an engine by this intake manifold, so that gaseous molecular blower 100 communicates with this engine.

Please continue to consult shown in Figure 5, when this engine running action, the negative pressure that this intake manifold produces, to cause and also produce negative pressure in second bottle 30 thereupon, and and then make and also form negative pressure in first bottle 10 thereupon, thereby make suction tude 11 suck air, and when giving vent to anger, produce bubble by first Bubbled stone 13, improve this air each other area of contact in the process of passing liquid 14, strengthen its effect, increasing the dissolved oxygen amount in the liquid 14, and this bubble and cracked and form oxygen containing aqueous vapor in its liquid level, and this aqueous vapor is inhaled in second bottle 30 via connecting tube 20.

In second bottle 30, use filter material 33 gap therebetween by the 30 ccontaining gas-liquid separations of second bottle, the too high aqueous vapor of absorption water content, make it condense in gas-liquid separation with on the filter material 33, only pass through oxygen containing gaseous molecular betwixt between the crack, and reach the purpose of the too high aqueous vapor of filtering separation water content, and then to make the water molecule of the steam outlet pipe 31 by second bottle 30 be oxygen containing gaseous molecular, when entering in this engine, with fuel oil mixed explosion burning, this oxygen containing gaseous molecular oxygen that is rich in itself, and under hot environment, can further generate hydrogen, the hydrogen that it decomposes and oxygen reach combustion-supporting effect, make engine combustion more complete, not only reduce toxic emission, more can reduce carbon distribution, and do not cause the aqueous vapor in this engine too much again, make engine running more smooth and easy.

What deserves to be mentioned is that the hot environment of this gaseous molecular in engine can absorb latent heat before resolving into hydrogen and oxygen, therefore can effectively reduce the temperature of whole engine.

See also shown in Figure 6, cross-sectional schematic for second embodiment of the present utility model, this gaseous molecular blower 100 is with aforementioned first embodiment's difference, its second bottle, 30 ccontaining gas-liquid separations are plural plate body with filter material 33, and the heart is downward-sloping outwardly therein with filter material 33 in gas-liquid separation, and make gas-liquid separation form a convex globoidal with filter material 33, gas-liquid separation with filter material 33 and therein the heart be convexly equipped with a projection 331 up, and projection 331 is provided with a perforation 332, perforation 332 axially runs through projection 331, and the periphery wall of projection 331 radially convexes with a location piece 333, and be provided with a groove 335 in gas-liquid separation with the corresponding section, bottom surface of filter material 33, for gas-liquid separation filter material 33 mutual storehouse blockings, and make gas-liquid separation form multi-layer structure with filter material 33, and gas-liquid separation is with having plural open-work 334 on the filter material 33, but this only is an embodiment, but not limit to enforcement aspect of the present utility model, gas-liquid separation also may be selected to be the plural foamed cotton plate with plural open-work with filter material 33, plural number Poly Foam plate or have the plural PU plate etc. of plural open-work.In addition, the outlet side 202 of its connecting tube 20 communicates with the perforation 332 of projection 331, and extends downward the lower end of second bottle 30 with this.

What deserves to be mentioned is that adjacent gas-liquid separation layer by layer is with filter material 33, its open-work 334 each other is crisscross arranged, to reach the enhancement of gas-liquid separation benefit.In addition, gas-liquid separation is up successively successively decreased by its lower floor with the open-work 334 that filter material 33 installs, further to promote the effect of its gas-liquid separation.

In the time of in the aqueous vapor in first bottle 10 is inhaled into second bottle 30, the ccontaining gas-liquid separation of second bottle 30 is with filter material 33, the too high aqueous vapor of absorption water content, make this aqueous vapor in the process of open-work 334 that weaves throngh, condense in gas-liquid separation with on the filter material 33, and reach the purpose of the too high aqueous vapor of filtering separation water content, and then to make the water molecule of the steam outlet pipe 31 by second bottle 30 be oxygen containing gaseous molecular, and can reach combustion-supporting effect, make engine combustion more complete, and then reduce carbon distribution, even decarbonizing, and don't cause the aqueous vapor in this engine too much, so that engine running is more smooth and easy.

See also shown in Figure 7, cross-sectional schematic for the utility model the 3rd embodiment, when insufficient space during with ccontaining two bottles, the utility model provides the 3rd embodiment, its exposure has a kind of gaseous molecular blower 100, gaseous molecular blower 100 is that with the previous embodiment difference it includes:

One bottle 40, it is equipped with liquid 46, and in the utility model the 3rd embodiment, liquid 46 is water, but this is an embodiment only, but not limit to enforcement aspect of the present utility model.And bottle 40 has a suction tude 41, and suction tude 41 is arranged on the bottle 40, and the two ends of suction tude 41 are defined as an inlet end 411 and an outlet side 412 respectively, wherein, inlet end 411 is positioned at outside the bottle 40, and communicates with the external world of bottle 40, and outlet side 412 can be communicated in this liquid 46.In addition, bottle 40 more is equipped with plural gas-liquid separation filter material 47, and gas-liquid separation is arranged on the liquid 46 with filter material 47, in the utility model the 3rd embodiment, gas-liquid separation is plural plate body with filter material 47, its structure characteristic is identical with filter material with aforementioned second embodiment's gas-liquid separation, so do not repeat them here, but this only is an embodiment, but not limit to enforcement aspect of the present utility model, gas-liquid separation also may be selected to be proportion less than the liquid of water or the identical effect of other tools with filter material 47, and weight overweights the material of air.And the upper end of bottle 40 further is provided with a steam outlet pipe 42, and the two ends of steam outlet pipe 42 are defined as an inlet end 421 and an outlet side 422 respectively.

Gaseous molecular blower 100 connects an intake manifold by steam outlet pipe 42, and is connected to an engine by intake manifold, so that this gaseous molecular blower 100 communicates with this engine.

Please continue to consult shown in Figure 7, float over the gas-liquid separation too high aqueous vapor of filter material 47 adsorbable water content on the liquid 46, make it be condensed in gas-liquid separation with on the filter material 47, only in its open-work, pass through oxygen containing gaseous molecular, and reach the purpose of the too high aqueous vapor of filtering separation water content, and then to make the water molecule of the steam outlet pipe 42 by bottle 40 be oxygen containing gaseous molecular.Therefore, can not only possess effect and the advantage of previous embodiment, and can further dwindle the volume of gaseous molecular blower 100, the utility model gaseous molecular blower 100 can be used in little space.

The above is preferred embodiment of the present utility model only, is not for limiting protection domain of the present utility model.

Claims (10)

1. gaseous molecular blower is characterized in that it includes:

One bottle, it is equipped with liquid, and this bottle has a suction tude, this suction tude is arranged on this bottle, and the two ends of this suction tude are defined as an inlet end and an outlet side respectively, wherein, this inlet end is positioned at outside this bottle, and communicate with the external world of this bottle, and this outlet side is arranged in this liquid, and this bottle more is equipped with plural gas-liquid separation filter material, and this gas-liquid separation is arranged on this liquid with filter material, and the upper end of this bottle is provided with a steam outlet pipe, the two ends of this steam outlet pipe are defined as an inlet end and an outlet side respectively, and wherein, the inlet end of this steam outlet pipe is positioned at the top that filter material is used in this gas-liquid separation, and the outlet side of this steam outlet pipe is positioned at outside this bottle, and it is connected to the intake manifold of an engine.

2. gaseous molecular blower according to claim 1 is characterized in that, the inlet end of this suction tude is provided with one first filter material, and the inlet end of this steam outlet pipe is provided with one second filter material.

3. gaseous molecular blower according to claim 1 is characterized in that, the outlet side of this suction tude is provided with a Bubbled stone.

4. gaseous molecular blower according to claim 1 is characterized in that, this liquid is water.

5. gaseous molecular blower according to claim 1 is characterized in that, this gas-liquid separation filter material is plural foam piece, and is formed with the gap between this foam piece.

6. gaseous molecular blower according to claim 1, it is characterized in that, this gas-liquid separation filter material is plural plate body, and the heart is downward-sloping outwardly therein with filter material in this gas-liquid separation, and make this gas-liquid separation form a convex globoidal with filter material, and be convexly equipped with a projection in this gas-liquid separation up with the center of filter material, and this projection is provided with a perforation, this perforation axially runs through this projection, and the periphery wall of this projection radially convexes with a location piece, and be provided with a groove in this gas-liquid separation with the corresponding section, bottom surface of filter material, this gas-liquid separation is with the mutual storehouse blocking of filter material, and make this gas-liquid separation form a multi-layer structure with filter material, and this gas-liquid separation is with having plural open-work on the filter material, and this adjacent gas-liquid separation is crisscross arranged with this open-work of filter material, and this gas-liquid separation up successively successively decreased by its lower floor with this set open-work of filter material, and the outlet side of this suction tude communicates with this perforation of this projection.

7. gaseous molecular blower is characterized in that it includes:

One first bottle, its ccontaining liquid, and this first bottle has a suction tude, and this suction tude is arranged on this first bottle, the two ends of this suction tude are defined as an inlet end and an outlet side respectively, and wherein, the inlet end of this suction tude is positioned at outside this first bottle, and communicate with the external world of this first bottle, and the outlet side of this suction tude is arranged in this liquid;

One connecting tube, its two ends are defined as an inlet end and an outlet side respectively, and the inlet end of this connecting tube is located at the upper end of this first bottle, and above this liquid;

One second bottle, its ccontaining plural gas-liquid separation filter material, and the outlet side of this connecting tube is arranged on this second bottle, and the upper end of this second bottle is provided with a steam outlet pipe, the two ends of this steam outlet pipe are defined as an inlet end and an outlet side respectively, and wherein, the inlet end of this steam outlet pipe is positioned at the top that filter material is used in this gas-liquid separation, and the outlet side of this steam outlet pipe is positioned at outside this second bottle, and it is connected to the intake manifold of an engine.

8. gaseous molecular blower according to claim 7 is characterized in that, this liquid is water.

9. gaseous molecular blower according to claim 7 is characterized in that, this gas-liquid separation filter material is plural foam piece, and is formed with the gap between this foam piece.

10. gaseous molecular blower according to claim 7, it is characterized in that, this gas-liquid separation filter material is plural plate body, and the heart is downward-sloping outwardly therein with filter material in this gas-liquid separation, and make this gas-liquid separation form a convex globoidal with filter material, and be convexly equipped with a projection in this gas-liquid separation up with the center of filter material, and this projection is provided with a perforation, this perforation axially runs through this projection, and the periphery wall of this projection radially convexes with a location piece, and be provided with a groove in this gas-liquid separation with the corresponding section, bottom surface of filter material, this gas-liquid separation is with the mutual storehouse blocking of filter material, and make this gas-liquid separation form a multi-layer structure with filter material, and this gas-liquid separation is with having plural open-work on the filter material, and this adjacent gas-liquid separation is crisscross arranged with this open-work of filter material, and this gas-liquid separation up successively successively decreased by its lower floor with this open-work that filter material installs, and the outlet side of this connecting tube communicates with this perforation of this projection.

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