WO2017092646A1

WO2017092646A1 - Gas-liquid mixer

Info

Publication number: WO2017092646A1
Application number: PCT/CN2016/107666
Authority: WO
Inventors: 林高山
Original assignee: 林高山
Priority date: 2015-12-03
Filing date: 2016-11-29
Publication date: 2017-06-08
Also published as: CN205297773U

Abstract

A gas-liquid mixer (100) comprising a housing (10) capable of containing a liquid, wherein the housing is provided with a gas inlet nozzle (14) and a gas exhaust nozzle (15), a regulating plate (20) is further provided inside the housing, a gas inlet pipe (21) and a gas exhaust pipe (23) misaligned with the gas exhaust nozzle are provided through the regulating plate, a pipe body (30) is provided below the regulating plate, the pipe body is in communication with the gas inlet nozzle, the pipe body is at least provided with one pierced portion (33) in the longitudinal direction thereof, the pierced portion is enlarged gradually from top to bottom, and thus, when the gas exhaust nozzle is connected to an engine, a negative pressure of the engine guides extraneous air to enter the gas-liquid mixer to produce air containing an appropriate amount of gaseous water molecules and convey same to the engine so as to achieve a combustion-supporting effect.

Description

Gas-liquid mixer

Technical field

The utility model relates to a combustion aid, in particular to a gas-liquid mixer.

Background technique

Regarding the engine operation of the vehicle, the fuel is burned in the engine for the engine to operate. However, the explosion combustion of air and fuel is often incomplete, thus generating a lot of exhaust gas and engine carbon deposits, when a proper amount of gaseous water molecules are at a high temperature. Under the environment, hydrogen and oxygen can be decomposed, thereby achieving the effect of combustion-supporting, making combustion more complete, reducing exhaust emissions, and removing engine carbon deposits.

There is a fuel-assisted burner, which comprises a bottle body for accommodating water or a mixed solution of water and ethanol. The bottle body is provided with an air inlet tube, and an air outlet end of the air inlet tube is disposed on the liquid contained in the bottle body. Under the liquid surface. The upper end of the bottle body is further provided with an air outlet pipe, and the air inlet end of the air outlet pipe is disposed above the liquid surface of the liquid contained in the bottle body, and the air outlet end of the air outlet pipe is connected to an engine intake manifold. And connecting the engine intake manifold to the return port of an engine, and the negative pressure generated when the engine is operated, so that the intake pipe directs air from the outside of the bottle into the bottle body to generate bubbles in the solution. By contacting the surface of the bubble with the solution, generating air containing gaseous water molecules, and directing air containing gaseous water molecules into the engine to mix and burn with the fuel, and decompose hydrogen and oxygen at a high temperature, thereby achieving combustion-supporting The effect, however, is that the gas-liquid mixing effect is not good, and the air with too high water content cannot be filtered, resulting in too much moisture entering the engine. After a long time of work, the engine performance is lowered or even the fault is destroyed. In view of the above, the inventors of the present invention have observed that the above-mentioned shortcomings are considered to be necessary for further improvement of the existing combustion-supporting device, and the present invention is produced.

Utility model content

The main object of the present invention is to provide a gas-liquid mixer for accommodating liquid, and the gas-liquid mixer can be connected to an engine, and can guide external air into the gas-liquid mixture through the negative pressure of the engine. The device generates air containing preferred gaseous water molecules, further filters excess water in the air, and transports the engine and the fuel mixture to explode and burn, and decomposes hydrogen and oxygen through a proper amount of gaseous water molecules in a high temperature environment. In order to achieve the effect of combustion, the combustion is more complete, and the exhaust gas is reduced, and the engine carbon is removed.

In order to achieve the above object, the present invention provides a gas-liquid mixer comprising: a housing having an accommodating space therein, and the housing is provided with an air inlet nozzle and an exhaust gas nozzle; And an adjusting plate disposed transversely in the housing in the accommodating space, the adjusting plate is provided with an air inlet pipe, and the air inlet pipe is connected to the air inlet nozzle, and the periphery of the air inlet pipe is arranged outwardly and downwardly a guiding slanting surface is disposed, and the guiding slanting surface is provided with a venting opening, and the venting opening is disposed in a staggered manner with the venting nozzle, and the outer peripheral edge of the guiding slanting surface is provided with a convex ring toward the lower ring, wherein The adjusting plate separates the accommodating space from an upper upper accommodating space and a lower lower accommodating space; and a pipe body communicating with the air inlet pipe, the pipe body wall has at least one penetration in the longitudinal direction The portion is gradually enlarged from top to bottom.

Preferably, the housing has a top cover and a bottle body, and the bottle body is provided with a joint end, the joint end ring is provided with an upper flange and a lower flange, the upper flange and the lower flange An airtight strip is disposed therebetween, and the joint end is recessed with at least one sliding slot above the upper flange, and the inner wall of the top cover is provided with a positioning block corresponding to the sliding slot.

Preferably, the air inlet nozzle and the air outlet nozzle are disposed on the top cover.

Preferably, the tube body has an upper end and a lower end, the upper end of the tube body is sleeved on the air inlet nozzle, and the upper end of the tube body and the air inlet tube are mutually engaged.

Preferably, a lower base is further disposed on the bottom of the tubular body, and an air inlet is disposed above the base, and the air inlet is further connected to the lower end of the tubular body, and a gas is enclosed between the base and the inner wall of the casing. a chamber, and the base is provided with a plurality of air outlets.

Preferably, the penetrating portion is a plurality of air outlet holes, and the apertures of the air outlet holes are arranged from small to large from top to bottom.

Preferably, the penetrating portion is a trough, and the width of the trough is set from small to large from top to bottom.

The gas-liquid mixer provided by the utility model is connected to an engine intake manifold through the exhaust gas nozzle, and is connected to a return port of an engine through the engine intake manifold, when the engine is actuated A negative pressure is generated in the accommodating space, and the external air is guided to flow through the air inlet pipe and the pipe body, and the penetrating portion of the pipe body is discharged from the liquid in the accommodating space. At the bottom, the bubble is gradually enlarged, and the liquid is subjected to different degrees of collision with the liquid in the lower accommodating space to form an evaporation phenomenon, and air containing a preferred gaseous water molecule is generated, and air containing gaseous water molecules is transmitted through the negative pressure. The venting port of the adjusting plate is guided to the upper accommodating space, and is further transported by the exhaust gas nozzle and the engine intake manifold to the return port of the engine, and the appropriate amount of gaseous water molecules are used in a high temperature environment. The hydrogen and oxygen can be decomposed to achieve the combustion-supporting effect, the combustion is more complete, the exhaust gas is reduced, and the engine carbon is removed, wherein the exhaust port on the adjusting plate and the exhaust nozzle on the top cover are Interlaced to make excess moisture in the air The upper portion of the accommodating space condense into droplets, and flows into the lower portion of the accommodating space via the exhaust port, to the effect that the filter accommodating space excess water vapor in the air.

DRAWINGS

Figure 1 is a perspective view of a preferred embodiment of the present invention.

Figure 2 is an exploded view of a preferred embodiment of the present invention.

Figure 3 is a schematic cross-sectional view showing the use of a preferred embodiment of the present invention.

Figure 4 is an exploded view of another preferred embodiment of the present invention.

detailed description

Please refer to FIG. 1 and FIG. 2 , which are perspective views and exploded views of a preferred embodiment of the present invention. The present invention discloses a gas-liquid mixer 100, which includes:

A housing 10 is provided with an accommodating space 13 , and the housing 10 is provided with an air inlet nozzle 14 and an exhaust gas nozzle 15 , and the housing 10 has a top cover 11 and a bottle body 12 . The air inlet nozzle 14 and the air outlet nozzle 15 are disposed on the top cover 11, and the bottle body 12 is provided with a joint end 16, and the joint end 16 is provided with an upper flange 161 and a lower convex portion. A rib 163 is disposed between the upper flange 161 and the lower flange 162, and the joint end 16 is recessed with at least one sliding groove 164 above the upper flange 161, and the inner wall of the top cover 11 is opposite. The chute 164 should be provided with a positioning block 17.

An adjusting plate 20 is disposed laterally in the housing 10 in the accommodating space 13. The adjusting plate 20 is provided with an air inlet pipe 21, and the air inlet pipe 21 communicates with the air inlet nozzle 14 while the air inlet pipe A guiding inclined surface 22 is disposed on the outer circumference of the outer circumference of the 21st, and the guiding inclined surface 22 is provided with an exhausting opening 23, and the exhausting opening 23 is disposed in a staggered manner with the exhausting air nozzle 15, and the guiding inclined surface 22 is further disposed. The outer peripheral edge of the ring is provided with a convex ring 24, wherein the adjusting plate 20 separates the accommodating space 13 with an upper upper accommodating space 25 and a lower lower accommodating space 26, and the lower accommodating space 26 for containing liquid.

a tube body 30 having an upper end 31 and a lower end 32. The upper end 31 of the tube body 30 is sleeved on the air inlet nozzle 14 , and the upper end 31 of the tube body 30 and the air inlet tube 21 are mutually engaged. The pipe body 30 is connected to the air inlet pipe 21, and the pipe body 30 has at least a penetrating portion 33 extending in the longitudinal direction of the pipe wall. The penetrating portion 33 is gradually enlarged from top to bottom. In this embodiment, the penetrating portion is formed. 33 is a plurality of air outlets 331, the apertures of the air outlets 331 are arranged from top to bottom, and a base 34 is disposed under the tube body 30. An air inlet 341 is disposed above the base 34. The air inlet 341 is further connected to the lower end 32 of the tube 30, and the base 34 and the inner wall of the housing 10 enclose an air chamber 343. The base 34 is provided with a plurality of air outlets 342.

Please refer to FIG. 3 at the same time, which is a schematic cross-sectional view of the preferred embodiment of the present invention. The gas-liquid mixer 100 is connected to an engine intake manifold 200 through the exhaust nozzle 15 and through the engine. The intake manifold 200 is connected to a return port of an engine, and when the engine is actuated, the accommodating space 13 generates a negative pressure, and the external air is guided to flow through the intake pipe 21 and the pipe. The body 30 discharges the lateral air bubbles from the top to the bottom in the liquid in the lower accommodation space 26 through the air outlets 331 while the air discharged from the lower end 32 of the tube body 30 flows through the air inlet 341. Entering the air chamber 343, and discharging the longitudinal air bubbles in the liquid of the lower accommodating space 26 by the air outlets 342, wherein the longitudinal air bubbles and the lateral air bubbles are in the lower accommodating space 26, and the air bubbles and the liquid are generated. Different degrees of collisions form an evaporation phenomenon, so that the air in the lower accommodating space 26 contains better gaseous water molecules, and then the air containing the gaseous water molecules passes through the exhaust port 23 on the regulating plate 20 through the negative pressure. Guided to the upper accommodating space 25, and then The exhaust gas nozzle 15 on the cover 11 and the engine intake manifold 200 are sent to the return port of the engine, and a proper amount of gaseous water molecules can decompose hydrogen and oxygen in a high temperature environment to achieve a combustion-supporting effect and cause combustion. More complete, and reducing exhaust emissions, removing engine carbon deposits, wherein the exhaust port 23 on the adjusting plate 20 and the exhaust nozzle 15 on the top cover 11 are staggered to make excess moisture in the air The upper accommodating space 25 is condensed into droplets, and flows into the lower accommodating space 26 through the exhaust port 23 to achieve an effect of filtering excess air in the air in the accommodating space 13.

Please refer to FIG. 4 again, which is an exploded view of another preferred embodiment of the present invention. In this embodiment, the difference from the foregoing preferred embodiment is that in the embodiment, the penetration is The portion 33 is a dividing groove 332. The width of the dividing groove 332 is gradually increased from top to bottom. The discharge width of the dividing groove 332 in the liquid of the lower receiving space 26 is gradually increased from top to bottom. The horizontal air bubbles are discharged from the liquid in the lower accommodating space 26, and the horizontal air bubbles and the vertical air bubbles collide with the liquid in the lower accommodating space 26 to have different degrees of lateral air bubbles. The surface area is used to complete the evaporation phenomenon, so that the air in the lower accommodation space 26 contains better gaseous water molecules.

Claims

A gas-liquid mixer, characterized by comprising:

a housing having an accommodating space therein, and the housing is provided with an air inlet nozzle and an exhaust gas nozzle;

An adjusting plate is disposed laterally in the housing in the accommodating space, the adjusting plate is provided with an air inlet pipe, and the air inlet pipe is connected to the air inlet nozzle, and a periphery of the air inlet pipe is arranged outwardly and downwardly. Leading the inclined surface, the guiding inclined surface is provided with an exhaust port, and the exhausting opening is staggered with the exhausting air nozzle, and the outer peripheral edge of the guiding inclined surface is provided with a convex ring facing the lower ring, wherein The adjusting plate separates the accommodating space from an upper accommodating space above and a lower accommodating space below;

a tube body communicating with the air inlet tube, the tube body wall having at least one penetration portion extending in a longitudinal direction, the penetration portion being gradually enlarged from top to bottom.
The gas-liquid mixer according to claim 1, wherein the housing has a top cover and a bottle body, and the bottle body is provided with a joint end, the joint end ring is provided with an upper flange and a lower flange An airtight strip is disposed between the upper flange and the lower flange, and the joint end is recessed with at least one sliding slot above the upper flange, and the inner wall of the top cover is provided with a positioning block corresponding to the sliding slot.
The gas-liquid mixer according to claim 2, wherein the intake air nozzle and the exhaust air nozzle are disposed on the top cover.
The gas-liquid mixer according to claim 1, wherein the tube body has an upper end and a lower end, the upper end of the tube body is sleeved on the air inlet nozzle, and the upper end of the tube body and the inlet end The trachea is stuck to each other.
The gas-liquid mixer according to claim 4, wherein a base is further disposed under the tubular body, and an inlet port is disposed above the base, and the air inlet is further connected to the lower end of the tubular body, and the inlet An air chamber is enclosed between the base and the inner wall of the housing, and the base is provided with a plurality of air outlets.
The gas-liquid mixer according to claim 1, wherein the penetration portion is a plurality of air outlet holes, and the apertures of the air outlet holes are arranged from small to large from top to bottom.
The gas-liquid mixer according to claim 1, wherein the penetrating portion is a groove, and the width of the groove is set to be gradually enlarged from top to bottom.