KR101175114B1 - Mixer for automobile muffler - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mixer for automobile muffler, wherein two mixer sections comprising first, second, third, and fourth plate members are disposed at 90 ° back and forth, and the inclined plate portion of the first plate member and the inclined plate of the fourth plate member. Since the inclined in the discharge direction of the additional exhaust gas, the back pressure may be attenuated during the passage of the exhaust gas through the two mixer parts sequentially, and the mixing efficiency of the exhaust gas and the reducing agent may be significantly improved.

Description

Mixer for car muffler {MIXER FOR AUTOMOBILE MUFFLER}

According to the present invention, two mixer sections comprising the first, second, third and fourth plate members are arranged back and forth at 90 °, and the inclined plate portion of the first plate member and the inclined plate portion of the fourth plate member are inclined in the discharge direction of the exhaust gas. Therefore, the back pressure may be attenuated in the course of sequentially passing the two mixers, and the present invention relates to an automobile muffler mixer in which the mixing efficiency of the exhaust gas and the reducing agent can be significantly improved.

Nitrogen oxides (NOx) are usually reduced by catalysis because the release of nitric oxide (NOx) present in the exhaust gas of the engine should be avoided as being very undesirable.

However, this requires the presence of a reducing agent in the exhaust of the energy converter, for example in a diesel engine.

In particular, it has proven to be desirable for the aggregates which liberate the reducing agent with such a reducing agent or reducing agent carrier, such as ammonia (NH ₃ ) or urea (dissolved in water), to be mixed in the exhaust gas immediately after exiting the energy converter.

In the operation of this type of device or flue gas purification device it is often a problem to allow the exhaust gas or gas flow to be sufficiently mixed with the reducing agent.

On the other hand, the exhaust system of the engine is provided with an exhaust gas aftertreatment device such as SCR, DOC, CPE, etc. to reduce nitrogen oxide (NOx) contained in the exhaust gas.

Among these, the SCR-applied exhaust gas aftertreatment apparatus (hereinafter referred to as an 'SCR apparatus') is provided with an SCR catalyst connected to the exhaust pipe, and spraying a reducing agent such as an aqueous urea solution into the exhaust pipe. An injector is configured to be mounted to the exhaust pipe.

When the reducing agent is injected into the exhaust pipe through the injector, the reducing agent is converted into ammonia (NH ₃ ) by the heat of the exhaust gas, and nitrogen oxide (NOx) in the exhaust gas by the SCR catalyst and the By catalytic reaction of ammonia (NH ₃ ), nitrogen oxides (NOx) are reduced to nitrogen gas (N ₂ ) and water (H ₂ O).

Such a conventional SCR apparatus has a reducing agent by heat of exhaust gas when the length L of the exhaust pipe corresponding to the distance between the injector and the SCR catalyst and the L / D of the diameter D satisfy a condition of 3 to 5 Evaporation, pyrolysis and hydrolysis proceed smoothly.

Recently, a static mixer in which a plurality of fins is arranged for mixing exhaust gas and a reducing agent has been proposed in EP 1712751 A2.

However, the static mixer has a problem in that a plurality of fins for mixing the exhaust gas and the reducing agent are arranged in one plane state so that the mixing of the exhaust gas and the reducing agent is uniform, while causing an increase in the back pressure.

The present invention was created in order to solve the above-mentioned problems, and the two mixer parts made of the first, second, third and fourth plate members are arranged back and forth at 90 degrees, and the inclined plate portion and the fourth plate of the first plate member are disposed. Since the inclined plate portion of the member is inclined in the discharge direction of the exhaust gas, the back pressure may be attenuated during the course of passing the two mixer portions through the exhaust gas sequentially, and the automobile muffler may further improve the mixing efficiency of the exhaust gas and the reducing agent. It is an object of the present invention to provide a mixer.

The present invention for achieving the above object is provided in an automobile muffler is provided in the automobile muffler mixer for uniformly mixing the reducing agent supplied separately from the exhaust gas, the first plate member is provided with the inclined plate portion on each side, A second plate member extending in a vertical direction to one end of the first plate member, a third plate member having an intermediate portion orthogonally coupled to an intermediate portion of the first plate member, and perpendicular to one end of the third plate member. Two mixer sections each having a fourth plate member extending in the direction and having an intermediate portion orthogonally coupled to an intermediate portion of the second plate member, and having an inclined plate portion respectively inclined to face the first plate member on both sides at 90 °. And the inclined plate portion of the first plate member and the inclined plate portion of the fourth plate member are inclined in the discharge direction of the exhaust gas. It provides reoyong mixer.

Here, it is preferable that the two mixer parts are arranged back and forth in a state spaced apart at regular intervals by 90 °.

In addition, the inclined plate portion of the first plate member and the inclined plate portion of the fourth plate member is preferably formed to be inclined at an angle of 20 ° to 45 °.

Further, the size of the inclined plate portion respectively positioned on the outside of the first plate member and the fourth plate member is formed to be relatively larger than the size of the inclined plate portion respectively located inside the first plate member and the fourth plate member. desirable.

In addition, the length of the inclined plate portion respectively located outside the first plate member and the fourth plate member is preferably formed larger than the length of the inclined plate portion respectively located inside the first plate member and the fourth plate member. .

According to the present invention, two mixer sections comprising the first, second, third and fourth plate members are arranged back and forth at 90 °, and the inclined plate portion of the first plate member and the inclined plate portion of the fourth plate member are inclined in the discharge direction of the exhaust gas. Therefore, the back pressure may be attenuated in the course of sequentially passing the two mixer parts of the exhaust gas, and the mixing efficiency of the exhaust gas and the reducing agent may be significantly improved.

In addition, since the two mixer parts, that is, the front mixer part and the rear mixer part are arranged back and forth in a state spaced apart at regular intervals by 90 °, some exhaust gas and a reducing agent which are not mixed during the process of passing through the front mixer part have the rear mixer part. There is an effect that can be more easily mixed through.

In addition, since the inclined plate portion of the first plate member and the inclined plate portion of the second plate member are formed to be inclined at an angle of 20 ° to 45 °, the exhaust gas and the reducing agent passing through the two mixer parts sequentially may be more easily mixed. It can be effective.

Furthermore, since the size of the inclined plate portion respectively positioned outside the first plate member and the fourth plate member is formed to be relatively larger than the size of the inclined plate portion respectively positioned inside the first plate member and the fourth plate member. There is an effect that can further improve the mixing efficiency of the exhaust gas and the reducing agent to pass through the two mixer section more sequentially.

In addition, since the lengths of the inclined plate portions respectively positioned outside the first plate member and the fourth plate member are larger than the lengths of the inclined plate portions respectively positioned inside the first plate member and the fourth plate member. The mixing efficiency of the exhaust gas and the reducing agent which sequentially passes through the mixer section can be improved even more significantly.

1 is a perspective view schematically showing a mixer for an automobile muffler which is an embodiment of the present invention;
Figure 2 is an exploded perspective view of Figure 1,
3 is a side view of FIG. 2,
4 is a front view schematically showing the front mixer,
5 is a front view schematically showing a rear mixer,
6 is a cross-sectional view schematically showing a state in which two mixer units are provided in an automobile muffler,
7 is a state diagram schematically illustrating a state in which the back pressure is attenuated during the passage of the exhaust gas through the two mixer parts sequentially,
8 is a state diagram schematically illustrating a state in which the mixing efficiency of the exhaust gas and the reducing agent which sequentially passes two mixer sections is improved.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Of course, the scope of the present invention is not limited to the following examples, and various modifications can be made by those skilled in the art without departing from the technical gist of the present invention.

1 is a perspective view schematically showing a mixer for an automobile muffler according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of FIG. 1.

As shown in FIG. 1, an automobile muffler mixer according to an embodiment of the present invention includes a casing 10 having a front and rear side horizontally provided in a front and rear direction in an automobile muffler (5 in FIG. 6) in a front and rear side open state; And two mixer parts 30 disposed back and forth in a state of forming 90 ° inside the front side and the rear side of the casing 10.

The automobile muffler 5 and the casing 10 are well known technologies and those skilled in the art to which the present invention pertains will be clearly understood and practiced.

3 is a side view of FIG. 2, FIG. 4 is a front view schematically showing the front mixer 310, and FIG. 5 is a front view schematically showing the rear mixer 330.

As shown in FIGS. 2 to 5, the two mixers 30 include a front mixer 310 and a rear mixer 330.

As shown in FIGS. 4 and 5, the front mixer 310 and the rear mixer 330 are respectively the first plate member 311 and 331, the second plate member 313 and 333, and the third plate member ( 315, 335 and fourth plate members 317, 337.

Inclined plate portions 311a and 331a are provided at both side portions of the first plate members 311 and 331, respectively.

The second plate members 313 and 333 extend in a vertical direction to one ends of the first plate members 311 and 331.

The middle portion of the third plate member 315, 335 is orthogonally coupled to the middle portion of the first plate member 311, 331.

The fourth plate members 317 and 337 extend in a vertical direction to one ends of the third plate members 315 and 335.

Intermediate portions of the fourth plate members 317 and 337 are orthogonally coupled to intermediate portions of the second plate members 313 and 333.

Both side portions of the fourth plate members 317 and 337 are provided with inclined plate portions 317a and 337a inclined to face the first plate members 311 and 331 as shown in FIGS. 4 and 5, respectively.

The two mixer sections 30, that is, the front mixer section 310 and the rear mixer section 330, as shown in FIG. 2, form the casing in a 90 ° state (see dotted line in FIG. 2). (10) is placed inside and outside the front and rear.

6 is a sectional view schematically showing a state in which two mixer units 30 are provided in the automobile muffler 5.

As shown in FIG. 6, the inclined plate portions 311a and 331a of the first plate members 311 and 331 and the inclined plate portions 317a and 337a of the fourth plate members 317 and 337 are the first and fourth plates. Both sides of the members 311 and 331 are inclined in the discharge direction of the exhaust gas (see the solid arrow in Fig. 6).

Exhaust gas containing nitrogen oxide (NOx) generated in the engine flows into the front side of the automobile muffler 5 and then passes through the two mixer sections 30 to the outside of the rear side of the automobile muffler 5. May be discharged (see solid arrow in FIG. 6).

That is, the inclined plate portions 311a and 331a of the first plate members 311 and 331 and the inclined plate portions 317a and 337a of the fourth plate members 317 and 337 are formed of the first and fourth plate members 311 and 331a. 331, 317, and 337 are inclined in the rearward direction of the automobile muffler 5 at both sides.

As shown in FIG. 6, an inlet pipe 51 having an open upper side through which a reducing agent including an aqueous solution of urea is introduced may be formed in an upper portion of the front side of the automobile muffler 5.

The inlet pipe 51 may be connected to communicate with a known reducing agent supply device (not shown), the reducing agent including a urea aqueous solution and the like through the reducing agent supply device (not shown) and the inlet pipe 51 It may be introduced into the interior of the automobile muffler 5 (see dotted arrow in FIG. 6).

The reducing agent including the urea aqueous solution, etc. introduced into the automobile muffler 5 may pass through the two mixer parts 30 together with the exhaust gas, and then may be discharged to the outside of the rear side of the casing 10.

The reducing agent and the exhaust gas may be mixed by the vortex phenomenon generated when the reducing agent including the urea aqueous solution and the like passes through the two mixer units 30 together with the exhaust gas.

Next, the two mixers 30 may be arranged back and forth in a state spaced apart at regular intervals by 90 °.

The front mixer 310 may be vertically provided in a vertical direction inside the front side of the casing 10.

The rear mixer 330 may be horizontally provided in the left and right direction inside the rear side of the casing 10.

Since the two mixer sections 30, that is, the front mixer section 310 and the rear mixer section 330 are arranged back and forth inside the casing 10 in a state spaced at regular intervals by 90 °, the front mixer Some exhaust gas and the reducing agent that are not mixed during the process of passing through the unit 310 may be more easily mixed through the rear mixer 330.

Next, as shown in FIG. 6, the first plate members 311 and 331 which are inclined in the rearward direction of the automobile muffler 5 at both sides of the first and fourth plate members 311, 331, 317 and 337. Of the inclined plate portions 311a and 331a of the crank plate portion 317a and 337a of the fourth plate member 317 and 337 are angles of 20 ° to 45 ° in the rearward direction of the automobile muffler 5 (Fig. 6). α ₁ , α ₂ , α ₃ , α ₄ ).

Since the inclined plate portions 311a and 331a of the first plate members 311 and 331 and the inclined plate portions 317a and 337a of the fourth plate members 317 and 337 are formed to be inclined at an angle of 20 ° to 45 °. There is an advantage that the exhaust gas and the reducing agent passing through the two mixer unit 30 in sequence can be more easily mixed.

Next, as shown in FIGS. 4 and 5, the inclined plate portions 311a ₁ , 331a ₁ , and 317a ₁ positioned outside the first plate members 311 and 331 and the fourth plate members 317 and 337, respectively. , 337a ₁ ) inclined plate portions 311a ₂ , 331a ₂ , 317a ₂ , 337a ₂ ) respectively positioned inside the first plate members 311 and 331 and the fourth plate members 317 and 337. It can be formed relatively larger than the size of.

The overall size of the inclined plate portions 311a ₁ , 331a ₁ , 317a ₁ , 337a ₁ , which are positioned outside the first plate members 311 and 331 and the fourth plate members 317 and 337, respectively, is the first plate. Since the inclined plate portions 311a ₂ , 331a ₂ , 317a ₂ , 337a ₂ , which are positioned inside the members 311 and 331 and the fourth plate members 317 and 337, respectively, are formed relatively larger than the _two plates, There is an advantage that can further improve the mixing efficiency of the exhaust gas and the reducing agent that passes sequentially through the mixer unit 30.

Next, as shown in FIGS. 4 and 5, the inclined plate portions 311a ₁ , 331a ₁ , and 317a ₁ positioned outside the first plate members 311 and 331 and the fourth plate members 317 and 337, respectively. , 337a ₁ ) are inclined plate portions 311a ₂ , 331a ₂ , 317a ₂ , 337a ₂ , respectively, which are positioned inside the first plate members 311 and 331 and the fourth plate members 317 and 337, respectively. It can be formed larger than the vertical length of.

The vertical lengths of the inclined plate portions 311a ₁ , 331a ₁ , 317a ₁ , 337a ₁ located on the outer sides of the first plate members 311 and 331 and the fourth plate members 317 and 337 are the first plates. Since the upper and lower lengths of the inclined plate portions 311a ₂ , 331a ₂ , 317a ₂ , 337a ₂ respectively positioned inside the members 311 and 331 and the fourth plate members 317 and 337, the two mixers There is an advantage that can further improve the mixing efficiency of the exhaust gas and the reducing agent passing through the part 30 even more significantly.

7 is a state diagram schematically illustrating a state in which the back pressure is attenuated during the passage of the exhaust gas through the two mixer units 30 sequentially, and FIG. 8 illustrates an exhaust gas sequentially passing through the two mixer units 30. It is a state diagram which shows schematically the state in which the mixing efficiency of a reducing agent improved.

According to the present invention configured as described above, the two mixer parts 30 including the first, second, third, and fourth plate members 311, 331, 313, 333, 315, 335, 317, and 337 are formed at 90 °. Arranged back and forth, the inclined plate portions 311a and 331a of the first plate members 311 and 331 and the inclined plate portions 317a and 337a of the fourth plate members 317 and 337 are inclined in the discharge direction of the exhaust gas. Therefore, as shown in FIG. 7, the back pressure may be attenuated during the passage of the exhaust gas through the two mixer units 30 sequentially, and as shown in FIG. 8, the mixing efficiency of the exhaust gas and the reducing agent is greatly improved. There is an advantage that can be.

3; Casing, 5; Car muffler,
51; Inlet tube, 10; Casing,
30; A mixer section 310; Front side mixer section,
311; First plate member 311a, 311a ₁ , 311a ₂ ; Slope Plate,
313; Second plate member, 315; Third plate member,
317; Fourth plate member 317a, 317a ₁ , 317a ₂ ; Slope Plate,
330; Rear mixer section 331; First plate member,
331a, 331a1, 331a2; Inclined plate portion 333; Second plate member,
335; Third plate member, 337; Fourth plate member,
337a, 337a ₁ , 337a ₂ ; Inclined plate part.

Claims (5)

In the automobile muffler mixer is provided in the automobile muffler to uniformly mix the reducing agent supplied separately from the exhaust gas,
A first plate member having an inclined plate portion at both sides, a second plate member extending in a vertical direction at one end of the first plate member, and an intermediate portion orthogonally coupled to an intermediate portion of the first plate member; A third plate member and an inclined plate portion extending in a vertical direction to one end of the third plate member, the middle portion being orthogonally coupled to the middle portion of the second plate member, and inclined to face the first plate member on both sides; Two mixer parts made of a fourth plate member provided are arranged back and forth at 90 °,
And the inclined plate portion of the first plate member and the inclined plate portion of the fourth plate member are inclined in the discharge direction of the exhaust gas.
The method of claim 1,
2. The mixer for an automobile muffler, wherein the two mixer parts are arranged back and forth in a state spaced at regular intervals at 90 °.
The method of claim 1,
The inclined plate portion of the first plate member and the inclined plate portion of the fourth plate member respectively inclined in the rearward direction of the automobile muffler at both side portions of the first plate member and both side portions of the fourth plate member, respectively. Mixer for automobile muffler, characterized in that formed inclined at an angle of 20 ° ~ 45 ° in the direction.
The method of claim 1,
The length of the inclined plate portion respectively located on the outside of the first plate member and the fourth plate member is greater than the length of the inclined plate portion located inside the first plate member and the fourth plate member Muffler mixer. delete

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