DE102008060810A1 - Dosing device for dosing aqueous urea solution, into exhaust pipe of internal-combustion engine of motor vehicle, has connecting piece and dosing module, where surface of piece or module possesses specific average roughness in sections - Google Patents

Abstract

The device (100) has a dosing module (101), a flange (102) and a connecting piece (103), where the connecting piece is connected with an exhaust pipe (200) by a welded joint. An interior surface of the connecting piece or a surface of the dosing module exposed to reducing agent possesses average roughness in sections, where the roughness is lesser than or equal to 0.02. The surface is polished or chromium-plated. A protective coating is formed on the surface and consists of ceramic and/or metallic nano particles. The connecting piece connects the device to the exhaust pipe.

Description

State of the art

The The invention relates to a metering device for introducing a reducing agent in an exhaust pipe, in particular an internal combustion engine of a motor vehicle.

When Reducing agent currently finds, for example, a known under the trade name "AdBlue" Urea solution Use. The z. B. in the form of a Aerosol allowed in the exhaust stream introduced reducing agent in conjunction with a suitable SCR (Selective Catalytic Reduction) catalyst an efficient exhaust aftertreatment, in particular to a substantial Reduction of nitrogen oxide emissions contributes.

Usually is the reducing agent z. B. using compressed air so dosed into the exhaust system of the internal combustion engine, that at the Input of the SCR catalyst as even as possible distribution and thus a possible high degree of evaporation of the reducing agent in the exhaust gas results.

adversely in the above-described introduction of the reducing agent in the form of an aerosol is in particular the unwanted deposition of the reducing agent on surfaces the metering device, which are exposed to the aerosol stream or lead this in the direction of the exhaust pipe. This effect is favored by a relatively low compared to the exhaust gas temperature of the concerned surfaces the dosing device. Furthermore, the aerosol flow is through in the area a transition the metering device in the exhaust pipe forming secondary flows of the Exhaust gases unfavorable influences what the undesirable Deposition on the surfaces the metering device also promotes.

When Consequence of the deposition of the reducing agent described above may sometimes be more crystalline on the surfaces in question Form urea, which therefore no longer for the exhaust aftertreatment disposal stands and impair the function of the metering device can. On the surfaces The dosing device crystallized urea may be at higher Ambient temperatures beyond to likewise undesirable secondary products decompose.

Disclosure of the invention

Accordingly, it is Object of the present invention, a metering device of the initially mentioned type to improve that the unwanted deposition of reducing agent or the formation of crystalline urea and its derivatives on surfaces of the metering device is avoided.

These Task is in the metering device of the type mentioned according to the invention thereby solved, that a surface a component of the dosing device exposed to the reducing agent at least in certain areas has a mean roughness Ra, the smaller or equal to about 0.1, preferably less than or equal to 0.02.

Of the Mean Roughness Ra gives the arithmetic mean of the amounts of all Profile values of a roughness profile of the considered surface.

When the reducing agent exposed components or surfaces are in the present case, in particular all components or surfaces of the metering device understood that to a reducing agent metering dosing or one downstream of the dosing in the flow direction Component belong, and thus directly with the reducing agent or a thereof possibly formed aerosol can come into contact.

According to the invention is recognized have been that with the above proposed sizing the surface quality one significantly lower amount of the reducing agent on the surface in question reflected or sticking there. Furthermore is at a melting of an optionally formed on the surface Crystalline urea deposit the adhesion between the melt and the surface formed according to the invention in such a way reduces that the melt significantly lighter z. B. in such Areas of the exhaust system can drain, where higher temperatures prevail, causing further degradation of the components of the melt favored is.

By the dimensioning according to the invention the surface quality is Furthermore, a z. B. by vibration-induced chipping of solid Deposits favored.

to Achievement of the invention proposed Average surface roughness, the surface of an advantageous embodiment According to the invention be polished.

It is further according to the invention possible, the surface to chrome, resulting in a further protection for the surface.

In order to obtain the advantageous properties of the surface of the metering device according to the invention over its entire service life, in a further advantageous Embodiment of the present invention may be provided that the surface alternatively or in addition to the chrome plating has a protective coating. The protective coating can be realized, for example, by applying ceramic and / or metallic particles to the surface. A particularly low adhesion of the reducing agent results when ceramic and / or metallic nanoparticles are used to form the protective coating.

Especially All surfaces are preferred the metering device according to the invention with the invention specified Mean roughness Ra is produced, which can come into contact with the Reducing agent, in particular the corresponding aerosol stream. Here comes specifically an inner surface of a connecting piece into consideration, for connecting the metering device to the exhaust pipe is provided, and the injected from a metering module Reducing agent or the aerosol leads. Further, you can also directly the surface areas the metering module according to the invention formed be. Possibly. arranged between the metering module and the connecting piece Connecting elements of the metering device preferably also have surfaces with the inventively proposed Surface finish Ra <= 0.1.

Further Features, applications and advantages of the invention will become apparent from the following description of exemplary embodiments of the invention, which are illustrated in the figures of the drawing. All described or illustrated features form for themselves or in any combination, the subject matter of the invention, regardless of their summary in the claims or their dependency as well as independently from their formulation or presentation in the description or in the drawing.

In the drawing shows:

1 A first embodiment of the metering device according to the invention,

2 an inventively designed surface of the metering device 1 in a cross section, and

3 a second embodiment of the metering device according to the invention.

1 shows an exhaust pipe 200 , which is flowed through by an exhaust gas flow in the direction indicated by the arrow B flow direction. The exhaust stream comes from a not shown internal combustion engine of a motor vehicle.

The exhaust pipe 200 is a metering device according to the invention 100 assigned to the introduction of a reducing agent in the exhaust pipe 200 serves. The dosing device 100 has a dosing module for this purpose 101 on that over a flange 102 with a connecting piece 103 connected is. The connecting piece 103 is in a conventional manner with the exhaust pipe 200 connected, for example by a welded joint, and serves to guide the of the dosing 101 injected reducing agent in the exhaust pipe 200 ,

As a reducing agent, for example, a urea water solution is used, which releases ammonia when introduced into the hot exhaust gas stream. The ammonia allows in a the exhaust pipe 200 downstream SCR catalyst (not shown) a known per se conversion of the nitrogen oxides (NOx) contained in the exhaust gas to molecular nitrogen and water.

A in the injection of the reducing agent through the dosing 101 the dosing device 100 in the connecting piece 103 or in the exhaust pipe 200 resulting spray cone is in 1 symbolized by the reference symbol A.

The reducing agent is passed through the dosing module 101 z. B. using compressed air usually in the connection piece 103 and the exhaust pipe 200 injected, that forms a fine as possible aerosol. It may happen that a part of the aerosol on the compared to the exhaust pipe 200 relatively cold walls of the connecting piece 103 or on other components 101 . 102 the dosing device 100 precipitates, so that a corresponding proportion of the reducing agent does not enter the exhaust gas stream.

Due to the influence of secondary flows in the area between the connection piece 103 and the exhaust pipe 200 becomes such undesirable deposition of the reducing agent on the surfaces of the metering device 100 further favored.

To the deposition of the reducing agent to components 101 . 102 . 103 the dosing device 100 to avoid, the invention proposes that a surface of the reducing agent exposed component 101 . 102 . 103 the dosing device 100 at least in some areas has a mean roughness Ra, which is less than or equal to about 0.1, preferably less than or equal to 0.02.

According to the invention it has been recognized that with such a high surface quality, only a relatively small proportion of the by the dosing 101 deposited reducing agent on the surfaces concerned deposits.

The inner surface of the connecting piece is preferred 103 designed according to the invention, as well as a the exhaust pipe 200 facing end face of the flange 102 , Also the connecting piece 103 facing end face of the dosing 101 itself may preferably be formed with the surface quality proposed according to the invention.

In addition to an efficient reduction of adhering to the respective surfaces amount of the injected reducing agent and a melting of any existing deposits, which consist for example of crystalline urea, favors, because the present invention proposed surface finish Ra <0.1 adhesion between the urea and the solid surface sufficiently reduced. Melting urea can thus advantageously in hotter areas of the exhaust system, in particular directly into the exhaust pipe 200 , drain, where a further decomposition of the melt takes place by the prevailing high operating temperatures.

The inventively proposed high surface quality is also a spalling possibly occurring solid deposits on the components 101 . 102 . 103 favored.

The mean roughness Ra of less than or equal to about 0.1, preferably less than 0.02, proposed according to the invention can advantageously be achieved, for example, by polishing the surfaces of the relevant components 101 . 102 . 103 be achieved. Other manufacturing or processing methods that allow the production of the surface quality proposed according to the invention are also usable.

In order to permanently ensure the surface quality proposed according to the invention, a respective surface of a component of the metering device can 100 be advantageous also provided with a protective coating.

2 shows a cross section of a wall portion of the connecting piece 103 , How out 2 can be seen, has an inner surface 103a the wall portion of the connecting piece shown 103 a protective coating 104 on, which may be formed, for example, using metallic and / or ceramic particles.

Particularly advantageous is the protective coating 104 ceramic and / or metallic nanoparticles.

According to the invention, the surfaces exposed to the reducing agent of the components of the metering device 100 also chromed to ensure the desired surface finish and long-term protection of the surfaces.

By inventively proposed training of the reducing agent exposed components of the metering device 100 an undesirable deposition of reducing agent or resulting compounds such as crystalline urea and secondary products on the surfaces is prevented.

3 schematically shows a further embodiment of the metering device according to the invention 100 , Unlike the embodiment according to 1 is the dosing module 101 to 3 instead of the flange 102 via a substantially cone-shaped connection part 102 ' with the connecting piece 103 connected.

The connection part 102 ' points in the connection area to the dosing module 101 a conical area 102'a on, on its inner surface 102'b According to investigations by the Applicant, the reducing agent deposits particularly frequently. According to the invention is therefore provided, especially the inner surface 102'b of the conical area 102'a with the proposed high surface quality or coating 104 form while the inner surfaces of the conical area 102'a downstream components 102 ' . 103 not necessarily have to be tempered according to the invention, what the manufacturing cost of the metering device 100 reduced.

In general, those areas of affected surfaces of the metering device can be advantageously targeted 100 be designed according to the invention, which are particularly exposed to the undesirable deposition of reducing agent. It is also conceivable to carry out different surface areas or surfaces with different surface quality.

Claims (7)

Dosing device ( 100 ) for introducing a reducing agent into an exhaust pipe ( 200 ), in particular an internal combustion engine of a motor vehicle, characterized in that a surface ( 102'b . 103a ) a component exposed to the reducing agent ( 101 . 102 . 102 ' . 103 ) of the dosing device ( 100 ) at least partially has a mean roughness Ra which is less than or equal to about 0.1, preferably less than or equal to 0.02. Dosing device ( 100 ) according to claim 1, characterized in that the surface ( 102'b . 103a ) is polished. Dosing device ( 100 ) according to one of the preceding claims, characterized in that the surface ( 102'b . 103a ) is chrome plated. Dosing device ( 100 ) according to one of the preceding claims, characterized in that the surface ( 102'b . 103a ) a protective coating ( 104 ) having. Dosing device ( 100 ) according to claim 4, characterized in that the protective coating ( 104 ) has ceramic and / or metallic particles, in particular ceramic and / or metallic nanoparticles. Dosing device ( 100 ) according to one of the preceding claims, characterized in that the surface ( 102'b . 103a ) of the component exposed to the reducing agent ( 101 . 102 . 102 ' . 103 ) an inner surface ( 103a ) of a connecting piece ( 103 ), for connecting the metering device ( 100 ) to the exhaust pipe ( 200 ) is provided. Dosing device ( 100 ) according to one of the preceding claims, characterized in that the surface of the component exposed to the reducing agent has a surface of a dosing module ( 101 ).