DE102011120685A1 - Exhaust gas system for vehicle, has shielding element formed as cover and arranged on side of mixing pipe turned towards inlet for shielding feed unit against subjection with exhaust gas heat - Google Patents

Abstract

The system (10) has an inlet (22) into which reducing agent i.e. aqueous urea solution, for exhaust gas treatment is introduced by a feed unit (24). A mixing pipe (18) is arranged downstream to the inlet for mixing the reducing agent with exhaust gas. A shielding element is arranged on a side of the mixing pipe turned towards the inlet for shielding the feed unit against subjection with exhaust gas heat. The shielding element is formed as a cover (30) tapered towards the feed unit and including an opening formed for accommodating an outlet element of the feed unit.

Description

The invention relates to an exhaust gas system for a vehicle, which has an inlet via which a reducing agent for the exhaust gas aftertreatment can be introduced into the exhaust gas by means of an injector. Downstream of the inlet, a mixing device designed to mix the reducing agent with the exhaust gas is arranged.

It is known from the prior art to meter in an aqueous urea solution for reducing the nitrogen oxide content in the exhaust gas of an internal combustion engine of a vehicle. This metering takes place at an inlet of the exhaust gas line by means of an injector. In the hot exhaust gas of the urea is converted to ammonia, which then reacts in a downstream SCR catalyst (SCR = selective catalytic reduction, selective catalytic reduction) with the nitrogen oxides of the exhaust gas to nitrogen and water. In order to achieve a rapid conversion of the urea and intensive mixing in the exhaust gas, a mixer is usually provided downstream of the inlet. Instead of a urea solution and a solution containing ammonia may be introduced as a reducing agent in the exhaust gas.

During operation of the exhaust gas line, undesired functional restrictions of the injector may occur.

Object of the present invention is therefore to provide an exhaust system of the type mentioned, by means of which can be achieved in a simple manner a long-lasting functionality of the injector.

This object is achieved by an exhaust system having the features of patent claim 1. Advantageous embodiments with expedient developments of the invention are specified in the dependent claims.

In the exhaust gas line according to the invention, a shielding element designed to shield the injector from being exposed to exhaust gas heat is arranged on an inlet side of the mixing device. By this shielding is ensured that during operation, the exhaust heat remains particularly largely in the mixing device and thus the injector is exposed to a reduced heat load. As a result, the functionality of the injector can be maintained over a particularly long period of time. In addition, the very good thermal decoupling of the mixing device with conventional, so easy and inexpensive available components can be realized. In addition, the manufacturing tolerances to be taken into account for the components of the exhaust gas line used can easily be adhered to.

In an advantageous embodiment, the shielding element is designed as a cap which tapers towards the injector and which has a passage opening designed to receive an outlet element of the injector. By virtue of such a cap, the region of the injector which differs from the outlet element can be particularly well shielded or decoupled from the exhaust gas heat. The passage opening may in particular be arranged centrally in the cap, and the cap may be made of a sheet metal.

It is furthermore advantageous if a fastening device designed for attaching the injector is provided on a line of the exhaust line having the inlet, which is spaced apart from the shielding element. As a result, a minimization of the heat flow of exhaust gas coming into contact parts of the exhaust line to the injector can be reached. This is because direct contact of the fastening device with the shielding element is avoided.

Preferably, the injector can be fixed via a base plate to a line of the exhaust gas line having the inlet, wherein the base plate has a region projecting radially from the line. The base plate thus allows a particularly simple and secure setting of the injector on the line in the region of the inlet. By means of the region of sweeping air, convective heat dissipation to the environment can be achieved very well by way of the region of the base plate that protrudes radially. The radially projecting, in particular around the inlet circumferential area thus serves as a cooling device. The cooling device can be designed in particular as a cooling plate, if the base plate is made of a thin metal.

It is furthermore advantageous if the base plate is in contact with the fastening device only in the region of at least one fastening element. About the fasteners thus only selective contact points between the base plate and the fastening device are present. This results in that a heat load of the injector is particularly low due to taking place via the fasteners heat conduction.

However, even the few introduced via the fasteners in the base plate heat can be dissipated via the functioning as a cooler base plate particularly well. This ensures a particularly good thermal decoupling of the injector from the hot exhaust gas.

Finally, it has proven to be advantageous if the shielding element is tightly connected to the mixing device with respect to exhaust gas. In this way, an admission of the injector with the hot exhaust gas is particularly safe avoided.

The mixing device can in particular be designed as a mixing tube, which has a plurality of passage openings arranged in a lateral surface of the mixing tube. Such a mixing tube is particularly low-wear and inexpensive.

The features and feature combinations mentioned above in the description as well as the features and feature combinations mentioned below in the description of the figures and / or in the figures alone can be used not only in the respectively specified combination but also in other combinations or in isolation, without the scope of To leave invention.

Further advantages, features and details of the invention will become apparent from the claims, the following description of preferred embodiments and from the drawings. Showing:

1 an exhaust line for a vehicle in which an aqueous urea solution can be introduced via a metering device in an exploded view;

2 the assembly of the exhaust line without the metering device in a plan view of an inlet into the exhaust line; and

3 a section along a line III-III in 2 , but with a metering device fixed to a line of the exhaust line.

From an exhaust system 10 for a vehicle is in 1 an exhaust pipe 12 shown, which with a lower shell 14 and a top shell 16 a line section of the exhaust line 10 is connected, in which a mixing tube 18 located. The mixing tube 18 , which has a plurality of passages arranged in its lateral surface 20 has, serves the mixing of the exhaust gas with a reducing agent, which via an inlet 22 by means of a dosing device 24 or the like injector in the exhaust line 10 is introduced.

As a reducing agent is particularly an aqueous urea solution into consideration, from which ammonia is released in the hot exhaust gas. The ammonia is via another exhaust pipe 26 fed to a (not shown) SCR catalytic converter of the vehicle, where it reacts in a selective catalytic reduction reaction (SCR = selective catalytic reduction) with nitrogen oxides from the exhaust gas to nitrogen and water.

The flow direction of the exhaust gas through the exhaust line 10 is in 1 through flow arrows 28 illustrates that the exhaust gas is thus in the area of the inlet 22 having lead portion - in this case about 90 ° - deflected.

To the dosing device 24 , which may in particular be a non-pressurized dosing device to estimate before the exhaust heat, is on the inlet 22 facing side of the mixing tube 18 a lid about in the form of a cap 30 provided, which is the metering device 24 rejuvenated. The cap 30 has a central passage opening 32 into which an outlet 34 of the dosing device 24 is introduced (cf. 3 ).

The cap 30 shields you at the outlet 34 of the dosing device 24 subsequent basic body of the same particularly good from the exhaust heat of the mixing tube 18 flowing exhaust gas. As a result, the temperature load of the dosing device 24 during operation of the exhaust system 10 be kept particularly low, and the dosing device 24 has a very long life.

For attaching the dosing device 24 to the lower shell 14 and the upper shell 16 comprehensive line section is a mounting ring 36 provided, which Anschraubfüße 38 having. Both the screwed feet 38 as well as the mounting ring 36 themselves are from the cap 30 spaced, so that no direct heat-conducting contact with the with the mixing tube 18 connected cap 30 exists (cf. 3 ).

With the fastening ring 36 is about screws 40 a mounting plate 42 screwed, on which in turn the dosing device 24 is attached. The mounting plate 42 , which thus as a base plate or support plate for the dosing 24 serves, has a radially around the inlet 22 circumferential and projecting from the line section edge 44 on. About this edge 44 can be dissipated very convective heat to the environment, so that the mounting plate 42 as a cooling plate for the dosing device 24 acts.

With the mounting plate 42 is the dosing device 24 in the present case over further screws 46 screwed, which in corresponding, on the mounting plate 42 attached welding nuts 48 are screwed in (cf. 3 ).

About the screwed feet 38 and the screws inserted into them 40 there is only a point contact between coming into contact with exhaust pipe parts and the mounting plate 42 and thus ultimately with the dosing device 24 ,

Also the mixing tube 18 is only about these points of contact with the mounting plate 42 in thermally conductive contact. In addition, because of the mounting plate acting as a cooler 42 Heat can be dissipated convective, is the metering device 24 particularly well protected against thermal stress, allowing its long-lasting functionality of the dosing device 24 is ensured in a simple manner.

LIST OF REFERENCE NUMBERS

10

exhaust gas line

12

exhaust pipe

14

subshell

16

Upper shell

18

mixing tube

20

passage

22

inlet

24

dosing

26

exhaust pipe

28

flow arrow

30

cap

32

Through opening

34

outlet

36

fixing ring

38

Anschraubfuß

40

screw

42

mounting plate

44

edge

46

screw

48

weld nut

Claims (7)

Exhaust system for a vehicle, with an inlet ( 22 ), via which by means of an injector ( 24 ) a reducing agent for the exhaust aftertreatment is introduced into the exhaust gas, wherein downstream of the inlet ( 22 ) a mixing device designed to mix the reducing agent with the exhaust gas ( 18 ), characterized in that on one of the inlet ( 22 ) facing side of the mixing device ( 18 ) for shielding the injector ( 24 ) before being exposed to exhaust gas heat shielding element ( 30 ) is arranged. Exhaust tract according to claim 1, characterized in that the shielding element as to the injector tapered cap ( 30 ) is formed, which one for receiving an outlet element ( 34 ) of the injector ( 24 ) formed passage opening ( 32 ) having. Exhaust tract according to claim 1 or 2, characterized in that at one of the inlet ( 22 ) ( 14 . 16 ) of the exhaust gas line ( 10 ) one for attaching the injector ( 24 ) fastening device ( 36 ) is provided, which of the shielding ( 30 ) is spaced. Exhaust tract according to one of claims 1 to 3, characterized in that the injector ( 24 ) over a base plate ( 42 ) at one of the inlet ( 22 ) ( 14 . 16 ) of the exhaust gas line ( 10 ), which one of the line ( 14 . 16 ) projecting radially, in particular around the inlet ( 22 ) encircling, area ( 44 ) having. Exhaust tract according to claim 3 and 4, characterized in that the base plate ( 42 ) with the fastening device ( 36 ) only in the region of at least one fastening element ( 40 ) is in contact. Exhaust line according to one of claims 1 to 5, characterized in that the shielding ( 30 ) with the mixing device ( 18 ) is tightly connected to exhaust. Exhaust line according to one of claims 1 to 6, characterized in that the mixing device as a mixing tube ( 18 ) is formed, which a plurality of in a lateral surface of the mixing tube ( 18 ) arranged through openings ( 20 ) having.

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