KR20120064129A - Injector mount - Google Patents

Abstract

The present invention relates to an injector mount (1) which comprises a housing (20) having at least one injector chamber (9) and which completely receives at least one injector (10), wherein the at least one injector chamber (9) Includes a first opening 2 and a second opening 3. The first opening 2 of the injector chamber 9 can be connected to the region 12 of the exhaust line 8 which guides the exhaust gas, and the second opening 3 of the injector chamber 9 is closed 6. May be repeatedly closed.

Description

Injector mount

The present invention relates to an injector mount capable of receiving an injector. Such injectors can in particular be used to add reducing agents to the exhaust system.

Processes for reducing the nitrogen oxide content of exhaust gases from internal combustion engines by selective catalytic reduction (SCR) are known. In this process, substances which act directly on reducing, such as ammonia or precursors of the substance, are transferred to the exhaust gas. An example of a precursor is an aqueous urea solution. During SCR, ammonia is converted to molecular nitrogen and water by nitrogen monoxide and nitrogen dioxide. SCR occurs in an SCR catalytic converter.

The reducing agent enters the exhaust gas by the injector. Typically, such injectors have a fixing device, which uses the fixing device to fix the injector to the exhaust line. The injector therefore directly injects the reducing agent into the exhaust line. In general, the injector is exposed to thermal and mechanical high stresses, and if damaged, the injector must be replaced. However, it is generally impossible to replace the injector in a simple and economical way.

It is therefore an object of the present invention to at least partially solve the problems described in connection with the prior art, in particular to reduce the thermal and mechanical load of the injector and to make it possible to change the injector in a simple and economical way. to provide. It is furthermore an object of the present invention to also provide an exhaust line which allows the injector to be attached to the injector mount in a particularly simple manner.

These objects of the invention are achieved by an injector mount according to the features of claim 1 and an exhaust line according to the features of claim 11. Other advantageous embodiments of the invention are indicated by the claims set forth in the dependent claims. It will be appreciated that the features individually indicated in the claims set forth in the dependent claims may be combined in a technically meaningful manner and may form further embodiments of the invention. In addition, the features set forth in the claims are specified in the detailed description in conjunction with the preferred embodiments of the invention and described in more detail.

The injector mount according to the invention is used to completely receive at least one injector and comprises a housing having at least one injector chamber, the at least one injector chamber having a first opening and a second opening, the injector chamber The first opening of can be connected to the exhaust-conveying region of the exhaust line, and the second opening of the injector chamber can be closed by a closure.

In particular, the housing is a metallic body and preferably consists of a tubular hollow profile. Nevertheless, however, other types of housings are also possible if the injector can be completely accommodated in the injector chamber by the housing. The housing has a length extending along the central axis or (in the case of tubular housing) the centerline. In the case of a tubular housing, the length extends further from the first front side of the housing to the second front side of the housing. The length is only 20 cm, preferably only 15 cm, and particularly preferably only 10 cm. In addition, the housing has a diameter extending at right angles to the width or length (or central axis or center line) (if tubular housing), which diameter is only 10 cm, preferably only 5 cm, particularly preferably only 2.5 cm to be. In addition, the housing of the injector mount has at least one injector chamber, which is a cavity in which at least one injector can be placed completely. In particular, the expression “completely” means that the injector does not protrude beyond the outer boundary of the housing (eg the opening) of the injector mount at any point. The injector comprises at least an injector housing with a reducing agent supply, a nozzle and a valve controlling the discharge of the reducing agent by the injector. In addition, the injector may have a signal control connection of the SCR controller.

The first opening of the injector chamber is arranged and configured in such a way that the reducing agent can enter the exhaust line by the injector. In particular, the first opening is aligned with the nozzle of the injector and is located in the first frontal region of the housing, especially in the case of a tubular housing. In addition, the second opening of the injector chamber is arranged and configured in such a way that the injector is easily replaceable and / or accessible. For this purpose, the second opening is preferably located opposite the first opening, in particular in the second frontal region of the housing. In addition, the second opening can be closed by a closure, which is preferably closed during the operating state of the injector and opened while the injector is maintained. The closure can be fixed to the housing of the injector mount by known means, in particular by crimped joints.

According to another embodiment of the invention, the closure may be closed repeatedly. In order to close the second opening as repeatedly as possible, the closure is screwed into the housing of the injector mount, in particular in the region of the second opening. For this purpose, the housing has a suitable thread in the region of the second opening and the closure. However, the second opening of the injector chamber may be fixed to the housing of the injector mount by a bayonet that clamps or secures the closure.

In another embodiment, at least one injector is provided disposed in the injector chamber, the injector being supported in the injector chamber by a first seal and a second seal.

The injector is supported in the injector chamber by the first seal and the second seal in such a way that the injector is vibratingly cushioned or even vibrally separated with respect to the housing of the injector mount. For this purpose, the injector is supported by the first seal and the second seal, in particular one distance from the housing. It is therefore possible to effectively reduce the mechanical loads acting on the injector, in particular vibration loads and / or heat loads. The second seal is in particular an O-ring made of rubber.

It is particularly preferred if the first seal is a radially acting seal, the seal consisting of at least partly rubber or at least partly mica. In particular, the first seal is suitable for sealing the injector chamber (with the injector) from the exhaust-transport region of the exhaust line. "Mica" is aluminum silicate. Aluminum silicate is a mineral in which silicon is surrounded by four oxygen atoms in a tetrahedral arrangement.

According to another convenient embodiment, the second seal is at least partly made of rubber or at least partly made of mica. In this regard, rubber has proved to have particularly good vibration damping effect and mica has proved to be particularly good in heat resistance.

According to a particularly preferred choice, the first seal is formed exclusively of mica and the second seal is formed exclusively of rubber.

As an embodiment of the invention, the injector chamber has at least one aperture, preferably a plurality of apertures, in the housing. This aperture starts from the injector chamber and preferably extends completely through the housing of the injector mount. At the same time, the aperture is preferably distributed radially, in particular 360 °, on the outer circumferential surface of the housing. It will be appreciated that noise from vibrations and / or noise from injectors can be reduced by this aperture. In addition, the pressure averaging between the injector chamber and the surroundings is such that when the injector is in operation, in particular when the injector chamber is heated during operation of the injector, the injector mount connected to the exhaust line via the first and second openings is closed. When closed by means of these apertures.

It is particularly preferred if the injector mount has at least one radial collar. At least one radial collar is disposed radially on the peripheral surface of the housing of the injector mount and consists of a thermally conductive material, in particular a metal. Thus, on the one hand, it is possible to cool the housing of the injector mount, and on the other hand, to protect the connection line of the injector from the radiant heat of the injector mount and / or the exhaust line.

It is more advantageous if at least one supply line or at least one control line leads to the injector chamber. The feed line is preferably a line for transferring a reducing agent from the reducing agent reservoir to the injector and / or from the injector to the reducing agent reservoir. The control line is preferably an electrical lead which connects and / or electrically connects the injector with the control of the SCR system for data transmission.

According to another embodiment, the closure has at least one connector holder. For example, the connector holder is a clamping device that prevents slipping of the connector that secures the supply line and / or control line to the closure. In this case, the connector is preferably arranged at the supply connection of the closure and / or at the control connection of the closure. The supply connection of the closure and the control connection of the closure are used to connect the supply line and / or the control line to an injector arranged in the injector chamber.

According to another aspect of the invention, an exhaust line is proposed, the exhaust line having a connecting element fixed to the exhaust line and an injector mount detachably connected to the connecting element.

In particular, the connecting elements are several elements suitable for receiving sleeves, nuts or injector mounts, in particular the connecting elements are fixed to the exhaust line by welding points. The injector mount is detachably connected to the connecting element, for example by a threaded joint.

The invention and technical content may be described in more detail below in connection with the drawings. The drawings show particularly preferred embodiments of the invention, but the invention is not limited to the matters shown in the drawings.

1 is a schematic view of an exhaust line with an injector mount.

An exhaust line 8 is shown in FIG. 1, in which a connecting element 7 is attached to the outer wall 27 of the exhaust line by means of a weld 11. This connecting element 7 has a receptacle 28 for the injector mount 1. To this end, the receiving portion 28 of the connecting member 7 may have a thread (not shown in the figure). The diameter of the receptacle 28 substantially corresponds to the width 22 of the housing 20 of the injector mount 1. In this embodiment, the housing 20 is a tubular design. In addition, the housing 20 of the injector mount 1 is formed from the first opening 2 to the second opening 3, or from the first front 24 in the direction of the central axis 23, which is shown as a center line in the drawing. 2 has a length 21 extending to the front 25. An injector chamber 9 is located in the housing 20. The injector chamber 9 is connected to the exhaust-conveying region 12 of the exhaust line 8 by a first opening 2. The second opening 3 is repeatedly closed by the closure 6. For this purpose, the housing 20 and the closure 6 have threads (not shown in the figure). The injector 10 is formed by the first seal 4 and the second seal 5 in such a way that the nozzle 32 of the injector 10 is aligned with the first opening 2 of the housing 20. 9) is supported. Together with the injector 10, the first seal 4 seals the injector chamber 9 from the exhaust-transport region 12 of the exhaust line 8. The injector 10 has an injector housing 33 and a valve 34, and although the connection portion of the valve 34 and the SCR controller 31 is not shown in the figure, the injector 10 is connected to the SCR controller 31. .

In addition, the closure 6 has a supply connection 18 and a control connection 19. With this supply connection 18 and this control connection 19, the supply line 15 and the control line 16 are connected to the injector 10 by means of a connector 29. In this configuration, the supply line 15 is connected to the reducing agent reservoir 30 and the control line 16 is connected to the SCR controller 31. In addition, the closure 6 has a connector holder 15 for securing the connector 29 in a non-slip manner.

The housing 20 of the injector mount 1 has a plurality of radially arranged apertures 13, which extend from the injector chamber 9 to the outer circumferential surface 26 of the housing 20. In addition, a plurality of radial collars 14 are disposed on the outer circumferential surface 26 of the housing 20.

Starting from the exhaust line 8, the elements of the injector mount 1 are connected from the exhaust line 8 to the bottom from the connecting element 7, the first seal 4, the aperture 13, the radial collar 14. , Second seal 5 and closure 6 in this order.

By means of the injector mount shown in the figures, the injector can be effectively protected from thermal and mechanical stresses, and can be modified in a particularly simple and economical manner.

1: injector mount 2: first opening
3: second opening portion 4: first seal
5: seal 2: closing part
7: connecting element 8: exhaust line
9: Injector chamber 10: Injector
11: weld 12: exhaust-feed area
13: aperture 14: radial collar
15: supply line 16: control line
17: connector holder 18: supply connection
19: control connection 20: housing
21: Length 22: Width
23: center axis 24: 2nd front
25: 2nd front side 26: outer peripheral surface
27: outer wall 28: receiving portion
29 connector 30: reductant reservoir
31: SCR controller 32: nozzle
33: injector housing 34: valve

Claims (10)

A housing 20 having at least one injector chamber 9, said at least one injector chamber 9 having a first opening 2 and a second opening 3, said injector chamber 9 Can be connected to the exhaust-transfer region 12 of the exhaust line 8, and the second opening 3 of the injector chamber 9 can be closed by a closure 6. An injector mount (1) which completely receives at least one injector (10). The method according to claim 1,
The injector mount (1), characterized in that the closure (6) can be closed repeatedly. The method according to claim 1 or 2,
The injector mount 1 is arranged in at least one injector chamber 9 and is supported in the injector chamber 9 by a first seal 4 and a second seal 5. ). 4. The method according to any one of claims 1 to 3,
The injector mount (1), characterized in that the first seal (4) is a radially acting seal, at least partly composed of mica. 5. The method according to any one of claims 1 to 4,
The injector mount (1), characterized in that the injector chamber (9) has at least one aperture (13) in the housing (20). 6. The method according to any one of claims 1 to 5,
The injector mount (1), characterized in that the injector mount (1) has at least one radial collar (14). 7. The method according to any one of claims 1 to 6,
Injector mount (1), characterized in that at least one supply line (15) or at least one control line (16) is directed to the injector chamber (9). The method of claim 7,
Injector mount (1), characterized in that the at least one supply line (15) or the at least one control line (16) is directed through the closure (6) to the injector chamber (9). The method according to any one of claims 1 to 8,
Injector mount (1), characterized in that the closure (6) has at least one connector holder (17). As the exhaust line 8,
Exhaust line 8 having a connecting element 7 fixed to the exhaust line 8 and an injector mount 1 according to any one of claims 1 to 8 detachably connected to the connecting element 7. ).

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