WO2016150693A1

WO2016150693A1 - Delivery unit with laser structuring

Info

Publication number: WO2016150693A1
Application number: PCT/EP2016/054865
Authority: WO
Inventors: Henning Stoll; Rainer Heinrich Hoerlein
Original assignee: Robert Bosch Gmbh
Priority date: 2015-03-20
Filing date: 2016-03-08
Publication date: 2016-09-29
Also published as: DE102015205108A1

Abstract

The invention relates to a delivery unit (10) for an operating/auxiliary material of an internal combustion engine, in particular a diaphragm pump for conveying urea in automotive exhaust gas aftertreatment systems. The delivery unit (10) comprises a magnet assembly (12) for actuating a delivery element, a first component (18) and a second component (20). The first component (18) and the second component (20) are connected to each other by a connection (32) which is provided with a laser structuring (36). It is thus in principle possible to dispense with adhesion promoters which tend to decompose in the event of an aggressive delivery medium.

Description

Description title

Delivery unit with laser structuring Technical field

The invention relates to a delivery unit for conveying a medium, in particular an operating / auxiliary substance for exhaust aftertreatment of

Internal combustion engines. The medium to be metered into an exhaust aftertreatment system is, in particular, an aqueous urea solution.

State of the art

DE 10 2008 040 782 AI relates to a composite component and a

Method for producing a component composite. The component composite, which is particularly suitable for motor vehicle applications, comprises a first component having a first contact surface and at least one second component having a second contact surface resting against the first contact surface, wherein the first contact surface has a surface structure generated by means of electromagnetic radiation. The surface structure has a microstructure superposed by a nanostructure.

Delivery units, in particular diaphragm pumps and other components for exhaust aftertreatment by injection of an operating / auxiliary material, such as urea or a urea-water solution containing

Elastomer components. These may be, for example, metal-elastomer hybrid components. In particular, these are, for example, the delivery membrane of a delivery and / or Rücksaugpumpe,

Pressure pulsation dampers, ice pressure dampers or valves. A connection between metallic components and elastomer components is realized in such components by a bonding agent.

Such adhesion promoters have the disadvantage that these against a

Urea solution or aqueous urea solution or their decomposition products, such as NH _{3 are} not durable. A permeation of

Urea solution or an aqueous solution of urea by the elastomer can have the consequence that the adhesion promoter or adhesion promoter layers dissolve over time and thus a weakening of the connection between the metallic component and the elastomer component can occur.

Disclosure of the invention

According to the invention, a delivery unit for an operating / auxiliary material of an internal combustion engine with a magnetic assembly for actuating a

Promotional element comprising a first component and a second component, proposed, which is characterized in that the first component and the second component are interconnected by a compound comprising a laser structuring. The first component is a metallic component, for example a pump tappet, and the second component is an elastomer component, for example an elastomeric membrane.

Following the solution proposed by the invention, the use of adhesion promoter is avoided in an advantageous manner, which has been used in connections between metallic components and elastomer components. By avoiding the use of adhesion promoters weakening of the connection between the metallic component and the component made of elastomer can no longer occur. The laser structuring advantageously has a plurality of undercuts in which the elastomer digs in - like a hook and loop fastener. Now it comes to

Permeation of the operating / auxiliary material by the material of

Elastomerbauteiles, a metal / elastomer compound can no longer solve. Rather, causes a swelling of the elastomer by permeation of the operating / auxiliary substance in these a gain of the claw in the

Laser structuring, which has a number of undercuts. This will be one Delivery unit, which is provided with the solution proposed by the invention, robust against the operating / auxiliary substances used or their decomposition products. Advantageously, the laser patterning is carried out at an interface along which the second component encloses the first component. This can be achieved that the entire interface under the

Laserstrukturlerung by the formed on this undercuts to

Generation of a connection can be used, what their

Durability improved.

In particular, it can be provided that the interface at a

plate-shaped surface of the first component extends. By an appropriate dimensioning of the plate-shaped surface with respect to its circumference, the interface can be increased in an advantageous manner. In principle, the first

Component instead of plate-shaped surfaces and surfaces of other geometries conceivable.

In a further development of the solution proposed by the invention, the plate-shaped surface in turn comprises at least one undercut for fixing the second component. Due to the at least one formed on the plate-shaped surface undercut can be a reliable introduction of a

Lifting movement into the second component, i. the elastomer component of

Achieve delivery aggregates. Following the solution proposed according to the invention, the laser structure comprises a multiplicity of undercuts. The laser patterning may be a structure having feature depths that may be on the order of typically between 50 μηη and 350 μηη. The Laserstrukturlerung also has webs and recesses and other geometries, which may be formed in a size between 10 μηη and 150 μηη.

In a modification of the solution proposed according to the invention, the laser structure can be applied at least on the end face of the plate-shaped surface. There is also the possibility of using geometries other than structured and unstructured surfaces in the contact area select. Thus, for example, the end face of the plate-shaped surface and a radius or even half the end face plus radii as

Be provided contact area with the laser structuring, so that a sufficiently large interface is formed, within which it causes a clawing of the elastomer when swelling in a corresponding

Structuring on the first component, which is preferably made of metallic material allows.

The delivery unit proposed according to the invention is particularly suitable for use within an exhaust aftertreatment system for

Passenger cars or commercial vehicles powered by a

Combustion engine.

Advantages of the invention

By the inventively proposed solution of the use of a laser structuring in a compound within a component composite, the use of adhesion promoters can be avoided. Thus, the risk of weakening is avoided in particular in a metal / elastomer compound by diffusing into the elastomer component urea-water solution so that accordingly designed delivery units experience a significant improvement in their life. By the invention

proposed solution may rather in permeation of the operating / auxiliary substance, in particular of urea or a urea-water solution in the

Elastomer material whose swelling to improve the connection at the interface between a first component, for example, a metallic pump tappet and a corresponding geometry of the second component, for example, the elastomer component are utilized.

Rather, a swelling of the material of the elastomer component causes a reinforcement of the metal / elastomeric connection between the plate-shaped surface of the first metallic component and a procured in complementary geometry opening of the second component, ie the elastomeric membrane of the delivery unit. The inventively proposed solution of a metal / elastomer compound with a laser structuring can not only the Life of such a delivery unit for an aggressive medium can be improved, but this solution is also suitable for future expected systems in which must be expected with increasing operating temperatures. As the decomposition of the urea solution to NH _{3 is} an increasing problem for the bonding agent layers used up to now with increasing temperatures, this can be achieved by the

The solution proposed by the invention can be circumvented. One

Delivery unit, which without a bonding agent within a

Part assembly between a first component made of metallic material and a second component made of elastomer manages, thus providing a

decisive advantage in system competition.

Brief description of the drawings

With reference to the drawing, the invention will be described below in more detail.

It shows:

Figure 1 is a schematic representation of the invention proposed pumping unit for promoting an operating / auxiliary and

Figure 2 is an illustration of an embodiment of a

Component composite of a first and a second component,

FIG. 3 shows an interface within the contact region on which the first and the second component lie against each other and on the first component, preferably of metallic material, a laser structuring is performed, and

Figure 3.1 in an enlarged view of the contact area with

Laser structuring on the first component. variants

The illustration according to FIG. 1 shows a schematic representation of a delivery unit proposed according to the invention for delivery of an operating / auxiliary substance to an internal combustion engine.

As can be seen from the sectional view according to FIG

Delivery unit 10 for promoting an operating / auxiliary substance, in particular an aggressive medium such as a urea-water solution or a urea solution, a magnet assembly 12. The magnet assembly 12 is used to actuate a conveying element, which essentially made of a metallic material first component 18 and a includes associated with this second component 20, in particular a membrane made of elastomeric material. The first component 18 and the second component 20 are connected to one another at a connection 32, which is in particular a metal / elastomer compound. As Figure 1 further shows, the magnet assembly 12 includes an opening 14 formed as a bore through which the first member 18 extends. With appropriate energization of the magnet assembly 12, the first component 18 and the second component 20 connected thereto at the connection 32 moves in a vertical direction

Direction of movement 44, so that on the one hand via a supply line 38 an operating / auxiliary material is conveyed into a pump chamber 16 and on the other hand, this operating / auxiliary substance is pumped into a discharge line 40 for the operating / auxiliary material.

From the illustration according to FIG. 1, it can also be seen that the pump chamber 16 of the delivery unit 10 is filled via the supply line 38 and emptied via the discharge line 40. In the feed line 38 for the operating / auxiliary substance, the intake valve 26 is entered in a schematic form, while in the leading away from the pump chamber 16 discharge line 40 for the operating / auxiliary material, an output valve 28 is located. Depending on the lifting movement, which is impressed on the second component 20 via the first component 18 in the vertical direction of movement 44, either via the supply line 38 and opening of the

Intake valve 26 operating / auxiliary material conveyed into the pump chamber 16 or in a downward movement of the second component 20 in vertical Moving direction 44 by the second component 20 or operating / auxiliary material from the pump chamber 16 via the output valve 28 in the discharge 40 promoted. It can be seen from the illustration according to FIG. 1 that the elastomeric membrane representing the second component 20 is clamped between the magnet assembly 12 and a component of the delivery assembly 10. The second component 20 comprises a membrane top 22, which a cavity 42 of the

Assigns magnetic assembly 12, and a diaphragm bottom 24 which limits the pump chamber 16 at the top.

FIG. 1 furthermore shows that the first component 18 comprises a plate-shaped surface 30. Between the plate-shaped surface 30, which is located at the lower end of the first component 18 and the second component 20, the connection 32, in particular designed as a metal / elastomeric connection. In order to

ensure that the movements of the first component in the vertical

Movement direction 44 are transmitted to the second component 20, the plate-shaped surface 30 with at least one undercut 31 - as shown in Figure 1 - be provided. Figure 1 shows that an interface 34 between the outside of the dish-shaped surface 30 and a complementary to the

Geometry formed opening of the second component 20, which the

Elastomer component represents runs. An end face of the dish-shaped surface 30 is designated by reference numeral 33. The laser structuring 36 may be made partially or entirely on the end face 33 of the dish-shaped surface 30 or along the entire interface 34 between the plate-shaped

Surface 30 and the complementary formed to their geometry opening of the second component 20 extend. The laser structuring 36 is primarily characterized in that it has a plurality of undercuts. At the numerous undercuts formed by the laser structuring within the interface 34, the permeation of the operating

Auxiliary material in the material of the second component made of elastomeric material swelling of the membrane material, i. of the elastomer, which leads to a clawing of the elastomer material in just those

Undercuts of the laser pattern 36 leads. This is a weakening of the executed as a metal / elastomer compound compound 32 by permeation the operating / auxiliary substance, ie the urea or the urea-water solution excluded, but rather causes the permeation of the operating / auxiliary substance or its decomposition products in the elastomeric material, a reinforcement of the metal / elastomer compound. By the solution proposed by the invention is therefore the life of the delivery unit 10 according to the

Invention considerably increased. In particular, a critical weakening of the metal / elastomer compound within the component composite from the first metallic component 18 and the second elastomer-made component 20 is excluded.

By inventively proposed solution, not only the

Lifetime resistance of the invention proposed

Conveying units 10 can be significantly improved, in particular, in future systems in which to be expected with increasing operating temperatures, inventively proposed delivery units 10 are used. In the proposed solution according to the invention, the problem is avoided, according to which at increasing operating temperatures

Weakening of the metal / adhesive bond by decomposition of the coupling agent takes place. The replacement of the previously used adhesion promoter on the metal / elastomer compound by the metal element proposed by the invention.

/ Elastomerverbindung with a laser structuring 36 on the plate-shaped surface 30 of the first component 18, a significant improvement in the life of the present invention proposed delivery unit 10 can be achieved.

The illustration of Figure 2 is another embodiment of a

Component composite 21 to be taken from a first component 18 and a second component 20. According to the illustration in FIG. 2, the second component 20 is provided with an undercut 31, which is fastened in a form-fitting manner to the first component 18, which is preferably made of metallic material. Along the compound 32 designed as a metal / elastomeric connection extends the interface 34. The interface 34 comprises the

According to the invention proposed laser structuring 36, which is preferably carried out on the outer side or outer surface areas and the undercut 31 along the interface 34. FIGS. 3 and 3.1 show that the laser structuring 36 is embodied on the interface 34, in particular on the outside of the first component 18. In FIG. 3.1, the laser structuring 36 is enlarged

Scale reproduced. From the enlarged illustration according to FIG. 3.1, it can be seen that the laser structuring 36 has a number of undercuts, to which the elastomer material of the second component 20 has entered. Now occurs swelling of the elastomeric material of the second component 20 as by penetrating into this operating / auxiliary or takes place

Penetration of decomposition products of the operating / auxiliary substance in the

Elastomeric material of the second component 20, so it swells up. From the illustration according to FIG. 3.1, it is readily apparent that when the elastomeric material of the second component 20 swells, the undercuts

Laser structuring 36 are even better clawed with the elastomeric material of the second component 20, so that the overall result is a more robust connection 32. The in the elastomeric material of the second component 20th

diffusing operating / auxiliary material causes its swelling, so that the executed as a metal / elastomer compound connection 32 between the first component 18 and the second component 20 of the component assembly 21 is not weakened, but rather supported by the proposed solution according to the invention, what the robustness and as far as the lifetime is concerned.

The invention is not limited to the embodiments described herein and the aspects highlighted therein. Rather, within the scope given by the claims a variety of modifications are possible, which are within the scope of expert action.

Claims

claims

1. delivery unit (10) for an operating / auxiliary a

Internal combustion engine with a magnetic assembly (12) for actuating a conveying element, comprising a first component (18) and second component (20), characterized in that the first component (18) and the second component (20) by a connection (32) with each other connected, which comprises a laser structuring (36).

Second delivery unit (10) according to claim 1, characterized in that the first component (18) is a metallic component and the second component (20) is an elastomeric component.

Third delivery unit (10) according to claim 2, characterized in that the connection (32) is a metal / elastomer compound.

4. delivery unit (10) according to claim 1, characterized in that the laser structuring (36) is carried out at an interface (34), along which the second component (20) surrounds the first component (18).

5. delivery unit (10) according to claim 4, characterized in that the boundary surface (34) extends on a plate-shaped surface (30).

6. conveying unit (10) according to claim 5, characterized in that the plate-shaped surface (30) has at least one undercut (31) for receiving the second component (20).

7. conveying unit (10) according to one of the preceding claims, characterized in that the laser structuring (36) comprises a plurality of undercuts (31). Delivery unit (10) according to one of the preceding claims, characterized in that the plate-shaped surface (30) has the laser structuring (36) at least on its end face (33).

Use of the delivery unit (10) according to one of claims 1 to 8 in an exhaust aftertreatment system of a

Passenger car or a commercial vehicle.