WO2020098996A1

WO2020098996A1 - Electric component, fuel delivery module, and fuel tank

Info

Publication number: WO2020098996A1
Application number: PCT/EP2019/074649
Authority: WO
Inventors: Karel Marhoun; Tomas Bauer
Original assignee: Robert Bosch Gmbh
Priority date: 2018-11-14
Filing date: 2019-09-16
Publication date: 2020-05-22
Also published as: CN113016239A; CN113016239B; DE102018219455A1

Abstract

The present invention relates to a control unit (1) for controlling an electric fuel pump (9) comprising a housing (5) and a printed circuit board (2), wherein the printed circuit board (2) is arranged in the housing (5), wherein control electronics (12) for controlling the fuel pump (9) are attached on the printed circuit board (2), which control electronics (12) are surrounded at least partially by an encapsulating material (3), wherein the housing (5) has a wall region (13), the outer side of which, which faces away from the control electronics (12), is exposed to hydrocarbon vapours during operation of the control unit, characterized in that an additional layer (4) is provided between the encapsulating material (3) and the wall region (13) of the housing (5), which additional layer (4) is formed from a material differing from the encapsulating material (3) and has a higher resistance to the ingress of hydrocarbons than the encapsulating material (3).

Description

description

title

Control unit, fuel delivery module and fuel tank

State of the art

The present invention relates to a control device. The control unit is in particular part of a fuel delivery module for insertion into one

Fuel tank. The invention also relates to such a fuel delivery module and a fuel tank comprising such a fuel delivery module.

It is known from the prior art that printed circuit boards which are to be exposed to mechanical or corrosive loads have one

Potting material to be cast. The potting material shields the circuit board from external influences. In particular, such a circuit board encapsulated with potting material from JP

2010285929 A known.

Disclosure of the invention

The control device according to the invention is advantageously suitable for use in corrosive environments. In particular, the control unit can be optimally used in or on fuel tanks. The control unit is particularly protected against hydrocarbon vapors.

The control device comprises a housing and a printed circuit board. The circuit board is arranged in the housing. There is also a on the circuit board

Control electronics for controlling the fuel pump attached. The

Control electronics and / or the printed circuit board are at least partially surrounded by a potting material. The circuit board and the control electronics are protected from external influences by the potting material. The housing has a wall area, the outside of which faces away from the control electronics is exposed to hydrocarbon vapors during operation of the control device. In order to To prevent hydrocarbons from penetrating into the potting material and damaging it, an additional layer is provided between the potting material and the wall area. Thus, the protective effect remains

Potting material still given. The additional layer is made of one

Made of additional material that differs from the potting material. In particular, the additional layer has a higher resistance to the penetration of hydrocarbons than the potting material. The additional layer thus prevents or at least makes it difficult for hydrocarbons to penetrate into the potting material. The additional layer thus represents a shield against hydrocarbons. This enables safe and reliable protection of the potting material and thus also of the printed circuit board and the control electronics. Because hydrocarbons in particular

If there are fuel tanks, the control unit can be used in or on fuel tanks with a long service life.

The dependent claims contain preferred developments of the invention. .

The potting material advantageously comprises a casting resin. The potting material particularly advantageously comprises polyurethane. In particular, the potting material is made entirely of polyurethane. By the

Potting material made of polyurethane is possible, the circuit board and the

Protect control electronics against moisture, corrosion, aggressive fluids and against mechanical damage. In addition, through the

Potting material a mechanical fixation of the control unit can be achieved.

The additional material preferably has an epoxy resin. The additional material is particularly advantageously formed from epoxy resin. Epoxy resin minimizes that

Penetration of hydrocarbon gases into the potting material, especially if the potting material consists of polyurethane, as before

described. Polyurethane in particular is susceptible to the absorption of hydrocarbons, which enables swelling and / or degradation of the potting material. In particular, the circuit board could also be damaged. The additional material made of epoxy resin reduces the risk of hydrocarbons penetrating into the potting material, as a result of which both potting material and printed circuit board as well as the

Control electronics are protected. The wall area is in particular a bottom of the housing. The housing is in particular pot-shaped and enables the circuit board to be inserted through the opening in the pot shape. The bottom of the pot shape is formed by the wall area, the wall area being in particular directly exposed to the inside of a fuel tank.

The housing is preferably at least partially closed by a housing cover. In particular in the case of the pot shape described above, this completely enables the circuit board and the potting material to be closed.

A heat sink is particularly advantageously integrated in the housing cover. The heat sink protrudes from the potting material and is used to cool the circuit board and / or the control electronics. In this way, the heat sink can in particular cool the circuit board and / or control electronics completely inside the potting material. Preferably, the housing cover together with the heat sink provides a surface of the

Control unit.

The circuit board and the control electronics are advantageously protected from mechanical influences and from fluids by the potting material. The potting material is protected from hydrocarbons by the additional layer. In particular, the potting material is in front of the additional layer

Protected hydrocarbon gases. This ensures comprehensive protection of the circuit board and the control electronics, so that the control unit can be used in corrosive environments, especially in fuel tanks. This enables the use of printed circuit boards and control electronics, in particular conventional printed circuit boards or conventional ones

Control electronics components, in said corrosive environment, since the circuit board and the control electronics are protected by potting material and

Additional layer is reached.

The invention also relates to a fuel delivery module. The

Fuel delivery module is provided for insertion in a fuel tank. In particular, the fuel delivery module comprises the control device as described above. In addition, the fuel delivery module preferably comprises a tank flange, which serves to close an opening of a fuel tank. At said tank flange is advantageously formed the housing of the control unit. In particular, the housing represents a portion of the

Through the combination of potting material and

Additional layer, the control unit is optimal for use in one

Fuel tank provided. The fuel delivery module therefore has a long service life and advantageously enables the integration of the

Control unit as described above.

The fuel delivery module particularly advantageously has a fuel pump. The fuel pump can be controlled by the control unit. The fuel pump is advantageously held at least indirectly on the tank flange. In this way, the fuel delivery module can be manufactured easily and with little effort, on the one hand, and can be easily and effortlessly integrated into a fuel tank.

Finally, the invention relates to a fuel tank. The fuel tank is in particular a vehicle tank for receiving operating fluids for a vehicle. The fuel tank has a fuel delivery module as previously described. The tank flange closes an opening in the fuel tank. A fuel pump can be integrated into the fuel tank by the fuel delivery module and can be controlled by the control unit. The outside of the wall area described above is thus exposed to hydrocarbon vapors. The combination of

Potting material and additional layer achieved that the control unit against corrosive influences of what is inside the fuel tank

Operating fluid is protected. The fuel tank thus has a high

Lifespan.

Brief description of the drawing (s)

Exemplary embodiments of the invention are described in detail below with reference to the accompanying drawing. In the drawing is:

Figure 1 is a schematic view of a fuel tank according to a

Embodiment of the invention comprising a

Fuel delivery module according to an embodiment of the invention, and Figure 2 is a schematic view of the fuel delivery module with a control device according to an embodiment of the invention.

FIG. 2 schematically shows a fuel tank 8. The fuel tank 8 is advantageously a vehicle tank and is used to hold one

Operating fluids 1 1, especially fuels such as diesel or gasoline. It is also possible to take up other operating fluids 11, such as, in particular, urea. The fuel tank 8 can be filled with fluid via a filler neck 16, the fluid being dispensable via an outlet 17.

The fuel tank 8 has a fuel delivery module 7, which closes an opening 15 of the fuel tank. The fuel delivery module 7 is inserted into the opening 15 of the fuel tank 8 and has a tank flange 10 which closes the opening 15 of the fuel tank 8. The tank flange 10 also serves to hold a fuel pump 9 at least indirectly. The tank flange 10 also represents a housing 5 of a control unit 1 for controlling the fuel pump 9. The operating fluid 11 can thus be pumped out of the fuel tank 8 via the fuel pump 9.

The operating fluid 11 received within the fuel tank 8 means that the fuel delivery module 7 is always exposed to corrosive media.

In particular, the housing 5 is always exposed to hydrocarbon vapors.

FIG. 1 schematically shows a sectional view of the tank flange 10 of the fuel delivery module 7 according to FIG. 2. In particular, the control device 1 can be seen here, which comprises a circuit board 2 accommodated in the housing 5.

The circuit board 2 also has control electronics 12 for controlling the fuel pump 9. Furthermore, the control device 1 has a potting material 3 which at least partially surrounds the printed circuit board 2 and / or the control electronics 12. In particular, the potting material 3 completely surrounds the printed circuit board 2 and also the control electronics 12.

According to FIG. 1, the housing 5 comprises a housing receptacle in which the control electronics 12, for example formed on the printed circuit board 2, for controlling the fuel pump 9 and the control electronics 12 at least partially encapsulating potting material 3, in particular a casting resin, is provided.

The potting material 3 is preferably formed from polyurethane. Such a valuable substance enables a shielding of the printed circuit board 2 and

Control electronics 12, so that the circuit board 2 is protected from mechanical influences and from corrosive influences by fluids. However, when using polyurethane, there is the possibility that hydrocarbons can penetrate into the potting material 3 and damage it. The housing 5, for example the housing receptacle, has a wall region 13. An outside of the wall area 13 facing away from the control electronics 12 is always exposed to hydrocarbon vapors during the operation of the fuel delivery module 7 and thus the control device 1, since the tank flange 10 is arranged in the opening 15 of the fuel tank 8 and the outside of the wall area 13 faces the fuel tank 8. The wall area 13 is, for example, a bottom of the housing receptacle.

It is therefore preferably provided that an additional layer 4 is provided between the potting material 3 and the wall area 13. The additional layer 4 is advantageously applied to the potting material and is used for

Shield the potting material 3 and to protect the potting material 3 against hydrocarbon vapors. Damage to the printed circuit board 2 and / or the control electronics 12 and thus failure of the control of the fuel pump 9 is thereby avoided.

The potting material 3 is made of a casting resin, in particular of polyurethane. The additional layer 4 is formed from an additional material, which consists in particular of epoxy resin. This has a higher resistance to the penetration of hydrocarbons than the potting material. The risk of damage to the printed circuit board 2 due to deformation of the potting material 3 due to the penetration of hydrocarbons is thus minimized.

The combination of potting material 3 and additional layer 4 preferably ensures that a mechanical and chemical protective effect is present. The potting material 3 causes mechanical damage and

Corrosion of the circuit board 2 and the control electronics 12 prevented. The additional layer 4 ensures that the potting material 3 is due to Hydrocarbons do not swell or degrade. Comprehensive protection of the printed circuit board 2 and the control electronics 12 is thus ensured. The fuel tank 8, in particular the fuel delivery module 7 of the fuel tank 8, therefore has a long service life.

It is also preferably provided that the housing 5 by a

Housing cover 14 is at least partially closed. A heat sink 6 is integrated into the housing cover and protrudes in particular from the potting material 3. The circuit board 2 and the control electronics 12 can thus be cooled by the heat sink 6.

Claims

Expectations

1. Control unit (1) for controlling an electric fuel pump (9)

comprising a housing (5) and a circuit board (2), the circuit board (2) being arranged in the housing (5), control electronics (12) for controlling the fuel pump (9) being mounted on the circuit board (2), which is at least partially surrounded by a potting material (3), the housing (5) having a wall area (13), the

Control electronics (12) facing away from the outside during operation of the control device is exposed to hydrocarbon vapors, characterized in that an additional layer (4) is provided between the potting material (3) and the wall area (13) of the housing (5), which is made of a potting material ( 3) different additional material is formed and has a higher resistance to the penetration of hydrocarbons than the potting material (3).

2. Control device (1) according to claim 1, characterized in that the

Potting material (3) has a casting resin, in particular a polyurethane.

3. Control device (1) according to one of the preceding claims, characterized

characterized in that the additional material has an epoxy resin.

4. Control device (1) according to one of the preceding claims, characterized

characterized in that the wall area (13) is a bottom of the housing (5).

5. Control device (1) according to one of the preceding claims, characterized

characterized in that the housing (5) is at least partially closed by a housing cover (14).

6. Control device (1) according to claim 5, characterized in that in the housing cover (14) a heat sink (6) is integrated, which is provided for cooling the circuit board (2) and / or the control electronics (12).

7. Control device (1) according to one of the preceding claims, characterized in that the printed circuit board (2) is protected from mechanical influences and from fluids by the potting material (3), the

Potting material (3) is protected from hydrocarbons, in particular from hydrocarbon gases, by the additional layer (4).

8. Fuel delivery module (7) with a control device (1) according to one of the

previous claims, characterized in that the

Fuel delivery module (7) has a tank flange (10) on which the housing (5) of the control device (1) is formed.

9. Fuel delivery module (7) according to claim 8, characterized by a

Fuel pump (9) which is at least indirectly held on the tank flange (10) and which can be controlled by the control unit (1).

10. fuel tank (8), in particular vehicle tank, comprising a

Fuel delivery module (7) according to claim 8 or 9, characterized in that the tank flange (10) closes an opening (15) of the fuel tank (8), the outside of the wall region (13) facing the interior of the fuel tank (8).