DE102015213899A1 - Fuel supply module with overvoltage protection device - Google Patents

Abstract

A fuel supply module (10) for supplying an internal combustion engine with fuel is proposed which has a module housing (12), an electric pump device (14) arranged at least partially in the module housing (12) for conveying fuel and a power supply line (16) is connected via a connector (18) with electrical contacts (22) of the pump device (14). The fuel supply module according to the invention is particularly characterized in that it further comprises an overvoltage protection device (30) for protection against overvoltages in the power supply line (16), wherein the overvoltage protection device (30) is at least partially disposed in the connector (18). As a result, an electromagnetic compatibility of the fuel supply module (10) can be increased in an advantageous manner.

Description

Field of the invention

The invention relates to a fuel supply module for supplying an internal combustion engine with fuel. In particular, the invention relates to a fuel supply module for a motor vehicle.

State of the art

Motor vehicles with internal combustion engines usually have a fuel supply module for supplying the internal combustion engine with fuel.

The fuel supply modules usually have a housing with a fuel pump disposed therein, at least one level sensor, a swirl pot and a jet pump, so that it can be ensured that the internal combustion engine is always supplied with fuel. The fuel pump can be configured, for example, as a DC commutator.

In order to increase an electromagnetic compatibility of an electric motor and / or an electric auxiliary drive in a motor vehicle, suppression devices are also often installed in a motor vehicle.

From the DE 10 2009 027 025 A1 an electric machine with a Entstörleiterplatte is known, which is arranged in close proximity to a first and / or second sliding contact of the electrical machine.

Disclosure of the invention

Advantages of the invention

Embodiments of the present invention may advantageously enable to provide a reliable and inexpensive fuel supply module with increased electromagnetic compatibility.

According to one aspect of the invention, a fuel supply module for supplying an internal combustion engine, for example an internal combustion engine of a motor vehicle, with fuel is proposed. The fuel supply module has a module housing and an electrical pump device, for example a fuel pump, arranged at least partially in the module housing for receiving fuel. Furthermore, the fuel supply module has a power supply line, which is connected via a plug connector to electrical contacts, for example pins, of the pump device. The fuel supply module according to the invention is characterized in particular in that it further comprises an overvoltage protection device for protection against overvoltages in the power supply line, wherein the overvoltage protection device is at least partially arranged and / or received in the connector.

With the help of the overvoltage protection device, an electromagnetic compatibility of the fuel supply module can be increased in an advantageous manner, that short-term generated by the pumping device voltage spikes in the power supply line can be avoided or intercepted by the overvoltage protection device, which is fed via the power supply line, for example, in an electrical system of a motor vehicle could become. The inventive arrangement of the overvoltage protection device can also be a costly adaptation of other components of the fuel supply module, such as the pump device and / or the module housing can be avoided. As a result, costs for the fuel supply module can be reduced or kept low.

Ideas for embodiments of the present invention may be considered, inter alia, as being based on the thoughts and findings described below. Pump devices or fuel pumps of fuel supply modules can be designed, for example, as a DC commutator pump and have a relatively high inductance. Due to the high inductance, voltage peaks of up to +/- 250 V or higher, which can be conducted via the power supply line to other electrical and / or electronic components and may damage the latter, can occur, in particular when the pump device is switched on and / or off. The inventive fuel supply module with overvoltage protection device such voltage peaks can be avoided in an advantageous manner.

According to one embodiment of the invention, the overvoltage protection device has at least one varistor and / or at least one diode. A varistor and / or a diode may be advantageous, in particular with regard to a component size of the overvoltage protection device, a lifetime and / or cost. The varistor may be metal oxide-based and comprise, for example, zinc oxide, chromium oxide, bismuth oxide and / or manganese oxide. A varistor may also be advantageous in terms of production costs of the fuel supply module, since it is installed independently of a polarity can be. As a diode, for example, at least one Zener diode can be used.

According to one embodiment of the invention, the overvoltage protection device is designed as an SMD component. On the one hand, this can increase a service life of the overvoltage protection device and, on the other hand, the overvoltage protection device can be provided as a compact component, so that due to space limitations, no or only slight adjustments of the fuel supply module may be required.

According to one embodiment of the invention, the overvoltage protection device is designed to short-circuit the power supply line at overvoltages greater than or equal to +/- 100 V (or greater than or equal to 100 V in absolute value), in particular greater than or equal to +/- 80 V. In other words, the overvoltage protection device can be designed to produce an electrically conductive connection between at least two electrical conductors of the power supply line at an overvoltage of +/- 100 V, or the overvoltage protection device can be designed such that it conducts at an absolute voltage above 100 V. becomes. It can thus be ensured that no further electronic components can be damaged by the voltage peaks generated by the pump device and / or that the voltage peaks are not fed into a vehicle electrical system, for example.

According to one embodiment of the invention, the overvoltage protection device has at least two electrical contact elements and the power supply line at least two electrical conductors, wherein the electrical conductors are each electrically conductively connected and / or contacted with one of the contact elements of the overvoltage protection device. The two contact elements and the two conductors can each have different electrical polarity.

According to one embodiment of the invention, each of the electrical conductors of the power supply line is connected to one of the contact elements of the overvoltage protection device via a crimp connection. The crimp connection can be used to produce a reliable, robust and stable electrical connection between the conductors and the contact elements. Also, such a connection can be made in a low-cost manufacturing process without special tools, so that manufacturing costs for the fuel supply module can be reduced.

According to one embodiment of the invention, the connector has a connector element which is electrically conductively connected at a first end to the electrical contacts of the pump device and at a second end opposite the first end to the power supply line. Furthermore, the connector has a housing element, in which the connector element is at least partially accommodated, and a protective element fastened, for example, to the housing element, to which the power supply line is at least partially held and which at least partially surrounds the overvoltage protection device. Such a robust, reliable and compact connector can be provided.

According to one embodiment of the invention, the overvoltage protection device is arranged in the longitudinal extension direction of the power supply line at least partially between the connector element and the protective element. Such a compact connector can be provided and the overvoltage protection device can be protected using the connector comprehensive against environmental influences.

According to one embodiment of the invention, the overvoltage protection device is arranged in the longitudinal extension direction of the power supply line at least partially between the housing element and the protective element. Such a compact connector can be provided and the overvoltage protection device can be protected using the connector comprehensive against environmental influences. The longitudinal extension direction of the power supply line may designate a longitudinal direction of the power supply line and / or the longitudinal extension direction may extend substantially parallel to a plug-in direction of the connector.

In particular, the overvoltage protection device may further be arranged in a direction transverse to the longitudinal direction of the power supply line at least partially between the protective element of the connector and the power supply line. The overvoltage protection device can at least partially rest against the power supply line. Such a compact connector and a protection of the overvoltage protection device may be provided by the protective element.

According to one embodiment of the invention, the connector element of the connector at the second end at least two crimp sleeves, in each of which an electrical conductor of the power supply line and a contact element of the overvoltage protection device are received and / or crimped. Such can be a reliable and inexpensive to produce be provided electrical connection between each a conductor and a contact element.

According to one embodiment of the invention, the protective element of the connector on a U-shaped configured portion, which is open in a direction of insertion of the connector and the overvoltage protection device at least partially surrounds. In other words, the legs of the U-shaped region may extend substantially in the insertion direction and the overvoltage protection device may be at least partially disposed and / or received between the legs. Also, the U-shaped configured portion of the housing element and / or the connector element at least partially embrace.

However, the protective element does not necessarily have to have a U-shaped area, but may alternatively or additionally have, for example, a cup-shaped, cubic, elliptical, curved, rounded, cylindrical, triangular, V-shaped, polygonal or any differently configured area, which e.g. can be configured open on at least one side, so that the overvoltage protection device can be at least partially received in this region of the protective element or at least partially surrounded by this area.

According to one embodiment of the invention, a clamping device is formed on the protective element, which surrounds the power supply line at least partially, so that the protective element is at least partially held on the power supply line and / or fixed. The protective element can be held in particular by a clip connection or clamping connection to the power supply line, wherein the clip connection can be provided by the clamping device. In particular, mechanical loading forces, such as e.g. Vibrations of the power supply line, at least partially absorbed by the clamping device and / or the protective element, so that they can not act or only reduced on the connector and / or the overvoltage protection device.

It should be understood that some of the possible features and advantages of the fuel delivery module are described herein with respect to various embodiments. A person skilled in the art will recognize that the features can be suitably combined, adapted or replaced in order to arrive at further embodiments of the invention.

Brief description of the drawings

Embodiments of the invention will now be described with reference to the accompanying drawings, in which neither the drawings nor the description are to be construed as limiting the invention.

1A shows a fuel supply module according to an embodiment of the invention.

1B shows a part of the fuel supply module 1A ,

2 shows a plan view of a pump device of a fuel supply module according to an embodiment of the invention.

3A to 3D each show components of a connector for a fuel supply module according to embodiments of the invention.

4 shows an electrical circuit diagram of a pump device and an overvoltage protection device for a fuel supply module according to an embodiment of the invention.

The figures are only schematic and not to scale. Like reference numerals designate the same or equivalent features in the figures.

Embodiments of the invention

1A shows a fuel supply module 10 according to an embodiment of the invention. 1B shows a part of the fuel supply module 10 out 1A ,

The fuel supply module 10 has a module housing 12 in which an electric pump device 14 or fuel pump 14 at least partially arranged and / or recorded. The module housing 12 has a substantially cylindrical body 13 on which the pump device 14 at least partially encloses. Next, the module housing 12 a lid 15 on, which on an end face of the body 13 is arranged. The lid 15 can form a mechanical support structure on which, for example, fuel lines 17 , Electric wire 19 and / or other components of the fuel supply module 10 arranged and / or can be attached.

Furthermore, the fuel supply module 10 a power supply line 16 for supplying the pump device 14 with electrical energy, the power supply line 16 above a connector 18 with the pump device 14 connected is.

Next, the fuel supply module 10 For example, have a jet pump, a swirl pot and / or at least one sensor element, such as a level sensor. Other components of the fuel supply module according to the invention 10 are described in the following figures.

2 shows a plan view of a pump device 14 a fuel supply module 10 according to an embodiment of the invention.

The pump device 14 has an interface 21 which may be formed as an inlet or outlet for fuel to be delivered by the pump device and approximately with the fuel line 17 can be connected. the interface 21 can do this with a check valve 11 exhibit.

Next, the pump device 14 a connector counter element 20 with at least two electrical contacts 22 on which different polarity carry. The contacts 22 are executed as pins or pin contacts. The connector counter element 20 is designed to work with the power supply line 16 connected connectors 18 at least partially so that the power supply line 16 with the contacts 22 can be connected. The connector counter element 20 has a cantilever 23 on which the contacts 22 at least partially surrounds and / or encloses. The cantilever 23 can be so asymmetric and cooperating with an outer contour of the connector 18 be configured that an orientation of the connector 18 for electrical contact with the connector counter element 20 can be defined, predetermined and / or predetermined.

3A to 3D each show components of a connector 18 for a fuel supply module 10 according to embodiments of the invention.

The connector 18 has a connector element 24 or a plug-in aid 24 on which at a first end 25 at least two chambers 26 for each of the contacts 22 the pump device 14 having. In the chambers 26 For example, in each case an electrically conductive contact element for contacting the contacts 22 be arranged. The contact elements can each be in the chambers 26 be locked.

At one the first end 25 opposite second end 27 has the connector element 24 two crimp sleeves 28 on, each with one of the in the chambers 26 arranged contact elements are electrically conductively connected.

In the connector 18 is also an overvoltage protection device 30 at least partially received and / or arranged, which for protection against overvoltages in the power supply line 16 is executed. The overvoltage protection device 30 has a varistor 32 as well as two contact elements 34 for contacting the varistor 32 on. The overvoltage protection device 30 may alternatively or additionally also comprise at least one diode. For example, the overvoltage protection device 30 have at least one Zener diode. Also, the overvoltage protection device 30 have about two antiparallel-connected Z-diodes. The overvoltage protection device 30 can be designed as an SMD module (surface mounted device, SMD).

The power supply line 16 also has two electrical conductors 29 on, which in each case with one of the contact elements 34 the overvoltage protection device 30 electrically conductive are connected. This is one of the leaders 29 and one of the contact elements 34 in one of the crimp sleeves 28 recorded and / or crimped. In other words, is ever a contact element 34 and one leader each 29 crimped together. The varistor 32 For example, it can be designed to provide an electrically conductive connection between the two conductors starting at an absolute voltage of around 100 V, preferably around 80 V. 29 produce or a short circuit between the conductors 29 the power supply line 16 manufacture. In this way, overvoltages, which occur during switching on and / or off of the pump device 14 can occur over the overvoltage protection device 30 be absorbed, so that the overvoltages are not about the power supply line 16 can get to other electrical / electronic components and damage them. Next, the varistor 32 at least partially between the ladders 29 the power supply line 16 be arranged and the contact elements 34 the overvoltage protection device 30 can be essentially parallel to the ladders 29 extend and / or at least partially abut this.

The connector 18 also has a housing element 36 in which the connector element 24 at least partially recorded and / or arranged. The housing element 36 can the connector element 24 at least partially enclose and executed to protect electrical contacts against environmental influences. The connector element 24 For example, with at least one locking lug 31 by doing housing element 36 be latched, with the latch 31 for example, in a cooperatively configured recess of the housing element 24 can engage or lock.

Next, the connector 18 a protective element 38 on which a clamping device 33 is formed, which is the power supply line 16 and / or at least one ladder 29 the power supply line 16 at least partially surrounds, so that the protective element 38 at least partially on the power supply line 16 and / or at least one conductor 29 held and / or fixed. The clamping device 33 For example, it may be configured as a kind of bracket, as in FIG 3C shown. The protective element 38 can with the help of the clamping device 33 in particular by a clip connection or clamping connection to the power supply line 16 and / or the at least one conductor 29 be held. The protective element 38 can be designed in particular to provide mechanical protection against, for example, a dropped, possibly grounded guide tube of the fuel supply module 10 to provide and thus counteract such a sparking.

The protective element 38 has a U-shaped partial area 40 on, which in a direction of insertion of the connector 18 is open and the surge protector 30 at least partially encompasses. In other words, has the U-shaped configured portion 40 two thighs 41 which are aligned in the direction of insertion and the overvoltage protection device 30 is at least partially between the two thighs 41 of the U-shaped partial area 40 arranged. At the ends of each thigh 41 is a catch 42 formed, which in each case in a cooperatively configured recess or a projection of the housing element 36 engages and / or locked.

The overvoltage protection device 30 is in the longitudinal direction of the power supply line 16 at least partially between the connector element 24 and the protective element 38 and / or at least partially between the housing element 36 and the protective element 38 arranged. In a direction transverse to the longitudinal direction of the power supply line 16 is the overvoltage protection device 30 at least partially between the protective element 38 and the power supply line.

4 shows an electrical circuit diagram of a pump device 14 and an overvoltage protection device 30 for a fuel supply module 10 according to an embodiment of the invention. Unless otherwise described, the pump device 14 as well as the overvoltage protection device 30 of the 4 have the same elements and features as described in previous figures.

The pump device 14 is in a case 43 arranged and / or recorded and the contacts 22 the pump device 14 are ever with one of the leaders 29 the power supply line 16 connected or electrically contacted.

Outside the case 43 the pump device 14 is the overvoltage protection device 30 arranged, in each case one of the contact elements 34 the overvoltage protection device 30 with one ladder each 29 connected, about crimped, is. As described in previous figures, the overvoltage protection device 30 at least partially in which the pumping device 14 contacting connector 18 arranged.

Finally, it should be noted that terms such as "comprising," "comprising," etc., do not exclude other elements or steps, and terms such as "a" or "an" do not exclude a multitude. Reference signs in the claims are not to be considered as limiting.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102009027025 A1 [0005]

Claims (11)

Fuel supply module ( 10 ) for supplying an internal combustion engine with fuel, comprising: a module housing ( 12 ); one at least partially in the module housing ( 12 ) arranged electric pump device ( 14 ) for conveying fuel; and a power supply line ( 16 ), which via a connector ( 18 ) with electrical contacts ( 22 ) of the pump device ( 14 ), characterized in that the fuel supply module ( 10 ) an overvoltage protection device ( 30 ) for protection against overvoltages in the power supply line ( 16 ), the overvoltage protection device ( 30 ) at least partially in the connector ( 18 ) is arranged. Fuel supply module ( 10 ) according to claim 1, wherein the overvoltage protection device ( 30 ) at least one varistor ( 32 ) and / or at least one diode. Fuel supply module ( 10 ) according to claim 1 or 2, wherein the overvoltage protection device ( 30 ) is designed as an SMD module. Fuel supply module ( 10 ) according to one of the preceding claims, wherein the overvoltage protection device ( 30 ) is designed, the power supply line ( 16 ) at overvoltages greater than or equal to +/- 100V. Fuel supply module ( 10 ) according to one of the preceding claims, wherein the overvoltage protection device ( 30 ) at least two electrical contact elements ( 34 ) and the power supply line ( 16 ) at least two electrical conductors ( 29 ), wherein the electrical conductors ( 29 ) each with one of the contact elements ( 34 ) of the overvoltage protection device ( 30 ) are electrically conductively connected. Fuel supply module ( 10 ) according to claim 5, wherein each of the electrical conductors ( 29 ) of the power supply line ( 16 ) each with one of the contact elements ( 34 ) of the overvoltage protection device ( 30 ) is connected via a crimp connection. Fuel supply module ( 10 ) according to any one of the preceding claims, wherein the connector ( 18 ) a connector element ( 24 ), which at a first end ( 25 ) with the electrical contacts ( 22 ) of the pump device ( 14 ) and with a first end ( 25 ) opposite second end ( 27 ) with the power supply line ( 16 ) is electrically conductively connected; and wherein the connector ( 18 ) further a housing element ( 36 ), in which the connector element ( 24 ) is at least partially included; and wherein the connector ( 18 ) further on the housing element ( 36 ) attached protective element ( 38 ), on which the power supply line ( 16 ) is at least partially held and which the overvoltage protection device ( 30 ) at least partially encompasses. Fuel supply module ( 10 ) according to claim 7, wherein the overvoltage protection device ( 30 ) in the longitudinal direction of the power supply line ( 16 ) at least partially between the connector element ( 24 ) and the protective element ( 38 ) is arranged; and / or wherein the overvoltage protection device ( 30 ) in the longitudinal direction of the power supply line ( 16 ) at least partially between the housing element ( 36 ) and the protective element ( 38 ) is arranged. Fuel supply module ( 10 ) according to one of claims 7 or 8, wherein the connector element ( 24 ) of the connector ( 18 ) at the second end ( 27 ) at least two crimp sleeves ( 28 ), in each of which an electrical conductor ( 29 ) of the power supply line ( 16 ) and a contact element ( 34 ) of the overvoltage protection device ( 30 ) and / or crimped. Fuel supply module ( 10 ) according to one of claims 7 to 9, wherein the protective element ( 38 ) of the connector ( 18 ) has a U-shaped partial area ( 40 ), which in an insertion direction of the connector ( 18 ) and the overvoltage protection device ( 30 ) at least partially encompasses. Fuel supply module ( 10 ) according to one of claims 7 to 10, wherein on the protective element ( 38 ) a clamping device ( 33 ) is formed, which the power supply line ( 16 ) at least partially surrounds, so that the protective element ( 38 ), in particular by a clip connection, at least partially on the power supply line ( 16 ) is held.

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