EP1310672A2 - Fuel pump for a fuel system of an internal combustion engine and fuel system - Google Patents

Abstract

The fuel supply system (10) incorporates a first pump (16) driven by an electric motor (18) which draws fuel from the tank (14) and passes it through a filter (19) to a second pump assembly (20). This assembly has the electric motor (24) and the radial piston pump (26) accommodated in a common fluid-tight housing (22). <??>The pump has a control module (28) connected to a main control module (38). The main control module is connected to the motor for the first pump and a pressure sensor connected to the common rail (30). The common rail feeds several injectors (32) each installed in a cylinder head in the engine (12).

Description

State of the art

The invention initially relates to a fuel pump device for a fuel system one Internal combustion engine, especially with direct injection, with a fuel pump and one connected to it Drive motor.

Such a fuel pump device from EP 0 725 212 A2 known. In this a fuel system is described in which a first fuel pump device fuel from a fuel tank to a second fuel pumping device and from there on over one High pressure area promotes to injectors. Both Fuel pump devices each include one Fuel pump and one with the fuel pump connected electric drive motor. The capacity Both fuel pumping devices can use the speed of the electric drive motor changed and adjusted become.

The disadvantage of the known fuel pump device is of that their handling and integration into that Fuel system is difficult and therefore building the Makes the fuel system expensive. Also corresponds to the Pump performance not in all operating points of the Internal combustion engine the requirements.

It is therefore the object of the present invention, a Fuel pump device of the type mentioned above to further develop that it builds easier and that that corresponding fuel system can be manufactured inexpensively can. Also, it should in particular Internal injection engines required high injection pressure in all operating points of the Can provide internal combustion engine.

This task is carried out in a fuel pump device at the outset that the Fuel pump is a radial piston pump and the Drive motor and the fuel pump with one unit form a common fluid-tight housing.

The design of the fuel pump as a radial piston pump enables the generation of high pressures, as in modern Fuel systems for internal combustion engines with gasoline direct injection required are. The fact that the Drive motor and fuel pump form one unit becomes the handling when building the fuel system considerably relieved. So the drive motor and Fuel pump existing unit are preassembled, so that when building the fuel system, for example in a motor vehicle only one common and not two separate parts must be handled.

The housing of the drive motor and the Fuel pump in a common fluid-tight housing again improves the manageability of such designed fuel pumping device. There is one such a fluid-tight housing for the Fuel pump required so this is not or hardly leads to additional costs. By also the drive motor in the fluid-tight housing is housed ensures that the drive motor from contamination is protected from the outside. So less can pollution-tolerant but powerful Electric motors are used, which is again the Performance of the fuel pumping device benefits comes. Also the lifespan of the fuel pump device is improved by this measure.

The efficiency of the fuel pump device according to the invention is also improved by the fact that otherwise required shaft seal from the Fuel pump to the drive motor can be omitted. A such shaft sealing is always with a certain Friction and some leakage, both of which reduces the efficiency of the fuel pump. The Eliminating the shaft seal also reduces costs.

Advantageous further developments of the invention Fuel pumping device are in subclaims specified.

For example, it is proposed that the Fuel pump a drive shaft with at least one Bearing includes which is a rotor shaft of the Drive motor is. One designed in this way Fuel pump device is very compact because of separate shafts on the one hand for the fuel pump and on the other hand, the drive motor is dispensed with. Also are for mounting the drive shaft or the rotor shaft overall fewer bearings required, resulting in fewer Dimensions and lower manufacturing costs of the fuel pumping device leads.

It is particularly preferred if one, preferably fluid-tight, cover is present, through which the Bearing is protected from particles from the Drive motor come. This will extend the life of the Bearing increases and the bearing must be less robust overall be interpreted, which is again the overall dimensions and cost of the fuel pumping device is reduced.

In a particularly preferred embodiment of the Fuel pump device according to the invention is the Interior of the housing of the fuel pump and the Drive motor unit formed by fuel at least flows in the area of the drive motor. This has the Advantage that the drive motor by the fuel is cooled, which improves its efficiency.

It is particularly preferred if the flow guidance in the interior of the housing from the fuel pump and the drive motor unit is designed so that the fuel will at least drive the engine flowed through in areas and then to the fuel pump arrives, and that in the flow path between the drive motor and fuel pump a filter device, in particular a sieve, is present.

With this fuel pumping device, the Drive motor optimally cooled, which is based on it Efficiency has a beneficial effect and what the total Delivery rate of the fuel pumping device improved. This prevents it from flowing into the flow channels Fuel pump or at their valve devices too Constipation is coming. These could be caused by parts which, for example, differ from the one brittle material made magnets of the drive motor peel off. In this development of the invention Fuel pumping device is the high efficiency available throughout the life of the facility.

The advanced training in which is also particularly compact the fuel pump drive shaft Has eccentric section and one around the eccentric section arranged around the ring and for each piston one with the Piston-connected slide shoe that bears against the cam ring are present, being in the radially outer peripheral surface of the cam ring a circumferential groove and in the shoe and in Pistons a radially extending channel are present. The Groove and the channels can be simple and inexpensive Way. Through the groove and the Channels can use less fuel Flow resistance can be performed. The bringing in complex bores, for example in a cylinder head the radial piston pump is therefore not required. This will additionally the costs are kept low.

The fuel pumping device is aimed in the same direction, where the fuel pump is on Piston arranged suction valve comprises. This measure too reduces the dimensions of the fuel pumping device and the cost of making them.

It is also proposed that at least that Valve element of the suction valve made of a ceramic Material is made. Such a ceramic Valve element builds relatively light, which advantages in terms on the valve dynamics. Furthermore, one is Valve element insensitive to wear, so that the service life of the fuel pump device designed in this way is high.

In a further particularly preferred embodiment of the Fuel pump device according to the invention comprises this an electronic control unit, which drives the engine controls, with a control unit housing, which on the Housing of the fuel pump and the drive motor formed unit with at least one fastener is attached. An electronic control is for the most types of drive motors are required anyway the signals required for the drive in the to provide the desired way. As a result of that the electronics are housed in a separate control section it can be optimally pre-assembled. In particular such pre-assembly conditions are adhered to, which for the error-free Operation of the control electronics are required. Then the control unit housing of the control unit on Housing of the fuel pump and the drive motor formed unit are attached. This still happens before they are installed on the internal combustion engine, the Assembly work on the internal combustion engine simplified.

It is again preferred that the fastener the wall of the housing of the fuel pump and the Drive motor formed unit penetrates, and that that Fasteners to the housing from the Fuel pump and the drive motor unit formed is sealed by a sealant. By that Fasteners the wall of the housing from the Fuel pump and the drive motor unit formed penetrates, becomes a particularly safe and stable Attachment of the control unit housing allows. By the Sealant provided according to the invention is simultaneously ensures that fuel is in the housing is present, from this not to the control section can leak.

It is also preferred if electrical lines, which lead from the control section to the drive motor with the Fasteners are connected. The connection of the Control electronics with the drive motor is this way simply possible. The lines can, for example potted in or on the fastener be welded or soldered so that the tightness between the control unit housing and the housing of the Drive motor and the fuel pump is guaranteed.

It is also advantageous if the fastener, preferably between the control part housing and the housing that of the fuel pump and the drive motor formed unit, a degassing duct leads to the outside. This ensures that if Fuel gases that pass or through the sealant this through from the interior of the housing of the Drive motor and the fuel pump to the outside, kept away from the sensitive control electronics and instead be derived into the environment.

The assembly of the fuel pumping device is repeated simplified by the fact that the housing from the Fuel pump and the drive motor unit formed comprises at least two parts which are fluid-tight are connected to one another, the part of which Fuel pump and one connected to the drive shaft Rotor and part of the stator. Both parts can therefore independently of one another in different production sites can be pre-assembled. The Final assembly is still very easy.

The invention also relates to a fuel system for a Internal combustion engine with direct injection, with a first Fuel pump, which fuel to a fuel pumping device that promotes a second fuel pump and an electric drive motor connected to it includes, and with a high pressure area in which the second Fuel pump promotes and at least one Fuel injector is connected.

To simplify the construction of the fuel system, the Assembling the components of the fuel system safer and cheaper to design and the performance of the Fuel system, it is suggested that second fuel pump is a radial piston pump and the Drive motor and the second fuel pump one unit form with a common fluid-tight housing.

drawing

Figur 1

eine schematische Darstellung eines Kraftstoffsystems einer Brennkraftmaschine mit Direkteinspritzung, welche eine Kraftstoff-Pumpeinrichtung umfasst; und

Figur 2

eine teilweise geschnittene Darstellung durch die Kraftstoff-Pumpeinrichtung von Figur 1.

A particularly preferred exemplary embodiment of the invention is explained in detail below with reference to the accompanying drawing. The drawing shows:

Figure 1

a schematic representation of a fuel system of an internal combustion engine with direct injection, which comprises a fuel pump device; and

Figure 2

a partially sectioned illustration by the fuel pump device of Figure 1.

Description of the embodiment

In Figure 1, a fuel system for a Internal combustion engine overall reference number 10. Die The internal combustion engine is only partially shown in FIG. 1 and bears the reference number 12.

The fuel system 10 includes a fuel tank 14, from which a fuel pump 16 delivers the fuel. This is driven by an electric drive motor 18 driven. The fuel pump 16 delivers the fuel via a filter 19 to a fuel pumping device 20. This comprises a housing 22 in which an electrical Drive motor 24 and a radial piston pump 26 are accommodated. There is an electronic on the housing 22 Control part 28 attached. On the exact structure of the Fuel pump device 20 will be discussed in more detail below received.

The fuel pump device 20 delivers the fuel under very high pressure into a high pressure area belonging fuel rail 30 ("rail"), in which the Fuel is stored under very high pressure. To this are multiple fuel injectors 32 connected. These inject the fuel directly into corresponding combustion chambers 34 of the internal combustion engine 12. The pressure in the fuel rail 30 is one Pressure sensor 36 detected. It delivers appropriate signals a control and regulating device 38. In turn lead from this Control lines to the electronic control part 28 of the Fuel pump device 20 and for electrical Drive motor 18, which drives the fuel pump 16.

The fuel pump device 20 is constructed as follows (Figure 2): The housing 22 is in two parts with one in Figure 2 left part 40 and a right part in Figure 2 42. Das left housing part 40 is block-shaped and has in Essentially circular cylindrical, disc-like shape. Coaxial to its longitudinal axis 44 is from the right in FIG a blind hole 45 is made in the left housing part 40. In this leads to several, distributed over the circumference arranged, radial and open to the outside Blind holes 46. In these are the cylinders of the Radial piston pump 26. In the sectional plane of Figure 2 is only one such cylinder visible. The radial direction blind holes 46 are each through an opening 47 fluidically with the electric drive motor 24 connected. A sieve insert is in each case in the openings 47 49 available.

In the blind hole 45 are two roller bearings 48 and 50 used, through which a drive shaft 52 opposite the left housing part 40 is mounted with low friction. To the stationary part of the right rolling bearing 50 is for electric drive motor 24 out a cover ring 53rd attached. Through this, the roller bearing 50 is in front of particles protected by the operation of the electric drive motor 24 can originate. The drive shaft 52 has an in Installation position at the level of the blind hole 46 Eccentric section 54. This is a turn Hubring 56 placed. In the area of a cylinder outer circumferential surface of the cam ring 56 each flattened.

In the radial blind hole 46 of a cylinder a sleeve 58 is used. In this is again a Piston 60 slidably received in the radial direction. At the radially inner end of the piston 60 is a slide shoe 62 attached. This is carried by a compression spring 64 the bushing 58 supports against the cam ring 56th applied. Flattened in the outer area The lateral surface of the cam ring 56 is a continuous groove 66 available. With this is a bore 68 in the shoe 62 and a bore 70 in which extends coaxially in the piston 60 Connection.

The bore 70 in the piston 60 has in its radially outer Area a larger diameter than in the radially inner Area. It is in the transition between these two areas an inclined transition surface (without reference number) present, which has a valve seat for a valve ball 72 a suction valve 74 forms. The valve ball 72 is off a ceramic material and is made by one Compression spring (without reference number) against the valve seat applied. Between the piston 60 and the blind hole 46 to the radially outwardly closing cylinder head 76 a work space 78 is available. Via a as a flat seat valve formed pressure valve 80, the working space 78 can an outlet duct 82 present in the left housing part 40 get connected. This continues to the fuel manifold 30th

The drive shaft 52 of the radial piston pump 26 is in Figure 2 to the right slightly over the interface of the left Housing part 40 and forms a rotor shaft 84 here a rotor 86 of the electric drive motor 24. Der Rotor 86 is on rotor shaft 84 by screw 88 attached and opposite to this by a locking disk 90th secured against rotation. The rotor 86 has a cup shape. On his magnets 92 are applied to the radially outer lateral surface.

The right housing part 42 is also cup-shaped. It is opposite the left housing part 40 via an O-ring 93 sealed. Are on its radially inner lateral surface Windings 94 of the drive motor 24 attached. The Interior of the right housing part 42 is not one illustrated inlet with the first fuel pump 16 connected.

In Figure 2 is to the right of the right housing part 42 the electrical control part 28. This comprises a housing 96, in which electronic components 98 are accommodated, which for the control of the windings 94 of the electric drive motor 24 of the radial piston pump 26 required are. The electronic components 98 are in turn controlled by the control and regulating device 38. The Control unit housing 96 is through on the right housing part 42 a bolt 100 attached. This is in two Sleeves 102 and 104 guided, between which an O-ring 106th is pressed in the installed position. The length of the sleeves 102 and 104 is chosen so that the O-ring 106 is still in the Area of the right housing part 42 is. The interior the right housing part 42 is thus fluid-tight completed.

In the bolt 100, power lines 108 from the Windings 94 led to the electronic components 98. The power lines 108 may be on the bolt 100 welded or soldered. Between the control unit housing 96 and the right housing part 42 leads from the screw bolt 100 in the form of a groove on the outside of the housing part 42 Degassing channel 110 radially outwards. Be through this in operation, gases coming from the right housing part 42 pass through the O-ring 106, from the electronic components 98 kept away and radially derived outside.

In operation, the fuel runs from the first Fuel pump 16 compressed to approximately 4 to 6 bar. He reaches the interior of the right one with this pressure Housing part 42. About the electronic components the electric drive motor 18 from the control device 38 rotated, whereby the drive shaft 52 in a rotational movement, the cam ring 56 in a rotating Stroke movement and the piston 60 in a reciprocating motion be transferred. The fuel flows through the interior of the right housing part 42 cools the components of the drive motor 24 and also that of the power electronics 98, and then passes through the openings 47, the groove 66 in Hubring 56, and the bores 68 and 70 in the slide shoe 62nd and in the piston 60 into the working space 78. Through the sieves 49 In the openings 47 there is contamination from the work area 78 kept away. The fuel passes from the working space 78 further via the outlet duct 82 to the fuel manifold 30th

The fuel pump device 20 becomes as follows assembled: First, the left housing part 40 with the Components of the radial piston pump 26 pre-assembled. The rotor 86 of the electric drive motor 24 is already attached to the rotor shaft 84. At the same time, possibly in another assembly plant, the right housing part 42 with the windings 94 are preassembled. Even the assembly of the Control part housing 96 and the connection of the windings 94 with the electronic components 98 in the control unit housing 96 is possible here.

Then the final assembly takes place, in which the right housing part 42 with the windings 94 pushed over the rotor 86 and on left housing part 40 is attached. In this way creates an integral and compact unit, which the Radial piston pump 26 for generating very high delivery pressures, the associated electric drive motor 24 for Generation of high speeds, and the electrical control part 28 for controlling the electric drive motor 24 includes.

Claims (14)

Fuel pump device (20) for a fuel system (10) of an internal combustion engine (12), in particular with direct injection, with a fuel pump (26) and an electric drive motor (24) connected thereto, characterized in that the fuel pump is a radial piston pump (26) and the drive motor (24) and the fuel pump (26) form a unit with a common fluid-tight housing (22). Fuel pump device (20) according to claim 1, characterized in that the fuel pump (26) comprises a drive shaft (52) with at least one bearing (48, 50) which simultaneously forms a rotor shaft (84) of the drive motor (24). Fuel pump device (20) according to claim 2, characterized in that a, preferably fluid-tight, cover (53) is provided, by means of which the bearing (50) is protected from particles which come from the drive motor (24). Fuel pump device (20) according to one of the preceding claims, characterized in that the interior of the housing (22) of the unit formed from the fuel pump (26) and the drive motor (24) is flowed through by fuel at least in the region of the drive motor (24) , Fuel pump device (20) according to Claim 4, characterized in that the flow guidance in the interior of the housing (22) of the unit formed from the fuel pump (26) and the drive motor (24) is designed such that the fuel first drives the drive motor (24 ) flows through at least in regions and then reaches the fuel pump (26), and that a filter device, in particular a sieve (49), is present in the flow path between the drive motor (24) and the fuel pump (26). Fuel pump device (20) according to one of the preceding claims, characterized in that the drive shaft (52) of the fuel pump (26) has an eccentric section (54) and a cam ring (56) arranged around the eccentric section (54) and for each piston (60) a slide shoe (62) connected to the piston (60) and resting on the lifting ring (56) is present, a continuous groove (66) in the radially outer peripheral surface of the lifting ring (56) and in the sliding shoe (62) and in Piston (60) a radially extending channel (68, 70) are present. Fuel pump device (20) according to one of the preceding claims, characterized in that the fuel pump (26) comprises a suction valve (74) arranged in the piston (60). Fuel pump device (20) according to claim 7, characterized in that at least the valve element (72) of the suction valve (74) is made of a ceramic material. Fuel pump device (20) according to one of the preceding claims, characterized in that it comprises an electronic control part (28) which controls the drive motor (24), with a control part housing (96) which is connected to the housing (22) from the Fuel pump (26) and the drive motor (24) formed. Unit is fastened with at least one fastening means (100). Fuel pump device (20) according to Claim 9, characterized in that the fastening means (100) penetrates the wall of the housing (22) of the unit formed from the fuel pump (26) and the drive motor (24), and in that the fastening means (100) is sealed against the housing (22) of the unit formed by the fuel pump (26) and the drive motor (24) by a sealant (106). Fuel pump device (20) according to Claim 10, characterized in that electrical lines (108) which lead from the control part (28) to the drive motor (24) are connected to the fastening means (100). Fuel pump device (20) according to one of Claims 10 or 11, characterized in that the fastening means (100), preferably between the control part housing (96) and the housing (22), consists of the fuel pump (26) and the drive motor (24). formed unit, a degassing duct (110) leads to the outside. Fuel pump device (20) according to one of the preceding claims, characterized in that the housing (22) of the unit formed from the fuel pump (26) and the drive motor (24) comprises at least two parts (40, 42) which are connected to one another in a fluid-tight manner the fuel pump (26) and a rotor (86) connected to the drive shaft (52) on the one hand and the stator (94) on the other part (42). Fuel system (10) for an internal combustion engine (12), in particular with direct injection, with a first fuel pump (16) which conveys fuel to a fuel pump device (20) which has a second fuel pump (26) and an electric drive motor connected to it ( 24) and with a high pressure area (30) into which the second fuel pump (26) delivers and to which at least one fuel injection device (32) is connected, characterized in that the second fuel pump is a radial piston pump (26) and the The drive motor (24) and the second fuel pump (26) form a unit with a common fluid-tight housing (22).

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