DE102011056118A1 - Modular common rail system for internal combustion engine, comprises nozzle unit opening against spring force in pressurized manner, where control units of fuel injecting units have adjusting and control elements separated from nozzle units - Google Patents

Abstract

The modular common rail system (1) comprises fuel injecting units (5), which have a control unit (4), a nozzle unit (6) grouted on a combustion chamber (10) of the internal combustion engine (2) and opening against the spring force in a pressurized manner, and storage units (3) containing storage volumes. The control units of the fuel injecting units have adjusting and control elements separated from the nozzle units and are particularly assigned to the control units. The control unit and the storage unit are combined to a structural unit, which has a storage block (13) with a storage bore.

Description

The invention relates to a modular common rail system for internal combustion engines according to claims 1 and / or 5.

Modular common rail systems for internal combustion engines are, for example, from DE 101 57 135 B4 known. The supply of injecting into the combustion chambers of the internal combustion engine fuel injection units is carried out in these individually or in pairs on separate, remote from each other and connected in series line-connected storage units in the form of rail sections, which are each closed at the front by cover parts. In the lid parts the adjusting, control and metering elements of the control units of the fuel injection units are added. The control units are conductively connected to the nozzle sections injecting the combustion chambers. The placement of the control units in the cover parts limits the design options for the rail sections and their arrangement options.

The refinement according to claim 1 or 5 is intended to show further design possibilities for common rail systems with fuel injection units injecting onto the combustion chambers of internal combustion engines, which are characterized by simple construction and, in particular, also for the retrofitting of internal combustion engines with common rail systems. Systems are suitable, in particular come as retrofit solutions in question.

This in particular by the fact that in each case a control unit and a memory unit are combined to form a unit which has a memory block which is provided with a transversely extending to terminal surfaces of the memory block, storage volume receiving storage bore, and this at transversely to the storage bore attached control unit.

In this basic structure, the control unit axially clamped side attached to the memory block can be connected to it, so that based on the design of the control unit and its elements can be largely used parts of known, commercial injectors, only with the difference that the control unit is not immediately on the respective combustion chamber of the internal combustion engine is injected via a nozzle part, but instead of such a nozzle part has a connection element for the leading to the combustion chamber injector nozzle leading pipe connection.

This connection element can, analogous to a nozzle part with injection openings having coat in commercial Einspritzmitjektoren, have a coat which terminates on a pipe spigot against which the pipe connection is to be screwed in injection systems conventional manner, wherein the connecting element as the nozzle part in commercial injectors with the Actuator and the control part clamped axially - summarized, for example, a union nut structurally to a control unit, in particular clamped together. This axial clamping can be used to connect the control unit to the memory block at least substantially radial extent of the control unit to the storage block provided in the storage hole in a simple manner also to the clamping of the control unit with the memory block, in particular by screwing by means of a union nut against the memory block, at the same time a high-pressure tight connection connection of the elements of the control unit and the control unit to the memory block and to the memory bore provided in this can be achieved.

A juxtaposed arrangement of the memory blocks on their connection surfaces also leads to an axially very compact unit, which can be controlled very well under sealing aspects, since the connection between successive memory blocks via bridging, engaging in the storage bore, radially inside pressurized sealing sleeves to achieve in a simple manner is. Arranged in this way, the memory blocks include a continuous rail, which is modularly constructed from memory blocks and, accordingly, can also be matched to the requirements of the respective internal combustion engine. It is also within the scope of the invention to use a "dummy block" between successive memory blocks, which carries no control unit and which is provided only with its storage bore, but where appropriate is equipped with a further storage unit with regard to the equipment of the system.

The axial clamping of the memory blocks is preferably carried out parallel and circumferentially adjacent to the storage hole clamping anchor, the inventive structure also offers the advantage parallel to the storage bore extending through the memory blocks passing through manifolds in particular for tax leakage, mixed leakage and possibly also for inlet and outlet of Provide lubricating, cooling and heating fluids, if this particular with respect to the controller of a control unit and / or the temperature of the fuel flow area of or to the control unit is required.

Overall, this results in a not only compact, but also simple and insensitive construction.

Another solution according to the invention, to simplify a common rail system and construct it using commercially available components used in axially compressed injectors, according to claim 5, is that a respective control unit and a nozzle part injecting a combustion chamber of the internal combustion engine comprise comprehensive fuel Injection unit is connected to a storage volume formed in at least one storage tube such that the control unit of the fuel injection unit is separated from the nozzle part associated with a control block which is mounted on the storage tube, wherein the storage tube is surrounded by the control block on the periphery and the Control unit is attached transversely to the storage tube on the control block.

This allows to the widest extent the use of conventional components both for the formation of the storage volume as well as for the formation of the control unit and on the respective combustion chamber of the internal combustion engine injecting, pressurized spring-opening nozzle member, so that for the intended modular design of the system substantially only must be resorted to an additional part, namely the control block, can be integrated in the preferred manner supply lines as well as leakage lines and in a particularly simple and secure way also allows a pressure-tight clamping of the control unit against the storage tube on which the control block is placed ,

Such an embodiment is particularly suitable for solutions in which a divided into individual sections storage tube is provided, wherein the individual sections can form separate units with each associated control blocks, so that a high spatial flexibility for the arrangement is given, which is also cheap and preferably allows short piping paths between the respective control unit and the associated nozzle part.

With regard to control and leakage lines, it proves to be expedient in such a system if these, in particular at least largely parallel to the rail, are guided over a plurality of control blocks and run out onto common connection sockets which are arranged adjacent to the control blocks end-to-end on the respective storage tube and which have the corresponding external connections. In this case, according to the invention, an axial clamping of the connection sockets against the respective end control block can be provided, into which the respective supply lines running via the control blocks open, so that a simplified, sealing closure can be achieved.

Further details and features of the invention will become apparent from the claims. Furthermore, the invention will be explained with reference to embodiments. Show it:

1 and 2 a first embodiment of a control unit of a modular common rail system in section and view, and the

3 to 6 a second embodiment of a control unit of the modular common rail system with further details in section and view.

The 1 and 2 relate to a modular common rail system 1 for internal combustion engines 2 like this in 2 in a related to an internal combustion engine 2 strongly schematic front view is illustrated. Separated from the internal combustion engine 2 and in relation to this greatly enlarged representation is of the common rail system 1 a storage unit 3 shown that the control unit 4 a fuel injection unit 5 is assigned, the nozzle part 6 as from the control unit 4 discontinued component of the cylinder head 7 a cylinder 8th associated with the internal combustion engine. About the nozzle part 6 becomes the fuel that passes through the control unit 4 metered and over the line connection 9 the nozzle part 6 pressurized with spring force in its open position adjustable nozzle needle is supplied to the indicated combustion chamber 10 of the respective cylinder 8th injected.

Through to the nozzle part 6 separate arrangement of the control unit 4 the fuel injection unit 5 with between the control unit 4 and the nozzle part 6 by a piping given, adapted to the particular structural conditions line connection 9 are for the spatial allocation of the storage unit 3 with control unit 4 to the internal combustion engine 2 with on the combustion chamber 10 injecting nozzle part 6 given extensive freedom. This with respect to the fuel injection unit 5 despite the physical separation of the control unit 4 to the nozzle part 6 without significant overhead in comparison to commercially available injection injectors with components stacked axially to form a structural unit, since these components are actuators 11 and control part 12 , at least largely, can be taken over unchanged and thus no custom-made products are required.

Only instead of one with Steller 11 and control part 12 to a unit formed as a unit control unit nozzle part 6 becomes a connection element 15 provided in one spigot 32 for connecting the line connection 9 runs out and that as a coat in its outer contour of the jacket of the nozzle part 6 has largely corresponding shape. This is the control unit with the connection element 15 axially clamped against the memory block 13 fixed.

1 illustrates in this respect the approach of the nozzle part 6 to the cylinder head 7 , For example, by screwing by means of a clamping plate 41 , The storage unit 3 a respective fuel injection unit 5 is through a memory block 13 formed against which the control unit 4 with between their control part 12 and the memory block 13 lying actuator 11 over a clamping nut 14 , in particular union nut, is braced.

The memory block 13 is from a storage hole 16 interspersed, between axial connection surfaces 17 of the memory block 13 extends continuously and the transverse, in particular perpendicular to the extension direction of the radial to the memory block 13 attached control part 4 lies. The control unit 4 has a connection 18 to the storage hole 16 up and over the clamping nut 14 sealing with the memory block 13 connected. Each with a storage unit 3 The combined parts are essentially the ones with the respective memory block 13 connected control unit 4 formed, with the respective memory blocks 13 of storage units 3 over their connection surfaces 17 in the longitudinal direction of the storage bore 16 can be axially clamped together. To the appropriate tension are the memory blocks 13 , as in 2 shown in the peripheral area to the storage hole 16 with axial mounting holes 19 for clamping elements, not shown, in particular clamping anchor provided. Furthermore, preferred are in the memory block 13 channels 20 provided, for example, for the control leakage, for the mixed leakage, as well as for the inlet and the outlet of cooling liquid, based on the individual mutually braced memory blocks 13 preferably axially aligned with each other and thus connect a central supply of the composite common rail arrangement 21 enable.

Relating to high pressure channel connections, in 1 illustrated with respect to the storage hole 16 , proves a bridging of the gap connection between successive memory blocks 13 over sealing sleeves 22 as in the invention expedient and advantageous, the inside pressurized via its outer surface sealing against the wall of each receiving channel, so here the storage hole 16 issue. Relative to a reliable sealing effect with the least possible impairment of the respective channel cross-section through the sealing sleeve 22 it proves useful if, as in 1 illustrates the receiving channel, here so the hole 16 , in his against the gap between adjoining memory blocks 13 outgoing areas is formed widening conically and in this area via a sealing sleeve 22 is lined, which tapers towards its opposite ends, in opposite directions to the extension of the channel cross-section in the direction of the gap connection. Preferably results for the sealing sleeves 22 in the overlap area to the gap connection between successive memory blocks 13 a radially thick-walled central longitudinal area 23 , against the opposite ends of the sealing sleeve 23 wedge-shaped tapering cross-sectional areas 24 connect. For these tapered cross-sectional areas 24 is expiring against the lip-like, axial end, an opposite inclination radially inwardly and radially outwardly provided, such that the end-side lips 25 approximately on the bisecting, between the inner and outer, mutually inclined boundaries of the tapered cross-sectional areas 24 lie, wherein for the inner boundaries, as shown in the embodiment, a concavely outwardly curved course may be appropriate.

Another embodiment of a common rail system 1 according to the invention illustrate the 3 to 6 , Again, structurally, there is a spatial separation between the nozzle part 6 and the control unit 4 the fuel injection unit provided, wherein in the 3 to 6 according to 1 on the combustion chamber 10 an internal combustion engine 2 Injecting nozzle part 6 and the connection of the control part 4 to the nozzle part 6 not shown.

Notwithstanding the embodiment according to 1 and 2 is at the common rail arrangement 26 according to 3 to 6 the storage volume in a storage tube 27 formed, from which the respective, in the 3 to 6 only by its control unit 4 illustrated fuel injector is supplied. The connection of the control unit 4 to the storage tube 27 takes place for a respective control unit 4 over one on the storage tube 27 attached control block 28 that the storage tube 27 circumferentially at least partially surrounds and against the storage tube 27 is so strained that in turn to the control block 28 fixed control unit 4 to the storage volume in the storage tube 27 connected.

The embodiment shows with respect to the control block 28 an embodiment in which this axially on a respective storage tube 27 is deferred and the storage tube 27 encloses radially. In this case, the position of the control block is preferred 28 to the storage tube 27 via the control unit 4 given, which are radial to the storage tube 27 essentially a bore 29 in the control block 28 is arranged and in the direction of the hole 29 radially into a supply opening to the storage volume 30 of the storage tube 27 sealingly engages. The supply opening 30 For this purpose, it preferably runs in the direction of the control unit 4 in a trough-shaped depression in the storage tube 27 out, in which a pin-shaped connection part 31 the control unit 4 engages, the control unit 4 as based on the 1 and 2 already mentioned, in turn preferred in axial clamping an actuator 11 , a control part 12 and a connection element 15 includes, as in 4 in a sectional enlargement Z in section, in the direction of the casing, not shown, to the nozzle part 6 in a pipe spigot 32 runs out, to which the nozzle part 6 leading into the 3 to 6 not shown pipe via a screw tight connection is set.

The control unit 4 is in the embodiment according to 3 to 6 , in particular from 6 seen in a bush-like clamping part, in particular a clamping bush 33 taken in a hole 29 of the control block 28 is used. To the control unit 4 is the clamping bush 33 positively supported, with appropriate axial tension on one to the control block 28 in particular by screwing tensioned clamping plate 34 ,

The control unit 4 is in the embodiment how 6 shows in a socket 33 taken in the hole 29 of the control block 28 is inserted and the to the control unit 4 axially preferably positively supported, such that with a corresponding axial clamping of the socket 33 to the control block 28 the socket 33 together with the control unit 4 to the storage tube 27 is arranged securely in position. The axial tension of the bush 33 is in the embodiment of a clamping plate 34 illustrated on the jack 33 is axially supported and in turn, in particular by screwing against the control block 28 is tense.

This basic arrangement makes it possible along a storage tube 27 one or more control units 4 via their respective control block 28 fixed and with the storage volume of the storage tube 27 connected to install. This allows the respective building conditions of an internal combustion engine 2 Be taken into account, and this with over the internal combustion engine passing storage cylinder 27 or when dividing the storage tube 27 on sections, each one or more cylinders 8th the internal combustion engine 2 are assigned and to each via one or more injectors 5 is injected, the control unit 4 to the storage tube 27 set and from the storage volume of the storage tube 27 is supplied.

The guide and holder of the respective control unit 4 to the storage tube 27 via the control block 28 makes it possible in an advantageous manner, each required for leakage and / or cooling connection connections to the control part 4 so in the control block 28 integrate that to the control blocks 28 several control units 4 associate associated connection connections on common connection pipes or connecting lines, along the storage tube 27 run and for each also collectively common connection sockets 35 with corresponding supply connections on the storage tube 27 can be arranged. Such connection sockets 35 are axially adjacent to the end to the storage tube 27 lying control blocks 28 in 3 illustrated with reference to the connection terminals 36 not shown on further lines.

3 further shows the end-side conclusion of a storage tube 27 on which one or more control blocks 28 in particular with associated connection sockets 35 are arranged, via closure elements 37 , if necessary also the connection sockets 35 axially against the next following on the storage tube 27 arranged control blocks 28 can be determined.

Especially in the 5 and 6 are the memory blocks 28 passing, alongside the storage tube 27 running holes 38 shown by the on the sockets 35 expiring supply lines 39 run, when connected to respective, to the control section 4 existing connections, the addressed supply lines 39 as manifolds for the control leakage, for the mixed leakage and / or as inflow and outflow lines for the cooling of the control units 4 Can be used.

In a simple way, it is also possible, as indicated, the connection area between the storage tube 27 and respective control unit 4 in a control block 28 via a leakage connection 40 but also such leakage connections 40 can in turn be merged in the described way.

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 10157135 B4 [0002]

Claims (8)

Modular Common Rail System ( 1 ) for internal combustion engines with fuel injection units ( 5 ), each having a control unit ( 4 ) and an injecting onto a combustion chamber of the internal combustion engine, pressurized against spring force opening nozzle part ( 6 ) and storage units containing storage volumes ( 3 ), in which the control units, in particular actuators and control elements, ( 4 ) of the fuel injection units ( 5 ) from the nozzle parts ( 6 ), and in particular piping connected, the memory units ( 3 ) are assigned and in each case a control unit ( 4 ) and a storage unit ( 3 ) are grouped together to form a memory block ( 13 ) with a transversely between connecting surfaces ( 17 ), a storage volume receiving storage bore ( 16 ) and across the storage hole ( 16 ) attached control unit ( 4 ) having. Modular common rail system according to claim 1, characterized in that the control unit ( 4 ) detachable, in particular by screwing to the memory block ( 13 ) connected is. Modular common rail system according to claim 1 or 2, characterized in that at least two memory blocks ( 13 ), with their connection surfaces ( 17 ) are braced against each other, connected to a unit with a common storage volume. Modular common rail system according to one of the preceding claims, characterized in that the storage holes ( 16 ) successive memory blocks ( 13 ) via a bridging, into the storage holes ( 16 ) engaging sealing sleeve ( 22 ) are connected. Modular Common Rail System ( 1 ) for internal combustion engines with fuel injection units ( 5 ), each having a control unit ( 4 ) and one on a combustion chamber ( 10 ) of the internal combustion engine ( 2 ) Injecting pressurized against spring force opening nozzle part ( 6 ) and with in at least one storage tube ( 27 ) storage volume at which the control units ( 4 ) of the fuel injection units ( 5 ), from the nozzle parts ( 6 ) and in particular piping connected, control blocks ( 28 ) are assigned to the storage tube ( 27 ), wherein the storage tube ( 27 ) from the control block ( 28 ) is peripherally embraced and the control unit ( 4 ) across the storage tube ( 27 ) at the control block ( 28 ) is set. Modular common rail system according to claim 5, characterized in that the control blocks ( 28 ) associated pipe sections of the storage tube ( 27 ) Component of an adjacent control block ( 28 ) connecting storage tube ( 27 ) are. Modular common rail system according to claim 5 or 6, characterized in that a storage tube ( 27 ), which has at least one control block ( 28 ) passing through the pipe section, the end at least one preferably adjacent to the control block ( 28 ) lying connection socket ( 35 ) wearing. Modular common rail system according to claim 7, characterized in that the connection socket ( 35 ) on the storage tube ( 27 ) and / or as a closure element ( 37 ) to the storage tube ( 27 ) is formed end attached.

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