EP0906505B1 - Device for a fuel supply system in an internal combustion engine - Google Patents

Abstract

PCT No. PCT/DE97/02690 Sec. 371 Date Aug. 6, 1998 Sec. 102(e) Date Aug. 6, 1998 PCT Filed Nov. 17, 1997 PCT Pub. No. WO98/25024 PCT Pub. Date Jun. 11, 1998The invention relates to a device for a fuel system, having a pressure chamber that communicates with a fuel connection and having a diaphragm that is installed at its outer peripheral region in a housing and partitions off the pressure chamber. A preassembled unit can be fastened, with the diaphragm built into the housing, on the basic body and the diaphragm can come to rest on a stop provided on the basic body. The device is intended in particular for regulating a pressure in a fuel system.

Description

State of the art

The invention relates to a device for a Fuel system according to the preamble of claim 1.

Such a device is described in WO 90/03513 and DE-A-4 409 133 known. Another device is described in DE 44 02 224 A1 known. This device has one in the reservoir arranged feed pump on through an opening in the Storage container is insertable. The opening in Storage container is by means of a closure part closable, on which a pressure regulator is arranged. The Pressure regulator has a pressure chamber that connects to the delivery side of the feed pump, to the internal combustion engine and to has a relief line. The closure part has thereby one made of plastic, the opening closing flange-like body. in the Base body is formed a recess into which a Connection of the pressure chamber to the relief chamber forming connecting piece formed in one piece with the base body protrudes. The deepening of the body is for education the pressure chamber with an elastically deformable membrane covered that directly as the face of the neck Seat interacts. The membrane is connected by a spring Applied to the nozzle, and when exceeding one Certain pressure in the pressure chamber, the membrane gives the nozzle free to connect the pressure chamber with the relief chamber. The membrane is attached to the body.

In the known device, the membrane is in the Inserted the depression, put on the spring and then the Membrane together with a cover against the body curious; excited. Because in the known device the power of Spring acts on the membrane before the membrane is fixed cannot be prevented with certainty, that the membrane shifts a bit sideways and thereby Malfunctions (e.g. pressure control errors, leaks etc.) can occur. Is the device in one Engine compartment installed, then leaks can be very getting dangerous.

According to an alternative embodiment of a device according to DE 44 02 224 A1 provides that the spring receiving housing has a flange on the outside bent free ends are formed. To attach the The flange becomes a collar of a recess in the housing Base body arranged, creating an outer edge of the membrane is clamped. The free ends of the flange reach behind hooks arranged on the collar, whereby the Flange holds the housing on the base body and the membrane clamps. However, this configuration has the disadvantage that that the hook of the recess the clamping force of the spring need to absorb, which acts on the membrane, so that The membrane closes the connection to the pressure chamber. The one there Large holding forces can not occur through the hook are adequately absorbed, resulting in a drop in the Control pressure can adjust. This is especially true because the base body holding the housing made of relatively soft, easily formable plastic. Beyond that has been found that after a long period of operation material fatigue due to swelling of the plastic can occur, whereby the flange of the holding element is not with sufficient pretension to recess the Base body be arranged and the membrane to the recess can be set.

WO 90/03513 and DE 44 09 133 A1 show basic bodies, each of which has a pressure regulator on the base body containing housing is attached. Because the housing is all for the pressure control function contains the necessary components, the effort to manufacture the pressure regulator is pretty expensive and it must be sealed in several places become.

Advantages of the invention

The device according to the invention for a fuel system with the features according to claim 1 has the Advantage that simple and quick installation e.g. one easy to manufacture and reliable Pre-assembly module can be made to the base body.

By the measures listed in the subclaims advantageous developments and improvements in Main claim specified device possible.

Furthermore, the device has the advantage that complex parts for forming, for example, a pressure regulator can be formed as components of the base body, which gives the preassembly assembly a simple configuration. Thus, the nozzle with the stopper, through which the fuel return is guided, can be injection molded together with the base body as plastic parts using an injection mold. This has the advantage that no additional effort is required in the manufacture of the base body for the manufacture of the stop.
Furthermore, the configuration of the pre-assembly module ensures that the spring is prevented from kinking during the assembly of the module, and thus that the diaphragm is properly positioned relative to the housing and the stop provided on the base body. This can reliably prevent the diaphragm from moving during assembly, which means that malfunctions (eg pressure control errors, leaks, etc.) can be excluded.

According to an advantageous embodiment of the invention provided that the pre-assembly over the attachment can be arranged under tension to the base body. The Attachment can preferably be a resilient ring preferably be designed as a snap ring, which according to the Insert the pre-assembly into the main body becomes. This makes installation quick and easy, which is also a structurally simple design to accommodate the preassembly on the base body allows.

Another alternative embodiment of the attachment can by an injected into the base body Fastening ring can be provided with snap elements are deflectable during assembly and when assembled engage behind a fastening section of the housing.

Another advantageous embodiment of the attachment can be given by a crimp, the one Fastening section of the housing of the preassembly embraces.

The preassembly is advantageously both on a base body of a tank flange as well as on one Base body of a fuel rail can be arranged. Regardless of these exemplary arrangements, the Pre-assembly according to the above Fastening principles also in other suitable positions between the tank and the internal combustion engine or Injectors can be arranged.

In the further dependent claims are advantageous Refinements and developments of the invention.

drawing

Fig. 1

eine Vorrichtung zum Versorgen einer Brennkraftmaschine mit Kraftstoff aus einem Vorratsbehälter,

Fig. 2

ein Verschlußteil des Vorratsbehälters von Fig. 1 nach einem ersten Ausführungsbeispiel,

Fig. 3

eine Darstellung im Querschnitt einer zweiten Variante der Befestigung der Vormontagebaugruppe am Grundkörper,

Fig. 4

eine Darstellung im Querschnitt einer weiteren Variante der Befestigung der Vormontagebaugruppe am Grundkörper,

Fig. 5

eine alternative Ausführungsform der erfindungsgemäßen Vorrichtung im Kraftstoffverteilerrohr und

Fig. 6

eine alternative Ausführungsform der erfindungsgemäßen Vorrichtung zur Druckdämpfung von Druckpulsationen des Kraftstoffs im Druckraum.

Several selected embodiments of the invention are shown in the drawing and explained in more detail in the following description. They show with different magnifications:

Fig. 1

a device for supplying an internal combustion engine with fuel from a storage container,

Fig. 2

1 according to a first exemplary embodiment,

Fig. 3

a cross-sectional representation of a second variant of the attachment of the preassembly to the base body,

Fig. 4

a cross-sectional representation of a further variant of the fastening of the preassembly to the base body,

Fig. 5

an alternative embodiment of the device according to the invention in the fuel rail and

Fig. 6

an alternative embodiment of the device according to the invention for pressure damping of pressure pulsations of the fuel in the pressure chamber.

Description of the embodiments

A device shown in simplified form in FIG. 1 is used for Supply an internal combustion engine 10 with fuel a storage container 12. This has a feed pump 14 on, which is arranged in the reservoir 12 and there in is not shown. The feed pump 14 can be done in any way, and this absorbs its suction side fuel from the reservoir 16 in Storage container 12 on. The reservoir 12 points in ciner Wall 18 has an opening 20 through which the feed pump 14 can be introduced. The opening 20 is after insertion the feed pump 14 can be closed with a closure part 22, through the closure member 22 a line for connection the pressure side of the feed pump 14 with the internal combustion engine 10 is performed. In the connection of the printing side of the Feed pump 14 with the closure part 22 can Fuel filter 15 may be arranged.

In Fig. 2, the configuration of the closure part 22 is Inclusion of a preassembled module that is used for the Fig. 2 preferred selected embodiment a part of a pressure regulator 24 is shown. The pre-assembled Subassembly is subsequently referred to as preassembly 23 designated. The closure member 22 has one Injection molding made of plastic flange-like Base body 30 on the opening 20 in the reservoir 12th covered. Between an outer edge of the closure part 22 and the wall 18 of the storage container 12 can be a sealing element be arranged. The closure part 22 is not in shown attached to the reservoir 12.

In the following, 22 position determinations are made on the closure part specified in which an arrangement inwards in the Storage container 12 means and an arrangement to the outside of Storage container 12 means groundbreaking.

On the base body 30 is an inwardly facing one piece Molded connection piece 33 to which a line (not shown) for connection to the pressure side of the Feed pump 14 can be connected. From the body 30 stands also from the outside another connector 37 on the one line (not shown) for connection to the Internal combustion engine 10 can be connected. The connecting pieces 33 and 37 are through channels 35 formed in the base body 30 and 36 connected to each other, the channel 35 of the Connection piece 33 extends approximately perpendicular to level 21. The Channel 36 of the connecting piece 37 runs parallel to the plane 21 away to the outside. The connecting piece 33 and 37 can also in other, largely arbitrary angular positions to level 21 or be arranged to each other.

A transition area between the channels 35 and 36 is included a channel 38 connected into a recess 43 of the Base body 30 opens. Center to the recess 43 is on Base body 30 a nozzle 45 arranged with a channel 46 is connected, the one facing inwards Connection piece 50 opens, to which a line is connected can be. The nozzle 45 has on its inside facing end face a stop 47 which in a Closed position is closed by a membrane unit 48. This membrane unit 48 has a membrane 49 on the other to the outside facing a plate 51 is arranged, the in the closed position on the stop 47. On the other A plate 52 is directed inward on the side of the membrane 49 arranged on which a spring 53 is supported. In the Indentation 43 is closed off by membrane 49 Pressure chamber 44 formed.

A return channel 55 is provided in the connector 45. The Return channel 55 leads from that on the front side of the nozzle 45 provided stop 47 to the channel 46. It can thus Fuel from stop 47, through return passage 55, through the channel 46 and through the connector 50 in the Drain the reservoir 12.

A valve body 60 is connected to the membrane unit 48. The valve body 60 is provided in a plate 51 Deepening held. The spring 53 acts on the Membrane unit 48 against the stop 47. Is the pressure in the Pressure space 44 below a certain value, then the Valve body 60 at stop 47. In this state it is Path for the fuel from the pressure chamber 44 in the Return channel 55 blocked.

If the pressure of the fuel in the pressure chamber 44 is greater than one certain value, then the membrane unit 48 against the opposed force exerted by the spring 53, and the Valve body 60 lifts off from stop 47. In this condition can fuel from the pressure chamber 44 into the return passage 55 reach.

The spring 53 exerts a counterforce on the membrane unit 48 out. The counterforce can also be caused in other ways become. For example, a gas space can be provided which acts pneumatically on the membrane 49 and thus the Membrane unit 48 acted against the stop 47.

The channels 35 and 38 form a fuel connection 40. Der Fuel connection 40 runs through the base body 30 Fuel connection 40 leads from the feed pump 14 delivered fuel or part of the delivered Fuel in the pressure chamber 44.

The preassembly module 23 of the pressure regulator 24 has a two-part housing 54, which consists of an upper part and a Lower part exists. The top of the housing 54 will hereinafter referred to as the first housing part 56, and that The lower part is given the name second Housing part 57. The housing 54 can be modified to preferably selected embodiment example also consist of three or more than three housing parts. The first housing part 56 and the second housing part 57 are advantageously formed from sheet steel. The first Housing part 56 and the second housing part 57 have at their free ends two mutually facing, parallel to each other arranged sections 58, 59, between which the membrane 49 is clamped in its edge area. Section 59 of the housing part 57 closes a further section 61 on the section 58 of the first housing part 56 embraces. It can also be the edge areas of the first Housing part 56 and the second housing part 57 with each other pressed or fixed in any other way, so that the membrane 49 at its outer edge region is clamped. This flaring makes it the first Housing part 56 to the second housing part 57 set so that a secure reception of the membrane unit 48 or the membrane 49 is given. The second housing part 57 has an opening 62, which is a connection between the pressure chamber 44 facing side of the membrane unit 48 and that in the Depression 43 provided pressure space 44 allows. The Flanging the housing parts 56, 57 at their respective The outer circumference in the area of the sections 58, 59, 61 forms a fixed connection 70 between the first housing part 56 and the second housing part 57 of the two-part housing 54. Due to the fixed connection 70, the outer edge region is Membrane 49 of the membrane unit 48 between the two Housing parts 56 and 57 firmly and tightly clamped.

The preassembly 23 is in a recess 63 of the Base body 30 arranged. From the base body 30 in the direction considered the reservoir 12, which goes in the Base body 30 provided recess 43 on a radial Paragraph 63a into the recess 63. The base body 30 facing surface of section 59 of the Pre-assembly 23 is located on the radial shoulder 63a of the Base body 30. At the transition between the recess 43 and the radial shoulder 63a is between the second Housing part 57 and the base body 30 a sealing element 64 arranged that a seal between the base body 30 and the preassembly 23. The sealing element 64 is used so that the fuel does not accidentally between the housing 54 and the base body 30 from the pressure chamber 44 can escape. Alternatively, it can be provided that tight arrangement of the preassembly 23 of the section 59 of the second housing part 57 a cam-shaped, rotating Elevation (not shown), the paragraph 63a intervenes. This cam-shaped elevation can be in one in the engage radial recess 63a provided recess. As well can be provided that the paragraph 63a is flat or the deepening less than the circumferential survey is trained. This can be achieved that a fairly high surface pressure and therefore a good one Sealing effect and a good hold of the assembly 23 for Recess is guaranteed. Even if the Deepening in the base body 30 is obtained by the survey a metallic seal with high surface pressure and therefore a good sealing effect. The sealing element 64 can thus can be saved or provided as an additional seal his.

The preassembly 23 is in the recess 63 used until the pre-assembly 23 with your Section 59 comes to rest on the radial shoulder 63a.

The recess 63 is of an annular, circumferential, in surround the reservoir 12 protruding bead. The bead is relatively narrow and can therefore be used with a simple Stamp can be bent slightly. The bead forms one deformable area 66 of the base body 30. Before the Attaching the pre-assembly module 23 to the base body 30 the bead has a cylindrical shape. To attach the Pre-assembly 23 to the base body 30 is the Sections 58, 59, 61 projecting bead radially inwards bent. This creates in the area of sections 58, 59, 61 of the housing 54 and the deformable, peripheral area 66 of the base body 30 a the pre-assembly 23 on Base body 30 holding attachment 80. Sections 58, 59, 61 of the preassembly 23 form one on the housing 54 the pre-assembly 23 provided attachment portion 80a, on which the deformable region 66 of the base body 30 can attack. As a result, the attachment 80 engages between the base body 30 and the preassembly 23 on the Attachment section 80a.

Because the sections 58, 59, 61 of the housing 54 formed fixed connection 70 a stable, resilient Represents area of the housing 54, this area of the Housing 54 also as a mounting portion 80a for the Connection 80 between the preassembly 23 and the Base body 30 used. This has the advantage that none Area of housing 54 specially for attacking the attachment 80 must be reinforced on the housing 54.

The second housing part 57 expediently has one cylindrical paragraph 67, whereby the Pre-assembly module 23 for recess 63 in a defined Position can be arranged. This ensures that the in the plate 51 held valve body 60 in the correct position Stop 47 of the nozzle 45 is arranged and the flow path for the fuel from the pressure chamber 44 into the return duct 55 can close properly. After assembly 23 is inserted into the recess 63, the bead crimped. As a result, the preassembly 23 in the Recess 63 of the base body 30 is arranged. This is ensures that a precise recording of the Pre-assembly 23 is given, which in turn a exact positioning of the membrane group 48 to the nozzle 45 given is.

in the first housing part 56 of the housing 54 is one Relief opening 65 is provided. This allows the on the the side of the membrane 49 facing away from the pressure space 44 Communicate room with the ambient air so that the Counter force of the spring 53 the valve body 60 against the stop 47 can act undisturbed. But it is also possible especially if the pressure regulator 24 is directly in the area the engine 10 is arranged, the Relief port 65 over one, the better Clarity due to line not shown for example with a leading to the internal combustion engine 10 Connect suction line, so that on the membrane unit 48 counterforce due to the pressure in the suction line can be influenced.

The attachment 80 of the preassembly 23 to the base body 30 can alternatively to flanging by turning or Caulking the bead of the deformable region 66 is given his. This embodiment of the invention Pre-assembly 23 also allows the Stub 45 in the base body 30 of the closure part 22nd can be integrated, making a simple design of the pressure regulator 24 is made possible, as well as a inexpensive design of the base body 30 itself surrounds the embodiment shown in FIG. 2 the bead serving as a deformable region 66 without Interrupting the outer edge of the recess 63. But it is also possible the bead at one point or at several Make its scope interrupt so that several, am Edge of the recess 63 on the base body 30 in the Reservoir 12 protruding the attachment portion 80a of the housing 54 protruding tabs arise after the Attaching the preassembly 23 to the base body 30 can be bent radially inwards. this is a further possibility of executing the attachment 80.

3 is a variant of the attachment 80 of the Pre-assembly module 23 for the base body 30 of the closure part 22 compared to FIG. 2 shown enlarged.

The same or equivalent parts are included in all the figures provided the same reference numerals. Unless otherwise mentioned or shown in the drawing, this applies mentioned and represented with the help of one of the figures Embodiments. Provided that from the explanations nothing else results in the details of the different embodiments can be combined with each other.

The base body 30 has a groove 71 into which a ring 72 after positioning the preassembly 23 in the Recess 63 can be arranged. This ring 72 can be used as Snap ring can be formed, which allows the Pre-assembly 23 held securely in the recess 63 becomes. The ring 72 has one at one point on its circumference radial slot. The ring 72 is elastic, springs outwards in the radial direction and thereby holds with elastic pre-tension securely in the groove 71. This Design has the advantage that a simple Replacing the preassembly 23 enables and a Tolerance compensation is possible. The ring 72 has in front of his Installation in the groove 71 viewed in cross section is approximately frustoconical shape, similar to a disc spring. The Ring 72 is inserted around the groove 71 so that the first inner diameter of the ring 72 on the portion 61 of the Mounting portion 80a of the housing 54 of the Pre-assembly 23 is applied and so that the outer Diameter of the ring 72 on the section 61 facing away Flank 71a of the groove 71 comes to rest. The distance between the flank 71a of the base body 30 and the radial extending paragraph 63a is on the thickness of the ring 72 and the thickness of the sections 58, 59, 61 Fastening section 80a so that the ring 72 elastic when installed in the groove 71 in the holding direction deformed. By installing the ring 72 in the groove 71 the ring 72, for example with the aid of a stamping tool partially or completely flattened. This creates after Installation of the ring 72 in the groove 71 in the ring 72 a Preload so that the attachment 80 the Pre-assembly module 23 on the base body 30 with elastic Prestress holds.

The embodiment can also be modified so that the ring 72, viewed in the circumferential direction, is light is wavy, the waveform on the installation dimensions so is tuned that the shafts of the ring 72 after installation be flattened somewhat in the groove 71 in the holding direction and thus the ring 72 due to its elastic deformation Fastening section 80a with bias against the radial Paragraph 63a of the base body 30 presses. This also leads to that the attachment 80 for an easy to manufacture durable and safe positioning of the Pre-assembly module 23 ensures against the base body 30.

Furthermore, it can be provided that after positioning the pre-assembly 23 in the recess 63 disc-shaped ring is arranged by then caulking or turning or flanging the deformable area 66 of the base body 30 die Pre-assembly module 23 under prestress in the recess 63 positioned.

3 shows, the diameter is the center in the second housing part 57 provided opening 62 smaller than the outside diameter of the opening Plates 51 of the membrane unit 48. This results in the second housing part 57 a stop 73 on which the plate 51st the membrane unit 48 can come to rest. Before growing the Pre-assembly module 23 on the base body 30 and after a possible removal of the preassembly 23 from Base body 30, the plate 51 abuts the stop 73. This has the advantage that before the pre-assembly 23 is attached to the base body 30, the stop 73 Holds plate 51 so that the spring 53 the membrane 49th cannot overstretch. This will make the pre-assembly 23 easy to handle, easy to store, and the Pre-assembly 23 is also before the attachment to the Base body 30 well protected from damage.

Is the pre-assembly 23 on the base body 30 grown, then there is sufficient distance between the Stop 73 and the membrane unit 48, so that in the attached Condition the membrane unit 48 not at the stop 73 but can come to the plant at stop 47.

Alternatively to the arrangement of the resilient ring 72 can be provided that a ring with a thread can be used which fixes the housing 54 in the recess 63. Due to the inclusion of the membrane 49 between the sections 58 and 59 of the first housing part 56 and the second Housing part 57 is a correct positioning of the Given membrane unit 48, since the threaded ring on the Section 61 of the second housing part 57 attacks and during the fastening process has no influence on the Membrane group 48 has.

FIG. 4 shows a further alternative to FIGS. 2 and 3 shown in cross section. The attachment of the Pre-assembly module 23 serving on the base body 30 Fastening 80 can be made in the base body 30 injected mounting ring 75. The Fastening ring 75 has on its inward-facing End, i.e. at its end pointing away from the base body 30, distributed over the circumference tabs 76, which after the Positioning of the pre-assembly 23 in the recess 63 are bent so that this section 61 of the second Reach behind housing ceilings 57 and preassembly module 23 set in the recess 63.

The fastening ring 75 consists for example of resilient Steel, and the length of the mounting ring 75 in Holding direction is so on the mounting section: 80a the Pre-assembly 23 matched that the Fastening ring 75 elastic when bending the tabs 76 deformed and by this elastic deformation of the Fastening ring 75 a the housing 54 against the radial Paragraph 63 creates exciting elastic preload.

Alternatively, it can be provided that the fastening ring 75 at its end pointing away from the base body 30 Has snap elements, which during the cultivation process Pre-assembly module 23 can be deflected and installed Condition with its hook elements section 62 of the reach behind the second housing part 57 and again in the Define recess 63. Another alternative Embodiments of attachment 80 that are simple Allow mounting of the preassembly assembly 23 are also conceivable.

The exemplary embodiments described in FIGS. 1 to 4 show the pressure regulator 24, which on the closure member 22nd is arranged. The pressure regulator 24 is in the reservoir 12 installed and as a so-called return-free system educated. The return-free system is called because with this system excess, of which Internal combustion engine 10 fuel not required by the provided in the closure part 22 pressure regulator 24 directly into the Reservoir 12 is returned and therefore none, excess fuel from the engine 10 in the reservoir 12 returning return line required becomes.

5 is an alternative embodiment of the device according to the invention in one Fuel rail 82 shown. With this The embodiment is not part of the base body 30 of the closure part 22 as in that shown in FIG. 2 Embodiment, but the base body 30 is Part of the fuel rail 82. The body 30 essentially corresponds to the shape shown in FIG. 2 is described, but without fasteners are provided, through which the base body 30 on Storage container 12 is arranged. 2 to 4 described options can also be used to attach the Pre-assembly module 23 for basic body 30 optionally be provided. The fuel rail 82 is usually in the engine compartment near the engine 10 arranged. The fuel comes from the feed pump 14 (Fig. 1) via a supply line to the channel 35 in the connecting piece 33 (Fig. 5). Excess, from the internal combustion engine 10 Fuel that is not required flows out of the pressure chamber 44 between the stop 47 serving as the valve seat and the Valve body 60 in the return channel 55 and from there the connecting piece 50 and by a not shown Return line back to the reservoir 12. The channel 36 in the integrally formed on the base body 30 37 does not lead to a better clarity injector shown. Via the injector the fuel gets into the internal combustion engine 10. Depending on Number of injectors required can be added to the Base body 30 of the fuel rail 82 next to the Channel 36 in the connecting piece 37 further connected in parallel Channels and connecting pieces are formed so that each of the Injectors via a separate connector on Fuel rail 82 is connected.

It should be noted that the pressure regulator 24 also anywhere else in the fuel supply system can be provided.

6 is also a device for a Fuel supply system shown with the membrane 49, that in its edge area between the first housing part 56 and the second housing part 57 is firmly clamped. Also at this embodiment is created by crimping the two Housing parts 56, 57 on the outer circumference of the connection 70, through which the two housing parts 56, 57 firmly together are connected and the membrane 49 in the housing 54 is tight, tight, is installed reliably and permanently. This one too Embodiment is the pressure space 44 with the Fuel port 40 connected. Via the fuel connection 40 can supply fuel to or from the pressure chamber 44 Pressure chamber 44 fuel are discharged. 6 shown device is used for example for smoothing Pressure pulsations of the fuel in the pressure chamber 44 or in Fuel connection 40. This device is therefore usually referred to as a pressure damper. 6 shown device can also be dimensioned so that the membrane 49 has a relatively large working stroke, so that the device has a corresponding increase in pressure Amount of fuel that the pressure chamber 44 can then releases a pressure drop in the fuel, which is why with appropriate dimensioning this device also as Fuel storage is called.

If the device as a pressure damper or Fuel storage work, then the in Fig. 3rd return channel 55 shown omitted.

The counterforce caused by the spring 53 is applied the membrane unit 48 against the stop 47. Is no pressure in the pressure chamber 44 or is the pressure in the pressure chamber 44 below a certain value, then the average is movable area of the membrane unit 48 at the stop 47. If the pressure in the pressure chamber 44 exceeds a certain one Value, then the membrane unit 48 lifts from the stop 47. at the embodiment shown in Fig. 6, in which the device has the function of a pressure damper Stop 47 the function of an end stop or one Rest stop on which the membrane unit 48 come to rest can. As shown in Fig. 6, was in this Embodiment on the provided in FIG. 3 Valve body 60 is dispensed with, so that in FIG Membrane 49 firmly connected plate 51 at the end stop serving stop 47 comes to the plant.

The attachment 80 according to the invention for the Pre-assembly 23 is also made of metal trained base body 30 possible. It is for example instead of that shown in FIG. 4 injected resilient mounting ring 75 a pinched or tensioned resilient ring to the body 30 arranged.

All preferred for the detailed description, Exemplary embodiments have in common that by the pre-assembly 23 a secure recording and positioning the membrane 49 or the membrane unit 48 is given, so that regardless of the rest of the design of the Device, in particular regardless of whether the Device as a pressure regulator, as a pressure damper or as Memory works, the preassembly 23 in the correct position Base body 30 is positioned, making a safe Positioning and functionality of membrane 49 is given, which separates the pressure chamber 44.

For those described with the aid of the drawing In the exemplary embodiments, the membrane unit 48 is located in the essentially within the pre-assembly assembly 23. The stop 47, depending on the use for the device as a valve seat or serves as an end stop, is provided on the base body 30. The stop 47 can be passed through together with the base body 30 simple spraying or pouring or injection molding of the Manufacture base body 30 together with base body 30. To produce the stop 47 on the base body 30 is none additional effort or an insignificant additional Effort required. But because the preassembly 23 can be made without the stop 47 is the Production of the pre-assembly 23 very easy. By simple attachment of the preassembly 23 using the Attachment 80 to the base body 30 results in a functional device, depending on the other Execution, for example as a pressure regulator or For example, work as a pressure damper or as a memory can.

In which the two housing parts 56, 57 hold together and the outer circumference of the membrane 49 clamping connection 70th a proven flare connection can be used, the has already been carried out in large numbers and has proven its worth and is easy to manufacture. Because the pre-assembly 23 with no complex to produce Stop must be provided is the manufacture of the Pre-assembly module 23 can be controlled very easily and safely.

Claims (14)

1. Device for a fuel system of an internal combustion engine, with a basic body (30), with a pressure space (44) provided in the basic body (30), with a fuel connection (40) leading through the basic body (30) to the pressure space (44), with a housing (54) held on the basic body (30) by means of a fastening (80), with a diaphragm unit (48) separating off the pressure space (44) and loaded against a stop (47) by a counterforce (53), the housing (54) comprising at least a first housing part (56) facing away from the stop (47) and a second housing part (57) facing the stop (47), the two housing parts (56, 57) being interconnected by a connection (70) and the diaphragm unit (48) being held peripherally by the connection (70), the second housing part (57) having a cutout which allows the diaphragm unit (48) to bear against the stop (47), characterized in that the stop (47) is provided on the basic body.
2. Device according to Claim 1, characterized in that the connection (70) is a crimped connection.
3. Device according to Claim 1 or 2, characterized in that the two housing parts (56, 57) and the diaphragm unit (48) are components of a pre-assembly unit (23) which can be connected to the basic body (30) by means of a fastening (80).
4. Device according to one of the preceding claims, characterized in that the fastening (80) holds the housing (54) on the basic body (30) with prestress.
5. Device according to one of the preceding claims, characterized in that the fastening (80) acts on a fastening portion (80a) of the housing (54).
6. Device according to one of the preceding claims, characterized in that the fastening (80) is designed as a ring (72) which can be inserted into a groove (71) of the basic body (30).
7. Device according to Claim 6, characterized in that the ring (72) is resilient in the holding direction.
8. Device according to one of the preceding claims, characterized in that the fastening (80) comprises a region (66) which is provided on the basic body (30) and can be reshaped after the housing (54) has been attached to the basic body (30).
9. Device according to one of the preceding claims, characterized in that the fastening (80) comprises a fastening ring (75) which is injection-moulded into the basic body (30) and grips behind the housing (54).
10. Device according to one of the preceding claims, characterized in that the stop (47) is designed as a valve seat.
11. Device according to Claim 10, characterized in that a return duct (55) is provided, which serves for conducting fuel away from the stop (47).
12. Device according to one of the preceding claims, characterized in that the stop (47) is designed as an end stop.
13. Device according to one of the preceding claims, characterized in that the two housing parts (56, 57) are interconnected by the connection (70) in the region of their outer periphery.
14. Device according to one of the preceding claims, characterized in that the diaphragm unit (48) is held between the two housing parts (56, 57) by the connection (70).

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