EP1239147A2 - Injector mounting device - Google Patents

Abstract

The jet holder fixing device fixes an injection jet (3) in the boring (6) of a housing (2). The jet holder (1) is connected via a clamping element (16) to the housing. There is a support element (20) between the jet holder and the clamping element. This support element is in the form of a coil, like a coil spring.

Description

Technical field

In the case of injection systems of internal combustion engines, the injection nozzles used in these fixed by nozzle holder. The nozzle holders are attached using clamping screws attached to the internal combustion engine. A face of the injector facing the injector Nozzle holder holds the injection nozzle, which is in a bore on the cylinder head of an internal combustion engine is inserted in its installation position. The nozzle holder itself is received in the clamping screw surrounding this by means of a support element.

State of the art

DE 197 01 879 A1 describes a fuel injection device for internal combustion engines known. The fuel injector includes one from a high pressure pump Fuel-fillable common high-pressure manifold (common rail) that over Injection lines with projecting into the combustion chamber of the internal combustion engine to be supplied Injectors is connected. The opening and closing movements of the injection valves are each controlled by an electrically controlled control valve, whereby the control valve is designed as a 3/2-way valve. This connects you to an injection port of the injection valve opening high pressure channel with the injection line or a relief line. There is a on the control valve member of the control valve High-pressure fillable hydraulic work space provided for adjustment the setting position of the control valve member of the control valve in a relief channel can be controlled.

US 3,934,903 relates to an injector assembly. There is a connector on the nozzle holder slipped onto a base and is additionally held by means of a coupling ring, which is embedded in an annular groove on the nozzle holder, fixed in its installed position. At the Connection piece two flanges are formed, via which flexible hoses can be plugged in to a further injector arrangement or Lead fuel reservoir. Between the nozzle holder according to US 3,934,903 and the latter an insert washer is inserted.

The assembly of a snap ring on the nozzle holder is difficult and time-consuming, since one Snap ring or washer have a low deformability, what when pushing the snap ring or a washer onto a nozzle holder Assembly step very hampered. The nominal size of the snap ring or washer corresponds to the diameter of an annular groove or a recess on the nozzle holder into which the snap ring or washer is seated after assembly. To the To simplify assembly, either the snap ring or the washer heated to achieve their expansion or the nozzle holder on which the snap ring or if the washer is to be installed, it is cooled in total. Both mounting options are complex and for large series production, in which injection systems and their Components are manufactured, disadvantageous.

Presentation of the invention

The advantages of the solution according to the invention lie above all in a much simpler one Assembly of the support element designed according to the invention on the nozzle holder. When in use a support element, which is designed as an endless ring, this can be done easily slide onto the nozzle holder. The elasticity of the support element gives it sufficient radial deformability so that the support element in its installed position returns to its original shape. If the provided with the support element The nozzle holder is inserted into the clamping element, the outer area of the support element is located in a recess of the clamping element and supports the nozzle holder in this. In the installation position of the support element designed as an annular worm spring lies individual turns of the support element to each other, so that a uniform sufficient Support effect can be achieved.

In addition to the formation of the support element in the form of a ring, the support element can, depending on the intended use be cut to the required length, which means an individual assembly for different purposes, in particular different nozzle holder diameters allows. A support element cut to length can be cut by a Clamping element, be it a clamping nut or a clamping screw, provided insertion opening assemble. With the front end, the support element runs into a channel that through recesses such as recesses or ring grooves on the nozzle holder and Clamping element is limited. If the entire length of the support element is received in the channel, can the assembly formed from the nozzle holder and clamping screw into the injector receiving bore above the combustion chamber. Also at this variant of the support element is a permanent one, due to the assembly Deformation of the support element excluded. The insertion opening in this variant is preferred as a hole on the key surface side of the clamping element educated.

In a further embodiment variant of the idea on which the invention is based the helical spring-shaped support element can comprise a circumferential support ring. The circumferential support ring makes the deformability of its peripheral surface recorded wire material wound in closely adjacent turns reduced. The wire material wound as an outer winding around the support ring leaves do not press together easily, so that this embodiment variant of the invention proposed support element ensures a recording of high pressing forces. Depending on the size of the free space, which is proposed by means of the invention Support element is to be filled in, the support ring of the support element in different Diameter strengths to be formed, around which the individual turns are then of the outer wire are wound. One, for example, on a straight wire support ring section Coiled wire can be easily deformed into an open ring shape on a curve become; the assembly of the support element proposed according to the invention can very easy by simply plugging it into the free space, i.e. the ring groove. at An open, curved wire ring as a support element is a connection of the open wire ends within the free space in which the support element is inserted in the circumferential direction becomes dispensable.

drawing

The invention is explained in more detail below with the aid of the drawing.

Figur 1

eine Düsenhalter/Einspritzdüsenanordnung im Längsschnitt,

Figur 1.1

Details eines erfindungsgemäß ausgebildeten Stützelementes zur Montage zwischen Düsenhalter und Spannelement,

Figuren 2.1 und 2.2

das Einschieben eines erfindungsgemäß ausgebildeten Stützelementes durch eine Bohrung am Umfang eines Spannelementes und

Figuren 3.1 und 3.2

ein vollständig in einen von zwei Einstichen gebildeten Kanal eingeführtes Stützelement und

Figur 4

eine als umwickeltes, verstärktes Stützelement ausgebildete Wurmfeder.

It shows:

Figure 1

a nozzle holder / injection nozzle arrangement in longitudinal section,

Figure 1.1

Details of a support element designed according to the invention for mounting between the nozzle holder and the clamping element,

Figures 2.1 and 2.2

inserting a support element designed according to the invention through a bore on the circumference of a tensioning element and

Figures 3.1 and 3.2

a support element fully inserted into a channel formed by two punctures and

Figure 4

a worm spring designed as a wrapped, reinforced support element.

variants

1 is a longitudinal section of a nozzle holder / injection nozzle arrangement refer to.

A nozzle holder 1 is shown in FIG screwed to a housing 2. Housing 2 is the combustion chamber an internal combustion engine wall, through which in the lower area Nozzle cone 4 of an injection nozzle 3 protrudes. It can be the case with the internal combustion engine both an air-compressing internal combustion engine and a mixture-compressing, spark ignition engine act. By means of the essentially as rotationally symmetrical Component nozzle holder 1 is the injection nozzle 3 in one Housing bore 6 fixed. An annular collar 5 is provided on the injection nozzle 3, which rests on an annular surface 9 of the housing bore 6. The injector 3 is via a sleeve screwed onto the nozzle holder 1, for example, in its installed position held, the sleeve on which a key surface is formed, depending on the depth of the Bore 6 is screwed out of its guide thread to different degrees.

An external thread 10 is provided in the head region 11 of the nozzle holder 1, via which additional components can be attached to the nozzle holder 1. The nozzle holder 1 is with provided in the illustration of Figure 1 inclined bore 12 which in a cross-sectional expansion 13 opens. In the cross-sectional extension 13 is a flow straightener 14 added, which is at its circumference individual in axial Direction extending circumferential slots 15 through which the fuel to the nozzle chamber (Not shown here) can flow out of the injector 3. With reference numeral 22 is denotes a drain hole through which fuel can flow into the leak oil. In the Inlet bore 22 is a disc-shaped support element 23 is arranged, on which a supports as a coil spring spring element 24.

To simplify the assembly of the nozzle holder 1 in the housing 2, for example the wall of a combustion chamber of an internal combustion engine is a centering element on the nozzle holder 1 21 added, which as shown in Figure 1 as a spherical body is trained. The spherical body protrudes in a housing 2 Longitudinal slot 7 and prevents rotation of the nozzle holder 1 during this Mounting in the housing 2. For mounting the nozzle holder 1 in the housing 2, i.e. in the wall of the combustion chamber, one designed as a clamping nut or as a clamping screw Clamping element 16, on which an external thread 17 is located below a key attachment 31 is trained. With the external thread 17, the clamping element 16 is in the internal thread 8 the housing 2 screwed. To support the nozzle holder 1 in the clamping element 16 the nozzle holder at the lower end of the external thread 17 of the clamping element 16 with a Support element 20 provided. The support element 20 is designed as a worm spring, which on the one hand enclosed by a recess 18 formed on the nozzle holder 1 or an annular groove is. In the same axial position as the recess or the recess 18 on Nozzle holder 1 is a corresponding recess or recess on the clamping element 16 19 formed which receive the support member 20.

If the pre-assembled module formed from nozzle holder 1 and clamping element 16 in the Screwed in housing bore 6 for fixing the injector 3 prevents the centering element 21 during the screwing of the tensioning element 16 into the housing 2 of the nozzle holder 1. Using a tool, the clamping element 16 is so far screwed into the housing bore 6 until the lower end face of the nozzle holder 1 on Collar 5 of the injector 3 is applied. As a result, the collar 5 is pressed against the annular surface 9, so that the injection nozzle 3 through the nozzle holder 1 in the housing 2 in its installed position is held permanently. The received between nozzle holder 1 and clamping element 16, Support element 20 designed as a worm spring lies in recesses 18 or 19 of clamping element 16 and nozzle holder 1 and supports the nozzle holder 1 relatively to the clamping element 16.

The representation according to FIG. 1.1 shows details of a support element configured according to the invention removable for assembly between nozzle holder and clamping element.

The support element 20 is preferably designed as a worm spring, the individual turns of which 26 are formed adjacent to each other in block length. The support member 20 is in the Diameter 25 of only a few millimeters, preferably 2 mm, and can be made accordingly assembled to form an endless support element 20 in the form of a ring be shaped. For this purpose, the open ends 27 of the clamping element cut into the installation length 20 suspended in a suitable manner or in any other way with each other connected. A support element 20 configured in this way has a radial extensibility on, which is a simple sliding of a support element procured as an endless ring 28 20 allowed on the nozzle holder 1. Is the support element designed as an endless ring 28 20 in the recess 18, be it a recess, be it an annular groove on the circumference of the Support element of the nozzle holder 1, it takes its original shape again, i.e. is not permanently deformed by the type of assembly. In the assembled state of the Support element 20 whose individual turns 26 abut each other in block length.

The representation according to FIGS. 2.1 and 2.2 is an insertion of a device designed according to the invention Support element to be removed through a hole on the circumference of a clamping element.

In this embodiment variant of the support element configured according to the invention, this is as a worm spring, which has a front end 33 and a rear end 34. The front end 33 of the clamping element, which is made up to the appropriate length 20 is in the insertion direction 29 in a from the key side 31 of the clamping element 16 extending insertion opening 30 stirred. The leading end 33 passes one Channel 32, between the nozzle holder 1 and clamping element 16 through each of these trained recesses or recesses 18 and 19 is limited. After the support element 20 with its rear end 34 almost completely enclosed by the insertion opening 30 is configured in a suitable section length, the support element 20 by means of a Tool completely pushed into the channel 32.

Figures 3.1 and 3.2 is a completely formed in one of two recesses Remove the inserted support element. The rear one is by means of an insertion mandrel End 34 of the support element 20 designed as a worm spring, entirely through the insertion opening 30 inserted into the insertion channel 32, which of the recesses 18 and 19 is annularly limited on the nozzle holder 1 or on the tensioning element 16. In the illustration 3.1 limit the front end 33 of the worm spring Support element 20 and its rear end 34 a free space 35. The individual turns 26 of the spiral-shaped support element 20 are adjacent to each other in block length so that a uniform support effect of the nozzle holder 1 in the clamping element 16, be it a clamping screw or be it a clamping nut, can be achieved. To completed assembly of the support element assembled as a worm spring in a suitable length 20 is its disassembly from the channel 32 between the nozzle holder 1 and the clamping element 16 not possible anymore. The pre-assembled assembly consisting of nozzle holder 1, Clamping element 16 and support element 20 received between them can now as shown in Figure 1 in the housing bore 6 of a housing 2, i.e. the The combustion chamber wall. The one caused by the support member 20 Support effect occurs as soon as the tensioning element 16 on its key side 31 with a Tool in the internal thread 8 of the housing 2, i.e. the combustion chamber wall is screwed and the lower end face of the nozzle holder 1 on the annular collar 5 of the injection nozzle 3 is applied. Due to the axial forces occurring during screwing, the support element, the only a radial deformability in the circumferential direction related to the nozzle body 1 inherent, in the recesses 18 and 19 of the nozzle holder 1 and clamping element 16th pressed.

FIG. 4 shows a worm spring designed as a wrapped, reinforced support element.

The illustration according to FIG. 4 shows that the support element 20 is annular curved portion is formed, the front end 33 and the rear end 34th are oriented by a distance 36 from one another. The variant of the support element 4 comprises a support ring 37 made of a wire material, on its peripheral surface 38, the individual turns 26 of an outer winding 41 abut each other. The winding of the outer winding 41 on the peripheral surface 38 of the Support ring 37 in the area of the front end 33 and the rear end 34 is selected so that recesses 39 of the front end 33 and recesses 40 at the rear end 34th such as when the front end 33 is moved towards one another onto the rear end 34 or in reverse direction, just interlock.

The outer winding 41 is preferably made of a metallic material with a diameter 42 wound, the individual turns 26 of the outer winding 41 touching abut each other. In contrast, the outer winding, which acts as a support ring 37 41 receiving wire ring formed in a diameter 43. The total diameter the arrangement, a support ring 37 and an outer winding received thereon 41, is identified by reference numeral 25 in FIG. 4. Reference numeral 44 gives the joint of the open ends 33 and 34 respectively in the embodiment variant Figure 4 shown, comprising a support ring 37 comprising support element 20, i.e. the position, in which the front end 33 and the rear end 34 of the annularly curved support element 20 in the oppositely formed recesses 39 and 40 on the front Engages end 33 or at the rear end 34 and the distance 36 of the front end 33 and the rear end 34 consequently becomes zero.

LIST OF REFERENCE NUMBERS

1

Injectors

2

Housing (combustion chamber wall)

3

injection

4

nozzle cone

5

ring-shaped waistband

6

housing bore

7

longitudinal slot

8th

inner thread

9

ring surface

10

Nozzle holder thread

11

Nozzle holder head

12

drain hole

13

Cross-sectional widening

14

Flow straightener

15

circumferential slot

16

clamping element

17

external thread

18

Recess nozzle holder

19

Tensioning screw recess

20

support element

21

centering

22

inlet bore

23

disc

24

spring element

25

Diameter support element

26

convolution

27

open end

28

Support element in the form of a ring

29

insertion

30

insertion

31

key page

32

channel

33

front end

34

rear end

35

free space

36

Distance between ends 33, 34

37

support ring

38

peripheral surface

39

Front end recess 33

40

Rear end recess 34

41

outside winding

42

Outer winding diameter

43

Support ring diameter

44

Joint support ring

Claims (13)

Nozzle holder for fixing an injection nozzle (3) in a bore (6) of a housing (2), the nozzle holder (1) being connected to the housing (2) via a clamping element (16) and between the nozzle holder (1) and the clamping element ( 16) a support element (20) is provided, characterized in that the support element (20) comprises a spiral spring-shaped winding (41). Nozzle holder according to claim 1, characterized in that the support element (20) is received in a channel (32) delimited by the nozzle holder (1) and by the tensioning element (16). Nozzle holder according to claim 2, characterized in that the channel (32) is delimited by a recess (18) on the nozzle holder (1) and by a recess (19) on the clamping element (16). Nozzle holder according to claim 1, characterized in that windings (26) of the winding (41) lie against one another wound in block length. Nozzle holder according to claim 1, characterized in that the support element (20) is designed as an endless worm spring (28). Nozzle holder according to claim 1, characterized in that the support element (20) is designed as a worm spring (28) which has a front end (33) and a rear end (34). Nozzle holder according to claim 1, characterized in that the support element (20) comprises a support ring (37) which receives the winding (41). Nozzle holder according to claim 7, characterized in that the support ring (37) is divided and a front end (33) and a rear end (34) of the winding (41) are formed opposite one another on its peripheral surface (38). Nozzle holder according to claim 7, characterized in that the ends (33, 34) of the winding (41) on the support ring (37) define mutually complementary shaped recesses (39, 40). Nozzle holder according to claim 6, characterized in that the tensioning element (16) comprises an insertion opening (29) for a front end (33) of the support element (20). Nozzle holder according to claim 6, characterized in that after the support element (20) has been completely inserted into the channel (32), the front end (33) and the rear end (34) of the support element (20) delimit a free space (35). Nozzle holder according to claim 1, characterized in that the support element (20) is designed with a diameter (25) between 1 and 10 mm. Nozzle holder according to claim 12, characterized in that the diameter (25) of the support element (20) is preferably 2 mm.

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