DE102005046065A1 - Flow control valve for internal-combustion engine, has pressurizing medium sealing closure plug formed through valve, and valve housing with end section inserted into pressurizing medium channel by longitudinal fit assembly - Google Patents

Abstract

The valve has a valve housing (6) with a cylindrical outer casing surface (5) supported at a pressurizing medium channel (3) of a machine housing (2). The machine housing includes a pressurizing medium sealing closure plug (12) formed through the valve at an orifice of the channel (3). A pressurizing medium port (9) runs radially through the casing surface and is connected with another pressurizing medium channel (4). An end section of the valve housing includes a closed housing base (11) and is inserted into the channel (3) by a hydraulically sealed longitudinal fit assembly.

Description

Territory of invention

The The invention relates to a flow control valve having a throttle cross-section for throttling hydraulic pressure medium, in particular in the lubricant circuit of Internal combustion engines. The flow control valve is essentially a cylindrical outer circumferential surface of a valve housing in a pressure medium channel of a machine housing, which is a pressure-tight Sealing plug at a mouth having the pressure medium channel in the environment of the machine housing, stored and has on a side facing away from the mouth a connected to the pressure medium channel first pressure medium connection on.

background the invention

Such flow control valves are known as a throttle device in hydraulic systems and controls and serve to supply pressurized hydraulic fluid with reduced volume flow to a hydraulic consumer. In the field of internal combustion engines, such a flow control valve can be used for example as a spray nozzle for piston cooling in the lubricant circuit of the internal combustion engine. Another application relates to the integration of the flow control valve in a lubricant, which serves not only for lubrication and cooling but also for controlling hydraulically actuated actuators or coupling elements of a variably designed valve control of the internal combustion engine. Such an application is for example from the DE 37 38 488 A1 out. In this document, the arrangement of the flow control valve is proposed in a hydraulic fluid circuit, the pressure of the operating point-dependent adjustment of Gaswechselventilhüben is modulated with a hydraulic valve to switch between switching states hydraulically actuated coupling means of the valve control. An essential task of the flow control valve is to maintain a certain purge flow through the hydraulic gallery even in the low-pressure state of the hydraulic gallery connected to the coupling means. As a result, the formation of trapped air, which adversely affect the switching times of the coupling agent, can be effectively prevented.

Such a flow control valve, which is shown only schematically in the cited document on the basis of a hydraulic circuit diagram, is arranged as an executed component, for example in a hydraulic medium channel produced as a deep hole bore in a cylinder head of the internal combustion engine. For complete and permanent tight sealing of the hydraulic fluid channel with respect to the environment of the cylinder head usually plugs are inserted into the mouth of the pressure medium channel. Such plugs go for example from the DE 24 39 842 A1 in the form of a screw-in with a sealing ring and from the DE 44 15 341 A1 as well as the DE 198 46 379 A1 in the form of pressed into the mouth closure plug with specially designed outer contours. However, in connection with an individually tailored to the plugs muzzle contour of the pressure medium channel to be produced for the purpose of sealing and to be assembled closure plugs can lead to a significant cost factor in the production of the machine housing in general or the internal combustion engine in particular.

Task of invention

task The invention is therefore to avoid this disadvantage and thus form a flow valve of the type mentioned so and arrange in the pressure fluid channel that the effort to manufacture and mounting a pressure and fatigue seal of the pressure medium channel relative to the Environment of the machine housing as far as possible is minimized.

Summary the invention

These The object is achieved by the characterizing features of the first claim solved, while advantageous Further developments and embodiments of the dependent claims are. Accordingly, the stopper by the flow valve itself be formed by a radially extending through the outer circumferential surface second pressure medium connection, the with a cross into the pressure medium channel further pressure medium channel is connected, is provided and one of the mouth facing and the second Pressure medium connection adjacent end portion of the valve housing a closed caseback and the end portion by means of a hydraulically sealing Längspressverband is inserted in the pressure medium channel. Thus, on the extra effort a specially manufactured for the purpose of sealing and to be assembled Sealing stopper are omitted. In addition, also the production cost for the production individually adapted to the stopper Mouth contours, like they cited in the prior art in the form of threads or Durchmesserstufungen are known, omitted.

In development of the invention, it is vorgese hen, that the housing bottom for radially directed mounting of the flow control valve in the pressure medium channel has an extending in the longitudinal direction of the flow control engagement contour for an assembly tool, wherein the engagement contour is formed transversely to the longitudinal direction asymmetrically with an unambiguous assignment of the radial position of the second pressure medium connection. Such engagement contour allows a pro zesssichere, fully automated radial alignment of the flow control valve on the mounting tool for rotationally pressing the flow control valve in the pressure medium channel, so that the second pressure medium connection is always in hydraulic communication with the other pressure medium channel. The engagement contour can be formed both as an inner contour and as an outer contour, although it may be expedient to limit the longitudinal extent of the flow valve in the direction of the mouth of the pressure medium channel, the engagement contour as an inner contour of a curved in the direction of the first pressure medium connection portion of the housing bottom.

In a particularly preferred embodiment of the invention is intended to Stromventil be formed in two parts and from the valve body and one in the valve body axial clearance free mounted valve insert, the throttle cross-section limited exist. Such a configuration allows the production of Valves according to the modular principle, with the flow valves with identical main dimensions, but different and on the Use case tuned throttle cross sections highly flexible and especially inexpensive can be generated. In this case, the valve housing for further cost reduction than produced in a deep-drawing process, thin-walled Sheet metal part be formed, wherein the valve core on the one hand at the bottom of the case and on the other hand on a radially inwardly facing collar of the Valve body axially supported. Furthermore, as a material for the valve core preferably a lightweight material such as plastic intended.

In Further embodiment of the invention, the second pressure medium connection as from an annular collar extending into the flow valve of the valve housing edged opening be educated. In this case, the valve insert has a longitudinal direction the current valve extending and the annular collar embracing recess on such that the valve insert on the annular collar in the valve body free can be inserted and secured against rotation in the valve housing. Such a design the flow control valve is particularly suitable for non-rotationally symmetrical to its longitudinal axis trained throttle cross sections, which are radially aligned with respect to the pressure medium connections run.

It can also be provided that the valve insert a the housing bottom facing and limited by a bottom hollow cylindrical recess on the one hand over the recess with the second pressure medium connection and on the other hand is in hydraulic communication with the throttle cross-section. Next its function as a hydraulic connecting section is this recess at the same time as space for the arched one Section of the case bottom with the aforementioned Tool engagement contour available.

Of the Throttle cross section can on the one hand by at least one longitudinal bore be formed, which passes through the bottom of the valve core. alternative it is also appropriate, the Throttle cross-section through at least one throttle channel to form at one of the second pressure medium connection opposite Outer casing surface section the valve core meandering in the longitudinal direction of the flow control valve. It opens the throttle channel in a first channel, as the first pressure medium connection of the flow control valve is formed and is connected via a second channel hydraulic connection with the recess. Such a throttle channel is particularly suitable for generating a high pressure drop and / or smallest volume flows over the Flow control valve, because the throttle effect is not very small, tight tolerated and dirt sensitive holes but over the flow resistance a long channel is produced with advantageously large cross-section. Furthermore, the meandering course is suitable the throttle channel in particular for the injection molding production of the valve insert made of plastic because on the one hand, the throttle channel only in a mold half of the injection molding tool must be trained. As a result, the removal of the valve insert avoided from the injection mold obstructive undercuts, as at a around the outer surface of the Valve insert spirally revolving Channel arise.

to Simplification of a radially directed and torsion-free assembly the Ven valve insert in the valve housing, the floor can also be a longitudinal having the flow control valve extending engagement contour for an assembly tool, which transverse to the longitudinal direction asymmetrical with clear allocation of the radial position of the Recess is formed. This engagement contour should finally as outer contour one over the collar of the valve housing Be outwardly extending approach of the soil be formed. alternative However, this is also possible, this engagement contour form as an inner contour.

Short description the drawings

Further Features of the invention will become apparent from the following description and from the drawings, in which embodiments of the invention are shown simplified. Show it:

1 a first embodiment of a mounted in the pressure medium channel of a machine housing flow control valve in the sectional view;

2 an engagement contour for a mounting tool for the directed mounting of a valve core in a valve housing of the flow control valve in the plan view of the first pressure medium connection;

3 an engagement contour for a mounting tool in a housing bottom of the flow control valve for directional mounting of the flow control valve in the pressure medium channel in perspective view;

4 a second embodiment of the flow control valve in longitudinal section and

5 a perspective view of the valve core of the flow control valve according to 4 with meandering throttle channel.

Full Description of the drawings

In 1 is a first embodiment of a flow control valve according to the invention 1a disclosed. Shown is a machine housing 2 with a pressure medium channel produced as a deep hole bore 3 , in the another pressure medium channel 4 cross flows. The flow valve 1a is by means of a Längspressverbandes between a cylindrical outer surface 5 a valve housing 6 and an enlarged diameter mouth 7 of the pressure medium channel 3 so used in these on one of the estuary 7 opposite side a first pressure medium connection 8th with the pressure medium channel 3 and a radially through the outer circumferential surface 5 extending second pressure medium connection 9 with the further pressure medium channel 4 connected is. An escape of hydraulic fluid from the machine housing 2 in its environment is thereby permanently prevented that one of the mouth 7 facing and the second pressure medium connection 9 adjacent end section 10 of the valve housing 6 a closed caseback 11 and the end portion 10 by means of the longitudinal compression bandage with the pressure medium channel 4 as a stopper 12 cooperates hydraulically sealing.

The flow valve 1a is formed in two parts and consists of the produced in a deep-drawing process and designed as a thin-walled sheet metal valve body part 6 as well as from a valve insert 13a made of plastic. The valve insert 13a has a longitudinal direction of the flow control valve 1a extending recess 14 on, the one in the flow valve 1a extending into the ring collar 15 of the valve housing 6 so embraces that the valve core 13a over the ring collar 15 in the valve body 6 freely insertable and against rotation in the valve body 6 is secured. The insertion of the valve insert 13a in the valve body 6 takes place before the production of a collar 16 on the valve body 6 by means of a crimping process, so that the valve core 13a After crimping on the one hand on the housing bottom 11 and on the other hand, on the collar 16 supported axially play. The valve insert 13a also has a housing bottom 11 facing and off a floor 17 limited hollow cylindrical recess 18 on the one hand about the Ausspa tion 14 with the as of the ring collar 15 edged opening 19 trained second pressure medium connection 9 and on the other hand with a throttle cross-section 20 in hydraulic connection. The throttle cross-section 20 is in this first embodiment of the flow control valve 1a through a cross-section-poor longitudinal bore 21 formed by the ground 17 of the valve insert 13a runs and in the first pressure medium connection 8th empties.

As it is under consideration of the 2 recognizable, the ground points 17 of the valve insert 13a for the purpose of radially directed mounting in the valve housing 6 a in the longitudinal direction of the flow control valve 1a extending and transverse to the longitudinal direction asymmetrically formed engagement contour 22 for an assembly tool. The engagement contour 22 is here as an outer contour 23 at one over the collar 16 of the valve housing 6 extending approach 24 in the form of an outer polygon with orthogonal key faces 25 and a sloping surface 26 educated. Because the area 26 a fixed radial reference to the recess 14 has, is the radial position of the recess 14 to the outer contour 23 unique assembly tool uniquely assigned. One of the orientation of the valve core 13a corresponding radial positioning of the valve housing 6 can then, for example, by aligning the opening 19 done on a mounting mandrel, so that the valve core 13a reliable in the valve housing 6 can be inserted.

Subsequent consideration of the 3 the radially directed assembly of the flow control valve takes place 1a in the pressure medium channel 3 with the help of a likewise in the longitudinal direction of the flow control valve 1a extending and transverse to the longitudinal direction asymmetrically formed engagement contour 27 for another assembly tool. This in 1 not shown engagement contour 27 is here as an inner contour 28 one in the direction of the first pressure medium connection 8th arched section 29 of the case bottom 11 in the form of an inner polygon with orthogonal key faces 30 and a sloping surface 31 educated. Because the area 31 a fixed radial relation to the opening 19 has, is their radial position and consequently the position of the second pressure medium connection 9 to the inner contour 28 unique assembly tool uniquely assigned. As the location of the further pressure medium channel 4 in the machine housing 2 is known, thereby a process-reliable and verdrehfreier press-fitting of the flow control valve 1a in the pressure medium channel 3 be guaranteed.

Regarding the previously described tool engagement contours 22 and 27 However, it should be expressly understood that these contours can of course be arbitrary, provided that a clear reference of the contours is made to the radially aligned features of the flow control valve. This also includes that the engagement contour 22 as in the ground 17 extending inner contour or that the engagement contour 27 as seen from the case back 11 in the direction of the mouth arched outer contour may be formed.

A second embodiment of a flow control valve according to the invention 1b goes out of the 4 and 5 out. The flow valve 1b is different from the flow control valve 1a in that the throttle cross-section 20 of the flow control valve 1b not by one in the ground 17 extending longitudinal bore, but through a throttle channel 32 is formed, in a the second pressure medium connection 9 opposite outer circumferential surface portion 33 a valve insert 13b meandering in the longitudinal direction of the flow control valve 1b runs and through the valve body 6 is limited. The throttle channel 32 flows into a first channel 34 to the first pressure medium connection 8th and is over a second channel 35 in hydraulic communication with the recess 18 , which correspond to the flow valve 1a over the recess 14 and the opening 19 with the further pressure medium channel 4 in hydraulic connection.

1a, b

flow control valve

2

machine housing

3

Pressure fluid channel

4

Another Pressure fluid channel

5

Outer casing surface

6

valve housing

7

muzzle

8th

first Pressure medium connection

9

second Pressure medium connection

10

end

11

caseback

12

sealing plug

13a, b

valve core

14

recess

15

gorget

16

collar

17

ground

18

recess

19

opening

20

Throttle cross section

21

longitudinal bore

22

engagement contour

23

outer contour

24

approach

25

key area

26

area

27

engagement contour

28

inner contour

29

section

30

key area

31

area

32

throttle channel

33

Outer casing surface section

34

first channel

35

second channel

Claims (12)

Flow control valve ( 1a . 1b ) with a throttle cross-section ( 20 ) for throttling hydraulic pressure means, in particular in the lubricant circuit of internal combustion engines, which flow control valve ( 1a . 1b ) having a substantially cylindrical outer circumferential surface ( 5 ) of a valve housing ( 6 ) in a pressure medium channel ( 3 ) of a machine housing ( 2 ), which a pressure-tight sealing plug ( 12 ) at a mouth ( 7 ) of the pressure medium channel ( 3 ) in the environment of the machine housing ( 2 ) is mounted, and on one of the mouth ( 7 ) facing away from the one with the pressure medium channel ( 3 ) connected first pressure medium connection ( 8th ), characterized in that the sealing plug ( 12 ) through the flow control valve ( 1a . 1b ) itself is formed by a radially through the outer circumferential surface ( 5 ) extending second pressure medium connection ( 9 ), with one in the pressure medium channel ( 3 ) transversely opening another pressure medium channel ( 4 ) is provided, and one of the mouth ( 7 ) and to the second pressure medium connection ( 9 ) adjacent end section ( 10 ) of the valve housing ( 6 ) a closed housing bottom ( 11 ) and the end portion ( 10 ) by means of a hydraulically sealing longitudinal compression bandage in the pressure medium channel ( 3 ) is used. Flow valve according to claim 1, characterized in that the housing bottom ( 11 ) for radially directed mounting of the flow control valve ( 1a . 1b ) in the pressure medium channel ( 3 ) in the longitudinal direction of the flow control valve ( 1a . 1b ) extending engagement contour ( 27 ) for an assembly tool, which engagement contour ( 27 ) asymme transverse to the longitudinal direction with a clear assignment of the radial position of the second pressure medium connection ( 9 ) is trained. Flow valve according to claim 2, characterized in that the engagement contour ( 27 ) as inner contour ( 28 ) one in the direction of the first pressure medium connection ( 8th ) arched section ( 29 ) of the housing bottom ( 11 ) is trained. Flow control valve according to claim 1, characterized in that the flow control valve ( 1a . 1b ) is formed in two parts and from the valve housing ( 6 ) and one in the valve housing ( 6 ) Axialspielfrei mounted valve core ( 13a . 13b ), the throttle cross section ( 20 ) is limited. Flow valve according to claim 4, characterized in that the valve housing ( 6 ) is formed as produced in a thermoforming process, thin-walled sheet metal part, wherein the valve core ( 13a . 13b ) on the one hand on the housing bottom ( 11 ) and on the other hand on a radially inwardly facing collar ( 16 ) of the valve housing ( 6 ) is axially supported. Flow valve according to claim 4, characterized in that the valve core ( 13a . 13b ) consists of a lightweight material such as plastic. Flow valve according to claim 4, characterized in that the second pressure medium connection ( 9 ) than from one into the flow valve ( 1a . 1b ) extending into the ring collar ( 15 ) of the valve housing ( 6 ) edged opening ( 19 ) is formed, wherein the valve core ( 13a . 13b ) one in the longitudinal direction of the flow control valve ( 1a . 1b ) and the ring collar ( 15 } encompassing recess ( 14 ) such that the valve core ( 13a . 13b ) over the ring collar ( 15 ) in the valve housing ( 6 ) freely insertable and against rotation in the valve housing ( 6 ) is secured. Flow valve according to claim 7, characterized in that the valve core ( 13a . 13b ) a the housing bottom ( 11 ) and from a floor ( 17 ) limited hollow cylindrical recess ( 18 ), on the one hand via the recess ( 14 ) with the second pressure medium connection ( 9 ) and on the other hand with the throttle cross-section ( 20 ) is in hydraulic communication. Flow control valve according to claim 8, characterized in that the throttle cross-section ( 20 ) by at least one longitudinal bore ( 21 ), which longitudinal bore ( 21 ) through the ground ( 17 ) of the valve core ( 13a ) runs. Flow control valve according to claim 8, characterized in that the throttle cross-section ( 20 ) by at least one throttle channel ( 32 ), which throttle channel ( 32 ) at a second pressure medium connection ( 9 ) opposite outer circumferential surface portion ( 33 ) of the valve core ( 13b ) meandering in the longitudinal direction of the flow control valve ( 1b ), into a first pressure medium connection ( 8th ) of the flow control valve ( 1b ) formed first channel ( 34 ) and via a second channel ( 35 ) in hydraulic communication with the recess ( 18 ) stands. Flow valve according to claim 8, characterized in that the bottom ( 17 ) for radially directed mounting of the valve core ( 13a . 13b ) in the valve housing ( 6 ) in the longitudinal direction of the flow control valve ( 1a . 1b ) extending engagement contour ( 22 ) for an assembly tool, which engagement contour ( 22 ) transversely to the longitudinal direction asymmetrically with clear assignment of the radial position of the recess ( 14 ) is trained. Flow valve according to claim 11, characterized in that the engagement contour ( 22 ) as outer contour ( 23 ) one over the collar ( 16 ) of the valve housing ( 6 ) ( 24 ) of the soil ( 17 ) is trained.