DE102010009401A1 - Proportional valve, in particular for a camshaft adjuster - Google Patents

Abstract

Proportional valve 1 with a piston guide sleeve 4 and a movable in the piston guide sleeve 4 valve piston 3 and arranged in a pressure medium inlet 10 to the proportional valve 1 check valve 13. According to the invention, a proportional valve 1 is provided in which the adaptation of the check valve 13 to the proportional valve 1 with respect to Prior art is improved. This is achieved in that the check valve 13 is arranged in an annular gap 14 surrounding the piston guide sleeve 4 in the region of the pressure medium inlet 10.

Description

Field of the invention

The invention relates to a proportional valve with a piston guide sleeve and a valve piston movable in the piston guide sleeve and with a arranged in a pressure medium inlet to the proportional valve check valve and a mounting method for such a proportional valve.

State of the art

Such a proportional valve is out of DE 10 2005 060 111 A1 known. This proportional valve is designed for a camshaft adjuster for an internal combustion engine and integrated in a central screw for fixing the camshaft adjuster to a camshaft. In this case, the proportional valve to a check valve, which is designed spring-disk-shaped and is arranged in an annular pressure medium inlet laterally adjacent to the proportional valve on the outer circumference of the central screw. During assembly, care must be taken that this is arranged separately to the proportional valve check valve and beyond there is at least when screwing the proportional valve receiving central bolt in the camshaft, the risk of damage.

Another check valve is out of the EP 1 291 563 A2 known. This check valve is designed for a particular designed as a cartridge valve proportional valve and integrated into this. In this case, this check valve is used in the region of a pressure medium inlet in a recess provided on the inner circumference of the piston guide sleeve prior to assembly of the valve piston. The installation effort of such a check valve inserted into the piston guide sleeve is considerable. In addition, the stroke of this formed as a spring ring check valve is not limited to the inside and thus the spring ring can collide with the valve piston. Such a collision can lead to failure of the proportional valve.

task

The invention is based on the object of specifying a proportional valve, in particular 4 for a camshaft adjuster of an internal combustion engine, in which the adaptation of the non-return valve to the proportional valve is improved over the prior art.

Summary of the invention

This object is achieved in that the check valve is arranged in a ring gap surrounding the piston guide sleeve in the region of the pressure medium inlet. By this configuration, the check valve is on the one hand integrated into the actual proportional valve, so that the check valve does not have to be installed as a separate component during assembly of the proportional valve. On the other hand, it is ensured by the fact that the check valve is arranged outside the piston guide sleeve, that the check valve can not be moved radially against the valve piston. The proportional valve thus formed is otherwise preferably used for camshaft adjustment of an internal combustion engine.

In a development of the invention, the annular gap is delimited by an encapsulation that at least partially surrounds the piston guide sleeve and a receiving sleeve that encompasses at least a portion of the encapsulation. With this embodiment, several advantages are achieved. There is no additional installation effort during assembly of the camshaft adjuster necessary, thereby also the risk of assembly errors is minimized by a wrong or not at all mounted additional check valve. Furthermore, no additional machined space on the cylinder head of the engine for a separate check valve is necessary and it is a short hydraulic distance to the actual camshaft adjuster and thus a stiffer hydraulic support achieved.

In a further development of the invention, the receiving sleeve at its axial end to a portion of the annular gap forming receiving gap, in which the check valve is used. This embodiment allows a particularly simple and reliable mounting of the check valve by this is introduced without the use of tools in the end-side receiving gap and then the piston guide sleeve is inserted into the receiving sleeve. This refinement also reduces the machining effort on the components, in particular the piston guide sleeve. In contrast to the prior art, the piston guide sleeve is unprocessed in the embodiment according to the invention for the formation of the annular gap.

In a further embodiment of the invention, the provided with the encapsulation piston guide sleeve is integrally connected to the receiving sleeve. In this case, according to an assembly method according to the invention, the check valve is inserted into a receiving portion of the annular gap forming a receiving gap of the receiving sleeve and then introduced the provided with the encapsulation piston guide sleeve in the receiving sleeve and connected to this example, cohesively. Alternatively, a non-positive or positive connection may be provided. The cohesive connection can be realized for example by ultrasonic welding or gluing. A frictional connection is achieved, for example, by pressing the piston guide sleeve provided with the extrusion coating into the receiving sleeve, while a positive connection can be achieved by a snap connection. All of these embodiments offer the advantage of providing a highly functional proportional valve for a phaser.

In a further development of the invention, the check valve is designed as a slotted spring sleeve in the axial direction, which in turn can be made in an advantageous development of a metallic material, such as sheet metal or stainless steel.

In a further embodiment, the encapsulation forms on its outer circumferential surface a radially acting in the open position of the check valve stop and the receiving sleeve on its inner lateral surface acting radially in the closing direction of the check valve stop. In the unactuated state, the check valve is powerless or slightly biased to the inner circumferential surface of the receiving sleeve. If pressure medium fluid, in particular hydraulic fluid, flows radially from the outside into the adjustment space of the proportional valve, then the check valve is pressed by the pressure of the pressure medium fluid against the outer circumferential surface of the extrusion coating and opens the inlet. If pressure oscillations occur opposite to the flow, the check valve closes against the radial pressure medium inlet of the receiving sleeve. This embodiment offers the advantage that a reliable function is ensured. In any case, it is ensured that a collision of the check valve with the valve piston is excluded.

embodiment

Short description of the drawing

Further, advantageous embodiments of the invention are described in the drawings, in which an illustrated in the figures embodiment of the invention is described in more detail.

Show it:

1 an overall perspective view of the entire proportional valve for the phaser,

2 a longitudinal section through the proportional valve with the check valve in a closed position,

3 a longitudinal section through the proportional valve with the check valve in an open position and

4 a cross section through the proportional valve with the check valve in a closed position.

Detailed description of the invention

The proportional valve according to the invention 1 is intended for a camshaft adjuster of an internal combustion engine. In this context, the camshaft driven by the camshaft adjuster in an internal combustion engine serves to open the gas exchange valves used for pushing out the combusted gases and sucking in the fresh gases against the force of valve springs mounted on each gas exchange valve. Rigid control times for the gas exchange valves represent a compromise for the design with regard to the achievable mean pressure maximum or torque maximum and its locations in the usable speed range and the achievable power at rated speed. By a camshaft adjuster can be achieved according to the respective operating condition, an optimal adjustment of the timing of the gas exchange valves.

The proportional valve 1 according to 1 an electromagnetic drive part 2 on, whose actuating piston 6 with a valve piston 3 ( 2 . 3 . 4 ) in the proportional valve 1 interacts. The actuating piston 6 of the control part 2 moves the valve piston 3 in a piston guide sleeve 4 of the proportional valve 1 between two end positions and thereby causes a regulated adjustment of the timing on the camshaft adjuster.

The proportional valve 1 exists next to the control section 2 from the piston guide sleeve 4 (see for details 2 to 4 ), which are in the range of a pressure medium inlet 10 and a work connection 11b with an encapsulation 5 is provided in particular of a plastic material. In the piston guide sleeve 4 is the valve piston 3 from the driving part 2 by means of the actuating piston 6 ( 2 and 3 ) against the force of a valve spring 7 displaceable.

The with the encapsulation 5 provided piston guide sleeve 4 is in a receiving sleeve 8th used and at her from the driving part 2 opposite end with this via a snap connection 9 ( 2 . 3 ) accurately positioned. The proportional valve 1 has four hydraulic fluid connections, namely a pressure medium inlet connected to a pump 10 , two working connections 11a . 11b and a return port connected to a tank 11c passing through the interior of the hollow cylindrical valve piston 3 leads.

About the pressure medium inlet 10 The hydraulic fluid, which is in particular the engine oil of the internal combustion engine, the proportional valve 1 supplied and through appropriate passages in the receiving sleeve 8th , the overmolding 5 and depending on the position of the valve piston 3 over one of spools 12a and 12b as part of the valve piston 3 limited annulus 12 to the work connections 11a . 11b guided.

From the work connection 11a is a connection to the return connection 11c via a connection opening 16 in the valve piston 3 produced. At the pressure medium inlet 10 , as well as the work connections 11a . 11b are ring filters 17 intended. They are designed to prevent the ingress of dirt into the proportional valve 1 prevent.

By this inventively designed proportional valve 1 a defined adjustment of the camshaft is achieved with respect to a toothed belt-operated or chain-operated drive wheel, for example. This is for example by one or more associated with the camshaft adjusting piston of the camshaft adjuster 1 achieved, by / in the opposite Verstellkolbenräume, with the working ports 11a . 11b be rotated by introduced hydraulic fluid relative to the drive wheel / be.

To a backflow of the in the annulus 12 located engine oil in the hydraulic fluid access 10 To prevent what can happen by acting on the camshaft and thus to the adjusting piston of the camshaft adjuster alternating moments is in the hydraulic fluid access 10 a check valve 13 used, in a closed position on the receiving sleeve 8th ( 2 ) and in an open position on the encapsulation 5 ( 3 ) is present. The piston guide sleeve form 4 , the overmolding 5 and the receiving sleeve 8th an annular gap 14 ( 4 ), in which the check valve 13 is arranged. To the formed as an axially slotted spring sleeve check valve 13 (Reed valve) in the annular gap 14 Reliable to position, has the receiving sleeve 8th a nose 15 on that with the overmolding 5 interacts. This nose 15 causes the check valve 13 within the annular gap 14 can not twist. This is a malfunction is excluded. Furthermore, it is ensured by the inventive design that the check valve 13 in the open position with the valve piston 3 can not come into contact.

LIST OF REFERENCE NUMBERS

1

proportional valve

2

activating part

3

plunger

4

Piston sleeve

5

encapsulation

6

actuating piston

7

valve spring

8th

receiving sleeve

9

snap

10

Pressure inflow

11a, 11b

working port

11c

Return connection

12

annulus

12a, 12b

spool

13

check valve

14

annular gap

15

nose

16

connecting opening

17

ring filter

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 102005060111 A1 [0002]
• EP 1291563 A2 [0003]

Claims (10)

Proportional valve ( 1 ) with a piston guide sleeve ( 4 ) and one in the piston guide sleeve ( 4 ) movable valve piston ( 3 ) as well as with a in a pressure medium feed ( 10 ) to the proportional valve ( 1 ) arranged check valve ( 13 ), characterized in that the check valve ( 13 ) in a piston guide sleeve ( 4 ) in the area of the pressure medium inlet ( 10 ) surrounding annular gap ( 14 ) is arranged. Proportional valve ( 1 ) according to claim 1, characterized in that the annular gap ( 14 ) of a the piston guide sleeve ( 4 ) at least partially surrounding encapsulation ( 5 ) and one at least a portion of the encapsulation ( 5 ) receiving sleeve ( 8th ) is limited. Proportional valve ( 1 ) according to claim 2, characterized in that the receiving sleeve ( 8th ) at its axial end a part of the annular gap ( 14 ) receiving receiving gap, in which the check valve ( 13 ) is used. Proportional valve ( 1 ) according to claim 2 or 3, characterized in that the with the encapsulation ( 5 ) provided piston guide sleeve ( 4 ) cohesively with the receiving sleeve ( 8th ) connected is. Proportional valve ( 1 ) according to claim 2 or 3, characterized in that the with the encapsulation ( 5 ) provided piston guide sleeve ( 4 ) positively or positively with the receiving sleeve ( 8th ) connected is. Proportional valve ( 1 ) according to one of the preceding claims, characterized in that the check valve ( 13 ) Is designed as a slotted spring sleeve in the axial direction. Proportional valve ( 1 ) according to one of the preceding claims, characterized in that the check valve ( 13 ) is made of a metallic material. Proportional valve ( 1 ) according to one of the preceding claims, characterized in that the encapsulation ( 5 ) on its outer circumferential surface a radially in the opening direction of the check valve ( 13 ) makes acting stop. Proportional valve ( 1 ) according to one of the preceding claims, characterized in that the receiving sleeve ( 8th ) on its inner lateral surface a radially in the closing direction of the check valve ( 13 ) makes acting stop. Assembly procedure for a proportional valve ( 1 ) with a piston guide sleeve ( 4 ) and one in the piston guide sleeve ( 4 ) movable valve piston ( 3 ) as well as with a in a pressure medium feed ( 10 ) to the proportional valve ( 1 ) arranged check valve ( 13 ), characterized in that the check valve ( 13 ) in a part of the annular gap ( 14 ) forming receiving gap of the receiving sleeve ( 8th ) is used and then with the encapsulation ( 5 ) provided piston guide sleeve ( 4 ) in the receiving sleeve ( 8th ) and connected to it.

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