DE202005008264U1 - Device for variable adjustment of gas exchange valve timing in IC engines has housing projecting into radial profile of on outer stator jacket surface for positive connection - Google Patents

Abstract

The device has a stator (2), a take-off element (3) coaxial to it, and a separate housing (11), which partially surrounds stator and element. The housing projects into a peripheral radial profile of an outer jacket surface of the stator for a positive connection of the components in peripheral direction. The housing consists of at least two parts (16) and prevents leakage of pressure medium from the device. The stator is fabricated by a deep drawing process. At least one of the housing parts is manufactured by a similar process, and the two parts are connected by a weld seam. The device also has a sealing plate (12) of hardened steel.

Description

Territory of invention

The The invention relates to a device for variable adjustment of Control times of gas exchange valves of an internal combustion engine with a stator and a coaxially arranged output element, wherein the two components are rotatably mounted to each other, and with a separately formed to the stator and the output element Housing, which at least partially surrounds the stator and the driven element.

In Internal combustion engines are used to actuate the gas exchange valves Camshafts used. Camshafts are such in the internal combustion engine mounted on cams attached to cam followers, for example, bucket tappets, drag levers or rocker arms, abut. If a camshaft is set in rotation, so roll the cams on the cam followers, which in turn the gas exchange valves actuate. Due to the position and shape of the cams are thus both the opening duration as well as the opening amplitude but also the opening and closing times the gas exchange valves set.

modern Engine concepts go to make the valve train variable. On the one hand, valve lift and valve opening duration should be variable be until the complete shutdown of individual cylinders. That's what concepts are for such as switchable cam followers or electro-hydraulic or electric valve actuators intended. Furthermore, it has proved to be advantageous while the operation of the internal combustion engine affects the opening and closing times to be able to take the gas exchange valves. It is in particular desirable the opening or closing times the inlet or Separate valves to be able to influence separately, for example, targeted a defined valve overlap adjust. By setting the opening and closing times the gas exchange valves in dependence from the current engine map of the engine, for example, the current Speed or the current load, the specific fuel consumption lowered, the exhaust gas behavior positively influenced, the engine efficiency, the maximum torque and the maximum power are increased.

The described variability the valve timing is determined by a relative change in the phase angle of Camshaft to crankshaft reached. This is the camshaft mostly over a chain, belt, gear drive or equivalent drive concepts in drive connection with the crankshaft. Between that of the Crankshaft driven chain, belt or gear drive and The camshaft is a device for changing the timing of a Internal combustion engine, also called camshaft adjuster below, attached, which transmits the torque from the crankshaft to the camshaft. there this device is designed such that during operation of the internal combustion engine the phase angle between crankshaft and camshaft held securely and, if desired, the camshaft in a certain angular range with respect to the Crankshaft can be rotated.

belt-driven Camshaft adjusters are usually outside of the cylinder head arranged. It should be noted that the camshaft adjuster completely opposite the environment must be sealed in order to ensure a Leageage of engine oil in the Engine compartment to prevent. Any leaking oil must be collected and returned to the cylinder head become.

In Internal combustion engines, each with a camshaft for the intake and the exhaust valves can this each equipped with a camshaft adjuster. This allows the opening and closing times the intake and exhaust valves shifted in time relative to each other and the valve overlaps be targeted.

Of the Location of modern camshaft adjuster is usually located on the drive side End of the camshaft. The camshaft adjuster can also on an intermediate shaft, a non-rotating component or the Crankshaft be arranged. It consists of one of the crankshaft driven, a fixed phase relation to this holding drive wheel, a driven part in drive connection with the camshaft and one transmitting the torque from the drive wheel to the output member Adjustment mechanism. The drive wheel can not in case of one the crankshaft arranged camshaft adjuster chain, Belt or gear executed be and is by means of a chain, a belt or a gear drive driven by the crankshaft. The adjustment mechanism can be electric (by means of a driven three-shaft transmission), hydraulic or be operated pneumatically.

A preferred embodiment of hydraulic phaser is the so-called Rotationskolbenversteller. In this, the drive wheel is rotatably connected to a stator. The stator and an output element are arranged concentrically with each other, wherein the output element is positively, positively or materially connected, for example by means of a press fit, a screw or welded connection with a camshaft, an extension of the camshaft or an intermediate shaft. In the stator are several, in the circumferential direction beab stood formed cavities, which extend from the output element radially outward. The cavities are limited pressure-tight in the axial direction by side cover. In each of these cavities, a connected to the output member wing extends, which divides each cavity into two pressure chambers. By selectively connecting the individual pressure chambers with a pressure medium pump or with a tank, the phase of the camshaft can be adjusted or held relative to the crankshaft.

to Control of the camshaft adjuster sensors capture the characteristics of the engine, such as the load condition and the speed. These Data is fed to an electronic control unit which after comparing the data with a characteristic field of the internal combustion engine the inflow and outflow of pressure medium to the various pressure chambers controls.

Around to adjust the phasing of the camshaft relative to the crankshaft is one of the two in hydraulic camshaft adjusters against each other acting pressure chambers of a cavity with a pressure medium pump and the other connected to the tank. This is by the pressurization one chamber and through the pressure relief of the other chamber a shift of the wing and thus directly a rotation of the camshaft to the crankshaft causes. In order to keep the phase position both pressure chambers are either connected to the pressure medium pump or both of the pressure medium pump as well as separated from the tank.

The Control of the pressure medium flows to or from the pressure chambers by means of a control valve, usually a 4/3 proportional valve. A valve housing is each with a connection for the pressure chambers (Working connection), a connection to the pressure medium pump and at least provided a connection to a tank. Within the essentially hollow cylindrical running valve housing an axially displaceable control piston is arranged. The control piston can by means of an electromagnetic actuator against the Spring force of a spring element axially in any position between two defined end positions are brought. The control piston is still on provided with annular grooves and control edges, whereby the individual pressure chambers optionally connected to the pressure medium pump or the tank can. Likewise, a position of the control piston may be provided, in the pressure chambers of both the pressure medium pump and the Pressure tank are separated.

In the DE 199 08 934 A1 such a device is disclosed. This is a device in rotary piston design. A stator is rotatably mounted on a rotatably connected to a camshaft output member. The stator is formed with recesses open to the output element. Shims are provided in the axial direction of the device, which sealingly bound the recesses in the axial direction. The recesses are pressure-sealed by the stator, the driven element and the shims and thus form pressure chambers. On the outer circumferential surface of the output element wings are formed which extend into the recesses. The wings are designed such that they divide the pressure chambers into two oppositely acting pressure chambers. By supplying or discharging pressure medium to and from the pressure chambers, the phase position of the output element to the stator and thus the camshaft relative to the crankshaft can be selectively held or adjusted. For this purpose, a device for supplying pressure medium with pressure medium lines and a control valve is provided.

Of the Stator, the output element and the shims are from a two-part housing encapsulated, which rotatably by means of fasteners with a formed as a toothed belt wheel drive wheel is connected.

The even floors Secure the housing halves a pressure-tight engagement of the shims on the stator and the output element.

Of Further, the drive torque of the crankshaft over the Drive wheel and the bottoms of Shims frictionally engaged transferred to the stator. Alternatively, it is proposed that the side surfaces of the stator have a profiling have, whereby an additional Positive locking can be achieved.

In this embodiment will be a large number needed on components for the realization of the device, which increased Assembly costs and thus production costs occur. Furthermore brings the described transmission the torque from the drive wheel to the stator increased production costs with it, which has a negative effect on the cost of the device.

Summary the invention

The invention is therefore based on the object to avoid these disadvantages and thus to propose a device for variable adjustment of the timing of gas exchange valves of an internal combustion engine in which the number of components and thus the assembly costs and the manufacturing cost of the device can be reduced. Furthermore, the device is to the effect can be improved, that the transmission of the torque of the crankshaft to the stator is improved and achieved with less expensive measures.

The The object is achieved in that an outer circumferential surface of the Stators formed in the circumferential direction with a radial profile is in that the case projects in such a way that a positive connection of the two components is manufactured in the circumferential direction.

such Devices can be provided with a chain, a belt or a gear and over a chain, a toothed belt or a gear drive with the Crankshaft are in drive connection.

Should the device is driven by a toothed belt the housing in such a way that it forms the outlet of pressure medium prevents the device.

there can be provided that between the stator and the output element at least one pressure chamber is formed, the housing at least two housing elements exists and at least one plane, perpendicular to the axial direction the device standing portion of the housing as a sealing surface for the pressure chamber acts in the axial direction.

In Further developments of the invention, the stator and / or at least one of the housing elements be designed as non-cutting formed sheet metal part. Alternatively, the Stator solid, for example, as a sintered component to be executed.

in the Trap of execution of the stator and / or the at least one housing element as a non-cutting formed Sheet metal part, can these components are manufactured by a deep-drawing process.

The two housing elements can by means of a welded joint be interconnected, whereby the housing leakage of pressure medium prevented from the device.

In An advantageous development of the invention can be provided be that on the case a cylindrical section extending in the axial direction for sealing the device against a radial shaft seal is trained. In addition, can be provided that a camshaft engages in the section and that between the inner diameter of the section and the camshaft a Gap is formed. This allows the device outside the cylinder head are arranged, wherein the portion in an opening of the Cylinder head engages and by means of the radial shaft seal to this is sealed. Occurring leakage oil can over the gap between the Section and the camshaft in the cylinder head and thus in the crankcase to be led back.

In a further advantageous embodiment of the invention is provided that on at least one of the housing elements Form elements for enlarging the surface are formed. These form elements serve for a stiffening of the housing, to enlarge the other Surface, what a better cooling the device leads. The form elements can for example, as cooling fins accomplished be.

By the encapsulation of the stator and the driven element by a housing can Among other things, the following two tasks are fulfilled. On the one hand, the housing is used the pressure chambers to close pressure-tight in the axial direction of the device. This can either indirectly, by pressing on sealing washers to the Stator, or directly, by the training of Dichtflä chen on the housing, respectively. In the case of toothed belt driven devices which usually outside of Cylinder head are arranged, the housing also serves as encapsulation of the device, which leakage of pressure medium from the device in the Engine compartment prevented. Any occurring leakage oil is within of the housing intercepted and over an axial portion returned to the engine compartment. In these embodiments the output element is usually designed as a sintered component, which be sealed in a subsequent step of the forming process have to. This step is usually very time-consuming and thus costly.

By the training of the housing as a non-cutting formed sheet metal part, which are naturally oil-tight, can be dispensed with such sealing operations. Furthermore, the number of joints to be sealed of at least two (between the side covers and the stator) reduced to one (between the housing halves) become.

in the Comparison to the device described in the prior art a cost advantage can be achieved by at least the Function of one of the sealing washers is integrated into the housing. Is to at least one bottom of a cup-shaped Section of the housing just executed. This soil is pressure-tight in the axial direction both on the Stator and on the output element.

The housing consists of two housing elements in which the stator and the output element can be placed. Both can do that Housing elements cup-shaped. Also conceivable is an embodiment with a pot-shaped and a planar housing element. The housing elements can be connected to one another by means of connecting means, such as, for example, screws or bolts, or non-positively or materially. The bottom of at least one of the pot-shaped portions is flat and formed such that it limits the pressure spaces formed between the stator and the driven element in an axial direction pressure-tight. It is also conceivable that the pressure chambers are limited in both axial directions by planar, perpendicular to the axial direction of the device sections of the Ge housing.

By the reduction in the number of components and the associated lower installation costs can the cost of the device can be significantly reduced. It works also the cost-effective Production of the housing elements by a non-cutting forming process, for example a deep-drawing process, positive.

As well conceivable is the use of a stator, which in a non-cutting Shaping process is made from a sheet metal blank. By the Formation of the stator as a thin-walled sheet metal forming part is formed in the circumferential direction of the stator, a radial profiling. The stator consists in this case of radially outer, radially inner peripheral walls and sidewalls each connecting an inner with an outer peripheral wall. This profiling can be used to that of the drive wheel transmitted the housing Transfer torque to the stator. For this purpose, the inner diameter of the peripheral surface of the or cup-shaped sections the outer diameter adapted to the outer peripheral walls. The stator can therefore be in the housing be absorbed, which is simultaneously centered relative to the housing. Between the outer peripheral walls of the stator are on the cup-shaped Sections of the housing element (s) Immediments provided, which are designed such that these on the respective side walls issue. As a result, a positive connection is made in the circumferential direction over the the torque from the housing transmit the stator can be. Through the transmission the torque by means of circumferentially adjacent surfaces and the enlarged contact surface can the stator thinner and thus easier and cheaper getting produced. Furthermore This type of connection is much more reliable to produce.

The Indentations in the housing can furthermore for be used the engagement of the drive wheel. By the shape one to the outer surface of the housing complementary Inner surface area the drive wheel can also at this point in the circumferential direction positive Connection can be made.

As well is the use of this form-fitting Connection between the housing and a solid stator such as sintered metal, conceivable. Advantageously, for this purpose already in the shaping Tool profiling the outer peripheral surface of the Stators considered. There are no additional costs Cost, whereas the goodness the connection stator housing can be significantly improved.

of course is the invention also in chain or gear driven devices conceivable.

In An advantageous development of the invention is a locking device is provided, wherein a locking pin in a on a sealing disc trained backdrop intervenes and wherein the sealing disc from a curable Steel exists.

Short description the drawings

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

1a only very schematically an internal combustion engine,

1 a longitudinal section through a device according to the invention,

2 a plan view of the device according to the invention 1 along the line II-II,

3 a perspective view of a housing element of the device according to the invention 1 .

4 a plan view of the further device according to the invention analogous to the 1 along, line II-II.

Full Description of the drawing

In 1a is an internal combustion engine 100 sketched, being one on a crankshaft 101 sitting piston 102 in a cylinder 103 is indicated. The crankshaft 101 is in the illustrated embodiment via a respective traction drive 104 respectively. 105 with an intake camshaft 106 or exhaust camshaft 107 in conjunction, wherein a first and a second device 1 for a relative rotation between crankshaft 101 and camshafts 106 . 107 can provide. cam 108 . 109 the camshafts 106 . 107 press an inlet gas change Valve 110 or the outlet gas exchange valve 111 , Likewise, only one of the camshafts can be provided 106 . 107 with a device 1 equip, or just a camshaft 106 . 107 provide, which with a device 1 is provided.

The 1 and 2 show a first embodiment of a device 1 for the variable adjustment of the timing of gas exchange valves of an internal combustion engine. In the following, the invention is based on a belt-driven device 1 explained. Also conceivable are chain or gear driven devices. The peculiarity of the belt-driven devices lies in their pressure medium-tight encapsulation, which is not necessary in the other embodiments. An adjusting device 1a consists essentially of a stator 2 and a driven element disposed concentrically therewith 3 , In the 2 is a plan view of a sealing washer 12 shown, wherein underlying components are indicated by dashed lines.

The output element 3 consists of a wheel hub 4 , on whose outer circumference axially extending vane grooves 5 are formed, and five wings 6 which are in the wing grooves 5 are arranged and extend radially outward. Furthermore, the output element 3 with a stepped central bore 4a provided in the assembled state of the device 1 a camshaft, not shown, in 1 from the right, engages. In the assembled state of the device 1 This is, for example by means of a force, friction, positive, or cohesive connection or by means of fastening means, rotatably connected to the camshaft.

The stator 2 is designed as a thin-walled sheet metal part, this from inner peripheral walls 7 and outer peripheral walls 8th which exists over sidewalls 9 connected to each other. The inner and outer peripheral walls 7 . 8th extend substantially in the circumferential direction, whereas the side walls 9 extend substantially in the radial direction. The stator 2 is one-piece, made by means of a chipless forming process from a sheet metal blank. It can be provided the stator 2 by means of a deep-drawing process, for example, from a steel sheet to produce without cutting. About the inner peripheral walls 7 , which on a cylindrical peripheral wall of the output element 3 abut, is the stator 2 rotatable on the output element 3 stored. Starting from the inner peripheral walls 7 the side walls extend 9 essentially in the radial direction outwards and go into the outer peripheral walls 8th above. By this construction, a plurality of, in the illustrated embodiment, five, pressure chambers 10 formed, which, as described below, in the axial direction of a housing 11 or from a gasket 12 be sealed pressure-tight.

The wings 6 are so on the outer circumferential surface of the output element 3 arranged, in each case a wing 6 in a pressure room 10 extends. Here are the wings 6 in the radial direction on the outer peripheral walls 8th of the stator 2 pressure tight. For this purpose are in the Flügelnuten 5 spring elements 13 arranged the wings 6 push radially outward. The width of the wings 6 is designed so that the wings 6 in the axial direction on the housing 11 or the sealing washer 12 issue. This will ensure that every wing 6 a pressure room 10 in two opposing pressure chambers 14 . 15 Splits.

The stator 2 and the output element 3 are inside the case 11 arranged, which is designed such that it encapsulates these components oil-tight. The housing 11 consists of a substantially cup-shaped first housing element 16 and a disk-shaped second Ge housing element 17 , The connection point of the housing elements 16 . 17 can be sealed by means of a sealant, not shown, or by means of sealing joining method. In the illustrated embodiment, a circumferential circumferential weld joint 16a intended. The first housing element 16 is on the cam shaft facing side of the device 1 arranged. A plane, perpendicular to the axial direction of the device 1 standing portion of a cup-shaped portion of the first housing member 16 , below ground 18 called, is symmetrical to the axis of rotation of the first housing element 16 passed through, wherein a cylindrical, extending in the axial direction portion 19 is trained. The section 19 serves for a recording of the camshaft, not shown, or a pressure medium distributor. On the other hand, the outer circumferential surface of the cylindrical portion 19 in the case of a belt-driven device 1 as the seat of a radial shaft seal 20 be used, which is the device 1 seals against a cylinder head, not shown.

The inner diameter of the substantially cylindrical lateral surface of the pot-shaped portion of the first housing element 16 is the outer diameter of the outer peripheral walls 8th of the stator 2 customized. This ensures a centered recording of the stator 2 in the first housing element 16 , Furthermore, the substantially cylindrical lateral surface of the first housing element 16 with indentations 21 provided between adjacent outer peripheral walls 8th of the stator 2 extend radially inward. The indentations 21 are formed so that these in the circumferential direction on the respective two sides walls 9 of the stator 2 issue. This is between the stator 2 and the housing 11 made a positive connection in the circumferential direction, whereby the two components are rotatably connected to each other. It can be provided that the indentations 21 up to the inner peripheral walls 7 of the stator 2 extend, or that the indentations 21 only partially engage in this cavity.

At camshaft remote end of the first housing element 16 is further a radially extending collar 22 formed in the holes 23 are formed.

The second housing element 17 is coaxial with the first housing element 16 arranged, wherein the outer peripheral surface of the second housing element 17 complementary to the collar 22 of the first housing element 16 is trained. By means of connecting means 24 , in the illustrated embodiment screws, the two housing elements 16 . 17 and a pulley designed as a drive wheel 24 rotatably connected. Alternatively, non-positive or cohesive connection methods can be provided. In addition, the inner peripheral surface of the drive wheel 24 complementary to the outer peripheral surface of the first housing member 16 be formed, causing the drive wheel 24 into the recesses 21 of the first housing element 16 engages and thus the two components are positively connected in the circumferential direction. The introduction of the crankshaft to the drive wheel 24 transmitted torque, can now on the positive connections between the drive wheel 24 and the imprints 21 of the first housing element 16 and continue on the positive connections between the recesses 21 and the stator 2 be transferred to this. This circumferentially positive connection of the components replaces the frictional connection described in the prior art between the bottoms of the housing elements and an axial side surface of the stator 2 , Thus, the transmitted forces act in the direction of the connection between the components and over a much larger area, whereby the forces can be transmitted safely. The transmitted force is distributed over a larger connecting surface, causing the stator 2 thin-walled can be performed. As a result, in addition to the reliability of the torque transmission, the weight of the device 1 and thus their moment of inertia and also reduces costs.

The second housing element 17 can, as in 1 represented with a central opening 17a be provided. This opening 17a serves in one embodiment of the device 1 in which the output element 3 is fastened to the camshaft by means of a central bolt, as an engagement opening for a tool to tighten the central bolt. In this case, the opening 17a after mounting the device 1 be sealed oil-tight on the camshaft by means of a lid, not shown.

Likewise conceivable are embodiments of the device 1 in the second housing element 17 without opening 17a is trained.

On the second housing element 17 are form elements 11a formed, which cause on the one hand a stiffening of the component and on the other hand, the surface of the housing 11 enlarge and thus contribute to a better cooling. Particularly advantageous is an embodiment of the form elements 11a as cooling fins.

In 3 is a perspective view of the first housing element 16 shown. Well recognizable are the indentations 21 extending radially inward into the cavities of the stator 2 intervention. The indentations 21 also allow on the outer surface engagement of the drive wheel 24 , wherein advantageously the inner peripheral surface of the drive wheel 24 the outer peripheral surface of the first housing member 16 is adjusted.

As in 1 it can be seen, the pressure chambers 10 in the axial direction on the camshaft-facing side of the device 1 through the ground 18 of the first housing element 16 sealed pressure-tight. For this purpose is the ground 18 of the first housing element 16 just executed and arranged so that it is in the axial direction directly to the output element 3 or the stator 2 followed. On the camshaft side facing away from the device 1 is between the second housing element 17 and the stator 2 or the output element 3 a sealing washer 12 arranged. The outer circumference of the sealing washer 12 is the inner contour of the first housing element 16 adapted, whereby these rotatably with the housing 11 and with the stator 2 connected is. This is both the output element 3 as well as on the stator 2 , at least in the area of the pressure chambers, and is by means of the second housing element 17 against the stator 2 pressed, whereby the Druckräu me 10 be sealed pressure-tight in this axial direction. Alternatively, it is also conceivable for this sealing disc 12 to dispense with and the axial sealing of the pressure chambers 10 through the second housing element 17 to accomplish. For this purpose, this second housing element would have 17 also be executed just.

Because of the soil 18 of the first housing element 16 as a sealing surface for Druckräu me 10 is used in the axial direction, can be dispensed with a second sealing disc, whereby the number of components and thus the assembly cost and the cost of the device 1 can be reduced. These advantages could be increased by the fact that also on the sealing disc 12 is omitted and the sealing of the pressure chambers in this axial direction also by the second housing element 17 is accomplished.

The device 1 is still with two groups of hydraulic lines 25 . 26 provided, which starting from the central bore 4a of the output element 3 extending outward in the radial direction. The first pressure medium lines 25 lead into the first pressure chambers 14 , whereas the second pressure medium lines 26 in the second pressure chambers 15 lead. By means of one in the central hole 4a of the output element 3 arranged pressure medium distributor, or alternatively a control valve, can via the pressure medium lines 25 . 26 optionally the first or the second pressure chambers 14 . 15 Pressure medium supplied or derived from these. Thus, between the first and second pressure chambers 14 . 15 a pressure gradient can be built up, causing the wings 6 be urged in the circumferential direction and thus the relative phase position of the output element 3 to the stator 2 optionally adjustable or can be kept. By adjusting the phase angle between the output element 3 , which is rotatably connected to the camshaft and the stator 2 , which is in drive connection with the crankshaft, can be selectively influenced on the phase position between the crankshaft and the camshaft and thus the timing of the gas exchange valves are affected relative to the position of the crankshaft.

In 2 is further a rotation angle limiting device 27 shown, which by a rotationally fixed to the output element 3 connected pen 28 and one on the gasket 12 trained recess 29 is realized. The pencil 28 reaches into the recess 29 one, with the recess 29 extends in the circumferential direction that the pin 28 in both extreme positions of the output element 3 to the stator 2 at a substantially radially extending wall of the recess 29 comes to the concern. This will prevent the wings 6 in the transition area between the outer peripheral walls 8th and the side walls 9 plunge. This will prevent the wings 6 jam at the radii formed there.

With insufficient pressure medium supply of the device 1 For example, during the starting phase of the internal combustion engine or at idle, the output element 3 uncontrolled relative to the stator due to the alternating and drag torque exerted by the camshaft 2 emotional. In a first phase, the drag torques of the camshaft push the output element 3 relative to the stator 2 in a circumferential direction opposite to the direction of rotation of the stator 2 until this movement of the Drehwinkqelbegrenzungsvorrichtung 27 is stopped. In the following, the alternating moments that drive the camshaft to the output element 3 exerts, to a swinging back and forth of the output element 3 and with it the wing 6 in the pressure chambers 10 until at least one of the pressure chambers 14 . 15 completely filled with pressure medium. This leads to higher wear and noise developments in the device 1 , Furthermore oscillates in this phase of operation, the phase angle between the output element 3 and stator 2 with high amplitude, which leads to a troubled operation of the internal combustion engine.

To prevent this is in the device 1 a locking device 30 intended. This consists of a in a recess of the output element 3 arranged locking pin 31 , which by means of a spring in the direction of the sealing disc 12 is urged. At the gasket 12 is a backdrop 32 formed, in which the locking pin 31 in a maximum early position or a maximum late position of the output element 3 to the stator 2 is urged. In this case, the locking pin is located 31 at the radial Be grenzungswänden the backdrop 32 at the same time in the on the output element 3 trained recording extends. As a result, a positive, mechanical connection between the output element 3 and the stator 2 manufactured in a relative phase position, which corresponds to an optimal position for the start and / or idling of the internal combustion engine. In addition to the locking of the output element 3 to the stator 2 in one of the maximum end positions can also be provided to lock both components in a central position relative to each other. Advantageously, the sealing disc 12 made of a hardenable steel. The sealing washer 12 is subjected to a hardening process after shaping, whereby these over the locking pin 31 transmitted forces can functionally reliable record. This leads to an increased life of the device 1 ,

Furthermore, means are provided for the Verrieglungspin 31 with sufficient supply of the device 1 push back into the receptacle with pressure medium and thus release the lock. In the illustrated embodiment, the scenery is provided 32 via pressure medium channels 33 to pressurize with pressure medium. The pressure medium channels 33 are as in the side surface of the output element 3 formed grooves extending from at least one of the pressure chambers 14 . 15 to the backdrop 32 extend.

That in the scenery 32 Guided pressure medium urges the locking pin 31 against the force of the spring back into the receptacle, causing the fixed phase relation between the output element 3 and stator 2 will be annulled.

It is provided that the pressure medium channels 33 only in a defined small angular interval of the phase position between the stator 2 and the output element 3 with the backdrop 32 communicate.

The housing 11 is advantageously designed as a sheet metal housing, wherein the two housing elements 16 . 17 are made by means of a non-cutting forming process from a sheet metal blank. For example, techniques such as deep drawing are to be considered. Due to the design of the housing 11 From a sheet steel blank is a secure seal of the device 1 ensures the device 1 can be used as a belt-driven camshaft adjuster. Such Nockenwellenvers plate are usually arranged outside of the cylinder head, creating a secure seal of the device 1 is required. Occurring leakage oil is due to the formation of the housing 11 as a sheet metal part within the device 1 collected and can over on the cylindrical section 19 trained channels are returned to the cylinder head. Alternatively, between the section 19 and the camshaft may be formed with an annular gap to direct leakage oil back into the cylinder head. The first housing element 16 is advantageously over one on the section 19 arranged radial shaft seal 20 sealed relative to the cylinder head.

Due to the encapsulation of the stator 2 and the output element 3 inside the case 11 can be a costly aftertreatment to seal the normally formed as a porous sintered component output element 3 be waived. Any small leakage through the sintered material or at the sealing points will be caused by the housing 11 within the device 1 held and can be returned to the cylinder head.

In the embodiment in which the pressure chambers 10 on the camshaft side facing away from the device 1 by means of a sealing washer 12 pressure-tight, this sealing disc can 12 simultaneously serve as a shim to any occurring tolerances of the two housing elements 16 . 17 compensate.

4 shows a further embodiment of a device according to the invention 1 , In this illustration, the gasket was 12 away. This embodiment is largely identical to the first embodiment, which is why identical components have been given the same reference numerals. In contrast to the first embodiment, here is the stator 2a not designed as a thin-walled sheet metal forming part, but as a solid component. This may be, for example, a stator 2a made of a sintered material. In this embodiment, the housing satisfies 11 the same functions as in the first embodiment (torque transmission, sealing of the pressure chambers 10 ), whereby the same advantages are achieved. The indentations 21 grei fen in on the stator 2a trained indentations 21a one. These indentations can be formed cost-neutral on the sintered component in that they are already taken into account in the forming tool.

1

contraption

1a

locking device

2

stator

2a

stator

3

output element

4

wheel hub

4a

central bore

5

vane

6

wing

7

inner peripheral wall

8th

outer peripheral wall

9

Side wall

10

pressure chamber

11

casing

11a

forming element

12

sealing washer

13

spring element

14

first pressure chamber

15

second pressure chamber

16

first housing element

16a

welded joint

17

second housing element

17a

opening

18

ground

19

section

20

Radial shaft seal

21

indentations

22

collar

23

drilling

24

drive wheel

25

first Pressure medium line

26

second Pressure medium line

27

Drehwinkelbegrenzungsvor

direction

28

pen

29

recess

30

locking device

31

locking pin

32

scenery

33

Pressure fluid channel

100

Internal combustion engine

101

crankshaft

102

piston

103

cylinder

104

traction drive

105

traction drive

106

intake camshaft

107

exhaust

108

cam

109

cam

110

Inlet gas exchange valve

111

Auslassgaswechselventil

Claims (12)

Contraption ( 1 ) for the variable adjustment of the timing of gas exchange valves of an internal combustion engine with - a stator ( 2 ) and a coaxially arranged output element ( 3 ), - wherein the two components are rotatably mounted to each other, - and with a separately to the stator ( 2 ) and the output element ( 3 ) formed housing ( 11 ), which the stator ( 2 ) and the output element ( 3 ) at least partially, characterized in that - an outer circumferential surface of the stator ( 2 ) is formed in the circumferential direction with a radial profile, in which the housing ( 11 protrudes in such a way that a positive connection between the two components is made in the circumferential direction. Device according to claim 1, characterized in that the housing ( 11 ) Outlet of pressure medium from the device ( 1 ) prevented. Device according to claim 1, characterized in that between the stator ( 2 ) and the output element ( 3 ) at least one pressure chamber ( 10 ), the housing ( 11 ) of at least two housing elements ( 16 . 17 ) and at least one plane, perpendicular to the axial direction of the device ( 1 ) standing section ( 18 ) of the housing ( 11 ) as a sealing surface for the pressure chamber ( 10 ) acts in the axial direction. Device according to claim 1, characterized in that the stator ( 2 ) is designed as a chipless formed sheet metal part. Device according to claim 4, characterized in that the stator ( 2 ) is produced by a deep drawing process. Apparatus according to claim 3, characterized in that at least one of the housing elements ( 16 . 17 ) is designed as a chipless formed sheet metal part. Apparatus according to claim 6, characterized in that at least one housing element ( 16 . 17 ) is produced by a deep drawing process. Apparatus according to claim 1, characterized in that the two housing elements ( 16 . 17 ) by means of a welded connection ( 16a ) are interconnected. Device according to claim 1, characterized in that on the housing ( 11 ) a cylindrical section extending in the axial direction ( 19 ) for sealing the device against a radial shaft sealing ring ( 20 ) is trained. Apparatus according to claim 9, characterized in that a camshaft in the section ( 19 ) and that between the inner diameter of the section ( 19 ) and the camshaft is formed a gap. Apparatus according to claim 1, characterized in that on at least one of the housing elements ( 16 . 17 ) Form elements ( 11a ) are formed to increase the surface area. Apparatus according to claim 1, characterized in that a locking device ( 30 ) is provided, wherein a locking pin ( 31 ) in one on a sealing disc ( 12 ) trained backdrop ( 32 ) and wherein the sealing disc ( 12 ) consists of a hardenable steel.