DE102016221834A1 - Camshaft adjuster with separate cover plate for a recess for locking a rotor to a stator - Google Patents

Abstract

The invention relates to a camshaft adjuster (1) of the vane type which has a rotor (3) arranged concentrically with a stator (2), a stator-type cover (4) being arranged on the axial end side of the rotor (3). 3) a locking bolt (5) is arranged so that when displaced a portion (6) of the locking bolt (5) in a recess (7) of the lid (4) engages to the rotor (3) with the stator (2) to lock, wherein the recess (7) as in the lid (4) existing hole is formed, which is covered with a cover of the cover (4) separate cover plate (8) on the outside.

Description

The invention relates to a camshaft adjuster of the vane type, which has a rotor arranged concentrically to a stator, wherein a statorfester cover is disposed on the axial end side of the rotor, wherein a locking bolt is arranged in the rotor so that when a portion of the locking bolt in a Recess of the lid engages to lock the rotor to the stator.

Camshaft adjusters are already known from the prior art. Generic camshaft adjuster are constructed as a hydraulic camshaft adjuster of the vane type and functioning. Consequently, the camshaft adjuster is used during operation for adjusting a control time of a camshaft of an internal combustion engine. Typically, the phaser has a stator and a rotor rotatably mounted relative to this stator.

For example, the US 7 318 400 B2 a wing cam phaser comprising a bolt locking mechanism for locking a rotor in a variable manner with a stator, a rear cover plate and a front cover plate fixed to the stator and enclosing the rotor inside the stator, the phaser comprising means for advancing each and delay chambers formed between the rotor and the stator for supplying phase advance oil and phase delay oil, the phase advance oil conducting means comprising a first channel connecting the hole to a supply of the phase advance oil and the phase delay oil conducting means second Channel includes to connect the hole with a supply of the phase delay oil, and wherein the cross-sectional areas of said first and second channels are different.

However, the prior art always has the disadvantage that camshaft adjusters are relatively expensive because of their production and their assembly work. In particular, the thickness of a lid, which must be of sufficient size to accommodate a lock bushing or similar locking mechanisms, represents a large portion of the cost and, in particular, the weight of the camshaft adjuster.

It is therefore the object of the invention to avoid or at least mitigate the disadvantages of the prior art. In particular, a particularly cost-effective, weight-reduced, easily manufacturable and mountable camshaft adjuster is to be disclosed.

This object is achieved in a generic device according to the invention in that the recess of the lid is formed as existing in the lid hole, which is covered with a separate cover from the outside of the cover.

This has the advantage that the lid can be made considerably thinner and only the areal small part of the cover plate must be made so thick that the locking mechanism can engage in the lid with the cover plate. As a result, the entire camshaft adjuster is reduced in its cost and weight, which advantageously has a favorable effect on the maximum power and the maximum range of the internal combustion engine.

Advantageous embodiments are claimed in the subclaims and are explained in more detail below.

Thus, it is advantageous if the cover plate on the lid via a clinching connection, also called clinch connection or Druckfügeverbindung attached. A clinching is particularly durable by the combined joining and forming and can advantageously withstand high loads. In addition, no additional fastening devices must be used, which must be mounted in a further assembly step and may increase the thickness and thus the weight of the lid in addition.

Furthermore, it is expedient if the cover sealingly closes the recess approximately with the interposition of a pressure medium. Especially in the field of application of the camshaft adjuster, it is of particular importance that the recess is sealed, since leakage of the oil can limit the functioning of the entire adjustment mechanism and cause damage.

In particular, it is advantageous to use an O-ring as an additional sealant, since O-rings are relatively inexpensive as standard parts and at the same time are easy to assemble.

Furthermore, a favorable embodiment is characterized in that in the cover plate a plurality of through holes are present, which are filled flush by the material of the lid. Due to the positive connection, the two-part design of the cover with the cover plate on no reduced strength, in contrast to a one-piece design. The connection can be made without material waste and the lid is advantageously very compact and designed with a smooth surface.

In other words, the invention relates to a camshaft adjuster whose cover and cover plate are joined together by clinching. The clinching can be done both before and during the final assembly. By reducing the thickness of the cover, costs and weight can be saved. In order to achieve additional sealing improvement between the cover and the cover plate, a sealing element may be implemented in the form of an O-ring or a sealing washer.

• 1 einen Nockenwellenversteller mit einer von einem Deckel separaten Abdeckplatte in einem ersten Ausführungsbeispiel in einem perspektivischen Längsschnitt,
• 2 den Nockenwellenversteller in einer zur 1 gedrehten Ansicht,
• 3 den Nockenwellenversteller in einer zur 1 und 2 gedrehten Ansicht,
• 4 den über eine Durchsetzfügeverbindung mit der Abdeckplatte verbundenen Deckel in einer perspektivischen Längsschnittansicht,
• 5 den Deckel mit der Abdeckplatte in einer zur 4 gedrehten Ansicht,
• 6 einen vergrößerten Ausschnitt der Durchsetzfügeverbindung in einer zur 4 vergleichbaren Weise,
• 7 den Nockenwellenversteller mit dem Deckel und der Abdeckplatte in einem zweiten Ausführungsbeispiel in einem Längsschnitt, und
• 8 den Nockenwellenversteller in einer zur 7 gedrehten Ansicht.

The invention will be explained below with the aid of a drawing. Show it:

• 1 a camshaft adjuster with a lid separate cover in a first embodiment in a longitudinal perspective view,
• 2 the camshaft adjuster in a for 1 rotated view,
• 3 the camshaft adjuster in a for 1 and 2 rotated view,
• 4 the lid connected to the cover plate via a clinching connection in a perspective longitudinal sectional view,
• 5 the cover with the cover plate in a for 4 rotated view,
• 6 an enlarged section of the clinching compound in a for 4 comparable way,
• 7 the camshaft adjuster with the cover and the cover plate in a second embodiment in a longitudinal section, and
• 8th the camshaft adjuster in a for 7 rotated view.

The figures are merely schematic in nature and are for the sole purpose of understanding the invention. The same elements are provided with the same reference numerals. The features of the individual embodiments can be interchanged.

In 1 is a camshaft adjuster 1 of the wing cell type. The camshaft adjuster has a stator 2 and one to this stator 2 concentric and rotatable rotor arranged 3 , At the axial end of the rotor 3 is a statorfester cover 4 arranged. The rotor 3 can with the stator 2 rotatably locked by a section by axial displacement 6 of the locking bolt 5 with a recess 7 of the lid 4 is engaged.

The recess formed as a hole 7 of the lid 4 gets from one of the lid 4 separate cover plate 8th covered on the outside, with the cover plate 8th via a clinch connection 9 in which several through holes 9 the cover plate 8th flush with the material of the lid 4 be filled on the lid 4 is attached.

According to 1 and 2 owns the locking bolt 5 , which is designed as a U-bolt / socket / snap-in sleeve, a section 6 with which he enters the recess 7 of the lid 4 can intervene. The locking bolt 5 is inside a hole in the rotor 3 mounted axially displaceable. The locking bolt 5 is about a spring 10 against a main body 11 biased. The spring force of the spring 10 pushes a section 6 of the locking bolt 5 in the recess 7 of the lid 4 into it and must be overcome for unlocking.

As in 3 the recess is shown 7 in the lid 4 on the outside of the cover plate 8th covered. The cover plate 8th is designed in a first embodiment as up to 4mm thick circular plate, the center / centrally a recess 12 having. The depression 12 is circular and has a diameter that is about as large as the diameter of the recess 7 in the lid 5 and greater than the diameter of the locking bolt 5 , The depression 12 can by stamping, swaging, thermoforming or other forming process in the cover plate 8th be introduced.

The thickness of the cover plate 8th is constant over the entire cross section. The locking bolt 5 is in its axial displacement on the axial end face of the rotor 3 through the depression 12 in the cover plate 8th limited. In addition, a sealing element, for example, in the manner of an O-ring axially between the lid 4 and the cover plate 8th and radially between the clinching connection and the recess 7 or the depression 12 be used.

The 4 to 6 show the lid 4 on which the cover plate 8th is attached via a clinch connection. Since a punch pushes the materials to be joined under plastic deformation into a die during clinching, a non-positive and positive pushbutton-like connection is created between the cover 4 and the cover plate 8th , As in 6 you can see the through holes 9 the cover plate 8th with material of the lid 4 connected. The stamp formation creates a flush surface on the cover plate 8th ,

The central depression 12 in the cover plate 8th closes directly to the recess 7 in the lid 4 on, as in 4 to see. This will cause the locking bolt 5 given a guide without putting this on the edge between lids 4 and cover plate 8th jam or get caught. Through the depression 12 can the lid 4 around the depth of the depression 12 and the thickness of the cover plate 8th be made thinner without the locking mechanism is adversely affected. The section 6 of the locking bolt 5 must be at least as far in the recess 7 in the lid 4 or in the depression 12 the cover plate 8th can intervene that the rotor 3 against rotation relative to the stator 2 is secured.

In 7 and 8th is a second embodiment of the cover plate 8th and the lid 4 shown. The lid 4 is made thicker compared to the first embodiment. The via a clinch connection on the lid 4 attached cover plate 8th is designed as a circular plate, which is about half as thick as the lid 4 is. The cover plate 8th has a thickness that is constant over the entire cross section. There is no recess in the cover plate 8th introduced in the second embodiment. The through holes 9 in the cover plate 8th be through material of the lid 4 flush finished. The locking bolt 5 is in its axial displaceability through the inner surface of the cover plate 8th limited.

LIST OF REFERENCE NUMBERS

1

Phaser

2

stator

3

rotor

4

cover

5

locking bolt

6

section

7

recess

8th

cover

9

Through holes

10

feather

11

main body

12

deepening

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

• US 7318400 B2 [0003]

Claims (4)

Camshaft adjuster (1) of the vane type, which has a rotor (3) concentric with a stator (2), wherein on the axial end side of the rotor (3) a statorfester cover (4) is arranged, wherein in the rotor (3) has a locking bolt (5) is arranged to engage at its displacement, a portion (6) of the locking bolt (5) into a recess (7) of the lid (4) to lock the rotor (3) with the stator (2), characterized in that the recess (7) is designed as a hole present in the cover (5), which is covered on the outside with a cover plate (8) which is separate from the cover (4). Camshaft adjuster (1) to Claim 1 , characterized in that the cover plate (8) is attached to the lid (4) via a clinching connection. Camshaft adjuster (1) to Claim 1 and 2 , characterized in that the cover plate (8) sealingly closes the recess (7). Camshaft adjuster after Claim 1 to 3 , characterized in that in the cover plate (8) a plurality of through holes (10) are present, which are filled flush by the material of the lid (4).

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