EP1979651A1

EP1979651A1 - Chain drive and use of a chain in a chain drive

Info

Publication number: EP1979651A1
Application number: EP07712136A
Authority: EP
Inventors: Rainer Pflug
Original assignee: Schaeffler KG
Current assignee: Schaeffler Technologies AG and Co KG
Priority date: 2006-02-01
Filing date: 2007-01-30
Publication date: 2008-10-15
Also published as: WO2007088167A1; DE102006004533A1; CN101379320B; CN101379320A; US20090054187A1

Abstract

The invention relates to a chain drive comprising a plurality of shafts (2, 4, 5), which are connected into the drive and have in each case one sprocket (3, 6, 7), and a chain (8) which is guided over the sprockets (3, 6, 7), wherein at least one sprocket (3) is non-circular in order to reduce the chain forces which result from the disturbance vibrations introduced into the drive (1), wherein the chain (8) is composed of links (9, 10, 11) which are connected to one another by means of pin-like connecting elements (15) and which have connection apertures (12, 13, 14), characterized in that the connection apertures (12, 13, 14) of all the links (9, 10, 11) are normally punched.

Description

Description of the invention

Chain drive and use of a chain in a chain drive

Field of the invention

The invention relates to a chain drive comprising a plurality of shafts integrated into the drive, each having a sprocket and a chain guided over the sprockets, wherein at least one sprocket for reducing the introduced from the drive spurious oscillations chain forces is out of round, the chain from each other via bolt-like links connected, Verbindungsdurchbrechungen having tabs.

Background of the invention

Chain drives are used, for example, in the form of control drives in internal combustion engines in the automotive sector. Due to the system, such a chain drive does not run uniformly and without interference; instead, interfering vibrations are coupled into the drive via the integrated shafts or generated by their associated or downstream units, which lead to periodically fluctuating forces and moments in the train. These fluctuations inevitably result in considerable local force variations acting on the chain, which the chain must absorb for what it is designed accordingly. Usually chains are used in such schwanzungsbelasteten chain drives, in which the connection openings of the individual tabs, which are penetrated by the bolt-like connecting member, are finely punched. In contrast to a normally punched opening, a fine-perforated opening is characterized by a smooth cut portion> 80%. This smooth cut portion results from the ratio of the given with respect to the punching direction smooth cutting length of the punch opening to Laschendicke. The smooth-cut portion should be as high as possible to absorb the high forces or the compensation of the force fluctuations to a high power transmission area to realize between tab and link. Although such fine-stamped chains can be used in the known chain drives in spite of the disturbing vibrations and the periodic force changes. However, their cost price is considerable, as a result of fine blanking the manufacturing cost is significantly large.

For example, from DE 195 20 508 A1, it is known to reduce one of the sprockets introduced into the drive, for example via the crankshaft coupled to the internal combustion engine, which generates periodic force fluctuations as a result of the piston movement, one of the sprockets, be it one Drive wheel, eg the crankshaft wheel, or a driven wheel, e.g. a camshaft wheel or the like to make out of round and due to this non-circular, e.g. oval design purposefully introduce compensation vibrations in the drive, which compensate for the unwanted spurious oscillations, thus counteract them. This can be a certain damping of the spurious vibrations and thus a calming of the train can be achieved. Even in such "calming" instincts, fine-cut chains are still being used as a result of the still existing, albeit damped, force fluctuations.

Summary of the invention

The invention is therefore based on the problem of specifying a chain drive, which is designed improved compared to previously known chain drives, especially in cost-technical view.

To solve this problem is provided according to the invention in a chain drive of the type mentioned that the connection openings of all tabs are punched normal.

In the chain drive according to the invention is - in contrast to the prior art so far - instead of a fine-punched chain exclusively normal punched chain, ie a chain with exclusively normal punched Verbindungsdurch- refractions used. It has been found that by integrating one or more non-circular wheels and thus the Störschwingungs- attenuation can achieve a reduction of the periodic force fluctuations to such an extent that the resulting forces even from a simply executed, exclusively normal-punched chain despite the result of Normal punching given, significantly reduced power transmission area between sprocket and chain can be adopted. A chain drive with one or more non-circular wheels thus allows the use of an exclusively normal-punched chain without further ado. Such, however, can be made substantially simpler and more cost-effective, since the effort required to produce a normally punched connection opening is significantly lower than that for producing a finely punched connection opening. Thus, by using a normal-stamped chain in a chain drive that is at least partially soothed by at least one non-circular sprocket, a drive design which is more favorable in terms of costs, in particular, can be achieved.

The chain drive integrated in the chain according to a first alternative of the invention on each link three adjacent tabs, of which optionally the middle is profiled tooth-like for a force-transmitting attack on the toothed sprocket have. In this simplest chain design so only three tabs are arranged on a connecting member.

An alternative embodiment provides that the chain on each link has five or more adjacent tabs, with two outer guide plates, following this at least two for a force-transmitting attack toothed profiled on the toothed sprocket and between these at least one, possibly also tooth-like profi lated connecting strap. This chain is thus executed five, seven or mehrlaschig. Such a chain, which is particularly suitable for use in the chain drive according to the invention, is described in German Patent Application 10 2005 024 747 A1. This patent application is hereby expressly incorporated See, the features described therein apply equally to the present patent application as disclosed in this. In the case of the toothed chain described there not only the pivoting plates, but also the at least one connecting strap are profiled tooth-like, that is, the force is transmitted not only on the pivoting plates, but also on the connecting strap. It follows that the entire tooth surface, which cooperates with the tooth surface of the sprocket side, adjacent tooth, is significantly larger than in conventional toothed chains, in which the connecting plate has no profiling. The entire applied load is thus distributed over a larger area in this chain, which is advantageous. This applies in particular with regard to the fact that in the chain drive according to the invention the connection openings of all the links forming the chain known from DE 10 2005 024 747 are normally punched.

In addition to the chain drive according to the invention, the invention further relates to the use of a chain consisting of bolt-like links interconnected, connection openings having tabs, wherein the Verbindungsdurchbrechungen all tabs are punched normal, in a chain drive comprising a plurality of sprockets over which the chain is guided, wherein at least one sprocket is out of round. The chain used according to the invention furthermore has three, five or seven tabs on each link of the chain.

Brief description of the drawings

Further advantages, features and details of the invention will become apparent from the following description of an embodiment. Showing:

1 is a schematic diagram of a chain drive according to the invention,

Fig. 2 is a side view of a chain drive of FIG. 1 usable

Chain, 3 is a partial sectional view through the chain cutout of Fig. 2,

Fig. 4 is an enlarged detail view of the connecting portion of the individual tabs via a connecting member, and

Fig. 5 is an illustration for explaining the term "fine blanking" and

"Normal Dancing".

Detailed description of the drawings

Fig. 1 shows an exemplary chain drive 1 according to the invention, e.g. a timing drive of a motor vehicle internal combustion engine. Shown is a first wave 2, e.g. a crankshaft on which a first, here non-circular, oval sprocket 3 is seated. Furthermore, two further shafts 4, 5, e.g. two camshafts provided on which each round sprockets 6, 7 sit. While the crankshaft 2 is directly coupled to and driven by the engine, the camshafts 4, 5 are driven by the chain 8. Via the crankshaft 2, resulting from the operation of the internal combustion engine and the piston movement, spurious vibrations are registered in the chain drive 1, which lead to periodically fluctuating force, torque and load changes to the chain 8. To calm this disturbing vibrations and to generate these compensating countervailing the sprocket 3 of the crankshaft 2 is formed out of round. The basic structure of such a chain drive with at least one non-circular sprocket is well known and need not be explained.

FIG. 2 shows a detail of a chain or tooth chain 8 that can be used in the chain drive 1, which, according to the embodiment according to the German patent application DE 10 2005 024 747 A1, for example, can be an inverted toothed chain. This consists of lateral, outer guide plates 9, which follow in the embodiment shown two pivoting plates 10, between which in turn a connecting plate 11 ange- is orders. As can be seen from the sectional illustration according to FIG. 3, the outer guide straps 9 and the central connecting strap 11 are essentially congruent to one another, while the pivoting straps 10 are arranged offset therefrom. The tabs themselves have corresponding connection openings 12 (on the guide tabs 9), 13 (on the pivoting tabs 10) and 14 (on the connecting tab 11). The mutually aligned connection openings 12, 13 and 14 are penetrated by a connecting member 15 in the form of a connecting pin or connecting pin. This is relatively thick to improve the wear resistance and to avoid bending. While the pitch and the diameter of the respective connection openings 12 of the guide plates 9 and the connection opening 14 of the connecting plate 11 can be chosen so that both sit in a press fit on the connecting member 15, so that they are not pivotable, it is possible to change the diameter of the Connecting openings 13 of the swivel plates 10 to choose slightly larger, so that they are accommodated in a clearance fit on the connecting member 15. In this case, the pitch can be chosen slightly smaller, so that the inner diameter wall rests at a point on the connecting member 15. A corresponding embodiment is shown in the enlarged detail view in FIG. 4, from which it can also be seen that the two pivoting tabs 10 and the connecting tab 11 are significantly wider than the guide tabs 9, preferably twice as wide in order to realize the largest possible number of contact surfaces. which is particularly possible to a considerable degree, even if the connecting plate 11 - according to the teaching according to DE 10 2005 024 747 - is provided with a tooth profile. Preferably, the swivel plates 10 and the connecting plate 11 have slightly different thicknesses and outer contours, so that the parts can be sorted easily during assembly.

In the chain drive 8 according to the invention used in the chain drive according to the invention, all connection openings 12, 13, 14 of all lugs 9, 10 and 11 are now normally punched. A normally punched connection opening is characterized by a smooth cut portion <80% and can be made in a much simpler way, as the one Slit section> 80% fine-punched connection opening.

Fig. 5 makes it clear how the respective Glattschnittanteil results. Shown is an example of a section of a guide plate 9 with the connection opening 12, the following statements are of course identical for the tabs 10 and 11 and their connection openings 13 and 14 apply.

The connecting opening 12 can be subdivided into three sections via its length running perpendicular to the tab 9, namely the gate 16, the straight section 17 and the cutout 18. The smooth section 17 is the area in which the connection opening 12 forms a homogeneous, cylindrical wall has and does not change in diameter.

The smooth cut proportion is calculated to

Slice ratio = (G / L) x 100%.

In this case, G is the length of the smooth section 17, see FIG. 5, while L describes the lashing thickness, see FIG. 5. For a normally punched connection opening, the calculated straight cut portion is ≦ 80%, while the smooth cut portion for a finely punched connection opening is> 80%. The larger the smooth cut portion, the greater is necessarily the contact surface of the respective connection opening on the connecting member 15 and thus the force transmission surface. In the case of the chain used according to the invention, however, each of the connection apertures 12, 13, 14 is punched normally, that is to say it has a smooth cut portion of <80%. Nevertheless, the power fluctuations still present or, in general, the forces to be transmitted can be absorbed or transmitted by the chain. reference numerals

1 chain drive

2 crankshaft

3 sprocket

4 camshaft

5 camshaft

6 sprocket

7 sprocket

8 chain

9 guide tab

10 swivel lug

11 connecting strap

12 connection opening

13 connection opening

14 connection opening

15 link

16 bleed

17 smooth cut

18 breakout

Claims

claims

1. chain drive comprising a plurality of shafts integrated in the drive (2, 4, 5) each having a sprocket (3, 6, 7) and a chain sprockets (3, 6, 7) guided chain (8), wherein at least one sprocket (3) to reduce the chain forces resulting from the disturbing vibrations introduced into the drive (1) is out of round, wherein the chain (8) consists of lugs (9, 10) connected to one another via bolt-like connecting links (15) , 1 1), characterized in that the connection openings (12, 13, 14) of all tabs (9, 10, 1 1) are punched normal.

2. chain drive according to claim 1, characterized in that the chain (8) on each link (15) see three adjacent La see, of which optionally the middle is profiled tooth-like for a force-transmitting attack on the toothed sprocket has.

3. chain drive according to claim 1, characterized in that the chain (8) on each connecting member (15) has five or more adjacent tabs, with two outer guide plates (9), following this at least two for a force-transmitting attack on the toothed sprocket (3, 6, 7) tooth-like profiled swivel plates (10) and between these at least one, optionally also tooth-like profiled connecting strap (1 1).

4. Use of a chain consisting of interconnected via bolt-like links, connection openings having tabs, wherein the connection openings of all tabs are normal punched, in a chain drive comprising a plurality of sprockets over which the chain is guided, wherein at least one sprocket is out of round.

5. Use of a chain according to claim 4, wherein at each link of the chain three, five or seven tabs are arranged.