DE102007059277A1 - Clamping and damping device for belt of tensioning unit drive in automobile engineering, has sealing rings with V- or Y-shaped cross-section and formed for balancing irregular clearance of annular gap between plate and/or inner cone and arm - Google Patents

Abstract

The device (1) has a stationary base plate (6) with an inner cone (2), at which a pressure spring-loaded pivot arm (3) is pivotably attached with a press roll (4) that is rotatably supported at a distal end. A friction element (8) acts with dry-film lubricant between the cone and the arm. Dynamic sealing rings (9a, 9b) having V- or Y-shaped cross-section are arranged at both axial ends of the element between the plate and/or the cone. The rings are formed according to a tubular ring for balancing an irregular clearance of an annular gap (11) between the plate and/or the inner cone and the arm.

Description

Field of the invention

The The present invention relates to a tensioning and damping device for a traction means, comprising a stationary receiving unit with inner cone, on which a torsion spring loaded swivel arm with a at the distal end rotatably mounted pressure roller for the traction means is pivotally mounted, wherein between inner cone and pivot arm a friction element acts, to the two axial ends one dynamic sealing ring each between base plate and inner cone and swing arm arranged for the purpose of demarcation to the outside is.

The Field of application of such tensioning and damping devices extends primarily to belt transmissions in the automotive industry. For driving auxiliary equipment, such as coolant pump, electrical Generator and air conditioning unit, primarily a belt drive is used, a part of the torque generated by the crankshaft to Drive uses. Here, the belt over several of Drive and driven pulleys and possibly deflecting guided. To achieve a uniform as possible Belt tension comes the tensioning device according to the invention. and damping device for use, which is stationary on Motor housing is mounted and with the torsion spring loaded Swivel arm over the pressure roller a clamping force on the belt exercises. Because of the internal combustion engine specific crankshaft nonuniformities occur belt vibrations on, which by the tensioning device in fulfillment of another Function be additionally damped.

From the DE 10 2004 025 739 A1 goes out a generic clamping and damping device. The friction element at the bearing between the pivot arm and inner cone usually consists of thermoplastic, which is provided with a separate grease lubrication or with so-called combs such as PTFE (polytetrafluoroethylene) as a dry lubricant. The friction element serves both as a bearing component for the pivot arm and to achieve a friction work for damping the belt vibrations. The torsion spring provided for the torsion spring load of the swivel arm simultaneously exerts an axial force on the swivel arm to generate the friction work in order to keep the bearing free of play or the swivel arm in an oscillating manner.

both sides axially adjacent to the friction element is ever a dynamic sealing ring arranged between the base plate or inner cone and the pivot arm. The cross-sectionally round sealing ring delimits the friction element to the outside, on the one hand the penetration of environmental influences such as dirt, water, engine fluids and the like in the bearing to prevent and on the other hand also a leakage of abrasion or to prevent grease from the bearing. Insofar exists here the demand for a bidirectional dynamic seal.

tries have shown that in training the fricement with a Dry lubricant applied by the normal O-rings Friction work has a significant negative impact may have the function of the belt tensioning unit.

Of the Reason for excessive friction work during execution a friction element with dry lubricant under additional Use of conventional dynamic sealing rings lies in the lack of lubrication and production-related coaxial deviations the dynamic sealing rings limiting components, namely Swivel arm and base plate or inner cone. The coaxial deviations can lead to a significant change in the radial prestressing or to leaks of the dynamic sealing rings to lead.

It is therefore the object of the present invention, a generic Clamping and damping device with unbuffered friction system to improve that even with production-related coaxial deviations ensures the dynamic sealing effect with minimal friction torque becomes.

The Task is based on a tensioning and damping device according to the preamble of claim 1 or 3 in Connection with the respective retrospective characteristic Characteristics solved. The dependent claims give advantageous developments of the invention again.

The The invention includes the technical teaching that the both sides the friction system arranged dynamic sealing rings each after Art of a hose ring are formed, which via a flexible Wall area an uneven gap of the Annular gaps between base plate or inner cone and swivel arm with low friction balances. Alternatively, the dynamic sealing ring can also after Art of a lip seal to be formed, which over a flexible sealing lip or via an elastic sealing body an uneven gap of the annular gap between the receiving element and swivel arm smoothly compensates.

The advantage of the solution according to the invention lies in the fact that hereby an extremely low friction torque of less than 1.0 Nm can be achieved, while still the full sealing effect at operational oscillations and Verschwenkungen the relatively movable components is maintained. In the formation of the dynamic sealing ring as a hose ring a particularly large sealing flexibility for relatively large Koaxialabweichungen is achieved. Particular strength of dynamic sealing rings, which are formed according to a further aspect of the invention in the manner of a lip seal, is the particularly low pressure or the low removal due to line contact. In the dynamic sealing rings according to the invention, a friction torque of less than 1.0 Nm can be achieved.

at Formation of the dynamic seal in the manner of a hose ring the butt joint can also be made glued. Hose rings can be so far by cutting to length and subsequent bonding on impact in a simple manner and thus cost produce.

For the formation of dynamic seals on the type of lip seals can also be resorted to standardized goods. The sealing lip of the lip seal ring is preferably outside radial dynamic sealing on the swivel arm to the plant. This leaves the sealing ring in a simple manner firmly on a seal seat paragraph Mount the base plate or inner cone. It is natural also possible that the sealing ring stationary the pivot arm is arranged and dynamically sealing against the base plate or the inner cone comes to rest. Preferably have to achieve the object of the invention suitable dynamic sealing rings a V-shaped or Y-shaped Cross-section on. In these preferred cross-sectional shapes sufficient radial elasticity at the same time achieved sufficient sealing effect.

to Increasing the radial flexibility is according to a proposed the invention improving measure that the lip seal as a dynamic sealing ring on the opposite side of the sealing lip with a concave circumferential groove is provided. This creates a free space, in which the material of the sealing ring can dodge radially to the flexibility in this direction in a simple way to increase. Alternatively, it is also possible to use the lip seal with a teardrop-shaped cross-section, if due to a flexibility-increasing circumferential groove Ruling tolerance conditions can also be dispensed with.

Further, The measures improving the invention will be described below together with the description of preferred embodiments of the invention with reference to the figures shown in more detail. It shows:

1 a longitudinal section through a tensioning and damping device with a cone-shaped friction element made of thermoplastic with dry lubricant,

2 one in detail magnification of the longitudinal section 1 in the area of one of the dynamic sealing rings,

3 a detail magnification in the same area as 2 with a dynamic sealing ring in a second embodiment, and

4 a detail magnification in the same area as 2 with a dynamic sealing ring in a third embodiment.

According to 1 There is a tensioning and damping device 1 for a - not shown here - belt of a traction mechanism essentially of a stationary mounted base plate 6 , on which an inner cone 2 and a friction element 8th a swivel arm 3 is stored. On the side of the distal end of the swivel arm 3 is a pressure roller 4 rotatably mounted, namely a rolling bearing 5 ,

The base plate 6 and the inner cone are axially positively secured to each other, including for transport purposes. The attachment to the - not shown here - support structure, for example, the engine, via a - not shown - fitting, wherein the washer not described in detail is still connected to the inner cone. The inner cone 2 widens outwards and is replaced by one between the base plate 6 and the swivel arm 3 clamped torsion spring 7 over the friction element 8th backlash-free with an axial force for storage and friction purposes applied. The torsion spring 7 at the same time also brings the torque for pressing the pressure roller 4 on the belt. The friction element 8th consists of a thermoplastic material which contains a dry lubricant of usually 15% PTFE.

In order to ensure a sealing of the bearing point to the outside, is at both axial ends of the bearing and Reibsystems out ever a dynamic seal 9a respectively. 9b arranged.

According to 2 is the dynamic sealing ring 9a and 9b specially designed in the manner of a hose ring in this tensioning and damping device. This is the special dynamic sealing ring 9a and 9b over a flexible wall area 10 , which is capable of an uneven gap of the annular gap 11 between base plate 6 or inner cone 2 and swivel arm 3 compensate for friction. The flexible wall area 10 of the dynamic sealing ring 9a and 9b exists here vorzugswei of conventional elastomer or of a thermoplastic elastomer.

According to 3 is in this embodiment, the dynamic sealing ring 9a ' formed in the manner of a lip seal with V-shaped cross-section. This special dynamic sealing ring 9a ' has a flexible sealing lip 12 , about what an uneven gap of the annular gap 11 between base plate 6 or inner cone 2 and swivel arm 3 is compensable.

Furthermore, the dynamic sealing ring 9a ' at the lip of the seal 12 opposite inner side with a concave circumferential groove 13 Mistake. The circumferential groove 13 serves to increase the radial flexibility of the sealing ring 9a ' when squeezed, so if the sealing lip 12 gets into the compressed state.

According to 4 can the dynamic sealing ring 9a '' in contrast to the embodiment described above also have a Y-shaped cross-section. The on this sealing ring 9a '' provided sealing lip 12 comes sealingly on the swivel arm 3 to the plant. Otherwise, this embodiment corresponds to the embodiment described above.

The The invention is not limited to those described above preferred embodiments of the invention dynamic sealing ring. Is this not like a hose ring formed, but as a lip seal, so are other cross-sectional shapes suitable, which a linear contact with the component to be sealed guarantee. Furthermore, it is within the scope of the present Invention also possible, the invention insert dynamic sealing ring fixed on the side of the swivel arm, so that this dynamic sealing on the base plate or on the inner cone comes to the plant.

Base plate, Swivel arm and inner cone are made of heat dissipation technology Reasons preferably made of die-cast aluminum. For a detailed description of the friction element in terms of geometry and function, in particular mode of action is omitted here.

1

prestressed and damping device

2

inner cone

3

swivel arm

4

capstan

5

roller bearing

6

baseplate

7

torsion spring

8th

friction

9

dynamic seal

10

wall area

11

annular gap

12

sealing lip

13

circumferential groove

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102004025739 A1 [0003]

Claims (10)

Clamping and damping device ( 1 ) for a traction device comprising a stationary base plate ( 6 ) with inner cone ( 2 ), on which a torsion spring-loaded swivel arm ( 3 ) with a rotatably mounted at the distal end of the pressure roller ( 4 ) is pivotally mounted, wherein between inner cone ( 2 ) and swivel arm ( 3 ) a friction element ( 8th ) acts with dry lubricant, at the two axial ends of each a dynamic sealing ring ( 9a . 9b ) between base plate ( 6 ) or inner cone ( 2 ) and swivel arm ( 3 ) is arranged for demarcation to the outside, characterized in that the dynamic sealing ring ( 9a . 9b ) is designed in the manner of a hose ring, which has flexible wall areas ( 10 ) an uneven gap of the annular gap ( 11 ) between base plate ( 6 ) or inner cone ( 2 ) and swivel arm ( 3 ) balances friction. Clamping and damping device ( 1 ) according to claim 1, characterized in that the manner of a hose ring formed dynamic sealing ring ( 9a . 9b ) has a glued butt joint. Clamping and damping device ( 1 ) for a traction device comprising a stationary base plate ( 6 ) with inner cone ( 2 ), on which a torsion spring-loaded swivel arm ( 3 ) with a rotatably mounted at the distal end of the pressure roller ( 4 ) is pivotally mounted, wherein between inner cone ( 2 ) and swivel arm ( 3 ) a friction element ( 8th ) acts with dry lubricant, at the two axial ends of each a dynamic sealing ring ( 9a . 9b ) between receiving element ( 1 ) and swivel arm ( 3 ) is arranged for demarcation to the outside, characterized in that the dynamic sealing ring ( 9a ' . 9b '; 9a '' . 9b '' ) is formed in the manner of a lip seal, which via a flexible sealing lip ( 12 ) an uneven gap of the annular gap ( 11 ) between base plate ( 6 ) or inner cone ( 2 ) and swivel arm ( 3 ) balances friction. Clamping and damping device ( 1 ) according to claim 3, characterized in that the dynamic sealing ring ( 9a ' . 9b '; 9a '' . 9b '' ) at the sealing lip ( 12 ; 12 ' ) opposite inner side with a concave circumferential groove ( 13 ) is provided to increase the radial flexibility. Clamping and damping device according to claim 3 or 4, characterized in that the sealing lip ( 12 ; 12 ' ) of the sealing ring ( 9a ' . 9b '; 9a '' . 9b '' ) outside radial dynamically sealing on the swivel arm ( 3 ) comes to the plant. Clamping and damping device according to claim 3, characterized in that the dynamic sealing ring ( 9a ' . 9b '; 9a '' . 9b '' ) has a V-shaped or Y-shaped cross-section. Clamping and damping device according to one of the preceding claims, characterized in that the dynamic sealing ring ( 9a . 9b ; 9a ' . 9b '; 9a '' . 9b '' ) consists of thermoplastic elastomer. Clamping and damping device according to one of the preceding claims, characterized in that the friction element ( 8th ) consists of temperature-resistant thermoplastic polyamide and contains dry lubricant PTFE (polytetrafluoroethylene). Clamping and damping device according to one of the preceding claims, characterized in that the base plate ( 6 ) coaxial with the outwardly flared inner cone ( 2 ) is positively connected and includes a possibility of screwing to a support structure. Clamping and damping device ( 1 ) according to one of the preceding claims, characterized in that the traction means is designed in the manner of a multi-wedge, wedge, flat or toothed belt.