DE102013208669A1 - Leveling compound and torque transmission device - Google Patents

Abstract

Cylindrical balancing mass for balancing a component rotatable about an axis of rotation, in particular a component of a torque transmission device, such as a friction clutch device, having a longitudinal axis, a first longitudinal section with a first end and a second longitudinal section with a second end, in which the first end has an axial direction Clamping force can be applied and the second longitudinal section can be plastically deformed to produce a positive connection.

Description

The invention relates to a cylindrical compensating mass for balancing a rotatable about a rotational axis component, in particular a component of a torque transmitting device, such as friction clutch having a longitudinal axis, a first longitudinal section with a first end and a second longitudinal section with a second end and a torque transmission device, in particular for a Drive train of a motor vehicle, comprising a rotation axis and at least one rotatable about the axis of rotation first component to which at least one such balancing mass is arranged for balancing.

From the DE 10 2009 007 829 A1 a friction clutch is known with at least one clutch housing, at least one with this rotationally fixed, but limited axially displaceable pressure plate connected and effective between the clutch housing and the pressure plate actuating means for the axial application of force to the pressure plate, wherein at least one of these components forming recesses for balancing the friction clutch in which serving as balancing weight screw elements are screwed. According to the DE 10 2009 007 829 A1 The screw elements have a threaded portion that automatically forms the screw thread. The screw elements have a threaded portion and an adjoining, a balance weight forming screw head with a profiling for a screwing on.

The invention has for its object to improve an initially mentioned leveling compound structurally and / or functionally. In particular, an attachment of a leveling compound should also be possible with accessibility from one side only. In particular, an unintentional release of an attached balancing mass, for example by vibrations and / or under the influence of centrifugal force, should be prevented. In particular, a center of gravity of the balancing mass should be able to be arranged within a component composite to be connected. In particular, an attachment of a balancing mass should be simplified. In particular, a leveling compound should already be securely fixed immediately after installation. In particular, a simple and convenient balancing mass to be provided. In particular, a leveling compound is to be provided which can be adapted with little effort to different geometrical conditions. In particular, a balancing mass is to be provided whose mass can be adapted to different requirements with little effort.

In addition, the invention has for its object to provide a torque transmission device, in particular for a drive train of a motor vehicle, with at least one structurally and / or functionally improved balancing mass.

The object is achieved with a cylindrical compensating mass for balancing a component rotatable about an axis of rotation, in particular a component of a torque transmission device, such as a friction coupling, comprising a longitudinal axis, a first longitudinal section with a first end and a second longitudinal section with a second end, in which the first end in the axial direction can be acted upon by a closing force and the second longitudinal section for producing a positive connection is plastically deformable.

The balancing mass may have a bolt-like shape. The balancing mass can be executed halbhohlnietartig. The first end may have an axial surface for acting on a closing force. This surface can be an annular surface. The first end can form a setting head. The second end may have an axial surface for resting on a second component. This area can be a circular area. The second end may be deformable to a closing head. The leveling compound can be deformable in sections. The leveling compound can be hotformable. The leveling compound can be cold formable. The leveling compound can be abformbar abruptly, for example using a striking tool. The leveling compound can be continuously deformable, for example by means of a pressing tool. The rotatable component may be a first component of the torque transmission device.

The balancing mass can have a longitudinal recess with an opening and a bottom, wherein the opening can be assigned to the first end and the base to the second longitudinal section. The longitudinal recess may be concentric with the longitudinal axis. The longitudinal recess may be a bore. The longitudinal recess may be designed as a blind hole. By means of the longitudinal recess, a wall thickness of the leveling compound can be reduced at least in sections. The longitudinal recess can serve to limit a riveting force. The longitudinal recess can serve to allow a formation of a closing head. The longitudinal recess may have a cylindrical shape with an inner diameter.

The ground may have a conical shape with a predetermined adjusted opening angle. The opening angle about 50 ° to about 75 °, in particular about 60 ° to about 65 °, amount. The conical shape may serve to deflect part of an axial closing force radially outward. The Balancing mass may have a circumferential wall which is bounded radially inwardly by the longitudinal recess, wherein the wall at the first longitudinal portion may have a greater thickness and at the second longitudinal portion has a smaller thickness. The balancing mass may have a shoulder radially outwardly with a first axial contact surface directed towards the second longitudinal section. The ground may be disposed between the second end and the first abutment surface. The reason may have a predetermined adjusted distance from the first contact surface.

For attaching the balancing mass, the balancing mass can be axially inserted from a front side into a hole of the rotatable first component until the second end rests against a second component of the torque transmission device arranged on the rear side of the first component. The second longitudinal portion may have a length such that the first axial abutment surface is then spaced from the front of the first component. Subsequently, a riveting force can be applied to the first end. In this case, the balancing mass can be supported with its second end to the second component. Due to the conical shape of the ground, the wall of the second longitudinal section can be plastically deformed on the back side of the component. The balancing mass can be positively connected to the first component.

In addition, the solution of the problem underlying the invention is carried out with a torque transmission device, in particular for a drive train of a motor vehicle, comprising an axis of rotation, at least one rotatable about the axis of rotation first component on which at least one such balancing mass is arranged for balancing, and at least one second component, which is axially spaced from the first component. The at least one compensating mass can abut with its first contact surface on the first component and abut with its second end on the second component, wherein the second longitudinal section for positive connection of the at least one leveling compound with the first component can be at least partially plastically deformed.

The first component may have at least one hole for receiving the at least one compensating mass. The second component can be spaced from the first component in such a way that a closing head can be formed on a side of the first component facing the second component.

The torque transmission device may in particular be suitable for arrangement in a drive train of an internal combustion engine-driven motor vehicle. The torque transmitting device may be a friction clutch device. The torque transmission device may have at least one pressure plate and / or pressure plate and at least one cover part. The at least one cover part may be the first component. The at least one pressure plate and / or pressure plate may be the second component. The at least one pressure plate may be displaceable relative to the at least one pressure plate in the axial direction for actuation between an engaged actuation position and a disengaged actuation position. The at least one pressure plate may be an intermediate pressure plate. The friction clutch device may have at least one friction clutch. The friction clutch device may comprise a single friction clutch. The friction clutch device may have a single clutch. The friction clutch device may have two friction clutches. The friction clutch device may have a double clutch.

The friction clutch device may be arrangeable in the drive train between a torsional vibration damper and a transmission. The friction clutch device may have a clutch input part. The clutch input part may be drive-connectable with an output shaft of the internal combustion engine. The friction clutch device may have at least one clutch output part. The friction clutch device may have a single clutch output part. The friction clutch device may include a first clutch output part and a second clutch output part. The at least one clutch output member may be drivably connectable to an input shaft of the transmission.

The at least one balancing mass can be used for balancing the torque transmission device. It can be arranged distributed circumferentially several balancing weights. The balancing mass may have a predetermined mass. The at least one balancing mass can be arranged at a predetermined radial position. The at least one balancing mass can be arranged in the circumferential direction at a predetermined position.

A friction clutch may be actuated depending on the actuation depending on a fully open actuating position in which there is substantially no power transmission between the clutch input part and a clutch output part, up to a fully closed actuation position in which substantially complete power transmission takes place between the clutch input part and a clutch output part power transmission allow, wherein a power transmission between the clutch input part and the clutch output member is frictionally engaged. Conversely, starting from a fully closed actuation position, in which substantially complete power transmission takes place between the clutch input part and a clutch output part, up to a fully open actuation position, in which substantially no power transmission occurs between the clutch input part and a clutch output part, a decreasing power transmission is dependent on the actuation be possible. The friction clutch device may enable a power transmission between the clutch input part and the first clutch output part or the second clutch output part in a transitional change.

The friction clutch device may have a single-plate clutch. The friction clutch device may comprise a multi-plate clutch. The friction clutch device may have a dry clutch. The friction clutch device may have a wet clutch. The friction clutch device may have a depressed clutch. The friction clutch device may include a towed clutch. The friction clutch device can be actuated by means of a clutch pedal. The friction clutch device can be actuated automatically.

The coupling input part may have the at least one pressure plate. The coupling input part may have the at least one pressure plate. The Kupplungseingangsteil may have the lid part. The at least one pressure plate and the cover part can be firmly connected to each other. The at least one pressure plate and the cover part can be connected to each other in a rotationally fixed manner. The clutch output member may include at least one clutch disk. The at least one clutch disc may have friction linings. The at least one clutch disc can be clamped for frictional power transmission between the at least one pressure plate and the at least one pressure plate.

The friction coupling device may comprise an actuating device. The actuating device can act on the at least one pressure plate. The actuating device can be effective between the cover part and the at least one pressure plate. The actuating device can be supported on the one hand on the cover part and on the other hand on the at least one pressure plate.

In summary and in other words, the invention thus provides, inter alia, a one-sided press-fit, positive-locking balancing rivet with relief bore. A balancing element can enable a positive connection. A head and a head-side shaft part of a rotationally symmetrical balancing element can have a relief bore for reducing riveting forces. The hole may be drilled from the head side. In an assembly, the rivet of a double clutch can be fed axially from above. The shaft can be passed through a hole in the sheet and then get up on another flat component that can be mounted at a defined distance from the sheet. In this case, the head bottom can be spaced from the sheet. Under the action of force on the rivet head, a closing head can form on the underside of the sheet metal. After a joining process, the head can rest on the top side of the sheet metal and on the underside of the sheet, a closing head may have formed, which constitutes the positive connection of the balancing element. The dimensions of the balancing element and the distance between the sheet metal and flat surface can be designed as desired. Characteristic may be the closing head of the balancing element, which is produced by the head-side force application, the head-side bore in the balancing element and the defined distance between the sheet and the surface parallel to the sheet. Furthermore, a head-side bore may be necessary. An undrilled, lower part of the shaft can allow the formation of a closing head directly below the sheet even at large distances (for example, greater than 2 mm) between the sheet and flat surface. Decisive for the design of the closing head may be a bore angle, which can direct the forces at the bore end to the outside.

By "may" in particular optional features of the invention are referred to. Accordingly, there is an embodiment of the invention each having the respective feature or features.

With the invention attaching a leveling compound is also possible with accessibility only from one side. Unintentional release of an attached balancing mass, for example by vibration and / or under centrifugal force is prevented. A center of gravity of the leveling compound can be arranged within a component assembly to be connected. An attachment of a leveling compound is simplified. A leveling compound is already securely fixed immediately after mounting. A simple and cheap balancing mass is provided. A balancing mass is provided which can be adapted to different geometrical conditions with little effort. A balancing mass is provided, whose mass With little effort to different needs is customizable.

Hereinafter, an embodiment of the invention will be described with reference to figures. From this description, further features and advantages. Concrete features of this embodiment may represent general features of the invention. Features associated with other features of these embodiments may also constitute individual features of the invention.

They show schematically and by way of example:

1 a first component, a leveling compound and a second component before forming a closing head and

2 a first component, a leveling compound and a second component after forming a closing head.

1 shows a first component 100 , a balancing mass 102 and a second component 104 before training a closing head.

The first component 100 in the present case is a housing part of a friction clutch not otherwise shown. The first component 100 has a front 108 and a back 110 on. The first component 100 has a thickness a. The first component 100 has a through hole for receiving the balancing mass 102 on. The second component 104 in the present case is a pressure plate of the friction clutch. The second component 104 on the first component 100 arranged at the back. The second component 104 has a surface 112 on. The surface 112 of the second component 104 is the back 110 of the first component 100 facing. Between the first component 100 and the second component 104 there is a distance b.

The balancing mass 102 has a bolt-like shape. The balancing mass 102 has a longitudinal axis 114 on. The balancing mass 102 has a first longitudinal section 116 and a second longitudinal section 118 on. The balancing mass 102 has a longitudinal recess 120 with an inside diameter. The balancing mass 102 has a conical bottom 122 on. At the first longitudinal section 116 has the balancing mass 102 a larger outer diameter D on. At the second longitudinal section 118 has the balancing mass 102 a smaller outer diameter d. The inner diameter of the longitudinal recess 120 is smaller than the smaller outer diameter d. The balancing mass 102 has a wall 124 on, the radially inward through the longitudinal recess 120 is limited. At the first longitudinal section 116 shows the wall 124 a greater thickness. At the second longitudinal section 118 shows the wall 124 a smaller thickness. Between the first longitudinal section 116 and the second longitudinal section 118 is a first axial contact surface 126 educated. At the second longitudinal section 118 End is a second axial bearing surface 128 educated. The second longitudinal section 118 has a length greater than a sum of the thickness a of the first component 100 and the component distance b is.

The balancing mass 102 is axially in the through hole of the first component 100 inserted. The balancing mass 102 lies with its second contact surface 128 on the surface 112 of the second component 104 at. The first contact surface 126 is from the front 108 of the first component 100 spaced. Between the first contact surface 126 and the front 108 of the first component 100 there is a distance c. Between the reason 122 and the back 110 of the first component 100 there is a distance e.

Starting from the in 1 the situation shown becomes the first longitudinal section 116 the balancing mass 102 axially acted upon by a closing force. The balancing mass 102 supports itself with its second contact surface 128 on the surface 112 of the second component 104 from. Under the action of the closing force, the distance c decreases. The cone-shaped reason 122 causes a partial deflection of the closing force radially outward into the wall 124 , The second longitudinal section 118 the balancing mass 102 is plastically deformed, so on the back 110 of the first component 100 the closing head 106 is trained.

2 shows the first component 100 , the balancing mass 102 and the second component 104 after formation of the closing head 106 , The first contact surface 126 lies at the front 108 of the first component 100 at. With the closing head 106 is the balancing mass 102 positively with the first component 100 connected.

LIST OF REFERENCE NUMBERS

100

 first component

102

 Leveling compound

104

 second component

106

 closing head

108

 front

110

 back

112

 surface

114

 longitudinal axis

116

 first longitudinal section

118

 second longitudinal section

120

 longitudinal recess

122

 reason

124

 wall

126

 first contact surface

128

 second contact surface

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 102009007829 A1 [0002, 0002]

Claims (10)

Cylindrical balancing mass ( 102 ) for balancing a component rotatable about a rotation axis ( 100 ), in particular a component ( 100 ) a torque transmission device, such as friction clutch device, comprising a longitudinal axis ( 114 ), a first longitudinal section ( 116 ) having a first end and a second longitudinal section ( 118 ) with a second end, characterized in that the first end in the axial direction acted upon by a closing force and the second longitudinal section ( 118 ) is plastically deformable for producing a positive connection. Leveling compound ( 102 ) according to claim 1, characterized in that the balancing mass ( 102 ) a longitudinal recess ( 120 ) with an opening and a bottom ( 122 ), wherein the opening of the first end and the reason ( 122 ) the second longitudinal section ( 118 ) assigned. Leveling compound ( 102 ) according to claim 2, characterized in that the reason ( 122 ) has a conical shape with a predetermined adjusted opening angle. Leveling compound ( 102 ) according to claim 3, characterized in that the opening angle is about 50 ° to about 75 °, in particular about 60 ° to about 65 °. Leveling compound ( 102 ) according to at least one of the preceding claims, characterized in that the balancing mass ( 102 ) a circumferential wall ( 124 ), which radially inwardly through the longitudinal recess ( 120 ), whereby the wall ( 124 ) at the first longitudinal section ( 116 ) has a greater thickness and at the second longitudinal section ( 118 ) has a smaller thickness. Leveling compound ( 102 ) according to at least one of the preceding claims, characterized in that the balancing mass ( 102 ) radially outwardly a paragraph with a to the second longitudinal section ( 118 ) directed first axial abutment surface ( 126 ) having. Leveling compound ( 102 ) according to claim 6, characterized in that the reason ( 122 ) between the second end and the first contact surface ( 126 ) is arranged. Leveling compound ( 102 ) according to at least one of claims 6-7, characterized in that the reason ( 122 ) from the first contact surface ( 126 ) has a predetermined adjusted distance. Torque transmission device, in particular for a drive train of a motor vehicle, comprising an axis of rotation, at least one rotatable about the axis of rotation first component ( 100 ), to which for balancing at least one balancing mass ( 102 ) according to at least one of the preceding claims, and at least one second component ( 104 ) axially from the first component ( 100 ) is spaced. Torque transmission device according to claim 9, characterized in that the at least one balancing mass ( 102 ) with its first contact surface ( 126 ) on the first component ( 100 ) and with its second end on the second component ( 104 ), wherein the second longitudinal section ( 118 ) for the positive connection of the at least one balancing mass ( 102 ) with the first component ( 100 ) is at least partially plastically deformed.

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