DE102016125300A1 - Spring package and coupling device - Google Patents

Abstract

Spring assembly (1, 20, 24, 25) for a coupling device, comprising an end plate (2) and first and second pressure elements (3, 4) arranged at different radial positions, between the end plate (2) and the first pressure element (3, 4) a first group (5) of spring devices (6) and between the end plate (2) and the second pressure element (3, 4) a second group (7) of spring devices (6) is arranged, wherein the first and second group ( 5, 7) each having a plurality of spring means (6) which are arranged distributed in the circumferential direction, wherein at least a part of the spring means (6) of the first group (5) and / or at least a part of the spring means (6) of the second group (7 ) has two spring elements (10, 11) which are arranged radially nested.

Description

The invention relates to a spring assembly for a coupling device, comprising an end plate and a first and second arranged at different radial positions pressure element, wherein arranged between the end plate and the first pressure element, a first group of spring means and between the end plate and the second pressure element, a second group of spring means is, wherein the first and second group each having a plurality of spring means which are arranged distributed in the circumferential direction.

Such spring assemblies for coupling devices are well known from the prior art. These are used to spend the actuator, which is used to actuate the individual partial clutches, in a defined position. In this case, the spring assembly provides a restoring force which resets the actuating element in the unactuated position. It can be distinguished with regard to the unactuated position between "normally open" and "normally closed" coupling devices, the former variant is present in the initial state open and by means of the actuating element an actuating force is generated, which closes the coupling device. In the second-mentioned variant, the coupling device is closed by default, so that by means of the actuating element, a force is generated, which opens the coupling device. The spring assembly can thereby counter to the corresponding movement of the actuating element build up a restoring force, so that takes place when the operating force on the actuating element a provision in the starting position.

Furthermore, it is known from the prior art that a constant effort to reduce the diameter of coupling arrangements takes place in order to reduce the space required in the radial direction on the one hand and on the other hand due to the associated with the reduction of the diameter reduced inertia a higher dynamics in the drive train to reach. With reduced mass moment of inertia shorter switching times can be achieved in particular.

The invention is therefore based on the object to provide a spring package that allows a reduction in the diameter.

To solve this problem is provided according to the invention in a spring assembly of the type mentioned that at least part of the spring means of the first group and / or at least a portion of the spring means of the second group comprises two spring elements which are arranged radially nested.

The invention is based on the recognition that in order to utilize the area of the end plate as efficiently as possible, a spring device is associated with two spring elements. The two spring elements ultimately share a radial position, wherein they are arranged radially nested one inside the other. Accordingly, each spring device is associated with a "smaller" and a "larger" spring element. In other words, at least a part of the spring devices, in particular each spring device, two spring elements, wherein the diameter of the one spring element is greater than that of the other spring element. The two spring elements, which are assigned to the same spring device, are thus arranged radially nested in the same radial position. The outer spring element engages around the radially arranged inside the outer spring element inner spring element.

An arrangement of such spring devices is continued over the circumference of the spring assembly, wherein the part of the spring means of the first and / or the second group, which have two radially nested spring elements, is preferably arranged symmetrically. However, each spring device of the spring assembly particularly preferably has two spring elements which are arranged radially nested.

Seen in the circumferential direction, the arrangement of the radially nested spring means is designed so that in a built-in a coupling device state of the spring assembly, the one group for resetting or venting a (radially inner) partial coupling are provided and the other group for resetting or the ventilation of the other (radially outer) part coupling are provided.

The spring devices of the two groups alternate in the circumferential direction preferably from, with an equidistant arrangement of the spring means in the circumferential direction is particularly preferred.

The spring means of the first and second groups may further be arranged in the same radial position or at different radial positions. According to the arrangement of the spring means is or are the two pressure elements configured so that they are in contact with the spring means of the group or make this contact, which are associated with the corresponding pressure element. Thus, it should be noted in both arrangements that when one group of spring devices is compressed, the other group of spring devices is not impaired, in particular not compressed.

In a preferred embodiment of the spring assembly according to the invention can be provided in that the two spring elements associated with the same spring element are designed as helical springs. Accordingly, the two coil springs are arranged substantially coaxially so that the radially nested structure provided according to the invention results. Since coil springs with the smaller diameter are arranged inside the coil springs with the larger diameter, the surface of the end plate is ultimately utilized efficiently, since two spring elements are arranged on the same radial position and can cause a return of the associated part clutch. For this purpose, the spring elements cause a force between the end plate and the corresponding pressure element, which increases accordingly in a compression of the spring elements. If, accordingly, a force is exerted on the pressure element by a movement of the actuating element, the spring elements of the pressure element associated group of spring devices are compressed, so that this leads to a restoring force acting on the actuating element and moves it back to its original position.

In this embodiment of the invention may be particularly preferably provided that the winding sense of two spring device associated spring elements is equal to the same. Advantageously, this can be achieved by virtue of the fact that moments occurring during compression, which act on the end plate or the pressure elements, can be compensated. Such moments can be caused by a torsion of the spring elements and lead to a shift between the pressure element and the end plate. The cause lies in a torsion of the coil springs or the spring elements, which arises due to the change in the diameter of the spring elements when compressing the spring elements. Since the two spring elements are wound gegengleich same, these moments are the same in the compression of the spring devices, so that a relative movement between the pressure element and the end plate can be avoided or prevented.

A development of the spring assembly according to the invention may preferably be that the distance between the radially nested arranged spring elements of the same spring means is selected such that the two spring elements secure each other in its radial position. Accordingly, the play between the two spring elements may be selected such that the outer spring element is secured via the inner spring element or the inner spring element via the outer spring element in its radial position. The two spring elements are dimensioned such that the radially inner spring element abuts with an outer periphery substantially on the inner circumference of the radially outer spring element and is thus positioned by the radially outer spring element. Conversely, due to the contact between the outer circumference and the inner circumference of the two spring elements, the outer spring element is also fixed by the radial position of the inner spring element.

The operation of the spring assembly remains guaranteed throughout the operation, since the two spring elements have a nearly identical behavior under load. Both spring elements will expand radially at a force acting on the pressure element and deform in accordance with speed in the same direction, so that it does not interfere with the operation of the spring assembly between the spring elements.

Alternatively or additionally, it may be provided in the spring assembly according to the invention that at least one stop is arranged in the first and / or the second pressure element and / or on the end plate, which secures a radial position of the two radially nested arranged spring elements. Accordingly, a stop can be provided on both or one of the two pressure elements and / or the end plate, which takes over the securing of the spring elements with respect to their radial position. This makes it possible to dimension the spring elements independently, as it does not depend on the system between outer radius and inner radius of the two spring elements. The game between the outer and the inner spring element can therefore be chosen arbitrarily, if this is technically feasible. The stop protrudes preferably from the end plate and / or the corresponding group of spring devices associated pressure element and engages in the space between the two spring elements, so preferably both spring elements are in contact with the stop and thus determined in terms of their radial position. Of course, the inner spring element lies with its outer radius and the outer spring element with its inner radius against the stop. Furthermore, such a stop can be provided for several, in particular all spring devices of the spring assembly.

A further preferred embodiment of the spring assembly according to the invention may consist in that the end plate and / or the first and / or the second pressure element has at least one receptacle for a connecting element. Such a connector is used to couple the end plate to the first and second pressure members. It is particularly preferably provided that a plurality of connecting elements are arranged distributed over the circumference or the surface of the end plate and thus the most uniform possible connection between the end plate and the pressure elements is ensured. Further must be taken into account in the selection of the connecting element that a relative movement between the end plate and pressure element must be allowed so that the spring pack can be compressed under load to build up the restoring force accordingly.

Particularly preferred in this embodiment is the variant in which both the end plate and the two pressure elements have a receptacle for each connecting element. The connecting element is received in the corresponding receptacle with its head region and its foot region and accordingly couples the corresponding pressure element with the end plate in the axial direction. In other words, there are also a first group and a second group of connecting elements, the first group of connecting elements connecting the end plate to the first pressure element and the second group of connecting elements connecting the end plate to the second pressure element.

According to one embodiment of the above-described embodiment may be provided in the spring assembly according to the invention that the or at least one receptacle is disposed radially within the radially nested arranged spring elements and determines the radial position of the inner spring element. The receptacle, which is provided on the end plate and / or the pressure elements, thus extends axially away from the end plate and / or the pressure element. It is for example circular in shape and engages in the inner spring element, so that its inner radius is in contact with the outer radius of the receptacle and thus the radial position of the inner spring element is fixed. Particularly preferably, as described above, the end plate and the pressure elements on such a receptacle, so that the radial position of the inner spring element is fixed both to the end plate and to the printing elements. According to the determination of the position of the inner spring element and the position of the outer spring element can be set, which has also been described above. This can happen on the one hand via a direct contact of the outer radii or inner radii of the spring elements or via a separately provided stop. Of course, instead of the recordings and separate positioning stops can be provided which determine the position of the radially inner spring elements. This is preferred, for example, if the end plate and the pressure elements are otherwise coupled by means of connecting elements received in receptacles.

Furthermore, the receptacle fulfills the function that the distance between the pressure elements and the end plate can be reduced upon compression of the spring assembly. In this case, the end plate or the pressure element or both can be moved relative to each other and the connecting element further engage in the receptacle or be inserted. In other words, the end plate and the pressure elements in a relative movement, which brings both components closer together, moved along the connecting elements, wherein corresponding space must be kept in the recordings, so that the connecting elements does not protrude beyond the end plate or the printing elements.

For example, the connecting element may be formed as a rivet, wherein the foot of the rivet is received in the receptacle in the pressure element and the head of the rivet in the receptacle in the end plate or vice versa. In a relative movement between the pressure element and the end plate, the two components can be moved along the neck of the rivet and stand in abdication of the force on the spring assembly back into contact with the foot and the head.

Alternatively or additionally, it can be provided in the spring assembly according to the invention that at least one connecting element is arranged on the outer radius and / or on the inner radius of the end plate and engages around the spring assembly. According to this embodiment, at least one connecting element is provided, which engages, for example, in a receptacle in the end plate and a receptacle in one of the pressure elements and surrounds both components radially outside or radially inside. Thus, a relative mobility between end plate and pressure elements is given. Particularly preferably, it is provided that the connecting element is firmly connected to the end plate or fixed to one of the two pressure elements, so that at the same time a captive is guaranteed. The connecting element according to this embodiment may be formed, for example, as a holding plate or retaining clip.

In principle, the connecting elements additionally fulfill the task of ensuring a certain prestressing of the spring assembly. In this case, the connecting elements are dimensioned such that a defined distance between the end plate and the pressure elements is achieved, so that the spring elements of the individual spring devices are defined compressed and thus defined biased.

In the case of the connecting elements, it may further be particularly preferred for the tolerance or the clearance between the connecting element and the receptacle to be selected such that no hysteresis is produced or this is reduced. This will avoid over the life of the Spring packs hysteresis occur, which change the boundary conditions of the operation of the spring pack. Instead, the tolerance between the connecting element and the receptacle is chosen such that such a hysteresis does not occur or only to a small extent.

A further embodiment of the spring assembly according to the invention may preferably provide that the spring assembly by means of the end plate in a coupling device is centered. Accordingly, it is provided that the centering of the spring assembly takes place in the coupling device. The centering takes place via the common end plate of the spring package on the support side. The end plate performs no relative movements, whereby hysteresis effects can be prevented.

In addition, the invention relates to a coupling device, comprising two radially or axially arranged part clutches and at least one spring package according to the invention. The spring assembly according to the invention is provided in the coupling device according to the invention for effecting a restoring force on the actuating elements of the individual partial clutches, so that a defined venting or opening of the partial clutches is achieved.

The coupling device according to the invention can be further developed to the effect that a plurality of first and second pressure elements are provided which are associated with at least one spring means, wherein the spring means are centered by means of an actuating element of the coupling device. The arrangement of the spring devices can therefore be designed so that the spring means of each sub-coupling, so each group of spring means are not connected to each other. The position assurance of the spring assemblies takes place on the actuating side via the actuating elements of the coupling device.

Furthermore, it can also be provided in the coupling device according to the invention that the spring devices are connected to each other separately for each sub-coupling via an end plate, so that their axial and radial position is also secured at speed.

All the details, advantages and features of the spring assembly according to the invention are transferable to the coupling device according to the invention and vice versa.

• 1 ein erfindungsgemäßes Federpaket gemäß einem ersten Ausführungsbeispiel in Axialrichtung;
• 2 das Federpaket von 1 in perspektivischer Darstellung;
• 3 einen Ausschnitt des Federpakets von 1 in geschnittener Darstellung;
• 4 ein erfindungsgemäßes Federpaket gemäß einem zweiten Ausführungsbeispiel in perspektivischer Darstellung;
• 5 einen Ausschnitt des Federpakets von 4 in geschnittener Darstellung;
• 6 ein erfindungsgemäßes Federpaket gemäß einem dritten Ausführungsbeispiel in perspektivischer Darstellung;
• 7 einen Ausschnitt des Federpakets von 6 in geschnittener Darstellung; und
• 8 ein erfindungsgemäßes Federpaket gemäß einem vierten Ausführungsbeispiel in Axialrichtung.

The invention will be explained below with reference to embodiments with reference to the drawings. The drawings are schematic representations and show:

• 1 an inventive spring assembly according to a first embodiment in the axial direction;
• 2 the spring package of 1 in perspective view;
• 3 a section of the spring package of 1 in a sectional view;
• 4 an inventive spring assembly according to a second embodiment in perspective view;
• 5 a section of the spring package of 4 in a sectional view;
• 6 an inventive spring assembly according to a third embodiment in perspective view;
• 7 a section of the spring package of 6 in a sectional view; and
• 8th an inventive spring assembly according to a fourth embodiment in the axial direction.

1 shows a spring package 1 for a coupling device (not shown) comprising an end plate 2 a first pressure element 3 and a second pressure element 4 , Between the end plate 2 and the first pressure element 3 is a first group 5 of spring devices 6 and between the end plate 2 and the second pressure element 4 is a second group 7 of spring devices 6 arranged. Evidently, the first and the second group 5 . 7 several spring devices 6 on. The spring devices 6 , the first group 5 are assigned are visible on a first radial position 8th and the spring devices 6 , the second group 7 are assigned are on a radial position 9 on the end plate or the printing elements 3 . 4 arranged. Obvious is the radial position 9 further from the center of the spring package 1 removed as the radial position 8th , The printing elements 3 . 4 are designed such that when a force is introduced into one of the pressure elements 3 . 4 the other pressure element 3 . 4 not moved. From the arrangement of the centers of the spring devices 6 This results in a meander shape on the end plate 2 ,

2 shows the spring package 1 from 1 in perspective view. The spring devices 6 the first group 5 and the second group 7 are obviously constructed analogously. Each of the spring devices 6 has according to this embodiment, two spring elements 10 . 11 on. The spring element 10 has a smaller diameter than the spring element 11 , wherein both spring elements 10 . 11 are radially nested in one another. In other words, the spring element 10 radially within the spring element 11 arranged. In this embodiment, the two are spring elements 10 . 11 coaxial with each other and arranged radially nested. The two spring elements 10 . 11 are visible in each spring device 6 designed as coil springs.

Best shown in 3 , a cut section of the spring package 1 of 1 shows, it can be seen that the winding sense of the spring elements 10 . 11 is equal to. The spring element 11 surrounds the spring element 10 , wherein both spring elements 10 . 11 to an axis of symmetry 12 are arranged coaxially. The inner spring element 10 encloses a recording 13 at the end plate 2 as well as a recording 14 on the pressure element 3 . 4 that of the corresponding spring device 6 assigned. Clearly decides which printing element 3 . 4 the spring devices 6 it is assigned to which group 5 . 7 of spring devices 6 the spring device 6 belongs.

In the pictures 13 . 14 in the end plate 2 or the pressure element 3 . 4 is a connecting element 15 added. The connecting element 15 is formed according to this embodiment as a rivet, wherein a foot 16 of the connecting element 15 in the receptacle 14 in the pressure element 3 . 4 and the head 17 of the connection element 15 in the recording 13 in the end plate 2 is included.

The recordings are clear 13 . 14 openings 18 on, through which the connecting element 15 round picks. This is a relative movement between the end plate 2 and the printing elements 3 . 4 possible, so that the spring devices 6 , in particular the spring elements 10 . 11 can be compressed. In such a relative movement, the connecting element 15 continue into the recordings 13 respectively. 14 engage, so that there is no impairment of the spring assembly in the axial direction 1 adjacent components results. The openings 18 in the end plate 2 or the printing elements 3 . 4 are dimensioned such that no hysteresis between the connecting element 15 and the recordings 13 . 14 occurs. The function of the spring package 1 is therefore guaranteed over the entire lifetime.

Furthermore, in 3 shown that the spring elements 10 . 11 a certain play in the radial direction or between the spring elements 10 . 11 have and in particular do not touch in the radial direction. The radial position of the spring element 10 is, as previously described, through the recordings 13 . 14 , on which the spring element 10 rests with its inner radius or inner circumference. Between the spring element 10 and the spring element 11 is also an annular stop 19 formed between the spring element 10 and the spring element 11 engages in the axial direction. At the sloping surfaces of the stop 19 on the one hand lies the outer radius or outer circumference of the spring element 10 and on the opposite outside of the stop 19 the inner radius or inner circumference of the spring element 11 at. As a result, the two spring elements 10 . 11 through the recordings 13 , 14 or the stop 19 set in its radial position. The stop 19 extends from the pressure element 3 . 4 towards the end plate 2 , Of course, it is additionally or alternatively also possible, the stop 19 at the end plate 2 perform.

4 shows a spring package 20 , which is essentially analogous to the spring package 1 from the 1 to 3 is constructed. The spring package 20 therefore also has an end plate 2 , a first pressure element 3 , a second pressure element 4 and several spring devices 6 on that in two groups 5 . 7 divided and distributed in the circumferential direction on different radial positions 8th . 9 between the end plate 2 and the printing elements 3 . 4 are arranged. Every spring device 6 also has two spring elements 10 . 11 on. In contrast to the spring package 1 from 1 has the spring package 20 fasteners 21 on, which are formed for example as retaining clips. These grab a shot 22 in the pressure element 3 . 4 one and are integral with the end plate 2 educated. The connecting elements 21 can therefore be understood as tabs extending from the end plate 2 extend away in the axial direction and into the recess 22 in the pressure element 3 . 4 engage and thus the pressure element 3 . 4 spread.

You can see the connecting elements 21 alternately at the outer radius and at the inner radius of the spring assembly 20 arranged and embrace the spring package 20 in the axial direction. Of course, by means of the connecting elements 21 also be ensured that the spring elements 10 . 11 the spring devices 6 in the state in which the printing elements 3 . 4 in axial direction in contact with the connecting element 21 stand, have a certain bias. The spring elements 10, 11 are accordingly biased defined in their maximum extent, which is allowed by the connecting element 21.

5 shows a section of the spring package 20 from 4 in a cut view. The spring elements 10 . 11 are also coaxial with the axis 12 arranged through the center of the spring elements 10 . 11 and the recordings 13 , 14 runs. The spring element 10 also surrounds the recordings 13 . 14 indicating the radial position of the spring element 10 establish. Between the spring element 10 and the spring element 11 is also the attack 19 provided, the two spring elements 10 . 11 defines relative to each other in its radial position. At the top of the picture is the connecting element 21 shown in one piece with the end plate 2 is executed and the spring package 20 thus engages in the axial direction. In the sectional view it can be seen that the connecting element 21 in a recording 22 in the pressure element 4 engages and thus by means of a hook-shaped end 23 the pressure element 4 embraces. At the connecting element 21 , this in 5 is shown, it is obviously a on the outer radius of the spring assembly 20 arranged connecting element 21 , Accordingly, one at the inner radius of the spring package 20 arranged connecting element 21 formed complementary, so that this at the inner radius of the pressure element 3 a recording 22 passes through and with the hook-shaped end 23 the pressure element 3 embraces.

6 shows a spring package 24 according to a third embodiment in a perspective view. The basic structure is similar to the spring packages 1 . 20 from the 1 to 5 , Therefore, the same reference numerals are used for the same components. Unlike the spring packages 1 . 20 are the spring elements 10 . 11 the spring devices 6 of the spring package 24 deviating dimensions. Best shown in 7 it can be seen that the spring element 10 , So the internal spring element 10 , with its inner radius in contact with the recordings 13 . 14 is and is thus determined in terms of its radial position. The spring element 11 is dimensioned such that it with an inner radius at an outer radius of the spring element 10 is applied and thus also positioned radially. It puts the spring element 11 the radial position of the spring element 10 and the spring element 10 the radial position of the spring element 11 firmly. The two spring elements 10 . 11 ensure their radial position each other with respect to the system of the spring element 10 at the recordings 13 . 14 ,

8th shows a perspective view of a spring assembly 25 , where the two groups 5 . 7 of spring devices 6 are arranged on the same radius or at the same radial position. Accordingly, the pressure elements 3 . 4 be configured so that it is prevented that an introduction of force in the pressure element 3 to the pressure element 4 crosses over and vice versa. Of course, all details and configurations shown in the individual embodiments are arbitrarily transferable to each other or interchangeable. In particular, it is possible for each execution, the individual groups 5 . 7 to perform spring devices 6 on the same or different radii or radial positions.

Likewise, it is always possible to secure the spring elements 10 . 11 through a stop 19 or by a suitable dimensioning of the spring elements 10 . 11 to ensure relative to each other. In addition, the choice of the connecting element 15 , 21 also arbitrarily transferable to the individual embodiments or interchangeable, so that on the one hand fasteners 15 and / or fasteners 22 can be selected with the necessary precautions in all embodiments.

LIST OF REFERENCE NUMBERS

1

spring assembly

2

endplate

3

first pressure element

4

second pressure element

5

group

6

spring means

7

group

8th

radial position

9

radial position

10

spring element

11

spring element

12

axis

13

admission

14

admission

15

connecting member

16

foot

17

head

18

opening

19

attack

20

spring assembly

21

connecting member

22

admission

23

hook-shaped end

24

spring assembly

25

spring assembly

Claims (10)

Spring assembly (1, 20, 24, 25) for a coupling device, comprising an end plate (2) and first and second pressure elements (3, 4) arranged at different radial positions, between the end plate (2) and the first pressure element (3, 4) a first group (5) of spring devices (6) and between the end plate (2) and the second pressure element (3, 4) a second group (7) of spring devices (6) is arranged, wherein the first and second groups ( 5, 7) respectively a plurality of spring devices (6) which are arranged distributed in the circumferential direction, characterized in that at least a part of the spring means (6) of the first group (5) and / or at least a part of the spring means (6) of the second group (7) two Spring elements (10, 11) which are arranged radially nested. Spring package after Claim 1 , characterized in that the two spring device (6) associated with the spring elements (10, 11) are designed as helical springs. Spring package after Claim 2 , characterized in that the winding sense of two of the same spring means (6) associated spring elements (10, 11) is equal to the same. Spring assembly according to one of the preceding claims, characterized in that the distance between the radially nested arranged spring elements (10, 11) of the same spring means (6) is selected such that the two spring elements (10, 11) secure each other in its radial position. Spring assembly according to one of the preceding claims, characterized in that on the first and / or the second pressure element (3, 4) and / or on the end plate (2) at least one stop (19) is arranged, which radially nests a radial position of the two arranged spring elements (10, 11) secures. Spring assembly according to one of the preceding claims, characterized in that the end plate (2) and / or the first and / or the second pressure element (3, 4) has at least one receptacle (13, 14, 22) for a connecting element. Spring package after Claim 6 , characterized in that the or at least one receptacle (13, 14) radially within the radially nested arranged spring elements (10, 11) is arranged and determines the radial position of the inner spring element (10). Spring package after one of Claims 1 to 6 , characterized in that at least one connecting element (21) at the outer radius and / or at the inner radius of the end plate (2) is arranged and the spring assembly (1, 20, 24, 25) engages around. Spring assembly according to one of the preceding claims, characterized in that the spring assembly (1, 20, 24, 25) by means of the end plate (2) is centered in a coupling device. Coupling device, comprising two radially or axially arranged part clutches and at least one spring assembly (1, 20, 24, 25) according to one of the preceding claims.

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