JPH0643865B2 - Damper disk - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a damper disc used in a lock-up clutch of a torque converter for automobiles, etc., and particularly to a damper disc for holding a damper spring. This is a modification of the structure of the holding plate.

[Prior Art] Japanese Utility Model Application Laid-Open No. 63-75655 discloses a damper disk to which the present invention is directed. The damper disc includes an input plate (piston) having a friction facing for input, an output plate fixed to a turbine (turbine shell or turbine hub), and a damper spring (coil spring) connecting both plates. A holding plate is provided for holding the spring.

The holding plate is fixed to the input plate, and is connected to the end of the spring in the circumferential direction (claw).
Is equipped with. Therefore, the input plate is connected to the spring via the holding plate. The holding plate also has a function of holding the spring in the radial direction. For this reason, a partial cylindrical inner support portion extending along the inner circumference of the spring and a portion extending along the outer circumference of the spring are provided. And a tubular outer supporting portion. Further, a tubular portion is also provided on the outer periphery of the input plate, and the outer supporting portion is inserted inside the tubular portion.

According to this structure, when the spring tries to move outward in the radial direction due to the centrifugal force in the operating state, the spring can be supported by the outer supporting portion to prevent such a movement, thus stabilizing the posture of the spring. The predetermined operation can be surely performed. Further, in this operation, since the outer periphery of the outer supporting portion is supported by the cylindrical portion of the input plate, it is possible to prevent the outer supporting portion from being largely deformed in the radial direction by the centrifugal force from the spring.

[Problems to be Solved by the Invention] However, since the holding plate is hardened, it has high rigidity, and the input plate also has high rigidity. Therefore, both plates are elastically deformed and held on the input plate in the assembly process. Incorporating the plate is difficult. As a result, considering the dimensional difference between both plates, in order to fit the outer support portion of the holding plate into the outer peripheral tubular portion of the input plate in the assembly process, the outer diameter of the support portion should be smaller than the inner diameter of the tubular portion. However, it is necessary to set a small value, though it is small. Therefore, a slight gap is generated between the support portion and the tubular portion, and when the support portion receives the centrifugal force from the spring as described above, the support portion is deformed radially outward by the gap, and therefore , The holding plate may crack.

The present invention aims to provide a structure that solves the above problems.

[Means for Solving the Problems] The present invention is directed to a piston 6 which is an annular input plate that can be pressed against the input side front cover 1 at the frictional facing 10 on the outer circumference, and a turbine hub 11 of a turbine 8 of a torque converter. An output plate 7 fixed to the piston 6, a damper spring 8 that extends in the circumferential direction of the piston 6 to connect the piston 6 and the input plate 7 in the circumferential direction, and a holding plate 9 for holding the spring that extends entirely in an annular shape. The holding plate 9 of the clutch disc 5 of the lock-up clutch provided has an inner peripheral fixing portion 15 fixed to the piston 6, and a connecting portion 21 for connecting the end portion of the damper spring 8 in the circumferential direction, 23, an outer peripheral support portion 22 that extends in the circumferential direction and supports the outer periphery and the inner periphery of the damper spring 8, and an inner peripheral support portion 24. Piston 6
Is connected to the damper spring 8 via the holding plate 9, and a cylindrical portion 30 is provided on the outer periphery of the piston 6 so as to be closely fitted to the outer periphery of the outer peripheral support portion 22. The connecting portions 21 and 23 and the outer peripheral inner peripheral support portions 22 and 24 are formed on the outer side in a state of being alternately arranged in the circumferential direction, and the inner peripheral support portion 24 at the middle portion in the radial direction is cut on the holding plate 9. A slit 41 extending radially from the raised opening 40 to the outer peripheral intermediate portion of the outer peripheral supporting portion 22 is provided, and the outer peripheral supporting portion 22 is fixed to the damper spring 8.
The damper disk is characterized in that the diameter becomes smaller toward the turbine 3 side along the outer peripheral shape of the damper disk.

[Operation] According to the configuration of the present invention, when the holding plate 9 is assembled inside the outer peripheral tubular portion 30 of the input plate (piston 6) in the assembly work, the outer peripheral direction intermediate portion of the outer peripheral support portion 22 has a notch (slit). Since it is divided by 41), the outer peripheral support portion 22 can be elastically deformed inward in the radial direction. Therefore, even if the outer diameter of the outer peripheral support portion 22 in the state before assembly is set to be slightly larger than the inner diameter of the input plate tubular portion 30, the holding plate 9 is elastically deformed to move the outer peripheral support portion 22 into the input plate tubular portion. As a result, the outer peripheral support portion 22 can be fitted to the inner periphery of the tubular portion 30 in a close contact state.

More specifically, in the process of processing the holding plate 9, the outer diameter of the outer peripheral support portion 22 is set in a range between a predetermined minimum value and a predetermined maximum value, and the difference between the two values becomes a tolerance. By setting the minimum value to be the same as or slightly larger than the inner diameter of the input plate tubular portion 30, even if the outer peripheral support portion 22 has the smallest diameter, the outer peripheral support portion 22 is
Can be assembled in a state of being closely attached to the inner circumference of the tubular portion 30. Further, by setting the tolerance to be equal to or less than the allowable elastic deformation value of the outer peripheral support portion 22, even when the diameter of the outer peripheral support portion 22 is the predetermined maximum value, the outer peripheral support portion 22 is elastically deformed and the tubular portion 30 is formed. It can be installed in close contact with the inner circumference of.

Further, in the present invention, since the permissible elastic deformation amount is large, the tolerance can be set to be relatively large. Therefore, the outer peripheral support portion 22 is in close contact with the tubular portion 30 without requiring particularly precise processing. It can be fitted with.

Also, in the damper disc assembled as described above,
Even if a centrifugal force is applied from the damper spring 8 to the outer peripheral support portion 22 of the holding plate 9 in the operating state, the outer peripheral support portion 22 always keeps the tubular portion 30 of the input plate (piston 6).
Since the outer peripheral support portion 22 is not deformed outward in the radial direction, the holding plate 9 is reliably prevented from cracking or the like.

[Embodiment] Referring to FIG. 2, a front cover 1 of a torque converter.
Is connected to a flywheel of an engine (not shown), and its outer peripheral end is fixed to the end of the shell of the impeller 2. A turbine 3 is arranged between the front cover 1 and the impeller 2, and a clutch disc 5 of a lockup clutch is provided between the turbine 3 and the front cover 1.
(Damper disk) is arranged.

The clutch disc 5 is a piston 6 which is an input plate.
And an output plate 7, a damper spring 8 and a holding plate 9. A friction facing 10 is fixed to the outer peripheral portion of the piston 6, and a clutch is connected by bringing the facing 10 into pressure contact with the inner surface of the front cover 1, and torque is input from the front cover 1 to the piston 6. Such a connecting operation is performed by relatively changing the hydraulic pressure in the space on both sides of the piston 6 by a hydraulic control means (not shown).

The output plate 7 is located between the piston 6 and the turbine 3, and the inner circumference thereof is fixed to the turbine hub 11 of the turbine 3 by the rivet 40. The turbine hub 11 is connected to the output shaft 12 (only the center line is shown). The springs 8 are compression coil springs, and a plurality of springs 8 are provided at intervals in the circumferential direction of the clutch disc 5 and extend in the circumferential direction.

The annular holding plate 9 is a piston 6 and an output plate 7.
The inner peripheral side portion (fixing portion 15) of the piston 6 is fixed to the radial middle portion (or the outer peripheral portion) of the piston 6 by the rivet 16. A portion 20 extending in the radial direction and the circumferential direction of the clutch disc 5 is provided on the outer peripheral portion of the holding plate 9. A connecting portion 21 and an outer peripheral support portion 22 extend from the outer periphery of the portion 20 to the turbine 3 side, and a connecting portion 23 extends from the inner periphery of the portion 20 to the turbine 3 side. Further, on the radially inner side of the connecting portion 23, the holding plate 9 is provided with an inner peripheral support portion 24 extending toward the turbine 3 side.

The spring 8 is located between the outer peripheral support portion 22 and the inner peripheral support portion 24 in the state of being in contact with or close to the portion 20.
The outer peripheral support portion 22 supports the outer periphery of the spring 8, and the inner peripheral support portion 24 supports the inner periphery of the spring 8.

The piston 6 is provided at its outer peripheral portion with a tubular portion 30 that integrally extends toward the impeller 2 side. Perimeter support 22
The outer peripheral surface (and the outer peripheral surface of the connecting portion 21 in the embodiment) is closely fitted to the inner peripheral surface of the tubular portion 30.

The tip of the connecting portion 20 has a radially inwardly directed claw 21a.
Is provided, and the claw 21a and the connecting portion 23 engage with the end portion of the spring 8 in the disk circumferential direction. A bent claw 31 is provided on the outer peripheral portion of the output plate 7 so as to be inserted between the connecting portions 21 and 23. The claw 31 is also engaged with the end portion of the spring 8 in the disk circumferential direction.

Therefore, when the clutch is connected and the torque is input to the piston 6 as described above, the torque is transmitted from the piston 6 to the spring 8 via the connecting portions 21 and 23 of the holding plate 9.
To the output plate 7 from the connecting portion between the other end of the spring 8 and the claw 31 and then to the output shaft 12 from the output plate 7 through the turbine hub 11.

FIG. 1 is a partial front view of the holding plate 9 alone. As is apparent from this figure, the connecting portions 21 and the supporting portions 22 are provided on the outer periphery of the holding plate 9 in an alternating positional relationship, and eight holding plates 9 are provided as a whole.
Each support 22 has a length sufficient to cover each spring 8 (FIG. 2) over its entire length, and thus the connection 2
Longer than 1 in the circumferential direction. Connection part 23 and support part 2
8 are also provided for each 4. The connecting portion 23 is arranged in the radial direction with respect to the connecting portion 21, and the circumferential length of the connecting portion 23 is substantially the same as that of the connecting portion 21. Support part 2
4 has a length in the circumferential direction shorter than that of the support portions 22, for example, about 1/3, and is located inside the circumferential middle portion of each support portion 22 in the radial direction.

The supporting portion 24 is formed by cutting and raising, and an opening 40 formed due to the cutting and raising extends circumferentially along the supporting portion 24 on the outer side thereof. In the illustrated structure, the slit 4 extends from the outer edge of the opening 40 in the radial direction to the tip of the support portion 22.
1 is provided. The slit 41 passes through the central portion in the circumferential direction of each support portion 22, and the holding plate 9 has an opening 40.
The outer side portion is divided into a plurality of arc-shaped portions by the slit 41. In other words, the opening 40 and the slit 41 form a series of notches, and the holding plate 9 is divided into a plurality of substantially arc-shaped portions at a portion radially outside the support portion 24 by the notches. Has been done.

According to the above configuration, in the assembling work, the holding plate 9
2 is assembled inside the outer peripheral tubular portion 30 of the piston 6 of FIG. 2, since the support portion 22 is divided by the notches (40, 41), the support portion 22 can be elastically deformed inward in the radial direction. Therefore, by setting the outer diameter of the support portion 22 in the state before assembly to be equal to or larger than the inner diameter of the piston tubular portion 30, the holding plate 9 is elastically deformed and the support portion 22 is moved to the piston tubular portion. It can be fitted in the inside of 30 in close contact.

Therefore, in the above configuration, even if a centrifugal force is applied from the spring 8 to the support portion 22 of the holding plate 9 in the operating state,
Since the support portion 22 is always supported by the tubular portion 30 of the piston 6, the support portion 22 is not deformed radially outward.

[Effects of the Invention] As described above, according to the present invention, the outer peripheral support portion 22 of the holding plate 9 that supports the outer periphery of the spring 8 can be closely supported by the outer peripheral tubular portion 30 of the piston 6.
Therefore, it is possible to prevent the holding plate 9 from being deformed by the centrifugal force of the spring 8 and to prevent the holding plate 9 from being cracked.

Furthermore, since the support portion 22 of the holding plate 9 can be positioned as far as possible in the radial direction (until it comes into close contact with the tubular portion 30), the spring accommodation space inside the support portion 22 can be widened. Therefore, the large-diameter spring 8 can be used to enhance the vibration absorbing effect. Further, according to the present invention, since the slit 41 extends outward in the radial direction from the opening 40, the radial elasticity of the outer peripheral support portion 22 is increased, the close contact between the cylindrical portion 30 and the outer peripheral support portion 22 is improved, and the outer peripheral support portion is improved. 22
Along with the outer peripheral shape of the damper spring 8, the diameter becomes smaller toward the turbine 3 side,
The support of the damper spring 8 against the centrifugal force is stable,
Even if the piston 6 moves in the axial direction (particularly to the front cover-1 side), the damper spring 8 does not move in the axial direction, and the performance is improved.

Further, according to the present invention, if a gap is created between the outer peripheral support portion 22 of the holding plate 9 and the outer peripheral tubular portion 30 of the piston 6 in the assembled state due to dimensional error or the like, the outer peripheral support portion 22 in the operating state is created. Even if the outer peripheral support portion 22 is bent outward in the radial direction by the centrifugal force, the provision of the slit 41 increases the permissible bending amount of the outer peripheral support portion 22, so that the occurrence of cracks due to the bending can be effectively prevented.
Further, even if a crack occurs, the progress of the crack can be effectively prevented by the slit 41.

[Another embodiment] In the structure shown in FIG. 3, the slit 41 shown in FIG. 1 is not provided, and instead, the slit 45 is provided. The slits 45 extend from the both ends of each inner connecting portion 23 to the outer side of the holding plate portion 20 generally in the radial direction and reach the tip of the outer connecting portion 21. That is, the holding plate 9 is provided with regions where the connecting portions 21 and 23 are formed and regions where the supporting portions 22 and 24 are formed alternately.
On the outer side in the radial direction of the inner connecting portion 23, a boundary portion between the regions adjacent to each other is cut by a slit 45.

In the embodiment of FIG. 3, due to the action of the slit 45,
Since the support portion 22 can be largely elastically deformed,
The same effect can be obtained.

In the embodiment of FIGS. 1 and 2, the inner peripheral side connecting portion 23
Is formed by cutting and raising a portion on the outer side in the radial direction, and accordingly, an opening which is a cut and raised mark is formed on the inner side in the radial direction of the connecting portion 23. On the other hand, in the embodiment of FIG. 3, such a cut-and-raised structure cannot be adopted because the slit 45 is formed as described above.
Instead of the structure, as shown in FIG. 4, the connecting portion 23 includes a holding plate portion on the inner peripheral side and a connecting portion 21 on the outer peripheral side thereof.
Is formed by a continuous bent portion.

[Brief description of drawings]

FIG. 1 is a front partial view of a holding plate of an embodiment of the present invention, FIG. 2 is a schematic partial sectional view of a torque converter adopting the embodiment of the present invention, and FIG. 3 is a front view of a holding plate of another embodiment of the present invention. Partial view, FIG. 4 is a sectional view of the holding plate of FIG. 6 ... Piston (input plate), 7 ... Output plate, 8 ... Damper spring, 9 ... Holding plate,
15 ... Fixed part, 16 ... Rivet, 21, 23 ... Connection part, 22 ... Outer peripheral support part, 30 ... Cylindrical part, 41 ...
Slit, 45 ... Slit

Claims (1)

[Claims] 1. A piston 6, which is an annular input plate that can be pressed against an input side front cover 1 at a friction facing 10 on the outer periphery, and an output plate 7 fixed to a turbine hub 11 of a turbine 8 of a torque converter. , The piston 6 and the input plate 7 extending in the circumferential direction of the piston 6.
An inner circumference fixed to the piston 6 on the holding plate 9 of the clutch disc 5 of the lock-up clutch, which includes a damper spring 8 for connecting the Side fixing portion 15, connecting portions 21 and 23 that are connected to the end portion of the damper spring 8 in the circumferential direction, and an outer peripheral support portion that extends in the circumferential direction and supports the outer circumference and the inner circumference of the damper spring 8. A cylinder that is provided with 22 and an inner peripheral support portion 24, connects the piston 6 to the damper spring 8 via the holding plate 9, and closely fits the outer periphery of the piston 6 to the outer periphery of the outer peripheral support portion 22. A shaped portion 30 is provided, and the connecting portions 21 and 23 and the outer peripheral inner circumferential support portions 22 and 24 are formed in a state of being alternately arranged in the circumferential direction on the outer side in the radial direction of the fixed portion 15, and The plate 9 is provided with a slit 41 extending in the radial direction from an opening 40 formed by cutting and raising the inner peripheral support portion 24 at the radial middle portion thereof to the outer peripheral middle portion of the outer peripheral support portion 22, and the outer peripheral support portion 22 is dampered. A damper disk characterized in that the diameter becomes smaller toward the turbine 3 side along the outer peripheral shape of the spring 8.