JP6733263B2 - Damper device - Google Patents

Description

The present invention relates to a damper device with a torque limiter.

The damper device with a torque limiter is provided, for example, between the output shaft of the prime mover and the power transmission shaft of the transmission device. The damper device with a torque limiter functions as a torque limiter that limits the torque transmitted between the output shaft of the prime mover and the power transmission shaft of the transmission, and between the output shaft of the prime mover and the power transmission shaft of the transmission. It has a function as a damper that absorbs the torsional vibration of the.

Conventionally, a torque limiter is connected to an input side member of a damper and functions as an output side member of the torque limiter, and a torque limiter is arranged on both sides of the friction disc to function as an input side member of the torque limiter. A pair of sandwiching plates that cannot rotate relative to each other, an urging means that presses the pair of sandwiching plates against the friction disc, and a self-holding state with one of the sandwiching plates under a set load applied to the urging means. It has a backup plate that functions as a mounting surface for the wheel. An annular plate-shaped friction material (friction material plate) is fixed to the friction disk with rivets (see Patent Document 1).

JP, 2011-226572, A

However, in the conventional damper device with a torque limiter, it is necessary to form a rivet insertion hole (rivet insertion hole) for fixing the friction material plate in the friction material plate and the friction disc. In order to form, high processing accuracy (accuracy of hole diameter and position) is required. Therefore, it is difficult to simultaneously form the rivet insertion hole when manufacturing the friction material plate, and an additional step for forming the rivet insertion hole is required. That is, there is a problem that the workability and productivity of the friction material plate are low.

Further, when the friction material plate is provided with the rivet insertion hole, the operator cannot confirm the position of the rivet insertion hole without looking at the friction material plate from the front. Therefore, every time the operator installs the friction material plate, he has to bring the friction material plate to the front of his eyes and look at the friction material plate from the front side to confirm the position of the rivet insertion hole. That is, there is a problem that the workability of assembling the friction material plate is low.

The present invention has been made in view of the above problems, and provides a damper device capable of improving workability and productivity of a friction material plate and improving workability of assembling the friction material plate. With the goal.

A damper device of the present invention includes a damper member that absorbs a torque fluctuation transmitted from an input member, and a torque limiter that limits a torque transmitted between the input member and the output member, and the torque limiter is A lining plate that rotates integrally with the input member, a limiter cover that covers the lining plate, and a friction material plate that is arranged between the lining plate and the limiter cover. Is provided with a locking recess, and the limiter cover is provided with a claw for locking with the locking recess.

According to this structure, since the locking recess is provided on the outer periphery of the friction material plate, the operator can check the position of the locking recess by manually stroking the outer periphery of the friction material plate. Further, since the engaging recess is provided on the outer periphery of the friction material plate, the operator can confirm the position of the engaging recess by viewing the friction material plate from a direction other than the front. Therefore, it is easier to confirm the position of the locking recess as compared with the conventional case where the rivet insertion hole is searched for, and the workability of assembling the friction material plate is improved. In addition, when the locking recess is formed, it is not necessary to have a high processing accuracy as in the case of forming a conventional rivet insertion hole (simultaneous processing is possible, and an additional step is not necessary). Plate workability and productivity are improved.

Moreover, in this case, the friction material plate can be positioned with respect to the limiter cover by locking the claw portions of the limiter cover in the locking recesses on the outer periphery of the friction material plate. Therefore, the friction material plate can be easily positioned with respect to the limiter cover, and the assemblability when assembling the friction material plate with the limiter cover (assemblability of the friction material plate) is improved.

Further, in the damper device of the present invention, the torque limiter is arranged on the opposite side of the limiter cover with the lining plate interposed, and a support plate fixed to the limiter cover, the support plate and the lining plate. A second friction material plate arranged between them, a pressure plate arranged between the support plate and the second friction material plate, and a pressure plate arranged between the support plate and the pressure plate, An urging member for urging the pressure plate toward the limiter cover, a second engaging recess is provided on an outer periphery of the second friction material plate, and the pressure plate has the first A second claw portion that locks in the locking recess of 2 may be provided.

According to this structure, since the second engagement recess is provided on the outer periphery of the second friction material plate, the operator manually strokes the outer periphery of the second friction material plate to perform the second engagement. The position of the recess can be confirmed. In addition, since the second locking recess is provided on the outer periphery of the second friction material plate, the operator can see the second friction material plate from a direction other than the front side and position the second locking recess. Can be confirmed. Therefore, it is easier to confirm the position of the second locking recess as compared with the conventional case of searching for the rivet insertion hole, and the workability of assembling is improved. Further, when the second locking recess is formed, it is not necessary to have high processing accuracy as in the case of forming the conventional rivet insertion hole (since simultaneous processing is possible and an additional step is unnecessary). The workability and productivity of the second friction material plate are improved.

Moreover, in this case, by positioning the second claw portion of the pressure plate in the second locking recess on the outer periphery of the second friction material plate, the second friction material plate is positioned with respect to the pressure plate. It can be carried out. Therefore, it is easy to position the second friction material plate with respect to the pressure plate, and the assembling property when assembling the second friction material plate to the pressure plate (the assembling property of the second friction material plate) is improved. ..

Further, in the damper device of the present invention, the limiter cover is provided with a notch that exposes the locking recess at a position corresponding to the outer periphery of the friction material plate, and the claw portion is provided at the edge of the notch. It may be provided.

According to this configuration, when the friction material plate is assembled to the limiter cover, the engagement recess of the friction material plate is exposed from the notch of the limiter cover. Further, since the claw portion is provided at the edge of the notch, the worker can perform the work of locking the claw portion while looking at the locking recess, and the workability of the assembly is improved.

Further, in the damper device of the present invention, an escape recess recessed inward in the radial direction of the limiter cover is formed on the outer peripheral portion of the limiter cover, and a bolt for fixing the limiter cover to the escape recess. A bolt insertion hole through which the is inserted may be provided.

According to this structure, the escape recess is provided in the outer peripheral portion of the limiter cover, and the bolt is inserted into the bolt insertion hole provided in the escape recess to fix the limiter cover. The escape recess is formed so as to be recessed inward in the radial direction of the limiter cover, and it is possible to avoid interference with a tool for tightening the bolt. When the escape recess is not provided, a space for avoiding interference with the tool for tightening the bolt needs to be provided radially outward, and the torque limiter becomes radially outward correspondingly. On the other hand, when the escape recess is provided in the outer peripheral portion of the limiter cover, it is not necessary to take such a space outward in the radial direction. Therefore, the diameter of the torque limiter can be reduced as compared with the case where no relief recess is provided.

According to the present invention, workability and productivity of the friction material plate can be improved, and workability of assembling the friction material plate can be improved.

It is a sectional view of a damper device in an embodiment of the invention. It is a front view of the damper device in an embodiment of the invention. It is a rear view of a damper device in an embodiment of the invention. It is an expansion perspective view of the important section of the damper device in an embodiment of the invention. It is an expanded sectional view of the important section of the damper device in an embodiment of the invention.

Hereinafter, a damper device according to an embodiment of the present invention will be described with reference to the drawings. In the present embodiment, a case of a damper device used as a damper device for a vehicle or the like will be exemplified. A damper device for a vehicle is interposed between an output shaft of a prime mover and a power transmission shaft of a transmission device. Further, the damper device of the present embodiment has a function as a torque limiter that limits the torque transmitted between the output shaft of the prime mover and the power transmission shaft of the transmission, and the power transmission of the output shaft of the prime mover and the transmission. It has a function as a damper that absorbs torsional vibration between the shaft and the shaft. That is, the damper device of the present embodiment is a damper device with a torque limiter.

FIG. 1 is a sectional view (a sectional view taken along the line I-I in FIG. 2) of the damper device according to the present embodiment. 2 is a front view of the damper device of the present embodiment, and FIG. 3 is a rear view of the damper device of the present embodiment. Further, FIG. 4 is an enlarged perspective view of an essential part of the damper device of the present embodiment, and FIG. 5 is an enlarged sectional view of an essential part of the damper device of the present embodiment.

First, the overall configuration of the damper device according to the present embodiment will be described with reference to FIGS. 1 to 3. As shown in FIGS. 1 to 3, a damper device 1 includes a damper member 2 that absorbs torque fluctuations transmitted from an input member, and a torque limiter 3 that limits torque transmitted between the input member and the output member. Equipped with. The input member is a flywheel (not shown) connected to the output shaft of the engine. The output member is a power transmission shaft (not shown) of the transmission.

The torque limiter 3 is arranged between the lining plate 4 that rotates integrally with the input member, a limiter cover 5 that covers one side of the lining plate 4 (right side in FIG. 1, transmission side), and between the lining plate 4 and the limiter cover 5. Of the first friction material plate 6, the support plate 7 arranged on the opposite side of the limiter cover 5 (on the left side in FIG. 1, the engine side) with the lining plate 4 interposed, and the support plate 7 and the lining plate 4. A second friction material plate 8 arranged between them, a pressure plate 9 arranged between the support plate 7 and the second friction material plate 8, and a pressure plate 9 arranged between the support plate 7 and the pressure plate 9. Equipped with a disc spring 10. The pressure plate 9 is biased toward the limiter cover 5 by the biasing force of the disc spring 10, and the lining plate 4 is sandwiched by the pressure plate 9 and the limiter cover 5 from both sides (left and right sides in FIG. 1).

The lining plate 4 is held from both sides by a pair of side plates 11. The pair of side plates 11 are fixed to each other by rivets 12. A window portion 13 is provided in the pair of side plates 11, and the damper member 2 is accommodated in the window portion 13. The damper member 2 has a function of absorbing the torque fluctuation transmitted from the side plate 11. For example, the damper member 2 is composed of a coil spring and absorbs the torque fluctuation transmitted from the side plate 11 by elastically contracting according to the fluctuation torque transmitted from the lining plate 4 to the side plate 11.

A hub member 14 is housed between the pair of side plates 11. The hub member 14 has a flange portion 15 and a boss portion 16. The inner peripheral surface of the boss portion 16 is spline-fitted to a power transmission shaft (not shown) of the transmission, which is an output member, and the hub member 14 is configured to rotate integrally with the power transmission shaft of the transmission. Has been done. The power transmission shaft of the transmission is coaxial with the output shaft of the engine.

Next, with reference to FIG. 4 and FIG. 5 together, the essential parts of the damper device 1 of the present embodiment will be described. As shown in FIGS. 1 to 5, a first engaging recess 17 is provided on the outer periphery of the first friction material plate 6, and a limiter cover 5 is provided with a first engaging recess 17. A first claw portion 18 that stops is provided. The first locking recess 17 is formed in a shape that is recessed toward the inner side in the radial direction of the first friction material plate 6, and the first claw portion 18 connects the end of the limiter cover 5 to the first. It is formed by bending toward the side of the friction plate.

In addition, a second locking recess 19 that is recessed radially inward is provided on the outer periphery of the second friction material plate 8, and the pressure plate 9 engages with the second locking recess 19. A second claw portion 20 that stops is provided. The second locking recess 19 is formed in a shape that is recessed toward the inner side in the radial direction of the second friction material plate 8, and the second claw portion 20 connects the end portion of the pressure plate 9 to the second. It is formed by bending toward the side of the friction plate.

As shown in FIGS. 2 and 4, the limiter cover 5 is provided with a notch 21 (opening) that exposes the first locking recess 17 at a position corresponding to the outer circumference of the first friction material plate 6. ing. Then, the first claw portion 18 is provided at the center of the edge portion (edge portion on the inner diameter side) of the notch 21. The first friction member plate 6 is non-rotatably fixed to the lining plate 4 by the first claw portion 18 being locked in the first locking recess. Further, the second claw portion 20 is locked in the second locking recess, so that the second friction material plate 8 is fixed to the pressure plate 9 in a non-rotatable manner. Accordingly, the lining plate 4 is sandwiched from both sides between the first friction material plate 6 fixed to the pressure plate 9 and the second friction material plate 8 fixed to the pressure plate 9 ( The disc spring 10 is rotatable (while being sandwiched by the urging force of the disc spring 10).

The limiter cover 5 and the support plate 7 are fixed to the flywheel with bolts 22. Bolt insertion holes 23 for inserting the bolts 22 are provided in the outer peripheral portions of the support plate 7 and the limiter cover 5. In this case, as shown in FIG. 4, an escape recess 24 is formed on the outer periphery of the limiter cover 5 so as to be recessed radially inward of the limiter cover 5, and the limiter cover 5 is fixed to the escape recess 24. A bolt insertion hole 23 through which the bolt 22 for inserting is inserted is provided. By providing such an escape recess 24, it becomes possible to avoid the tool T for tightening the bolt 22 from interfering with the outer peripheral portion of the limiter cover 5 as shown in FIG.

According to the damper device 1 of the present embodiment as described above, since the engaging recess is provided on the outer periphery of the friction material plate, the operator manually strokes the outer periphery of the friction material plate to position the engaging recess. Can be confirmed. Further, since the engaging recess is provided on the outer periphery of the friction material plate, the operator can confirm the position of the engaging recess by viewing the friction material plate from a direction other than the front. Therefore, it is easier to confirm the position of the locking recess as compared with the conventional case where the rivet insertion hole is searched for, and the workability of assembling the friction material plate is improved. In addition, when the locking recess is formed, it is not necessary to have a high processing accuracy as in the case of forming a conventional rivet insertion hole (simultaneous processing is possible, and an additional step is not necessary). Plate workability and productivity are improved.

Further, in the present embodiment, the friction material plate can be positioned with respect to the limiter cover 5 by locking the claw portions of the limiter cover 5 in the locking recesses on the outer periphery of the friction material plate. Therefore, it is easy to position the friction material plate with respect to the limiter cover 5, and the assembling property (assembling property of the friction material plate) when assembling the friction material plate with the limiter cover 5 is improved.

Further, in the present embodiment, since the second engaging recess 19 is provided on the outer periphery of the second friction material plate 8, the operator can manually stroke the outer periphery of the second friction material plate 8. The position of the second locking recess 19 can be confirmed. In addition, since the second engaging recess 19 is provided on the outer periphery of the second friction material plate 8, the operator can see the second friction material plate 8 from a direction other than the front side to obtain the second engaging recess. The position of the recess 19 can be confirmed. Therefore, it is easier to confirm the position of the second locking recess 19 than in the case of searching for the rivet insertion hole as in the conventional case, and the workability of assembling is improved. Further, when the second locking recess 19 is formed, it is not necessary to have high processing accuracy as in the case of forming a conventional rivet insertion hole (simultaneous processing is possible and no additional step is required). Therefore, the workability and productivity of the second friction material plate 8 are improved.

Further, in the present embodiment, the second claw portion 20 of the pressure plate 9 is locked in the second locking concave portion 19 on the outer periphery of the second friction material plate 8 so that the second plate with respect to the pressure plate 9 is locked. The friction material plate 8 can be positioned. Therefore, the positioning of the second friction material plate 8 with respect to the pressure plate 9 is easy, and the assembling property when the second friction material plate 8 is assembled to the pressure plate 9 (assembly of the second friction material plate 8 Sex) is improved.

Further, in the present embodiment, when the friction material plate is assembled to the limiter cover 5, the engaging recess of the friction material plate is exposed from the notch 21 of the limiter cover 5. Further, since the claw portion is provided at the edge portion of the notch 21, the worker can perform the work of locking the claw portion while looking at the locking recess, and the workability of assembly is improved.

Further, in the present embodiment, the escape recess 24 is provided on the outer peripheral portion of the limiter cover 5, and the bolt 22 is inserted into the bolt insertion hole 23 provided in the escape recess 24 to fix the limiter cover 5. The escape recess 24 is formed so as to be recessed inward in the radial direction of the limiter cover 5, so that the tool T for tightening the bolt 22 can be prevented from interfering with each other. When the relief recess 24 is not provided, a space for avoiding the interference of the tool T for tightening the bolt 22 needs to be provided on the outer side in the radial direction, and accordingly, the torque limiter 3 is largely outward in the radial direction. Become. On the other hand, when the escape recess 24 is provided on the outer peripheral portion of the limiter cover 5, it is not necessary to make such a space radially outward. Therefore, the diameter of the torque limiter 3 can be reduced as compared with the case where the escape recess 24 is not provided.

Although the embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to these and may be modified or modified according to the purpose within the scope of the claims. is there.

INDUSTRIAL APPLICABILITY As described above, the damper device according to the present invention has the effects that the workability and productivity of the friction material plate can be improved and the workability of assembling the friction material plate can be improved. It is useful as a damper device or the like.

1 Damper Device 2 Damper Member 3 Torque Limiter 4 Lining Plate 5 Limiter Cover 6 First Friction Material Plate 7 Support Plate 8 Second Friction Material Plate 9 Pressure Plate 10 Disc Spring 11 Side Plate 12 Rivet 13 Window 14 Hub Member 15 Flange 16 Boss 17 First locking recess 18 First claw 19 Second locking recess 20 Second claw 21 Notch 22 Bolt 23 Bolt insertion hole 24 Escape recess T Tool

Claims (3)

A damper member that absorbs torque fluctuations transmitted from the input member,
A torque limiter for limiting the torque transmitted between the input member and the output member,
Equipped with
The torque limiter is
A lining plate that rotates integrally with the input member,
A limiter cover for covering the lining plate,
A friction material plate arranged between the lining plate and the limiter cover,
Equipped with
A locking recess is provided on the outer periphery of the friction material plate,
The limiter cover is provided with a notch that exposes the engaging recess at a position corresponding to the outer periphery of the friction material plate, and a claw portion that engages with the engaging recess is provided at an edge of the notch. It is a damper device. A damper member that absorbs torque fluctuations transmitted from the input member,
A torque limiter for limiting the torque transmitted between the input member and the output member,
Equipped with
The torque limiter is
A lining plate that rotates integrally with the input member,
A limiter cover for covering the lining plate,
A friction material plate arranged between the lining plate and the limiter cover,
Equipped with
A locking recess is provided on the outer periphery of the friction material plate,
The limiter cover is provided with a claw portion that locks in the locking recess ,
An escape recess is formed in the outer peripheral portion of the limiter cover, the recess recessed inward in the radial direction of the limiter cover, and a bolt insertion hole through which a bolt for fixing the limiter cover is inserted is provided in the escape recess. The damper device. The torque limiter is
A support plate, which is arranged on the opposite side of the limiter cover with the lining plate interposed, and which is fixed to the limiter cover,
A second friction material plate disposed between the support plate and the lining plate;
A pressure plate disposed between the support plate and the second friction material plate,
A biasing member that is disposed between the support plate and the pressure plate and biases the pressure plate toward the limiter cover;
Equipped with
A second engaging recess is provided on the outer periphery of the second friction material plate,
The damper device according to claim 1 or 2, wherein the pressure plate is provided with a second pawl portion that engages with the second engagement recess.