JPH0667946U - Torsional vibration reduction device - Google Patents

Abstract

(57) [Summary] [Purpose] To reduce the space occupied by both side plates of the spring member. Miniaturize the device. [Configuration] Hub 1 and side plates 4, which cover both sides of the hub 1.
Assemble 4 so that relative rotation is possible. The spring receiving windows 8 and 11 are provided at the same position along the circumferential direction of the hub 1 and both side plates 4 and 4.
Are formed respectively. A spring member is interposed across the spring receiving windows 8 and 11. This spring member is a corrugated leaf spring 9.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a torsional vibration reducing device used for a clutch of a manual transmission of an automobile, a lockup clutch of a torque converter, or the like.

[0002]

[Prior art]

 As this type of torsional vibration reducing device, a device as disclosed in, for example, Japanese Utility Model Laid-Open No. 60-28650 has been proposed.

In this torsional vibration reduction device, a hub and a pair of side plates that cover both sides of the hub are elastically connected in a rotating direction via a spring member, and the torsional vibration of the power transmission system is reduced by the vibration absorbing action of the spring member. It is designed to let you. A coil spring is used as the spring member, and the coil spring is interposed between the spring receiving windows formed at the same position along the circumferential direction of the hub and both side plates, and the coil and the side plate are opposed to each other. The spring action of the coil spring works during rotation.

[0004]

[Problems to be solved by the device]

 However, in the above-described conventional torsional vibration reduction device, since the coil spring is used as the spring member that connects the hub and the both side plates, the curved shape of the outer circumference of the coil spring is large between both side plates. It occupies an occupied space, which causes a problem that the axial thickness of the device becomes thicker and the entire device becomes larger.

Therefore, the present invention intends to provide a torsional vibration reduction device that can reduce the size of the entire device by reducing the space occupied by the spring member connecting the hub and the side plates between the side plates. To do.

[0006]

[Means for Solving the Problems]

 As a means for solving the above-mentioned problems, the present invention assembles a hub and a pair of side plates covering both sides of the hub so that they can rotate relative to each other, and the hub and the side plates are respectively provided with springs at the same position along the circumferential direction. In a torsional vibration reduction device in which a receiving window is formed, and a spring member is interposed across each spring receiving window to elastically connect the hub and both side plates in the rotational direction, the spring member has a wavy shape. It was a leaf spring.

[0007]

【Example】

 Next, an embodiment of the present invention will be described with reference to FIGS.

In the drawings, reference numeral 1 denotes a hub having an inner peripheral portion connected to a crankshaft 2 by a bolt 3, and reference numerals 4, 4 have an outer peripheral portion connected to a converter housing 6 of a torque converter 5 by a bolt 20. It is a side plate.

The hub 1 is formed of a plate material into a disk shape, and a plurality of substantially fan-shaped arms 7 are provided on the outer peripheral portion of the hub 1 at equal intervals in the circumferential direction. A space 7 is a spring receiving window 8 of the hub 1. Each of the spring receiving windows 8 houses corrugated leaf springs 9 as a spring member. The leaf spring 9 is bent in a zigzag shape along the spring receiving window 8 so that an elastic action in the compression direction is exerted between the adjacent arms 7, 7. The leaf spring 9 is housed in the spring receiving window 8 so that the leaf width direction thereof matches the thickness direction of the hub 1 (axial direction of the device), and the end of the leaf spring 9 is substantially centered in the leaf width direction on the side of the arm 7. It is designed to abut the end face.

On the other hand, the side plates 4 and 4 are formed in a disk shape slightly larger than the hub, and the outer peripheral edge portions of the both 4 and 4 are joined by the rivets 10. The side plates 4 and 4 are arranged on both sides in the axial direction of the hub 1 so that the inner peripheral edges of the side plates sandwich the arm 7 and are assembled so as to be rotatable relative to the hub 1. A spring receiving window 11 having the same length as the window 8 is formed along the circumference of each side plate 4 at a position corresponding to the spring receiving window 8 of the hub 1. 11 engages with the end surface of the leaf spring 9 housed in each window 8 of the hub 1. That is, the leaf spring 9 is interposed between the hub 1 and the spring receiving windows 8 and 11 of the side plates 4 and 4, and the hub 1 and the side plates 4 and 4 are elastically elastic in the rotating direction. It is connected. The side edge portion of each spring receiving window 11 is bent outward in the axial direction of the side plate 4 in a stepped manner, and this bent portion serves as a guide portion 11a for restricting the protrusion of the leaf spring 9.

Reference numeral 12 is a play element arranged between the side plates 4 and 4. The idler 12 includes an annular base portion 12a that is rotatably assembled to the outer peripheral side of the arm 7, and a plurality of protrusions 12b that extend radially inward from the base portion 12a. 12b is interposed between the leaf springs 9 and 9 so that the leaf springs 9 and 9 act in series along the circumferential direction when the hub 1 and the side plates 4 and 4 relatively rotate.

Reference numeral 13 denotes a turbine runner arranged to face the pump impeller 14 of the converter housing 6, 15 denotes a turbine hub integrally connected to the turbine runner 13, and 16 denotes a pump impeller 14 and When the speed ratio of the turbine runner 13 becomes less than a predetermined value, the converter housing 6 and the turbine hub 15 are directly connected to each other.

Since the torsional vibration reducing device has the above-described configuration, the torsional vibration of the power transmission system, which is caused by the operation of the direct coupling clutch 16, acts between the hub 1 and the side plates 4 and 4. It is reduced by the elasticity of the spring 9.

By the way, in the case of this torsional vibration reducing device, since the corrugated leaf spring 9 is used as the spring member that connects the hub 1 and the side plates 4 and 4, when the coil spring is used as the spring member. Compared with, the axial width between both side plates 4 and 4 can be reduced. That is, in the case of the leaf spring 9, unlike the coil spring, the side surfaces facing the both side plates 4 and 4 do not bulge in a curved shape, so the space between the both side plates 4 and 4 is widened or the guide portion 11a is axially moved. It is not necessary to bulge significantly, and the axial width of the side plates 4 and 4 can be reduced accordingly. Therefore, when this device is adopted, the entire device can be downsized. Moreover, when a coil spring is used as the spring member, the guide portion 11a of the spring receiving window 11 must be formed in a curved shape. However, in this device using the leaf spring 9, the guide portion 11a is formed. Since it is sufficient to form 11a in a stepped shape, there is also an advantage that the manufacturing becomes easier.

[0015]

[Effect of device]

 As described above, according to the present invention, since the spring and the spring receiving windows of the both side plates are the corrugated leaf springs, the gap between the side plates is larger than that when the coil spring is used. The occupied space in the device is reduced, and as a result, the entire device can be downsized.

[Brief description of drawings]

FIG. 1 is a partially cutaway front view showing an embodiment of the present invention.

FIG. 2 is a sectional view taken along the line AA of FIG.

[Explanation of symbols]

 1 ... Hub, 4 ... Side plate, 8, 11 ... Spring receiving window, 9 ... Leaf spring.

Claims (1)

[Scope of utility model registration request] 1. A hub and a pair of side plates covering both sides of the hub are assembled so as to be rotatable relative to each other, and spring receiving windows are formed at the same positions along the circumferential direction of the hub and the side plates. In a torsional vibration reducing device in which a hub and both side plates are elastically connected in a rotating direction by interposing a spring member across a window, the spring member is a corrugated leaf spring. Vibration reduction device.