JPS6091039A - Vibration absorber - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a vibration absorbing device for absorbing torsional and/or bending vibrations, in particular in a drive shaft system of a vehicle. A boss connected to the shaft is connected to the boss via rubber blocks that surround the boss concentrically with a radial gap width and are distributed at several locations on the circumference and extend substantially in the radial direction. The present invention relates to a vibration absorbing device consisting of coupled fly rings.

[Conventional technology]

From DE-PS 250S 212, a device for reducing vibrations in a drive shaft system of a vehicle is already known. This device consists of a substantially triangular (polygonal) boss and a cylindrical fly ring arranged concentrically with the boss, and there is a gap width in the radial direction between the polygonal corners of the boss and the boss. In other regions, the comb block extends over the entire length in the axial direction, and the rubber block may be provided with a notch at an intermediate position.

[Problem that the invention seeks to solve]

The boss is connected to the drive shaft by its locking flanges at a location axially remote from the principal axis of moment of inertia. In order to prevent this vibration absorber from tipping excessively, especially in the case of bending vibrations, the rubber block extends over its entire axial length, providing a good anti-slip function. However, due to the above-mentioned reason, this vibration absorbing device is extremely difficult to adapt to various frequencies, as the rigidity of the rubber block is relatively large even when a notch is provided. seen as having flaws.

The aim of the invention is to improve upon the state of the art and to realize a vibration absorption device which is simpler in construction and has at least comparable properties, in particular with respect to bending vibrations.

[Failure to solve the problem]

This object is solved according to the invention by arranging the rubber blocks so that they are not aligned in the axial direction, that is, they are offset when viewed in the circumferential direction. By dividing a fully stretched rubber block and providing support at more points around the circumference, it is possible to absorb both torsional and bending vibrations, making it suitable for almost any operating condition. A vibration absorbing device is configured. In this case, the function of preventing the vibration absorbing mass from shifting in the axial direction is maintained well.

[action, effect]

According to the concept of the present invention, there is no problem with the position of the part fixed to the shaft of the boss. This is because even if the boss is fixed at a position away from the principal axis of the moment of inertia of the vibration-absorbing mass, the ability to prevent the flywheel from shifting in the axial direction on the boss is guaranteed.

There is a range of different ways of arranging the rubber blocks around the circumference, depending on the circumstances.

Particularly in the case of the vibration absorber according to DE-PS 2508212, it is possible to arrange the rubber blocks separately in the axial direction, on both sides of the main axis of the moment of inertia. The rubber blocks are thus arranged approximately symmetrically with respect to the principal axis of the moment of inertia, preferably such that the comb blocks are located between the flywheel and the boss only at both axial ends.

Regarding the arrangement of the rubber blocks, the rubber blocks should be arranged alternately on both sides of the main axis of the moment of inertia when viewed in the circumferential direction, and the axially extending portions of these rubber blocks should overlap each other. I will come to you.

Compared to DB-PS 2508212, it has the following advantages. That is, the suspension link is supported symmetrically about the principal axis of the moment of inertia. Furthermore, since the region in which the lastomer material does not substantially fit exists in the axially central portion of the bending link, it is convenient to calculate the spring constant from the structure of the vibration absorbing device. Furthermore, the structural space becomes extremely conopact in the radial direction ζ.

According to a further idea of the invention, the boss is in the form of a circular link. In this way, in combination with the fact that the rubber blocks are symmetrically distributed around the entire circumference, 1) Ru-PS
25082] and 1, it has the advantage that the structure space is extremely small.

Depending on the circumstances, it may be advantageous to provide the hub with a stepped portion, but to provide it in such a way that the stepped portion follows the fixing flange of the hub. In other words, when fixing the host on one side away from the main axis of the moment of inertia of the vibration-absorbing mass, by providing a stepped part as described above, the thickness of the rubber there can be increased and the degree of deformation due to force can be further reduced. I come often.

〔Example〕

The present invention will be explained in more detail below using the drawings.

The vibration absorbing device 1, which is not shown in FIGS. 1 to 3, consists of a momentum/gage 2 with a stepped cross-section, a post 3 also with a stepped cross-section, and comb blocks 4 and 5. ing. In the case of the invention, the comb blocks 4, 5 are arranged so that they interdigitate when viewed axially superimposed and also between the post 3 and the spring rick 2 at the axial ends 6, 7. It is located in With this arrangement, a region 8 is formed in which the lastomer material is not contained in the axially central portion ζ of the bounce ring 2. This is convenient for calculation. The rubber blocks 4, 5 of the vibration absorber 1 shown here are arranged alternately on both sides of the principal axes 9, 10 and 11 of the moment of inertia. The housing 3 has, as already mentioned, a stepped section 12, which adjoins a radially extending fixing section 13. Fixing flange part 13
has a circular hole 14 and an oblong hole 15 passing through it,
The circular hole 14 is for fixing this boss to the radially projecting flange of the drive shaft, not shown here, and the oblong hole 15 is for fixing the boss to the radially extending flange of the drive shaft, also not shown here. It is shaped like this so that it can move.

The post 3 is fixed to the main axis 9 of the moment of inertia of the vibration absorbing mass.
By increasing the thickness in the radial direction of the 0 rubber block 4 located outside of the 11, and by arranging the comb block 5 so that it is not aligned with the rubber block 4 in the 1st direction but is different from the other. , the V-ricks 2 are supported symmetrically with respect to the principal axes 9, 11 of moment of inertia, so that displacement is also suppressed and an effective heat absorbing function is obtained, especially when bending vibrations occur. Since both the bouncer 2 and the post 3 are in the form of circular links, the construction space is extremely compact in the radial direction.

In addition to what has been explained above, in FIG.
It extends towards. Similarly, it can be considered that the rubber blocks 4' and 5' are both extended in the axial direction (shown by broken lines in the figure), and that the comb blocks 4' and 5' are interlocked with each other like a comb. That's true. This would have the advantage that even if some damage occurs, the flywheel ring 2 can be held without shifting in the circumferential direction. Furthermore, for manufacturing reasons and to protect against corrosion, the opposing circumferential surfaces 17, 1.8 are provided with a thin rubber coating 19.20.

[Brief explanation of drawings]

1 to 3 are various sectional views of a vibration absorbing device according to the invention in which rubber blocks are arranged in different ways when viewed in the axial direction. 1: Vibration absorber 2: Moisture ring 3: Boss 4.4', 5, 5': Rubber flock 6.7: Axial end 8: Areas without elastomer material 9, 10, 11
: Main axis of moment of inertia 12 : Stepped part of the boss 13 : Fixing flange part of the boss 14 : Circular hole 15 : Oval hole 16 : Axial extension part of the rubber block 5' 17 : Circumferential surface (
(of the r-milling) 182 circumferential surface (of the boss) 19.20: Thin rubber coating layer Director General of the Japan Patent Office 1, Indication of Case Patent Application No. 200711 of 1982
No. 2, Invention name sale (6. Relationship with the case of the person making the amendment) Applicant: J.K. Cell Theft 4, Agent Address: 5-9-20 Akasaka 1-chome, Minato-ku, Tokyo Order for amendment day of the year

Claims (1)

[Scope of Claims] (1) A vibration absorbing device for absorbing torsional and/or bending vibrations, particularly in a drive shaft system of a vehicle, which includes a boss connected to the target drive shaft and the boss concentrically. In a vibration absorbing device consisting of a fly ring which is surrounded by a radial clearance width and is connected to this boss through rubber blocks which are distributed at several locations on the circumference and which extend substantially in the radial direction. , a vibration absorbing device in which the rubber blocks (4, 4', 5.5') are arranged so as to differ in the axial direction when viewed in the circumferential direction. (2) In the vibration absorbing device according to claim 1, which has a boss fixed to the shaft at a position away from the main axis of the moment of inertia of the vibration absorbing mass, the rubber block (4,
4', 5, 5') are arranged on both sides of the main axis of inertia (9 to 11) in the axial direction. (3) The vibration absorber according to claim 1 or 2, wherein the rubber blocks (4, 4', 5, 5') are arranged approximately symmetrically with respect to the main axis of moment of inertia (9, 11). Device. (4) The rubber blocks (4, 4', 5, 5') are
Only at both axial ends (6, 7) is the spring ring (
2) and the boss (3) according to any one of claims 1 to 3. (5) The rubber blocks (4, 4', 5, 5') are
When looking in the circumferential direction, the main axis of the moment of inertia (9 to 1
1) The vibration absorbing device according to any one of claims 1 to 4, which is divided into both sides and extends alternately. (6) The rubber blocks (4, 4', 5, 5') are formed such that their axial extensions (16) overlap each other like a comb. The vibration absorbing device according to any one of Item 5. (7) A vibration absorbing device according to any one of claims 1 to 6, wherein the boss (3) is in the form of a circular ring. (8) The boss (3) has a stepped portion (12) that the boss (3) comes into contact with when viewed in the 11+ direction. Vibration absorption device. (9) The vibration absorbing device according to any one of claims 1 to 8, wherein the stepped portion (12) is continuous with the fixing flange portion (13) of the host (3).