Rotary shafts – gudgeons – housings – and flexible couplings for ro – Coupling accommodates drive between members having... – Tripod coupling
Reexamination Certificate
2001-03-26
2003-10-14
Binda, Greg (Department: 3679)
Rotary shafts, gudgeons, housings, and flexible couplings for ro
Coupling accommodates drive between members having...
Tripod coupling
C464S124000
Reexamination Certificate
active
06632143
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a constant velocity universal joint for use in power transmission devices in motor vehicles and various industrial machines. In particular, the invention relates to a tripod type constant velocity universal joint.
Tripod type constant velocity universal joints are used, for example, as an element in a power transmission device for transmitting rotational power from a car engine to wheels (as a joint for coupling drive shafts or propeller shafts).
In general, a tripod type constant velocity universal joint is chiefly composed of an outer joint member and a tripod member. The outer joint member has an inner periphery provided with three track grooves, each of which has axial roller guideways on both sides. The tripod member has three radially-projecting trunnions. A roller is rotatably arranged on each of the trunnions. The trunnions of the tripod member and the roller guideways in the outer joint member engage with each other in the direction of rotation via the rollers so that rotational torque is transmitted from a drive side to a driven side at constant velocity. The individual rollers rotate about the trunnions and roll on the roller guideways as well, absorbing relative axial displacements and angular displacements between the outer joint member and the tripod member. In the meantime, also absorbed are axial displacements of the individual trunnions to the roller guideways, the axial displacements resulting from phase changes in the direction of rotation when the outer joint member and the tripod member transmit rotational torque with some operating angle therebetween.
Among factors contributing to the vibration characteristics of a constant velocity universal joint of this type are induced thrust and slide resistance. The induced thrust is a periodic varying force produced by friction between internal parts of the constant velocity universal joint when the joint transmits rotational torque with an operating angle. That is, due to the rotational motion, the individual trunnions of the tripod member and the rollers inevitably repeat relative axial reciprocation to the roller guideways. In that case, friction occurs at such portions as between the rollers and the roller guideways, and between the rollers and the trunnions. This friction produces the induced thrust. Thus, the induced thrust is a varying force inherent in a constant velocity universal joint, inevitably occurring in relation to the internal structure and rotational motion of the joint. In the case of a tripod type constant velocity universal joint, the induced thrust consists chiefly of a variation component of third order (tertiary rotational component) because the numbers of trunnions and rollers are three. Meanwhile, the slide resistance is a periodic varying force produced by friction between the internal parts when external vibrations are input to the constant velocity universal joint under torque. In other words, the slide resistance indicates the vibration transfer characteristics of the constant velocity universal joint.
For the power transmission device of a motor vehicle, the vibrations resulting from the induced thrust and slide resistance of the constant velocity universal joint are rather small in level as compared with engine vibrations and the like, and thus matter little by themselves. Nevertheless, the vibrations, if approaching the engine vibrations and the like in frequency, cause resonance phenomena. The induced thrust causes the rolling of a car body at starts and under acceleration, as well as muffled noise, beat noise, and so on. The slide resistance causes an increase of idling vibrations and the like (in particular, affecting the D-range idling vibrations). Accordingly, the induced thrust and slide resistance in the constant velocity universal joint have significant influence on the NVH (noise vibration harshness) performances of the motor vehicle. In particular, the induced thrust is ever increasing in the degree of influence on the NVH performances, with widening regular-use angles (vehicle-mounted angles) of the joint and increasing torque in recent times. Then, in terms of vehicle design, it means that the values of the induced thrust and slide resistance of constant velocity universal joints constitute greater constraints on the layout design of power transmission systems.
SUMMARY OF THE INVENTION
An object of the present invention is to regulate the induced thrust and slide resistance of a constant velocity universal joint, thereby easing the constraints on the layout design of a power transmission system and providing a constant velocity universal joint of low vibration and high reliability in quality.
Another object of the present invention is to further reduce and stabilize the induced thrust and slide resistance of a constant velocity universal joint, and then provide a constant velocity universal joint that is excellent in durability, productivity, and strength, low in vibration, and compact in size.
To achieve the foregoing objects, the present invention provides a constant velocity universal joint including: an outer joint member having three track grooves formed in its inner periphery, each of the track grooves having axial roller guideways on both sides; a tripod member having three radially-projecting trunnions; and rollers respectively arranged on the trunnions of the tripod member, the rollers being guided by the roller guideways. Here, at least either induced thrust or slide resistance is regulated within a specification. This increases the reliability as to the induced thrust and/or slide resistance of the constant velocity universal joint, thereby easing the constraints on the layout design of the power transmission system and improving the design flexibility. The constant velocity universal joint also improves in vehicle mountability. Moreover, the reliability as to the vibration characteristics of the constant velocity universal joint increases to contribute to stabilized NVH performances of a vehicle.
Specifically, the number of revolutions R=100-500 (rpm) and an operating angle &thgr;=0-14 (deg) are employed as common conditions. Then, under load torque T=0.1×Ts (N·m) {condition (X1)}, the tertiary rotational component of the induced thrust may be regulated to or below 30 N (RMS: Root Mean Square), or preferably to or below 20 N (RMS). Under load torque T=0.2×Ts (N·m) {condition (X2)}, the tertiary rotational component of the induced thrust may be regulated to or below 55 N (RMS), or preferably to or below 35 N (RMS). Under load torque T=0.3×Ts (N·m) {condition (X3)}, the tertiary rotational component of the induced thrust may be regulated to or below 80 N (RMS), or preferably to or below 55 N (RMS). These regulations allow the provision of a constant velocity universal joint of low vibration and high quality reliability, aside from the effects described above. They also contribute to improved NVH performances of a motor vehicle.
Furthermore, with the number of revolutions R=0 (rpm), an operating angle &thgr;=0-10 (deg), load torque T=98-196 (N·m), and a vibrating frequency f=15-40 (Hz) as common conditions, the slide resistance may be regulated to or below 40 N (peak to peak) under vibrating amplitude=±0.01 to ±0.03 (mm) {condition (Y1)}. Under vibrating amplitude=±0.05 to ±0.08 (mm) {condition (Y2)}, the slide resistance may be regulated to or below 60 N (peak to peak). Under vibrating amplitude=±0.10 to ±0.25 (mm) {condition (Y3)}, the slide resistance may be regulated to or below 80 N (peak to peak). Here, the “peak to peak” means the total of the absolute values of positive and negative peak values. These regulations allow the provision of a constant velocity universal joint of low vibration and high quality reliability, aside from the effects described above. They also contribute to improved NVH
Goto Tatsuhiro
Kura Hisaaki
Sugiyama Tatsuro
Terada Kenji
Yamazaki Kenta
Arent Fox Kintner & Plotkin & Kahn, PLLC
Binda Greg
NTN Corporation
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