CN1926350A - Constant velocity joint - Google Patents
Constant velocity joint Download PDFInfo
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- CN1926350A CN1926350A CN 200580006915 CN200580006915A CN1926350A CN 1926350 A CN1926350 A CN 1926350A CN 200580006915 CN200580006915 CN 200580006915 CN 200580006915 A CN200580006915 A CN 200580006915A CN 1926350 A CN1926350 A CN 1926350A
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- gudgeon
- universal joint
- roller part
- constant velocity
- velocity universal
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Abstract
An annular member (50) in installed on a circular cylinder section (45) of a trunnion (44), and a roller member (48), in the inner periphery of which a needle bearing (46) is held, is installed on the circular cylinder section (45). The needle bearing (46) is held between a flange section (60) formed on one end of the roller member (48) and the annular member (50) installed on the trunnion (44) with a predetermined gap between them. Further a gap (X) between the needle bearing (46) and the annular member (50) is set to satisfy the following relationship. X > R/2 (1/cos max - 1) where R: Radius of rotation of the center of the roller member (48) relative to the center axis of an outer member (32). Theta max: Maximum inclination of angle of an inner member (34).
Description
Technical field
The present invention relates to a kind of constant velocity universal joint, this constant speed universal joint for example connects a transmission shaft and another root transmission shaft in the driving force transmission unit of automobile.
Background technique
In the past, in the driving force transmission unit of automobile, used a transmission shaft and another root transmission shaft are coupled together rotating force is passed to the constant velocity universal joint of each root axletree.
Figure 20 represents the part section (with reference to Japanese patent laid-open 10-184717 communique) of the constant velocity universal joint 2 of this prior art.
This constant speed universal joint 2 comprises: the exterior part 4 of the tubular that is connected with a transmission shaft; And be inserted in the exterior part 4 and the inner piece 6 that is connected with another root transmission shaft.Be formed with three guiding grooves 8 that extend along axial direction outside on the inner peripheral surface of parts 4.On the other hand, inner piece 6 has three gudgeons 10 giving prominence to towards each guiding groove 8, by a plurality of needle bearings 12 roller part 14 is installed on each gudgeon 10.Roller part 14 engages rotationally with the guiding groove 8 of exterior part 4.
In the prior art, it is not come off from roller part 14 in order to keep needle bearing 12, on the interior perimembranous of roller part 14, be formed with around slot part 16, in this slot part 16, be pressed into needle bearing 12.
When packing needle bearing 12 into slot part 16, for example after needle bearing 12 being arranged as ring-type along slot part 16, utilize keystone effect (Keystone effect) that remaining one is pressed into the state that remains.At this moment,, need carry out the processing of very high degree of precision, so that reduce the tolerance between the size of the size of slot part 16 and needle bearing 12 as far as possible to needle bearing 12 and slot part 16 for a plurality of needle bearings 12 being remained in slot part 16 with the state that is fit to.
In addition, when forming slot part 16 on the interior perimembranous at roller part 14, owing to lip part 17a, 17b are arranged in the both sides of slot part 16, so cut for machining tool being inserted slot part 16, and will be discharged to the outside reliably because of the smear metal that processing produces, have to carry out extremely difficult operation.
In addition, in described Japanese patent laid-open 10-184717 communique, such technology is also disclosed: promptly, not to form slot part 16 on the interior perimembranous of roller part 14, but form the circular hole that does not have lip part 17a, 17b, two packing rings are engaged with interior perimembranous replace lip part 17a, 17b.At this moment, though the processing of circular hole itself be easy to because packing ring is engaged with the interior perimembranous of roller part 14, so must be used for the processing of the engagement groove of this engaging.In addition, also need operation that packing ring is engaged with engagement groove.
The applicant has proposed the constant velocity universal joint 18 (with reference to Japanese patent laid-open 11-210776 communique) that is made of structure shown in Figure 21 in order to address these problems.
In this constant speed universal joint 18, on the base end part of the gudgeon 10 that is formed at inner piece 6, form wide diameter portion 19, and on the interior perimembranous of roller part 14, only the projected direction tip side at gudgeon 10 forms lip part 17a.
At this moment, the processing of the interior perimembranous of roller part 14 is handled with the chip removal that adds man-hour and is very easy to.In addition, be installed in the needle bearing 12 between gudgeon 10 and the roller part 14, remain on the lip part 17a of roller part 14 and be formed between the end difference 20 on the wide diameter portion 19 of inner piece 6.
In addition, the constant velocity universal joint (opening the 2001-208090 communique) of in Figure 22, having represented this prior art with reference to the Japan Patent spy.
As shown in figure 22, this constant speed universal joint discloses a kind of like this roller mechanism 26: promptly a tip side at the axial direction of the cylinder inner peripheral surface 22 of roller 21 is equipped with stop ring 24 by circumferential groove 23, is formed with the integrally formed card of described roller 21 to end edge 25 on another end of the axial direction of described cylinder inner peripheral surface 22.
A plurality of needle rollers 27 are installed on described cylinder inner peripheral surface 22, and described needle roller 27 is kept by the supporting ring 29 of the outer circumferential face that is embedded in gudgeon 28 outward.
At this moment, open in the disclosed roller mechanism 26 of 2001-208090 communique, adopt in the front end 28a of described gudgeon 28 side to be provided with stop ring 24 and to be provided with the structure that card ends edge 25 in the base end part 28b of described gudgeon 28 side the Japan Patent spy.
In addition, in constant velocity universal joint shown in Figure 21 18, wide diameter portion 19 need be set at the base end part of gudgeon 10.Owing to need suitably to limit the amount of movement of needle bearing 12, so wide diameter portion 19 requires high dimensional accuracy along gudgeon 10.And, to concentrate for fear of between the end difference 20 of the columnar portion of gudgeon 10 and wide diameter portion 19, producing stress, the machining shape of wide diameter portion 19 also is very limited.
In addition, in constant velocity universal joint shown in Figure 20 2, be accompanied by the variation of the axis T2 of axle (inner piece 6) with respect to the tilt angle theta of the axis T1 of exterior part 4, each roller part 14 that is installed on gudgeon 10 is shifted to the arrow E direction.At this moment, along with the increase of the tilt angle theta of inner piece 6, the displacement amount of roller part 14 increases, if therefore in advance gudgeon 10 is not set long enough, roller part 14 can be interfered with the base end part 10a of gudgeon 10, makes tilt angle theta limited.On the other hand, if lengthening gudgeon 10, then the diameter of exterior part 4 also increases, and causes constant velocity universal joint 2 to maximize.
And then, in roller mechanism shown in Figure 22 26, for example, when making stop ring 24 for a certain reason from circumferential groove 23 disengagings, by the centrifugal force that produces because of rotatablely moving of constant velocity universal joint, the cylinder inner peripheral surface 22 and the needle roller 27 between the supporting ring 29 that fill in roller 21 may fly out from the inside of roller 21, damage the rotary driving force transmission agency of described constant velocity universal joint.
Summary of the invention
General objects of the present invention is, a kind of constant velocity universal joint is provided, and this constant speed universal joint can be easily and processed inner piece accurately, and assembling operation is easy, can boost productivity and reduces manufacture cost.
Main purpose of the present invention is, a kind of constant velocity universal joint is provided, and this constant speed universal joint can be guaranteed the desirable angle of inclination of transmission shaft, thereby and makes the length optimization of gudgeon realize miniaturization.
Another object of the present invention is to, a kind of constant velocity universal joint is provided, even under the situation that holding member comes off from roller part, this constant speed universal joint can prevent that also the rotary driving force transmission agency from suffering damage.
According to the present invention, when roller part is assembled into gudgeon, at first, ring-shaped member is installed on gudgeon, then, the roller part that interior perimembranous is equipped with a plurality of rolling elements inserts in the gudgeon.At this moment, rolling element is maintained between the lip part and ring-shaped member of roller part.In addition, rolling element is remained in the interior perimembranous of roller part, can improve the operability when roller part is assembled in gudgeon by using lubricating grease or wax etc. in advance.
Owing to keep the ring-shaped member of rolling element and gudgeon split to form, therefore can improve the degrees of freedom of gudgeon machining shape.And, by selecting the thickness of ring-shaped member, can be easily and adjust the amount of movement of rolling element accurately with respect to gudgeon.
Implement chamfer machining by position, thereby ring-shaped member is installed on the gudgeon, can improve the serviceability of ring-shaped member and gudgeon thus with stable status to ring-shaped member and base end part butt gudgeon.
In addition, the radius of curvature of the outer circumferential face from columnar portion to base end part of the gudgeon by will being embedded with roller part outward and the ratio of the diameter of described columnar portion are set in the scope more than 0.05, below 0.35, can be to guarantee the state of good layout, reduce to concentrate on the stress of base end part, thereby improve the serviceability of gudgeon.
According to the present invention, can be extremely easily and installation and processing has the roller part of rolling element accurately interior perimembranous.And, can easily produce gudgeon the base end part shape the design freedom height and have the inner piece of sufficient intensity.And, after the interior perimembranous that rolling element is installed on roller part,, promptly can easily carry out the assembling operation of inner piece only by roller part being inserted on the gudgeon that ring-shaped member is installed.Therefore, can improve the productivity of constant velocity universal joint, and reduce manufacture cost.
In addition, in the present invention, can with the base end part of described gudgeon and described rolling element or and described roller part between gap H, be set at following relation with described roller part with respect to the amount of movement δ of described base end part:
H>δ=R/2·(1/cosθmax-1)
R: the center of described roller part is with respect to the turning radius of the central shaft of described exterior part,
θ max: described another root transmission shaft is with respect to the maximum inclination angle of a described transmission shaft.
At this moment,, set the gap H that can guarantee desirable maximum inclination angle θ max, can make gudgeon have suitable length, thereby realize the miniaturization of constant velocity universal joint according to the amount of movement δ of roller part with respect to the base end part direction of gudgeon.
In addition, the rolling element of the interior perimembranous by will being installed on roller part, remain between the base end part of the lip part of the projected direction tip side that is formed at gudgeon of roller part and gudgeon, thereby described gap H can be set at the end of rolling element and the distance between the described base end part.And under the situation between first lip part that rolling element is installed in the two end part that are formed at roller part and second lip part, described gap H can be set at the end of roller part and the distance between the described base end part.
When roller part only when the projected direction tip side of gudgeon has lip part, can on the base end part of gudgeon, form end difference, and by this end difference restriction rolling element moving to the base end part side of gudgeon.This moment, gap H was set at the distance between rolling element and the end difference.In addition, by the radius of curvature of the outer circumferential face from columnar portion to end difference of gudgeon being set for radius of curvature less than the end of the rolling element of described base end part side, can be the bearing surface of described end difference, to prevent the over-tilting of transmission shaft as rolling element.
In addition, by the ratio of the radius of curvature of the outer circumferential face from columnar portion to base end part of the gudgeon that is embedded with roller part outward and the diameter of described columnar portion being set in the scope more than 0.05, below 0.35, can be under the state of guaranteeing good layout, reduce to concentrate on the stress of base end part, thereby improve the serviceability of gudgeon.
In addition, by between the end of the projected direction end of gudgeon and rolling element apart from M, be set at following relation with described rolling element with respect to the amount of movement ε of described projected direction end:
M>ε=3R/2·(1/cosθmax-1)
Can in the range of tilt angles of allowing, stably keep rolling element by gudgeon.
According to the present invention, can guarantee the angle of inclination of desirable transmission shaft, and set gudgeon for suitable length, to realize the miniaturization of constant velocity universal joint.
In addition, in the present invention, on an end of the axial direction of inside diameter, being formed with of described roller part towards the outstanding lip part of radially inner side, by annular slot the holding member that keeps described rolling element is installed on another end, described holding member is arranged on the base end part side along the axial direction of gudgeon.
At this moment, with the center line C radially along described roller part is benchmark, can will the thickness (L+ Δ A) of roller part on axial direction of holding member be installed, be set at greater than the thickness (L) of the roller part that is formed with lip part on axial direction, and can be set at described center line C and the binary center of axial direction length consistent (B1=B2) rolling element.In addition, can make described holding member comprise circlip at least.
According to the present invention, by holding member being set in base end part side along axial direction near gudgeon, even under the situation that described holding member is come off from annular slot, because described holding member is not to be installed on gudgeon front end side, therefore, fill in the interior rolling element of inside diameter of roller part, the centrifugal force that produces when being rotated motion by constant velocity universal joint, remain in the lip part of roller part, thereby prevent that its inside diameter from this roller part from flying out.Its result is to prevent that the rotary driving force transmission agency of constant velocity universal joint from suffering damage.
Description of drawings
Fig. 1 is the major component sectional arrangement drawing of edge and the direction of axis normal of the constant velocity universal joint of first embodiment of the invention.
Fig. 2 is the part section stereogram of ring-shaped member that constitutes the constant velocity universal joint of described first mode of execution.
Fig. 3 is the part section stereogram of the ring-shaped member that is made of another structure of the constant velocity universal joint of described first mode of execution.
Fig. 4 represents to constitute the assembled state of gudgeon, needle bearing and roller part of the constant velocity universal joint of described first mode of execution, is the drawing in side sectional elevation along the IV-IV line among Fig. 1.
Fig. 5 is that the major component of the constant velocity universal joint of described first mode of execution is amplified sectional arrangement drawing.
Fig. 6 is the major component sectional arrangement drawing of edge and the direction of axis normal of the constant velocity universal joint of second mode of execution.
Fig. 7 is the major component sectional arrangement drawing of edge and the direction of axis normal of the constant velocity universal joint of the 3rd mode of execution.
Fig. 8 is the major component sectional arrangement drawing of edge and the direction of axis normal of the constant velocity universal joint of the 4th mode of execution.
Fig. 9 is the side schematic view of the constant velocity universal joint of described first mode of execution.
Figure 10 is the front schematic view of the constant velocity universal joint of described first mode of execution.
Figure 11 is the major component sectional arrangement drawing of edge and the direction of axis normal of the constant velocity universal joint of fifth embodiment of the invention.
Figure 12 is that the major component of the constant velocity universal joint of described the 5th mode of execution is amplified sectional arrangement drawing.
Figure 13 is the major component sectional arrangement drawing of edge and the direction of axis normal of the constant velocity universal joint of the 6th mode of execution.
Figure 14 is that the major component of the constant velocity universal joint of described the 6th mode of execution is amplified sectional arrangement drawing.
Figure 15 is the major component sectional arrangement drawing of edge and the direction of axis normal of the constant velocity universal joint of the 7th mode of execution.
Figure 16 is the major component sectional arrangement drawing of edge and the direction of axis normal of the constant velocity universal joint of eighth embodiment of the invention.
Figure 17 is that the major component of roller part that constitutes the constant velocity universal joint of described the 8th mode of execution is amplified sectional arrangement drawing.
Figure 18 is the part section stereogram of the constant velocity universal joint of first comparative example.
Figure 19 is that the major component of roller part that constitutes the constant velocity universal joint of second comparative example is amplified sectional arrangement drawing.
Figure 20 is the sectional arrangement drawing along axial direction of the constant velocity universal joint of prior art.
Figure 21 is that sectional arrangement drawing is amplified with the major component of the direction of axis normal in the edge of the constant velocity universal joint of prior art.
Figure 22 is that the amplification sectional arrangement drawing is omitted with the part of the direction of axis normal in the edge of the constant velocity universal joint of prior art.
Embodiment
Fig. 1 represents the major component sectional arrangement drawing of edge and the direction of axis normal of the constant velocity universal joint 30 of first embodiment of the invention.This constant speed universal joint 30 mainly comprises: be connected and have the exterior part 32 of the tubular of opening portion with an end one of a not shown transmission shaft; And be connected with an end of another root transmission shaft 33 and be inserted in inner piece 34 in the inner space portion of exterior part 32.
Form in the inner space portion of parts 32 outside along axial direction and extend and around three guiding grooves 36 of axle center each interval 120 degree.Guiding groove 36 constitutes and comprises: the cross section forms mild curvilinear top plate portion 38; And in the both sides of top plate portion 38 toward each other and the cross section form circular- arc slide part 40a, 40b.
Be embedded with the spider 42 of the ring-type that constitutes inner piece 34 outside on transmission shaft 33.On the outer circumferential face of spider 42, be formed with three gudgeons 44 giving prominence to towards guiding groove 36 respectively.The columnar portion 45 of gudgeon 44 and the outer circumferential face of spider 42 are continuous smoothly by base end part 47.
Shown in the sectional drawing of Fig. 2, on the columnar portion 45 of gudgeon 44, ring-shaped member 50 is installed, the inner diameter d 1 of this ring-shaped member 50 is set at the diameter D that is slightly larger than columnar portion 45, and its external diameter is d2.In addition, can be as shown in Figure 3, be installed in the ring-shaped member 54 that is formed with chamfered section 52 with the position of base end part 47 butts of gudgeon 44, replace ring-shaped member 50.Under the situation that this ring-shaped member 54 is installed, because base end part 47 butts of chamfered section 52 and gudgeon 44, so ring-shaped member 54 can be remained in gudgeon 44 with stable status.
On the columnar portion 45 of gudgeon 44, by a plurality of needle bearings (rolling element) 46 outer roller parts 48 that are embedded with ring-type.As shown in Figure 4, needle bearing 46 remains between the interior perimembranous of the peripheral part of columnar portion 45 and roller part 48 by lubricating grease or wax.
As shown in Figure 1, the outer circumferential face of roller part 48 constitutes and comprises: form corresponding to the sectional shape of slide part 40a, 40b circular-arc facial 56; From circular-arc facial 56 to the first continuous ring-type inclined plane part 58a of top plate portion 38 sides of guiding groove 36; And from described circular-arc facial 56 to the second continuous ring-type inclined plane part 58b of spider 42 sides.
On the interior perimembranous of roller part 48, on the end face of top plate portion 38 sides of guiding groove 36, be provided with lip part 60 to the tab-like one-tenth of radially inner side.In roller part 48, on the end face of spider 42 sides of perimembranous flange is not set.Therefore, the interior perimembranous of roller part 48 can be by inserting not shown machining tool come easily and processing accurately.In addition, also can extremely easily discharge the smear metal that produces in the processing.
The internal diameter of roller part 48 is set at more bigger than the outside diameter d 2 of ring-shaped member 50 that is installed on gudgeon 44 or ring-shaped member 54.In addition, can on the base end part of the lip part 60 in the interior perimembranous of roller part 48, form all grooves 62, this in week groove 62 can reduce the slip resistance of roller part 48 with respect to needle bearing 46, and play a role as the store oil portion of lubricating grease or wax.
In addition, as shown in Figure 5, the gap of order from the lip part 60 of roller part 48 to an end face of needle bearing 46 is A, gap from another end face of needle bearing 46 to ring-shaped member 50 or ring-shaped member 54 is B, gap from the end face of spider 42 sides of roller part 48 to spider 42 is Y, with described gap X, gap Y set for gap X (=A+B) and gap Y in, a less side becomes the limited field of roller part 48 with respect to the amount of movement of gudgeon 44.
The basic structure of the constant velocity universal joint 30 of first embodiment of the invention describes its assembling method and action effect as mentioned above below.
When carrying out the assembling of constant velocity universal joint 30, ring-shaped member 50 is installed on each columnar portion 45 of gudgeon 44.The inner diameter d 1 of ring-shaped member 50 is set at the diameter D that is slightly larger than columnar portion 45, and as shown in Figure 5, ring-shaped member 50 remains in the base end part 47 of columnar portion 45.
On the other hand, the interior perimembranous at roller part 48 is equipped with a plurality of needle bearings 46 by lubricating grease or wax.At this moment, because on the interior perimembranous of roller part 48, therefore only be formed with lip part 60, by carrying out with needle bearing 46 can easily needle bearing 46 being installed on roller part 48 from the operation that the end face of roller part 48 inserts towards lip part 60 sides in a side.
Next, the roller part 48 that needle bearing 46 is installed is installed to each columnar portion 45 of gudgeon 44, thereby finishes inner piece 34.At this moment, needle bearing 46 is maintained at the lip part 60 of roller part 48 and is installed between the ring-shaped member 50 on the columnar portion 45 of gudgeon 44.
The inner piece 34 that as above constitutes is inserted in the inner space portion of exterior part 32 and each roller part 48 is engaged with guiding groove 36, thereby finish the assembling of constant velocity universal joint shown in Figure 1 30.
Here, as shown in Figure 5, between the lip part 60 of end face of needle bearing 46 and roller part 48, and between the other end of needle bearing 46 and the ring-shaped member 50, guarantee to have predetermined gap A and B (gap X=A+B), in addition, between the spider 42 of the end face of the side that does not form lip part 60 of roller part 48 and inner piece 34, guarantee that predetermined gap Y is arranged.
Therefore, when the transmission shaft 33 of inner piece 34 kept the state rotation of predetermined angle with the not shown transmission shaft with respect to exterior part 32, roller part 48 was shifted with the state that limits amount of movement by a side less among gap X or the gap Y axial direction along gudgeon 44.
In addition, because ring-shaped member 50 constitutes with gudgeon 44 splits,, can adjust the gap X of the amount of movement of restriction roller part 48 arbitrarily so for example pass through to select the thickness of ring-shaped member 50.And, because ring-shaped member 50 can constitute the plane with the face of the end face side of needle bearing 46, therefore the radius of curvature r1 of the base end part 47 of gudgeon 44 can be set at desirable radius, to guarantee the intensity of gudgeon 44, can set the gap B between ring-shaped member 50 and the needle bearing 46 on the other hand accurately.
In addition, by as shown in Figure 6, the base end part 47 that the ring-shaped member 54 that will have a chamfered section 52 is installed on gudgeon 44 replaces ring-shaped member 50, can make the chamfered section 52 of ring-shaped member 54 and the curved surface butt of base end part 47, thereby stably keep ring-shaped member 54.
In addition, by as shown in Figure 7, outside diameter d 2 is installed on gudgeon 44 greater than the ring-shaped member 64 of the interior perimembranous diameter of roller part 48, also the amount of movement that can limit roller part 48 by the end face and the gap Z between the ring-shaped member 64 of roller part 48.
Similarly, as shown in Figure 8, outside diameter d 2 is installed on gudgeon 44 greater than the interior perimembranous diameter of roller part 48 and at the ring-shaped member 66 that base end part 47 sides are formed with chamfered section 65, also the amount of movement that can limit roller part 48 by the end face and the gap Z between the ring-shaped member 66 of roller part 48.
In addition, in the respective embodiments described above, can set the gap between needle bearing 46 and the ring-shaped member 50,54 as described below, perhaps the gap between roller part 48 and the ring-shaped member 64,66.
Fig. 9 is that an axis with gudgeon 44 is the center, makes the side schematic view of the state that inner piece 34 tilts with tilt angle theta, and Figure 10 is the front schematic view of this state.
If the center that makes roller part 48 is R with respect to the turning radius of the central shaft of exterior part 32, then from comprising plane as the central shaft of the axis of the gudgeon 44 of the rotating center of tilt angle theta and exterior part 32, the center of each roller part 48 that has moved to guiding groove 36 along exterior part 32 become a=Rcos30 ° apart from a.From the distance c at the center of the roller part 48 that moved to the guiding groove 36 along exterior part 32 as the axis of the gudgeon 44 of rotating center, service range a is expressed as c=a/cos θ.At this moment, the roller part 48 that has moved along guiding groove 36 is to the amount of movement b of the outer side shifting b=c-a of gudgeon 44.Therefore, be installed in as the roller part 48 on the gudgeon 44 of the rotating center of tilt angle theta, to the amount of movement δ of medial movement δ=btan30 °=R/2 of gudgeon 44 (1/cos θ-1).
According to this result, the maximum inclination angle that makes inner piece 34 is θ max, by with the gap K (corresponding to gap X) between needle bearing 46 and the ring-shaped member 50,54, the perhaps gap K (corresponding to gap Z) between roller part 48 and the ring-shaped member 64,66, be set at the gap K of the minimum of the relation that satisfies K>δ=R/2 (1/cos θ max-1), can guarantee desirable tilt angle theta, and make the axial length optimization of gudgeon 44, inner piece 34 is designed to desirable minimal size, thereby makes constant velocity universal joint 30 miniaturizations.
In addition, by fixing the position of two roller parts 48, a remaining roller part 48 is slided along the guiding groove 36 of exterior part 32, roller part 48 along the axial direction of gudgeon 44 outwardly the amount of movement of side shifting can remain a roller part 48 as this and obtain towards the described amount of movement in the outside along the axial direction of gudgeon 44.This amount of movement ε becomes ε=3R/2 (1/cos θ-1).Therefore, for the stable gudgeons 44 that remain in of roller part 48, preferably will be designed to satisfy the relation of M>ε=3R/2 (1/cos θ max-1) apart from M (with reference to Figure 12) to the projected direction end of gudgeon 44 from the end of needle bearing 46.
In addition, table 1 expression: adjust from columnar portion 45 to base end part the ratio r1/D of the diameter D of the radius of curvature r1 (with reference to Fig. 5) of 47 curved surface and columnar portion 45, test the result of the intensity of gudgeon 44 with respect to the relation of the layout of inner piece 34 and roller part 48.At this moment,, be preferably set to 0.08≤r1/D, can guarantee the good intensity of gudgeon 44 by being set at 0.05≤r1/D.On the other hand, if be set at 0.35<r1/D, then the materials of inner piece 34 increase, thereby go wrong aspect layout.Therefore,, be preferably set to 0.08≤r1/D≤0.25, can guarantee good layout, and reduce the stress of base end part 47 is concentrated, thereby fully guarantee the intensity of gudgeon 44 by being set at 0.05≤r1/D≤0.35.
[table 1]
Table 1
r1/D | 0.01 | 0.025 | 0.05 | 0.07 | 0.08 | 0.09 | 0.1 | 0.15 | 0.2 | 0.25 | 0.3 | 0.35 | 0.4 |
Intensity | × | × | △ | △ | ○ | ○ | ○ | ○ | ○ | ○ | ○ | ○ | ○ |
Layout | ○ | ○ | ○ | ○ | ○ | ○ | ○ | ○ | ○ | ○ | △ | △ | × |
Zero: good
△: good substantially
*: bad
The constant velocity universal joint 130 of in Figure 11, representing fifth embodiment of the invention below.In addition, in the mode of execution of following expression, to the identical reference number of the structural element mark identical and omit its detailed description with the constant velocity universal joint 30 of described first mode of execution.
On the outer circumferential face of the spider 42 of the constant velocity universal joint 130 that constitutes fifth embodiment of the invention, be formed with respectively towards three outstanding gudgeons 44 of guiding groove 36.The columnar portion 45 of gudgeon 44 and the outer circumferential face of spider 42 are continuous smoothly by base end part 47.
On the columnar portion 45 of gudgeon 44, by a plurality of needle bearings (rolling element) 46 outer roller parts 48 that are embedded with ring-type.Described needle bearing 46 and roller part 48 constitute and can freely be shifted towards the arrow E direction along the axial direction of the columnar portion 45 of gudgeon 44.
At this moment, as Figure 11 and shown in Figure 12, make that inner piece 34 is θ max with respect to the maximum inclination angle of exterior part 32, the center of roller part 48 is R with respect to the turning radius of the axis (central shaft of exterior part 32) of the transmission shaft 33 of inner piece 34, gap H from inner piece 34 side ends of needle bearing 46 to the base end part 47 of inner piece 34, promptly arrive the distance of needle bearing 46 and base end part 47 butts, be set at H>R/2 (1/cos θ max-1).
In addition, when the gap Y (with reference to Figure 12) from inner piece 34 side ends of roller part 48 to the spider 42 of inner piece 34 is Y<H, because roller part 48 is than needle bearing 46 elder generations and inner piece 34 butts, so gap Y is set at Y>R/2 (1/cos θ max-1).
In addition, be set at the relation that satisfies M>3R/2 (1/cos θ max-1) apart from M (with reference to Figure 12) between the end of the projected direction end of the columnar portion 45 of gudgeon 44 and needle bearing 46.
The basic structure of the constant velocity universal joint 130 of fifth embodiment of the invention describes its assembling method and action effect as mentioned above below.
At first, on the interior perimembranous of roller part 48, a plurality of needle bearings 46 are installed by lubricating grease or wax.At this moment, because on the interior perimembranous of roller part 48, only be formed with lip part 60 in a side, therefore by carrying out with needle bearing 46 can easily needle bearing 46 being installed on roller part 48 from the operation that the end face of roller part 48 inserts towards lip part 60 sides.
Next, the roller part 48 that needle bearing 46 is installed is installed on each columnar portion 45 of gudgeon 44, thereby finishes inner piece 34.At this moment, needle bearing 46 is maintained between the base end part 47 of the lip part 60 of roller part 48 and gudgeon 44.
The inner piece 34 that as above constitutes is inserted in the inner space portion of exterior part 32 and each roller part 48 is engaged with guiding groove 36, thereby finish the assembling of constant velocity universal joint shown in Figure 11 130.
Action to constant velocity universal joint 130 describes below.
When 33 rotations of a transmission shaft, by the gudgeon 44 of inner piece 34, needle bearing 46 and roller part 48 rotations, this rotation is passed to exterior part 32 by guiding groove 36, thereby makes another not shown root transmission shaft rotation.
At this moment, as shown in figure 20, when the axis of the transmission shaft 33 of inner piece 34 sides tilts with tilt angle theta with respect to the not shown axis of exterior part 32 sides, each roller part 48 that is installed on gudgeon 44 moves along the guiding groove 36 of exterior part 32, and moves displacement amount (amount of movement δ) corresponding to tilt angle theta along the axial direction (arrow E direction) of gudgeon 44.
Therefore, according to as Fig. 9 and schematic representation shown in Figure 10, illustrate inner piece 34 with respect to the tilt angle theta of exterior part 32, with the relation of roller part 48 with respect to the amount of movement δ of gudgeon 44.
Fig. 9 is that an axis with gudgeon 44 is the center, makes the side schematic view of the state that inner piece 34 tilts with tilt angle theta, and Figure 10 is the front schematic view of this state.
If the center that makes roller part 48 is R with respect to the turning radius of the central shaft of exterior part 32, then from comprising plane as the central shaft of the axis of the gudgeon 44 of the rotating center of tilt angle theta and exterior part 32, the center of each roller part 48 that has moved to guiding groove 36 along exterior part 32 become a=Rcos30 ° apart from a.From the distance c at the center of the roller part 48 that moved to the guiding groove 36 along exterior part 32 as the axis of the gudgeon 44 of rotating center, service range a is expressed as c=a/cos θ.At this moment, the roller part 48 that has moved along guiding groove 36 is to the amount of movement b of the outer side shifting b=c-a of gudgeon 44.Therefore, be installed in as the roller part 48 on the gudgeon 44 of the rotating center of tilt angle theta, to the amount of movement δ of medial movement δ=btan30 °=R/2 of gudgeon 44 (1/cos θ-1).
According to this result, in Figure 12, the maximum inclination angle that makes inner piece 34 is θ max, by with the gap H between the base end part 47 of the end of needle bearing 46 and gudgeon 44, be designed to satisfy the gap H of minimum of the relation of H>δ=R/2 (1/cos θ max-1), can guarantee desirable tilt angle theta, and can make the length optimization of gudgeon 44, inner piece 34 is set at required minimal size, so that constant velocity universal joint 130 miniaturizations.
In addition, by fixing the position of two roller parts 48, a remaining roller part 48 is slided along the guiding groove 36 of exterior part 32, roller part 48 can remain a roller part 48 as this and obtain towards the described amount of movement in the outside along the axial direction of gudgeon 44 along the axial direction of gudgeon 44 amount of movement of side shifting outwardly.This amount of movement ε is ε=3R/2 (1/cos θ-1).Therefore, for roller part 48 is stably remained in gudgeon 44, preferably will be designed to satisfy the relation of M>ε=3R/2 (1/cos θ max-1) apart from M (with reference to Figure 12) to the projected direction end of gudgeon 44 from the end of needle bearing 46.
In addition, as shown in table 1, the ratio r1/D of the radius of curvature r1 (with reference to Figure 12) of adjustment curved surface of 47 and the diameter D of columnar portion 45 from columnar portion 45 to base end part, can guarantee the good intensity of gudgeon 44 by the inner piece 34 and the relation of the layout of roller part 48, this respect is identical with the constant velocity universal joint 30 of described first mode of execution.
The constant velocity universal joint 170 of in Figure 13, representing the 6th mode of execution below.This constant speed universal joint 170 is formed with end difference 74 on the base end part 72 of gudgeon 44, and limits needle bearing 46 moving to base end part 72 sides by this end difference 74.Necessary gap H between needle bearing 46 and the base end part 72 is set at the end of needle bearing 46 and the distance between the end difference 74 at this moment.
In addition, when the radius of curvature of the curved surface 74 that makes gudgeon 44 from columnar portion 45 to end difference be r2, when making the radius of curvature of end peripheral portion of end difference 74 sides of needle bearing 46 be r3 (with reference to Figure 14), by being set at the relation of r2<r3, can set the end of needle bearing 46 and the gap H between the end difference 74 accurately, and can be with end difference 74 as the bearing surface of needle bearing 46 to prevent the over-tilting of inner piece 34.
Below, the constant velocity universal joint 180 of expression the 7th mode of execution in Figure 15.This constant speed universal joint 180 constitutes and form the first lip part 84a and the second lip part 84b on interior all two end part of roller part 82, keeps needle bearing 46 between these the first lip part 84a and the second lip part 84b.
In the constant velocity universal joint 180 that so constitutes, because base end part 47 butts of roller part 82 and gudgeon 44, so gap H is set at the distance between the base end part 47 of the second lip part 84b of roller part 82 and gudgeon 44.
Below, the tripod-type constant velocity joint 210 of expression the 8th mode of execution of the present invention in Figure 16.
On the peripheral part of the gudgeon 44 of the constant velocity universal joint 210 that constitutes described the 8th mode of execution, by a plurality of needle bearings 46 outer roller parts 230 that are embedded with ring-type that play a role as rolling element.In addition, described needle bearing 46 can be replaced by the rolling bearing that for example comprises roller etc.
As shown in figure 17, on the interior week of described roller part 230, be formed with the inside diameter 240 that has constant diameter and play a role as the rolling surface of needle bearing 46, on the position near the front end 41 of gudgeon 44 on described inside diameter 240 tops, be wholely set towards the lip part 242 of the ring-type of the outstanding predetermined length of radially inner side.
Inside diameter 240, as the bottom of described lip part 242 opposition sides, with the approaching position of the base end part 47 of gudgeon 44 on by annular slot 244 circlip (holding member) 246 is installed.Therefore, the needle bearings 46 that are installed in the inside diameter 240 of roller part 230 are kept from above-below direction by described lip part 242 and circlip 246.
In addition, also can use the not shown packing ring in the annular recessed portion that is pressed into roller part 230 to replace described circlip 246.At this moment,, be not limited to described circlip 246 or described packing ring, for example comprise not shown cranse, pressing parts, spring lock washer, spring washer, packing ring, stop ring, retaining ring, lock washer, clamping stop ring, ring etc. as described holding member.
For example, in tripod-type constant velocity joint 210, because between gudgeon 44 and roller part 230, produce the action of slide relative along the axial direction of this gudgeon 44, therefore need on the two end part of the inside diameter 240 of this roller part 230, be provided for limiting for example circlip 246 grade holding member circlips of needle bearing 46 along the displacement of the axial direction of gudgeon 44.
In addition, the action of described slide relative is meant, the action that gudgeon 44 slides with respect to roller part 230 along its axial direction, or roller part 230 is along the action of its axial direction with respect to gudgeon 44 slips.
On the inside diameter 240 of described roller part 230, along circumferentially being set side by side with a plurality of needle bearings 46, the lip part 242 at the two end part of described needle bearing 46 by being arranged at inside diameter 240 is not retained and can separates, come off from this inside diameter 240 with circlip 246 almost parallel.In addition, a plurality of needle bearings 46 along inside diameter 240 filling of roller part 230 have essentially identical diameter respectively and form essentially identical shape.Gudgeon 44 has the constant columnar portion of external diameter 45.
As shown in figure 17, the center line C that radially draws along roller part 230, circular-arc facial 56 bisections up and down that will contact with the guiding groove 36 of exterior part 32, at this moment, first 234 length (thickness) from described center line C to top is L, second 238 length (thickness) from described center line C to the bottom is (L+ Δ A), is of a size of (2L+ Δ A) along the integral thickness of the axial direction of described roller part 230.
That is, being provided with of needle bearing 46 prevent from the to come off side of circlip 246 of usefulness is compared with a side that is provided with lip part 242, sets the size of axial direction for and wants the thick Δ A of going out, to support described circlip 246.Therefore, be benchmark with center line C radially along roller part 230, lip part 242 sides and circlip 246 sides form differently along the thickness of axial direction.
In addition, center line C radially along described roller part 230, to halve (B1=B2) along the total length of the axial direction of needle bearing 46, be set at consistent with the center line C of roller part 230 center of the binary needle bearing 46 of axial direction length.
In the 8th mode of execution, with the center line C radially along roller part 230 is benchmark, the thicker side that circlip 246 is installed is provided in a side near the base end part 47 of gudgeon 44, and described roller part 230 is assembled into can slide along the guiding groove 36 of exterior part 32.
Therefore, in the 8th mode of execution, even under the situation that circlip 246 is come off from annular slot 244, because not being mounted in front end 41 sides of gudgeon 44, described circlip 246 is not installed on base end part 47 sides, therefore, fill in a plurality of needle bearings 46 in the inside diameter 240 of roller part 230, the centrifugal force that produces when being rotated motion by constant velocity universal joint 210, and remain in the lip part 242 of roller part 230, thereby prevent that its inside diameter 240 from this roller part 230 from flying out, can prevent that the rotation driving force transmission agency of described constant velocity universal joint 210 from suffering damage.
In addition, as shown in figure 18, in first comparative example, roller part 230 is assembled into: circlip 246 is positioned at front end 41 sides of gudgeon 44, lip part 242 is positioned at base end part 47 sides of gudgeon 44, this compares the configuration of having put upside down lip part 242 and circlip 246 with respect to gudgeon 44 with above-mentioned, in this first comparative example, roller part 230 contacts with the top plate portion 38 of guiding groove 36, and the operating angle that forms by a not shown transmission shaft (axis) and another root transmission shaft (axis) 33 intersecting angles diminishes.
Relative therewith, in the 8th mode of execution, with the center line C radially along roller part 230 is benchmark, make lip part 242 sides form thinlyyer, can between the top plate portion 38 of first 234 of the top of roller part 230 and guiding groove 36, obtain enough distances of leaving, so compare and to set operating angle bigger with described first comparative example.
And then, as shown in figure 19, in second comparative example, with the center line C radially along roller part 330 is benchmark, make from described center line C to as first 334 of the upper surface of roller part 330 and mutually the same to length N as second 338 axial direction of lower surface, and the length that makes an end of axial direction and the other end (P1 ≠ P2) that differs from one another from described center line C to needle bearing 260, in this second comparative example, with the center line C of circular-arc facial 56 binary roller parts 330 with the binary center of axial direction length of needle bearing 260 is inconsistent, for example, load torque from exterior part 32 by roller part 330 and needle bearing 260 when gudgeon 44 transmits, if the axial direction length of described needle bearing 260 is with respect to the non-distribution equably of center line C of roller part 330, then might between gudgeon 44 and needle bearing 260, produce unbalanced load, thereby bring harmful effect for the serviceability of described gudgeon 44.
In addition, in second comparative example, for example shortening the axial direction length of needle bearing 260, making under the situation that the binary center of axial direction length of this needle bearing 260 is consistent with the center line C of roller part 330, because needle bearing 260 reduces with the contact length of the outer circumferential face of gudgeon 44, interface pressure increases.This result is that the excessive load of base end part 47 effects to gudgeon 44 might make the serviceability of described gudgeon 44 reduce.
Relative therewith, in the 8th mode of execution, with the center line C radially along roller part 230 is benchmark, roller part 230 is formed in the lip part 242 sides up and down asymmetric shape different with the thickness of circlip 246 sides, but owing to be set at the center line C of described roller part 230 and the axial direction length center of (B1=B2) of halving consistent with needle bearing 46, have the length that enough outer circumferential faces with gudgeon 44 contact so can guarantee needle bearing 46 at axial direction, thereby the serviceability that can prevent gudgeon 44 reduces.
Claims (16)
1. constant velocity universal joint, this constant speed universal joint comprises: the exterior part of tubular, it is provided with on inner peripheral surface and separates a plurality of guiding grooves that predetermined interval ground extends along axial direction, and is connected with a transmission shaft; And inner piece, it is inserted in the inner space portion of opening of described exterior part, and is connected with another root transmission shaft,
It is characterized in that,
Described inner piece (34) comprising:
Towards the outstanding many gudgeons (44) of described guiding groove (36);
Contact and the outer roller part (48) that is embedded in the ring-type of described gudgeon (44) with described guiding groove (36); With
Be installed in a plurality of rolling elements (46) between described gudgeon (44) and the described roller part (48) rotationally,
Be formed with lip part (60) on the interior perimembranous of described roller part (48), this lip part (60) is formed on the projected direction tip side of described gudgeon (44), and outstanding towards radially inner side, and in described perimembranous around,
Base end part (47) side in described gudgeon (44) is equipped with ring-shaped member (50),
Described rolling element (46) remains between described lip part (60) and the described ring-shaped member (50).
2. constant velocity universal joint according to claim 1 is characterized in that,
Described ring-shaped member (54) has chamfered section (52), and this chamfered section (52) is by forming carrying out chamfer machining with the position of base end part (47) butt of described gudgeon (44).
3. constant velocity universal joint according to claim 1 is characterized in that,
Be set with gap (X) between described ring-shaped member (50) and described rolling element (46), this gap (X) is used to guarantee the predetermined amount of movement (δ) of described roller part (48) along the axial direction of described gudgeon (44).
4. constant velocity universal joint according to claim 1 is characterized in that,
Described ring-shaped member (64) and the approaching configuration of the end face of the described roller part (48) that leaves from described lip part (60), be set with gap (Z) between described ring-shaped member (64) and described end face, this gap (Z) is used to guarantee the predetermined amount of movement (δ) of described roller part (48) along the axial direction of described gudgeon (44).
5. constant velocity universal joint according to claim 1 is characterized in that,
The ratio (r1/D) of the radius of curvature (r1) from columnar portion (45) to the outer circumferential face of described base end part (47) and the diameter (D) of described columnar portion (45) that is embedded with the described gudgeon (44) of described roller part (48) outward is set in the scope more than 0.05, below 0.35.
6. constant velocity universal joint according to claim 1 is characterized in that,
With the gap K between the gap K between described rolling element (46) and the described ring-shaped member (50,54) or described roller part (48) and the described ring-shaped member (64,66), be set at following relation along the amount of movement δ of the axial direction of described gudgeon (44) with respect to described roller part (48):
K>δ=R/2·(1/cosθmax-1)
Wherein, R represents the turning radius of the center of described roller part (48) with respect to the central shaft of described exterior part (32),
θ max represents the maximum inclination angle of described another root transmission shaft (33) with respect to a described transmission shaft.
7. constant velocity universal joint, this constant speed universal joint comprises: the exterior part of tubular, it is provided with on inner peripheral surface and separates a plurality of guiding grooves that predetermined interval ground extends along axial direction, and is connected with a transmission shaft; And inner piece, it is inserted in the inner space portion of opening of described exterior part, and is connected with another root transmission shaft,
It is characterized in that described inner piece (34) comprising:
Towards the outstanding many gudgeons (44) of described guiding groove (36);
Contact and the outer roller part (48) that is embedded in the ring-type of described gudgeon (44) with described guiding groove (36); With
Be installed in a plurality of rolling elements (46) between described gudgeon (44) and the described roller part (48) rotationally,
With the base end part (47) of described gudgeon (44) and described rolling element (46) or and described roller part (48) between gap H, be set at following relation with described roller part (48) with respect to the amount of movement δ of described base end part (47):
H>δ=R/2·(1/cosθmax-1)
Wherein, R represents the turning radius of the center of described roller part (48) with respect to the central shaft of described exterior part (32),
θ max represents the maximum inclination angle of described another root transmission shaft (33) with respect to a described transmission shaft.
8. constant velocity universal joint according to claim 7 is characterized in that,
Be formed with lip part (60) on the interior perimembranous of described roller part (48), this lip part (60) is formed on the projected direction tip side of described gudgeon (44), and outstanding towards radially inner side, and in described perimembranous around,
Described rolling element (46) remains between the base end part (47) of described lip part (60) and described gudgeon (44).
9. constant velocity universal joint according to claim 8 is characterized in that,
On the base end part (72) of described gudgeon (44), be formed with end difference (74),
Described rolling element (46) remains between described lip part (60) and the described end difference (74).
10. constant velocity universal joint according to claim 9 is characterized in that,
The radius of curvature (r2) of the outer circumferential face from columnar portion (45) to described end difference (74) of described gudgeon (44) is set at less than the radius of curvature (r3) of the end of the described rolling element (46) of described end difference (74) side (r2<r3).
11. constant velocity universal joint according to claim 7 is characterized in that,
The ratio (r1/D) of the radius of curvature (r1) of the outer circumferential face from columnar portion (45) to described base end part (47) of described gudgeon (44) and the diameter (D) of described columnar portion (45) is set in the scope more than 0.05, below 0.35.
12. constant velocity universal joint according to claim 7 is characterized in that,
On the interior perimembranous of described roller part (82), be formed with: first lip part (84a), it is formed on the projected direction tip side of described gudgeon (44), and outstanding towards radially inner side, and in described perimembranous around; And second lip part (84b), it is formed on base end part (47) side of described gudgeon (44), and outstanding towards radially inner side, and in described perimembranous around,
Described rolling element (46) remains between described first lip part (84a) and described second lip part (84b).
13. constant velocity universal joint according to claim 7 is characterized in that,
Between the end of the projected direction end of described gudgeon (44) and described rolling element (46) apart from M, be set at following relation with described rolling element (46) with respect to the amount of movement ε of described projected direction end:
M>ε=3R/2·(1/cosθmax-1)。
14. a constant velocity universal joint, this constant speed universal joint is a tripod-type constant velocity joint, and it comprises: the exterior part of tubular, and it is provided with on inner peripheral surface and separates a plurality of guiding grooves that predetermined interval ground extends along axial direction, and is connected with a transmission shaft; And inner piece, it is inserted in the inner space portion of opening of described exterior part, and is connected with another root transmission shaft,
It is characterized in that described inner piece (34) comprising:
Towards the outstanding many gudgeons (44) of described guiding groove (36);
Contact and the outer roller part (230) that is embedded in the ring-type of described gudgeon (44) with described guiding groove (36);
Be installed in a plurality of rolling elements (46) between described gudgeon (44) and the described roller part (230) rotationally,
Described roller part (230) on an end of the axial direction of inside diameter (240), be formed with towards the outstanding lip part (242) of radially inner side, the holding member (246) that keeps described rolling element (46) by annular slot (244) is installed on another end
Described holding member (246) is configured to the base end part along axial direction (47) side near described gudgeon (44).
15. constant velocity universal joint according to claim 14 is characterized in that,
With the center line C radially along described roller part (230) is benchmark, the thickness (L+ Δ A) of described roller part (230) on axial direction of described holding member (246) is installed, be set at greater than the thickness (L) of the described roller part (230) that is formed with described lip part (242) on axial direction, and described center line C and the binary center of axial direction length consistent (B1=B2) with described rolling element (46).
16. constant velocity universal joint according to claim 14 is characterized in that,
Described holding member comprises circlip (246) at least.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
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JP2004057137A JP2005248998A (en) | 2004-03-02 | 2004-03-02 | Constant velocity joint |
JP057137/2004 | 2004-03-02 | ||
JP192491/2004 | 2004-06-30 | ||
JP192501/2004 | 2004-06-30 |
Publications (2)
Publication Number | Publication Date |
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CN1926350A true CN1926350A (en) | 2007-03-07 |
CN100526666C CN100526666C (en) | 2009-08-12 |
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Application Number | Title | Priority Date | Filing Date |
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CNB2005800069152A Expired - Fee Related CN100526666C (en) | 2004-03-02 | 2005-03-01 | Constant velocity joint |
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JP (1) | JP2005248998A (en) |
CN (1) | CN100526666C (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107466341A (en) * | 2015-03-13 | 2017-12-12 | Ntn株式会社 | Tripod-type constant velocity Hooks coupling universal coupling |
CN109923324A (en) * | 2016-11-07 | 2019-06-21 | 舍弗勒技术股份两合公司 | Tripod roller and tripod joint |
CN111595669A (en) * | 2019-02-20 | 2020-08-28 | 本田技研工业株式会社 | Method and apparatus for inspecting annular body |
CN111946751A (en) * | 2019-05-17 | 2020-11-17 | 丰田自动车株式会社 | Tripod constant velocity joint |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP5083067B2 (en) * | 2008-06-24 | 2012-11-28 | 株式会社ジェイテクト | Sliding tripod type constant velocity joint |
JP4952667B2 (en) * | 2008-06-24 | 2012-06-13 | 株式会社ジェイテクト | Sliding tripod type constant velocity joint |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE4327036A1 (en) * | 1993-08-12 | 1995-02-16 | Gkn Automotive Ag | Synchronous swivel joint |
JPH08338439A (en) * | 1995-06-12 | 1996-12-24 | Honda Motor Co Ltd | Synchro-joint |
-
2004
- 2004-03-02 JP JP2004057137A patent/JP2005248998A/en active Pending
-
2005
- 2005-03-01 CN CNB2005800069152A patent/CN100526666C/en not_active Expired - Fee Related
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107466341A (en) * | 2015-03-13 | 2017-12-12 | Ntn株式会社 | Tripod-type constant velocity Hooks coupling universal coupling |
US10563700B2 (en) | 2015-03-13 | 2020-02-18 | Ntn Corporation | Tripod type constant velocity universal joint |
CN107466341B (en) * | 2015-03-13 | 2020-10-23 | Ntn株式会社 | Tripod type constant velocity universal joint |
CN109923324A (en) * | 2016-11-07 | 2019-06-21 | 舍弗勒技术股份两合公司 | Tripod roller and tripod joint |
CN111595669A (en) * | 2019-02-20 | 2020-08-28 | 本田技研工业株式会社 | Method and apparatus for inspecting annular body |
CN111946751A (en) * | 2019-05-17 | 2020-11-17 | 丰田自动车株式会社 | Tripod constant velocity joint |
CN111946751B (en) * | 2019-05-17 | 2022-10-14 | 丰田自动车株式会社 | Tripod constant velocity joint |
Also Published As
Publication number | Publication date |
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CN100526666C (en) | 2009-08-12 |
JP2005248998A (en) | 2005-09-15 |
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