CN101542150A - Direct torque flow constant velocity joint with male connector - Google Patents

Abstract

A direct torque flow constant velocity joint direct connector (50) is provided. The direct torque flow constant velocity joint direct connector includes an inner joint part (60), shaft (54), a plurality of balls (62) and an outer joint part (56). The outer joint part is connected to the shaft and articulately secured in a rotationally fast way to the inner joint part by the plurality of balls. The inner joint part includes an extension (84) for direct engagement with a drive unit. Also, a direct torque flow constant velocity joint connection is provided that includes a drive unit coupled to a direct torque flow constant velocity male spline connector.

Description

Direct Torque flow constant velocity joint with male connector

Technical field

Present invention relates in general to Motor Vehicle shaft coupling (joint), and relate more specifically to have the Direct Torque flow constant velocity joint of protruding connecting end.

Background technique

It is common components in the automobile that axle is connected to constant velocity joint (CVJ) on the driver element.Driver element has output shaft or the input shaft that is used to receive joint usually.Usually, driver element is axle, transfer case, speed changer, power output unit or other torque means, and they all are the common components in the automobile.Usually, one or more joint is assembled on the axle, so that form transmission shaft (propeller shaft) or drive shaft assembly.Transmission shaft component for example is connected on the output shaft of speed changer at one end, and is connected at the other end place on the input shaft of differential mechanism.Transmission shaft is solid or tubulose, and its end is suitable for axle is attached on the inner race of joint, thereby allows outer race is connected on the driver element.The inner race of joint normally is press fit into axle and goes up, is connected to axle with spline and goes up or be connected on the axle with pin, connects or is press fit on wheel hub connector, flange or the minor axis of concrete driver element thereby make the outer race of joint can be used for bolt.At the other end place of transmission shaft, when coupling shaft between two driver elements, will equally typically be connected to form on second driver element.By constant velocity joint axle is connected in this way and can thinks conventional link on the driver element.Direct Torque stream (DTF) link is newer link pattern, has the advantage and the improvement that are better than conventional link.

DTF link and conventional link difference are that the outer race of DTF link is to be connected on the axle that extends between the different joints, and inner race can be connected on the driver element.An example of DTF link is welded to the friction of the outer race of CVJ on the transmission shaft, and the inner race that reaches CVJ comprises recessed spline, and described recessed spline can be connected on the journal shaft of speed changer.Yet the defective of this set is that the inner race of CVJ has the recessed connector type that need be connected to axle, and this has the male connector that extends from driver element.In addition, if maintain CVJ oiling agent and control joint environment, some positions need Sealing between axle and inner race so.In addition, the DTF connector is indirect link.

It is favourable having the DTF constant velocity joint that has overcome above-mentioned restriction.And, have be provided for the direct-connected DTF constant velocity joint of driver element favourable.In addition, it is favourable providing the DTF constant velocity joint with the sealing of improving.

Summary of the invention

Therefore, the invention provides a kind of Direct Torque flow constant velocity joint (DTFCVJ) with protruding connecting end.Described DTF CVJ male connector has protruding outrigger shaft, and described protruding outrigger shaft extends axially from inner race, and described protruding outrigger shaft can be provided to the direct connection of driver element (for example speed changer, transfer case or axle).Described DTF CVJ male connector allows the additional flexibility aspect the mounting point of sealing system, and reduces the quantity of the required Sealing of constant velocity joint.

In one embodiment, described DTF CVJ card edge conntecter comprises inner junction part, axle, a plurality of round and socket part.Described socket partly is connected on the described axle, and hingedly is fastened on the described inner junction part by the mode of described a plurality of rounds with fast rotational (rotationally fast).Described inner junction part comprises and is used for the extension part that directly engages with driver element.

And, a kind of Direct Torque flow constant velocity joint link is provided, described Direct Torque flow constant velocity joint link comprises driver element, described driver element is connected to the protruding spline connector of Direct Torque flow constant velocity joint.

The invention provides a kind of DTF CVJ male connector.Also can understand the present invention itself best in conjunction with the accompanying drawings by the reference following detailed description.

Description of drawings

In order to more fully understand the present invention, referring now to the embodiment who in each accompanying drawing, is shown in further detail and describes as example of the present invention hereinafter.

Fig. 1 illustrates the planimetric map of the exemplary driver system that is used for typical four-wheel drive car, wherein can use the present invention.

Fig. 2 illustrates the embodiment of Direct Torque flow constant velocity joint male connector of the present invention.

Embodiment

In the explanation, one or more constructed embodiment are illustrated various Operational Limits and parts below.Parameter that these are concrete and parts are comprised as an example, and are not meant that it is restriction.

Although the present invention is illustrated the Direct Torque stream constant velocity joint that is used for vehicle, but following equipment can be applicable to various different purposes, comprising automobile driving axle, use the motor system of transmission shaft or need transmission shaft component to be used for other vehicle or the non-vehicle application of transmission of torque.

A kind of exemplary driver system 12 that is used for typical four-wheel drive car shown in Figure 1.Although what illustrate and illustrate is four-wheel drive system, but design provided here is applicable to single drive unit system or multi-drive system, comprising only vehicle, the vehicle of only front-wheel drive, the all-wheel powered vehicle of rear wheel drive, and four-wheel drive vehicle.In this example, drive system 12 comprises motor 14, and described motor 14 is connected on speed changer 16 and the power output unit 18.Preceding differential mechanism 20 has right axle 22 and left side semiaxis 24, and each in described right axle 22 and the left side semiaxis 24 all is connected on the wheel, and power is transported on the wheel.On the two ends of right axle 22 and left side semiaxis 24, be constant velocity joint 10.Transmission shaft 26 is connected to preceding differential mechanism 20 on the differential mechanism 28 of back, and wherein back differential mechanism 28 comprises back right-hand axis 30 and back left-hand axis 32, and each in described back right-hand axis 30 and the back left-hand axis 32 ends at wheel on the one end.Constant velocity joint 10 is positioned on the two ends of semiaxis 30,32, and described semiaxis 30,32 is connected on wheel and the back differential mechanism 28.Transmission shaft 26 shown in Fig. 1 is three-member type transmission shafts, comprises a plurality of universal joints 34 and a high speed constant velocity joint 10.Transmission shaft 26 comprises the axle 23,25,27 of interconnection.Constant velocity joint 10 is sent to power on the wheel by transmission shaft 26, even to turn to, rise owing to the suspension of vehicle or descend when having changed angle at wheel or transmission shaft 26 also be like this.Constant velocity joint 10 can be any known type, as sliding type tripod (plunging tripod), cross groove type joint (cross groove joint), fixed type ball joint, fixed tripod joint or standard blossom type joint (double offset joint), they all are the known terms that is used for various different constant velocity joint 10 in this technology.The angle constant-speed transmission of in two semiaxis, interconnection axle and the transmission shaft of these vehicles, running into usually when constant velocity joint 10 allows with the drive routine Motor Vehicle.Randomly, each universal joint 34 can replace with any other suitable type of joint, comprises constant velocity joint types.Can utilize the Direct Torque flow constant velocity joint with protruding connecting end of the present invention (DTF CVJ), so that provide benefit to any above-mentioned joint location that needs sliding type or fixed-type constant-velocity joint.

Axle 22,23,24,25,27,30,32 can be solid or tubulose, simultaneously the end of axle is suitable for each Placement or Direct Torque stream Placement according to routine is attached on the inner race or outer race of joint, thereby allows outer race or inner race are connected on wheel hub connector 36, flange 38 or the minor axis 40 for each suitable driver element of concrete application.At least one link that reference character 10 or 34 places are represented in Fig. 1 can be the Direct Torque stream link according to the embodiment of the invention.

For embodiments of the invention given among complete description such as Fig. 2, term Direct Torque stream (DFT) link refer to from the inner race of constant velocity joint (CVJ) to differential mechanism, speed changer or transfer case (generally providing) by client spool on link.This link can be the indirect link of DTF, because the inner race of CVJ has recessed link, described recessed link can be used for being beneficial to and is connected on the driver element that is provided.Yet as mentioned below, the DTF link can be the direct link of DTF.The direct link of DTF comprises from the axially extended axial region of the inner race of CVJ, and described axial region can be used for being beneficial to and is connected on the driver element that is provided.The indirect link of DTF is the form of spline normally, because the firm DESIGNED FEATURE of spline, this it will be appreciated by those skilled in the art that.Yet, can expect that the link of other form also is suitable, but comprise as the inner race of the indirect link of DTF and the fixed and release type link between the axle.Thereby the DTF link no matter be directly or indirect, refer to inner race and is connected with driver element, and described driver element for example is not limited to differential mechanism, speed changer or transfer case, and these are different with above-mentioned conventional link.

In addition, as used herein, the DTF connector refers to the CVJ outer race that is connected on the axle that forms DTF assembly (as the DTF transmission shaft component).For example, the driver element that has only Yu provided (for example being connected to the differential mechanism of inner race) together, the DTF connector is just in conjunction with so that form the DTF link.Should be realized that driver element can comprise any driver element that inputs or outputs, and be not necessarily limited to differential mechanism, speed changer or transfer case.

Fig. 2 shows the embodiment of Direct Torque flow constant velocity joint male connector 50 of the present invention.DTF CVJ male connector 50 is connected on the transmission shaft 54 of motor vehicle powertrain.DTF CVJ male connector 50 comprises socket part 56, inner junction part 60, transmission of torque round 62 and round retainer (cage) 64, and described socket part 56 is welded on the transmission shaft 54 by lasso (collar) 58.Insert between lasso 58 and socket part 56 and cover 66, described lid 66 seals described joint towards described transmission shaft 54, and more specifically holds the oiling agent in the described joint.Described lid 66 can comprise vent port 68, is used to be equilibrated at the pressure that produces in the described joint.In addition, the internal surface 76 that circumferentially is connected to membrane seal 70 and inner junction part 60 on the guard shield (shield) 72 is in sealing relationship, and finishes the sealing to DTF CVJ male connector 50, and guard shield 72 is connected on the outer surface 74 of socket part 56.Back-up seal 78 can be included between guard shield 72 and the socket part 56.Membrane seal 70 is connected on the internal surface 76 of inner junction part 60, makes to allow to carry out the hinged seal integrity that keeps simultaneously between inner junction part 60 and the socket part 56.The protecting jacket (boot) or the membrane seal 70 that are used to seal constant velocity joint are well known to those skilled in the art.DTF CVJ male connector 50 hinged by many to ball track 80,81, mobile rounds 62 are finished in 82,83.The orientation of each ball track set depends on the type of selected universal joint, and this is well known to those skilled in the art.Yet ball track 80,81,82,83rd of the present invention is used for non-slip (non plunging) type that CVJ uses, and needs angular variation between axle 54 that connects via joint and driver element (not shown).Inner junction part 60 also comprises the portion of extending axially 84, and the described portion 84 that extends axially is from connector 50 length L that axially stretches out.The described portion 84 that extends axially comprises spline 86, and connector 50 can atwirl mode be locked axially on the driver element (not shown) in described spline 86.Spline 86 can have any kind or form, and is well known to those skilled in the art.The described portion 84 that extends axially allows directly to be connected or protruding connection with concrete driver element under the situation that does not need Sealing, and needs Sealing usually between indirect journal shaft that connects of DTF constant velocity joint and inner junction part.

Inner junction part 60 also comprises front 88, seat 90 and groove 92.The anchor clamps (not shown) can be used in the groove 92, when inserting in the connecting port (not shown) of driver elements with the front 88 of convenient inner junction part 60 connector 50 usefulness split circlip (not shown) are locked axially on the driver element (not shown), thereby make the seat 90 of connector 50 and driver element be close to.

Though the present invention who describes adopts the DTF CVJ male connector 50 that has spline 86 on the extension part 84 of inner junction part 60 in embodiment as shown in Figure 2, but can expect that the DTF CVJ of the present invention with male connector can be applied to have the constant velocity joint of other protruding link type with being equal to.

Randomly, seat 90, front 88 or the extension part 84 of inner junction part can comprise driver element Sealing (not shown), and described driver element Sealing allows to form between driver element and the connector 50 and is tightly connected.In addition, when being connected with driver element, more than one driver element Sealing (not shown) also can be used to seal or protect the spline 86 of inner junction part 60 or extension part 84 not contaminated.

Randomly, power output (PTO) ABAP Adapter (not shown) can be included in the extension part 84.Described ABAP Adapter can comprise recessed spline (not shown), and described recessed spline extends inward in the extension part 84, and can be approaching from the front 88 of extension part.ABAP Adapter also can be passed extension part and be extended axially inner junction part 60.By the power o adapter is set, second (not shown) can atwirl mode be received and be locked axially on the DTF CVJ male connector 50.Advantageously, DTF CVJ male connector 50 allows an extension part to be connected with the axle-axle that PTO uses with optional PTO ABAP Adapter.

Another option is the threaded port (not shown), described threaded port extends inward into the extension part 84 from front 88, thereby the bolt (not shown) can be received in a fixed manner and be locked axially on the DTF CVJ male connector 50, and extension part 84 extends axially from inner junction part 60.Advantageously, DTF CVJ male connector 50 allows inner junction part 60 usefulness bolton to the driver element (not shown) with optional threaded port.Those skilled in the art will recognize that, when selecting the threaded port option, on DTF CVJ male connector 50 of the present invention, can save the split circlip (not shown).

Although material, manufacturing and the processing of DTF CVJ male connector 50 are not discussed, suitable selection is well known to those skilled in the art.

Though the foregoing description of the DTFCVJ male connector that has spline on the extension part of inner junction part is provided as example, but will be appreciated that, direct or the male connector configuration of various other types also can be used with DTF CVJ male connector of the present invention, for example is not limited to the tooth portion of key.

Thereby, the invention provides Direct Torque flow constant velocity joint (DTFCVJ) with protruding connecting end.Described DTF CVJ has protruding outrigger shaft, and described protruding outrigger shaft extends axially from inner race, and described protruding outrigger shaft can be provided to the direct connection of driver element (for example speed changer, transfer case or axle).Described DTF CVJ male connector allows the additional flexibility aspect the mounting point of constant velocity joint, and reduces the quantity of the required Sealing of constant velocity joint.

From above-mentioned situation as can be seen, brought new-type and improved DTF CVJ male connector to related domain.Although the present invention is illustrated in conjunction with one or more embodiments, should be appreciated that, the invention is not restricted to those embodiments.On the contrary, the present invention contain can be included in the spirit and scope of the appended claims all possibilities, modification and equivalent.

Claims (20)

1. Direct Torque flow constant velocity joint card edge conntecter comprises:

Inner junction part;

Axle;

A plurality of rounds; With

Socket part, described socket partly are connected on the described axle, and hingedly are fastened on the described inner junction part in atwirl mode by described a plurality of rounds,

Wherein, described inner junction part comprises and is used for the extension part that directly engages with driver element.

2. Direct Torque flow constant velocity joint card edge conntecter according to claim 1, wherein, described extension part comprises spline.

3. Direct Torque flow constant velocity joint card edge conntecter according to claim 1, wherein, described extension part includes the tooth portion of key.

4. Direct Torque flow constant velocity joint card edge conntecter according to claim 1, wherein, described extension part comprises the groove that is used for the driver element axial restraint.

5. Direct Torque flow constant velocity joint card edge conntecter according to claim 4 also comprises the split circlip on the described groove that is connected to described inner junction part.

6. Direct Torque flow constant velocity joint card edge conntecter according to claim 1, wherein, described inner junction part comprises seat, thus the Sealing of driver element can be connected on the described seat hermetically.

7. Direct Torque flow constant velocity joint card edge conntecter according to claim 1, wherein, the described extension part of described inner junction part has the front, and also comprises the recessed spline that extends inward into from described front in the described extension part, thereby described recessed spline allows the extension of axle-axle.

8. Direct Torque flow constant velocity joint card edge conntecter according to claim 1, wherein, the described extension part of described inner junction part has the front, and also comprise the threaded port that extends inward into from described front in the described extension part, thereby described threaded port is suitable for receiving the bolt that is used for fastening driver element.

9. Direct Torque flow constant velocity joint card edge conntecter according to claim 1 also comprises: lid, described lid are arranged between described axle and the described socket hermetically; Protecting jacket, described protecting jacket are arranged between described inner junction part and the described socket part hermetically; With the round retainer, described round retainer supports described a plurality of round, and wherein, oiling agent remains in the described joint.

10. Direct Torque flow constant velocity joint male connector comprises:

Inner junction part;

Axle;

A plurality of rounds;

The round retainer, described round retainer supports described a plurality of round;

Socket part, described socket partly are connected on the described axle, and hingedly are fastened on the described inner junction part in atwirl mode by described a plurality of rounds,

Lid, described lid are arranged between described axle and the described socket hermetically; With

Protecting jacket, described protecting jacket are arranged between described inner junction part and the described socket part hermetically, and wherein, described inner junction part comprises and is used for the extension part that directly engages with driver element; And

Oiling agent at the situation lower seal that does not engage with driver element in by described inner junction part, described socket part, chamber that described lid and described protecting jacket limited.

11. Direct Torque flow constant velocity joint male connector according to claim 10, wherein, described extension part comprises spline.

12. Direct Torque flow constant velocity joint male connector according to claim 10, wherein, described extension part comprises the groove that is used for the driver element axial restraint.

13. Direct Torque flow constant velocity joint male connector according to claim 12 also comprises the split circlip on the described groove that is connected to described inner junction part.

14. Direct Torque flow constant velocity joint male connector according to claim 10, wherein, described inner junction part comprises seat, thereby the Sealing of driver element sealably is connected on the described seat.

15. Direct Torque flow constant velocity joint male connector according to claim 10, wherein, the described extension part of described inner junction part has the front, and also comprises the recessed spline that extends inward into from described front in the described extension part, thereby described recessed spline allows the extension of axle-axle.

16. Direct Torque flow constant velocity joint male connector according to claim 10, wherein, the described extension part of described inner junction part has the front, and also comprise the threaded port that extends inward into from described front in the described extension part, thereby described threaded port is suitable for receiving the bolt that is used for fastening driver element.

17. the protruding spline link of Direct Torque flow constant velocity joint comprises:

Driver element with recessed spline; With

Be connected to the protruding spline connector of DTF CVJ on the described recessed spline of described driver element, the protruding spline connector of described DTF CVJ comprises:

Inner junction part;

Axle;

A plurality of rounds;

The round retainer, described round retainer supports described a plurality of round;

Socket part, described socket partly are connected on the described axle, and hingedly are fastened on the described inner junction part in atwirl mode by described a plurality of rounds,

First lid, described first lid is arranged between described axle and the described socket hermetically; With

Second film, be arranged between described inner junction part and the described socket part described second film phonograph seal, wherein, described inner junction part comprises the extension part that is directly connected on the described driver element, and oiling agent is sealed in the described connector independently from described driver element.

18. the protruding spline link of Direct Torque flow constant velocity joint according to claim 17 also comprises split circlip, described split circlip is connected on the described groove of described inner junction part, and axially keeps described driver element.

19. the protruding spline link of Direct Torque flow constant velocity joint according to claim 17, wherein, described inner junction part comprises seat and front, wherein, first Sealing of described driver element is connected on the described seat hermetically, and second Sealing of described driver element is connected on the described front hermetically, thereby seals described extension part.

20. the protruding spline link of Direct Torque flow constant velocity joint according to claim 17, also comprise bolt, wherein, the described extension part of described inner junction part has the front, and also comprise the threaded port that extends inward into from described front in the described extension part, wherein, described driver element is releasably connected on the protruding spline connector of described DTF CVJ by described bolt.

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