阅读说明：本技术 一种齿轮 (Gear wheel ) 是由 E·巴里恩托斯·布兰克 H·布达克斯 于 2019-02-15 设计创作，主要内容包括：本发明涉及一种用于变速器的齿轮(1)。该齿轮包括具有用于容纳轴的主体(3)和用于啮合另一齿轮的轮齿(4)的第一构件(2),以及具有环形部分(6)和用于啮合旋转零件的齿(7)的第二构件(5)。第一构件(2)和第二构件(5)通过用于在第一构件(2)和第二构件(5)之间传递扭矩的接合装置(8)相对于彼此旋转地锁定。环形部分(6)具有突出部(9),突出部(9)在与齿轮的旋转轴(10)平行的轴向(30)上突出,主体(3)具有容纳突出部(9)的下切口(11)。接合装置(8)的至少一个部件(12)布置于突出部(9)上并处于下切口(11)内。(The invention relates to a gear (1) for a transmission. The gear comprises a first member (2) having a body (3) for receiving a shaft and gear teeth (4) for engaging another gear, and a second member (5) having an annular portion (6) and teeth (7) for engaging a rotating part. The first member (2) and the second member (5) are rotationally locked relative to each other by means of engagement means (8) for transmitting torque between the first member (2) and the second member (5). The annular portion (6) has a projection (9), the projection (9) projecting in an axial direction (30) parallel to the axis of rotation (10) of the gear, and the body (3) has a lower cutout (11) accommodating the projection (9). At least one part (12) of the engaging means (8) is arranged on the projection (9) and in the lower cut-out (11).)

1. A gear wheel (1) for a transmission, comprising a first member (2) having a body (3) for accommodating a shaft and gear teeth (4) for engaging another gear wheel, and a second member (5) having an annular portion (6) and teeth (7) for engaging a rotating part, the first member (2) and the second member (5) being rotationally locked relative to each other by engagement means (8) for transmitting torque between the first member (2) and the second member (5), characterized in that the annular portion (6) has a protrusion (9), the protrusion (9) protruding in an axial direction (30) parallel to an axis of rotation (10) of the gear wheel, the body (3) having a lower cut-out (11) accommodating the protrusion (9), at least one part (12) of the engagement means (8) being arranged on the protrusion (9) and in the lower cut-out (11).

2. Gear wheel according to claim 1, characterized in that said engagement means (8) comprise a component (12) arranged for connecting an inner radial surface (15) of said annular portion (6) and an outer radial surface (14) of said body (3).

3. Gear wheel according to claim 2, characterised in that the engagement means parts (12) arranged for connecting the inner radial surface (15) of the annular portion (6) and the outer radial surface (14) of the body (3) are arranged on the projection (9) and within the lower cut-out (11).

4. Gear according to any one of claims 1 to 3, characterized in that said engagement means (8) comprise a component (12b) arranged for connecting an outer radial surface (18) of said annular portion (6 ") and an inner radial surface (19) of said body (3").

5. Gear according to claim 4, characterized in that said engagement means parts (12b) arranged for connecting an outer radial surface (18) of said annular portion (6 ") and an inner radial surface (19) of said body (3") are arranged on said projection (9) and within said lower cut-out (11).

6. Gear wheel according to any of the preceding claims, characterized in that the first member (2) comprises a flange (13) and that the ring-shaped portion (6) is arranged on the flange (13).

7. Gear according to claim 6, characterized in that said flange (13) and said annular portion (6) are engaged with each other by said engagement means (8).

8. Gear wheel according to any of the preceding claims, characterized in that the engagement means (8) comprise a spline joint.

9. Gear according to claims 7 and 8, characterized in that the spline joint comprises external splines (16) of the flange (13) and internal splines (17) of the ring-shaped part (6).

10. A gear wheel according to any preceding claim wherein the engagement means comprises an interference fit.

11. The gear according to claims 7 and 10, wherein the interference fit is arranged between an outer surface of the flange and an inner surface of the annular portion.

12. Gear wheel according to any of the preceding claims, characterized in that the length (22a, 22b) of the engagement means (8) in the axial direction (30) exceeds the length (21) of the second component tooth (7) in the axial direction (30).

13. Gear wheel according to any of the preceding claims, characterised in that the length of the engagement means (8) in the axial direction (30) is substantially equal to the sum of the length (21) of the second component tooth (7) and the length (23a) of the projection (9) in the axial direction (30).

14. Gear wheel according to any of the preceding claims, characterized in that at an end (50) of the second member (5) remote from the first member (2), the annular portion (6) has a further projection (51) projecting in the axial direction (30), the engagement means comprising a part (12c) arranged on the further projection (51).

15. Gear wheel according to claim 14, characterised in that the length (20') of the engagement means (8) in the axial direction (30) is substantially equal to the sum of the length (21) of the second component tooth (7), the length (23a) of the projection (9) and the length (24) of the further projection (51) in the axial direction (30).

16. Gear wheel according to any of the preceding claims, characterised in that the length (22a) of the engagement means (8) in the axial direction (30) is substantially equal to the length (20) of the ring-shaped portion (6) in the axial direction (30).

17. Gear wheel according to any of the previous claims, characterised in that the length (20) of the second component (5) in the axial direction (30) at the projection (9) exceeds the length (21) of the second component tooth (7) in the axial direction (30).

18. Gear according to any of the preceding claims, characterized in that the second member is a ring gear (5) or a clutch cone (5') for a synchronizer of a transmission.

19. A transmission comprising a gear wheel (1) according to any one of the preceding claims.

Technical Field

The present invention relates to a gear for a transmission.

Background

Vehicle transmissions typically have synchronizers for shifting gears. Synchronizers have, for example, a sleeve that engages the gear ring or clutch cone of the gear. The ring gear or clutch cone must be rotationally locked relative to the gear body to transmit torque to the synchronizer.

There are various ways of attaching the ring gear or clutch cone to the gear body, such as welding, splines, etc. Press-fitting spline joints is a low cost solution that makes the manufacturing process simpler than welding, which requires control of many parameters.

However, one disadvantage of spline joints is that sometimes such joints do not meet torque transmission requirements. The fill space in the transmission is typically very limited, which also limits the size of the ring gear or clutch cone and associated spline joint.

Disclosure of Invention

It is an object of the present invention to provide a gear for a transmission that enables transmission of incrementally larger torque to a synchronizer.

This object is achieved by a gear for a transmission, wherein the gear comprises a first member having a body for accommodating a shaft and gear teeth for engaging another gear, and a second member having an annular portion and teeth for engaging a rotating part, the first and second members being rotationally locked relative to each other by engagement means for transmitting torque between the first and second members, and the annular portion having a projection which projects in an axial direction parallel to the rotational axis of the gear, and the body having a lower cutout accommodating the projection, and at least one part of the engagement means being arranged on and in the projection.

The invention is based on the recognition that with such a gear wheel the length of the engagement means, for example a spline joint, can be increased, thus enabling an increasingly large torque to be transmitted, while at the same time meeting other dimensional requirements, since the position and the overall width of the gear wheel may not be changed.

Thus, the length of the joining device can be increased so that welding is not required, to avoid a complicated production process, while a relatively compact design can be achieved.

However, it should be emphasized that although a "spline joint" is often used as an example herein, the invention is also applicable to other engagement means, preferably mechanical engagement means such as an interference fit, or any other suitable engagement means, the strength of which can be increased by increasing the engagement length. Furthermore, the engagement means may comprise a combination of splines and press-fitting, for example.

The gear body is typically provided with a flange on which the ring gear or clutch cone is disposed. The flange may have external splines and the ring gear/clutch cone may have internal splines. According to one embodiment, the first member comprises the flange and the annular portion is arranged on the flange, and preferably the flange and the annular portion are connected to each other by engagement means such as a spline joint and/or an interference fit.

According to another embodiment, the engagement means comprise means arranged for connecting the inner radial surface of the annular portion and the outer radial surface of the body, preferably the engagement means arranged for connecting the inner radial surface of the annular portion and the outer radial surface of the body, are arranged on the protrusion and within the lower notch. Thus, the additional spline length may be an extension of the splines that are typically disposed between the flange and the ring gear/clutch cone.

According to another embodiment, the engagement means comprise means arranged for connecting the outer radial surface of the annular portion and the inner radial surface of the main body, preferably the engagement means arranged for connecting the outer radial surface of the annular portion and the inner radial surface of the main body, are arranged on the protrusion and within the lower notch. Thereby, the length of the engagement means can be increased to a more distant position.

According to another aspect of the invention, it is another object to provide a transmission comprising a gear enabling an increased torque to be transmitted to the synchronizer.

The advantages of the transmission are substantially the same as those discussed above with reference to the different embodiments of the gears. Further advantages and advantageous features of the invention are disclosed in the following description and in the dependent claims.

Drawings

Embodiments of the invention cited as examples are described in more detail below with reference to the accompanying drawings.

In the drawings:

figure 1a is a cut-away side view of a gear wheel provided with a ring gear,

fig. 1b is a side view of the gear wheel of fig. 1a, wherein the gear body and the ring gear are disengaged from each other,

figure 1c is a front view of the gear body of figure 1b,

figure 1d is a front view of the ring gear of figure 1b,

figure 2 is a side view of the clutch cone of the gear body of figure 1b,

fig. 3 is a variation of the gear wherein the ring gear has external splines, the gear body has internal splines,

FIG. 4 is another variation of a gear wherein the ring gear has another projection, an

FIG. 5 is another variation of a gear wherein the gear body has a recess.

Detailed Description

Fig. 1a and 1b show a gear wheel 1 for a transmission. In fig. 1b, the gear 1 is divided into two engageable parts for illustration purposes.

The gear 1 comprises a first member 2 having a body 3 for receiving a shaft and gear teeth 4 for engaging another gear (not shown). The gear wheel 1 further comprises a second member 5 having an annular portion 6 and teeth 7 for engaging a rotating part (not shown). The first member 2 and the second member 5 are rotationally locked relative to each other by means of engagement means 8 for transmitting torque between the first member 2 and the second member 5. The annular portion 6 has a projection 9 that projects in an axial direction 30 parallel to the axis of rotation 10 of the gear 1, and the gear body 3 has a lower cutout 11 that accommodates the projection 9. Furthermore, at least one part 12 of the engaging means 8 is arranged on the projection 9 and in the lower cut-out 11.

The lower cut-out 11 accommodating the projection 9 has an extension in an axial direction 30 parallel to the axis of rotation 10 corresponding to the length of the projection 9. Furthermore, the undercut 11 preferably extends into the gear body 3 from an end surface 40 of the gear body 3 that defines the position of the gear teeth 4. The projection 9 preferably extends from an end surface 41 of the annular portion 6, the end surface 41 defining the position of the second member tooth 7. When the first member 2 and the second member 5 are engaged to form the gear 1, the end surface 40 of the gear body 3 and the end surface 41 of the annular portion 6 properly abut or are positioned very close to each other in the axial direction 30.

The first member 2 and the second member 5 are arranged adjacent to each other with respect to an axial direction 30 parallel to the rotation axis 10. The first member 2 suitably comprises a flange 13. The flange 13 may be annular and extend around the axis of rotation 10. The ring-shaped part 6 is preferably arranged on a flange 13, the flange 13 and the ring-shaped part 6 being connected to each other by means of the engagement means 8. The flange 13 suitably has an outer radial surface 14 for receiving an inner radial surface 15 of the annular portion 6 of the second member 5.

The engagement means 8 may comprise or consist of a spline joint. The spline joint suitably comprises external splines 16 of the flange 13 and internal splines 17 of the annular portion 6. Alternatively or in combination, the engagement means 8 comprise or consist of an interference fit. In this case, an interference fit is suitably arranged between the outer surface of the flange 13 and the inner surface of the annular portion 6.

In the exemplary embodiment shown in fig. 1a and 1b, the second component is a ring gear 5 for a transmission synchronizer, which ring gear 5 has a projection 9 for additional engagement device length.

Fig. 1c shows a front view of the first member 2 and fig. 1d shows a front view of the second member 5. As shown in fig. 1d, the protrusion 9 is preferably ring-shaped and extends around the axis of rotation 10. Likewise, as shown in fig. 1c, the lower cut-out 11 arranged outside the flange 13 is preferably annular and extends around the axis of rotation 10.

In another exemplary embodiment, as shown in fig. 2, the second member may be a clutch cone 5 'for a transmission synchronizer having a protrusion 9' for engaging device extension. The clutch cone 5' shown in fig. 2 can engage with the gear body 3 shown in fig. 1b, thereby forming a gear.

The teeth 7 of the ring gear 5 and the teeth 7 'of the clutch cone 5' are intended to engage a rotating part, such as a sleeve, which is only shown in schematic form, and it is known to the skilled person how to design these teeth.

In the exemplary embodiment shown in fig. 1a-1d, the engagement means 8 comprise a part 12 arranged for connecting an inner radial surface 15 of the ring part 6 and an outer radial surface 14 of the gear body 3. The engaging means part 12 is arranged on the projection 9 in the lower cut-out 11. Furthermore, the engagement means also extend outside the undercut.

Fig. 3 shows a gear according to another exemplary embodiment, wherein the engagement means 8 "comprises a part 12b arranged for connecting an outer radial surface 18 of the ring-shaped portion 6" and an inner radial surface 19 of the gear body 3 ". The engaging means part 12b is arranged in the protrusion 9 "and in the lower cut-out 11". For this exemplary embodiment, the undercut 11 "of the gear body 3" has to be modified with respect to the gear body in fig. 1a-1 d. Such an engagement means part 12b may be used with the engagement means part 12 described above arranged to engage the inner radial surface 15 of the ring part and the outer radial surface 14 of the gear body.

Referring to fig. 1b, for the exemplary embodiment described herein, the length 20 of the second member 5 at the projection 9 in the axial direction 30 exceeds the length 21 of the second member tooth 7 in the axial direction 30.

Furthermore, the length 22a of the engagement means 8 of the annular portion 6 in the axial direction 30 (corresponding to the length 22b of the engagement means 8 of the gear body 3) preferably exceeds the length 21 of the second member teeth 7 in the axial direction 30. The length 22a of the engagement means 8 in the axial direction 30 is substantially equal to the sum of the length 21 of the second partial tooth 7 and the length 23a of the projection 9 (corresponding to the length 23b of the lower cutout 11) in the axial direction 30.

The length 22a of the engagement means 8 in the axial direction is preferably substantially equal to the length 20 of the annular portion 6 in the axial direction 30.

Fig. 4 shows a gear wheel according to another exemplary embodiment, wherein at an end 50 of the second component 5 remote from the first component 2 the annular portion 6 has a further projection 51, which projects in the axial direction 30. The engagement means 8 comprise a part 12c arranged on the further projection 51. The further projection 51 is preferably annular and extends around the axis of rotation 10. Here, the length 22 a' of the engagement means 8 in the axial direction is suitably substantially equal to the sum of the length 21 of the second component tooth 7, the length 23a of the projection and the length 24 of the further projection 51 in the axial direction 30.

The length 22a 'of the engagement means 8 in the axial direction is preferably substantially equal to the length 20' of the annular portion 6 in the axial direction 30.

Fig. 5 shows a gear wheel 1 of another exemplary embodiment, wherein the gear wheel body has a recess 60 for e.g. reducing the weight of the gear wheel. Here, the lower cutout 11 accommodating the protrusion 9 extends from the bottom surface 61 of the recess 60 into the gear body 3.

It is to be understood that the invention is not limited to the embodiments described above and shown in the drawings; on the contrary, the skilled person will recognise that many variations and modifications may be made within the scope of the appended claims.