CN114962578A

CN114962578A - Penetrating type driving motor assembly for rear axle of passenger car

Info

Publication number: CN114962578A
Application number: CN202210681274.6A
Authority: CN
Inventors: 陈国全; 凌国宇; 聂大金; 应凯
Original assignee: Chengdu Huachuan Electric Parts Co Ltd
Current assignee: Chengdu Huachuan Electric Parts Co Ltd
Priority date: 2022-06-16
Filing date: 2022-06-16
Publication date: 2022-08-30

Abstract

The invention discloses a through type driving motor assembly for a rear axle of a passenger car, wherein a secondary driving gear is arranged on a middle shaft; the second shell is fixed with the first bearing seat, an accommodating cavity is formed between the second shell and the first bearing seat, and the other end of the intermediate shaft is in rotatable fit with the second shell; the primary transmission mechanism is positioned in the accommodating cavity; the differential mechanism is positioned in the accommodating chamber, one end of the differential mechanism is rotatably matched with the second bearing seat, the other end of the differential mechanism is rotatably matched with the second shell, a driven gear in the differential mechanism is meshed with the second-level driving gear, the driving shaft is a hollow shaft, a first half shaft in the differential mechanism penetrates through the driving shaft, one end of a second half shaft in the differential mechanism penetrates through the second shell, and the first half shaft and the second half shaft are concentric with the driving shaft. The invention can increase the stability of transmission and improve the NVH performance of the whole vehicle.

Description

Penetrating type driving motor assembly for rear axle of passenger car

Technical Field

The invention relates to the technical field of automobile electric drive, in particular to a through type driving motor assembly for a rear axle of a passenger car.

Background

Along with the continuous promotion of new forms of energy electricity car market demand, the requirement that the terminal customer is to trolley-bus duration, travelling comfort, stability also improves constantly. Part of passenger car power is rear axle rear drive or four-wheel drive, the storage battery is arranged at the rear end of the car body, the space utilization rate of the rear end of the car body is very high, because the rear axle driving motor is arranged at the side surface of the rear axle of the whole car at the present stage, the transmission between the driving motor and the axle is the external gear transmission of the eccentric shaft, the transmission system has large volume and heavy weight, on one hand, the battery arrangement space is limited, a larger-capacity battery cannot be arranged, the endurance of the whole car is limited, the gear transmission relates to energy loss, the weight of the whole car is larger, the energy loss of the battery is further increased, and the endurance of the whole car is reduced; on the other hand, the gear transmission of the eccentric shaft is influenced by machining and assembly errors, the whole vehicle has larger running vibration and noise, the NVH performance is poorer, and the comfort and the stability of the whole vehicle are influenced.

Disclosure of Invention

The invention provides a through type driving motor assembly for a rear axle of a passenger car, which can increase the transmission stability and improve the NVH performance of the whole car.

The technical scheme for solving the problems is as follows:

passenger car rear axle is with penetrating formula driving motor assembly, including the motor, its characterized in that, the one end of the first casing of motor is fixed with first bearing frame, second bearing frame, still includes:

the primary transmission mechanism comprises a primary driving gear and a primary driven gear, the primary driving gear is fixed with one end of the driving shaft, and the primary driven gear is meshed with the primary driving gear;

one end of the middle shaft penetrates through the first-stage driven gear and then is in rotatable fit with the first bearing seat, and a second-stage driving gear is arranged on the middle shaft;

the second shell is fixed with the first bearing seat, an accommodating cavity is formed between the second shell and the first bearing seat, and the other end of the intermediate shaft is in rotatable fit with the second shell; the primary transmission mechanism is positioned in the accommodating cavity;

and the differential mechanism is positioned in the accommodating chamber, one end of the differential mechanism is rotatably matched with the second bearing seat, the other end of the differential mechanism is rotatably matched with the second shell, a driven gear in the differential mechanism is meshed with the second-level driving gear, the driving shaft is a hollow shaft, a first half shaft in the differential mechanism penetrates through the driving shaft, one end of a second half shaft in the differential mechanism penetrates through the second shell, and the first half shaft and the second half shaft are concentric with the driving shaft.

By adopting the penetrating structure, the axial leads of the first half shaft, the second half shaft and the driving shaft are positioned on the same straight line, the driving shaft of the motor adopts a hollow shaft, the rear axle of the whole vehicle penetrates through the rotating center of the motor, and the motor is coaxial with the transmission rear axle, so that the arrangement space of the motor and the rear axle can be effectively saved; the transmission adopts coaxial spline transmission, so that the space for arranging a transmission structure is greatly reduced, and because the spline transmission is coaxial transmission, the NVH performance of the transmission is higher than that of external gear transmission, the transmission is more stable, the noise is lower, and the transmission loss is lower; the external meshing transmission structure is eliminated, the weight of the driving rear axle assembly is reduced, the whole vehicle is light, and the energy consumption is reduced.

The invention has the beneficial effects that: the arrangement space of the battery of the whole vehicle is increased, the transmission loss is reduced, and the weight of a transmission system is reduced; the transmission stability is increased, the NVH performance of the whole vehicle is improved, and the endurance, comfort and stability of the whole vehicle are improved finally.

Drawings

FIG. 1 is a view of the configuration of a through type driving motor assembly for a rear axle of a passenger car according to the present invention;

FIG. 2 is a cross-sectional view taken along line B-B of FIG. 1;

FIG. 3 is a schematic view of a first housing;

FIG. 4 is a schematic view of a drive shaft;

FIG. 5 is a schematic view of the second bearing housing;

reference numbers in the drawings:

the bearing seat comprises a first shell 1, a third bearing seat 1a, a bolt hole 1b, an oil seal 1c, a first end cover 2, a fourth bearing seat 2a, a stator 3, a rotor 4, a driving shaft 5, a spline 5a, a first shoulder 5b, a second shoulder 5c, a clamping groove 5d, a first bearing seat 6, a fifth bearing 6a, a second bearing seat 7, a bearing seat body 7a, an extending section 7b, a connecting support lug 7c, a notch 7d, a first bearing 8, a second bearing 9, a primary driving gear 10, a primary driven gear 11, a middle shaft 12, a third shoulder 12a, a support ring 12b, a secondary driving gear 13, a second shell 14, an accommodating chamber 15, a driven gear 16, a first half shaft 17, a second half shaft 18, a positioning ring 19 and a retainer ring 20.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 5, the penetrating type driving motor assembly for a rear axle of a passenger car of the present invention includes a motor, a primary transmission mechanism, an intermediate shaft 12, a second housing 14, and a differential, and each part and the relationship between the parts are explained in detail below:

as shown in fig. 1 to 3, the motor includes a first housing 1, a first end cap 2, a stator 3, a rotor 4, and a driving shaft 5, wherein the first end cap 2 is fixed to one end of the first housing 1, the stator 3 is located in the first housing 1 and fixed to the first housing 1, the rotor 4 is located in an inner hole of the stator 3, the driving shaft 5 passes through the rotor 4 and is fixed to the rotor 4, one end of the driving shaft 5 is rotatably engaged with the first housing 1, and the other end of the driving shaft 5 is rotatably engaged with the first end cap 2.

As shown in fig. 1 to 3, a third bearing seat 1a is provided on the first housing 1, the third bearing seat 1a is preferably integrally formed with the first housing 1, a first bearing 8 is installed in the third bearing seat 1a, and one end of the driving shaft 5 is engaged with the first bearing 8, so that the driving shaft 5 and the first housing 1 form a relatively rotatable engagement. Be equipped with fourth bearing seat 2a on the first end cover 2, install second bearing 9 in the fourth bearing seat 2a, the other end and the second bearing 9 cooperation of drive shaft 5 to drive shaft 5 forms the cooperation that relatively can rotate with first end cover 2.

As shown in fig. 1 to 3, a first bearing seat 6 and a second bearing seat 7 are fixed at one end of a first housing 1 of the motor, the first bearing seat 6 surrounds the second bearing seat 7, the first bearing seat 6 also surrounds a third bearing seat 1a, and the first bearing seat 6 is preferably integrally formed with the first housing 1 to ensure the strength of the first bearing seat 6. The second bearing seat 7 is fixedly connected with the third bearing seat 1a, a plurality of bolt holes 1b are formed in the circumferential surface of the third bearing seat 1a, and after the second bearing seat 7 is connected with the bolt holes 1b in the circumferential surface of the third bearing seat 1a through the bolt holes 1b, the second bearing seat 7 and the third bearing seat 1a are fixed into a whole, so that the axial line of the second bearing seat 7 and the axial line of the driving shaft 5 are located on the same straight line.

As shown in fig. 1 to 3, the primary transmission mechanism includes a primary driving gear 10 and a primary driven gear 11, the primary driving gear 10 is fixed to one end of the driving shaft 5, and the primary driven gear 11 is engaged with the primary driving gear 10; in this embodiment, the torque generated by the motor during operation is directly supplied to the primary driving gear 10 through the driving shaft 5, and is transmitted to the primary driven gear 11 through the primary driving gear 10.

As shown in fig. 2 and 5, in this embodiment, the second bearing seat 7 includes a bearing seat body 7a, an extending section 7b, and a connecting support lug 7c, the bearing seat body 7a is configured to be matched with one end of the differential, the extending section 7b is disposed at one end of the bearing seat body 7a, the connecting support lug 7c is disposed on a peripheral surface of the extending section 7b, a through hole is disposed on the connecting support lug 7c, and a bolt is in threaded connection with a bolt hole on the third bearing seat 1a through the through hole, so that the second bearing seat 7 and the third bearing seat 1a are fastened into a whole.

As shown in fig. 2 and 5, the extension section 7b is cylindrical, a part of the first-stage driving gear 10 is located in the extension section 7b, and a notch 7d for the first-stage driven gear 11 to be matched with the first-stage driving gear 10 for abdicating is formed on the circumferential surface of the extension section 7b, that is, the first-stage driven gear 11 is meshed with the first-stage driving gear 10 located in the extension section 7b through the notch 7 d.

As shown in fig. 2 and 5, since the second bearing seat 7 needs to be fastened with the third bearing seat 1a on the first housing 1, the advantage of adopting the above-mentioned structure of the second bearing seat 7 is that the first driving gear 10 is surrounded by the extension section 7b, so that the second bearing seat 7 borrows the axial space occupied by the first driving gear 10 itself, thus the axial length of the second bearing seat 7 does not need to be increased on the frontal surface, and the compactness of the product structure is improved while the product volume is ensured. In addition, after the extension section 7b surrounds the first-stage driving gear 10, the extension section 7b is provided with a receding notch, so that the first-stage driving gear 10 and the first-stage driven gear 11 are smoothly meshed to transmit power.

As shown in fig. 2 and 4, the driving shaft 5 and the first-stage driving gear 10 are both provided with splines 5a, the driving shaft 5 and the first-stage driving gear 10 are circumferentially fixed through spline fitting, and the splines 5a have the advantages of good stability for power transmission, lower noise and lower transmission loss.

As shown in fig. 2 and 4, the present invention further includes a positioning ring 19 and a retaining ring 20, the driving shaft 5 is provided with a first shoulder 5b, a second shoulder 5c and a slot 5d, the first shoulder 5b is engaged with one end of the spline 5a, the second shoulder 5c is engaged with an axial end surface of one end of the primary driving gear 10, the positioning ring 19 is sleeved on the driving shaft 5, at least a portion of the positioning ring 19 is located in the primary driving gear 10, one end of the positioning ring 19 is engaged with the other end of the spline 5a, and the retaining ring 20 is engaged with the slot 5d and engaged with the other end of the positioning ring 19.

As shown in fig. 2 and 4, the first shoulder 5b axially limits one end of the spline, the second shoulder 5c is in clearance fit with one end of the first-stage driving gear 10, one end of the first-stage driving gear 10 abuts against the first bearing 8, and the first bearing 8 axially limits the first-stage driving gear 10. One end of the positioning ring 19 is matched with the other end of the spline 5a, when the other end of the spline 5a is axially limited by the positioning ring 19, at least one part of the positioning ring 19 is located in the one-level driving gear 10, and the positioning ring 19 is used for the space in the one-level driving gear 10 in the structure, so that the positioning ring 19 is prevented from occupying too much axial space on the driving shaft 5, and the compactness of the product structure is improved while the product volume is reduced.

As shown in fig. 2, after one end of the intermediate shaft 12 passes through the primary driven gear 11, the first bearing seat 6 is rotatably engaged, and the intermediate shaft 12 is provided with a secondary driving gear 13; the intermediate shaft 12 is in spline fit with the primary driven gear 11, a fifth bearing 6a is arranged on the first bearing seat 6, and one end of the intermediate shaft 12 is matched with the fifth bearing 6 a. The middle shaft 12 is provided with a third shaft shoulder 12a for axial limiting, the middle shaft 12 is further provided with a support ring 12b, the support ring 12b abuts against the fifth bearing 6a, one end of the first-stage driven gear 11 abuts against the third shaft shoulder 12a, the first-stage driven gear 11 is sleeved on the support ring 12b, and an internal spline of the first-stage driven gear 11 abuts against the support ring 12b, so that the other end of the first-stage driven gear 11 is axially limited.

As shown in fig. 2, after the second housing 14 is fixed to the first bearing seat 6, an accommodating chamber 15 is formed between the second housing 14 and the first bearing seat 6, and the other end of the intermediate shaft 12 is rotatably engaged with the second housing 14; the primary transmission mechanism is positioned in the accommodating chamber 15; the housing chamber 15 corresponds to a transmission case, and therefore, lubricating oil is injected into the housing chamber 15, and in order to prevent the lubricating oil from entering the motor, an oil seal 1c is provided in the third bearing housing 1a, and the lubricating oil in the housing chamber 15 is sealed by the oil seal 1 c.

As shown in fig. 2, the differential is located in the housing chamber 15, one end of the differential is rotatably engaged with the second bearing housing 7, the other end of the differential is rotatably engaged with the second housing 14, the driven gear 16 in the differential is engaged with the second-stage driving gear 13, the driving shaft 5 is a hollow shaft, the first half shaft 17 in the differential passes through the driving shaft 5, the first half shaft 17 thereby passes through the motor, one end of the second half shaft 18 in the differential passes through the second housing 14, and the first half shaft 17 and the second half shaft 18 are concentric with the driving shaft 5.

As shown in fig. 1 to 5, the through structure is adopted, the axial lines of the first half shaft 17 and the second half shaft 18 and the driving shaft 5 are located on the same straight line, the driving shaft 5 of the motor is a hollow shaft, the rear axle of the whole vehicle passes through the rotation center of the motor, and the motor is coaxial with the transmission rear axle, so that the arrangement space of the motor and the rear axle can be effectively saved; the transmission adopts coaxial spline 5a transmission, so that the space of transmission structure arrangement is greatly reduced, and because the spline 5a transmission is coaxial transmission, the NVH performance of the transmission is higher than that of external gear transmission, the transmission is more stable, the noise is lower, and the transmission loss is lower; the external meshing transmission structure is eliminated, the weight of the driving rear axle assembly is reduced, the whole vehicle is light, and the energy consumption is reduced.

Finally, it should be noted that: the above embodiments are only preferred embodiments of the present invention to illustrate the technical solutions of the present invention, but not to limit the technical solutions, and not to limit the scope of the present invention; while the invention has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims

1. Passenger car rear axle is with penetrating formula driving motor assembly, including the motor, its characterized in that, the one end of the first casing (1) of motor is fixed with first bearing frame (6), second bearing frame (7), still includes:

the primary transmission mechanism comprises a primary driving gear (10) and a primary driven gear (11), the primary driving gear (10) is fixed with one end of the driving shaft (5), and the primary driven gear (11) is meshed with the primary driving gear (10);

one end of the intermediate shaft (12) penetrates through the first-stage driven gear (11) and then is rotatably matched with the first bearing seat (6), and a second-stage driving gear (13) is arranged on the intermediate shaft (12);

the second shell (14), after the second shell (14) is fixed with the first bearing seat (6), an accommodating cavity (15) is formed between the second shell (14) and the first bearing seat (6), and the other end of the intermediate shaft (12) is rotatably matched with the second shell (14); the primary transmission mechanism is positioned in the accommodating chamber (15);

the differential mechanism is positioned in the accommodating chamber (15), one end of the differential mechanism is rotatably matched with the second bearing seat (7), the other end of the differential mechanism is rotatably matched with the second shell (14), a driven gear (16) in the differential mechanism is meshed with the second-stage driving gear (13), the driving shaft (5) is a hollow shaft, a first half shaft (17) in the differential mechanism penetrates through the driving shaft (5), one end of a second half shaft (18) in the differential mechanism penetrates through the second shell (14), and the first half shaft (17) and the second half shaft (18) are concentric with the driving shaft (5).

2. A penetrating drive motor assembly for a rear axle of a passenger car according to claim 1, characterised in that said first bearing block (6) surrounds a second bearing block (7), the second bearing block (7) being in line with the axis of the drive shaft (5) of the motor.

3. The penetrating type driving motor assembly for the rear axle of the passenger car according to claim 1 or 2, wherein the second bearing seat (7) comprises a bearing seat body (7 a), an extension section (7 b) and a connecting lug (7 c), the bearing seat body (7 a) is used for being matched with one end of the differential mechanism, the extension section (7 b) is arranged at one end of the bearing seat body (7 a), the connecting lug (7 c) is arranged on the peripheral surface of the extension section (7 b), the extension section (7 b) is cylindrical, one part of the primary driving gear (10) is located in the extension section (7 b), and a notch (7 d) used for enabling the primary driven gear (11) and the primary driving gear (10) to be matched and abduced is formed in the peripheral surface of the extension section (7 b).

4. The through-drive motor assembly for a rear axle of a passenger car according to claim 1, wherein the drive shaft (5) and the primary drive gear (10) are both provided with splines (5 a), and the drive shaft (5) and the primary drive gear (10) are circumferentially fixed by spline fitting.

5. The through type driving motor assembly for the rear axle of the passenger car according to claim 4, further comprising a positioning ring (19) and a retainer ring (20), wherein the driving shaft (5) is provided with a first shaft shoulder (5 b), a second shaft shoulder (5 c) and a clamping groove (5 d), the first shaft shoulder (5 b) is matched with one end of the spline (5 a), the second shaft shoulder (5 c) is matched with an axial end face of one end of the primary driving gear (10), the positioning ring (19) is sleeved on the driving shaft (5), at least one part of the positioning ring (19) is located in the primary driving gear (10), one end of the positioning ring (19) is matched with the other end of the spline (5 a), and the retainer ring (20) is clamped in the clamping groove (5 d) and matched with the other end of the positioning ring (19).