RU2634363C1 - Method to produce modification of gearbox - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: gearbox at the same time as the coaxial set of additional shafts is configured for non-coaxial installation of one additional shaft. A provision is also made for interchangeability of input shaft of the gearbox with the clutch mounted thereon for two coaxial input shafts. A provision is made for interchangeability of certain pairs of gears of even and odd gears.

EFFECT: high unification degree and reduction of production and repair costs.

17 dwg

Description

The invention relates to transport engineering, to the transmission of transport vehicles.

Known transmission units with step change of gear ratios, containing gears, shafts, their bearings, gear shifting devices used in domestic and foreign cars (Automobiles: Design, construction and calculation. Transmission. Edited by A.I. Grishkevich. - Mn .: Higher school, 1985 .-- 240 p.).

A known gearbox with two multi-plate clutches, containing two coaxial drive shafts located one inside the other, with even and odd gears mounted on them, engaged with permanent gears of the corresponding gears, which can be rigidly connected using synchronizers with driven shafts ( Ivanov A.N., Solntsev A.N., Gaevsky V.V. et al. Fundamentals of the design of a car. - M .: LLC “Publishing House“ At the Wheel ”, 2005. - 166 p.

More and more modern cars of the same make and model have different drive schemes for drive wheels, gearboxes (KP) and at the same time common engine / engines. For example, Mercedes-Benz Vito in one embodiment can be used in a cargo version with front-wheel drive. In the other, in the cargo and passenger with rear-wheel drive, and in the third to have an all-wheel drive transmission. At the same time, different gearboxes are used for front- and rear-wheel drive options, both mechanical gearboxes and automatic / automated gearboxes will be different - this increases the cost of production, operation and repair. Therefore, a promising gearbox for solving a large number of operational tasks should be universal - it can be used on vehicles with front, all-wheel drive or rear-wheel drive, with a longitudinal or transverse engine and, if possible, have an automated modification. At the same time, it is especially important to ensure the maximum possible unification between various modifications of the gearbox.

As a prototype, a method for obtaining modifications of an off-axis gearbox was selected (see patent RU 2600410, published on October 20, 2016).

The method consists in the fact that coaxially to the shafts, behind their supports in the gearbox housing, it is possible to install and rigidly connect additional shafts with them, with the driving gear of the drive of the drive wheels and / or gears and clutches for switching on additional gears located on them.

The disadvantage of this method is not used the ability to obtain additional modifications due to the misaligned installation of an additional shaft.

The aim of the invention is a method for producing modifications of the base gearbox, including automated ones, for further application of the resulting modifications in the following transmission options:

1 - with a longitudinal arrangement of the vehicle engine and coaxial input and output shafts of the gearbox,

2 - with a longitudinal arrangement of the engine and misaligned input and output shafts,

3 - with a transverse engine.

This goal is achieved by the fact that simultaneously with the coaxial installation of additional shafts, the possibility of non-coaxial installation of at least one additional shaft is provided, while: firstly, the gearbox input shaft, with the clutch mounted on it, is interchangeable on two coaxial input shafts located one inside the other, with a double clutch assembly installed on them; secondly, interchangeability of some pairs of gears of even and odd gears is provided.

The following kinematic diagrams show possible options for the basic gearboxes and some of their modifications, including automated ones.

In FIG. 1 shows the kinematic diagram of one of the possible variants of the basic, for example, two-stage gearbox.

In FIG. 2 shows a kinematic diagram of the modification of the base gearbox with the coaxial installation of additional shafts, known from the prior art - a 6-speed gearbox with a fifth direct transmission, designed for a car with a longitudinal engine. Bright lines indicate the details added to the base gearbox or additional parts in its modifications, and the pale gears indicate the rest of the gearbox parts.

In FIG. Figure 3 shows the kinematic diagram of the modification of the basic gearbox corresponding to paragraph 1 of the claims - an off-axis 6-speed gearbox designed for a car with a transverse engine and front drive wheels.

In FIG. 4 shows a kinematic diagram of an automated modification corresponding to paragraph 2 of the claims, an off-axis 6-speed gearbox.

In FIG. 5 shows a kinematic diagram of a modification of a coaxial 6-speed gearbox designed for a car with a longitudinal engine, rear drive wheels and sixth direct gear.

In FIG. 6 shows a kinematic diagram of an automated modification of a coaxial 6-speed gearbox.

In FIG. 7-17 show the kinematic diagrams of possible variants of the base gearbox and some of their modifications, including automated ones.

The composition shown in FIG. 1 of the kinematic diagram of one of the possible variants of the basic gearbox includes the input shaft 2 installed in the bearings of the housing 1 and the output shaft 3 parallel to it. The shafts schematically indicate the possibilities of 4 and 5 coaxial installation and rigid connection of additional shafts with them. Gears 6 and 7 are rigidly fixed on the input shaft 2. Gears 8 and 9 are freely mounted on the output shaft 3 and are coupled to gears 6 and 7, respectively. The gear 10 is freely mounted on the output shaft 3 and engaged with the gear 7 through the intermediate gear 11. The clutch A (12) and B (13) are installed on the output shaft 3 between the gears 8 and 9 and next to the gear 10, respectively.

The composition shown in FIG. 3 of the kinematic diagram of a non-coaxial 6-speed gearbox includes the same details as the above composition of the base gearbox. And also includes installed in the supports of the "final drive housing" 14, attached to the housing 1, additional shafts 15 and 16, coaxial and rigidly connected to the output 3 and input 2 shafts, respectively. An additional shaft 17 is also misaligned. The gears 18, 19 and 20 are rigidly fixed to the shaft 16. The gears 21 and 22 are freely mounted on the output shaft 15 and are engaged with gears 18 and 20, respectively. Gears 23 and 24 are freely mounted on the output shaft 17 and are engaged with gears 18 and 19, respectively. On the shafts 15 and 17, the drive gears of the main gear 25 and 26 are rigidly mounted, coupled with a gear 27 mounted on the differential case (not shown in FIG. 3) installed in the bearings of the “final drive housing” 14. The clutch disc 28 is mounted on the input shaft 16. The clutch C (29) is installed on the shaft 15 between the gears 21 and 22. The clutch D (30) is installed on the shaft 17 between the gears 23 and 24.

The composition shown in FIG. 4 of the kinematic scheme of automated modification includes the same details as the above composition of the non-coaxial 6-speed gearbox, but instead of the input shaft 2 and the additional shaft 16, with the clutch 28 mounted on it, two coaxial input shafts 31 are installed in the bearings of the housing 14 and 32, located one inside the other, with a double clutch assembly installed on them, while the left clutch disc 33 is mounted on the input shaft 31, and the right clutch disc 34 is mounted on the input shaft 32. Also, instead of pairs gears 6 8 and 19-24, pairs of gears 35-36 and 37-38 are interchangeable with them, respectively, but the gear 38 is mounted on the shaft 17. The mounting locations of the gears 6 and 18 are transferred to the input shaft 32. The gear 8 is mounted on the shaft 15.

The production method, based on the base gearbox shown in FIG. 1, the modifications presented in the figures No. 2-6 are as follows:

- any modification is conditionally divided into two components - “base gearbox housing” (1) and “final drive housing” (14),

- inside the "base gearbox housing" on the shafts are gears and clutches for reverse gear and lower gears,

- for the shaft bearings in the “base gearbox housing” a “final gear housing” is made, inside of which are located coaxial to the input and output shafts and additional shafts rigidly connected to them, as well as an additional shaft (17) not aligned with them mounted on them gears, couplings of additional gears, and other components and parts. “Final drive housings” for cars with a longitudinal or transverse engine mounting differ in that in the case of a transverse installation, the main gear can be placed in the housing, and to obtain a gearbox with direct transmission, the gear closest to the engine is rigidly connected to the additional shaft coaxial with the output shaft, on which receives engine torque,

- on one or two sides, additional shafts are rigidly connected to the input shaft with the assemblies, mechanisms or parts necessary for the operation of the gearbox installed on them (driven clutch disc, clutch, top gears, etc.),

- on one or two sides, additional shafts are rigidly connected to the output shaft with the mechanisms or parts necessary for the operation of the gearbox installed on them (driving gears of gear or final drives, couplings, gears, etc.),

- to obtain an automated modification of the manual gearbox with manual gear shifting: firstly, the input shaft with the clutch installed on it is replaced by two coaxial input shafts located one inside the other, with a double clutch assembly installed on them. Secondly, interchangeability of some pairs of gears of even and odd gears is provided. In this case, the housing and the output shafts located in it with the driving gears of the main gear, the clutch, the gears of the first, fourth, sixth and reverse gears remain the same. Pairs of gears of the third and fifth gears are made new. Pairs of gears of the second and fifth gears mutually change the location on the shafts, and the driven gear of the third gear is installed on another driven shaft,

- having properly assembled the “final drives” (components and parts) with the “base gearbox housing”, we obtain a modification based on the base gearbox.

The operation of the gearbox shown in FIG. 3 is carried out as follows.

1, 2 gears and reverse gear.

The method of transmitting torque from the clutch disc 28 to the shaft 16, shaft 2, using a pair of gears 7-9 (1st gear), 6-8 (2nd gear), 7-11-10 (reverse), and clutches A, in the right (1 gear) or left (2 gear) position, of the clutch B, in the left (reverse gear) position, on the driven shaft 3, shaft 15, the drive gear 25 and the gear wheel 27 of the main gear , and then, according to the well-known prior art of the main transmission.

3 and 4 gears.

The method of transmitting torque from the clutch disc 28 to the shaft 16 is realized by a specialist, using pairs of gears 20-22 (3rd gear), 18-21 (4th gear), clutch C, located in the right (3rd gear) or left (4 transmission) position, on the driven shaft 15, the pinion gear 25 and the gear wheel 27 of the main transmission, rigidly connected with it, and then according to the well-known state of the art of the main transmission.

5 and 6 gears.

The method of transmitting torque from the clutch disc 28 to the shaft 16 is realized by a specialist, using pairs of gears 19-24 (5th gear), 18-23 (6th gear), clutch D located in the right (5th gear) or left (6th gear ) position, on the driven shaft 17, the pinion gear 26 and the gear wheel 27 of the main gear drive rigidly connected with it, and then according to the well-known state of the art of the main gear operation.

The operation of the gearbox shown in FIG. 4 is carried out as follows.

1 gear and reverse.

They are carried out similarly to the above work of the KP, presented in FIG. 3, but the torque is supplied to the shaft 31 from the driven disc 33 of the left clutch (L).

2nd gear.

The torque from the driven disk 34 of the right clutch (P) is supplied to the shaft 32, with the help of pairs of gears 6-8, the coupling C, in the right position, is transmitted to the driven shaft 15, the drive gear 25 and the gear wheel 27 of the main gear transmission, and then according to the well-known prior art of the main transmission.

3rd gear.

Torque from the driven disk 33 of the left clutch (L) is supplied to the shaft 31, with the help of pairs of gears 37-38, the coupling D, in the right position, is transmitted to the driven shaft 17, the driving gear 26 and the gear wheel 27 of the main gear transmission, and then according to the well-known prior art of the main transmission.

4th and 6th gear.

They are carried out similarly to the above work of the KP, presented in FIG. 3, but torque is supplied to the shaft 32 from the driven disc 34 of the right clutch (P).

5th gear.

The torque from the driven disk 33 of the left clutch (L) is supplied to the shaft 31, with the help of pairs of gears 35-36, the coupling A, in the left position, is transmitted to the driven shaft 3, the shaft 15, the drive gear 25 and the gear wheel 27 of the main gear, and then according to the well-known level of technology of the main gear.

The technical result of using the method of obtaining a modification (design variant) of a gearbox is the possibility of creating, on the basis of one basic gearbox, a large number of its modifications, including automated ones, for vehicles with a longitudinal or transverse engine arrangement, various drive wheel drive schemes, and the number of gears. At the same time, the main components and assemblies of the base and modified gearboxes remain unchanged, which ensures a high degree of unification and a reduction in production and repair costs.

The term "basic gearbox" means existing or newly designed gearboxes to which the above method can be applied within the scope of the claims. In this case, the newly obtained KP can be in the only version of the design, but with the indicated features, essential and interconnected, forming a stable set of essential features, sufficient to obtain a technical result. On kinematic diagrams confirming the possibility of applying the method considered by this invention, only some of the possible options for KP are presented.

Claims (1)

A method of obtaining a modification of a gearbox consisting of a housing with at least input and output shafts located therein, with permanent gears mounted on them, having the possibility of hard connection with the shafts using the forward and reverse gear clutches, which consists in the fact that coaxial to the shafts behind their bearings in the gearbox housing, it is possible to install and rigidly connect additional shafts to them with the drive gear of the drive gear of the drive located on them their wheels and / or gears and clutches for switching additional gears, characterized in that, at the same time as the coaxial installation of the additional shafts, it is possible to coaxially install at least one additional shaft, while, firstly, interchangeability of the input shaft of the gearbox with it installed clutch on two coaxial input shafts located one inside the other, with a double clutch assembly installed on them; secondly, interchangeability of some pairs of gears of even and odd gears is provided.

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