DE102016012811A1 - Hybrid transmission device - Google Patents

Abstract

The invention relates to a hybrid transmission device (42a; 42b; 42c; 42d) for a motor vehicle having a first partial transmission unit (44a; 44b; 44c; 44d) with at least one of the first partial transmission unit (44a; 44b; 44c; 44d) in the power flow and at least one connection unit (52a; 52b; 52c; 52d), wherein the connection unit (52a; 52b; 52c; 52d) comprises at least one first planetary gear stage (P1a; P1b; P1c, P1d) having first, second and third transmission elements (P11a, P12a, P13a, P11b, P12b, P13b, P11c, P12c, P13c, P11d, P12d, P13d), wherein the connection unit (52a; 52b; 52c 52d) at least one second planetary gear stage (P2a, P2b, P2c, P2d) having first, second and third transmission elements (P21a, P22a, P23a; P21b, P22b, P23b; P21c, P22c, P23c; P21d, P22d, P23d ), wherein the second transmission element (P12a; P12b; P12c; P12d) of the first planetary gear stage (P1a; P1b; P1c; P1d) and the second transmission element (P22a; p22b; P22c; P12d) of the second planetary gear stage (P2a; P2b; P2c; P2d) are non-rotatably connected to each other, and wherein the first transmission element (P11a; P11b; P11c; P11d) of the first planetary gear stage (P1a; P1b; P1c; P1d) and the third transmission element P23a, P23b, P23c, P23d) of the second planetary gear stage (P2a, P2b, P2c, P2d) are non-rotatably connected to each other.

Description

The invention relates to a hybrid transmission device for a motor vehicle, comprising at least a first partial transmission unit, which has at least one first partial transmission input shaft, with at least one second partial transmission unit arranged parallel to the first partial transmission unit in the force flow, which has at least one second partial transmission input shaft, and with at least one connection unit at least one directly connected to the first part of the transmission input shaft first connection element, at least one directly connected directly to the second part of the transmission input shaft second connection element, at least a third connection element for connecting an electric motor and at least one first planetary gear with a first, a second and a third transmission element.

From the DE 10 2010 046 766 A1 a hybrid drive device with a transmission with two partial transmission units and with a connection unit is known, which is directly connected to the sub-transmission units. Furthermore, from the DE 10 2012 207 018 A1 a planetary gear multi-speed transmission, which includes a first planetary gear set and a second planetary gear set, wherein a ring gear of the first planetary gear set is coupled to a sun gear of the second planetary gear set.

The invention is in particular the object of providing a transmission device with advantageous properties in terms of compactness. It is achieved by an embodiment according to the invention according to claim 1. Further developments of the invention will become apparent from the dependent claims.

The invention is based on a hybrid transmission device for a motor vehicle, with at least one first partial transmission unit having at least one first partial transmission input shaft, with at least one second partial transmission unit arranged parallel to the first partial transmission unit in the force flow, which has at least one second partial transmission input shaft, and with at least one connection unit comprising at least one directly connected to the first part of the transmission input shaft first connection element, at least one directly connected to the second part of the transmission input shaft second connection element, at least a third connection element for connection of an electric motor and at least one first planetary gear with a first, a second and a third transmission element

It is proposed that the connection unit has at least one second planetary gear with a first, a second and a third transmission element, wherein the second transmission element of the first planetary gear and the second transmission element of the second planetary gear rotatably connected to each other, and wherein the first transmission element of the first planetary gear and the third gear element of the second planetary gear rotatably connected to each other.

In particular, the first partial transmission unit and the second partial transmission unit are each provided for providing and / or switching at least one transmission gear. Preferably, the hybrid transmission device, in particular the first partial transmission unit and the second partial transmission unit together provide at least one forward gear, advantageously two or three or four or five or six or seven or eight or nine or ten or even more forward gears. Particularly preferably, one of the partial transmission units, for example, the first or the second partial transmission unit, even gears and / or the other of the sub-transmission units, for example, the second or the first partial transmission unit, odd gears provides. Advantageously, the hybrid transmission device comprises the electric motor. Particularly advantageously, the electric motor has at least one drive rotor, which is in particular integrally connected to the third connection element. Preferably, the first partial transmission input shaft and the second partial transmission input shaft are arranged coaxially. Particularly preferably, at least the second partial transmission input shaft is designed as a hollow shaft. In particular, the first partial transmission input shaft is arranged within the second partial transmission input shaft.

The first planetary gear stage and / or the second planetary gear stage preferably each comprise a plurality of first gear elements and / or second gear elements and / or third gear elements. Advantageously, the second gear element of the first planetary gear and the second gear element of the second planetary gear are arranged on a common planet carrier.

In particular, the gear elements each comprise at least one gear and in each case its bearing and / or axis. In particular, the third gear element of the second planetary gear stage advantageously corresponds to the first gear element of the first planetary gear stage. In particular, in the case of the first planetary gear and / or the second planetary gear, the first transmission element according to its function according to a sun gear and / or the second transmission element of its function according to a planetary gear and / or the third transmission element its function according to a ring gear. The first planetary gear stage preferably has a first main axis of rotation. Particularly preferably, the second planetary gear has a second main axis of rotation. Advantageous the first main rotation axis and the second main rotation axis are identical. Particularly advantageously, the first planetary gear and the second planetary gear are arranged coaxially with each other. Preferably, the first planetary gear and / or the second planetary gear is arranged coaxially to the first part of the transmission input shaft and / or to the second part of the transmission input shaft. Particularly preferably, the first partial transmission input shaft and / or the second partial transmission input shaft and / or the first planetary gear and / or the second planetary gear are rotatably arranged and / or supported about a common axis of rotation.

By "directly connected" is meant in this context, in particular at least form-fitting fitting and / or connected while avoiding other components. By "permanently connected" is meant in particular a permanent, non-switchable connection of two components. In principle, a translation stage can be arranged between the components, such as, for example, a spur gear stage. For example, two meshing spur gears of a spur gear are permanently connected. By "rotatably connected" should be understood in particular a compound that averaged over a complete revolution transmits a power flow with an unchanged torque and / or an unchanged direction of rotation and / or an unchanged speed. In principle, the rotationally fixed connection can have a switching unit or a coupling unit. By "in one piece" is meant, in particular, at least materially bonded, for example by a welding process, an adhesion process, an injection process and / or another process that appears expedient to the person skilled in the art, and / or advantageously shaped in one piece, for example by manufacture a casting and / or by a production in a one- or multi-component injection molding process and advantageously from a single blank.

The inventive design of the hybrid transmission device advantageous properties can be achieved in terms of compactness. In particular, a hybrid transmission can be adapted to requirements in terms of space requirements. Furthermore, advantageous properties can be achieved with regard to an arrangement of components, in particular with regard to the possibility of a compact installation. Furthermore, an advantageous package of components with unrestricted functionality, in particular in the area of dedicated hybrid transmission, can be made possible. In addition, a combination of an internal combustion engine and an electric motor can be used flexibly and / or adapted to requirements during a driving operation. It can be an electric motor easily and / or reliably and / or variably connected to a zugkraftunterbrechungsfrei switchable transmission, in particular to a dual-clutch transmission.

In an advantageous embodiment of the invention it is proposed that the first planetary gear and the second planetary gear are arranged in a common plane. In particular, the first transmission element, the second transmission element and the third transmission element of the first planetary gear and the second planetary gear are arranged in the common plane. In this way, an advantageous compactness, in particular a small length can be achieved.

In a particularly advantageous embodiment of the invention it is proposed that the third connection element and the first planetary gear and in particular the second planetary gear are arranged in a common plane. Advantageously, the electric motor is arranged in the common plane. Particularly advantageously, the third connection element is connected to a gear carrier on which the first transmission element of the first planetary gear or the third transmission element of the second planetary gear is arranged. In this way, an electric motor can be connected to save space and / or structurally advantageous.

In a further embodiment of the invention, it is proposed that the first connection element is non-rotatably connected to the second transmission element of the first planetary gear, in particular to the common planet carrier of the second transmission elements.

Further advantageously, the second connection element is non-rotatably connected to the first transmission element of the second planetary gear. As a result, partial transmission units can be selectively coupled.

It is also proposed that the connection unit has at least one first switching element, which is provided, two not already permanently non-rotatably coupled gear elements of the transmission elements of the first and second Optional planetary gear rotation with each other to connect. In other words, the first switching element is provided to block the first and second planetary gear in total. By blocking a particularly low-loss formation of gears can be displayed in the partial transmissions.

In this case, an advantageous development provides that the first switching element is arranged such that by means of the first switching element, the first transmission element of the second planetary gear and the third transmission element of the second planetary selectively rotatably connect with each other. In this way, a structurally favorable arrangement of the first switching element.

In a further preferred embodiment of the invention, it is proposed that the first partial transmission unit and / or the second partial transmission unit have at least one switching element for shifting different transmission gears, which is designed as a claw switching element. In particular, all the switching elements of the sub-transmission units are designed as claw switching elements. In an operation with the electric motor and an internal combustion engine coupled to the connection unit, synchronization in the partial transmissions is advantageously carried out by means of a speed adaptation of the electric motor and the internal combustion engine. As a result, a high efficiency of torque transmission can be achieved.

In a further embodiment of the invention, it is proposed that the connection unit has at least a fourth connection element for connecting an internal combustion engine. Advantageously, the connection unit has a second switching element, which is provided to connect a transmission element of the first or the second planetary gear stage and the fourth connection element with each other. Here, an advantageous development provides that the second switching element is arranged such that the third gear element of the first planetary gear and the fourth connection element to connect with each other.

In particular, the second switching element is designed as a coupling. Preferably, a driving element of the second switching element is rotatably connected to the fourth connection element. Particularly preferably, a driven element of the second switching element is non-rotatably connected to the third gear element of the first planetary gear. An alternative particularly preferred method of attachment provides that the driven element of the second shift element is non-rotatably connected to the first transmission element of the first planetary gear, particularly preferably with a transmission element that the ring gear of the second planetary gear and at the same time sun gear of the first planetary gear is connected.

It is also conceivable for the hybrid transmission device to have at least one third planetary gear stage via which the fourth connection element can be connected to the third transmission element of the first planetary gear stage. In particular, in this case, the second switching element is provided to non-rotatably connect a planet carrier of the third planetary gear with a housing of the hybrid transmission device, so that advantageously a power flow from the fourth connection element to a first transmission element of the third planetary gear, from there to a particular on the planet carrier third planetary gear arranged second gear element of the third planetary gear and from there to a particular rotationally fixed to the third gear element of the first planetary gear connected third gear element of the third planetary gear stage takes place. In particular, the second switching element is provided to switch on an internal combustion engine, if necessary. As a result, a high flexibility of a hybrid operation can be made possible.

In a preferred embodiment of the invention, it is proposed that the first partial transmission unit and the second partial transmission unit are arranged spatially between the first planetary gear stage and the fourth connection element. In particular, the first partial transmission unit and the second partial transmission unit are arranged between the plane of the electric motor / planetary gear stages and the internal combustion engine. Advantageously, the hybrid transmission device comprises at least one intermediate shaft, which is connected to the fourth connection element. Particularly advantageously, the intermediate shaft is arranged coaxially with the first partial transmission input shaft and / or the second partial transmission input shaft. Particularly in this case, the first partial transmission input shaft and the second partial transmission input shaft are advantageously designed as hollow shafts. Preferably, the intermediate shaft allows a flow of power from the fourth connecting element to the third gear element of the first planetary gear. As a result, advantageously, an internal combustion engine and a transmission can be arranged in a compact manner.

In a particularly preferred embodiment of the invention, it is proposed that the fourth connection element is arranged offset in the axial direction relative to the first planetary gear. In particular, an output shaft of the internal combustion engine is arranged offset in the axial direction to the electric motor, in particular to a rotational axis of the drive rotor of the electric motor. Advantageously, the fourth connection element is connected to the intermediate shaft via at least one input stage. Particularly advantageously, the input stage is designed to maintain the direction of rotation. In particular, the input stage may be a translation stage, in particular with a transmission ratio of less than or greater than 1. Preferably, the input stage comprises at least one input gear designed in particular as a spur gear or as a ring gear, which is non-rotatably connected to the fourth connection element. Particularly preferably, the input stage comprises at least one output gear designed in particular as a spur gear or as a ring gear, which is connected in a rotationally fixed manner to the intermediate shaft. This can be advantageous a free space, especially between differential pinions used. Furthermore, this advantageously an electric motor can be flexibly introduced into an existing arrangement.

In addition, the invention comprises a hybrid drive system with at least one hybrid transmission device according to the invention. In particular, the hybrid drive system includes the internal combustion engine and / or the electric motor.

Further advantages will become apparent from the following description of the figures. In the figures, four embodiments of the invention are shown. The figures, the description of the figures and the claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

• 1 Ein erstes Hybridantriebssystem mit einer Hybridgetriebevorrichtung,
• 2 ein zweites Hybridantriebssystem mit einer Hybridgetriebevorrichtung,
• 3 ein drittes Hybridantriebssystem mit einer Hybridgetriebevorrichtung und
• 4 ein viertes Hybridantriebssystem mit einer Hybridgetriebevorrichtung.

Showing:

• 1 A first hybrid drive system having a hybrid transmission device,
• 2 a second hybrid drive system having a hybrid transmission device,
• 3 a third hybrid drive system with a hybrid transmission device and
• 4 a fourth hybrid drive system with a hybrid transmission device.

The 1 shows a first hybrid drive system 64a of a motor vehicle, not shown, with a hybrid transmission device 42a. The hybrid transmission device 42a has a first partial transmission unit 44a with a first partial transmission input shaft 46a and a second partial transmission unit 48a arranged in the force flow parallel to the first partial transmission unit 44a with a second partial transmission input shaft 50a. In the embodiment of 1 For example, the first partial transmission input shaft 46a is formed as a solid shaft and the second partial transmission input shaft 50a is formed as a hollow shaft. Further, the first partial transmission input shaft 46a and the second partial transmission input shaft 50a are coaxially arranged. In the present case, the hybrid transmission device 42a includes a plurality of gear levels Z10a, Z20a, which provide shiftable gears. For the sake of clarity is in the 1 a four-speed transmission is shown as a simple example. Of course, the invention also includes transmissions with a different number of gears, such as five or six or seven or eight or nine or ten or even more. In addition, the concretely shown arrangement of the gear levels Z10a, Z20a should be understood purely by way of example. In principle, therefore, every reasonable conceivable configuration in terms of number of gears and arrangement of partial transmissions of a transmission is conceivable.

The hybrid transmission device 42a has a connection unit 52a. The connection unit 52a comprises a first connecting element 54a connected directly to the first partial transmission input shaft 46a and a second connecting element 56a connected directly to the second partial transmission input shaft 50a. Furthermore, the connection unit 52a comprises a third connection element 58a for connecting an electric motor. In the present case, the hybrid drive system 64a includes an electric motor 30a. The electric motor 30a is connected to the third attachment member 58a. The third connection element 58a can for example be integrated into a drive rotor of the electric motor 30a and / or be integrally and / or non-rotatably connected thereto. It is also conceivable that a hybrid transmission device comprises an electric motor.

The hybrid transmission device 42a has a first planetary gear P1a and a second planetary gear P2a. The first planetary gear P1a has a first transmission element P11a, a second transmission element P12a and a third transmission element P13a. The second planetary gear P2a has a first transmission element P21a, a second transmission element P22a and a third transmission element P23a. The second transmission element P12a of the first planetary gear P1a is rotatably connected to the second transmission element P22a of the second planetary gear P2a. Furthermore, the first transmission element P11a of the first planetary gear P1a rotatably connected to the third transmission element P23a of the second planetary gear P2a rotatably connected.

In the present case, the first transmission element P11a of the first planetary gear P1a corresponds to the third transmission element P23a of the second planetary gear P2a. The third transmission element P13a of the first planetary gear P1a is formed as a ring gear. The remaining gear elements P11a, P12a, P21a, P22a, P23a are formed as spur gears. The first transmission elements P11a, P21a are sun gears according to their function. The second transmission elements P12a, P22a are planetary gears in function. The third transmission elements P13a, P23a are functionally ring gears.

The first planetary gear P1a and the second planetary gear P2a are arranged in a common plane Z40a. In addition, the third attachment member 58a is disposed in the common plane Z40a. Furthermore, the electric motor 30a is arranged in the common plane Z40a.

The first connection element 54a is non-rotatably connected to the second transmission element P12a of the first planetary gear P1a. The second Transmission elements P12a, P22a of the first planetary gear P1a and the second planetary gear P2a are arranged on a common planet carrier P14a. The common planetary carrier P14a is rotatably connected to the first connection element 54a. Furthermore, the first transmission element P11a of the first planetary gear P1a and the third transmission element P23a of the second planetary gear P2a are arranged on a common wheel carrier P15a. The second wheel carrier P15a is non-rotatably connected to the third connection element 58a. The first transmission element P21a of the second planetary gear P2a is rotatably connected to the second connection element 56a.

The connection unit 52a has a first switching element K1a, which is intended to block both planetary gear P1a, P2a in total. In this embodiment shown, the switching element K1a is arranged such that by means of the switching element K1a the first transmission element P21a of the second planetary gear P2a and the first transmission element P11a of the first planetary gear P1a can optionally be rotatably connected to each other. In the present case, the first switching element K1a is designed as a coupling.

The first partial transmission unit 44a has a switching element 62a for shifting different transmission gears, which is designed as a claw switching element. In the present case, all the switching elements 62a, 66a, 68a of the first partial transmission unit 44a and the second partial transmission unit 48a are designed as claw switching elements.

The connection unit 52a has a fourth connection element 60a for connecting an internal combustion engine. In the present case, an internal combustion engine 18a of the hybrid drive system 64a is connected to the fourth connection element 60a. The fourth connection element 60a is connected to an output shaft 16a of the internal combustion engine 18a. In the present case, the fourth attachment element 60a is arranged coaxially with the first attachment element 54a and the second attachment element 56a. The connection unit 52a has a second switching element K2a, which is provided to connect the third transmission element P13a of the first planetary gear P1a and the fourth connection element 60a with each other. In the present case, the second switching element K2a is designed as a coupling. A driving element K21a of the second switching element K2a is non-rotatably connected to the fourth connection element 60a. A driven element K22a of the second switching element K2a is non-rotatably connected to the third transmission element P13a of the first planetary gear P1a.

If necessary, the internal combustion engine 18a can be switched on by means of the second switching element K2a.

The connection unit 52a enables an operation of the hybrid transmission device 42a in the manner of a dual-clutch transmission, in particular a substantially thrust force interruption-free change between the first partial transmission unit 44a and the second partial transmission unit 48a. Via the partial transmission units 44a, 48a output wheels Z38a, Z39a can be driven. In the present case, the output gears Z38a, Z39a are designed as differential pinions.

In the 2 to 4 three further embodiments of the invention are shown. The following description is essentially limited to the differences between the embodiments, with respect to the same components, features and functions on the description of the embodiment of 1 can be referenced. To distinguish the embodiments, the letter a in the reference numerals of the embodiment in the 1 by the letters b to d in the reference numerals of the embodiments of the 2 to 4 replaced. With respect to identically designated components, in particular with regard to components with the same reference numerals, can in principle also to the drawings and / or the description of the embodiment of 1 to get expelled.

The 2 shows a second hybrid drive system 64b of a motor vehicle, not shown, with a hybrid transmission device 42b. The hybrid transmission device 42b has a first partial transmission unit 44b with a first partial transmission input shaft 46b and a second partial transmission unit 48b arranged in the force flow parallel to the first partial transmission unit 44b with a second partial transmission input shaft 50b. In the embodiment of 2 the first partial transmission input shaft 46b and the second partial transmission input shaft 50b are formed as hollow shafts. Further, the first partial transmission input shaft 46b and the second partial transmission input shaft 50b are coaxially arranged. In the present case, the hybrid transmission device 42b includes a plurality of gear levels Z10b, Z20b, which provide shiftable gears. For the sake of clarity is in the 1 a four-speed transmission is shown as a simple example. Of course, the invention also includes transmissions with a different number of gears, such as five or six or seven or eight or nine or ten or even more. In addition, the concretely shown arrangement of the gear levels Z10b, Z20b should be understood purely by way of example. Basically, therefore, every meaningful conceivable Design in terms of number of gears and arrangement of partial transmissions of a transmission conceivable.

The hybrid transmission device 42b has a connection unit 52b. The connecting unit 52b comprises a first connecting element 54b connected directly to the first partial transmission input shaft 46b and a second connecting element 56b connected directly to the second partial transmission input shaft 50b. Furthermore, the connection unit 52b comprises a third connection element 58b for connecting an electric motor. In the present case, the hybrid drive system 64b includes an electric motor 30b. The electric motor 30b is connected to the third attachment member 58b. The third connection element 58b can for example be integrated into a drive rotor of the electric motor 30b and / or be integrally and / or non-rotatably connected thereto. It is also conceivable that a hybrid transmission device comprises an electric motor.

The hybrid transmission device 42b has a first planetary gear stage P1 b and a second planetary gear P2b. The first planetary gear P1b has a first transmission element P11b, a second transmission element P12b and a third transmission element P13b. The second planetary gear P2b has a first transmission element P21b, a second transmission element P22b and a third transmission element P23b. The second transmission element P12b of the first planetary gear P1b is rotatably connected to the second transmission element P22b of the second planetary gear P2b. Furthermore, the first transmission element P11b of the first planetary gear P1b is non-rotatably connected to the third transmission element P23b of the second planetary gear P2b rotatably connected.

The connection unit 52b has a fourth connection element 60b for connecting an internal combustion engine. In the present case, an engine 18b of the hybrid drive system 64b is connected to the fourth attachment member 60b. The fourth connection member 60b is connected to an output shaft 16b of the engine 18b. The connection unit 52b has a second switching element K2b, which is provided to connect the third transmission element P13b of the first planetary gear P1b and the fourth connection element 60b with each other. In the present case, the second switching element K2b is designed as a coupling. A driving element K21b of the second switching element K2b is non-rotatably connected to the fourth connecting element 60b. A driven element K22b of the second switching element K2b is non-rotatably connected to the third transmission element P13b of the first planetary gear P1b.

The first partial transmission unit 44b and the second partial transmission unit 48b are arranged spatially between the first planetary gear P2b and the fourth connection element 60b. The first partial transmission unit 44b and the second partial transmission unit 48b are arranged spatially between the engine 18b and the electric motor 30b.

In addition, the fourth connection element 60b is arranged offset in axial direction relative to the first planetary gear P1b. The output shaft 16b of the engine 18b is disposed off-axis to a rotation axis 70b of the electric motor 30b. In the present case, the fourth connection element 60b is connected via an input stage 28b to the second switching element K2b or to the first planetary gear P1b and the second planetary gear P2b. The fourth connection element 60b is connected to an intermediate shaft 26b via the input stage 28b. The intermediate shaft 26b is formed in the present case as a solid shaft. The intermediate shaft 26b is disposed coaxially with the first partial transmission input shaft 46b and the second partial transmission input shaft 50b.

The input stage 28b is designed to maintain the direction of rotation. The input stage 28b comprises an input wheel Z32b configured as a ring gear and an output gear Z36b connected to the input gear Z32b. Alternatively, the output gear can be designed as a ring gear. The input gear Z32b and the output gear Z36b are arranged in a common plane. The output gear Z36b is disposed inside the input gear Z32b. In the present case, the input stage 28b has a transmission ratio of about 1: 2. But there are also other ratios such as 4: 1, 2: 1, 1: 1, 1: 2, 1: 4 or smaller or larger or intermediate values conceivable. A gear ratio of an input stage will be adapted by a person skilled in the art, for example by means of a suitable input wheel and / or intermediate gear and / or output gear.

It is also conceivable, for example, for an input stage to have an input gear formed as a spur gear, an intermediate gear designed as a spur gear or a plurality of such intermediate gears, a further intermediate gear formed as a ring gear and an output gear connected thereto. It is also conceivable that an intermediate or more intermediate wheels are connected downstream of a trained as a ring gear input and / or intermediate.

The 3 shows a third hybrid drive system 64c of a motor vehicle, not shown, with a hybrid transmission device 42c. The hybrid transmission device 42c differs from the embodiment of FIG 2 in terms of one Entrance level 28c. This is analogous to the input stage 28b from the exemplary embodiment of FIG 2 however, has an input gear Z32c, an intermediate gear Z34c and an output gear Z36c. The input stage 28c is designed to maintain the direction of rotation.

The 4 shows a second hybrid drive system 64d of a motor vehicle, not shown, with a hybrid transmission device 42d. The hybrid transmission device 42d has a first partial transmission unit 44d with a first partial transmission input shaft 46d and a second partial transmission unit 48d arranged parallel to the first partial transmission unit 44d in the force flow with a second partial transmission input shaft 50d. In the embodiment of 4 the first partial transmission input shaft 46d and the second partial transmission input shaft 50d are formed as hollow shafts. Further, the first partial transmission input shaft 46d and the second partial transmission input shaft 50d are arranged coaxially. In the present case, the hybrid transmission device 42d includes a plurality of gear levels Z10d, Z20d, which provide shiftable gears. For the sake of clarity is in the 1 a four-speed transmission is shown as a simple example. Of course, the invention also includes transmissions with a different number of gears, such as five or six or seven or eight or nine or ten or even more. In addition, the concretely shown arrangement of the gear levels Z10d, Z20d should be understood purely by way of example. In principle, therefore, every reasonable conceivable configuration in terms of number of gears and arrangement of partial transmissions of a transmission is conceivable.

The hybrid transmission device 42d has a connection unit 52d. The connection unit 52d comprises a first connection element 54d connected directly to the first partial transmission input shaft 46d and a second connection element 56d connected directly to the second partial transmission input shaft 50d. Furthermore, the connection unit 52d comprises a third connection element 58d for connecting an electric motor. In the present case, the hybrid drive system 64d includes an electric motor 30d. The electric motor 30d is connected to the third attachment member 58d. The third connection element 58d may, for example, be integrated into a drive rotor of the electric motor 30d and / or be connected to it in one piece and / or in a rotationally fixed manner. It is also conceivable that a hybrid transmission device comprises an electric motor.

The hybrid transmission device 42d has a first planetary gear P1d and a second planetary gear P2d. The first planetary gear P1d has a first transmission element P11d, a second transmission element P12d and a third transmission element P13d. The second planetary gear P2d has a first transmission element P21d, a second transmission element P22d and a third transmission element P23d. The second transmission element P12d of the first planetary gear P1d is rotatably connected to the second transmission element P22d of the second planetary gear P2d. Furthermore, the first transmission element P11d of the first planetary gear P1d is rotatably connected to the third transmission element P23d of the second planetary gear P2d rotatably connected.

The connection unit 52d has a fourth connection element 60d for connecting an internal combustion engine. In the present case, an internal combustion engine 18d of the hybrid drive system 64d is connected to the fourth attachment member 60d. The fourth connection element 60d is connected to an output shaft 16d of the internal combustion engine 18d.

The first partial transmission unit 44d and the second partial transmission unit 48d are arranged spatially between the first planetary gear P1d and the fourth connection element 60d. The first partial transmission unit 44d and the second partial transmission unit 48d are arranged spatially between the engine 18d and the electric motor 30d.

In addition, the fourth connection element 60d is arranged offset in the axial direction relative to the first planetary gear P1d. The output shaft 16d of the engine 18d is disposed off-axis to a rotational axis 70d of the electric motor 30d. In the present case, the fourth connection element 60d is connected via an input stage 28d to the second switching element K2d or to the first planetary gear P1d and the second planetary gear P2d. The fourth connection element 60d is connected to an intermediate shaft 26d via the input stage 28d. The intermediate shaft 26d is formed in the present case as a solid shaft. The intermediate shaft 26d is arranged coaxially with the first partial transmission input shaft 46d and the second partial transmission input shaft 50d.

The input stage 28d is designed to reverse the direction of rotation. The input stage 28d comprises an output wheel Z36d connected as input wheel Z32d and an input wheel Z32d. The input gear Z32d and the output gear Z36d are arranged in a common plane.

The connection unit 52d has a second switching element K2d, which is provided to connect the third transmission element P13d of the first planetary gear P1d and the fourth connection element 60d. The switching element K2d has a holding element 72d, which is non-rotatably connected to a housing, not shown, of the hybrid transmission device 42d. Furthermore, the switching element K2d with the holding Element 72d selectively rotatably connectable held element 74d. In a closed state of the second switching element K2d, the held member 74d is non-rotatably connected to the holding member 72d. In an opened state of the second switching element K2d, the held member 74d is relative to the holding member 72 rotatable.

The connection unit 52d comprises a third planetary gear P3d with a first transmission element P31d, a second transmission element P32d and a third transmission element P33d. The first transmission element P31d is formed as a sun gear. The second transmission element P32d is formed as a planetary gear. The third transmission element P33d is formed as a ring gear. The first transmission element P31d is rotatably connected to the intermediate shaft 26d. The second transmission element P32d is non-rotatably connected to the held element 74d of the second switching element K2d. The second transmission element P32d is arranged on a planet carrier P34d. The planet carrier P34d is non-rotatably connected to the held element 74d of the second switching element K2d. The third transmission element P33d is non-rotatably connected to the third transmission element P13d of the first planetary gear P1d. If the second switching element K2d is closed, a drive torque of the internal combustion engine 18d is transmitted via the input stage 28d, the intermediate shaft 26d and the third planetary gear P3d to the first planetary gear P1d and the second planetary gear P2d, whereby a reversal of the direction of rotation is corrected again.

Of course, the embodiments of the 1 to 4 be combined with respect to an arrangement of the corresponding connection elements and / or the corresponding sub-transmission units. For example, an electric motor and an internal combustion engine may be disposed on opposite sides of sub-transmission units with an internal combustion engine disposed without an input stage and / or coaxially with the electric motor. It is also conceivable that the hybrid transmission device of 1 has an input stage analogous to one of the other embodiments.

LIST OF REFERENCE NUMBERS

16

output shaft

18

internal combustion engine

26

intermediate shaft

28

doorstep

30

electric motor

42

Hybrid transmission device

44

Part gear unit

46

Part transmission input shaft

48

Part gear unit

50

Part transmission input shaft

52

access unit

54

connecting element

56

connecting element

58

connecting element

60

connecting element

62

switching element

64

Hybrid drive system

66

switching element

68

switching element

70

axis of rotation

72

element

74

element

K1

switching element

K11

element

K12

element

K2

switching element

K21

element

K22

element

P1

planetary gear

P11

gear element

P12

gear element

P13

gear element

P14

planet carrier

P15

wheel carrier

P2

planetary gear

P21

gear element

P22

gear element

P23

gear element

P3

planetary gear

P31

gear element

P32

gear element

P33

gear element

P34

planet carrier

Z10

gear level

Z20

gear level

Z32

input gear

Z34

idler

Z36

output gear

Z38

output gear

Z39

output gear

Z40

level

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010046766 A1 [0002]
• DE 102012207018 A1 [0002]

Claims (12)

A hybrid transmission device (42a; 42b; 42c; 42d) for a motor vehicle, comprising at least a first partial transmission unit (44a; 44b; 44c; 44d) having at least a first partial transmission input shaft (46a; 46b; 46c; 46d) with at least one of them second partial transmission unit (48a; 48b; 48c; 48d) arranged in parallel in the power flow and having at least one second partial transmission input shaft (50a; 50b; 50c; 50d) and at least one connection unit (52a 52b, 52d, 52d, 52d, 52b, 52b, 52b, 52a, 52b, 52a, 54b) which at least one directly connected to the first part of the transmission input shaft (46a; 46b; 46c; 46d) first connection element (54a; 54b, 54c; 54d), at least one directly with the second part of the transmission input shaft (50a; 50c; 50d), at least one third connection element (58a, 58b, 58c, 58d) for connecting an electric motor (30a; 30b; 30c; 30d) and at least one first planetary gear stage (P1a P1b; P1c ; P1d) having a first, a second and a third gear element (P11a, P12a, P13a; P11b, P12b, P13b; P11c, P12c, P13c; P11d, P12d, P13d), characterized in that the connection unit (52a; 52b; 52c, 52d) at least one second planetary gear stage (P2a, P2b, P2c, P2d) having first, second and third transmission elements (P21a, P22a, P23a, P21b, P22b, P23b, P21c, P22c, P23c, P21d, P22d, P23d), wherein the second transmission element (P12a; P12b; P12c; P12d) of the first planetary gear stage (P1a; P1b; P1c; P1d) and the second transmission element (P22a; P22b; P22c; P22d) of the second planetary gear stage (P2a; P2b; P2c) are rotatably connected to each other, and wherein the first gear element (P11a; P11b; P11c; P11d) of the first planetary gear (P1a; P1b; P1c; P1d) and the third gear element (P23a; P23b; P23c; P23d) of the second Planetenradstufe (P2a, P2b, P2c, P2d) rotatably connected to each other. Hybrid transmission device (42a, 42b, 42c, 42d) Claim 1 characterized in that the first planetary gear stage (P1a; P1b; P1c; P1d) and the second planetary gear stage (P2a; P2b; P2c; P2d) are arranged in a common plane (Z40a; Z40b; Z40c; Z40d). Hybrid transmission device according to Claim 1 or 2 characterized in that said third attachment member (58a; 58b; 58c; 58d) and said first planetary gear stage (P1a; P1b; P1c; P1d) are disposed in a common plane (Z40a; Z40b; Z40c; Z40d). A hybrid transmission device (42a; 42b; 42c; 42d) according to any one of the preceding claims, characterized in that the first attachment element (54a; 54b; 54c; 54d) is rotationally fixed to the second transmission element (P12a; P12b; P12c; P12d) of the first planetary gear stage (12). P1a; P1b; P1c; P1d). Hybrid transmission device (42a; 42b; 42c; 42d) according to one of the preceding claims, characterized in that the connection unit (52a; 52b; 52c; 52d) has at least one first switching element (K1a; K1b; K1c; K1d) provided for this purpose two gear elements which are not already permanently non-rotatably coupled from the gear elements (P11a, P12a, P13b; P11c, P12c, P13c; P11c, P12c, P13c; P11d, P12d, P13d, P21a, P22a, P23a; P21b, P22b, P23b; P22c, P23c, P21d, P22d, P23d) of the first and second planetary gears (P1a, P1b, P1c, P1d, P2a, P2b, P2c, P2d) are selectively connected to each other in a rotationally fixed manner. Hybrid transmission device (42a, 42b, 42c, 42d) Claim 5 characterized in that the first switching element (K1a; K1b; K1c; K1d) is provided for coupling the first transmission element (P21a, P21b, P21c, P21d) of the second planetary gear (P2a; P2b; P2c; P2d) and the third transmission element (P2); P23a, P23b, P23c, P23d) of the second planetary gear stage (P2a, P2b, P2c, P2d) selectively rotatably connect to each other. A hybrid transmission device (42a; 42b; 42c; 42d) according to any one of the preceding claims, characterized in that the first partial transmission unit (44a; 44b; 44c; 44d) and / or the second partial transmission unit (48a; 48b; 48c; 48d) comprises at least one shifting element (62a, 62b, 62c, 62d) for switching different gears, which is designed as a claw switching element. Hybrid transmission device (42a; 42b; 42c; 42d) according to one of the preceding claims, characterized in that the connection unit (52a; 52b; 52c; 52d) at least one fourth connection element (60a; 60b; 60c; 60d) for connecting an internal combustion engine (18a ; 18b; 18c; 18d) and a second switching element (K2a; K2b; K2c; K2d) provided to a transmission element (P11a-P11d; P12a-P12d; P13a-P13d; P21a-P21d; P22a-P22d; P23a P23d) of the first or the second planetary gear stage (P1a-P1d; P2a-P2d) and the fourth connection element (60a; 60b; 60c; 60d). Hybrid transmission device (42a, 42b, 42c, 42d) Claim 8 characterized in that the second switching element (K2a; K2b; K2c; K2d) is provided for coupling the third gear element (P13a; P13b; P13c; P13d) of the first planetary gear stage (P1a; P1b; P1c; P1d) and the fourth connecting element (P1); 60a, 60b, 60c, 60d). Hybrid transmission device (42b, 42c, 42d) according to Claim 8 characterized in that the first partial transmission unit (44b; 44c; 44d) and the second partial transmission unit (48b; 48c; 48d) are arranged spatially between the first planetary gear stage (P1b; P1c; P1d) and the fourth connection element (60b; 60c; 60d) are. Hybrid transmission device (42b, 42c, 42d) according to Claim 8 , characterized in that the fourth connection element (60b; 60c; 60d) is arranged offset in the axial direction relative to the first planetary gear stage (P1b; P1c; P1d). A hybrid drive system comprising at least one hybrid transmission device (42a; 42b; 42c; 42d) according to any one of the preceding claims.

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