ELECTRIC AGRICULTURAL TRACTOR WITH A COMPACT REAR AXLE
The redesigned rear axle system in electric agricultural tractors integrates a large battery efficiently by using a transverse configuration with independent motor-gearbox assemblies, addressing structural constraints and enhancing maneuverability.
Patent Information
- Authority / Receiving Office
- FR · FR
- Patent Type
- Applications
- Current Assignee / Owner
- SEEDERAL TECHNOLOGIES
- Filing Date
- 2024-11-29
- Publication Date
- 2026-06-05
AI Technical Summary
Existing electric agricultural tractors face challenges in integrating a large-capacity battery due to structural constraints that compromise compactness, weight distribution, and compatibility with mechanical components, while conventional configurations are not optimized for space utilization and maneuverability.
A redesigned rear axle system with a transverse configuration, incorporating independent power take-off and traction motor-gearbox assemblies, allows for a compact design that accommodates a large battery, with independent torque control and a differential system for wheel management.
Enables efficient space utilization for a large battery, maintains compactness, and enhances maneuverability by allowing independent control of traction and power take-off, while meeting regulatory constraints.
Abstract
Description
Title of the invention: ELECTRIC AGRICULTURAL TRACTOR COMPRISING A COMPACT REAR AXLE Technical field of the invention
[0001] The invention relates to a rear axle system for an electric agricultural tractor. More particularly, the invention relates to a rear axle system whose architecture has been redesigned to be able to integrate a large-capacity power supply battery. Technological background
[0002] In an agricultural context where fieldwork has been greatly facilitated by the development of agricultural machinery, the use of thermal agricultural tractors, widely favored by farmers, will now have to face the challenge of the ecological transition.
[0003] Some agricultural concepts have been developed around a more restricted, fully electric operation.
[0004] The energy demand of a fully electric agricultural tractor remains a limiting factor and the proposed batteries pose a real challenge for the structure of these vehicles.
[0005] Most of the proposed electrification systems include additional structures added to the conventional architecture of a tractor. These structures have the disadvantage of increasing the vehicle's weight, but they can also complicate the arrangement of the tractor's mechanical or hydraulic components.
[0006] The electrification of agricultural tractors does not allow for a significant break with the traditional structure of thermal tractors while allowing for the arrangement of a battery offering the best compromise between operating autonomy and tractor size.
[0007] An electric agricultural machine must be able to accommodate a large-capacity, large-volume battery to achieve satisfactory operating range. However, adjustments in terms of weight and equipment are necessary to compensate for the installation of this large battery, as the conventional layout of the tractor's components does not allow for optimizing the space required for a large battery. Furthermore, the agricultural tractor must comply with specific and strict regulatory constraints that prevent the chassis from being extended at will, in addition to constraints related to maneuverability and vehicle height. Therefore, the large-volume battery configuration must not compromise the compactness of the agricultural vehicle.
[0008] In addition, previous solutions in most cases retain the transmission shafts between the gearbox, the power take-off (commonly called PTO, for Power Take-Off), the front axle, the rear axle and the gearbox housings which are load-bearing and bulky elements of the central space of the tractor.
[0009] Conventionally, known agricultural tractors have a configuration in which an engine is longitudinally connected to a gearbox. These tractors include a main drive shaft connected to a differential, which is configured to transmit engine torque to the axle and ultimately to the wheels. Regarding the power take-off (PTO), the engine drives a secondary drive shaft, allowing the transmission of engine torque to the PTO from the same engine.
[0010] This configuration is bulky and not suitable for making the best use of the longitudinal space of the chassis. Furthermore, such a configuration is not optimized for the compactness of the tractor's rear axle. In particular, such a configuration is incompatible with the need for a large battery in the central part of the chassis.
[0011] There is therefore a need to provide a fully electric agricultural tractor capable of overcoming the previous problems. Objectives of the invention
[0012] The invention also aims to provide, in at least one embodiment, an electric tractor comprising a compact rear axle optimized for the integration of a large volume battery.
[0013] The invention also aims to provide, in at least one embodiment, an electric tractor with direct electric transmission.
[0014] The invention aims to provide, in at least one embodiment, an electric agricultural tractor comprising a rear axle configured to transmit independent engine torque to the power take-off and traction.
[0015] The invention also aims to provide, in at least one embodiment, an electric agricultural tractor with a structure allowing simplified mounting of a long-range electric battery. Description of the invention
[0016] To this end, the invention relates to an electric agricultural tractor comprising a chassis extending mainly in a longitudinal direction, characterized in that said electric agricultural tractor further comprises: - a rear axle comprising at least one rear axle arranged in a transverse direction substantially perpendicular to the longitudinal direction, at least two wheels mounted on the rear axle, a housing main, a central housing arranged in the upper part of the rear bridge above the rear axle, and a power take-off arranged in said central housing; - a first electric motor called the power take-off motor arranged on the main casing in the upper part of the rear axle and in a direction parallel to the longitudinal direction of the tractor and comprising an output shaft extending in said direction parallel to the longitudinal direction configured to drive said power take-off in rotation; - a second electric motor called a traction motor arranged on the main casing in a direction parallel to the transverse direction and configured to drive each rear axle in rotation; - a first gearbox, called the power take-off gearbox, arranged at least in part in the central housing comprising transmission wheels whose axes of rotation extend mainly in a direction parallel to the longitudinal direction of the tractor and connecting the first engine to said power take-off; - a second gearbox, called the traction gearbox, comprising transmission wheels whose axes of rotation extend mainly in a direction parallel to the transverse direction and connecting the second electric motor to a traction torque transmission system to each wheel.
[0017] An electric agricultural tractor according to the invention therefore allows for a compact rear axle leaving ample space for the integration of a large volume and therefore high capacity battery on the chassis in a central position.
[0018] The electric agricultural tractor also allows independent control of the rear traction and the power take-off through the use of two independent motor-gearbox assemblies, a traction assembly arranged substantially transversely and a power take-off assembly arranged substantially longitudinally.
[0019] The power take-off assembly benefits from an advantageous position in the upper part of the rear axle, thanks to partial integration into the central housing.
[0020] Advantageously and according to the invention, the tractor includes at least one electronic control unit configured to adjust the engine torque of the power take-off and the engine torque of the traction.
[0021] According to this aspect of the invention, a central electronic control unit controls the two electric motors.
[0022] Advantageously and according to the invention, the transmission system includes a differential allowing independent control of the traction torque applied to each wheel.
[0023] According to this aspect of the invention, the differential allows differential control of the two wheels of the rear axle.
[0024] Advantageously and according to the invention, the electric agricultural tractor includes a steering system comprising tie rods connected to hydraulic cylinders and steerable hubs, arranged between the power take-off gearbox and the traction transmission system.
[0025] According to this aspect of the invention, the rear axle includes its own steering system which makes it possible to increase the turning radius of the electric agricultural tractor, because the front turning radius is sometimes limited by the presence of large volume and therefore large capacity batteries.
[0026] Advantageously and according to the invention, the power take-off motor is configured to drive a hydraulic pump arranged in the upper part of the rear axle.
[0027] According to this aspect of the invention, the hydraulic pump is advantageously driven by the same motor as the power take-off, resulting in a more compact system. List of figures
[0028] Other objects, features and advantages of the invention will become apparent from the following description, given by way of non-limiting example only, and which refers to the accompanying figures in which: • [Fig-1] shows a partial top view of an electric agricultural tractor according to one embodiment of the invention, • [Fig.2] schematically and partially represents a cross-section of the electric agricultural tractor according to an embodiment of the invention.
[0029] Detailed description of an embodiment of the invention
[0030] In the figures, the scales and proportions are not strictly respected for the purposes of illustration and clarity.
[0031] Identical, similar or analogous elements are designated by the same references in all figures.
[0032] In all the detailed description that follows with reference to the figures, unless otherwise indicated, each element is described as it is arranged in an electric agricultural tractor.
[0033] Figures 1 and 2 schematically represent a 300 electric agricultural tractor, respectively from above and in side section, according to an embodiment of the invention. The representations are partial in that the rear part of the electric agricultural tractor is visible, in particular the rear axle 100.
[0034] The rear bridge 100 includes a rear axle 110 (comprising two parts 110a, 110b, connected by a differential 112), a main housing 200.
[0035] The rear axle includes a power take-off assembly comprising a power take-off motor 150 and a power take-off gearbox 152, arranged in the longitudinal direction (i.e., the left-to-right direction for Figures 1 and 2). The power take-off motor 150 can also drive a hydraulic pump 180.
[0036] The rear axle includes a traction assembly comprising a traction motor 160 and a traction speed gearbox 162, arranged in the transverse direction (i.e. the top-down direction for [Fig.1] and the direction perpendicular to the plane shown in [Fig.2], for example the direction shown by the point showing axle 110).
[0037] A steering system 190 allows the rear wheels 140a, 140b to be turned.
[0038] The system is particularly compact and allows the integration of a large 400 battery.
Claims
1.
2. Demands An electric agricultural tractor comprising a chassis extending primarily in a longitudinal direction, characterized in that said electric agricultural tractor further comprises: • a rear axle (100) comprising at least one rear axle (110) arranged in a transverse direction substantially perpendicular to the longitudinal direction, at least two wheels (140a, 140b) mounted on the rear axle (110), a main housing (200), a central housing (120) arranged in the upper part of the rear axle above the rear axle, and a power take-off (130) arranged in said central housing (120); • a first electric motor called the power take-off motor (150) arranged on the main casing (200) in the upper part of the rear axle and in a direction parallel to the longitudinal direction of the tractor and comprising an output shaft extending in said direction parallel to the longitudinal direction configured to drive said power take-off (130) in rotation; • a second electric motor called traction motor (160) arranged on the main casing (200) in a direction parallel to the transverse direction and configured to drive each rear axle in rotation; • a first gearbox, called the power take-off gearbox (152), arranged at least in part in the central housing (120) comprising transmission wheels whose axes of rotation extend mainly in a direction parallel to the longitudinal direction of the tractor and connecting the first engine to said power take-off; • a second gearbox, called the traction speed gearbox (162), comprising transmission wheels whose axes of rotation extend mainly in a direction parallel to the transverse direction and connecting the second electric motor (160) to a traction torque transmission system at each wheel. Electric agricultural tractor according to claim 1, characterized in that it comprises at least one electronic control unit configured to adjust the power take-off engine torque and the traction engine torque.
3. Electric agricultural tractor according to any one of claims 1 or 2, characterized in that the transmission system includes a differential (112) allowing independent control of the traction torque applied to each wheel.
4. Electric agricultural tractor according to any one of claims 1 to 3, characterized in that it comprises a steering system (190) including tie rods connected to hydraulic cylinders and steerable hubs, arranged between the power take-off gearbox and the traction transmission system.
5. Electric agricultural tractor according to any one of claims 1 to 4, characterized in that the power take-off motor is configured to drive a hydraulic pump arranged in the upper part of the rear axle.