FR2984238A1 - HYDRID HYDRAULIC VEHICLE WITH ELECTRIC ENERGY STORER IMPLANTED IN OPTIMIZED MANNER - Google Patents

Abstract

Hybrid hydraulic vehicle (10), comprising a heat engine (30) driving a hydraulic pump connected to pressure accumulators, one (33) elongate tubular accumulators being arranged longitudinally along the axis of the vehicle in a central tunnel longitudinal (52), defined by a recess in the underbase of the vehicle, characterized in that it further comprises an electrical energy storage (20) comprising at least one UCAP type electrical energy storage cell disposed in the tunnel between the pressure accumulator and the under-basement (50) of the vehicle.

Description

The present invention relates to a hybrid vehicle using a hydraulic energy, in which are implanted electrical energy storage cells of the "supercapacitor" or "supercapacitor" type, also designated by UCAPs. , to supply the on-board electrical network and / or to replace the standard battery of the vehicle, particularly in the starting phases of the engine.

Hybrid vehicles comprise a power train comprising a heat engine which drives a hydraulic pump, in order to recharge hydraulic pressure accumulators for storing this energy. It is known from French Patent Application No. 1 153273, filed by the Applicant, to implant elongated tubular pressure accumulators under the underbase of the vehicle. FIG. 1 is a diagrammatic partial view of a hydraulic hybrid vehicle 10 comprising a hydrostatic transmission, the main components of which are in particular the hydraulic motor 18, the hydraulic block 8 and the pressure accumulators 33, 34.

The pressure accumulators 33, 34 each constitute an elongated tube of reduced circular section, which is favorable for limiting the stresses in this accumulator. The high pressure accumulator 33 is disposed under the underbase 50 of the vehicle, longitudinally in the axis XX 'of this vehicle. The low pressure accumulator 34 is fixed rigidly to the rear end of this high pressure accumulator 33, being disposed substantially transversely thereto. In addition, this hydraulic subassembly having a general shape in "T", advantageously comprises a longitudinal portion disposed under the underbase, in a longitudinal tunnel 52, and a transverse portion disposed in a transverse recess 54 available under the seats provided for rear passengers of the vehicle. This type of tunnel is often provided in certain vehicles to receive an exhaust tube and this type of transverse recess is often provided in certain vehicles to receive a fuel tank. In this implementation, the exhaust line (not shown goes outside the tunnel to make room for the high pressure accumulator.

The hydraulic machine connected to driving wheels (not shown), can operate as a motor to deliver mechanical power to these driving wheels by drawing energy stored in the pressure accumulators, or as a pump for charging these accumulators by braking the vehicle , so as to recover the kinetic energy of this vehicle.

This use of stored hydraulic energy makes it possible to optimize the operation of the heat engine 30, and to reduce its consumption as well as the emissions of gaseous pollutants. Hydraulic energy storage also makes it possible to drive in hydraulic mode with zero emissions, called "ZEV" mode, the heat engine remaining at a standstill.

When the vehicle is driven in pure hydraulic mode "ZEV" and thus the engine stopped, the power supply of the on-board electrical system must continue to be ensured in a transparent manner with respect to the driver and passengers of the vehicle (comfort). Electrical energy storage systems, such as lead-acid batteries traditionally used to supply power to the on-board electrical system, are not adapted to the operation of hydraulic hybrid vehicles whose operation in pulsed mode requires the battery on charge and discharge cycles. very short and repeated, which tends to deteriorate the batteries very quickly (premature aging).

Pulse mode means a mode of operation in which the engine, although not used for traction of the vehicle, is solicited for a very short period and repeatedly, to be able to activate the hydraulic pump to maintain sufficient pressure in pressure accumulators.

It is known from patent application No. 1161716, filed by the applicant, a hydraulic hybrid vehicle comprising an electrical energy store for supplying the electrical network when the engine is stopped. This storage unit charges and discharges very quickly by accepting high currents, without damaging battery cycling and therefore its service life. It is implanted under the underbase of the vehicle and is supported by one of the hydraulic accumulators which is also implanted under the underbase of the vehicle. This type of storage requires a dedicated control box to control the stored energy. This housing includes power electronics that are heat-sensitive, shock-sensitive, and more sensitive to the surrounding temperature. To protect the control box, the present invention proposes a hydraulic hybrid vehicle, comprising a heat engine driving a hydraulic pump (18) connected to pressure accumulators, one of the accumulators of elongated tubular shape being arranged longitudinally according to the invention. longitudinal axis of the vehicle in a longitudinal central tunnel, defined by a recess formed in the under-basement of the vehicle, said vehicle further comprising a storer of electrical energy disposed on the pressure accumulator under the underbase. The vehicle is characterized in that it comprises a control casing 20 of the load of the electrical energy store, disposed on the other side of the underbase, in the passenger compartment, in the immediate vicinity of the storeroom; the control box being connected to the storer by a bundle of electrical cables passing through the underbase. According to one characteristic, the electrical energy store is disposed at the front end of the accumulator, in the vicinity of a part of the underbase, called the apron, and the control unit is placed in the central console of the vehicle. . According to another characteristic, the control unit, disposed in the passenger compartment of the vehicle, is connected to the energy store by the bundle of electric cables passing through an orifice arranged in the underbase.

According to another characteristic, the passage opening of the electrical cable bundle corresponds to the through hole of the control cables of a gearbox; said crossing being initially provided for a vehicle equipped with a manual gearbox.

According to another characteristic, the pressure accumulator is a high pressure accumulator. According to another characteristic, the electrical energy storage device comprises a plurality of electric energy storage cells) of the UCAP type.

According to another characteristic, the control unit is arranged in place of a manual parking brake. An advantage of the implementation of the control box in the passenger compartment near the storer is that the temperature is regulated by the air conditioning system of the passenger compartment while being protected against various shocks.

Another advantage is the optimal integration of the housing in the passenger compartment of a vehicle without modifying its structure or its equipment. The invention will be better understood and other features and advantages will appear more clearly on reading the following description given by way of example and in a nonlimiting manner, with reference to the appended drawings in which: FIG. already described, is a schematic and partial bottom view of a hydraulic hybrid motor vehicle of the state of the art; FIG. 2 illustrates a view, in partial longitudinal section, of the front of a hydraulic hybrid vehicle according to the invention comprising a control box of an electric energy store; FIG. 3 illustrates the detailed layout of the control box in the passenger compartment of the vehicle according to the invention; FIG. 4 illustrates a perspective view of the storer of electrical energy; and Figure 5 illustrates a perspective view of a control box. In the figures, the reference XYZ has been made which is usually used to position a vehicle in space.

In the figures, the elements common with those of Figure 1 (state of the art) are designated, respectively, by the same reference numerals. A control box 40 illustrated in FIG. 5 has the general shape of a rectangular parallelepiped comprising a base plate or mounting plate 41, and an electrical connector 42 projecting from one of the lateral faces of the housing. This type of control box is known. It comprises electronic power components (rectifier, converter, ..) capable of adapting the currents delivered by the storers and in particular the UCAPs to the on-board electrical network while securing the same network. The housing is disposed within the passenger compartment of the vehicle (Figures 2 and 3) in an area corresponding to the center console 44 which is located between the two front seats. It is in this area that the parking brake of the manual or electric vehicle is generally located. In the example described, the housing rests on or near the floor of the vehicle by one of its side faces so that the electrical connector of the housing is oriented towards the front of the vehicle. The housing is thus completely integrated into the console without requiring modification of the external appearance of the console. The mounting plate is arranged in a vertical plane parallel to the median plane of the central console. Its fixation is made in the central console. The housing is invisible to the driver while being easily accessible for after-sales interventions. From its location and its disposition, the housing advantageously benefits from the air conditioning circuit of the cabin, part of the circuit passes close to the housing thus allowing to evacuate the calories in the passenger compartment. A bundle of electric cables 43 makes it possible to connect the control box to the storer located under the body (the underbase) of the vehicle.

It is connected at one end to an electrical connector of the housing and at a second end to an electrical connector 45 of the storer. Like the case, the beam is invisible to the driver because it is hidden by the console. An orifice 46 is arranged in the floor and the underbase of the vehicle so as to define a passage, or crossing, for the beam between the housing and the storage. This crossing may advantageously correspond to the crossing 10 usually provided for the passage of the control cables of a gearbox when the vehicle is devoid of it. The storer 20 comprises a sealed housing 21-22 enclosing four UCAPs 23-1 to 23-4 of generally cylindrical shape in the example described with reference to FIG. 4.

The storage cabinet comprises two parts 21, 22 each having a general shape of a rectangular parallelepiped. The two parts are nested one inside the other by one of their lateral faces and one part is inclined relative to the other by a determined angle.

The portion intended to be positioned on the high pressure accumulator, designated lower part 21, supports on its lateral face facing towards the rear of the vehicle, the electrical connector receiving the second end of the bundle of the electric cable. The casing is mounted in the vehicle after the capping of the crate on the underbase, and the wiring harness is then mounted by passing the beam through the bushing. The implementation of the control box in the cockpit, above, the crossing of transmission control cables, advantageously frees up space in the engine block (already very constrained) and limit the length cable bundle: the length of the bundle has an impact on the cost.

Claims (4)

CLAIMS 1 - Hybrid hydraulic vehicle (10) comprising a heat engine (30) driving a hydraulic pump (18) connected to pressure accumulators (33, 34), one (33) elongated tubular accumulators being disposed longitudinally along the longitudinal axis (XX ') of the vehicle in a longitudinal central tunnel (52), defined by a recess in the underbase (50) of the vehicle, said vehicle further comprising an electrical energy store (20); ) disposed on the pressure accumulator under the underbase, characterized in that it comprises a casing (40) for controlling the charge of the electric energy store, arranged on the other side of the underbase, in the cockpit, in the immediate vicinity of the storeroom; the control box being connected to the storer by a bundle of electric cables (43) passing through the underbase. 15 2 - Vehicle according to the preceding claim, wherein the storer of electrical energy is disposed at the front end of the accumulator, in the vicinity of a part of the sub-basement called apron (28), characterized in that the housing is located in the center console of the vehicle. 20 3 - Vehicle according to the preceding claim, characterized in that the control unit, disposed in the passenger compartment of the vehicle, is connected to the energy store by the bundle of electrical cables passing through an orifice (46) arranged in the underbase. 4 - Vehicle according to one of the preceding claims, characterized in that the pressure accumulator is a high pressure accumulator. - Vehicle according to one of the preceding claims, characterized in that the storage of electrical energy comprises a plurality of electric energy storage cells (23-1, 23-4) UCAP type. 30