FR2833058A1 - TENSIONING DEVICE FOR A DRIVE BY A DRIVE OF AN INTERNAL COMBUSTION ENGINE - Google Patents

Abstract

Tensioning device (7) for a drive by a traction means (1) which includes the drive of a generator - starter (2). In the internal combustion engine start mode, the roller (8) of the device tensioner (7) is tilted and locked in a position increasing the prestressing force of the traction means (5).

Description

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Field of the invention
The present invention relates to a tensioning device intended for a drive by a traction means of an internal combustion engine comprising the drive of a generator-starter driven by a traction means.

 The drive by a traction means also includes among others the drive of a generator-starter. The tensioning device comprises a rolling roller pivoting with respect to a base part and which bears against the traction means while being stressed by the force of a spring.

 Such drives by a traction means are driven by the crankshaft or by its belt pulley, the traction means in particular a belt connects the pulleys of the different equipment to be driven. Current internal combustion engines are usually equipped with two separate traction drives. A first drive with traction means, that is to say the control drive, is intended to drive the camshaft or the camshafts.

A second drive by a traction means also called equipment drive is used to drive for example the water pump, the injection pump, the generator-starter, the air conditioning compressor and other equipment. The increase in the length of the traction means as well as the uniform rotation of the crankshaft ensured by the combustion process of the internal combustion engine creates dynamic effects, in particular annoying vibrations which have repercussions on the drive by the traction means and therefore on the traction means itself. In addition, there is a variation in the material of the traction means linked to the temperature which modifies the prestressing force of the traction means, the tension of the belt and in particular at the high and low limit temperatures. Due to aging and wear, the belts tend to elongate, which decreases the pretension force set in new condition.

 A drive by a traction means which also includes the drive of a generator-starter requires both for the starting phase and for the operation of the internal combustion engine, the application of an active prestressing force to the traction means or belt. During the starting phase, the starter generator operating as an electric motor ensures the starting of the internal combustion engine. Immediately after launching the mo-

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 internal combustion engine or when it is running, there is an operating mode as a generator for the generator-starter supplying electrical energy to the on-board network of the vehicle. Depending on the operating mode of the internal combustion engine, a torque is induced in the traction means by the generator-starter or by the internal combustion engine via the corresponding belt pulleys. This is combined with an alternation of the idle strand function and that of the traction strand, or an alternation of the direction of the torque in the strand of the traction means between the belt pulleys of the crankshaft and of the generator-starter.

 There is known a drive by a traction means comprising the drive of a generator-starter. To achieve a sufficient prestressing force in the traction means both in start-up mode and during normal operation of the internal combustion engine, the drive by known traction means comprises two tensioning devices acting automatically. The first tensioning device comprises a rolling roller applied against the strand of the traction means between the crankshaft pulley and the generator-starter. The tension roller of the second tensioning device is pressed against a segment of the strand of the traction means downstream of the generator-starter. The construction provides that in start-up mode, the first tensioning device is blocked or it can be locked to pre-stress the traction means, between the generator-starter and the crankshaft pulley. When the internal combustion engine is running, the lock is released so that the roller driven by the traction means allows the tensioning device to be moved. The double requirement of a tensioning device applied against the known traction drive means requires a larger available volume which does not exist in the case of small internal combustion engines.

In addition, the double installation of tensioning devices increases the mounting means to be used and the cost, and thus neutralizes the economy of the generator-starter combining the generator and starter assembly.

Statement of the invention
Taking into account the drawbacks of known solutions, the present invention aims to develop for such a traction means, a tensioning device both optimized from the point of view of cost and also of space, and which provides sufficient prestressing of the

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 means of traction independently of the operating mode of the internal combustion engine.

 To this end, it is provided according to the invention that the drive by the traction means comprises only a tensioning device. For this the tensioning device is equipped with a locking system which allows in an operating mode in particular in starting mode of the internal combustion engine, to block the position of the roller. By eliminating a second tensioning device by comparison with the prior art, there is the advantage of economy. In addition, the tensioning device according to the invention makes it possible to use generator-starters driven by a belt for small internal combustion engines, which significantly reduces the space required since a single tensioning device is sufficient.

 An advantageous development of the invention provides for making the locking system so that it further rocks the roller before the locking operation to increase the prestressing force of the traction means. This means responds to the request for a sufficient prestressing force regardless of the operating mode of the internal combustion engine.

 Preferably, the tensioning device according to the invention, in the installed state, is associated with the traction means between the belt pulleys of the generator-starter and of the crankshaft of the internal combustion engine. This mounting position of the tensioning device in generator mode, that is to say when the internal combustion engine is running, at the vacuum strand of the drive by a traction means, compensates for the elastic variation in length of the means of traction which is established in starting mode.

 One embodiment of the invention provides that the tensioning device or its roller in the idle state of the internal combustion engine automatically switches to the position corresponding to the starting operating mode and is at the same time locked. This means that at the start of the starting operation, there is sufficient prestressing of the traction means and this avoids the subsequent slipping of the traction means.

 As a variant, the invention comprises a tensioning device which switches the running roller in synchronism with the starting operation of the internal combustion engine and blocks the roller in this position to increase the prestressing force in the traction means.

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 An advantageous development of the invention provides that the tensioning roller or the assembly of the tensioning device is pivotally mounted and lockable using an actuator or an active actuating member.

Preferably, an electromagnetic or electro-hydraulic actuator is used. Such an actuating member provided for example with a spring, allows an automatic displacement and a locking to ensure a drive without skidding in start-up mode. As a variant, the invention also comprises an actuator with pneumatic effect as well as other actuating members or actuators, with operation not mentioned for active adjusting members or actuators.

 The invention also includes a tensioning device, the actuator of which comprises a ball screw drive and the threaded spindle of the crankshaft is adjusted using an electric motor.

 Another preferred development of the invention comprises an electronic system making it possible to influence the active length of the actuator. This results in the actuator being controlled by taking account of at least one of the parameters influencing the prestressing force exerted by the traction means. The electronic system is preferably made so that, depending on the power of the generator, the prestressing force in the traction means, the active direction of the torque in the traction means or the speed of rotation of a belt pulley, modifies the active length of the actuator and thus directly influences the prestressing force of the traction means. According to the invention, it is also envisaged to influence the active length of the actuator as a function of a return torque of an electric motor driving, for example, a ball drive integrated in the actuator.

 The electronic system is furthermore designed so that independently of an elongation of the traction means caused for example by wear, it always guarantees a constant prestress in the traction means.

 The structure of the tensioning device according to the invention preferably comprises an actuator controlled in at least two positions, an operating position corresponding to the starting mode of the internal combustion engine and a neutral position which is established when the internal combustion engine is running. . As a variant, the invention also includes an actuator continuously adjustable between the operating position and the neutral position.

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 Advantageously, the invention can be transposed to different tensioning devices. For example, tensioning devices, the basic part of which is connected by a rotation bearing to a pivoting arm and the free end of which carries a roller which bears elastically against the traction means.

 In addition, the invention can be combined with a tensioning device, the roller of which is resiliently pressed against the traction means and is connected by an eccentric to the base part.

 For such tensioning devices, it is advantageous to fix the base part in rotation against a machine element, for example the crankcase, an internal combustion engine, and to install the actuator between the machine element and the based.

 As a variant of an actuator fixed directly to the base part of the tensioning device or of its pivoting arm, according to the invention there is also provided an indirect mounting. For this it is advantageous to use a toggle lever whose ends are fixed to the machine element and to the base part or to its pivoting arm and the actuator is preferably articulated in the area of a knee lever.

This means allows a reduction in the force of the actuator, which advantageously affects the design of the actuator or its actuating force. Preferably, for the toggle lever there is provided a stop which can be positioned in the end position. This means gives a defined position of the toggle lever and the base part in connection with the latter or the pivoting arm of the tensioning device.

drawings
The present invention will be described below using an embodiment shown in the two accompanying figures in which: - Figure 1 is a schematic construction of a drive by a traction means provided with a tensioning device according to the invention; - Figure 2 shows a detail drawing on an enlarged scale giving the structure of the tensioning device according to the invention.

Detailed description of an embodiment
The traction drive means 1 shown in FIG. 1 makes it possible to drive various pieces of equipment of an internal combustion engine such as the generator-starter 2, the water pump 3 and the air conditioning compressor 4; this equipment is driven by the

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 traction means 5 in particular a belt by the crankshaft 6 of the internal combustion engine. The traction drive means 1 further comprises a tensioning device 7 whose rolling roller 8, pivoting, is applied against the strand of the traction means between the crankshaft 6 and the generator-starter 2. The generator-starter 2 combines the function of two previously separate devices, namely the starter and the generator. During the start-up phase, the generator-starter 2 operates like an electric motor to drive the internal combustion engine. Then, when the internal combustion engine is running, the generator-starter 2 switches to operating mode as a generator and supplies electrical power to the vehicle's on-board network.

 Depending on the operating mode of the internal combustion engine, a torque is applied by the generator-starter 2 or by the internal combustion engine, that is to say its crankshaft 6 by the corresponding pulleys in the traction means 5. This results in an alternation of the idle strand and the traction strand or the direction of application of the torque in the traction means between the starter generator 2 and the crankshaft 6. To have a sufficient prestressing force in start-up mode, when the generator-starter 2 rotates clockwise to drive the internal combustion engine 6, the tensioning device 7 comprises an actuator or active adjustment element. In start-up mode, the actuator 9 rocks the roller 8 around the axis of rotation 10 of the tensioning device 7 in the end of travel position shown in dotted lines, the roller 8 is locked or is blocked in position to constitute a rigid roller 8 which provides a constant prestressing force in the traction means 5 during the starting operation.

Immediately after starting the internal combustion engine, the actuator 9 is released so that the roller 8 applied elastically against the traction means 7 operates automatically and compensates for the deflections of the traction means 7 resulting from the vibrations and thus switches between the position shown and position b shown in dotted lines. For the operating mode as a generator, that is to say when the internal combustion engine is running, the tensioning device 7 is associated with the vacuum strand.

 Figure 2 shows mainly on an enlarged scale, the structure of the tensioning device 7. The tensioning device 7 is connected by a

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 basic part 12 by the axis of rotation 10 to an element 11 of the engine, for example the crankcase of an internal combustion engine. The basic part 12 forms with a pivoting arm 13 a rotation bearing 14 with which is associated a torsion spring 15 which guarantees a support by the force of the roller 8 carried by the end of the pivoting arm 13 against the traction means 5. The active actuating element, that is to say the actuator 9 by which in start-up mode, the tensioning device 7 can be tilted clockwise to increase the preload force of the traction means 5 and be locked in position, is produced in the form of a ball screw transmission 16. The structure of the ball screw transmission 16 comprises a threaded spindle 18 driven by an electric motor 17 receiving a nut 19 Between the base part 12 of the tensioning device 7 and the nut 19 there is a lever 20 installed in an articulated manner. The threaded spindle 18 driven in the two directions of rotation allows axial sliding of the nut 19 according to the double arrow. This makes it possible to directly influence the active length S between the threaded pin 18 and the articulation point 21 of the lever 20 on the base part 12. The electric motor 17 is controlled by an electronic system 22 comprising at least one sensor 23. The electronic system makes it possible, for example, to activate the actuator 9 in synchronism with the starting operation in order to cause the tensioning device 7 to pass into a position corresponding to the starting position and to ensure a sufficient prestressing force for the means of traction 7 when the generator-starter 2 is intended to function as a starter.

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 NOMENCLATURE 1. Traction drive means 2. Generator-starter 3. Water pump 4. Air conditioning compressor 5. Traction means 6. Crankshaft 7. Tensioning device 8. Roller 9. Actuator 10. Rotation axis It . Machine element 12. Base part 13. Swivel arm 14. Rotation bearing 15. Torsion spring 16. Ball screw drive 17. Electric motor 18. Threaded spindle 19. Nut 20. Lever 21. Hinge point 22 Electronic system 23. Sensor

Claims (7)

CLAIMS 10) Tensioning device intended for a drive by a traction means of an internal combustion engine comprising the drive of a generator-starter (2) driven by a traction means, characterized in that a roller (8) of the tensioning device (7) is pressed against a traction means (5) in particular a belt, and in the starting mode of the internal combustion engine, a locking system locks in position the tensioning device in particular its roller ( 8). 20) Tensioning device according to claim 1, characterized in that the locking system switches and locks in position the roller in a position increasing the prestressing force applied to the traction means (5).  3) Tensioning device according to claim 1, characterized in that its rolling roller (8) is applied against the traction means (5) of the drive by a traction means (1) between the generator-starter ( 2) and the crankshaft (6) of the internal combustion engine.  4) Tensioning device according to claim 1, characterized in that when the internal combustion engine stops, the roller (8) is tilted and locked automatically in the position corresponding to the starting mode. 50) Tensioning device according to claim 1, characterized in that in synchronism with the starting operation of the internal combustion engine, the roller (8) of the tensioning device (7) is tilted and locked in a position increasing the prestressing force of the traction means (5). 60) Tensioning device according to claim 1, characterized in that <Desc / Clms Page number 10>  it comprises an actuator (9) or active adjustment element which switches and locks at least the tensioning roller (8) of the tensioning device (7).  7) Tensioning device according to claim 6, characterized in that it comprises an electromagnetic actuator (9). 80) Tensioning device according to claim 6, characterized in that it comprises an electro-hydraulic or pneumatic actuator (9).  9) Tensioning device according to claim 6, characterized in that the actuator (9) is a ball screw transmission (16) controlled by an electric motor (17).  10) Tensioning device according to claim 9, characterized by an active length (s) adjustable between the actuator (9) and the tensioning device (7), this length being able to be modified by an electronic system (22).  11) Tensioning device according to claim 10, characterized in that the actuator (9) is controlled as a function of at least one of the following parameters: - generator power; - force of the traction means; - direction of action of the torque in the traction means (5); - speed of rotation of a belt pulley; - return torque of the electric motor (17).  12) Tensioning device according to claim 11, characterized in that the electronic system ensures at least in starting mode, a preload always constant in the traction means (5).  13) Tensioning device according to claim 11, <Desc / Clms Page number 11>  characterized in that the actuator (9) can be controlled in at least two positions.  14) Tensioning device according to claim 11, characterized by an actuator (9) which can be positioned continuously. 15) Tensioning device according to claim 1, characterized by a base part (12) connected by a rotation bearing (14) to a pivoting arm (13) and whose free end carries the roller (8) s' pressing elastically against the traction means (5). 16) Tensioning device according to claim 15, characterized in that its running roller (8) elastically guided against the traction means (5) is connected by an eccentric to the base part (12).  17) Tensioning device according to claim 15, characterized in that the base part (12) of the tensioning device (7) is connected by a rotation axis (10) to a machine element (11) and the actuator (9 ) is provided between the base part (12) and the machine element (11). 18) Tensioning device according to claim 17, characterized in that the actuator (9) is connected directly by a toggle lever to the base part (12) of the tensioning device (7).