FR2887602A1 - DEVICE FOR DRIVING A FLYWHEEL BY A TESTING BENCH - Google Patents

Abstract

Coupling device (41) for a flywheel (44) to a drive shaft (42) by a test bench, characterized in that said device (41) is provided with a central grooved inner zone (1) connecting with the drive shaft (44) and fastening means (30,31,32) on the flywheel.

Description

Device for driving a flywheel by a

bench test.

  The present invention relates to internal combustion engines. It relates more particularly to the starting of internal combustion engines intended to be equipped with an automatic transmission on the test benches at the end of assembly lines.

  Internal combustion engines for motor vehicles are equipped with a flywheel or flywheel which stores kinetic energy thanks to its large mass in order to restore it. After assembling the motors on the production lines, it is necessary to test them. The motors must therefore be rotated for starting, because they are not provided at this stage of the manufacture of electric starters. This step presents no difficulties for the engines that will be equipped with a manual gearbox, indeed flywheels of this type are equipped with central splines. These splines are used at the end of the assembly line to secure the crankshaft to a drive shaft that will start the engine.

  However, the flywheels installed on engines that will be equipped with an automatic gearbox do not have central splines. They must nevertheless be tested at the end of the production line and thus be started.

  The previous solution to solve this problem was to mount on the flywheel a false clutch. For this, the operator had to fix this tool by hand, in place of the final gear box converter, using four screws by rotating the flywheel to access the screw holes. This operation in addition to being physically demanding for the operator was greedy in cycle time.

  The present invention proposes to overcome the aforementioned drawbacks by providing a removable means of adding a central spline drive to the motors which will be equipped with an automatic gearbox, particularly simple and quick to implement.

  For this purpose, the device according to the invention is provided with a central grooved inner region of connection with the drive shaft and fastening means on the flywheel.

  Advantageously, the device according to the invention is removable and the fixing means rest on a shoulder of the flywheel.

  Preferably, the fastening means move simultaneously and radially relative to the flywheel in a reversible manner.

  Advantageously, the device according to the invention comprises positioning means relative to the flywheel, these means being constituted by the cooperation of indexing pins and holes made in the flywheel 5 of inertia.

  Preferably, the tightening of the fastening means on the flywheel is provided by means of a ring whose axial displacement results in a radial displacement of the fastening means towards the outside of the device against the shoulder of the flywheel .

  According to another characteristic of the invention the axial displacement of the ring is triggered by the rotation of a toothed wheel caused by the action of a key.

  According to an additional feature, the device according to the invention is provided with locking means of the fixing means.

  In addition, the clamping of the locking means is provided by means of a toothed wheel whose rotation results in an axial displacement of the locking means to their support against the crown.

  Advantageously, the axial displacement of the locking means is triggered by the rotation of a gear wheel caused by the action of a key.

  According to another characteristic of the invention, the toothed wheel of the locking means and the toothed wheel of the fixing means are concentric and provided with recesses.

  The other features and advantages of the present invention will be better understood on reading the detailed description of an example, non-limiting embodiment, with reference to the appended figures which represents: FIG. 1: a front view of the device according to FIG. invention fixed to a flywheel for observing by transparency the internal mechanism of said device.

  - Figure 2: an axial longitudinal sectional view of Figure 2 along the axis A-A.

  - Figure 3: a detail view of the upper part of Figure 3 cooperating with a first hex key.

  - Figure 4: a detail view of the upper part of Figure 3 cooperating with a second hex key.

  Figure 1 is a front view of the device according to the invention attached to a flywheel and Figure 2 is an axial longitudinal sectional view of Figure 1. The latter figure allows to see by transparency the internal mechanisms of operation of said device . The introduction of the device 41 on the flywheel is facilitated by four guiding pins 9 (only one of which is visible in FIG. 3), situated on the back of the device 41, coming to fit on the flywheel, in place and place screws fixing the converter of the automatic gearbox. These guiding pins 9 come to index and pre-immobilize the tool in the flywheel, and also allow the transmission of torque when starting the engine bench test.

  In the configuration of Figures 1 and 2, the device according to the invention is fixed to the flywheel by means of three clamping jaws 30, 31, 32 bearing on the inner surface of the shoulder of the flywheel. Inertia 44. Still referring to Figures 2 and 3, we will better understand the operation and the elements constituting the movement mechanism of one of the three clamping jaws, the other 2 being equipped with the same mechanism. These jaws are assembled by means of a screw 26 to pistons 16 partially hollowed out. These recesses receive springs 19 for holding the pistons 16 resting on the frustoconical portion of a ring 13. This ring 13 is threaded on the outer surface of its annular portion, and cooperates with the internal thread of a toothed ring 11 in which it fits. This ring is further provided with an annular groove in which is inserted a guide pin in axial translation 33. The ring gear 13 cooperates when with it with a toothed wheel 7, provided at its center with a first recess 7.1 of hexagonal cross-section over a portion of its length, and a second recess 7.2 of circular section over the rest of its length. The circle inscribed in the regular hexagon of the section of the first recess 7.1 has a diameter greater than that of the circular cross section of the second recess 7.2. This difference in diameter is intended to provide an internal shoulder to this toothed wheel 7.

  The device according to the invention is provided in addition to a ring 47 of not loosening the jaws 30, 31, 32. This ring 47 is chamfered so as to obtain a complementary surface to that of the frustoconical portion of the crown 13. This ring 47 is further provided with a circular groove cooperating with an axial translation guide pin 14, and is threaded on its outer surface. This external thread cooperates with the internal thread of a toothed wheel 12 in which the ring 47 is inserted. The toothed wheel 12 is provided to be actuated by another toothed wheel 8 coaxial with the toothed wheel 7. This wheel 8 is provided with a first recess 8.1 of hexagonal cross-section over a portion of its length, and a second recess 8.2 of circular cross section over the rest of its length. The circle inscribed in the hexagon of the section of the first recess 8.1 has a diameter greater than that of the circular cross section of the second recess 8.2. This difference in diameter is intended to provide a shoulder internal to the toothed wheel 8.

  Moreover, the diameter of the cross section of the second recess 7.2 is advantageously greater than the diameter of the circle circumscribed in the hexagon of the section of the first recess 8.1. This difference in diameter will allow, as will be seen later, the passage of a tightening key through the toothed wheel 7.

  The device according to the invention is further provided with four central spring (51) located in the vicinity of the splines for damping the coupling during starting of the engine at the test bench.

  When it wishes to test the proper functioning of an engine which will be equipped with an automatic gearbox, the operator of the bench puts in contact with the four guiding pins 9 of the device 41 with the holes of the four screw fixing the converter flywheel. He then inserts the four pieces into the screw holes. This operation allows a pre-immobilization of the tool. At this time, the ring gear 13 is abutted on the rear face 18 of the device according to the invention. The spring 19 is at rest and maintains the piston 16 in support on the front of the frustoconical portion of the crown 13. The jaws 30, 31 and 32 are not in contact with the flywheel. The ring 47 of non-loosening is in turn abutted on the front face 48 of the device 41 and is not in contact with the ring 13. The operator rotates the toothed wheel 7 using a hex key provided to cooperate with the recess 7.1, as visible in Figure 3. As mentioned above, the geometrical differences between the two recesses 7.1 and 7.2 realize a shoulder internal to the toothed wheel 7 thus acting as abutment in axial translation for the hexagonal key 35. The rotation of the toothed wheel 7 drives the toothed ring 11 threaded on its inner surface, which causes the advance of the ring 13. It follows the radial advance of the three pistons 16 and the input into contact with the jaws 30 , 31, 32 with the flywheel which stops the translation of the pistons 16 and jaws.

  In order to increase the safety of the device according to the invention a system of not loosening the jaws is provided. To implement it the operator introduces a second hexagonal wrench 36 adapted to cooperate with one of the hexagonal recess 8.1. The dimensions of the hexagonal key are intended to allow it to pass through the recesses 7.1 and 7.2 of the toothed wheel 7 and to rotate only the toothed wheel 8 as can be seen in FIG. 4. The key 36 is radially stopped by the internal shoulder formed inside the toothed wheel 8. The rotation printed by the operator on the key 36 causes the rotation of the toothed wheel 8 which drives the toothed ring 12, whose interior is threaded on its inner surface, which causes the advance of the ring 47 of not loosening the jaws 31,32,33. This ring 16 advances until its chamfered surface comes into contact with a portion of the frustoconical portion of the ring 13, and blocks the axial advance of said ring. The ring 13 which is locked in axial translation, prohibits the radial displacement of the piston assemblies 16 / jaws 30, 31, 32. The device according to the invention 41 is perfectly secured to the flywheel.

  The next step is to match the internal splines of the device according to the invention with the external splines of the drive shaft 42.

  For disassembly of the device the operations described above are carried out in the reverse order. First, the drive shaft 42 is detached from the device according to the invention 41. The unlocking system of the jaws is then unlocked using the hexagonal wrench 36. The next step is to to cause the jaws 30, 31, 32 to enter the device 41 by actuating one of the toothed wheels 7 by means of the hexagonal wrench 35. Then the device 41 is detached from the target flywheel 44.

  One of the advantages of the invention is the fact that by actuating only one of the three toothed wheels 7, the three clamping jaws 30, 31, 32 are set in motion, which allows a considerable saving of time.

  The positioning at regular intervals of the gear wheels 7 makes it possible to use one of them for the actuation of the device 41 and this, regardless of the initial position of the flywheel 44. The operator will not have to turn the flywheel, particularly painful operation.

Claims (12)

  1) Coupling device (41) of a flywheel (44) to a drive shaft (42) by a test bench, characterized in that said device (41) is provided with an inner zone central fluted (1) connecting with the drive shaft (44) and fastening means (30, 31,32) on the flywheel.   2) Coupling device (41) according to the preceding claim characterized in that it is removable.   3) Device according to the preceding claim characterized in that the fixing means (30, 31,32) bear on a shoulder of the flywheel (44).   4) Device according to the preceding claim characterized in that the fastening means (30, 31,32) move simultaneously and radially relative to the flywheel (44) reversibly.   5) Device according to one of the preceding claims characterized in that it comprises positioning means (9) of said device relative to the flywheel (44).   6) Device according to one of the preceding claims characterized in that the clamping of the fastening means (30, 31,32) on the flywheel (44) is provided by means of a ring (13) whose displacement axial results in a radial displacement of the fixing means (30, 31,32) towards the outside of the device (41), against the shoulder of the flywheel.   7) Device according to the preceding claim characterized in that the axial displacement of the ring (13) is triggered by the rotation of a toothed wheel (7) caused by the action of a key (35).   8) Device according to one of the preceding claims characterized in that it is provided with locking means (47) of the fixing means (30, 31,32).   9) Device according to the preceding claims characterized in that the clamping of the locking means (47) is provided by means of a toothed wheel (12) whose rotation results in an axial displacement of the locking means to their support against the crown (13).   10) Device according to the preceding claim characterized in that the axial displacement of the locking means (47) is triggered by the rotation of a toothed wheel (8) caused by the action of a key (36).   11) Device according to the preceding claim characterized in that the toothed wheel (8) of the locking means and the toothed wheel (7) of the fixing means are concentric and provided with recesses (7.1, 7.2 15.8, 1.8.2). .   12) Device according to one of claims 5 to 11 characterized in that the positioning means are constituted by the cooperation of indexing pins (9) and holes made in the flywheel (44).