EP1596127A1 - Mounting of a torsion spring between two parts of a lighting assembly of an automotive vehicle - Google Patents

Abstract

The process involves positioning and pre-equipping a torsion spring (5) on a movable part by fixing two ends of the spring to the movable part. The movable part is assembled on a fixed part, such that one of the two ends of the spring is freed from the movable part for being supported on the fixed part for equipping the torsion spring upon creating torsional moment between the two parts. An independent claim is also included for a motor vehicle having a lighting and/or signaling device.

Description

The invention relates to the assembly of a torsion spring between a fixed part and a moving part of a lighting device and / or motor vehicle signaling.

Many projector configurations with mobile part (s) now exist. These may be projectors that have moving screens, and which can selectively intercept a portion of the light beam emitted by the light source of the projector. It is thus known screens or caches, which have a position so as to partially obscure light rays in order to obtain a code-type beam, and which, in retracted position, make it possible to obtain a road-type beam. Those are dual-function screens. There are also more mobile screens which may have not two but at least three different positions vis-à-vis the light source, so as to be able, with the same light source and the same reflector, obtain at least three different beams (traffic code on the right / traffic code on the left / road by example). It is then a question of being able to move a screen with respect to a support piece on which it is mounted.

Projectors may also have rotating optical modules, comprising by optical module at least the light source associated with its reflector. This is the case of turn-based projectors, which also known as DBL for Dynamic Bending Light ".

Projectors can also be designed to have movable reflectors, for example headlamps equipped with automatic correction of attitude.

The invention will be of particular interest, but not limited to, moving parts of the type pivoting covers. A mobile screen projector, in particular by pivoting, generally comprises a support piece fixed motor and a movable support part, the mobile support part being intended to tilt relative to the engine support part. The support piece mobile supports at least one pivoting flap. In a bi-function cache code / route, such a movable support piece provided with the pivoting flap is intended to switch between a first position, said active position, in which light signals emitted by a light source of the projector are intercepted by the pivoting flap and a second position, said position passive, in which the pivoting flap does not intercept the beams bright light source.

Whatever the type of moving part, it is useful to have recourse to a torsion spring acting in the relative movement between the fixed part and the moving part. This is the case, for example, when the moving part is moved by a motor relative to a fixed part, and that a torsion spring is also provided between the two parts so that, in case of failure of the motor, the moving part, thanks to said spring, can rebase into a security position (for example, in a non-glare code position in the case of the bi-function cache mentioned above).

The invention aims to facilitate the mounting of projectors which have moving parts, especially those using springs. Optionally, it also aims to obtain such projectors that are compact, simple design and yet reliable, especially in level of movement of said moving parts. The invention is more particularly intended for the field of vehicle projectors but could also apply in other areas.

• des feux de position, d'intensité et de portée faible ;
• des feux de croisement, ou codes, d'intensité plus forte et de portée sur la route avoisinant 70 mètres, qui sont utilisés essentiellement la nuit et dont la répartition du faisceau lumineux est telle qu'elle permet de ne pas d'éblouir le conducteur d'un véhicule croisé ;
• des feux de route longue portée, et des feux de complément de type longue portée, dont la zone de vision sur la route avoisine 200 mètres, et qui doivent être éteints lorsque l'on croise un autre véhicule afin de ne pas éblouir son conducteur ;
• des feux anti-brouillard.

Indeed, in the field of motor vehicle headlamps, we know different types of projectors, among which we find essentially:

• position, intensity and low range lights;
• low beam, or codes, of greater intensity and range on the road of about 70 meters, which are mainly used at night and whose distribution of the light beam is such that it does not dazzle the driver a crossover vehicle;
• long-range headlamps, and long-range supplement lights, whose vision zone on the road is approximately 200 meters, and which must be extinguished when crossing another vehicle so as not to dazzle its driver;
• fog lights.

In particular, it is known from document EP 1 197 387 a projector having a pivoting flap forming a bi-function removable cover as mentioned above. Another type of moving-room projector is described in the document EP 1 139 011: it is an elliptical type projector of with infrared night vision, having a screen that is opaque to radiation visible but transparent to infrared.

In the case of the invention, the removable cover and the infrared filter are two particular examples of the pivoting flap equipping the devices projectors according to the invention. In general, the projectors concerned by the invention are all those that are likely to be equipped of a moving part, regardless of the function performed by said part, able to move from one position to another at least in the projector.

To switch a mobile cache over a support part motor, it is known in the state of the art to use an electromagnet operating using a spring. This electromagnet is supplied with current alternative so as to cause a tilting of the flap which returns to initial position through the spring. This electromagnet generates movements of a first branch and a second branch, the first branch and the second branch being connected by a means of link. This electromagnet generates a first linear movement of the first branch while causing a tilting motion by rotation of the second branch, the second branch supporting the flap Swivel. The spring that is placed around the first branch is then stretched between a fixed point and an end of the first branch. During the return to the initial position of the flap, the first branch is moved by a second linear motion in the opposite direction of the first movement of the return to the initial position of the spring. Such a transformation of linear movements in rotational movements may need to release a space to allow the first branch and the second branch to articulate one with respect to the other. Such space is responsible for a the size of the projector. In addition, the connecting means can be weakened following the linear movements and following the rotational movements repeating in time.

It is also known to rotate the moving part relative to the engine support part by means of a DC motor and by via a torsion spring. Such an engine is for example placed in the engine support part and the torsion spring is interposed between the mobile support part and the engine support part. Such a torsion spring is formed of a central portion or body having a plurality of turns, a first end and a second end. The first end and the second end are placed on either side of the central part while extending this same central part. The central part is positioned around a support means formed on the movable support piece and longitudinally with respect to an axis of this confused support means with an axis of extension of the same spring. The first end and the second end are respectively placed against the piece mobile support and against the engine support part so as to maintain position activates the pivoting flap. Thus, the motor is set to allow fold down the pivoting flap from the active position direction of the passive position, while possibly maintaining this passive position of the pivoting flap. When an engine power supply is interrupted on command, then the spring allows the pivoting flap to return to its initial active position by simply folding the pivoting flap from the passive position towards the active position.

But, the mounting of the mobile support part in the support part motor can be complicated by the presence of this spring. Indeed, the torsion spring is placed between the two pieces with a torsion torque between the two ends of the spring which allows the same spring to keep the pivoting flap in the active position. Such a torsion torque is obtained by rotating around the axis of elongation of the spring one of ends with respect to each other in a winding direction the turns of the central part of the spring. The step of wrapping one of the two ends around the lengthening axis of the spring is called a step of pre-armature of the spring which leads to a torsion torque predetermined spring between the two ends. This torsion torque is greater than that required for a spring placed against the piece mobile support and against the engine support part. Such a torsion torque of the necessary spring between the movable support part and the engine support part corresponds to a sufficient torque to maintain permanently the pivoting shutter in active position. An operator responsible for mounting the device a projector equipped with such a pivoting torsion spring flap must therefore use specific tools able to maintain such a spring while creating twisting force by winding one of the two ends as previously described, the time required to embed the support piece mobile in the engine support part.

To place this spring, professionals have tried to put in place automated devices to keep such a spring in place wound. But until now there is no satisfactory solution for place such a spring previously wound between the movable support piece and the engine support part.

It is an object of the invention to respond to all disadvantages just mentioned. For this purpose, in the invention, proposes a projector device equipped with a movable support piece provided a pre-positioning pin of the torsion spring. In the invention also proposes a shoulder formed by the engine support part. The pre-positioning pin is formed by the movable support piece to a place near the light source compared to another place formed by the shoulder against which is intended to rest the torsion spring in the engine support part, longitudinally with respect to an axis horizontal propagation of the light beam from a rear part in direction of a front part of the projector device.

Thus, when mounting the mobile support piece in the room motor support, one of the two ends of the torsion spring is positioned in abutment against the movable support piece and the other end is previously positioned in support also against the support piece mobile. More precisely, the other end is placed in support against the pre-positioning pin after winding of this same end according to the winding direction of the turns of the central part. We call the step of pre-positioning the spring against the prepositioning pin, a step of pre-arming the torsion spring. Then at during the assembly of the mobile support part in the engine support part, this other end positioned in abutment against the lug is released from the lug to come to rest against the shoulder formed by the support piece engine.

• on positionne et on pré-arme ledit ressort sur la pièce mobile en fixant ses deux extrémités à la pièce mobile avec un couple de torsion
• on assemble ladite pièce mobile sur la pièce fixe, assemblage au cours duquel l'une des deux extrémités du ressort se libère de la pièce mobile en prenant appui sur la pièce fixe, de façon à armer le ressort en créant un couple de torsion entre pièce fixe et pièce mobile.

The invention firstly relates to a method of assembling a torsion spring between a fixed part and a moving part of a lighting device and / or signaling of a motor vehicle of the projector type, comprising the following steps :

• positioning and pre-arming said spring on the moving part by fixing its two ends to the moving part with a torsion torque
• said moving part is assembled on the fixed part, an assembly in which one of the two ends of the spring is released from the moving part by bearing on the fixed part, so as to arm the spring by creating a torsional torque between the piece fixed and moving part.

The invention thus allows the operator (or the robot if the operation assembly is automated) to be able to assemble the part more easily mobile to the fixed part via the spring, with a correct arming and simultaneous spring, thanks to this prior pre-weave step.

Advantageously, the moving part comprises a pre-winding pin against which rests one of the ends of the spring during assembly. The operator or the machine can pre-arm the spring with respect to a single piece, which is easily achievable. Preferably, the pre-wrap pin has at least one chamfered area. This chamfered area allows to guide the end of the spring to fix on the pin, so as to facilitate / guarantee correct positioning.

Advantageously, the moving part also comprises a pin functional having at least one stop. We understand by ergot "Functional" the lug that will hold the other end of the spring as well in the pre-arming phase only in the assembled and finished projector, as opposed to the pre-wrap pin which, once assembly is complete, has more function in the finished projector.

Preferably, the moving part comprises a support means of the spring body having a cylinder portion projecting and provided retaining means of the spring body after arming. These means of retentions are for example in the form of a collar, or one or several stops arranged radially at the edge or near the edge outside the cylinder portion.

We then adapt the dimensions and characteristics of the spring, so that it can be inserted around this portion of the cylinder and that there be maintained: the unreinforced spring body preferably has a diameter greater than the apparent diameter of the cylinder portion in the area where the retaining means of the collar or abutment type are arranged, and a diameter less than said apparent diameter once it is armed. We includes by "apparent" diameter the diameter of the virtual circle in the area provided with restraining means and which passes through the edges most radially away from the cylinder body of said stop means (s) or collar. The actual diameter of the cylinder is chosen similar to the diameter of the body of the armed spring.

In general, the spring according to the invention allows a movement relative to a moving part chosen from a pivoting cover, a filter of type infra-red filter, a reflector, an optical module, and a fixed part of type support part.

The invention also relates to a lighting device and / or signaling for a motor vehicle, of the projector type, comprising at least minus a fixed part relative to a moving part, and a torsion spring one of the ends of the spring is held on the moving part by a functional pin with at least one stop and the other end of which is maintained at the fixed part, the body of the spring being held by a means support having a cylinder portion projecting and provided with retaining means of the spring body. The said moving part can to understand the pre-amarge pin and the retaining means described more high.

The subject of the invention is also the vehicle comprising one less of these devices.

• une source lumineuse, produisant notamment un faisceau lumineux émis au niveau d'une partie arrière en direction d'une partie avant du dispositif le long d'un axe horizontal de propagation du faisceau lumineux,
• une pièce de support moteur munie d'un moteur pour entraíner en rotation un pignon de sortie moteur,
• une pièce de support mobile portant au moins un volet pivotant et supportant une roue dentée formant engrenage avec le pignon du moteur (ou tout autre moyen mécanique pour que le moteur entraíne le mouvement du volet), la pièce support mobile étant destinée à basculer par rapport à la pièce support moteur entre au moins deux positions différentes,
• un ressort de torsion placé entre la pièce support moteur et la pièce support mobile, ledit ressort étant destiné à maintenir le volet pivotant selon la position active, ledit ressort de torsion comportant une partie centrale formant une pluralité de spires, une première extrémité et une deuxième extrémité, la partie centrale étant prolongée de part et d'autre de cette même partie centrale par la première extrémité et par la deuxième extrémité, la première extrémité et la deuxième extrémité étant placées en appui contre la pièce support mobile et contre la pièce support moteur respectivement, et la partie centrale étant positionnée autour d'un moyen de support formé par la pièce support mobile, tel que
• la pièce support moteur comporte un épaulement d'appui du ressort et la pièce de support mobile comporte un ergot de pré-positionnement du ressort, la deuxième extrémité du ressort étant placée en appui contre le ergot de pré-positionnement ou pré-armage du ressort préalablement à l'insertion de la pièce support mobile dans la pièce support moteur,
• la pièce support mobile est insérée dans la pièce support moteur de telle manière que la deuxième extrémité du ressort est placée en appui contre l'épaulement, et l'ergot de pré-positionnement est placé, notamment à un endroit proche de la source lumineuse par rapport à l'axe horizontal de propagation, l'épaulement étant notamment placé par rapport à l'ergot de pré-positionnement et par rapport à ce même axe horizontal de propagation à un endroit éloigné de la source lumineuse.

The invention will be described with the aid of a following non-limiting example: it can be applied to a rotating shutter device comprising:

• a light source, producing in particular a light beam emitted at a rear part towards a front part of the device along a horizontal axis of propagation of the light beam,
• an engine support part provided with a motor for rotating an engine output gear,
• a movable support member carrying at least one pivoting flap and supporting a toothed gear gear with the motor gear (or any other mechanical means for the motor causes the movement of the flap), the movable support piece being intended to tilt relative at the engine support part between at least two different positions,
• a torsion spring placed between the engine support part and the movable support part, said spring being intended to hold the pivoting flap in the active position, said torsion spring comprising a central part forming a plurality of turns, a first end and a second one; end, the central portion being extended on either side of the same central portion by the first end and the second end, the first end and the second end being placed in abutment against the movable support piece and against the engine support piece respectively, and the central portion being positioned around a support means formed by the movable support piece, such that
• the engine support part comprises a bearing shoulder of the spring and the movable support piece comprises a pre-positioning pin of the spring, the second end of the spring being placed in abutment against the pre-positioning pin or pre-arming spring before the insertion of the mobile support part into the engine support part,
• the movable support piece is inserted into the engine support part in such a way that the second end of the spring is placed in abutment against the shoulder, and the pre-positioning pin is placed, in particular at a location close to the light source by relative to the horizontal axis of propagation, the shoulder being in particular placed relative to the pre-positioning pin and with respect to this same horizontal axis of propagation at a place remote from the light source.

The invention advantageously makes it possible to dispose the spring of torsion on the mobile support part before assembly of the part movable support in the engine support part in a fixed manner, without play, of have a mobile support piece equipped with the torsion spring without risking to lose the torsion spring by sliding the spring along the means of support. In fact, the invention also makes it possible to store very easily such a movable support member provided with the torsion spring.

In a variant of the invention, the support means around which is placed the central part of the spring forms a stop collar, continuous or discontinuous. This stop collar advantageously allows prevent the spring from escaping from the support means after one of the two ends have been wound around the axis of elongation of the spring as previously mentioned.

The invention advantageously makes it possible to pre-arm the spring of twist directly on the moving support piece without the torsion spring is likely to escape from that same room.

• installer la partie centrale du ressort sur le moyen de support de la pièce support mobile,
• placer en appui contre la pièce support mobile la première extrémité du ressort,
• positionner la deuxième extrémité du ressort en appui contre le ergot de pré-positionnement/pré-armage de la pièce support mobile en effectuant une rotation de la deuxième extrémité autour du moyen de support dans un sens d'enroulement des spires de la partie centrale et tout en passant par dessus le ergot de pré-positionnement, et
• placer la pièce support mobile ainsi munie du ressort dans la pièce support moteur de telle manière que le volet pivotant bascule autour d'un axe de rotation de la pièce support mobile par rapport à la pièce support moteur entre la position active et la position passive.

An example of the mounting method according to the invention of such a device with a pivoting flap comprises steps consisting in

• install the central part of the spring on the support means of the mobile support piece,
• placing against the movable support part the first end of the spring,
• positioning the second end of the spring bearing against the pre-positioning / pre-arming pin of the movable support piece by rotating the second end around the support means in a winding direction of the turns of the central portion and while passing over the pre-positioning pin, and
• placing the movable support piece thus provided with the spring in the engine support part such that the pivoting flap tilts about an axis of rotation of the movable support part relative to the engine support part between the active position and the passive position.

• Figure 1 : Une représentation schématique d'un mécanisme de projecteur selon l'invention ;
• Figure 2 : Une représentation schématique d'une pièce support moteur, selon l'invention ;
• Figure 3 : Une représentation schématique d'une pièce support mobile, selon l'invention ;
• Figure 4 : Une représentation schématique d'un ressort de torsion, selon l'invention ;
• Figure 5 : Une représentation schématique d'un grossissement d'un endroit où est placé en appui un ressort de torsion dans une pièce support moteur, selon l'invention ;
• Figure 6 : Une représentation schématique d'une coupe transversale d'une pièce support mobile et du ressort de torsion, selon l'invention ;
• Figure 7 : Une représentation schématique d'une pièce support mobile équipée d'un ressort de torsion, selon l'invention ;
• Figure 8 : Une représentation schématique d'une position d'un ressort de torsion selon une vue extérieure d'une pièce support moteur, selon l'invention, et
• Figure 9 : Une représentation schématique d'une pièce support mobile, selon une variante de l'invention.

This embodiment will be better understood by reading the following description and examining the figures that accompany it. These are presented only as an indication and in no way limitative of the invention:

• Figure 1: A schematic representation of a projector mechanism according to the invention;
• Figure 2: A schematic representation of a motor support part, according to the invention;
• Figure 3: A schematic representation of a movable support part, according to the invention;
• Figure 4: A schematic representation of a torsion spring, according to the invention;
• Figure 5: A schematic representation of a magnification of a place where is placed in support a torsion spring in a motor support part, according to the invention;
• Figure 6: A schematic representation of a cross section of a movable support member and the torsion spring, according to the invention;
• Figure 7: A schematic representation of a movable support member equipped with a torsion spring, according to the invention;
• Figure 8: A schematic representation of a position of a torsion spring according to an external view of a motor support part, according to the invention, and
• Figure 9: A schematic representation of a movable support part, according to a variant of the invention.

FIG. 1 illustrates a projector device 1 with a pivoting shutter comprising a light source 2, a fixed engine support part 3, a piece of mobile support 4, and a torsion spring 5, according to the invention.

The light source 2 produces a light beam emitted at of a rear portion 6 towards a front portion 7 of the device along of a horizontal axis 23 of propagation of the light beam, the front part 7 being opposed to the rear portion 6. This horizontal axis 23 forms a direction main lighting device projector.

Figure 2 and Figure 3 respectively illustrate a support part motor 3 and a movable support part 4. Each of these parts 3 and 4 may to be performed following a molding of a plastic material. Or each these parts 3 and 4 can be made of a metallic material.

The fixed engine support part 3 is provided with a motor (no represent). This motor is intended to drive in rotation a pinion of motor output (not shown).

The mobile support part 4 is formed of a frame 8. This armature 8 is intended to carry at least one pivoting flap (not shown). This armature 8 is intended to also support a toothed wheel 9. This toothed wheel 9 forms a gear with the motor gear while causing a tilting of the mobile support part 4 with respect to the motor support part 3. The mobile support part 4 tilts with respect to the engine support part 3 from an active position in which the shutter intercepts at least a portion of the light beam emitted by the source luminous 2 to a passive position where the same shutter does not intercept the light beam. Tilting of the mobile support part 4 by relative to the engine support part is represented by an arrow figure 1. This tilting takes place around a 30 axis of rotation.

Figure 4 illustrates a schematic representation of the spring of torsion 5 according to the invention. Such a spring 5 comprises a central portion 10, a first end 11 and a second end 12. The central portion 10 is formed by a plurality of turns 13 wound around an axis 14 extension of the spring 5. The spring is positioned on the support piece mobile with its first end 11 bearing against the support piece mobile 4 and its central portion 10 placed around a support means 26, 27 formed by the movable support piece and along the lengthening axis 14 of the spring. The second end 12 is intended to be placed in abutment against the engine support part 3. This torsion spring 5 is thus placed between the motor support part 3 and the mobile support part 4 in such a way that the spring plays a role of return spring now permanently the piece mobile support 4 according to the active position.

According to the invention, the engine support part 3 comprises a shoulder 15 of the spring 5 and the movable support piece 4 comprises a pin of pre-positioning 16 of the spring, Figures 1, 2, 3 and 5. The prepositioning pin 16 allows the second end 12 of the mainspring to be placed in support against the same lug 16 prior to insertion of the mobile support part in the engine support part. According to the invention, the piece mobile support 4 fits into the engine support part 4 in such a way that the second end 12 of the spring is placed in abutment against the shoulder 15. The movable support piece is inserted in such a way that the mobile support piece has the pre-positioning pin 16 placed at a near the light source 2 with respect to the horizontal axis 23 of propagation, the shoulder 15 being placed relative to the prepositioning pin 16 and with respect to that same horizontal axis 23 at one place away from the light source 2, Figures 2, 3 and 5.

The shoulder 15 is formed by the engine support part 3, FIGS. 5. Figure 5 shows an enlargement of a location of the support part motor 3 where is positioned the torsion spring 5 of the projector device 1 according to the invention. The engine support part 3 forms a housing with a wall peripheral 17 and a bottom 18, the peripheral wall 17 and the bottom 18 delimiting a cavity 19. The bottom 18 forms a plane perpendicular to a plane formed by the peripheral wall 19. This engine support part 3 comprises a housing 20 to accommodate the engine, obviously a 21 intended for receiving the toothed wheel 9. And finally the fixed support part 3 may comprise a receptacle 22 intended specifically to receive an electronic card (no shown) connected to the motor to control its start.

The shoulder 15 is formed at a location on the peripheral wall 17 of the engine support part 3, FIGS. 2 and 5. This shoulder 15 corresponds to a protrusion extending from the wall 17 towards the cavity 19 of the engine support part 3. This shoulder 15 forms a first surface 24 against which rests the second end 12 of the spring. This first surface 24 forms a bearing surface of the second end 12 of the spring 5 and is represented by a speckled surface figure 5.

The pre-positioning pin 16 is formed from the frame 8 of the mobile support part 4, FIGS. 3 and 5. The lug 16 forms a projection extending from the armature 8 perpendicular to the axis horizontal 23 of propagation of the light beam and parallel by relative to the plane formed by the bottom 18 of the engine support part 3. The ergot pre-positioning 16 forms a second bearing surface against which supports the second end 12 of the spring prior to the insertion of the mobile support part 4 into the engine support part 3. The first surface 24 and the second surface 25 are placed respectively in a foreground and in a second plane, the foreground and the second plane being perpendicular to the horizontal axis 23 of propagation. The foreground is away from light source 2 and the second plane is close to this same light source 2.

The mobile support part 4 is fixed to the engine support part 3 by via a first rod 26 and via a second 27. One of the two rods forms a center of the toothed wheel 9. The first rod 26 and the second rod 27 are intended to be placed in retention means 28 and 29 formed by the engine support part 4. These means of retention may be elastic opening meatus as Figure 2. Once the mobile support part 4 has been placed in the engine support part 3 via these rods 26 and 27 in the retaining means 28 and 29, the movable support part 4 can switch from the active position towards the passive position and vice versa. The tilting of the mobile support part 4 towards the position passive and the tilting of this same piece moving support in the direction the active position is made around the axis of rotation 30 passing through the two rods 26 and 27. This axis of rotation 30 may be perpendicular to the axis horizontal 23 and parallel to the plane formed by the bottom 18 of the support piece motor 3, as shown in FIG. 1. Or this axis of rotation 30 can be parallel or oblique to the horizontal axis 23.

Tilting of the mobile support part 4 towards the passive position and the tilting of this same mobile support piece into direction of the active position are stopped by respectively supporting a front stop 31 and a rear stop 32 against the engine support part 3.

Indeed, the movable support piece has a stop before 31 and a backstop 32. Front stop 31 is placed at a point in the room mobile support 4 remote from the light source 2 with respect to another where the backstop 32 is formed on the same movable support part 4. The mobile support part 4 can then be positioned according to a position active predetermined while bearing against the engine support part 3 through the backstop 32. The movable support part 4 can also be positioned according to a predetermined passive position while being in abutment against the engine support part via the abutment before 31. In the example 1, the frame 8 forms a frame which is placed in a plane perpendicular to the horizontal axis 23 in the active position of the shutter and which is placed in another plane parallel to the horizontal axis 23 in position passive of the same component.

The support means 26, 27 around which the central portion is inserted 10 of the torsion spring 5 can form a cylindrical protrusion, FIG. This support means may be formed by one or the other rods 26 or 27. In the example in FIG. 1, the first rod 26 preferentially forms the spring support means while the second rod 27 forms a center of the toothed wheel 9. This support means may advantageously comprise a stop flange 37 defining a first diameter 38 of the outgrowth at a location where the flange 37 is formed greater than a second diameter 39 formed by the central portion 10 of the spring when the second end 12 of the spring is placed in abutment against the prepositioning pin 16 and / or when the second end 12 of the spring is placed in abutment against the shoulder 15. This second diameter 39 is greater than a third diameter 40 formed by the rest of the support means.

The first end 11 and the second end 12 may form respectively a first loop 33 and a second loop 34, FIG. The first loop 33 is intended to encircle a lug 35 formed by the movable support part 4, FIG. 7. And the second loop 34 can be intended to be housed in a hole 36 formed through the shoulder 15, FIG. 5. Indeed, the shoulder 15 can be pierced with an orifice 36, FIGS. 5, 8. Figure 8 shows a schematic view of the engine support part projector device 1 side view and external view. The orifice 36 passes through less partially the wall 17 from the cavity 19 towards the outside the engine support part. In the case where this orifice 36 passes through completely the wall 7, as illustrated in FIGS. 5, 8, it is advantageously possible to verify that the mobile support part 4 is correctly positioned after mounting the mobile support part 4 in the room 3. In fact, after mounting the mobile support part 4 in the engine support part 3, it is possible to see the second loop 34 of the second end 12 of the spring through the orifice 36 since the outside of the engine support part 3.

FIG. 1 illustrates a projector device 1 in which the shutter swivel forms a removable cover to allow for a projector low beam / high beam. This cache is then placed in a framework forming a frame as shown in Figures 1 and 3. But the projector device could form a pivoting flap forming a filter infrared. In this case, the armature can form a plate 41 folded on itself to form a bar extending between the two rods with cross section a U-shaped, as shown in Figure 9.

A motor vehicle can be easily and advantageously equipped with such a projector device according to the invention.

The method of mounting the flap projector device according to the invention can be realized as follows. First, the part center 10 of the spring 5 is installed on the support means 26 of the workpiece mobile support 4. More precisely, the central part 10 of the spring is placed around the first rod 26. Then the first end 11 of the spring is placed against the movable support part 4. To place this first end 11, we place the first loop 33 around the pin 35. Then, a rotational movement of the second end 12 around the first rod 26 is made in a winding direction of the turns of the part central 10. This rotational movement of the second end 12 around of the first rod 26 is represented by an arrow Figure 4. This movement of rotation of the second end 12 around the first rod 26 made in the winding direction of the turns of the central portion 10 is effected around the axis 4 of elongation of the spring while passing over the ergot 35 and over the pre-positioning pin 16, FIG.

And finally, the mobile support part 4 thus provided with the spring 5 is inserted in the engine support part 3 by inserting the first rod 26 and the second rod 27 in the corresponding meatus formed in the room 3. The mobile support part is more precisely inserted in the engine support part in such a way that the pivoting flap switches between the active position and the passive position around the axis of rotation 30.

When inserting the mobile support part 4 into the support part motor 3, the second end 12 of the spring 5 is first placed in support against the second surface 25 formed by the pre-positioning pin 16. Then this second end 12 is placed in abutment against the first surface 24 formed by the shoulder 15 during the insertion of the first rod 26 and the second rod 27 of the mobile support part 4 in the meatus 28 and 29 corresponding formed by the engine support part 3. The lug 16 is positioned relative to the shoulder 15 in such a way that the lug allows the second end 12 of the spring to free itself from the second support surface 25 to bear against the first surface 24. The spring thus positioned between the movable support part and the engine support part constantly reminds the pivoting flap according to the active position.

The mobile support part 4 is advantageously reversibly inserted in the engine support part 3. The projector device 1 is then advantageously reversibly removable.

Claims (13)

A method of assembling a torsion spring (5) between a fixed part (3) and a moving part (4) of a lighting device and / or signaling of a motor vehicle of the projector type, comprising the following steps : positioning and pre-arming said spring on the moving part by fixing its two ends to the moving part with a torsion torque said movable part (4) is assembled on the fixed part (3), an assembly during which one of the two ends of the spring (5) is released from the moving part by resting on the fixed part, so as to arm the spring by creating a torsion torque between fixed part and moving part. Method according to the preceding claim, characterized in that the movable part (4) comprises a pre-armature pin (16) against which rests one of the ends of the spring (5) during assembly. Method according to the preceding claim, characterized in that the pin (16) pre-arming comprises at least one chamfered area. Method according to one of the preceding claims, characterized in that the movable part (4) comprises a functional pin (35) having at least one stop. Method according to one of the preceding claims, characterized in that the movable part (4) comprises a means for supporting the spring body comprising a cylinder portion projecting and provided with retaining means (37) of the spring body after arming . Method according to the preceding claim, characterized in that the retaining means are in the form of a flange (37), or one or more stops disposed radially at the edge or near the outer edge of the portion of cylinder. A method according to claim 5 or claim 6, characterized in that the body of the unreinforced spring (5) has a larger diameter than the apparent diameter of the cylinder portion in the area where the retaining means (37) are arranged. flange or abutment (s), and in that it has a diameter less than said apparent diameter once it has been armed. Method according to one of the preceding claims, characterized in that the spring (5) allows a relative movement between a movable part (4) selected from a pivoting cover, a filter-type infra-red filter, a reflector, an optical module , and a fixed piece of the support piece type. Vehicle lighting and / or signaling device automobile, of the projector type, comprising at least one fixed part (3) relative to a moving part (4), and a torsion spring (5), one of which ends of the spring is held on the moving part by a lug functional body with at least one stop and the other end of which is held at the fixed part (3), the body of the spring being held by a support means having a cylinder portion projecting and provided retaining means (37) of the spring body. Device according to claim 9, characterized in that the retaining means are in the form of a flange (37), or one or more abutments, arranged radially at the edge or near the outer edge of the portion of cylinder. Device according to claim 9 or 10, characterized in that the movable part comprises a pre-arming pin (16). Device according to one of Claims 9 to 11, characterized in that the movable part (4) is chosen from a pivoting cover, an infra-red filter type filter, a reflector, an optical module, and that the part fixed (3) is of the type support-piece or set of support pieces. Motor vehicle comprising at least one device according to one of Claims 9 to 13.

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