DE10314180A1 - Pedestrian protection arrangement located at front of vehicle, comprising mechanism for easy return to prior position after activation - Google Patents

Abstract

A mechanism assembled of four swivel mounted levers (18, 20, 22, 24) and two springs (70, 90) is positioned at the front of the car body, using the lower part of the hinges (12) holding the bonnet as an upper holding element. When the mechanism is activated by a detonator (49) in case of an impact the bonnet is lifted against the forces of the springs (70, 90). For returning the mechanism back into its prior position the bonnet is lifted higher, causing another lever (54) to touch a stop located at a second lever (52) and resulting in the connected levers (18, 20, 22, 24) moving around their rotation axles into a stretched shape.

Description

• a) ein erstes Teil und ein relativ zu dem ersten Teil verlagerbar angeordnetes zweites Teil, wobei das erste Teil und das zweite Teil zum Anschließen an der Fahrzeugkarosserie bzw. an dem Scharnier ausgebildet sind;
• b) eine Verriegelungseinrichtung, die in der Ausgangsposition das zweite Teil relativ zu dem ersten Teil festlegt; und
• c) eine Energiespeichereinrichtung, die zwischen dem ersten Teil und dem zweiten Teil angeschlossen ist, um dieses aus einer Ausgangsposition in eine Ausfahrposition zu verlagern, und die derart ausgebildet ist, dass sie das zweite Teil elastisch nachgiebig in der Ausfahrposition hält.

The present invention relates to motor vehicles, and more particularly to a pedestrian protection actuator for displacing the front hood of a motor vehicle into a guard position raised relative to the normal position, the actuator being adapted to be mounted between a hinge of the front hood and the vehicle body, comprising:

• a) a first part and a relative to the first part displaceably arranged second part, wherein the first part and the second part are designed for connection to the vehicle body or on the hinge;
• b) a locking device, which defines the second part relative to the first part in the starting position; and
• c) an energy storage device connected between the first part and the second part to displace it from a home position to an extended position, and configured to elastically resiliently hold the second part in the extended position.

Similar pedestrian protection actuators are for example off DE 100 33 126 A1 and DE 197 21 565 A1 known.

Pedestrian protection actuators used in the front hoods of motor vehicles in order for the case a collision with a pedestrian or with a cyclist to minimize the risk of injury to this. sensors which are arranged, for example, in the area of the front bumper an impact and solve in a certain speed range the pedestrian protection actuator (s) from, which are arranged on the front hood. Typically they are several, preferably two or four, pedestrian protection actuators on the Front hood of a motor vehicle arranged. It is cheap, though Pedestrian Protection actuators for example, between the body of the vehicle and the hinge foot of the hinge, with the front hood movably connected to the motor vehicle is, are provided. The reason for this is that then the hinge can be lifted together with the front hood and no mechanism must be provided in order to solve before lifting the bonnet or to open the hinge.

A triggering of the actuator takes place typically not in such situations where the vehicle is nearly at standstill. Tripping is typically then also not if the vehicle exceeds the speed at which the pedestrian protection actuator can no longer develop an effect.

Basically, very short opening hours required to ensure that the front cover is in place Impact already located in the protective position or at least already raised from the normal position. Typically, the pedestrian protection actuator stops the front hood in the protection position. He is therefore favorably Also designed such that it the front hood in the protective position elastically yielding and thus dampens the impact of the pedestrian. This elastic Resiliency of the entire bonnet is a protective mechanism. Another protective mechanism is based on the fact that the bonnet in the raised protective position is easier to deform, as the underneath parts, typically the engine of the vehicle and ancillaries, are far enough away from the hood to make a deformation the relatively soft skin of the hood to admit. Criteria, the opening speed co-determine the front hood, are on the one hand provided by the energy storage device opening force pedestrian protection actuator and on the other hand, the time required to unlock the locking device is needed. Both mechanisms are interrelated, because the breakout force for the locking device is normally larger, the bigger the energy provided by the energy storage device the first and the second part is. For that reason already have been Pedestrian Protection actuators proposed as the triggering elements for the Locking device use pyrotechnic pushers, or which use pyrotechnic elements as energy storage devices. Such energy storage devices have the disadvantage that before reuse of the pedestrian protection actuator after a Failure must first be replaced in the workshop.

Basically, a problem with such actuators is that a significant proportion of the tripping occurs in minor accidents or insignificant stabs. It is easy to see that it is highly undesirable for such remplers to incur a costly workshop visit for the sole purpose of getting the actuators back in service. It is obvious that this will significantly affect the acceptance of such actuators for potential buyers. In particular, it is not only a problem to restore the pedestrian protection actuator by replacing the pyrotechnic element in a ready-to-use state, but it is also often not possible for the user of the vehicle to reset the hood back to its original position. The energy storage devices required to lift the hood, typically springs, are often designed so that it is virtually impossible for the user to manually reset them, or there is a risk of damage to the front when manually reset Hood. It is necessary for several reasons to return the front hood of the motor vehicle as soon as possible after a release in the normal position. So the bonnet is a not inconsiderable structural component of the body. The closed and locked front hood is incorporated into the power transmission paths of the body, which provide, for example in an accident for a controlled destruction of kinetic energy to protect the occupants of the vehicle. Another reason is the insufficient attachment of the front hood to the vehicle body in the raised state. For example, the bonnet raised after a minor accident may break loose in the event of an accident and cause serious damage, particularly to the vehicle crew or third parties.

The problem of insufficient attachment the bonnet when triggered Pedestrian protection actuator is in many pedestrian protection actuators, especially in those with compression springs as energy storage devices, a very special problem. Keep in such constructions essentially only the relaxed compression springs on the bonnet the body of the vehicle. It's easy to imagine how relatively easy the front hood can be completely demolished, for example in a strong braking maneuver or in a terminal impact. It is therefore at the latest development In this field always been an issue, the attachment the bonnet on the body in the tripped condition of the pedestrian protection actuator to improve.

Another problem with such Pedestrian Protection actuators is the space required. So the front hood hinge is typical on the side member of Body arranged, which is typically a sheet metal bent Rectangular profile is. This rectangular profile is indeed hollow inside, it is however the highest undesirable, big openings to provide in this side member, around the pedestrian protection actuator to arrange in this cavity, as these openings to a weakening of the Longitudinal member lead. In particular Structures with compression springs as energy storage devices typically have a cuboid shape. Corresponding big would have an opening in be the side member, around these pedestrian protection actuators take. in principle are therefore possible low-profile pedestrian protection actuators desirable, which are installed in or just next to the longitudinal member can be.

It is therefore the object of the present invention a pedestrian protection actuator provide the described type, the simple and without tools be reversed from the extended position to the starting position can.

• d) eine Führungseinrichtung, die an dem ersten Teil und dem zweiten Teil angeschlossen ist und derart ausgebildet ist, dass sie die Öffnungsbewegung der in die Schutzposition angehobenen Fronthaube in eine Bewegung des zweiten Teils aus der Ausfahrposition in die Ausgangsposition gegen die elastisch nachgiebige Kraft der Energiespeichereinrichtung umsetzt.

This object is achieved by a pedestrian protection actuator of the type described by

• d) a guide device which is connected to the first part and the second part and is designed such that it the opening movement of the raised to the protective position bonnet in a movement of the second part from the extended position to the starting position against the elastically yielding force of the energy storage device implements.

Through the appropriate training the management facility Is it possible, in the course of the simple opening movement the hood to reset the actuator to its original position, until the locking device, the first part relative to the second Restarts part in the starting position. This can be the lever The front hood used to reset or reversing the second part against the elastically yielding force of the energy storage device easier to reset. The power of the energy storage device is typically so high that they are only pushed back by the user to the starting position can, if this is based on it with his entire weight on it. The is one of the o.g. establish undesirable Type of provision. In contrast, the present invention allows both actuators under the two hood hinges simultaneously with a simple opening of the Reset the engine hood. In addition to the lever arm provided by the hood also supports the weight of the bonnet the default of the actuator. It should be noted that the provision not necessarily over the entire opening path the bonnet must be made, but that, for example, only one short movement path for the provision sufficient. conveniently, is this movement path for the provision nearby the complete opening position the front hood. It should be noted that the management facility not necessarily directly connected to the first part and the second part have to be. It can be connected, for example, via intermediate elements his. in principle One can also imagine this closing principle in pedestrian protection actuators to use, which are not connected to a hinge foot, but are arranged for example in the area of the hood lock. On The position of the lever of the bonnet then becomes a simple oblong Be provided lever element.

The leadership device can also preferably be designed so that they in the extended state a ensure safe connection of the hood to the body of the vehicle.

Preferably, the guide device is a lever arrangement. Levers connected to pivot points on the first and second part are, represent a very simple and inexpensive to manufacture guide assembly. In addition, such lever elements can be made very flat, which accommodates the space requirements. Alternatively, however, a slotted guide or another type of guide could be provided.

The first part, the second part and the lever (s) of the lever arrangement may be in the form of flat material struts be formed, so that the basic structure of the pedestrian protection actuator in one Direction parallel to the axes of rotation substantially to the thickness limited to the flat material struts can be. It even imaginable, the first or the second part pedestrian protection actuator form integrally with a body component, so that the basic structure pedestrian protection actuator about the material thickness this part is reduced. The motion lever, on the first Part and rotatably connected to the second part, provides a secure connection between the first part and the second part sure, about which also in the extended position of the pedestrian protection actuator considerable Transmit forces can be. The Energy storage device can be connected to the motion lever so be that they have a torque around one of the pivot points of the motion lever in the direction of the extended position.

Preferably, the guide means is a Four-joint lever assembly, and there are at least two movement levers rotatably connected between the first part and the second part. The Training of the management institution as a four-bar lever arrangement is therefore particularly preferred because with a four-joint design many different Movement processes and motion operations are feasible. The expert can, for example, for the present Invention form the four-bar linkage arrangement such that from for example, a certain predetermined stop of the hinge the front hood in a further movement in the opening direction of the four-bar linkage assembly the second part moved to the first part too. So can the expert For example, by simulation, determine if the four-bar linkage assembly indeed this movement between the first and the second part causes or whether instead there is an inhibition in the four-bar linkage in a further movement of the front hood comes in the opening direction.

It can be at least one energy storage device be connected to one of the movement lever. It can, however in each case one energy storage device at each of the movement levers or several energy storage devices may be connected. The energy storage device can also independently of the management facility be provided between the first part and the second part.

Preferably, the energy storage device a spring and more preferably a torsion spring, wherein it is particularly preferred whose torsion axis substantially with one of the axes of rotation of one of the pivot points of the motion lever to arrange coincidentally. So it can be cheap, one or more Spiral springs to use as energy storage devices. coil springs can be very flat, so that the basically very flat pedestrian protection actuator by the coil spring does not become much thicker. Alternatively, a Torsionally stressed coil spring as energy storage device be used. This can for example be extended Bolt can be arranged around, at the same time the pintle between forms the first and the second part and the movement lever. The bolt with the coil spring, for example, by a relatively small opening through in the side member of the Vehicle can be arranged.

Preferably, a pyrotechnic Push element connected to the locking device, that it is triggered the lock picks up and a shift between the first and the second part. Pyrotechnic pushers can provide particularly high triggering forces, whereby the opening time of the actuator shortened can be.

The energy storage device preferably has a pyrotechnic push element. Pyrotechnic push elements can provide very large forces by their explosive release in a relatively short time, so that the movement between the first and the second part, ie the opening movement of the actuator, can be completed within a very short time. The pyrotechnic pusher alone or in combination with other energy storage devices, such as springs, pneumatic and hydraulic storage devices, etc. may form the energy storage device. It is particularly advantageous if the pyrotechnic thrust element forms the energy storage device in conjunction with springs. Thus, on the one hand, very short tripping times can be realized, and it can further be ensured that the actuator is not fixed in the extended position, but can be moved back against the force of a spring, so that it can dampen the impact of a person. The ratio of spring force to the force of the pyrotechnic thrust element can be chosen so that, for example, the essential opening force is provided by the pyrotechnic thrust element or by the spring or that both contribute substantially equal share to the opening of the actuator. Particularly preferably, the pyrotechnic thrust element is arranged and designed so that it accelerates primarily at the beginning of the displacement of the masses of the actuator and the hood or supports their acceleration to quickly overcome the inertia. The actuator may in particular be designed so that the pyrotechnic pusher is only for a fraction of the total travel of the actuator, eg less than half, in particular less than 20%, less than 10%, less than 5% and less, with this in operative connection , The remaining path of movement can then be covered by the spring etc.

Preferably, an electromagnet so connected to the locking device that he at activity the lock picks up and a shift between the first Part and the second part allows.

The locking device can For example, a flat locking hook or a locking pawl be, for example, at the first or the second Part is rotatably arranged. The hook can, for example, with a nose interact on the movement lever, which in the initial state Locking ensures. The solenoid can so on the pedestrian protection actuator be arranged such that he arranged, for example, over a in the core of the electromagnet Anchor acts on the locking hook and unlock the lock can. It is especially cheap when the locking hook is formed so that upon a return movement pedestrian protection actuator from the extended position to the starting position, the nose on the Motion lever the locking hook against the force of a bias shifted until the nose with the hook locked and the pedestrian protection actuator again in the starting position.

The invention further relates to a Hinge for the Front hood of a motor vehicle, having a flap connection for connection to the front hood and a hinge foot with a attached pedestrian protection actuator according to the present Invention.

Preferably, the second part forms of the actuator the hinge foot. The hinge foot and the second part of the actuator can thus be integrally formed, which saves space, cost and weight.

Preferably, a four-bar hinge between provided the flap connection and the hinge foot, so that at a particular embodiment represents the hinge with the actuator as a six-joint hinge.

Preferably, the four-bar hinge has two Lever elements connected to two pivot points on the second part are, and preferably, the four-bar linkage arrangement two Movement lever on, which at the second part at the same pivot points are connected.

In this construction form pedestrian protection actuator and the four-bar hinge a six-link system. The six-joint system has u.a. the big one Advantage that the hexagon joint can be designed so that in the release pedestrian protection actuator a certain predetermined path of movement of the front hood set by design can be. In particular, the hexagon joint can be adjusted that at a trigger the pedestrian protection actuator, the windscreen, i. at the back of the bonnet, is connected, the front hood performs a movement that essentially just a twisting motion around the front in nearby the bumper arranged hood lock the front hood causes. This construction allows it to raise the hood to the protection position without the hood lock to unlock. If one compares only the pedestrian protection actuator alone, so would in a motion mediated by the actuator alone, the bonnet additionally for rotation about the hood lock also a movement in the longitudinal direction of the vehicle have to, what e.g. would require unlocking the hood lock.

Preferably, a torsion spring is connected to one of the pivot points on the second part such that the torsion axis of the torsion spring coincides with the axis of rotation through the pivot point. It is particularly preferred if the torsion spring is supported against the corresponding lever element and the corresponding movement lever. In principle, it is favorable to arrange one or more torsion springs at one pivot point or a plurality of torsion springs at a plurality of pivot points on the first part and / or the second part of the pedestrian protection actuator. The torsion springs can then be supported against the movement lever and the first or second part. However, if the torsion spring (s) is disposed on the second part (are) and (in each case) against the movement lever and the associated lever element (s) supported, the force required for the recovery can be reduced by the fact that after the release of the Actuator the closed hood is opened and then with the hood open the actuator is reset, ie, the hood is moved further in the opening direction until the locking device defines the first part relative to the second part. If then the opened hood is closed against the force of the spring, then the pedestrian protection actuator is again completely in the starting position. Another advantage of such a construction is that the energy storage device of the pedestrian protection actuator, ie in the present case the torsion spring, supports the normal opening and closing of the front hood. This force provided by the spring may be sized to support the bonnet opening sufficiently so that the air pressure springs typically present in current vehicles are dispensable to support the bonnet opening. It should be noted that this feature of such an arrangement of the Öffnungsbewe is supportive spring for itself and in particular without individual features of claim 1 is considered inventive.

Preferably, the locking device arranged on the first part. As already stated, can the locking device arranged against a biasing force Locking hook or a locking pawl, for example is rotatable about a pivot point and into which a nose can engage, which is provided for example on one of the movement lever. Of the Locking hook preferably has a sliding surface, along the reset pedestrian protection actuator the arranged on the movement lever nose can slide, the locking hook shifted against the biasing force until the locking hook finally driven by the preload force locks with the nose and determines this.

Preferably, a hinge stop intended. In particular, it is preferred if the hinge is such is formed that when opening the bonnet from the extended position the bonnet up to the Hinge stop to be opened before the first part relative to the second part in the guide assembly relocated. Only when reaching the stop the hinge is fixed, and it comes to a defined movement of the first part relative to the second part under the leadership through the leadership arrangement dependent on from the further movement of the front hood in the opening direction. You can however, just imagine that both movements, i. the closing movement of the actuator and the actual opening movement overlay the hood. The attack may be, for example, the usual Stop the bonnet act. However, it can also be a separate one Stop for be provided the front cover.

The invention further relates to a Motor vehicle having a front hood and an attached thereto hinge according to the invention.

Preferably, the actuator is behind near the front hood the windshield of the vehicle and is a hood lock front arranged on the front hood, wherein the actuator is preferably such is formed, that during a movement of the front hood from the Normal position in the protective position and the front cover substantially makes a rotational movement in the main lock. In the preferred construction of the Hinges as a six-jointed joint can do this through the design of this hexagon joint be given constructive.

The invention and embodiments The invention will be described below with reference to exemplary embodiments explained. Show it:

1 a hinge according to the invention with pedestrian protection actuator according to a first embodiment;

2 a hinge according to the invention with pedestrian protection actuator according to a second embodiment;

3 an inventive hinge with pedestrian protection actuator according to a third embodiment;

4 the hinge according to the invention according to 3 , viewed in a view from the left according to 3 ;

5 a schematic representation of a hinge according to the invention in the extended position;

6 a schematic representation of the hinge according to the invention in an extended position with the hood open;

7 a schematic representation of the hinge according to the invention in the starting position with the hood open;

8th a schematic representation of the hinge according to the invention in the starting position with the hood closed;

9 an inventive hinge with pedestrian protection actuator according to a fourth embodiment;

10 an inventive hinge with pedestrian protection actuator according to a fifth embodiment in the starting position with the hood closed;

11 the pedestrian protection actuator of 10 in the extended position with closed hood;

12 the pedestrian protection actuator of 10 in the extended position with open hood; and

13 the pedestrian protection actuator according to 10 in the starting position with open hood.

In the 1 you can see a front hood hinge 12 comprising a four-bar hinge 14 and an integrated pedestrian protection actuator 16 , The pedestrian protection actuator 16 has a first part 18 for connection to the body of the vehicle and a second part 20 up, relative to the first part 18 is arranged displaceably and for connection to the front hood or the bonnet hinge 12 is trained. In the illustrated embodiment, in which the pedestrian protection actuator 16 in the hinge 12 integrated, represents the second part 20 essentially the usual hinge foot. It also recognizes two movement lever 22 and 24 at a first pivot point 26 respectively. 28 and at a second pivot point 30 respectively. 32 at the first part 18 or the second part 20 are connected and form a four-bar linkage. The 1 shows the starting position of the pedestrian protection actuator 16 , It also recognizes two energy storage devices 34 . 36 , each egg nem the motion lever 22 and 24 are assigned and keep them biased from the starting position in the direction of the extended position in the pedestrian protection actuator is triggered.

The movement levers 22 . 24 also form a leadership facility 17 for the return of the actuator 16 in the starting position, as described below with reference to the 10 to 13 will be explained.

It also recognizes a locking device 38 which essentially consists of a locking pawl 40 and one on one of the motion levers 22 . 24 arranged nose 42 is constructed. The locking pawl or the locking hook 40 is around a cone 44 rotatably mounted and, for example, biased by a spring (not shown) in a clockwise direction, so that it tends to engage the nose 42 keeps upright. It also recognizes a sliding surface 46 along which the nose 42 can slip on the reset, the locking hook 40 against the bias can shift counterclockwise until the nose 42 engages in the locking hook and the pedestrian protection actuator 16 in the starting position again.

A triggering device, in the present case an electromagnet 48 , works with the locking hook 40 together. In this case, the lifting conditions on the locking hook, ie the distance from the pivot to the nose or the distance from the pivot 44 to the touch point 50 be chosen with the triggering device so that the solenoid is certainly sufficient to provide the necessary triggering forces to lift the lock within a very short time.

The four-bar hinge has two lever elements 52 and 54 on, which are essentially about the same pivot points 30 . 32 like the movement levers 22 respectively. 24 at the second part 20 are rotatably connected. The lever elements 52 . 54 are also rotatable at the other end at the flap connection 56 connected. The pivot points 30 . 32 are from cones 58 . 60 formed, which rotatably on the movement levers 22 . 24 and the second part 24 are stored, but relative to the lever elements 52 . 54 of the four-bar hinge 14 are fixed. The spiral springs 34 . 36 are at their inner end fixed to the substantially octagonal contour of the pins 58 . 60 engaged and are at their free outer end to stop bolts 62 . 64 on the motion levers 24 respectively. 22 established. In other words, the coil spring is supported 36 with its inner end against the lever element 54 of the four-bar hinge and with its free end against the movement lever 24 , The same applies to the coil spring 34 , In such an embodiment, the coil springs 34 . 36 support the opening and closing of the bonnet during normal operation. In addition, the force required for the provision of the pedestrian protection actuator 16 is required after a trip, significantly reduced with the hood open, so that a user easily Fußgän gerschutz actuator 16 can reset and lock in its original position.

In general, instead of the electromagnet, other triggering devices, for example pressurized or pneumatically actuated triggering devices or pyrotechnic pusher elements, can be provided as the triggering device. Correspondingly, a pyrotechnic push element or another, for example, the above-mentioned pressurized elements as an energy storage device in place of the coil springs 34 . 36 be used. It should be noted that the energy storage device does not necessarily have to provide a torsional moment. It is also possible to implement the linear movement of an energy store in the required rotational movement of a movement lever by means of a corresponding articulation.

It continues to apply that the first part 18 may be an integral part of the vehicle body, for example a side wall of a side member, and only during the assembly of the actuator 16 or the hinge 12 on the hinge 12 is mounted.

The hinge according to the invention 12 can also be painted relatively easily. The temperatures encountered in the usual catalytic Tauchbadlackierung not affect the functionality of the hinge. With a slightly higher design of the springs is a problem-free release of the pedestrian protection actuator 16 ensured. The magnet can be screwed, for example, after a catalytic Tauchbadlackierung.

On the construction of the 1 one recognizes that the hinge according to the invention 12 with the integrated pedestrian protection actuator 16 can be very narrow. In particular, the pedestrian protection actuator 16 be made very narrow, so that its strength is essentially determined by the material thickness or the volume of the triggering device. A suitable material is conventional flat material, as it is already used for four-joint hinges of today's design.

The embodiment of the 2 is very similar to that of 1 , wherein the energy storage devices, ie the coil springs 34 . 36 at the pivot points 26 respectively. 28 the motion lever 22 respectively. 24 at the first part 18 are provided. Again, the inner end of the coil spring 36 on a pivot 66 respectively. 68 established. On the pivot 66 . 68 is the movement lever 24 respectively. 22 rotatably mounted. The pivot 66 . 68 is stuck to the first part 18 connected so that the coil spring 34 . 36 against the first part 18 and the motion lever 22 respectively. 24 supported. Compared with the embodiment of 1 assist in the embodiment of 2 the feathers 32 . 34 not the opening and closing of the bonnet at Nor malbetrieb. The same applies when resetting the pedestrian protection actuator 16 the spring 34 respectively. 36 to push back completely, so that the reset, compared with the embodiment of 1 something is more difficult. As a result of the leverage a provision is still relatively easy.

In the 3 and 4 a third embodiment is shown, wherein the view of 4 a view from the left in the direction of the arrow 80 in 3 is. The basic structure of this third embodiment is again relatively similar to that of the first two embodiments. The main difference in this embodiment is that a coil spring 70 is provided as energy storage device. The spiral spring 70 only works with a movement lever 22 together and is around a bolt 78 arranged. The spiral spring 70 is at one end 72 fixed to the bolt. The bolt 78 turn, is stuck to the first part 18 attached. The second end of the coil spring 70 acts with an extension 76 of the movement lever 22 together. Will the lock of the locking device 38 lifted, so turns the coil spring 70 the movement lever 22 in the counterclockwise direction. Also in this embodiment, the spring supports 70 in the starting position of the pedestrian protection actuator 16 not the usual opening and closing movement of the bonnet.

In the 5 to 8th schematically is a hinge according to the invention 12 with a front hood A connected thereto, for the following states: 5 - pedestrian protection actuator 16 in the extended position with closed hood; 6 - pedestrian protection actuator 16 in the extended position with open hood; 7 - pedestrian protection actuator 16 in the starting position with the hood open; and 8th - pedestrian protection actuator 16 in the starting position with the hood closed. As already mentioned, the letter A denotes the front hood. With the letters B and C are the movement levers 24 respectively. 22 with the letter D and E are the lever elements 54 respectively. 52 of the four-bar hinge 14 and with the letter G is the flap connection 56 designated. Further, with the letter F, the second part 20 pedestrian protection actuator 14 designated. It can also be seen that the first part 18 not shown, but only the fulcrums 1 . 2 (corresponding 28 respectively. 26 ) are drawn as firmly attached to the bodywork. Torsion springs can basically at one or more of the pivot points 1 . 2 . 3 and 4 be provided. The pivot points 3 and 4 have the already mentioned advantage of the spring support of the usual main operation and the easier reset. On the other hand, the fulcrums 1 and 2 for the spring mounting the advantage that they are cheaper for space reasons, since the spring can be arranged here, for example, substantially parallel to the longitudinal beam (see 1 and 2 ) or can be arranged through an opening in the longitudinal member (cf., the embodiment according to FIG 3 and 4 ). With respect to the embodiment according to 3 and 4 It should be noted that a second coil spring alternatively or additionally to the second movement lever 24 can be provided.

At the representations of 5 and until 8th can be seen further that by a suitable choice of length of the "bars" B, C, D, E, F, G and the distance between the pivot points 1 and 2 the hex hinge of the hinge 12 can be designed so that when an operation of the pedestrian protection actuator 16 the hood A around the fulcrum 7 at the front hood lock 80 turns and no longitudinal movement at the point 7 is required. Accordingly, it can be ensured by a suitable design that a movement of the front hood in the opening direction, the four-bar linkage assembly safely moves back from the extended position to the starting position.

It should also be noted that it is relatively easy, the pedestrian protection actuator 16 in the hinge according to the invention 12 put out of action, namely, for example, with a bolt of the movement lever 22 . 24 or the second part 20 is locked by, for example, it is screwed to the side rail. Then the energy storage device and the triggering device are not required. Such a blockage may be required, for example, for countries in which a pedestrian protection actuator is not permitted or is not required in the future. It should be noted that the hinge according to the invention 12 or the pedestrian protection actuator according to the invention 16 can also be used in vehicles in which the front hood A at a release of the pedestrian protection actuator 16 not on a front hood lock 80 is determined because, for example, the lock is released and / or a pedestrian protection actuator is provided in the front area.

In the 9 is a hinge according to the invention 12 shown according to a fourth embodiment. As in the previous embodiments, identical reference numerals denote the same or corresponding technical features in the embodiment. In particular, one recognizes, compared with previous embodiments, in the 9 a pyrotechnic thrust element 49 compared to the previous embodiments at the location of the electromagnet 48 is arranged and on a lever 82 the locking device slightly offset from the fulcrum 84 acts. It can be seen that the lever 82 or the pivot point 84 on an extension 86 of the movement lever 22 is arranged. He might as well be on the movement lever 24 be provided or on the second part 20 be provided.

It can be seen that when the pyrotechnic push element is triggered 49 this on the lever 82 a torque around the pivot point 84 Apply so that this from the stop 88 is released. At the same time, the pyrotechnic push element accelerates over the extension 86 the movement lever 22 in the opening direction to that of the springs 34 . 70 provided trigger power to assist. The lever 82 can be, for example, a spring around the fulcrum 84 be so biased that after a reset by hand the lever 82 clicks and the hinge 12 or the actuator 16 in the starting position.

One recognizes in the 9 Furthermore, that basically different types of springs can be provided, the arbitrary pivot points 26 . 28 . 30 . 32 can be assigned. In the present case is a coil spring 70 in combination with a spiral spring 24 at the pivot points 26 respectively. 30 each in the manner already described (see, in particular 1 . 3 and 4 ) combined.

In the 10 to 13 is shown with reference to a fifth embodiment, as according to the invention, the provision of the actuator 16 from the extended position to the starting position. As with the previous drawings, it applies that corresponding elements are provided with the same reference numerals.

The fifth embodiment has a short coil spring 90 around the fulcrum as compared with the fourth embodiment 30 up, with one end to it 92 at the edge of the movement lever 22 supported and with its second end to a stop pin on the lever member 52 supported. This spring 90 So also supports, such as the spring 34 of the 9 , the regular opening movement of the front hood.

At a release of the actuator 16 this moves the hinge 12 from the in 10 shown starting position in the in the 11 shown extended position. The springs hold in this position 90 . 70 the front hood in a raised position. For example, if the bonnet is pressed down when attempting to close it, or when impacted, it will act against an elastically yielding force of the springs 70 and 90 ,

Shall be activated after tripping the pedestrian protection actuator 16 back to the starting position of the 10 be reset, so is the at the Hau benanbindung 56 connected front hood opened. In the in 12 The illustration shown is the actuator 16 in the extended position and the hood is fully open. An attack 94 at the pivot point of the lever element 52 at the hood connection 56 comes with the lever element 54 in abutment, leaving the four-bar hinge 14 is blocked. Another movement of the front hood in the opening direction with locked four-bar hinge 14 has in the illustrated design of the four-bar linkage 18 . 20 . 22 . 24 a force substantially in the direction of the second part 20 to the lower right in the illustration of the 12 result. In other words, this further movement in the opening direction has the tendency to move out of the levers 22 and 20 formed toggle around its pivot point 30 to stretch. This stretching motion eventually leads to the in 13 shown representation in which of the movement lever 22 and the second part 20 formed toggle is substantially stretched and thus the actuator 16 in its initial position of the locking device 38 is fixed. The pedestrian protection actuator 16 is after the replacement of the pyrotechnic pusher 49 again operational or immediately ready for use again, if, for example, the previously described electromagnet is used instead of the pyrotechnic thrust element.

It should be noted that by the use of a guide device according to the invention 17 between the first part 18 and the second part 20 a provision of the actuator 16 is possible, regardless of how the energy storage device is formed and on the actuator 16 is arranged. For example, instead of one on the motion lever 22 . 24 acting energy storage device also be provided an energy storage device, which directly or indirectly between the first part 18 and the second part 20 is arranged, for example, a set of parallel coil springs.

Claims (14)

Pedestrian Protection Actuator ( 16 ) for displacing a front hood (A) of a motor vehicle into a protective position raised relative to the normal position, wherein the actuator ( 16 ) is designed such that it is connected between a hinge ( 12 ) of the front hood (A) and the vehicle body can be mounted, comprising: (a) a first part ( 18 ) and a relative to the first part ( 18 ) displaceably arranged second part ( 20 ), the first part ( 18 ) and the second part ( 20 ) for connection to the vehicle body or to the hinge ( 12 ) are formed; (b) a locking device ( 38 ), which in the starting position is the second part ( 20 ) relative to the first part ( 18 ); and (c) an energy storage device located between the first part ( 18 ) and the second part ( 20 ) to move it from an initial position to an extended position, and which is designed such that it the second part ( 20 ) elastically resilient in the extended position holds; characterized by (d) a guiding device ( 17 ), the first part ( 18 ) and the second part ( 20 ) is connected and is designed such that it moves the opening movement of the raised into the protective position bonnet in a movement of the second part ( 20 ) from the extended position to the starting position against the elastically yielding force of the energy storage device () converts. Actuator ( 16 ) according to claim 1, characterized in that the guide device ( 17 ) a lever arrangement ( 22 . 24 ). Actuator ( 16 ) according to claim 2, characterized in that the guide device ( 17 ) a four-bar lever arrangement ( 18 . 20 . 22 . 24 ). Actuator ( 16 ) according to one of claims 1 to 3, characterized in that the energy storage device is a spring ( 34 . 36 . 70 . 90 ) having. Actuator ( 16 ) according to one of claims 1 to 4, characterized in that the energy storage device is a pyrotechnic thrust element ( 49 ) having. Actuator ( 16 ) according to one of claims 1 to 5, characterized in that an electromagnet ( 48 ) on the locking device ( 38 ) is connected, that it releases the lock on actuation and a shift between the first part ( 18 ) and the second part ( 20 ) allows. Actuator ( 16 ) according to one of claims 2 to 6, characterized in that the energy storage device on the lever arrangement ( 22 . 24 ) connected. Hinge ( 12 ) for the front hood (A) of a motor vehicle having a flap connection ( 56 ) for connection to the front hood (A) and a hinge foot with a pedestrian protection actuator connected thereto ( 16 ) according to one of claims 1 to 7. Hinge ( 12 ) according to claim 8, characterized in that the second part ( 20 ) of the actuator ( 16 ) forms the hinge foot. Hinge ( 12 ) according to claim 8 or 9, characterized in that a four-joint hinge ( 14 ) between the flap connection ( 56 ) and the hinge foot is provided. Hinge ( 12 ) according to claim 9 and 10, wherein the four-joint hinge ( 14 ) two lever elements ( 52 . 54 ), which at two points of rotation ( 30 . 32 ) in the second part ( 20 ), and the lever arrangement has two movement levers ( 22 . 24 ) located at the second part ( 20 ) at the same points of rotation ( 30 . 32 ) are connected. Hinge ( 12 ) according to claim 11, characterized in that a torsion spring ( 34 . 36 . 70 . 90 ) at one of the fulcrums ( 30 . 32 ) is connected such that the torsion axis of the torsion spring ( 34 . 36 . 70 . 90 ) with the axis of rotation through the pivot point ( 30 . 32 ) coincides and the torsion spring ( 34 . 36 . 70 . 90 ) against the corresponding lever element ( 22 . 24 ) and the corresponding movement lever ( 52 . 54 ) is supported. Hinge ( 12 ) according to one of claims 8 to 12, characterized in that a hinge stop ( 94 ) is provided. Motor vehicle, comprising a front hood (A) and a hinge connected thereto ( 12 ) according to any one of claims 8 to 13.