DE102007030221A1 - Arrangement for operating seat belt tightener, has mechanical energy storage, which releases energy for operating seat belt tightener in dependence of control signal - Google Patents

Abstract

The arrangement has a mechanical energy storage, which releases the energy for operating a seat belt tightener (G) in dependence of a control signal. The mechanical energy storage stores the energy as rotation energy and is supercharged by an electric motor (EM). The mechanical energy storage has a rotating mass, which is brought in effective connection (W) with a winding-up roller of the seat belt tightener in dependence of the control signal. An independent claim is also included for a method for operating a seat belt tightener.

Description

State of the art

The The invention relates to an arrangement or a method for operation a belt tensioner according to the preamble of the independent claims.

Out DE 10029061 A1 It is already known to control a belt tensioner by means of an electric tensioner drive in a potential accident situation. Such a reversible belt tensioner can, however, according to the DE 10061040 A1 also drive by means of compressed air from a pressure accumulator or by a tensioned spring, the pressure accumulator can be refilled during driving and the spring during driving again tensioned.

Disclosure of the invention

The inventive arrangement or the invention In contrast, methods for operating a belt tensioner have the advantage that the mechanical energy storage energy as rotational energy stores, this mechanical energy storage by means of a Electric motor is charged. To use a reversible belt tensioner enough pulling power to operate, for example a power of about 500 watts necessary. Such a Performance accrues per seat belt tensioner in case of danger, in which other consumers will be active and additional Request performance. Therefore, in a purely electromotive Actuation of the belt tensioner high currents necessary to this performance provide. According to the invention by the mechanical energy storage makes it possible in case of danger the required power to a very low electrical To reduce driving power and for the actual Force building to use no electrical energy. Rather, it will by the continuous structure the energy for the strength building stored in advance as mechanical rotational energy. The rotational energy allows a variable high storage of energy and It can be used directly to drive the belt tensioner.

It It is still possible to use comfort features such as fixation or a haptic signaling by a sliding contact to realize. Haptic signaling or fixation in the Seat is according to the prior art mittes a directly coupled electric motor parallel to the safety clamping device performed. Advantage of the invention is that by the sliding contact can be dispensed with an additional drive. The needed for the comfort function and for signaling less force is generated by clocking the loop. The applied force is approximated by the integral the time, the adhesion and the available rotational energy described.

When particular advantage of the invention is to be considered that the required Performance for the belt tensioner as a rotation former before was stored and thus a burden on the electrical system in the vehicle not present in case of danger.

Also the torque is much higher than a pure one electric motor driven reversible belt tensioners and the trigger system time is much shorter.

By those listed in the dependent claims Measures and developments are advantageous improvements that specified in the independent claims Arrangement for operating a belt tensioner or in the independent Claims specified method for operating a Belt tensioner possible.

Especially It is advantageous that the mechanical energy store for the storage as rotational energy has a rotating mass, in response to a control signal with a take-up reel the belt tensioner is brought into operative connection so that the Belt tensioner is tightened. That is, the rotating one Mass is moved in the case of triggering such that the take-up reel a tightening of the belt tensioner performs. This movement can be performed for example by an electric motor. However, it can also by another mechanical energy storage be achieved. Also an electromagnet can work for this Movement be used. This can be a fast and reliable movement can be achieved.

It is also advantageous that for the active compound a drive plate or a driver ring is provided, wherein then the rotating mass for operation on the drive plate or the driving ring is pressed. That's what happens Energy transfer and a tightening of the belt tensioner is thus possible.

It However, it is also possible to use a driver key. The driving wedge works analogously to the operating principle of a self reinforcing wedge brake. These are for triggering only minimal triggering forces necessary, the Wedge in adhesion with the rotating mass brings. Through the movement The wedge then becomes reinforcing between the drive plate and the rotating mass pulled. A release of the connection is performed by turning back the drive plate.

The control signal can advantageously be clocked to realize comfort functions. Due to the clocking, it is possible to control the energy transfer. This can be provided for the operation of the belt tensioner, especially for comfort functions that do not require such a large amount of force, only a portion of the energy that is stored in the mechanical energy storage. This can be achieved in particular by a pulse control, that is, by a single pulse train.

The Active compound can advantageously also by a viscous coupling, in particular by a Fetthaftung be achieved. In this case, preferably the rotating mass over the fatty adhesion with a recording be brought into operative connection. Preferably, an area of which steel and the other cork surface. Both surfaces are coated with grease, which limits the tightening torque.

advantageously, can the arrangement according to the invention within a belt reel to be installed, with a locking lock provided is that locks the belt reel before a return. hereby The applied holding power is without further energy expenditure maintained in case of danger. The structure of the locking lock can be constructed analogous to a wedge-toothed lock, the the turning in the active case only allows in one direction. To relax the device (turn back) are the wedges actively lift off the sprocket. For this purpose, both a spring-wedge combination, as well as a magnetic wedge combination suitable.

The rotating mass can advantageously be an electric motor itself be. Thus, the mechanical energy storage and the provision of the Power integrated in one component.

embodiments The invention are illustrated in the drawings and in the explained in more detail below description.

It demonstrate

1 a block diagram of the arrangement according to the invention,

2 a first embodiment of the operative connection,

3 a driver disk or a driver ring,

4 the production of the active compound by an adhesion wedge,

5 the clocked control signal,

6 the active compound by means of fatty adhesion and

7 a flow chart of the method according to the invention.

1 shows a block diagram of the components of the inventive arrangement in conjunction with other components. An electric motor EM operates a rotating disc M at a constant power. In this case, for example, a power of 10 watts is supplied to the rotating disk M. Thus, a corresponding energy over time in the rotation of the rotating mass M can then be stored. Thus, the electric motor with respect to the resulting currents can be made small, since in the drive case for the belt tensioner, the energy from the mechanical energy storage M is removed. If such a triggering event occurs, then the rotating mass M with the tightening roller AR, which can attract the belt tensioner G, is brought into operative connection W, which is shown symbolically here.

These Active connection is achieved by a control unit SG, if there is a potential accident situation involving a microcontroller μC of the control unit SG of an airbag control unit ABSG gets notified, in response to a signal Crash sensor system CS, which also includes environment sensors and driving dynamics sensors includes. The airbag control unit calculates ABSG in Depending on the sensor signals, how likely one Accident situation will be and then sends a corresponding actuation signal to the control unit SG. The microcontroller μC of the controller SG then sends in response to the actuation signal from Airbag control unit ABSG via an interface IF is a signal indicating the active connection between the mass M and the Pick-up roller AR causes.

It it is possible that the control unit SG and the airbag control unit ABSG merge into a control unit. the interface IF is provided here as an integrated circuit. However, it is also a discrete or a software solution on the microcontroller μC possible.

comes it now to the trigger case, then the stored energy in the mechanical energy storage M via the active compound W transferred to the pick roller R and so a streamlining of the belt G causes. To maintain the holding force and to prevent rewinding is a locking device intended.

To the danger situation is the locking device by discharge or by a situation-based plausibility check electrically unlocked again.

components which are not necessary for understanding the invention, have been omitted here for the sake of simplicity.

2 shows a first operative connection between the rotating mass M and the attraction roller AR. In the case of actuation, the rotating mass M is applied to the attraction roller AR and thereby onto a drive plate in the direction of 20 moved, in which case these two discs wedged into each other by the teeth and so a force transfer is possible. Other active compounds that allow an energy or force transfer, are possible. Since the mass M rotates other power transmissions such as a friction adhesion may be more advantageous. The toothing can be dimensioned correspondingly small in order to produce the active compound and thus the energy transfer safely.

3 shows a drive plate 30 and a driving ring 31 , which serves to produce the operative connection on the part of the attraction roller AR.

4 shows a rotating disc 40 as the rotating mass M and thus as energy storage, on which a liability wedge 41 is moved by an electric motor, for example, to produce the operative connection. The adhesion wedge 41 is then connected to the attraction roller AR, to allow the transfer of energy. The driving wedge works analogously to the operating principle of a self-reinforcing wedge brake. Due to the movement of the rotating mass, the wedge is pulled between the drive disk and the rotating mass in a reinforcing manner. A loosening of the connection is carried out by a reverse rotation of the drive plate eletromotorisch.

5 shows in a signal-time diagram, the control signal 50 , The ordinate S is the amplitude of the control signal 50 ablated. The time is plotted on the abscissa t. The signal 50 shows here two pulses whose length indicates the release of energy from the mechanical energy storage to the attraction roller AR. This makes it possible, for example, to set a low energy extraction over the pulse width for a comfort function. Thus, an active connection is then made only for the pulse width, which is canceled after the end of the pulse.

6 schematically shows a fatty adhesion between a rotating disc 60 and a drive disc 63 , Both slices each have a layer of fat 61 respectively. 62 on. When triggered, the two discs and thus the fat layers 61 and 62 connected. Advantageously, one disc is made of steel and the other of cork. Applying grease limits the tightening torque. The movement of the discs on each other can be achieved for example by an electromagnet. In doing so, a moving disk runs on a sprocket, which transmits the torque to the retractor. The opening of the connection is supported by a spring, which brings the drive plate back to the starting position when the magnet is switched off. Instead of fat, wax can also be used. This fatty adhesion is also known as Viskosekupplung.

7 shows in a flow chart the inventive method. In process step 700 the mechanical energy storage device is charged with energy via the electric motor. In process step 701 is then reached the memory state of the rotating mass, for example, in which process step 702 It is checked whether an energy extraction case, so for example a potential accident situation, or a comfort function is present. If that is the case, then it comes in procedural step 703 for the production of the active compound, which allows the transfer of energy from the mechanical energy storage to the attraction role. This is then in procedural step 704 an operation and thus a tightening of the belt tensioner possible. However, was in process step 702 If it is determined that there is no energy extraction case, then it becomes the memory state 701 returned. Since there is usually a certain loss of friction, it is necessary that the electric motor continuously carries out a power transmission to the mechanical energy storage.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10029061 A1 [0002]
• - DE 10061040 A1 [0002]

Claims (11)

Arrangement for operating a belt tensioner (G), wherein a mechanical energy store (M) is provided, which releases energy for the operation of the belt tensioner (G) as a function of a control signal (S), characterized in that the mechanical energy store (M) the Energy stores as rotational energy and is charged by an electric motor. Arrangement according to claim 1, characterized that the mechanical energy store (M) at least one rotating Has ground in response to the control signal with a winding roller (AR) of the belt tensioner (G) in operative connection is brought that the belt tensioner (G) is tightened. Arrangement according to claim 2, characterized that for the operative connection the take-up roll (AR) a Mitnehmerscheibe or a driving ring, wherein the rotating Mass (M) for operation on the drive plate or the driving ring is pressed. Arrangement according to claim 2, characterized that the operative connection realized by at least one driver key is. Arrangement according to one of the preceding claims, characterized in that the control signal is clocked. Arrangement according to claim 2, characterized that the active compound is realized by means of a fatty adhesion. Arrangement according to claim 6, characterized that the rotating mass (M) on the fatty adhesion with a recording establishes the operative connection. Arrangement according to claim 7, characterized that the rotating mass and the receptacle are either steel or a cork surface. Arrangement according to one of claims 1 to 8, characterized in that the arrangement within a belt reel is installed, the belt roll by means of a locking lock is lockable before a return. Arrangement according to one of claims 2 to 9, characterized in that the rotating mass is an electric motor is. Method for operating a belt tensioner (G), wherein Energy for operation from a mechanical energy storage (M) enabled in response to a control signal is characterized in that by means of the mechanical energy storage (M) electromagnetically charged the energy as rotational energy and saved.