The present invention relates to a parking brake device comprising a spring element and an actuating element that acts upon the spring element, wherein by applying an actuating force to the actuating element the parking brake device is transferrable between a brake-inactive release position and a brake-active parking position.
Parking brake devices of this type are prior art. They are provided in a vehicle brake system in order to supply not only a braking effect of the brake system triggered by actuation of the brake pedal during operation of the vehicle but also a parking brake effect, e.g. initiated by actuation of a hand brake lever.
Such a parking brake device is known, for example, from DE 197 11 382 C2. The parking brake device is provided on a brake caliper of a vehicle brake system. It comprises an actuating element, which may be set in rotation by means of an electric motor and a worm gear. The actuating element is drive-connected to a threaded sleeve, which in order to achieve a parking brake effect may enter via a spring element into interaction with a brake piston of the vehicle brake system. By rotation of the actuating element, the threaded sleeve may be moved back and forth between the release position and the parking position. In the release position there is no interaction between the threaded sleeve and the brake piston. Upon transfer from the release position to the parking position, the threaded sleeve moves towards the spring element, comes into contact therewith and presses it onto the brake piston of the vehicle brake system, which brake piston in order to achieve a parking brake effect then presses a brake lining onto a brake disc. In so doing, the spring element is compressed. Given a cooling-related shrinkage of brake linings and brake disc, the spring element may then expand once more and ensure a sufficiently good parking brake effect despite the shrinkage of brake linings and brake disc.
The parking brake device according to DE 197 11 382 C2 does however have the drawback that a relatively long infeed travel of the threaded sleeve is needed to achieve a transfer from the release position to the parking position. The reason for this is that in the release position no interaction between threaded sleeve and brake piston is desired and so the threaded sleeve has to be moved a corresponding distance away from the spring element. A further reason for the long infeed travel is that the threaded sleeve during transfer from the release position to the parking position acts upon the fully relaxed spring element and has to compress the spring element over a relatively large section in order to exert a high enough force on the brake piston to achieve the desired parking brake effect also after cooling-related shrinkage of brake linings and brake disc. Furthermore, with increasing compression of the spring element in accordance with the force-displacement characteristic thereof the actuating force to be summoned up rises continuously, with the result that the electric motor has to be of a powerful design in order to be able to guarantee a sufficiently large infeed travel.
Against this background, a feature of the present invention is to provide a parking brake device of the initially described type, which with reduced actuating force and less infeed travel guarantees a reliable parking brake effect in particular also after cooling-related shrinkage of brake linings and brake disc.
This feature is achieved by a parking brake device comprising a spring element and an actuating element that acts upon the spring element, wherein by applying an actuating force to the actuating element the parking brake device is transferrable between a brake-inactive release position and a brake-active parking position, wherein moreover the spring element is biased in the release position and wherein the spring element upon transfer from the release position to the parking position yields perceptibly only upon attainment of an actuating-force threshold value that is determined by the bias.
The invention provides that the spring element is under bias already in the release position. So, when upon transfer from the release position to the parking position the actuating element acts upon the biased spring element, this spring element therefore behaves initially like a rigid element, i.e. it does not yield or yields only slightly. The infeed motion is therefore transmitted directly to the brake piston and from there to the brake linings. It is only upon attainment of the actuating-force threshold value, which is predetermined e.g. by the degree of bias, that the spring element yields and is consequently compressed. This leads to a kink in the force-displacement characteristic curve of the entire arrangement. The actuating force needed for a further infeed motion no longer increases to the same extent as before in the case of rigid or approximately rigid behaviour of the spring element.
The actuating-force threshold value is advantageously so selected that immediately before attainment thereof a force high enough for a desired parking brake effect is exerted on the brake piston and by the brake piston on the brake lining. If the actuating-force threshold value is then attained, then substantially only the spring element is compressed, this however owing to the force-displacement characteristic curve of the spring element being effected with a lower expenditure of force per infeed distance than immediately before attainment of the actuating-force threshold value. This compression of the spring element may be then utilized later, e.g. in the event of cooling-related shrinkage of various components of the vehicle brake system, such as brake linings and brake disc, to compensate the shrinkage in that the spring element expands again.
If the actuating force is summoned up by an electric motor, for example in the case of an electromotive parking brake, then by virtue of the invention it is possible to use a less powerful and hence less expensive electric motor than is the case, for example, with the initially described background art.
In order to be able to achieve the previously discussed behaviour of the spring element by simple constructional measures, in a development of the invention it is provided that the spring element is enclosed under bias in a spring chamber, wherein at one end of the spring element a pressure plate is disposed, which is displaceable in the spring chamber with simultaneous deformation of the spring element. In said case, the actuating element presses upon the pressure plate. The pressure plate, however, yields markedly with simultaneous compression of the spring element only upon attainment of the actuating-force threshold value, i.e. the precise actuating force value at which the spring element, starting from its actual biased state, is compressible further.
In this connection, according to the invention it may further be provided that the spring chamber is formed in a hollow cylinder. In this variant of the invention, the hollow cylinder may be open at one end, thereby allowing the spring element and the pressure plate to be introduced through the opening. Furthermore, for this variant of the invention it may be provided that the movement of the pressure plate or/and of the actuating element inside the spring chamber is restricted at one end. Such a restriction may be realized according to the invention by means of a locking ring fixed in the hollow cylinder.
In principle, when selecting the spring element there is a wide range of options, which each entail different constructional developments. Thus, according to the invention the spring element may take the form of a compression spring or a tension spring. What is more, the spring element may be formed by a spiral spring or alternatively comprise an elastomer body. Equally conceivable, however, is the use of a cup-spring assembly or a spring arrangement comprising a plurality of spring components, such as e.g. springs connected in parallel or in series.
It was explained above that, upon activation of the parking brake device, the pressure plate interacts with the actuating element. This presupposes that pressure plate and actuating element are formed separately from one another. To simplify the arrangement according to the invention further, in a development of the invention it is provided that the pressure plate and the actuating element are of an integral construction. Thus, the pressure plate may for example be stamped out as an end flange on the actuating element that is disposed in the spring chamber.
According to the invention, in one form of construction the parking brake device may be provided directly on a brake caliper of a vehicle hydraulic brake system. In the framework of this form of construction, according to the invention it is further possible for the hollow cylinder to be formed by a brake piston of the vehicle brake system or by a spring bush accommodated in the brake piston. In this development of the invention, the actuating force is transmitted directly to the brake piston of the brake system and from there via the brake lining to the brake disc of a wheel that is to be immobilized.
As an alternative thereto, it is also possible that the actuating element comprises a control cable acting on the pressure plate and that a further control cable is provided on the hollow cylinder. One of the control cables is then connected to the actuating member of the parking brake device, e.g. to the hand brake lever. The other control cable interacts with the brake piston of the brake system.
The invention further relates to a vehicle brake system, in particular a vehicle hydraulic brake system, comprising a brake piston, which is provided on a brake caliper and guided displaceably in a pressure chamber in order to displace a brake lining in the direction of a brake disc, wherein the vehicle brake system is provided with a parking brake device of the previously described type.
Other advantages of this invention will become apparent to those skilled in the art from the following detailed description of the invention, when read in light of the accompanying drawings.
The housing 10 is float-mounted relative to the brake disc 16. It is therefore possible that, upon an infeed motion of the brake lining 22 towards the brake disc 16 and a frictional action of the brake lining 22 upon the brake disc 16, the housing 10 shifts in
The brake piston 32 is of a hollow-cylindrical design and open at one end. In its outer peripheral surface it has a circumferential groove 34, into which a sealing ring 36 is inserted. The sealing ring 36 rests in a fluid-proof manner against an inner peripheral surface 38 of the housing 10. The brake piston 32 is therefore guided in a fluid-proof displaceable manner in the housing 10 and with the housing 10 encloses a hydraulic-fluid pressure chamber 40. By injecting hydraulic fluid into the pressure chamber 40, the brake piston 32 in a known manner is movable in axial direction in the housing 10. In said case, the brake linings 20 and 22 may press with a frictional effect upon the brake disc 18 and brake the brake disc, in the manner described above. By subsequently removing hydraulic fluid from the hydraulic-fluid pressure chamber 40, this braking effect may be discontinued.
In its interior, the hollow-cylindrical brake piston 32 has a compression spring 42. This spring is supported by one end against the end face 30 of the brake piston 32. With its other end, the compression spring 42 rests against a pressure plate 44, which together with the brake piston 32 delimits a spring chamber 45. The pressure plate 44 is accommodated in an axially displaceable manner in the interior of the brake piston 32. The displacement motion along the axis A is however restricted by means of a locking ring 46, which is fitted in a circumferential groove 48 in an inner peripheral surface 50 of the brake piston 32.
Projecting in axial direction into the hydraulic-fluid pressure chamber 40 is an actuating element 52, which may be moved into the interior of the brake piston 32 by a non-illustrated parking actuating member. The actuating element 52 is dimensioned in such a way that it may pass through the locking ring 46 and act with its end face 54 upon the pressure plate 44.
The compression spring 42 is held by the pressure plate 44 and the locking ring 46 in a partially compressed state, which differs clearly from a fully relaxed state of the spring. The term also used for this is a “restrained spring”. In this partially compressed state, the compression spring 42 in the spring chamber 45 is impossible to compress until the compressive force acting upon it reaches a value corresponding to the instantaneous point in the force-displacement characteristic curve of the compression spring 42. It is only upon attainment of this force threshold value that the compression spring 42 yields and is compressible.
There now follows a description of the mode of operation of the brake system according to the invention with reference to
To achieve a specific infeed travel ds from point P2 to a hypothetical point P3, only a relatively slight increase ΔF of the actuating force F is required. The corresponding infeed motion is used substantially to compress the compression spring 42 to such an extent that it may effect a secondary pressing of the brake piston 32 and guarantee a sufficiently strong parking brake effect when the brake linings 20, 22 and the brake disc 18, which heat up during operation of the vehicle, after parking and in the parked state of the vehicle cool down and consequently shrink. The cooling-related shrinkage of the brake linings 20, 22 and the brake disc 18 may then be compensated by expansion of the compression spring 42, wherein the force, with which the brake linings 20 and 22 press upon the brake disc 18, is at least at great as the force threshold value FS.
The form of construction according to
In operation, the form of construction according to
The form of construction according to
In this form of construction a spring assembly 266 is provided, which is disposed between two control cables 268 and 270. The control cable 268 is fastened at one end to a spring bush 256 and at its end not shown in
Upon actuation of the actuating member of the parking brake device, the compression spring 242 because of its bias initially acts like a rigid element and transmits the actuating force F, which is introduced via the control cable 268, without deformation to the control cable 270. However, as soon as the actuating force reaches and exceeds the actuating-force threshold value FS, the compression spring 242 yields and is compressed without the control cable 270 being simultaneously moved in a corresponding manner. The compression spring 242 therefore stores some of the actuating force F, so that this force may be released later, where necessary, for a further infeed motion—e.g. caused by a shrinking of brake linings and brake disc—with simultaneous reduction of the compression.
It should be pointed out that it is also possible for a plurality of spring assemblies 266 according to
The invention demonstrates a possible way of realizing, with constructionally simple means, a parking brake device that is operable with a relatively low actuating force and yet guarantees a reliable parking brake effect. This applies above all when, during parking of the vehicle after a journey, due to cooling, the brake linings and brake disc of the vehicle brake system contract.
In accordance with the provisions of the patent statutes, the principle and mode of operation of this invention have been described and illustrated in its various embodiments. However, it must be understood that the invention may be practiced otherwise than as specifically explained and illustrated without departing from the scope or spirit of the attached claims.
Number | Date | Country | Kind |
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103 02 357.7 | Jan 2003 | DE | national |
This application is a continuation of U.S. Ser. No. 11/184,516, filed Jul. 19, 2005, which is a continuation of International Application No. PCT/EP2004/000517 filed Jan. 22, 2004, the disclosures of which are incorporated herein by reference, and which claimed priority to German Patent Application No. 103 02 357.7 filed Jan. 22, 2003, the disclosures of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | 11184516 | Jul 2005 | US |
Child | 12005970 | US | |
Parent | PCT/EP2004/000517 | Jan 2004 | US |
Child | 11184516 | US |