FR2983273A1 - MACHINE BRAKE, IN PARTICULAR HYDRAULIC ENGINE - Google Patents

Abstract

Machine brake in particular of radial piston machine, the brake having a first element (1) movable in rotation and a second element (2), the first element (1) and the second element (2) having teeth (8, 9 ) directed against each other to form a form-locking brake in the release position of the first element (1) and the second element (2) out of engagement and in the parking brake position of the first element (1) and the second element (2) in the setting position. Brake characterized by a friction brake between the first element (1) and the second element (2) and for a braking phase, the point of action of the friction brake is set before the point of action of the brake connected by the form.

Description

Field of the Invention The present invention relates to a machine brake including a radial piston machine, the brake having a first rotatable member and a second member, the first member and the second member having teeth directed towards each other. the others to form a form-locking brake in the release position of the first element and the second element out of engagement and in the parking brake position of the first element and the second element in the setting position.

STATE OF THE ART Such brakes are known according to EP 0 995 034 B1. Such a brake comprises two elements that are movable in rotation. The ratio between the elements movable in rotation about the axis of rotation and the ratio of the bearing means are retained. Brake a first and a second brake means in the form of teeth directed against each other. The engaging teeth form a unit integral with the first and the second element when they constitute the locking in rotation. This brake is also called claw brake that performs emergency braking, brutal, because this brake is not synchronized. This constraint allows only a reduced number of emergency braking. OBJECT OF THE INVENTION The object of the present invention is to develop a brake which improves its switching operation, particularly as regards its reliability.

DESCRIPTION AND ADVANTAGE OF THE INVENTION To this end, the subject of the invention is a brake of the type defined above, characterized in that by a friction brake between the first element and the second element and for a braking phase, the point The friction drive is adjusted before the operation of the form-locking brake. This embodiment according to the invention compares the relative speeds of the first and the second element which reduces the kinetic energy of the system and results in a low stress of the connection in the bonding brake by the form in the engaged state. This embodiment makes it possible to take a large number of emergency braking operations without any negative influence on the reliability of the brake of the invention. The series assembly of the friction brake and the form-locking brake firstly makes it possible for the friction brake to reduce the relative speed between the first and the second element and improves the switching conditions and then to activate the brake. binding by the form. This results in a lower load applied to the brake compared to that of non-synchronized form-bonded brakes, known. In addition, the brake component is improved from the point of view of its speed curve so that the number of components required is low while allowing easy mounting. According to a development of the invention, the friction brake is a friction lining brake. The friction lining brake makes it possible to synchronize the rotational speed of the corresponding elements without difficulty, so that the transmissible braking torque is less than that of the form-connected brake. According to a development of the invention, the friction lining brake has a conical friction surface and a friction ring provided with a brake lining. This increases the surface and the reliability of the friction brake.

According to a development of the invention, the friction brake and the form-connected brake are actuated independently of one another, which makes it possible to address the predefined braking situations individually. However, in the context of the invention it is also provided that the friction brake (friction connection) and the form-connection brake are actuated in common and that the friction-linked brake comprises, for example, a conical brake ring. , spring-loaded whose action weight for a common actuation is prior to the point of action of the brake connected by the form. After compensating for at least the speed of rotation of the two elements, during the subsequent movement of the brake, the conical brake ring is moved against the force of a spring and the brake connected by the form ensures the coupling solidarity. The present invention will be described hereinafter with the aid of an exemplary embodiment of a brake shown in the accompanying drawings in which: - Figure 1 is a schematic sectional view of a brake; according to the invention, - Figure 2 is a diagram of the chronological evolution of a braking phase. DESCRIPTION OF EMBODIMENTS OF THE INVENTION According to FIG. 1, the brake comprises a first rotating element 1 mounted to rotate appropriately. The second element of this embodiment is not rotating but can be moved in the axial direction relative to the first element. In the context of the invention it can also be envisaged that the second element 2 is rotating and in this case the rotational speeds (and / or direction of rotation) of the first element 1 and the second element 2 may be different. The first element 1 and the second element 2 are components of a machine, in particular a radial piston machine, for example a radial piston engine. In the braking phase presented and which corresponds for example to an emergency phase, the second element 2 is moved axially to the left in the direction of the first rotary element. This movement is for example triggered by an actuator or to be produced by a spring 3 or be assisted by it. In the case of the approaching of the second element 2 towards the first element 1, the second element 2 comes into contact with the conical friction surface 4, provided with a friction lining 5 carried by a conical brake ring 6 integrally connected in rotation to the first rotary member 1 while being movable axially relative to the first rotary member 1. The connection is for example a wedge-shaped profile. The brake ring is pushed into the position represented by an annular spring 7 which is pushed into the position shown in FIG. 1. The first rotary element or rotating element 1 comprises a number of teeth 8 distributed over a circle with tooth intervals. The second element 2 has the same number of teeth 9 with intervals facing the teeth 8. The teeth 8 and the teeth 9 can interpenetrate by a connection by the shape during the rotational movement, this connection being made in the respective tooth intervals of the other set of teeth.

The action point of the friction brake consists of the friction surface 4, the brake ring 6 with the brake lining 5 and the annular spring 7. This spring becomes active before the point of action of the brake. bonding brake by the form composed of the teeth 8 and 9 of the first element 1 and the second element 2. Thus during a braking phase, lo the rotation speed of the element 1 will be reduced and adapted to the speed of rotation of the second element 2. This phase of compensation or synchronization is done in the time interval At (FIG. 2). Meanwhile, the rotational speed w changes from the output value coo to the actual value w '. Then the form-locking brake reduces the rotational speed of the first member 1 abruptly to the level O.

NOMENCLATURE 1 First rotating element / rotating element 2 Second rotating element / rotating element 3 Spring 4 Tapered friction surface 5 Brake pad 6 Brake ring 7 Brake ring spring 8 Teeth 9 Teeth At Duration15

Claims (1)

CLAIMS1 °) Machine brake including radial piston machine, the brake having a first element (1) movable in rotation and a second element (2), the first element (1) and the second element (2) having teeth ( 8, 9) facing each other to form a form-locking brake in the releasing position of the first element (1) and the second element (2) out of engagement and in the parking brake position of the first element (1) and the second element (2) in the setting position, a brake characterized by a friction brake between the first element (1) and the second element (2), and for a braking phase, the actuation point the friction brake is set before the point of actuation of the form-locking brake. 2) Brake according to claim 1, characterized in that the friction brake is a friction lining brake. Brake according to Claim 2, characterized in that the friction lining brake has a conically shaped friction surface (4) and a brake ring (6) provided with a brake lining (5) and cooperating with the friction surface. 4 °) Brake according to claim 1, characterized in that the friction brake and the brake connected by the form are actuated independently of one another.30.