In order to obtain a new type of simplified friction lining mounting while avoiding reversing clatter, a disc brake lining is proposed which is assembled depending on the direction of rotation and comprises a backing plate (1) as a carrier for a friction material, comprising diametrically opposed sides 6, 7 configured to be free from friction material; wherein the backing plate is formed asymmetrically with respect to a central axis, in that the backing plate has a bearing (6) which is placed on the inlet side relative to a preferred direction of rotation and is provided radially inwardly in relation to a central wheel rotational axis, in particular radially offset below a brake piston axis, as a holder (10) with a hole (11) for receiving a retaining pin, and which accordingly defines a fixedly positioned friction lining fixed bearing A; and a guide (12) is provided on an allocated outlet-side bearing (7) of the backing plate (1), radially outwardly in relation to the central wheel rotational axis, in particular radially off- set above a brake piston axis, wherein said guide is designed as an open-edged mouth opening (13) with a receiving pocket (14) for receiving a guide pin, and accordingly defines a fixedly allocated friction lining floating bearing B.
The invention relates to a radio receiver (100) for receiving radio signals (101) from at least one position-determining system (103), comprising a receiver device (105) which has an antenna arrangement (107), wherein the antenna arrangement (107) has at least one radio signal antenna (109) for receiving radio signals (101), a first feed-in element (111) and a second feed-in element (113), wherein the first feed-in element (111) and the second feed-in element (113) have different polarisation-dependent sensitivities, wherein the antenna arrangement (107) has a first radio signal line (117) and a second radio signal line (119), wherein the first radio signal line (117) is designed to provide a radio signal received by the antenna arrangement (107) as a first radio receive signal, and wherein the second radio signal line (119) is designed to provide a further radio signal received by the antenna arrangement (107) as a second radio receive signal, the radio receiver (100) further comprising a signal processing device (115) which is designed to determine a position of the radio receiver (100) based on the first radio receive signal and the second radio receive signal.
The invention relates to a backing plate for a disk brake lining (2), to a disk brake lining (2), and to a motor-vehicle partially lined disk brake (30), wherein the backing plate and a corresponding disk brake lining (2) having friction material (3) are provided and wherein a retaining protrusion (10) having a through-hole (11) for receiving a retaining pin (21) is provided on the backing plate (1) radially inside on an end face (6), and wherein a guide protrusion (12) having a jaw opening (13) and having a receiving pocket for receiving a guide pin (22) is placed radially outside on the opposite end face (7).
F16D 55/228 - Freins à surfaces de freinage substantiellement radiales pressées l'une contre l'autre dans une direction axiale, p.ex. freins à disques avec disques ou patins déplaçables selon l'axe pressés contre des organes en rotation situés dans l'axe par serrage entre des organes mobiles de freinage, p.ex. des disques ou des patins de freins mobiles avec un organe d'actionnement séparé pour chaque face
F16D 65/092 - Bandes, sabots ou patins; Pivots ou leurs organes de support pour freins à engagement axial, p.ex. freins à disques
A friction lining (1) or structure of a vehicle disk brake, comprising an absorption body (14) with a mass MT, with a rear plate (2) comprising hammer-head-shaped projections (7, 8) and friction material (4), which is fastened to the rear plate (2), for bearing against a friction ring, and wherein the projections (7, 8) engage in abutments of receiving recesses in a holder profile for the tangentially fixed holding and the axially displaceable guidance, and therefore introduction of a tangentially directed circumferential force (Fu, friction force) into the holder profile induces a tensile stress in at least one projection (7, 8). An absorption system (9) for suppressing undesirable vibrations is arranged on the friction lining (1).