RU2446328C2 - Disk brake, in particular, for truck - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: disk brake comprises caliper, brake disk, brake pads, pressure device, adjustment device jointed with set screws, cover and pad wear indicator communicated with reduction gearbox connected with set screw. Brake caliper embraces brake disk. Brake pads stay in working contact with brake disk. Pressure device serves to force brake pad via set screw to brake disk. Adjustment device serves to compensate air gap between pad and disk caused by wear. Cover closes adjustment device and is secured on brake caliper. Pickup running along concentric path is attached to pressure control valve to interact with pad wear indicator. The latter is made up of contactless sensor to detect and transmit pickup angular position change to processing device. Reduction gearbox comprises planet gear. Pickup is directly or indirectly fitted on crown gear.

EFFECT: ease of assembly, disassembly and replacement.

9 cl, 5 dwg

Description

The invention relates to a disc brake, in particular for a truck in accordance with the restrictive part of paragraph 1 of the claims. To keep the air gap between the brake disc and brake lining in the unused position of the brake lining, also called the stroke, i.e. in order to compensate for the amount of wear caused by abrasion of the friction lining during braking, the known disc brake, at least on the clamping side, is equipped with an additional adjusting device, which usually has two set screws synchronously rotated and thus axially displaced by a common drive chain .

To detect brake lining wear, devices are used that consist of a gearbox connected to one of both set screws and thus connected to the lining wear sensor. Such a device is known from DE 9312119 U1.

It proposes to use a rotation angle sensor, which is made in the form of a potentiometer with a rotary engine, as a pad wear sensor. Using an attached processing device, for example, it is possible for a truck driver to recognize the state of the brake lining.

The position of the brake lining for accurate indication must be very accurately maintained when positioning the lining wear sensor, so careful and accurate installation is required. This, of course, is only possible with increased production costs, which together hinder the rational production of a disc brake.

In addition, replacing a defective lining wear sensor is likewise possible with increased costs, in particular with respect to the positioning of the lining wear sensor relative to the brake lining, respectively, with respect to the position of the gearbox. Replacing the pad wear sensor can only be carried out by appropriately trained personnel, which, however, does not help to reduce the cost of work.

Therefore, the object of the invention is to improve the disc brake of the corresponding kind so that it can be easily and without unnecessary costs to assemble it and without problems to replace its lining wear sensor.

This problem is solved using a disc brake, characterized by the features of paragraph 1 of the claims.

Thanks to this constructive solution, a constructive separation of the wear sensor of the lining and the gearbox, i.e. both are no longer physically connected to each other.

As a result, there are a number of advantages, in particular, the invention can be carried out at low cost.

This creates the possibility of automated assembly, since the gearbox, chain and sprockets, respectively mounted on the set screws, can be combined and mounted as a unit, while then you only need to put on the cover and connect it with the screws of the disc brake. Thereafter, the pad wear sensor is mounted on the outside of the cover, the gearbox and the pad wear sensor being preferably separated by the cover wall.

Thus, the closure of the gearbox and the circuit with respect to the outer region is achieved. At the same time, the lining wear sensor can simply be installed or removed without touching the gearbox, and with the lining wear sensor in cooperation with the sensor, which is also closed by a cover, the wear of the brake lining can be determined depending on the position of the sensor.

A prerequisite for this, as is already known from the prior art, is that the gearbox is made, for example, in the form of a planetary gear and its parameters are determined in such a way that the sensor rotates for the entire wear stroke no more than 360 °, preferably 300 °. Those. while the set screw, to compensate for the maximum amount of wear, for example, makes seven revolutions, the sensor rotates only once at a maximum of 300 °.

In order to ensure perfect correspondence between the sensor and the pad wear sensor, the sensor fits snugly against the wall of the cover, while the pad wear sensor rests on the opposite side of the cover without a gap.

Preferably, the sensor is pressed against the wall of the cover by means of a spring, for which purpose a pressure spring is located on the ring gear of the planetary gear, which, on the other hand, rests on the planet carrier of the planetary gear.

On the ring gear of the planetary gear, the wheel with hooks is fixedly fixed in the twisting part, in which the sensor is fixed.

Due to the arrangement of the pressure spring in the ring gear of the planetary gear, an extremely low structural height of the gearbox is generally achieved, which meets the requirement of a compact disc brake.

As a non-contact sensor, the pad wear sensor can be made different in design or principle of operation. So, the function block of a non-contact sensor / sensor can operate on a magnetic base or inductance base. It is also possible to design a proximity sensor in the form of a transponder.

Other preferred embodiments of the invention are given in the dependent claims.

The present invention is illustrated by drawings, which represent the following:

figure 1 - design proposed in accordance with the invention of the disc brake in a plan view with a partial section;

figure 2-4 is a partial section of the proposed disc brakes in various positions of the Assembly, respectively, in a detailed image;

5 is a fragment of a disc brake in section, top view.

Figure 1 shows a disc brake, in particular for a truck with a brake disc bracket 1, covering the brake disc 24, located on both sides of the brake disc 24 and the brake linings in contact with it 25, a clamping device 23, with which the pressure side, the brake lining 25 can be pressed against the brake disk 24, and the pressure of the pressure is transmitted by two set screws 3, 4 from the pressure device to the brake lining 25, as well as an additional adjusting device stvom 2, through which may be substantially offset by a change due to wear of the air gap between the brake pad 25 and brake disc 24. When this additional adjusting device 2 is fixedly disposed in the twisting part in the installation screw 3.

For synchronous adjustment of the set screws 3 to compensate for the amount of wear, they are connected to each other using a chain drive, which consists of sprockets 6, 7, motionless in the twisting portion connected to the intended set screws 3, 4, and chain 5.

The additional adjusting device 2 is closed in relation to the environment by a cover 18, which is connected by screws to the bracket 5 of the disk brake mechanism. The disk brake has a lining wear sensor 19 corresponding to a gearbox attached to the set screw 3. Since the principle of operation of the disk brake is known, you can refuse to describe it or refer to the introduction of the description of document DE 9312119 U1.

The gearbox is made in the form of a planetary gear and has a central gear 8 of the planetary gear, which has an axially oriented locking carrier, with which the central gear 8 can be mounted on an asterisk 7, intended for the set screw 3, and figure 2 shows the time of assembly, in in which all structural elements are depicted outside the stage of functioning.

Thus, the central gear 8 of the planetary gear is first connected to the sprocket motionlessly in the part of twisting and moving in the axial direction with the help of clamps, and the locking carrier 9 engages in the corresponding recesses of the sprocket 7. Instead, the central gear 8 can also be motionless in the part of twisting directly connected to the set screw 3, respectively, by means of a plug gear.

A planet carrier 10 is mounted on the central gear 8, which is equipped with wings 11 extending to the branches of the chain 5, on which these branches rest. The planet carrier 10 has three axially extending pivots 12, on which the planetary gear 13 is worn respectively. The planetary gear ring gear 15 is then installed, which corresponds to the planetary gears 13.

To transmit torque, the set screw, as shown in Fig. 5, is equipped with a rotary pin 26 of the central gear 8 with external gearing, which includes the teeth of the stepped planetary gears 13 with their large diameter, while power is taken through exactly with an external gearing, a nozzle 27 with a smaller diameter, which interacts with the teeth that are provided on the concentric side surface 28 of the recess of the ring gear 15 of the planetary gear.

On the ring gear 15 of the planetary gear, the wheel 16 with hooks is fixedly mounted in the twisting part, which has a sensor 17 in the region of the outer edge corresponding to the wear sensor 19 of the lining.

Ring gear. 15 planetary gears, planetary gears 13, and also the gear wheel 16 with hooks are located in the receiving chamber 29 of the cover 18, which is on one side limited by the wall 22 of the cover plate 18 and on the opposite side by the planet carrier 10.

The wall 22 forms a spatial separation from the sensor 17 or from the gearbox as a whole and the lining wear sensor 19, which according to the invention is formed as a non-contact sensor and which is fixedly mounted on the cover 18 using the screw 21 in the twisting portion. Fastening the lining wear sensor 19 to the cover 18 carried out, for example, using a bayonet lock.

For the reliability of the system operation, the sensor 17 / wear pad sensor 19, the sensor 17 should abut against the wall 22, for which purpose a compression spring 14 is located in the ring gear 15 of the planetary gear, with the help of which the ring gear 15 of the planetary gear and, therefore, the wheel 16 s hooks and the sensor 17 fixed in it are pressed against the wall 22.

For fixing in the part of twisting of the wheel 16 with the hooks on the ring gear 15, both have interacting means of geometric closure, mainly gears.

Figure 3 shows that the sprocket 7, the planet carrier 10 planetary gears, planetary gears 13, the planetary gear central gear 8, the compression spring 14 and the planetary gear ring gear 15 are combined in a structural unit, on which the chain 5 is laid, as well as on the other asterisk 6.

The pre-assembled block can be installed on the set screws 3, 4, and they are fixed to the intended sprockets 6, 7 by means of gearing with geometric locking motionlessly in the twisting part.

After that, the cover 18 is mounted and mounted on the bracket 1 of the disk brake mechanism, mainly with screws. In conclusion, from the outside, a lining wear sensor 19 is mounted on the lid 18, is mounted on it and connected to the processing device through the cable connection 20, through which the changed angular position of the sensor 17 can be recognized.

Claims (9)

1. A disc brake, in particular for a truck, comprising a disc brake caliper (1) covering a brake disc (24), brake linings (25) which are in contact with the brake disc (24), a pressure device (23 ), designed to press one brake lining (25) through at least one set screw (3, 4) to the brake disc, an adjusting device (2), fixed in the twisting part and attached to the set screws (3, 4), intended to compensate mainly for changes in the air gap between the brake lining (25) and the brake disc (24) as agreed by the wear, the cover (18) fixed to the bracket (1) of the disk brake mechanism that covers the adjustment device (2), and the lining wear sensor (19) corresponding to a reducer attached to a set screw (3), characterized in that a sensor (17) rotating in a concentric path is connected to the reducer, which corresponds to a pad wear sensor (19) made in the form of a contactless sensor, by which tsya processing device and transmitted to the change of the angular position sensor (17), wherein the gearbox comprises a planetary gear, and the sensor (17) directly or indirectly secured to the ring gear (15) of the planetary gear. 2. A disk brake according to claim 1, characterized in that the central gear (8) of the planetary gear is fixed motionless in the twisting part on the sprocket (7) of the additional adjusting device (2). 3. The disk brake according to claim 1 or 2, characterized in that the central gear (8) of the planetary gear has locking carriers that engage with the recesses of the sprocket (7) agreed for this. 4. The disk brake according to claim 1 or 2, characterized in that the gearbox and the wear sensor of the lining (19) are separated by the wall (22) of the cover (18). 5. A disk brake according to claim 1 or 2, characterized in that the sensor (17), under the action of a spring, abuts against the wall (22) of the cover (18). 6. The disk brake according to claim 1 or 2, characterized in that the sensor (17) is located in the wheel with hooks (16), which is connected to the ring gear (15) of the planetary gear. 7. A disk brake according to claim 1 or 2, characterized in that a compression spring (14) is located in the ring gear (15) of the planetary gear, which presses the planetary gear ring gear (15) / wheel (16) with the grips against the wall (22) covers (18). 8. The disk brake according to claim 1 or 2, characterized in that the planetary gear carrier (10) of the planetary mechanism has two wings (11) running parallel and at a distance to each other to support the chain branches (5). 9. A disk brake according to claim 1 or 2, characterized in that the gearbox, sprockets (6, 7) and chain (5) are mounted on the set screws (3, 4) in the form of a preassembled structural unit.

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