Depending on the various models of KAMAZ vehicles, their wheel arrangement, purpose, operating conditions, different KAMAZ brake system diagrams. Usually, when buying spare parts for the KAMAZ brake system, many questions, as practice shows, arise on the device brake system KAMAZ 5320. Below is scheme of the brake system of the car KAMAZ-5320, which will help you determine the entire range of spare parts for this brake system KAMAZ with the purpose of its quality repair.
A - valve for controlling the output of the IV circuit; B, D - control output valves III
contour; B - control output valve of the I circuit; G - control output valve of the second circuit; E - supply line of a two-wire drive; Zh - connecting line of a single-wire drive; I - brake (control) line of a two-wire drive; K, L - additional control outlet valves; 1 - compressor; 2 - pressure regulator, 3 - anti-freeze fuse; 4 - double protective valve; 5 - triple protective valve; 6 - condensation receiver; 7 - condensate drain valve; 8. 9. 10 - receivers, respectively, III, I and-II circuits; 11 - pressure drop sensor in the receiver; 12 - control outlet valve; 13 - pneumatic valve; 14 - sensor for switching on the electromagnetic valve of the trailer brakes; 15 - pneumatic cylinder drive of the engine stop lever; 16 -- pneumatic cylinder of the auxiliary brake damper actuator; 17. - brake two-section crane; 18 - two-pointer manometer; 19 - brake chamber type 24; 20 - pressure limiting valve; 21 - control valve for parking and spare brakes; 22 - accelerating valve; 23 - brake chamber type 20/20 with spring energy accumulator; 24 - two-way bypass valve; 25 - trailer brake control valve with a two-wire drive; 26 - protective single valve; 27 - trailer brake control valve with a single-wire drive; 28 - uncoupling tap; 29 - connecting head type "Palm"; 30 - connecting head type A; 31 - "stop light" sensor; 32 - automatic brake force regulator; 33 - air bleed valve; 34- rechargeable batteries; 35 - a block of control lamps and a buzzer; 36 - rear light; 37 - parking brake switch
The service brake system is designed to reduce the speed of the vehicle or stop it completely. The brake mechanisms of the service brake system are installed on all six wheels of the vehicle. The drive of the working brake system is pneumatic double-circuit, it drives separately the brake mechanisms of the front axle and the rear bogie of the car. The drive is controlled by a foot pedal mechanically connected to the brake valve. The executive bodies of the drive of the working brake system are the brake chambers.
The spare brake system is designed to smoothly reduce speed or stop a moving vehicle in the event of a complete or partial failure. working system.
The parking brake system provides braking of the motionless car on a horizontal site, and also on a slope and in the absence of the driver.
The parking brake system on KamAZ vehicles is made as a single unit with the spare one, and to enable it, the handle of the manual crane should be set to the extreme (upper) fixed position.
The emergency release drive provides the possibility of resuming the movement of the car (road train) during its automatic braking due to leakage of compressed air, alarms and control devices that allow you to monitor the operation of the pneumatic drive.
Thus, in KamAZ vehicles, the brake mechanisms of the rear bogie are common for the working, spare and parking brake systems, and the last two have, in addition, a common pneumatic drive.
The brake auxiliary system of the car serves to reduce the load and temperature brake mechanisms working brake system. The auxiliary brake system on KamAZ vehicles is an engine retarder, when turned on, the engine exhaust pipes are blocked and the fuel supply is turned off.
The emergency release system is designed to release spring-loaded energy accumulators when they are automatically activated and the vehicle stops due to leakage of compressed air in the drive.
The drive of the emergency release system is duplicated: in addition to the pneumatic drive, there are emergency release screws in each of the four spring-loaded energy accumulators, which makes it possible to release the latter mechanically.
The alarm and control system consists of two parts:
a) light and acoustic signaling of the operation of brake systems and their drives.
At various points of the pneumatic drive, pneumatic-electric sensors are built-in, which, under the action of any brake system, except for the auxiliary one, close the circuits of the “stop light” electric lamps.
Pressure drop sensors are installed in the actuator reservoirs and when insufficient pressure in the latter, they close the circuits of signal electric lamps located on the instrument panel of the car, as well as the circuit of the sound signal (buzzer).
b) control output valves, which are used to diagnose the technical condition of the pneumatic brake drive, as well as (if necessary) to extract compressed air.
Brake systems of the car KAMAZ-4310
KamAZ-4310 vehicles, as well as KamAZ-5320 vehicles, are equipped with working, spare, parking and auxiliary brake systems, trailer brake drive, emergency system releasing the brakes of the parking brake system and control systems and alarms on the operation of brake systems. In terms of the device and operation of devices and drives, these systems are identical to similar systems of KamAZ-5320 vehicles. Some changes in the design of the brake system drives of KamAZ-4310 vehicles, in contrast to similar designs of KamAZ-5320 vehicles, will be shown when describing the pneumatic brake drive circuit of the KamAZ-4310 vehicle.
The drive supply system with compressed air is equipped with a separate condensate cylinder, which increases the reliability of the brake drive by reducing the possibility of vapor locks in the pipelines. It includes a compressor, pressure regulator, anti-freeze protection for condensate in compressed air and a condensate bottle.
Compressed air from the supply system is distributed to air cylinders of independent circuits I, II and III, respectively, through triple and single protective valves.
In circuit I of the brake drive of the service brake system of the wheels of the front axle and the trailer, there is no pressure limiting valve. The circuit includes a triple safety valve, a 20-liter air tank, a lower section of a two-section brake valve, a control outlet valve B, two brake chambers for the brake mechanisms of the front axle of the car, pipelines and hoses connecting these devices, and pipelines from the bottom section of the brake valve to trailer brake control valve with two-wire actuator. Circuit II consists of a part of a triple protective valve, two air cylinders with a total capacity of 40 liters, an upper section of a two-section brake valve, a control output valve D, four brake chambers of the rear bogie brake mechanisms, pipelines and hoses connecting these devices, and a pipeline from the upper section of the brake valve to the trailer brake control valve with a two-wire drive.
Rice. 7.26. Scheme of the pneumatic drive of the brakes of the KamAZ-4310 car:
1 - pneumatic push-button valve for emergency release of the parking brake system; 2 - two-pointer manometer; 3- control lamps and buzzer; 4 - control output valve; 5 - brake chamber type 24; 6 - manual brake valve for controlling the parking and spare brake systems; 7 - pneumatic push-button valve for controlling the auxiliary brake system; 8- pneumatic cylinder of the drive of the engine stop lever; 9 - compressor; 10 - pressure regulator; 11 - pneumoelectric sensor of the trailer solenoid valve; 12 - pneumatic cylinder of the motor brake-retarder damper drive; 13 - fuse against freezing; 14 - two-section brake valve; 15 - condensation cylinder; 16 - triple protective valve; 17, 21, 22 - pressure drop sensors; 18 - air cylinder circuit I; 19 - air cylinder circuit III; 20, 31 - single safety valves; 23 - air cylinder circuit 11; 24 - condensate drain valve; 25 - spring power accumulator; 26 - parking brake activation sensor; 27 - accelerating valve; 28 - two-way bypass valve; 29 - brake chamber type 24; 24; 30-trailer brake control valve c. two-wire drive; 32-sensor for turning on the brake signal; 33 - trailer brake control valve with a single-wire drive; 34 - uncoupling tap; 35 - rear light; 36 - connecting head type "Palm"; 37 - connecting head type "A"; A, B, D, D - control outlet valves
Circuit III of the brake actuator of the parking and spare brake systems consists of a single protective valve, two air cylinders with a total volume of 40 liters, a brake valve, an accelerator valve, a part of a two-line bypass valve, four spring-loaded brake chambers, a parking brake switch, a brake signal switch, two valves of control outputs, pipelines and hoses connecting the devices. The brake signal switch-on sensor is installed in circuit III in such a way that it ensures that the brake lamps are turned on when the vehicle is braked by both the parking (spare) and service brake systems, as well as in the event of failure of one of the circuits of the service brake system.
The circuit for driving the auxiliary brake system and powering other consumers includes a part of a triple safety valve, a pneumatic valve, two pneumatic cylinders for driving the auxiliary brake dampers, a pneumatic cylinder for shutting off the fuel supply, a pneumoelectric sensor And, pipelines and hoses connecting these devices. The air supply to the drive is provided from the circuits of the working brake system. There is no pressure drop indicator lamp in the circuit. Through the drive circuit of the auxiliary brake system, compressed air is supplied to additional (non-brake) consumers: the tire pressure control system, the wiper, the pneumatic signal, the pneumohydraulic clutch booster, the control of the transmission units, etc.
The brake drive of the tractor trailer is combined, made according to single-wire and two-wire circuits. It includes a trailer brake control valve with a two-wire actuator, a safety single valve, a trailer brake control valve with a single wire actuator, three release valves and three connecting heads - two Palm-type heads for a two-wire trailer brake actuator and one L-type head for single-wire trailer brake drive. The connection heads are mounted on the rear
cross member of the tractor frame. The power supply of the combined trailer brake drive is carried out from air cylinders of circuit III of the drive of the parking and spare brake systems.
The drive circuit of the emergency brake release system of the parking brake system consists of a pneumatic push-button emergency brake valve, part of a two-line valve, pipelines and hoses connecting these devices. The drive of the emergency brake release system of the parking brake system is powered from the air cylinders of circuit II of the drive of the service brakes of the rear bogie.
The alarm and control system consists of two parts:
light and acoustic signaling of the operation of brake systems and their drives using signal electric lamps located on the instrument panel of the car, and an audible signal (buzzer). To do this, pressure drop sensors are installed in the air cylinders of the pneumatic drive, which, in case of insufficient pressure in the cylinders, close the circuits of signal electric lamps and a sound signal. In addition, there is a brake signal sensor in the pneumatic actuator, which closes the circuit of the electric stop lamps when any brake system, except for the auxiliary one, is activated;
valves of control outputs, which allow diagnosing the technical condition of the pneumatic brake drive and extracting compressed air for Maintenance car.
TO Category: - Cars Kamaz Ural
The separation of the brake system of KamAZ 5320 (4310) vehicles allows each circuit to operate independently, which is important in the event of a malfunction.
This front axle circuit consists of a 20-liter tank with a pressure drop sensor and a tap, a triple safety valve, a two-pointer pressure gauge, a pressure limiting valve, a control outlet valve, a lower section of the brake valve, two chambers and other mechanisms, hoses and pipelines. In addition, the first circuit includes a pipeline from the trailer brake system valve to the lower section of the valve.
The diagram below shows the device of the brake systems of the KamAZ-4310 car. For KamAZ-5320, the picture is a little lower:
Circuit II
This is the rear bogie brake circuit.
The device of the brakes of the bogie of KamAZ 5320 (4310) vehicles consists of the upper section of the brake valve, part of the triple safety valve, receivers with a total capacity of 40 liters with a pressure sensor and condensate drain valves, a control output valve of the automatic regulator, a two-pointer pressure gauge, four brake chambers, brake mechanisms intermediate and rear axles carts, hose and pipelines.
The circuit includes a pipeline from the brake control valve to the upper section of the brake valve.
Circuit III
This is the circuit of the parking, spare brake systems and the combined drive of the brake mechanisms of the semi-trailer (trailer). It consists of:
- double safety valve
- two receivers with a total capacity of 40 liters, a pressure sensor and a condensate drain cock,
- two control output valves of the manual brake valve,
- relay valve,
- four spring-loaded brake chambers with a pressure sensor,
- parts of a dual-line bypass valve,
- control valve with a two-wire drive of the trailer brake system,
- single safety valve,
- trailer brake control valve with single-wire drive,
- "A" type heads for a single-wire drive and two "Palm" heads for a two-wire trailer brake drive,
- three disconnecting taps, three connecting heads,
- pneumoelectric sensor "stop light",
- two-wire trailer brake drive,
- hoses and pipelines.
Circuit IV
This circuit of the auxiliary brake system does not have its own receiver. It consists of a pneumatic valve, a part of a double safety valve, two damper actuator cylinders, a pneumoelectric sensor, an engine stop lever actuator cylinder, pipelines and hoses.
Contour V
This emergency release circuit does not have executive bodies and its own receiver.
It consists of a part of a double-line bypass valve, a pneumatic valve, a part of a triple safety valve, hoses and pipelines connecting the apparatus.
The pneumatic brake drives of the Kamaz vehicle and the trailer are connected by three lines: a two-wire drive line, a supply line and a single-wire drive line. In the supply part of the brake drive of models 53212 and 53213, to improve moisture separation in the “pressure regulator-compressor” section, a dehumidifier is provided, which is installed in the zone of intensive airflow on the first cross member of the vehicle. On all KAMAZ models, for the same purpose, a condensate receiver with a capacity of 20 liters protects against freezing in the "protective valves - fuse" section.
Purpose, device, principle of operation of the brake system
Purpose of the brake system
The service brake system is designed to reduce the speed of the vehicle or stop it completely. The brake mechanisms of the service brake system are installed on all six wheels of the vehicle. The drive of the working brake system is pneumatic double-circuit, it drives separately the brake mechanisms of the front axle and the rear bogie of the car. The drive is controlled by a foot pedal mechanically connected to the brake valve. The executive bodies of the drive of the working brake system are the brake chambers.
The spare brake system is designed to smoothly reduce the speed or stop a moving vehicle in the event of a complete or partial failure of the working system.
The parking brake system provides braking of the motionless car on a horizontal site, and also on a slope and in the absence of the driver.
The parking brake system on KamAZ vehicles is made as a single unit with the spare one, and to enable it, the handle of the manual crane should be set to the extreme (upper) fixed position.
The emergency release drive provides the possibility of resuming the movement of the car (road train) during its automatic braking due to leakage of compressed air, alarms and control devices that allow you to monitor the operation of the pneumatic drive.
Thus, in KamAZ vehicles, the brake mechanisms of the rear bogie are common for the working, spare and parking brake systems, and the last two have, in addition, a common pneumatic drive.
The brake auxiliary system of the car serves to reduce the load and temperature of the brake mechanisms of the working brake system. The auxiliary brake system on KamAZ vehicles is the engine retarder, when turned on, the engine exhaust pipes are blocked and the fuel supply is turned off.
The emergency release system is designed to release spring energy accumulators when they are automatically activated and the vehicle stops due to compressed air leakage in the drive.
The drive of the emergency release system is duplicated: in addition to the pneumatic drive, there are emergency release screws in each of the four spring-loaded energy accumulators, which makes it possible to release the latter mechanically.
The alarm and control system consists of two parts:
a) light and acoustic signaling of the operation of brake systems and their drives.
At various points of the pneumatic drive, pneumatic-electric sensors are built-in, which, under the action of any brake system, except for the auxiliary one, close the circuits of the “stop light” electric lamps.
Pressure drop sensors are installed in the drive receivers and, in case of insufficient pressure in the latter, they close the circuits of signal electric lamps located on the instrument panel of the car, as well as the audio signal (buzzer) circuit.
b) control output valves, which are used to diagnose the technical condition of the pneumatic brake drive, as well as (if necessary) to extract compressed air.
Brake system device
Figure 2 shows a diagram of the pneumatic drive of the brake mechanisms of KamAZ-43101, -43114 vehicles.
Compressor 9 is the source of compressed air in the drive. Compressor, pressure regulator 11, fuse 12 against freezing of condensate, condensate receiver 20 constitute the supply part of the drive, from which purified compressed air at a given pressure is supplied in the required amount to the remaining parts of the pneumatic brake drive and to others. compressed air consumers.
The pneumatic brake drive is divided into autonomous circuits, separated from each other by protective valves. Each circuit operates independently of other circuits, even in the event of a fault. The pneumatic brake actuator consists of five circuits separated by one double and one triple safety valves.
The circuit I of the drive of the working brake mechanisms of the front axle consists of a part of the triple protective valve 17; receiver 24 with a capacity of 20 l with a condensate drain valve and a pressure drop sensor 18 in the receiver, parts of a two-pointer pressure gauge 5; the lower section of the two-section brake valve 16; control outlet valve 7 (C); pressure limiting valve 8; two brake chambers 1; brake mechanisms of the front axle of the tractor; pipelines and hoses between these devices.
In addition, the circuit includes a pipeline from the lower section of the brake valve 16 to the valve 81 for controlling the brake systems of the trailer with a two-wire drive.
The circuit II of the drive of the working brake mechanisms of the rear bogie consists of a part of the triple protective valve 17; receivers 22 with a total capacity of 40 liters with condensate drain valves 19 and a pressure drop sensor 18 in the receiver; parts of a two-pointer manometer 5; the upper section of the two-section brake valve 16; control output valve (D) of the automatic brake force regulator 30 with an elastic element; four brake chambers 26; brake mechanisms of the rear bogie (intermediate and rear axles); pipelines and hose between these devices. The circuit also includes a pipeline from the upper section of the brake valve 16 to the brake control valve 31 with a two-wire drive.
The circuit III of the drive of the mechanisms of the spare and parking brake systems, as well as the combined drive of the brake mechanisms of the trailer (semi-trailer) consists of a part of the double protective valve 13; two receivers 25 with a total capacity of 40 liters with a condensate drain valve 19 and a pressure drop sensor 18 in the receivers; two valves 7 of the control output (B and E) of the manual brake valve 2; accelerating valve 29; parts of the dual-line bypass valve 32; four spring energy accumulators 28 brake chambers; pressure drop sensor 27 in the line of spring energy accumulators; valve 31 for controlling the brake mechanisms of a trailer with a two-wire drive; single protective valve 35; valve 34 for controlling the brake mechanisms of a trailer with a single-wire drive; three uncoupling taps 37 three connecting heads; heads 38 type A single-wire trailer brakes and two heads 39 type "Palm" two-wire trailer brakes; two-wire trailer brake drive; pneumoelectric sensor 33 "stop lights", pipelines and hoses between these devices. It should be noted that the pneumoelectric sensor 33 in the circuit is installed in such a way that it ensures that the "stop light" lamps are turned on when the car is braked not only by the spare (parking) brake system, but also by the working one, as well as in the event of failure of one of the circuits of the latter .
Circuit IV of the drive of the auxiliary brake system and other consumers does not have its own receiver and consists of a part of a double protective valve 13; pneumatic valve 4; two cylinders 23 damper drive; cylinder 10 of the engine stop lever drive; pneumoelectric sensor 14; pipelines and hoses between these devices.
From circuit IV of the drive of the mechanisms of the auxiliary brake system, compressed air is supplied to additional (non-brake) consumers; pneumatic signal, pneumohydraulic clutch booster, control of transmission units, etc.
Circuit V of the emergency release drive does not have its own receiver and executive bodies. It consists of part of a triple safety valve 17; pneumatic valve 4; parts of the dual-line bypass valve 32; pipelines and hoses connecting the devices.
1 - type 24 brake chambers; 2 (A, B, C) - control conclusions; 3 - pneumoelectric switch of the electromagnetic valve of the trailer; 4 - control valve for the auxiliary brake system; 5 - two-pointer manometer; 6 - compressor; 7 - pneumatic cylinder of the drive of the engine stop lever; 8 - water separator; 9 - pressure regulator; 11 - two-line bypass valve; 12-4 circuit safety valve; 13 - parking brake control valve; 14 - heat exchanger; 15 - two-section brake valve; 17 - pneumatic cylinders for the drive of the dampers of the mechanism of the auxiliary brake system; 18 - receiver circuit I; 19 - consumer receiver; 20 - pressure drop alarm switch; 21 - receiver circuit III; 22 - receivers of circuit II; 23 - condensate drain valve; 24 - brake chambers of type 20/20 with spring energy accumulators; 25, 28 - accelerating valves; 26 - valve for controlling the brake systems of a trailer with a two-wire drive; 27 - switch of the signaling device of the parking brake system; 29 - valve for controlling the brake systems of a trailer with a single-wire drive; 30 - automatic connecting heads; 31 - connecting head type A; R - to the supply line of the two-wire drive; P - to the connecting line of a single-wire drive; N - to the control line of the two-wire drive; 31 - pressure drop sensor in the receivers of the 1st circuit; 32 - pressure drop sensor in the receivers of the second circuit; 33 - brake light sensor; 34-faucet emergency release
Figure 2 - Scheme of the pneumatic drive of the brake mechanisms of KamAZ-43101, 43114
Pneumatic brake drives of the tractor and trailer connect three lines: a single-wire drive line, supply and control (brake) lines of a two-wire drive. On truck tractors, connecting heads 38 and 39 are located at the ends of three flexible hoses of the indicated lines, fixed on a supporting rod. On board vehicles, heads 38 and 39 are mounted on the rear cross member of the frame.
To improve moisture separation in the supply part of the brake drive of cars of models 53212, 53213, a dehumidifier is additionally provided in the section compressor - pressure regulator, installed on the first cross member of the car in the zone of intensive airflow.
For the same purpose, on all models of the KamAZ vehicle, a condensing receiver with a capacity of 20 liters is provided in the fuse-protective valves section against freezing. Dump truck 55111 does not have trailer brake control equipment, release valves, and coupling heads.
To monitor the operation of the pneumatic brake drive and timely signal its condition and malfunctions in the cab, the instrument panel has five signal lights, a two-pointer pressure gauge showing the pressure of compressed air in the receivers of two circuits (I and II) of the pneumatic drive of the working brake system, and a buzzer , signaling an emergency drop in compressed air pressure in the receivers of any brake circuit.
The principle of operation of the brake system
The device of the elastic element of the brake force regulator is shown in the figure. 306. With vertical movements of the bridges within the allowable travel of the lever of the brake force regulator, the ball pin 4 of the elastic element is located at the neutral point. With strong shocks and vibrations, as well as when the bridges move beyond the allowable stroke of the brake force regulator lever, the rod 3, overcoming the force of the spring 2, scrolls in the housing 1. At the same time, the rod 5 connecting the flexible element with the brake force regulator scrolls relative to the deflected shaft 3 next to the ball pin 4.
After the termination of the manipulation of the force deflecting the rod 3, the pin 4 under the influence of the spring 2 returns to its original neutral position.
The accelerating valve of a Kamaz vehicle is designed to reduce the actuation time of the spare brake system drive by reducing the length of the compressed air inlet line to the spring energy accumulators and releasing air from them directly through the accelerating valve into the atmosphere. The valve is located on the inner side of the vehicle frame side member in the area of the rear bogie.
The accelerator valve device is shown in the figure. 307. Conclusion III receives compressed air from the receiver. Conclusion Iv is connected to the control device - a brake valve of reverse manipulation with manual control, and output I - to a spring-loaded energy accumulator. In the absence of pressure in port Iv, piston 3 is in the upper position. The supply valve 4 is closed under the influence of the spring 5, and the outlet valve 1 is open. Through the open exhaust valve 1 and output I, the spring energy accumulators communicate with the atmospheric output Ii. The vehicle is braked by spring energy accumulators.
When compressed air is supplied to terminal Iv from a manual brake valve, it is supplied to the above-piston place - chamber 2. Piston 3 moves down under the influence of compressed air, first closes outlet valve 1 and then opens supply valve 4. Filling the cylinders of spring-loaded energy accumulators connected to terminal I , is carried out with compressed air from the receiver through the outlet III and the open supply valve 4.
The proportionality of the control pressure at port Iv and the outlet pressure at port I is applied by piston 3. When the pressure in port I reaches the pressure corresponding to the pressure at port Iv, piston 3 moves upwards until the supply valve 4 closes, moving under the influence of spring 5. When the pressure decreases in control line (i.e. at port Iv), piston 3 moves up due to higher pressure at port I and breaks away from exhaust valve 1. Compressed air from spring-loaded energy accumulators through open exhaust valve I, sunken base of 6 valves and atmospheric valve vents to the atmosphere, transport the tool is slowed down.
The dual-line valve of the Kamaz vehicle (Fig. 308) is designed to ensure the reality of controlling one actuator with the participation of two independent controls. On the only side, a line is connected to it from a brake valve for reverse manipulation with manual administration (terminal I); on the other hand, from the emergency release valve of the parking brake system (terminal Ii).
Picture. 307. Accelerating valve for a Kamaz car: 1 - exhaust valve; 2 - control chamber; 3 - piston; 4 - supply valve; 5 - spring; 6 - valve base; I - in a two-way valve; Ii - atmospheric output; III - from the receiver; Iv - from the parking brake control valve
The output line (terminal III) is connected to the spring-loaded energy accumulators of the brake mechanisms of the rear bogie of the vehicle.
The dual-line valve of the Kamaz car is located inside the right side member of the car frame close to the accelerating valve. The valve is connected according to the arrow on the body. When compressed air is supplied to outlet I from the manual brake valve (through the accelerating valve), seal 1 moves to the left and sits on the seat in cover 3, closing outlet Ii. In this case, output III is in contact with output I, compressed air enters the spring energy accumulators, and the vehicle is braked.
When compressed air is supplied to outlet Ii from the pneumatic emergency release valve, seal 1 moves to the right and sits on the seat in housing 2, closing outlet I, while outlet Iii comes into contact with outlet Ii, compressed air also enters the spring energy accumulators, and the vehicle is released. When braking, that is, when air is released from the spring energy accumulators, the seal 1 remains pressed against the seat to which it has moved, and compressed air easily flows from the spring energy accumulators through terminal Iii to terminals I or Ii.
In the case of simultaneous supply of compressed air to terminals I and Ii, the valve occupies a neutral position and does not interfere with the passage of air to terminal Iii and further into the spring energy accumulators.
Brake chamber type 24 is designed to convert the energy of compressed air into work to actuate the brake mechanisms of the front wheels of the car.
Picture. 308. Two-way bypass valve of a Kamaz car: 1- seal; 2 - base; 3 - cover; 4 - sealing ring; I - from the emergency release valve; Ii - from the accelerating valve; III - to the cylinders of energy accumulators
The device of the brake chamber of the front brake device of the Kamaz car is shown in the figure. 309. Membrane 3 is clamped between the body 8 of the chamber and the cover 2 with a clamp 6, consisting of two half rings. The chamber is fixed to the expanding fist bracket with two bolts 13 welded to the flange, which is inserted into the base of the chamber from the inside. The chamber stem ends with a threaded fork 12 connected to the adjusting lever. The submembrane recess is connected to the atmosphere by drainage holes made in the chamber body 8.
When compressed air is supplied to the recess above the membrane 8, it moves and acts on the rod 7. When the rod is released, and at the same time the membrane, under the influence of the return spring 5, return to its original location.
The brake chamber with a spring energy accumulator type 20/20 (Fig. 310) is predetermined to actuate the brake mechanisms of the wheels of the rear bogie of the car when the working, spare and parking brake systems are turned on.
Spring-loaded energy accumulators along with the brake chambers are placed on the brackets of the expanding cams of the brake mechanisms of the rear bogie and fixed with two nuts and bolts.
When braking by the working brake system, compressed air from the brake valve enters the recess above the membrane 16. The membrane 16, bending, affects the disk 17, which moves the stem 18 through the washer and locknut and turns the adjusting lever with the expanding fist of the brake device. So the braking rear wheels proceeds in the same way as braking the front ones with a conventional brake chamber.
When the spare or parking brake system is turned on, that is, when air is released from the cavity under the piston 5 by a manual valve, the spring 8 is unclenched and the piston 5 moves down. The thrust bearing 2 through the membrane 16 affects the bearing of the rod 18, which, moving, turns the adjusting lever of the brake device connected to it. The vehicle is braking.
When braking, compressed air is supplied through the output under the piston 5. The piston simultaneously with the pusher 4 and the thrust bearing 2 moves up, compressing the spring 8 and enabling the rod 18 of the brake chamber under the influence of the return spring 19 to return to its original location.
If the gap between the pads and the brake drum is too large, that is, if the stroke of the brake chamber rod is too impressive, the voltage on the rod may not be sufficient for effective braking.
Picture. 309. Brake chamber type 24 of a Kamaz car: 1 - fitting; 2 - base cover; 3 - membrane; 4 - support disk; 5 - return spring; 6 - clamp; 7 - stock; 8 - camera base; 9 - ring; 10 - locknut; 11 - protective boot; 12 - fork; 13 - bolt; I - compressed air supply
Picture. 310. Brake chamber type 20/20 with a spring-loaded energy accumulator of a Kamaz car: 1 - base; 2 - thrust bearing; 3 - sealing ring; 4 - pusher; 5 - piston; 6 - piston seal; 7 - power accumulator cylinder; 8 - spring; 9 - screw of the emergency release device; 10 - thrust nut; 11 - cylinder branch pipe; 12 - drainage tube; 13 - stubborn bearing; 14 - flange; 15 - branch pipe of the brake chamber; 16 - membrane; 17 - support disk; 18 - stock; 19 - return spring
In this case, it is necessary to turn on the reverse manipulation hand brake valve and release air from under the piston 5 of the spring energy accumulator. The thrust bearing 2, under the influence of the power spring 8, will push through the middle of the membrane 16 and advance the rod 18 to the existing auxiliary stroke, ensuring the braking of the car.
If the impermeability is broken and the pressure in the reservoir of the parking brake system is reduced, the air from the cavity under the piston 5 will escape into the atmosphere through the outlet through the damaged part of the drive and the vehicle will be automatically braked by spring-loaded energy accumulators.
The pneumatic cylinders of the Kamaz vehicle are predetermined to actuate the mechanisms of the auxiliary brake system. There are three pneumatic cylinders on Kamaz vehicles:
Two cylinders with a diameter of 35 mm and a piston stroke of 65 mm (Fig. 311, a) for controlling throttle valves installed in the exhaust pipes of the motor;
One cylinder with a diameter of 30 mm and a piston stroke of 25 mm (Fig. 311, b) to control the lever of the regulator of the high pressure fuel pump.
Pneumatic cylinder 035x65 is pivotally fixed on the bracket with a pin. The cylinder rod is in contact with the damper control lever with a threaded fork. When the auxiliary brake system is turned on, compressed air from the pneumatic valve through the outlet in the cover 1 (see figure. 311, a) is fed into the recess under the piston 2. The piston 2, overcoming the force of the return springs 3, moves and acts through the rod 4 on the damper control lever , moving it from the "open" position to the "closed" position. When compressed air is released, piston 2 with rod 4 returns to its original position under the influence of springs 3. In this case, the damper scrolls to the “open” position.
Picture. 311. Pneumatic cylinders of the damper actuator of the auxiliary brake system (a) and the actuator of the engine stop lever (b): 1 - cylinder cover; 2 - piston; 3 - return springs; 4 - stock; 5 - base; 6 - cuff
Pneumatic cylinder 030x25 is pivotally placed on the cover of the high pressure fuel pump regulator. The cylinder rod is fastened with a threaded fork to the regulator lever. When the auxiliary brake system is turned on, compressed air from the pneumatic valve through the outlet in the cover 1 of the cylinder (see figure. 311, b) is fed into the recess under the piston 2. The piston 2, overcoming the force of the return spring 3, moves and acts through the rod 4 on the regulator lever fuel pump, moving it to the location of the zero intake. The pedal linkage system is connected to the cylinder rod in such a way that when the auxiliary brake system is activated, the pedal does not move. When the compressed air is released, the piston 2 with the rod 4 returns to its original position under the influence of the spring 3.
Picture. 312. Control output valve of a Kamaz car: 1 - fitting; 2 - base; 3 - loop; 4 - cap; 5 - pusher with valve; 6 - spring
The control output valve (Fig. 312) is designed to connect instrumentation to the actuator for the purpose of measuring pressure, as well as for extracting compressed air. There are five such valves on Kamaz vehicles - in all circuits of the pneumatic brake drive. For connection to the valve, it is necessary to adapt pipelines and measuring instruments with a union nut M16x1.5,
When measuring pressure or for extracting compressed air, unscrew the cap 4 of the valve and screw on the base 2 the union nut of the hose connected to the control pressure gauge or any consumer. When screwing on, the nut moves the pusher 5 with the valve, and air is supplied to the pipeline through the radial and axial holes in the pusher 5. After the pipeline is disconnected, the pusher 5 with the valve, under the influence of the spring 6, is pressed against the seat in the housing 2, closing the compressed air outlet from the pneumatic drive.
Picture. 313. Pressure drop sensor of a Kamaz car: 1 - base; 2 - membrane; 3 - fixed contact; 4 - pusher; 5 - mobile contact; 6 - spring; 7 - adjusting screw; 8 - insulator
BRAKE SYSTEM.
KamAZ vehicles and road trains are equipped with four autonomous braking systems: working, spare, parking and auxiliary. Although these systems have common elements, they work independently and provide high braking performance in all operating conditions. In addition, the car is equipped with an emergency brake release drive, which provides the possibility of resuming the movement of a car (road train) when it is automatically braked due to compressed air leakage, alarms and control devices, allowingthose who monitor the operation of the pneumatic drive.
Brake system modernized KAMAZ vehicles, unlike serial vehicles, contains:
- single-cylinder compressor with a capacity of 380 l / min with a back pressure of 0.7 MPa (7 kgf / cm 2) and an engine speed of 2200 rpm;
- service brakes are controlled by a two-section brake valve with a suspended pedal mounted on the front panel of the cab;
Instead of a block of protective valves, a four-circuit protective valve was used;
- a cooler is installed to cool the compressed air;
- an accelerating valve in the line of circuit II of the brake system to reduce the response time of the brakes of the rear bogie;
- proportional valve (only for KA-MAZ-65115);
- instead of connecting heads like "Palm" automatic heads are installed.
The brake system is designed to reduce the speed of the vehicle or stop it completely. The brake mechanisms of the working brake system are installed on all six wheels of the car. The drive of the working brake system is pneumatic double-circuit, it drives the brake mechanisms of the front axle and the rear bogie of the car separately. The drive is controlled by a foot pedal mechanically connected to the brake valve. The executive bodies of the drive of the working brake system are the brake chambers.
The spare brake system is designed to smoothly reduce the speed or stop a moving vehicle in the event of a complete or partial failure of the working system.
The parking brake system provides braking of a stationary car on a horizontal section, as well as on a slope and in the absence of a driver. The parking brake system on KamAZ vehicles is made as a single unit with a spare one, and to enable it, the handle of the manual crane should be set to the extreme (upper) fixed position.
Thus, in KamAZ vehicles, the brake mechanisms of the rear bogie are common for the working, spare and parking brake systems, and the last two have, in addition, a common pneumatic drive.
The auxiliary brake system of a car serves to reduce the load and temperature of the brake mechanisms of the working brake system. The auxiliary braking system on KamAZ vehicles is the engine brake -retarder, when turned on, the exhaust pipes of the engine are blocked and the fuel supply is turned off.
The emergency release system is designed to release spring-loaded energy accumulators when they are automatically activated and the vehicle stops due to leakage of compressed air in the drive. The drive of the emergency release system is duplicated: in addition to the pneumatic drive, there are emergency release screws in each of the four spring-loaded energy accumulators, which makes it possible to release the latter mechanically.
The alarm and control system consists of two parts:
1. Light and acoustic signaling about the operation of brake systems and their drives. At various points of the pneumatic drive, pneumatic-electric sensors are built-in, which, when any brake system, except for the auxiliary one, close the circuits of the “stop light” electric lamps. Pressure drop sensors are installed in the drive receivers and, in case of insufficient pressure in the latter, they close the circuits of signal electric lamps located on the instrument panel of the car, as well as the audio signal (buzzer) circuit.
2. Valves of control outputs, with the help of which the diagnostics of the technical condition of the pneumatic brake actuator is carried out, as well as (if necessary) the selection of compressed air. A complex of pneumatic devices for actuating the brake mechanisms of a trailer (semi-trailer) with a single-wire and two-wire drive is also installed on KamAZ tractor vehicles. The presence of such a drive on tractors ensures their aggregation with any trailers (semi-trailers) that have a pneumatic drive of brake mechanisms.
Below are the main technical data of brake systems (Table 45).
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Table 45 |
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Automobile model |
5320 5410 |
53212 53213 54112 |
53215 54115 |
55111 53229 |
65115 |
43101 |
43114 43115 43118 44108 |
4326 |
53228 6426 65111 |
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Adjustment lever length, mm: - front axle |
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125150 |
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Brake chamber stroke, mm: - front axle |
20-30 |
25-35 |
20-30 |
25-35 |
20-30 |
25-35 |
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rear bogie |
20-30125-35 |
20-30 |
20-30 |
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Type of brake chambers: - front axle |
24 30 |
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rear bogie |
20/20 |
24/24 |
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Drum diameter, mm |
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Overlay width, mm |
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Total area of pads, mm 2 |
6300 |
4200 |
6300 |
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Length of brake force regulator lever, mm |
No regulator |
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Static deflection of the rear suspension, mm |
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Rice. 285. Brake mechanism: 1 - shoe axis; 2 - support; 3 - shield; 4 - axle nut; 5 - lining of the axes of the pads; 6 - pin of the block axis; 7 - brake shoe; 8 - spring; 9 - friction lining; 10-bracket expanding fist; 11 - roller axis; 12 - expanding fist; 13 - roller; 14 - adjusting lever
Brake mechanisms (Fig. 285) are installed on all six wheels of the vehicle, the main node is The brain mechanism is mounted on a caliper 2, rigidly connected to the bridge flange. On the eccentrics of axles 1, fixed in the caliper, two brake pads 7 with friction linings 9 attached to them, made along a sickle-shaped profile in accordance with the nature of their wear. Shoe axes with eccentric bearing surfaces make it possible to correctly center the shoes relative to the brake drum when assembling brake mechanisms. The brake drum-ban is attached to the wheel hub with five bolts.
When braking, the pads are moved apart by the S-shaped fist 12 and pressed against the inner surface of the drum. Rollers 13 are installed between the expanding fist 12 and pads 7, reducing friction and improving braking efficiency. The pads are returned to the braked state by four retracting springs 8.
Expanding fist 12 rotates in bracket 10, bolted to the caliper. A brake chamber is installed on this bracket. At the end of the shaft of the expanding fist, a worm-type adjusting lever 14 is installed, connected to the rod of the brake chamber with a fork and a pin. A shield bolted to the caliper protects the brake mechanism from dirt.
Rice. 286. Adjusting lever: 1- cover; 2 - rivet; 3 - gear wheel; 4 - plug; 5 - worm; 6 - body; 7 - bushing; 8 - locking bolt; 9 - retainer spring; 10 - retainer ball; 11 - worm axis; 12 - oiler
The adjusting lever is designed to reduce the gap between the shoes and the brake drum, which increases due to wear of the friction linings. The device of the adjusting lever is shown in fig. 286. The adjusting lever has a steel case 6 with a bushing 7. In the case there is a worm gear 3 with splined holes for installation on an expanding fist and a worm 5 with an axis pressed into it 11. To fix the axis of the worm there is a locking device, a ball 10 of which enters the holes on the axis 11 of the worm under the action of the spring 9, abutting against the locking bolt 8. The gear wheel is kept from falling out by covers 1 attached to the body 6 of the lever. When the axle is turned (at the square end), the worm turns wheel 3, and with it the expanding fist rotates, pushing the pads apart and reducing the gap between the pads and the brake drum. When braking, the adjusting leveris rotated by the brake chamber rod.
Before adjusting the gap, the locking bolt 8 must be loosened by one or two turns, after adjustment, tighten the bolt securely.
Brake drive. Schematic diagrams of the drive are shown in fig. 287-292.
Rice. 287. Pneumatic brake mechanism mod. 5320: A - control output of circuit IV; B, E - valves of control outputs of the III circuit; C - control circuit output I; D- control circuit output II; N- brake control line of a two-wire drive; P - connecting line of a single-wire drive; R- line supplying a two-wire drive; 1 - brake chambers type 24; 2 - parking brake control valve; 3 - crane for emergency release of the parking brake system; 4 - control valve for the auxiliary brake system; 5 - two-pointer manometer; 6 - control lamps and a sound signaling device; 7 - control output valve; 8 - pressure limiting valve; 9 - compressor; 10 - pneumatic cylinder of the drive of the engine stop lever; 11 - pressure regulator; 12 - fuse against freezing; 13 - double protective valve; 14 - sensor for switching on the electromagnetic valve of the trailer brake mechanism; 15 - batteries; 16 - two-section brake valve; 17 - triple protective valve; 18 - pressure drop sensor in the receiver; 19 - condensate drain valves; 20 - condensing receiver; 21 - air bleed valve; 22 - receivers of circuit II; 23 - pneumatic cylinder of the auxiliary brake system damper drive; 24, 25 - receivers I and III circuits; 26 - brake chambers type 20x20; 27 - switch on sensor control lamp parking brake system; 28 - power accumulators; 29 - accelerating valve; 30 - automatic brake force regulator; 31 - trailer brake control valve with a two-wire drive; 32 - double-line valve; 33 - sensor for turning on the brake signal; 34 - trailer brake control valve with a single-wire drive; 35 - single protective valve; 36 - rear lights; 37 - disconnecting taps; 38, 39 - connecting heads type A and type "Palm"
Rice. 288. Scheme of the pneumatic drive of the brake mechanisms of KamAZ-53229, -65115, -54115, -43253: 1 - water separator; 2 - compressor; 3 - cooler; 4 - four-circuit protective valve; 5 - automatic brake force regulator; 6 - pressure regulator; 7 - brake signal switch; 8 - brake valve; 9 - pneumatic cylinders for the drive of the damper of the mechanism of the auxiliary brake system; 10 - parking brake control valve; 11 - proportional valve; 12 - pneumatic cylinder of the drive of the engine stop lever; 13 - control valveauxiliary brake system; 14 - pressure gauge; 15- brake chambers type 30/30; 16 - circuit receiver 1Y; 17- circuit 11 receivers; 18 - condensate drain valve; 19 - brake chambers type 20/20; 20.24 - accelerating valves; 21- two-line bypass valve; 26 parking brake warning lamp switch; 23 - receiver circuit III; 25 - circuit receiver I; 26- the switch of a control lamp of pressure drop of air in a contour III; 27 - emergency release valve
Rice. 289. Scheme of the pneumatic drive of the brake mechanisms of KamAZ-4326: 1 - type 24 brake chambers; 2 (A, B, C) - control conclusions; 3 - pneumoelectric switch of the electromagnetic valve of the trailer; 4 - control valve for the auxiliary brake system; 5 - two-pointer manometer; 6 - compressor; 7 - pneumatic cylinder of the drive of the engine stop lever; 8 - water separator; 9 - pressure regulator; 11 - two-way bypass valve; 12-4 circuit safety valve; 13 - parking brake control valve; 14 - heat exchanger; 15 - two-section brake valve; 17 - pneumatic cylinders for the drive of the dampers of the mechanism of the auxiliary brake system; 18 - circuit receiver I; 19 - consumer receiver; 20 - pressure drop alarm switch; 21 - receiver circuit III; 22 - receivers of circuit II; 23 - condensate drain valve; 24 - brake chambers of type 20/20 with spring energy accumulators; 25, 28 - accelerating valves; 26 - valve for controlling the brake systems of a trailer with a two-wire drive; 27 - switch of the signaling device of the parking brake system; 29 - valve for controlling the brake systems of a trailer with a single-wire drive; 30 - automatic connecting heads; 31 - connecting head type A; R-N-I
Rice. 291. Scheme of the pneumatic drive of the brake mechanisms of KamAZ-43101, 43114: 1 - type 24 brake chambers; 2 (A, B, C) - control conclusions; 3 - pneumoelectric switch of the electromagnetic valve of the trailer; 4 - control valve for the auxiliary brake system; 5 - two-pointer manometer; 6 - compressor; 7 - pneumatic cylinder of the drive of the engine stop lever; 8 - water separator; 9 - pressure regulator; 11 - two-line bypass valve; 12-4 circuit safety valve; 13 - parking brake control valve; 14 - heat exchanger; 15 - two-section brake valve; 17 - pneumatic cylinders for the drive of the dampers of the mechanism of the auxiliary brake system; 18 - circuit receiver I; 19 - consumer receiver; 20 - pressure drop alarm switch; 21 - receiver circuit III; 22 - receivers of circuit II; 23 - condensate drain valve; 24 - brake chambers of type 20/20 with spring energy accumulators; 25, 28 - accelerating valves; 26 - valve for controlling the brake systems of a trailer with a two-wire drive; 27 - switch of the signaling device of the parking brake system; 29 - valve for controlling the brake systems of a trailer with a single-wire drive; 30 - automatic connecting heads; 31 - connecting head type A; R- to the supply line of the two-wire drive; P - to the connecting line of a single-wire drive; N- to the control line of the two-wire drive; 31- pressure drop sensor in receivers I contour; 32 - pressure drop sensor in the receivers of the second circuit; 33 - brake light sensor; 34-faucet emergency release
Compressor 9 is the source of compressed air in the drive. Compressor, pressure regulator 11, fuse 12 against freezing of condensate, condensate receiver 20 constitute the supply part of the drive, from which purified compressed air at a given pressure is supplied in the required amount to the remaining parts pneumatic brake drive and to other consumers of compressed air. The pneumatic brake drive is divided into autonomous circuits, separated from each other by protective valves. Each contour dey operates independently of other circuits, including in the event of malfunctions. The pneumatic brake actuator consists of five circuits separated by one double and one triple protective valves.
Circuit I the drive of the working brake mechanisms of the front axle consists of a part of the triple protective valve 17; receiver 24 with a capacity of 20 l with a condensate drain valve and a pressure drop sensor 18 in the receiver, parts of a two-pointer pressure gauge 5; the lower section of the two-section brake valve 16; control outlet valve 7 (C); valve 8 pressure limitation; two brake chambers 1; brake mechanisms of the front axle of the tractor; pipelines and hoses between these devices.
In addition, the circuit includes a pipeline from the lower section of the brake valve 16 to the valve 81 for controlling the brake systems of the trailer with a two-wire drive.
The circuit II of the drive of the working brake mechanisms of the rear bogie consists of a part of the triple protective valve 17; receivers 22 with a total capacity of 40 liters with condensate drain valves 19 and a pressure drop sensor 18 in the receiver; parts of a two-pointer manometer 5; the upper section of the two-section brake valve 16; control output valve(D) automatic brake force regulator 30 with an elastic element; four brake chambers 26; brake mechanisms of the rear bogie (intermediate and rear axles); piping and hose between these devices. The circuit also includes a pipeline from the upper section of the brake valve 16 to the brake control valve 31 with a two-wire drive.
The circuit III of the drive of the mechanisms of the spare and parking-night brake systems, as well as the combined drive of the brake mechanisms of the trailer (semi-trailer) consists of a part of the double protective valve 13; two receivers 25 with a total capacity of 40 liters with a condensate drain valve 19 and a pressure drop sensor 18 in the receivers; two valves 7 of the control output (B and E) of the manual brake valve 2; accelerating valve 29; parts of a two-way bypass valve 32; four spring energy accumulators 28 brake chambers; pressure drop sensor 27 in the line of spring energy accumulators; valve 31 for controlling the trailer brakes with a two-wire drive; single protective valve 35; valve 34 for controlling the brake mechanisms of a trailer with a single-wire drive; three uncoupling taps 37 three connecting heads; heads 38 of type A for a single-wire trailer brake actuator and two heads 39 of the Palm type for a two-wire trailer brake actuator; pneumoelectric sensor 33 “stop lights”, pipelines and hoses between these devices. It should be noted that the pneumoelectric sensor 33 in the circuit is installed in such a way that it ensures that the “stop light” lamps are turned on when the car is braked not only by the spare (parking) brake system, but also by the working one, as well as in case of failure one of the contours of the latter.
Circuit IV of the drive of the auxiliary brake system and other consumers does not have its own receiver and consists of a part of a double protective valve 13; pneumatic valve 4; two cylinders 23 damper drive; cylinder 10 of the engine stop lever drive; pneumoelectric sensor 14; pipelines and hoses between these devices.
From the circuit IV of the drive mechanisms of the auxiliary brake system, compressed air pays to additional (not brake) consumers; pneumatic signal, pneumohydraulic clutch booster, control of transmission units, etc.
Circuit V of the emergency release drive does not have its own receiver and executive bodies. It consists of part of a triple safety valve 17; pneumatic valve 4; parts of the dual-line bypass valve 32; pipelines and hoses connecting the devices.
Pneumatic brake actuators of the tractor and trailer connect three lines: a single-wire drive line, supply and control (brake) lines of a two-wire drive. On truck tractors, connecting heads 38 and 39 are located at the ends of three flexible hoses of the indicated lines, mounted on a support rod. On board vehicles, heads 38 and 39 are mounted on the rear cross member of the frame.
To improve moisture separation in the supply part of the brake drive of cars mod. 53212, 53213 in the section compressor - pressure regulator, a dehumidifier is additionally provided, installed on the first cross member of the vehicle in the zone of intensive airflow.
For the same purpose, on all models of the KamAZ vehicle, a condensing receiver with a capacity of 20 liters is provided in the area of the antifreeze - protective valves. On the dump truck 55111 there is no equipment for controlling the brake mechanisms of the trailer, uncoupling valves, connecting heads.
To monitor the operation of the pneumatic brake actuator and timely signal its condition and malfunctions in the cab, there are five signal lights on the instrument panel, a two-pointer pressure gauge showing the pressure of compressed air in the receivers of two circuits(I and II) a pneumatic drive of the service brake system, and a buzzer signaling an emergency drop in compressed air pressure in the receivers of any brake drive circuit.
Rice. 293. Secondary brake system mechanism:1 - body; 2 - rotary lever; 3 - damper; 4 - shaft
The mechanism of the auxiliary brake system (Fig.293). In the exhaust pipes of the muffler, a housing 1 and a damper 3 are installed, mounted on a shaft 4. A rotary lever 2 is also attached to the damper shaft, connected to the pneumatic cylinder rod. The lever 2 and the damper 3 associated with it have two positions. The internal cavity of the body is spherical. When the auxiliary brake system is turned off, damper 3 is installed along the exhaust gas flow, and when turned on, it is perpendicular to the flow, creating a certain counterpressure in the exhaust manifolds. At the same time, the fuel supply is cut off. The engine starts in compressor mode.