Selbsttaetiges Blockierschutz-Steuersystem

Selbsttaetiges Blockierschutz-Steuersystem

1,208,843. Anti-skid braking systems. BENDIX CORP. 19 Feb., 1969 [13 March, 1968], No. 8942/69. Heading F2F. In a road-vehicle anti-skid braking system, wheel deceleration and acceleration signals energize solenoid valves at predetermined levels -g; +g 1 ; + g 2 , to control vacuum-actuated regulati...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: SLAVIN,MICHAEL, WOLF CARP,RALPH
Format: Patent
Sprache:ger
Schlagworte:
ARRANGEMENT OF BRAKING ELEMENTS ON VEHICLES IN GENERAL
BRAKE CONTROL SYSTEMS OR PARTS THEREOF, IN GENERAL
PERFORMING OPERATIONS
PORTABLE DEVICES FOR PREVENTING UNWANTED MOVEMENT OFVEHICLES
TRANSPORTING
VEHICLE BRAKE CONTROL SYSTEMS OR PARTS THEREOF
VEHICLE MODIFICATIONS TO FACILITATE COOLING OF BRAKES
VEHICLES IN GENERAL
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Zusammenfassung:1,208,843. Anti-skid braking systems. BENDIX CORP. 19 Feb., 1969 [13 March, 1968], No. 8942/69. Heading F2F. In a road-vehicle anti-skid braking system, wheel deceleration and acceleration signals energize solenoid valves at predetermined levels -g; +g 1 ; + g 2 , to control vacuum-actuated regulating valves in the wheel brake pipe. Regulating valve, Fig. 4.-Comprises a spring- loaded diaphragm 310 with a small leak 311, and driving a piston-rod 320. When solenoid 314 is energized (at - g) to admit atmosphere to one side of the diaphragm it moves to the left with rod 320 allowing ball-valve 322 to close the master-cylinder pipe and increases the volume of space 341 connected to the brake pipe 331 (thereby reducing brake cylinder pressure). At a low level of wheel acceleration +g 1 solenoid 314 is de-energized, and leak 311 allows the spring to return the diaphragm and rod 320 slowing pumping fluid back into the brake pipe. If the wheel accelerates to +g 2 solenoid 350 is energized, connecting both sides of the diaphragm through pipe 351 to allow a rapid return to full braking. Skid control system. Fig. 1.-As shown, the front wheels are controlled separately by regulators 14, 15, and the rear wheels jointly by regulator 13. The speed of the wheels is detected by, e.g., tacho-altemators 30-33, and above a minimum slow speed determined by threshold circuits 51, is fed to counters 45 providing a D.C. signal proportional to speed, which is differentiated at circuit 47 to provide the acceleration signal. The value of the acceleration is determined by comparators such as 55, 56, 57. At value - g comparator 55 triggers circuits, e.g. 64, 70, to open AND gate 82, causing the regulator to reduce brake pressure; at value + g 1 comparator 56 inhibits the AND gate so that brake pressure increases slowly; and at value +g 2 comparator 57 controls the regulator to rapidly increase brake pressure. Rear wheel control is determined by a differential amplifier "select" circuit 50 which may be arranged to select either the fastest rear wheel or the slowest rear wheel for the control channel. Suitable transistor circuits are illustrated in Figs. 7, 8 (not shown). Parked/locked wheel discriminator.-Since it is desirable to have normal braking at very low speeds a logic circuit 46 is provided comprising an R.C. delay circuit (142), (143), (158), Fig. 6A (not shown), which keeps the control channel open for 0.4 seconds after the wheel signal drops below threshold value. If the whe