Elektrische gesteuerte Kraftstoffeinspritzanlage für Brennkraftmaschinen

Elektrische gesteuerte Kraftstoffeinspritzanlage für Brennkraftmaschinen

1,261,223. Transistor pulse circuits. ROBERT BOSCH G.m.b.H. 9 May, 1969 [11 May, 1968], No. 23652/69. Heading H3T. [Also in Divisions F1, G1 and H1] In an electronically controlled I.C. engine fuel injection system, during acceleration fuel enrichment is provided by an additional number of opening p...

Ausführliche Beschreibung

Gespeichert in:
Bibliographische Detailangaben
Hauptverfasser: REHMANN,WOLFGANG, SCHOLL,HERMANN,DR, RITTMANNSBERGER,NORBERT,DR, WAHL,JOSEF, WESSEL,WOLF
Format: Patent
Sprache:ger
Schlagworte:
BLASTING
COMBUSTION ENGINES
CONTROLLING COMBUSTION ENGINES
HEATING
HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
LIGHTING
MECHANICAL ENGINEERING
WEAPONS
Online-Zugang:Volltext bestellen
Tags: Tag hinzufügen
Keine Tags, Fügen Sie den ersten Tag hinzu!
Beschreibung
Zusammenfassung:1,261,223. Transistor pulse circuits. ROBERT BOSCH G.m.b.H. 9 May, 1969 [11 May, 1968], No. 23652/69. Heading H3T. [Also in Divisions F1, G1 and H1] In an electronically controlled I.C. engine fuel injection system, during acceleration fuel enrichment is provided by an additional number of opening pulses produced between the normal opening pulses, the additional opening pulses being triggered by a device connected to the butterfly valve in the intake manifold when this butterfly valve is opened during acceleration. The number of additional pulses is dependent upon the amount the butterfly valve is opened. As shown, the normal opening pulses, having a duration dependent upon the intake manifold pressure, are produced by a control multivibrator 150 which is triggered in synchronism with the engine speed by switches 101, 102 via a bi-stable multivibrator 130, these opening pulses being applied to two groups of solenoid injection valves 110, 120 via a device 170, an OR gate 165 and respective AND gates 115, 125 dependent upon which switch 101, 102 is closed, the switches 101, 102 being alternately closed for 180 degrees of the crank-shaft rotation. Additional pulses of constant duration are produced by a monostable multivibrator 250, having a capacitor 257 as its timing element, and are applied to OR gate 165, the multivibrator 250 being triggered by a bi-stable multivibrator 230 which is switched over by a switch 40 operated when the butterfly valve is opened. In an alternative, Fig. 9 (not shown), the device 170 is replaced by a multiplier circuit (300) containing a storage capacitor (305). The multivibrator 150 produces pulses (Js) having a period during which the capacitor (305) is charged by a charging current (i 1 ). As described, the discharge current is selected to be equal to the charging current (i 1 ) and the normal opening pulses (Jn) at the OR gate 165 have a duration which is twice that of pulses (Js). These pulses (Jn) are applied to the solenoids via OR gate 165 and AND gates 115, 125 as above. The additional pulses (Z) are produced as above but in this case they also cause the normal pulse (Jn) to be prolonged. During each additional pulse a capacitor (263), connected in an emitter follower circuit to the output transistor 252 of multivibrator 250, is charged in steps, each step corresponding to an additional pulse. The transistor (265) of the emitter follower circuit supplies a current (i 2 ) to the capacitor (305) thus increasing the chargin