CS199891B1 - Connection of power supply system especially for road vehicle - Google Patents

Description

(54) Wiring of source treatment, especially for road vehicles

The object of the invention is to connect a power set particularly for road vehicles and a three-phase generator and a rectified output and a regulated semiconductor or vibration contact regulator responsive to a battery powered by said generator and further comprising charging control provided by a control lamp powered via the auxiliary relay contacts. the winding is connected between the neutral center of the three-phase winding b the closed pole of the power pack.

Known connections for road vehicle power kits and a three-phase generator in which charging control lamp control is provided by auxiliary relay contacts with pull winding connected one end to the neutral center of the three-phase winding and the other end to the sealed pole of the power supply have the disadvantage that unloaded by larger appliances, when the voltage of the battery and the regulated voltage at the generator output is equalized, the regulator is fully energized by the regulator, at which the voltage of the generator alternating current winding decreases to such an extent reliably disconnected. As a result of the auxiliary relay contact flobe, the control bulb starts to shine or illuminate and the driver is misled as to the failure of the power pack. This phase lasts until the battery voltage drops below the regulated voltage level, for example by connecting an appliance not yet connected.

199 891

199 891

The disadvantage is not the connection of the source set according to the invention, which consists in that the neutral center of the three-phase winding of the generator is connected to the node of resistors of the input divider of the semiconductor controller, or the node of the resistor and coil of the regulator. Zener diodes.

Examples of wiring of the power pack according to the invention are given in the drawing appendix 1 to 3.

Fig. 1 shows the circuit in which the alternator is controlled by a semiconductor controller, Fig. 2 shows the circuit in which the alternator is controlled by a contact controller, Fig. 3 shows the generation of the generator alternating winding zero point when the generator is delta connected .

In Fig. 1, the alternator and the excitation winding 12a and the zero center 6 of the alternating winding 2 are a semiconductor controller at the input of which is a separating diode 6 connected by the cathode and the zero center 4 of the three-phase winding. the cathode is connected and the node of resistors 8 and 8 of the input divider and with the cathode of the reference Zener diode 10. The reference Zener diode 10 is connected on the basis of the input transistor of flip-flop 8, which provides the regulator proper operation. the winding 60, the fixed contact 52 and the movable contact 14 mounted on the anchor 60. The anchor 15 is connected to a control bulb 52 which is sealed by the other side. 18 is a switch connecting the field winding 52, the regulator 2 and the contact circuit 13 and 14 of the auxiliary relay J on the battery 19.

The circuit shown in Fig. 1 acts so that the field winding, which is connected by one side through the switch 18 on the battery 52, is fed from the other side by the output of the flip-flop 11 of the semiconductor regulator 2. at the point 6 of the voltage divider formed by the resistors 8 and 8a according to the Zener voltage of the reference Zener diode 10, so that the voltage of the generator 6 is maintained within specified limits under all operating conditions. After switching the switch 18 before the generator 6 starts, the control lamp 17 lights up, since the circuit of contacts 13 and 14 of the auxiliary relay J is closed. As soon as the generator 6 reaches a sufficiently high speed, the voltage at the zero point 6 increases to the value at which the pull-in winding 16 of the auxiliary relay J is energized by the movable contact 14 mounted on the anchor 1g. . When the bulb goes out, it is indicated that the power pack is working properly.

In order to prevent the control lamp 17 from being illuminated when the battery voltage and the regulated voltage are equalized, they are included in the circuit according to the invention between the zero center £ of the generator alternating winding a and the node point g of resistors 8g. . The action of the decoupling diode 6 is to prevent current from the zero point of the alternating winding of the generator 6 toward the node point g of the resistors 8 and g of the semiconductor controller 2. The 2eneric diode χ prevents current flow from the node point g towards the zero center. If the battery voltage is lower than the regulated voltage. As soon as the voltage on the battery and the voltage regulated is equalized, the generator is de-energized

199 891 and consequently the voltage of the neutral center 4 starts to drop, a certain voltage drop breaks through the Zener diode X, which starts to flow backward current flowing through the resistor 8 and the winding 16 at the same time. voltage drop, so the voltage at node χ decreases. As a result, the reference Zener 10 closes. The output of the flip-flop 11 of the controller 2 is opened and the generator X is energized. By energizing the generator 4, the voltage of the alternating winding center 4 increases to a value sufficient to energize the winding 16. The contacts 13 and 14 of the auxiliary relay 4 remain open together and the control lamp 17 cannot illuminate. This is also aided by the fact that the reverse current of the Zener diode X also energizes the auxiliary relay coil 16. This condition lasts until the winding winding 16 of the auxiliary relay χ is sufficiently energized from the zero center £ of the alternating winding of the generator χ.

Fig. 2 shows a similar circuit diagram of the source apparatus according to the invention, in which a contact regulator is used. The nodal point χ of Fig. 1 is represented by a nodal point 50 between the resistor 80 of the coil 90 of the controller 20 in this circuit.

The effect of the series connection of the separating diode 6 and the zener diode χ is similar to that explained in the operation of the circuit of FIG. 1. If the derating of the generator χ occurs as a result of balancing the regulated voltage with the battery voltage, the wake-up diode χ breaks and its reverse current increases the rest of the voltage at the resistor 80. Increased voltage drop at the resistor 80 causes a current drop by regulating the regulator to a higher voltage and thus energizing the χ generator. That is, at the zero center středu of the alternating winding of the generator χ, there cannot be a voltage drop that would allow the contacts 13 and 14 of the auxiliary relay χ to be opened and thus to illuminate the control lamp 17.

Fig. 3 shows a method of utilizing the wiring of a power pack according to the invention if a three-phase generator is used in the power pack, whose alternating winding is connected in a triangle. In the diagram shown, the 45, 46 and 47 are triangle vertices as well as alternating winding terminals. 41. 42 and 43 are resistors connected by one end to the neutral center 40 and the other end each resistor is connected to a different terminal 45, 46. 47 of the alternating winding. The articulated neutral center 40 of the three-phase winding connected in a triangle represents the zero center £ shown in the previous connections shown in Figures 1 and 2, and after this modification any of the connections shown in Figure 1 can be used in connection with the three-phase delta connected generator. and FIG.

In the series connection of the separating diode 6 and the zener diode χ, the order in which they are connected does not matter between the zero center,, 40 of the three-phase winding of generator X, 100 and the node χ of the input divider formed by resistor 8 and χ at the semiconductor controller. or a nodal point 50 between the ballast resistor 80 and the coil 90 of the controller 20. An important connection of the two elements is that the cathode of the ballast diode 6 must point to the zero point,, 40 of the AC generator winding χ, 100. i.e. towards the node point χ, 50 of the controller 2, 20.

Claims (4)

SUBJECT OF THE INVENTION 1. Wiring of a power supply unit, particularly for road vehicles, with a three-phase rectified output generator and a regulated voltage-responsive semiconductor or vibration contact regulator on a battery powered from said generator, comprising a charge control provided by a control lamp fed via the auxiliary relay contacts; is connected between the neutral center of the three-phase generator winding and the grounded pole, characterized in that the neutral center (4,40) of the three-phase generator winding (1, 100) is connected to the node point (5) of resistors (8, 9) 2), optionally with a node (50) of the series resistor (80) and the coil of the regulator (90) at the contact regulator (20), via a serial connection of the separating diode (6) and the zener diode (7). 2. The power supply set according to claim 1, characterized in that the neutral center (4, 40) of the three-phase winding of the generator (1, 100) is connected to the cathode of the separating diode (6), the anode of which is connected by β anode of Zener diode (7). and the cathode of the Zener diode (7) is connected to the node (5) of the resistors (8, 9) of the input divider of the semiconductor controller (2) or the node (50) of the resistor (80) and the coil (90) of the contact regulator /. 3. The power set according to claim 1, characterized in that the neutral center (4, 40) of the three-phase winding of the generator is connected to the anode of the Zener diode (7), the cathode of which is connected to the cathode of the diode (6) and the anode of the diode. 6) is connected to the node point (5) of the resistors (8, 9) of the input divider of the semiconductor controller (2), or to the node point (50) of the resistor (80) and the coil (90) of the contact controller (20) 4. The power set according to claim 1, wherein the AC generator has a three-phase winding connected to a triangle whose zero center is formed as a common connection of three resistors connected at the other end to a different end. outlet (45, 46, 47) of the three-phase winding of the three-phase generator (100).