DE331615C - Device for alternating connection of two collector batteries to the charging and consumption line - Google Patents

Description

z "Device for alternating connection of two collector batteries drawer-. and consumption line. The invention relates to an automatic charging device for two - electrical collector batteries, which are alternately charged and discharged and in the case of the battery that is used to deliver the current through relay action Reaching the lower permissible voltage limit from the consumption line from and to the charging line, when the highest charging voltage is reached by the charging line now and then discharge. the other battery is switched back to the consumption line will. -In accordance with the invention: these switching processes are carried out through the use of a monitoring relay for both batteries and a solenoid. The monitoring relay will initially connected to the battery to be charged and monitors the voltage this battery while charging. Is the charge ended and, as a result, the Charging voltage has risen to a certain maximum value, the monitoring relay is activated the switching magnet in action, which interrupts the charge, and the monitoring relay at the same time to the other battery in operation. The monitoring relay therefore now monitors the other battery, the one delivering the current. Is the terminal voltage If this battery has dropped to a certain lowest value, then the monitoring relay causes again with the help of the switching magnet the disconnection of the discharged battery of the consumption line and the connection to the charging line while at the same time the battery, which has been charged in the meantime, is connected to the consumption line.

The switchover itself with the aid of the switching magnet can also be carried out according to the invention caused by the fact that the solenoid drives a shift drum, the four different ones Can take positions that correspond to the four switching cases that occur in the company correspond.

By using a monitoring relay for both batteries According to the invention, in addition to simplifying and making the system cheaper, the Advantage achieved that the charged and 'ready battery completely is unencumbered; since it does not supply any current to the relay.

In Fig. I is a circuit diagram of a system according to the invention shown. The arcs drawn in it mean switches where the Current flow through the lines that are crossed by the arch, interrupted, the one on the other hand, is possible via the other lines not crossed by the arch. The payment x to q. indicate in which of the four possible circuit states the relevant Lines are switched on. The Fig. Z shows the development of the by the solenoid moving shift drum, from which the individual switching options can be seen.

In the illustration shown in FIG. I, Bi is one battery, B2 the other. St is the monitoring relay that moves switch st. L1 and La represent two windings of the switching magnet rotating the switching drum. The switch i is controlled directly by the armature of the switching magnets L1 and L2. The rail marked "6 volts" represents the consumption line.

In the circuit state assumed in the figure, both batteries are disconnected from the power line. Battery BL is connected to the consumption line, the monitoring relay St. is parallel to the battery. The current flowing through St runs through a resistor w, which is switched off when the relay is weakly excited, so that its magnets, when re-excited as a result of the increased current intensity, are used to attract the dropped Anchor can exert the required force. ; The other battery B2 is completely switched off. The switching drum has the first position W1 shown in FIG. 2. If the discharge voltage has been reached in the battery B1, the armature of the monitoring relay St drops out and thereby closes the switch st. The j switching magnet 1I L2 receives current from the consumption line and switches the switching drum one step further into the position W2 (FIG. 2). As a result, battery Bi is connected to the mains line for charging and battery B2. to the 1st consumption line. The monitoring relay St; remains parallel to battery B1. The resistor w has been switched off by the switch i moved by the switching magnet. When the highest charging voltage is reached, the switch st is opened again by the relay St , the current for the switching magnet 1I L2 is interrupted and its: 'falling armature switches the switching drum y again one position further to the position WS ( Fig. 2). As a result, the battery Bi is disconnected from the mains and the relay St is connected to the battery B2. The switching magnet L, L2 has thrown the switch i and thereby switched the resistor w behind the relay St again. If battery B2 is then discharged, the falling relay St again switches on the current for the switching magnet L, L2 and thereby causes the switching drum to rotate into position W4 (FIG. 2). As a result, battery B1 is connected to the consumption line, battery B2 to the power line for charging. When the charge is completed, the relay St causes the control roller to switch to position W1 (Flg. 2), whereby the initial state is reached again.

Claims (1)

PATENT CLAIMS e.g. Device for the alternating connection of two collector batteries to the charging and consumption line, characterized by the arrangement of a monitoring relay (St) and a switching magnet (L, L2), which are switched in such a way that the monitoring relay when a certain state of discharge is reached of the current-supplying battery assigned to it the solenoid. switches on and thereby switches this battery to the charging line, the reserve battery to the consumption line, when a certain charging voltage is reached, the switching magnet is switched off and thereby triggers a switching process that interrupts the charge and switches the monitoring relay itself to the operating battery. -2. Device according to claim i, characterized by the arrangement of a holding roller which is controlled by the monitoring relay and which effects the switching required for operation.