SU877707A1 - Device for connection of charging rectifier - Google Patents

Description

one

The invention relates to the automatic connection and disconnection of a charge rectifier from batteries, and is intended primarily for batteries operating through switching diodes in parallel with each other and located in a hard-to-reach or remote location, making it difficult to remove the batteries from the device they read. .

A charge-discharge device containing terminals for connecting batteries, a thyristor charging rectifier, a power supply toggle switch, and a transistor 15 stage for controlling the charging current with a relay as a load are known. The closing contact-relay is connected in parallel to the network power switch - “

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However, the device does not have an automatic connection. A rectifier to the charged, battery. To connect the battery to the battery rectifier and set the device in automatic mode, you must connect the battery to the device terminals, turn on the power switch, verify the charge on the ammeter and then turn off 30

power switch, thereby turning the device into automatic mode. The charge rectifier is switched off using the mechanical contacts of the relay, which reduces. device reliability. In addition, only a battery that has been previously disconnected from the load can be connected to the device, as otherwise the increased voltage of the rectifier will damage the load. This is especially important for the case when the battery is connected to a parallel working through separation diodes. At the same time, the voltage is used for charging that is more than twice as high (with two batteries) the voltage of a single battery, and when the charge is completed The load on the battery causes it to be undesirable. The closest device to the one proposed is the device for turning on the battery rectifier, which contains the battery rectifier, the terminals for connecting the battery, the device switch-on button, a ktor, a semiconductor diode and a thyristor parallel to it, which controls the charge battery 2j. The one disadvantage of the device is that in order to connect the charge plate to the battery, it is not enough to connect the battery to the terminals of the device, it is also necessary to turn on the magnetic starter manually. . As in the previous case, a battery pre-disconnected from the load is connected to the device, and mechanical contacts are used to open the charging circuit, reducing the reliability of the device. The purpose of the invention is to automate the inclusion and. battery charge and energy performance. The goal is achieved by the fact that a rectifier connected via a detachable mechanical contact to a battery / load and a relay is inserted between the rectifier output and the zener diode connected in opposite direction to the device for connecting the charge rectifier, which contains the rectifier charged from the electrical supply network. to the positive bus rectifier, the first and second transistors, the LED, five resistors, two diodes and a capacitor, with the LED in series parallel with the rectifier output, the anode connected connected to the positive output bus, the first resistor and the first transistor connected to the negative bus by the emitter, in addition, a second resistor is connected to the negative bus rectifier, in parallel with which the first transistor is connected to the base emitter junction through the third resistor The collector of which is connected through the fourth resistor to the base of the second inserted transistor, which is a collector with its emitter. It is connected in parallel to the inserted zener diode, and the relay contacts are connected between you the battery and the load, the closing contacts.- between the battery output and the mechanical contacts of the positive bus rectifier through B. the first diode connected in the forward direction, and the relay connected in parallel with the mechanical contacts and bridged by a circuit consisting of a series-connected capacitor and a fifth resistor shunted by the second diode. The drawing shows the electrical circuit of the proposed device. The device contains a charging rectifier 1 with a filter, powered from the mains, batteries 2, connected in parallel with each other through separation diodes 3, load 4, detachable mechanical contacts 5. Between the output of the rectifier and the mechanical contact to the parallel bus Zener diode 6 is turned on. In parallel to the output of the rectifier, the LED 7 is connected in series, the first resistor 8 and the first transistor 9. The second resistor 10 is connected to the negative rectifier bus, in parallel through which the third resistor 11 th base-emitter connected to the first transistor. 1 |: the collector of the transistor 9 through the fourth resistor 12 is connected to the base of the second transistor 13, a zener diode shunt. Between the mechanical contacts and batteries, parallel to contacts 5, a relay 14 is connected and a series of capacitor 15 and a resistor 16 shunted by a diode 17 is connected. The breaking contacts 18 of the relay are connected between the battery terminals 2 and the load 4, and the closing contacts 19 of the relay between the battery terminals and the mechanical contact through the included in the forward direction diode 20. The device operates as follows. When the mechanical contacts 5 are closed, the relay 14 is triggered by disconnecting the battery 2 from the load 4 with its contacts 18 and connecting them with contacts 19 via diode 20 to a mechanical contact 4. In addition, at the time of closing, contacts 5 from the charging rectifier 4 of the circuit 1 are: zener diode b, pins 5, capacitor 15, resistor 16, resistor 10 begins to flow the capacitor 15 charge current. This current, together with the current flowing through pe-f le 14, creates a voltage drop on resistor 10 sufficient to open transistor 9. Through open transistor 9 and resistor 12 the base of the transistor 13 is applied a large negative voltage. Transistor 13 opens and shunts Zener diode 6 ,. which leads to an increase in voltage (by the magnitude of the stabilization voltage of the Zener diode) at the anode of the diode 20. The magnitude of this voltage is chosen greater than the sum of the voltages of two batteries 2 connected to the charging circuit in series. Under this condition, the diode 20 opens and starts charging the batteries 2. The charging current of the batteries 2 and the current of the relay 14 create on the resistor 10 a voltage drop sufficient to maintain the open state of transistors 9 and 13. In addition, through the open transistor 9, the resistor 8 and the LED 7 are flowing, the current causing the LED 7 to glow, which indicates the charge of the batteries 2. As the batteries 2 charge, their voltage increases, the charging current drops and at the end of the charge yes, transistor 9 is closed, closing in turn transistor 13. The stabilon b is punctured, the potential at the anode of the diode 20 drops, and it closes. Battery is charged through contacts 19 of relay 14

Claims (1)

Claim A device for connecting a charging rectifier, containing a charging rectifier with a filter, connected through detachable mechanical contacts to the battery, a load and a relay, characterized in that, in order to automate the inclusion and charge of batteries and increase energy indicators, it a zener diode is inserted between the output of the rectifier and the contacts, included in the opposite direction in the positive bus of the rectifier, the first and second transistors, an LED, five resistors, two diodes and a capacitor, and in parallel with the rectifier output, a LED is connected in series, the anode is connected to the positive rectifier output bus, the first resistor and the first transistor connected by the emitter to the negative rectifier bus, the second resistor is connected to the negative rectifier bus, in parallel with which the base-emitter is connected via the third resistor the first transistor, the collector of which is connected through the fourth resistor to the base of the second transistor, which is connected in parallel with its collector and emitter nostil to the abilitron, while the opening contacts of the said relay are connected between the battery terminal and the load, the closing contacts are between the battery terminal and the mechanical contacts of the rectifier positive bus through the first diode connected in the forward direction, and the relay is connected in parallel with the mechanical contacts and is shunted by a circuit consisting of series-connected a capacitor and a fifth resistor shunted by a second diode.