SU1051647A1 - Device for charging and discharging storage battery - Google Patents

Description

The invention relates to the electrical engineering industry and can be used for forming, training and testing chemical current sources. Charge-discharge devices are known that are used in the manufacture and testing of battery packs, where batteries or battery packs are connected in series to a battery. In the process of charging or discharging, element-by-element control is exercised of the degree of charge (discharge) of the batteries or of the Cl, 2 СЗ and 4 batteries. When the batteries or the batteries reach the specified values, for example, or discharge, they are automatically disconnected from the power circuit by means of an element-disconnecting node. For example, in the device 4, in order to increase the reliability of the unit by disconnecting the batteries, the charge-discharge current is reduced before the batteries are disconnected from the charge circuit (discharge). The closest in technical terms to the present invention is a battery charging device, comprising an adjustable voltage converter, connected in series with a battery connected in series through switching contacts of an element-breaking battery node, a voltage monitoring unit, connected with its own input with positive and negative battery terminals, and its output with an element-disconnecting unit and an alarm unit, electromagnetic relays Diodes, resistors and power supply for monitoring the degree of charge of the battery by the pressure rise inside the battery using syphilic sensors built into the sealed battery 5, The disadvantage of this device is that the reliability of the switching contacts of the element-disconnecting node in the power circuit battery charging, as well as the service life of contactors (relays) of the element-disconnecting unit is insufficient. As a result, the battery or the battery is not disconnected from the power circuit; charge or d pererazr that a finite eventually leads to their -razrushe NIJ. Therefore, it is necessary to control the non-opening of the opening positions of the switching contacts of contactors (relays) of the element-disconnecting node, which will ensure protection of the battery (battery) against overcharging or over-discharging. The purpose of the invention is to increase the reliability of operation in increasing the service life of the device. This goal is achieved in that a battery charging and discharging device containing an adjustable voltage converter connected in series with a battery is connected in series through the switching contacts of the battery disconnecting unit, control system, and output channels connected to the control unit. shutdown, and the alarm unit, additionally introduced a comparison unit, relays, sensors for the presence of a circuit, such as shunts, an amplifier unit, a measuring instrument, a memory element, for example the trigger, the circuits And and the inverter, and the control-obsevaya system consists of a pulse generator, connected through the breeze through the BANNER-RESOLUTION, the pulse shaper and the counter with the input of the decoder, and the outputs of the decoder associated with the first inputs of the corresponding circuits And, the second inputs of which through the node time delay connected to the input of the pulse shaper; circuit outputs And through the amplifier unit, they are loaded onto the relays, through whose closing contacts the positive and negative measuring circuits of the batteries connected in parallel to each other, are connected to the input of the comparator unit, the output of which is connected to the alarm unit via the element-disconnecting node through the block of amplifiers they are connected with the outputs of the input circuits AND, the first inputs of which are connected to the corresponding outputs of the decoder, and the second inputs of these circuits AND are combined and connected to the output of the additional circuit AND, the first input through which the memory element is connected with the output of the comparator unit and the output of the pulse driver, and the second input through the inverter is connected to. pulse driver input; The availability of the circuit is included in the charge-discharge circuit of each battery, and the measuring circuits of the presence sensors of the circuit connected in parallel to each other through the closing contacts of the input relays connect to the measuring instrument, the output of which is connected to the block of the signalization and the BANNER node -RESOLUTION. In the drawing, the scheme of the proposed device is preferred. The device contains an adjustable voltage converter 1, switching contacts 2, -, .., 2, node 3, element-by-element disconnection} Circuit presence sensors (e.g., noise 4, ..., 4, battery of successively connected batteries 5, ... „, the control-obsezhuyuschaya system 6, consisting of a pulse generator, node 8 BANKS-ENABLED. NIE, shaper 9, pulses, counter 10, decoder 11, circuits And 12, ..., 12, node 13 time delay, block 14 amplifiers, relay 15.), ..., 15 with closing contacts 16, .., 16 and 17. ,, ..., 17, comparison block 18, memory element, for example, trigger p 19, circuit AND 20, alarm unit 21, inverter 22, circuit I. 23 ,, ..., 23 block of 24 amplifiers, relays 25, ..., 25 with make contacts 26, ..., 26 and 27. ,, ..., 27, measuring device (for example, a magnetoelectric relay or a millivoltmeter of contact) 28. The device operates as follows. During the charging or discharging process, an adjustable voltage converter 1 through the switching contacts .2. ,, .. ., 2 U. E1 3 of the element-by-element disconnection, through the sensors 4 of the presence of a circuit (for example, shunt), is connected to the battery of the successively connected batteries 5,. P- . at certain points in time to monitor the degree of charge (discharge) of the battery, includes a control system. The first pulse of the pulse generator 7 through the permitted node 8 is BANNED, through the pulse generator 9 enters the counter 10, and the first channel d of the encoder 11 turns on, the signal from which arrives at the first input of the AND circuit 12, the second time of which is detected by the node 13 delays. . From the output of circuit 12, the signal goes to block 14 of amplifiers and a relay is turned on, the contacts of which 16 and 17 connect the measuring circuits of battery 5 to the input of block 18 of comparison. At the same time, an impulse from the output of the imaging unit 9 is fed to the memory element 19 (e.g., a trigger), which prohibits the operation of the AND 20 circuit. If the battery 5 has not reached a predetermined charging voltage (discharge), the comparison unit 18 does not work and at its output there is no signal. With the end of the pulse. At the output of the generator 7 through the node 13 of the time delay, the operation of the circuits I 12 is prohibited: ,, ... 12 f, and the relay ISlf from starting up (turning off). Respectively, its contacts 16 and 17 are opened. When the second pulse of the generator 7 is received through the node-8, the BLOCKING through the driver 9 of pulses into the counter 10 switches the channels of the decoder 11 and the signal appears at its second output. With a delay of the time constant of the node 13 of the time delay, the enabling signal arrives at the second inputs of the AND 12, ..., 12f, circuits. The AND 12 circuit operates, the signal from the output of which through the block 14 of amplifiers switches on the relay ISj, the closing contacts 16j and 17A of the relay 152 connect the measuring circuits of the battery Sj. To the input of the unit 18 of comparison. At the same time, the signal from the formati | watel 9 pulses is fed to the memory element 19 and the prohibition of operation of the circuit 20 is confirmed. If the battery 52 has not reached the specified value of the charging voltage (discharge), the comparison unit 18 does not work and there is no signal at its output . The nth pulse of the generator 7 turns on the nth channel of the decoder 11 and, through the amplifier unit 14, bridges the relay 15, which connects the measuring circuits of the battery 5p to the input of the comparison unit 18 with its make Contacts 16 and 17. The n + 1-M pulse generator 7 again turns on the first channel of the decoder 11 and turns on the relay 15., i.e., the control system 6 interrogates the cells 5.,,. . . , B. It should be noted that with the help of node 13 of the time delay, the switching on of the relay 15-, ..., 15p of the subsequent circuit occurs after turning off the relay of the previous channel. Thus, channel overlap is eliminated and the likelihood of a short-circuit of the battery is eliminated through the closing contacts 17 post 16 "and 17, 1 (-I of the next and previous channels along the measuring circuit. 1 If, for example, battery 5 has reached a predetermined value VIA charge (discharge), then when relay 15 is activated, and when it is connected by closing contacts 16 :, and 17 measuring circuits of battery 5 to the input of comparator unit 18, the comparator operates and a signal appears at its output enters memory element 19. Signal from the output of the memory element 19 permits operation of the AND 20 circuit. At the same time, the signal from the output of the comparison blog, 18 enters the unit 3 element shutdown, which

connected to the output channels of the control system 6,

Node 3 turns off its contacts 2, while battery 5 is disconnected from the charge (discharge) circuit, the Sudet circuit is closed past the disconnected battery 5. At the same time, the signal from node 3 disconnects to alarm unit 21.

With the disappearance of the pulse from the generator 7 (pause to the next pulse) through the node 13 of the time delay, the operation of the circuits And 12,.,., 12, relay 15 is prohibited, releases and its contacts 16. and 17 opens. And the measuring, battery circuits 5 are disconnected from comparison unit 18 and the signal at its output disappears.

At the same time, the disappearance of the pulse from the generator 7 through the inverter 22 is fed to the input of the AND 20 circuit, the other input of which is allowed by the output of the memory element 19.

The signal from the output of the circuit And 20 is fed to the first inputs of the circuits And 23, ..., 23, the second inputs of which are connected to the corresponding outputs of the decoder 11. But since the first channel of the decoder 11 is turned on, the circuit 23 works, from the output of which the signal is fed to the input of the amplifier unit 24, and the relay 25 Y is turned on. Relay 25., with its closing contacts 26., and 27 .., connects the measuring circuits of the presence sensor (for example, shunt) 4. to the measuring device 28, If the opening position of the switching contact 2 is open, the charge-discharge current through sensor 4 .., the presence of a circuit does not pass, no voltage drop is created on it and measuring device 28 does not work.

If the opening position of contact 2. does not open, then through sensor 4. the presence of a circuit, a current flows, which creates a voltage firing on it and the measuring device 28 triggers and gives a signal to the alarm unit 21 that the junction battery 5 is not disconnected from the charge (discharge) circuit and to the BAN-RESOLUTION node 8.

The BANNER-SOLUTION node prohibits the passage of subsequent pulses of the generator 7 to the counter 9. The battery is disconnected from the charge circuit (discharge) by the operator, and the failed relay is replaced with a new one. After disconnecting the battery 5 from the charge (discharge) circuit through the channel. Permission is granted to node 8.

BAN-RESOLUTION for the passage of the pulses of the generator 7 to the counter 9.

Another impulse of the generator 7 from the output of the imaging device 9 pulses goes to the memory element 19, which prohibits the operation of the circuit 20 and the absence of a signal from its output prohibits the operation of the circuits 23, ..., 23 and the relay 25 releases its contacts 26, and 27, the sensor 4 is also spread, the presence of the circuit is disconnected from the measuring device 28.

The delayed pulse of the generator 7 by the time delay node 13 gives permission for the operation of the circuits I 12 ,, ,, .0., 12 "and turns on - the relay 152, the measuring circuits of which connect the battery 5, to the input of the comparison unit 18, and, if it reaches the specified value charging voltage (discharge), then disconnecting it from the charge (discharge) circuit occurs similarly to that described above with respect to the battery 5.,.

If the opening contacts of the switching contacts 2,, .., 2 do not open and the closing contacts are closed (the contacts are welded), then the batteries 5 .. ,, ..., 5 "short-circuit. In this case, depending on the charge or discharge mode of the charge current (the discharge of the batteries can be summed up with the self-discharge current of the batteries, then the sensors of the presence of circuit 4, ..., 4 "act as protective nodes preventing batteries 5, ..., 5p from destruction.

The importance of control is especially necessary when testing expensive batteries and battery batches, since their use is eliminated.

So, in the event of failure of the switching contacts of the contactors (relays) of the element-disconnecting node, the failure to disconnect their batteries or batteries is excluded.

 The use of the present invention does not require replacing the contactors (relays) of the unit by disconnecting them after their use according to their passport, therefore, the service life of the contactors (relays) is extended to their full failure.

In addition, it is economically advantageous to increase the service life of powerful contactors (relays), which are expensive due to their contacts being covered with a large amount of precious metal (for example, gold, silver, platinum). The present invention allows the use of contactors that have been used up, for example, in aviation.

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Claims (1)

(57} A DEVICE FOR CHARGING AND DISCHARGING A BATTERY BATTERY, comprising an adjustable voltage converter connected to a battery connected in series through the switching contacts of the battery cell shutdown unit, a circulating control system, output channels connected to the cell shutdown unit, and an alarm unit, characterized in that , in order to increase the reliability of operation and increase the service life, an additional comparison unit, relays, sensors for the presence of a circuit, for example shunts, an amplification unit are additionally introduced into it to it, a measuring device, a memory element, for example a trigger, circuits And and an inverter, and the control-circulating system consists of a pulse generator connected through the block FORBID-RESOLUTION, a pulse shaper and a counter with the input of the decoder, and the outputs of the decoder are connected to the first inputs of the corresponding AND circuits, the second inputs of which are combined and connected through the time delay node to the input of the pulse shaper; outputs. circuit I. through the amplifier block are loaded on the relay, through the make contacts of which plus and minus The battery backup circuits, connected in parallel, between themselves, are connected to the input of the comparison unit, the output of which through the element-by-stage disconnection unit is connected to the alarm unit, the newly introduced relays through the amplifier unit are connected to the outputs of the input circuits AND, the first inputs of which are connected to the corresponding outputs of the decoder and the second inputs of these AND circuits are combined and connected to the output of an additional And circuit, the first input of which is through a memory element connected to the output of the comparison unit and the output of the pulse shaper, and the second the th input through the inverter is connected to the input of the pulse shaper; the circuit presence sensor is included in the charge-discharge circuit of each battery, and the measuring circuit of the circuit presence sensors connected in parallel between each other via the closing contacts of the entered relays is connected to a measuring device, the output of which is connected to the alarm unit and the FORBIDDEN node.