SU1000954A1 - Storage cell checking device - Google Patents

Description

(3) DEVICE FOR CHECKING BATTERIES

one

The invention relates to the operation of batteries, in particular, to devices designed to evaluate the electrical characteristics of batteries included in electrical installations.

Known devices for testing accumulators in the form of probes, which include a voltmeter, load resistances, selected depending on the battery capacity, and a button with one closing contact for connecting load resistances to test batteries 1 3 The disadvantage of the probes is their large error when measuring battery voltages, caused by a voltmeter with a division value equal to 0.1 V.

A device for testing batteries included in batteries installed in hard-to-reach places is known. This device contains

a voltmeter, load resistances bridged by a signal lamp, a button for connecting resistances, an external plug and an additional remote terminal connected via a switch and an additional resistance to the voltmeter.

The remote plug and the use of an additional clamp make it possible to increase the accuracy of checking the indicated batteries {2. However, the known device also makes it impossible to achieve higher accuracy of measurements and makes it impossible to use it for determining the lagging of their batteries in batteries.

The purpose of the invention is to improve the accuracy and simplify the control of the battery condition.

This goal is achieved in that a device for checking batteries, consisting of a voltmeter, load resistances shunted by a signal lamp, and a single position; buttons for connecting load resistances to test batteries, a semiconductor voltage amplifier, a polarized relay and a capacitor are inserted, and the output terminal of the semiconductor amplifier and its input connected in series with the capacitor are connected in parallel to the load resistances to the output of the voltage amplifier A polarized relay is connected through its closing contacts, and its opening contacts are included in the signal lamp circuit. The button is equipped with additional closing contacts. ykayuschim konuaktami connected in series in the capacitor circuit, with contacts zamykayu1die polarized reLE shunted break contacts button constructively made so that they are opened compared with the closure of | NO contacts button with a delay equal to the response time of polarized relays ..

In addition, in order to limit the charge current of the capacitor and accelerate its charge, the input of the voltage amplifier is shunted by series-connected resistance and a diode connected in the forward direction with respect to the test batteries.

The drawing shows an electrical diagram of a device for testing batteries.

The device contains a voltmeter 1, a load resistance 2, a button 3, a closing and 5 and a disconnecting 6 button contacts, a semiconductor voltage amplifier 7, supply circuit terminals, an input 9 and an output 10 of the amplifier J polarized relay 11, a disconnecting 12 and closing 13 relay contacts , signal lamp T, capacitor 15, diode 16 and resistance 17, which limits the capacitor charge current.

The device works as follows.

To determine the lagging batteries in the battery, the device is connected with PSU alternately to each battery, pressing the button and measuring the voltage with a voltmeter 1 each time. Moreover, if the battery is in discharge, the load resistance 2 is not connected to the device.

When the button 3 is pressed, the voltage of the tested batteries is supplied through the closing contacts of the button to the load resistance 2 and simultaneously to the terminals 8 of the power supply circuit of the voltage amplifier 7, as well as through the disconnecting contacts 12 of the relay 11 to the signal lamp 1. In addition, the voltage goes to the capacitor 15 through the input 9 of the voltage amplifier, shunted by a series of 10 resistors .17 and a diode 16, as well as through the contacts 5 and 6 of the button, the latter of which due to the delay in opening remain closed for the time being tyvani relay 11.

As a result of applying voltage to the capacitor, the latter is charged and remembers the voltage of the battery under test at the moment. At the same time, if the voltage of each next battery under test is greater than or equal to the capacitor voltage, then at the output 10 of the voltage amplifier the relay is activated and opens its contacts 12 in the signal lamp circuit, simultaneously closing the contacts 13, thus shunting the contacts 6. continuous charge capacitor. Upon completion of the measurement of the voltage of each of the batteries, the capacitor as a result remembers the voltage of the battery with the highest voltage, thereby setting the device into a state of readiness for determining the lagging batteries.

When the device is reconnected to each battery in the case of lagging batteries, the input voltage amplifier voltage difference between the capacitor and the lagging battery, which causes the release of the relay contacts, which closes the capacitor with its contacts, preventing it from discharging.

The time taken to bring the device into a state of readiness for the determination of lagging batteries can be reduced to a minimum if, as a result of previous observations such as the operation of batteries, the battery with the highest voltage 1 becomes known. In this case, one device connection to this

the battery is sufficient to alert it to the determination of lagging batteries.

Since the self-discharge of the capacitor at the time of determining the lagging batteries can be neglected, and the discharge of the capacitor is provided only for fractions of a second needed to release the relay, the device is ready for determining

Claims (2)

Stable batteries are enough to detect approximately 20 lagging batteries without re-bringing the probe to a ready state to determine lagging batteries (for example, when the capacitor has a capacitor of 300 µF and nominal voltage). The use of the proposed device provides, in comparison with 1 known, an increase in labor productivity, since there is no need for measurements with an accuracy of 0.01-0.02, V of the voltage of all batteries. It is sufficient to measure the voltage only of the lagging behind lagging batteries, the number of which usually does not exceed 5 of all batteries in batteries. The voltages of the remaining batteries in this case can be judged by the measured voltage of one of them. An increase in the accuracy of determination of stagnant batteries is achieved due to the fact that the guaranteed sensitivity of the voltage amplifier to the signal about the presence of lagging batteries is approximately 0.010, 02 V, while the analogous signal detected by the device voltmeter is approximately 0.1V. Additional facilities in determining lagging batteries and picking batteries from batteries with approximately the same voltage are associated with light signaling. Claim 1. Battery tester, consisting of a voltmeter load resistances shunted by a signal lamp and buttons for connecting load resistances to test batteries, characterized in that, in order to increase accuracy and simplify control of the state of the batteries, a semiconductor voltage amplifier is inserted into it, and the terminal of the power supply circuit of the semiconductor amplifier and its an input connected in series with a capacitor is connected in parallel to a cage and a polarized relay, with local resistances, connected to the output of a voltage amplifier through its closing contacts, a semi-polarized relay, and its disconnecting contacts are included in the signal lamp circuit, the button is provided with additional closing and disconnecting contacts, connected in series to the capacitor circuit, while the closing contacts of the polarized relay are shunted by the opening contacts of the button, structurally | made so that they are open compared with the closing of the closing contacts of the button with a delay equal to the response time of the polarized relay. 2. The device according to claim 1f, is designed so that, in order to limit the charging current of the capacitor and accelerate its charge, the input of the voltage amplifier is shunted by series-connected resistance and a diode connected in the forward direction with respect to the test batteries . Sources of information taken into account during the examination 1. K. Ilyushin and others. Handbook of electrical measuring instruments, L., 1973, p. 459. 2. USSR author's certificate, cl. G 01 R 31/02, I960. ° N isp. atfH. -f / 5 p- "J ™ + T ff / 5 eight g L / J //