RU92743U1 - BATTERY CHARGING STATUS INDICATOR - Google Patents

Abstract

An indicator of the state of charge of the battery, containing a housing, a glass cylinder, an indicator eye with a lens, a green float ball, stiffeners, a housing channel, characterized in that it is made separately from the battery cover and allows you to identify lagging batteries by density and electrolyte level each battery of the storage battery separately.

Description

A utility model relates to a device for servicing and maintaining batteries.

A known indicator of the state of charge of the battery, comprising a housing, a glass cylinder, an indicator eye with a lens, a green ball-float, stiffeners, a channel for moving the ball-float, which is located in the battery cover (Kurzukov, NI Rechargeable batteries [Text ]: quick reference book / N.I. Kurzukov, V.M. Yagnyatinsky; edited by N.I. Scherbakov. - M.: LLC “Publishing House“ Za rulyom ”, 2006. - 88 pp., ill. , ISBN 5-9698-0064-3).

The disadvantage of this design is that the indicator of the state of charge is made at the same time as the battery cover in the cell of one of the six batteries and information about the state of charge refers to only one battery of the battery, therefore, it is not possible to correctly assess the technical condition of the battery as a whole by the density of the electrolyte in her.

At the same time, the studies performed by the authors showed that in most cases a breakdown of the battery’s “operability” during operation results in the failure of one or more batteries (electrode breakage, shorting of the positive and negative electrodes as a result of the germination of the separators: passivation of the electrodes due to spilling and destruction of the active mass and the lattice of the collector of positive electrodes.) Thus, the determination of the state of charge of batteries by density and electrolyte in cases where the density of the electrolyte decreases in one or more batteries that do not have a built-in indicator of the state of charge, it is not possible, and the presence of the indicator of the state of charge in the battery does not make sense.

The technical result is aimed at improving the control of the technical condition and maintenance of batteries during operation, determining the state of charge of each battery separately by the density of the electrolyte in them and identifying batteries with an electrolyte level below the permissible norm.

The technical result is achieved by the fact that the indicator of the state of charge of the battery, comprising a housing, a glass cylinder, an indicator eye with a lens, a green ball-float, stiffeners, a channel of the housing, is made separately from the battery cover and allows to identify lagging batteries in density and level the electrolyte of each battery separately.

Distinctive features is that the indicator of the state of charge of the battery is made separately from the battery cover and allows you to determine the state of charge by the electrolyte density of each battery of the battery separately.

Figure 1 presents an indicator of the state of charge of the battery of the proposed design, comprising a housing 1, a glass cylinder 2, an indicator eye 3 with a lens 5, a green ball 4, a stiffener 6, a channel for moving the ball 7.

The sequence of use of the battery charge status indicator is as follows.

To determine the state of charge of the battery, it is necessary to unscrew the plugs and lower the indicator into the holes of the battery cover (battery covers), taking readings in each battery.

The ball-float 4 pops up in the upper position of the housing 1 along the channel 7 with an electrolyte density of more than 1.20 g / cm ³ , which corresponds to the degree of charge of the battery more than 50% (figa). The green ball 4, being in the upper position of the indicator housing 1, transmits information through the glass cylinder 2 to the indicator eye 3 in the form of a color reflection of green.

When the density of the electrolyte is 1.20 g / cm ³ or less, the ball-float 4, being in the lower position of the channel 7 of the housing 1 (Fig. 1b), will not transmit information to the indicator eye 3, and the lower edge of the glass cylinder 2, being in the electrolyte will be displayed in indicator eye 3 as a color reflection of black.

Ascent and immersion of the float ball 4 depends on the density of the electrolyte. With increased density of the electrolyte, the ball-float 4 floats due to an increase in the lifting force P _n acting on it, determined by the formula:

P _p = ρ g g V, H,

where ρ is the density of the electrolyte, kg / m ³ ;

g is the acceleration of gravity, m / s ² ;

V is the volume of the ball-float, m ³ .

In cases of lowering the electrolyte level below the permissible norm, the indicator information on the state of charge of the battery stops, since the lower edge of the glass cylinder 2, being in the airspace, transmits information to the indicator eye 3 in the form of a white color reflection.

The proposed indicator of the state of charge of the battery is more advanced than the known one, as it allows you to determine the state of charge of each battery in the battery by the density of the electrolyte separately, as well as identify batteries with an electrolyte level below the permissible norm. Thus, in the event of a malfunction of the battery, using the proposed indicator, a lagging battery (lagging batteries) can be identified and a conclusion can be made about the advisability of using the battery for its intended purpose or the need for maintenance.

Claims (1)

An indicator of the state of charge of the battery, comprising a housing, a glass cylinder, an indicator eye with a lens, a green ball-float, stiffeners, a channel of the housing, characterized in that it is made separately from the battery cover and can detect lagging batteries by density and electrolyte level each battery separately.