DE2346115C3 - Method and device for displaying the state of charge of an electrical accumulator - Google Patents

Description

35

The subject of the invention is a method for displaying the state of charge of an electrical accumulator, which is provided with an arrangement for recombining the gases produced during the charge and a device for carrying out the method.

Devices for displaying the state of charge of accumulators are generally based on one Measurement of the density of the aqueous electrolyte. However, there are usually no such arrangements immediate and simple display of full charge or the end of the capacity of the accumulator or the beginning of the overcharging of the accumulator, at which an increased gas development occurs.

With electrical accumulators a temperature change occurs in different operating phases, which can be used for controlling, for example, charging processes, or which can be used for monitoring of the accumulator can be used. For example, it is also the case with so-called thermal cells known to incorporate a dye into the housing of the cells, which after a single use of the Element changes its color irreversibly, indicating that the element is no longer usable.

In the case of vehicle batteries, especially for electric road vehicles, it is advisable to provide temperature monitoring, especially during charging. If the temperature of such cells, caused by previous discharge, is already very high, the temperature can rise slightly above the permissible limit temperature if the cells are immediately charged. The interrogation of the temperature of the many individual cells via electrical components, for example via thermocouples, however, involves a great deal of effort because of the large number of cells and the electrical circuit also creates the possibility of further sources of error.

In lead accumulators in particular, hydrogen and oxygen mixtures are developed during charging, discharging and when stationary due to electrolysis and the resulting loss of water must be compensated for by topping up with water at specified maintenance intervals. In the course of the development of accumulators that are as maintenance-free as possible, recombination devices are used in many cases, in which the hydrogen and oxygen produced are recombined to form water and fed back into the accumulator. Such recombination devices, which contain an oxidation catalyst, are placed on the individual cells of the accumulator batteries, for example in the form of so-called catalyst plugs, or central recombination reactors are used for a large number of cells.

The development of gas is particularly strong and disruptive when the capacity of a storage battery has come to an end is reached when charging or when the accumulator is overcharged, d. H. when the accumulator has reached its full charge level.

The object of the invention is to provide a simple method for determining this point in time of full charge or to develop the incipient overload or, by means of a simple process, the state of charge of the Display accumulator cells.

This object is achieved according to the invention in that the termination of the charge acceptance via a dye carried on a support in thermal contact with the recombining device is applied and in the range between ambient temperature and a preselectable working temperature reversibly changes its color, color intensity, luminescence or phosphorescence, is shown.

The dye can for example be arranged on the housing of a catalyst plug and it is also possible to mix the dye homogeneously into the housing material of the catalyst plug. In any case, the dye must be attached in an area that is in thermal contact with the recombining device. In general, however, it is advantageous to apply the dye to the outer casing of the catalyst plug, which also serves as a condensation surface. This outer housing is dimensioned in such a way that it ^{does not reach the temperature of 100 °} C. when the recombination device is at its maximum output, so that condensation is still possible with certainty, ie the housing is generally designed so that the working temperature is between 50 and 100 ^° C. . Accordingly, it is particularly advantageous to use dyes which change their color or color intensity and the like in this temperature range.

With such an arrangement, it is possible, for example, in a multi-cell accumulator with a Look to see if all the accumulator cells are fully charged, with each cell being for some reason not working properly, immediately due to the different color of the dye on the catalyst plug notices. If necessary, it can then be determined by simply replacing the catalyst plug whether the fault is in the battery cell itself or in the catalyst plug.

It is known per se that organic or liquid crystals can also be used for temperature display

inorganic dyes optical properties with correspondingly modified constructions

Reaching certain temperatures can be applied in leaps and bounds.

to the. For example, some substances suddenly change their color at a fluorescent or phosphorescent sub-determined temperature. Particularly good results can be achieved for this by means of particularly cobalt and nickel sake, but also irradiation with a lamp whose light contains zinc oxide and lead compounds. For example, it has high levels of ultraviolet changed. Especially with a Co (NOs) ₂ 2C6H ₂ N4 · 1OH ₂ O at 75 ° C its color battery made up of very many individual cells, deviating reversibly from red to purple. Lead iodide, PbJ ₂ , changes immediately to the eye when the housing is used and thus signals its color from yellow to red to the 130 ° C, as does zinc oxide in the case of monitoring personnel that the state of a cell is warming from white to yellow. This color effect or a recombination plug must be checked for temperature measurement with so-called Thermocolor-.

colors exploited (see H. Lindorf, Technische In the following, using a few examples, the

Temperature measurements, Essen 1968, page 158/159). Invention in the field of application of the recombination

The change in the color character is of course explained in more detail in FIG. 15 and the catalyst plug. In the figure most noticeable appearance; but also changes in such a catalyst plug is schematically darge color intensity can, especially if it is erratic, of a housing 1 with arranged therein take place at a certain temperature, to Tempe catalyst support 2 and the over temperature measurement can be used. One in the sense of the pipe socket 3 on a closure opening of a battery invention a suitable phenomenon is the well-known 20 mulator cell that can be attached. As explained above, can Thermoluminescence of certain inorganic phosphorus the dye 4 arranged in particular on the housing 1 phores. When irradiating, e.g. B. by daylight, or for example in the form of a ring on the electrons are excited in the semiconducting crystal housing. With housings off and trapped in traps. The irradiated transparent material can optionally also be the So some of the energy is stored. If you heat 25 catalyst supports 2 with the dye, the crystal has a certain characteristic

Temperature, the electrons are thermally Example 1

see excitation freed from their points of adhesion and give a bed of hydrophobic

their energy is restored by emitting photons, palladium-coated aluminum oxide grains. This

away. The crystal thus shines in a characteristic jo are located in a ceramic tube that was previously with

Wise. If a certain temperature is exceeded, lead iodide solution can be soaked and then dried,

doors also fluorescence quenching in alkali halogen - the outer housing is made of clear plexiglass,

to occur. There are also a large number. The plug is a cylindrical body of 40 mm

organic molecules that give the appearance luminescence height and 25 mm in diameter. On the cell of one

or show phosphorescence. _{If the} starter battery is attached, it will be activated in the event of overcharging

When using the principle described hot, recognizable by the color change of the ceramic, either, as already mentioned above, the housing tube from yellow to red. This phenomenon is visible from a large part of the catalyst plug provided with the dye,
or, as far as possible, also the catalyst carrier. . . .
Because of the higher operating temperature of the catalyst 40 Example ^
Gate carriers opposite the housing then come for On the outer housing of the function display described in Example 1, other substances are considered than the stopper is carried with the help of an alcoholic for the catalyst housing. The attachment of the solution to the compound Co (NO ₃ J ₂ · 2 QH ₂ N4 · 10 H ₂ O dyes can be done in different ways in this example. During operation, the color changes from light red to purple. When using a transparent 45 over.

Housing and a porous catalyst carrier can. 10
for example the dye with the help of an example
Soak the solvent into the pores. It can be embedded in a lacquer-like mass with an aqueous solution of Aerosil and soaked in mercury iodide and potassium iodide; spread over the carrier body and this whole 50 shot is poured off. Then a silver nitrate or partially in the form of a figurative or abstract solution is slowly added, whereby a precipitate cover each other. Both methods can also be used for washing, filtering and drying the outer casing, which serves as a condensation surface. This powder is mixed with polyethylene powder. In the case of housings produced thermoplastically in known plastics by plastic deformation from and to the stopper housing, it is advantageous to form them in 55 manner. In the interior of this housing, the dye is embedded in the plastic powder or granulate with a roll of palladium-catalyzed and embedded. It is particularly useful to put Teflon hydrophobized blue asbestos fabric that combines the variable dye together with a dye-soaked and Teflon-hydrophobed blue asbestos fabric that is identical on the outside with a second roll of copper oxide color, but is unchangeable, so that two surface areas are surrounded by 60 bees . This plug is placed on the cell of a figurative or abstract configuration next to one another lead-acid battery *. In the case of gas development, lie in the. Due to the discoloration of one of the overcharging phases, the color of the yellow eye, which is particularly appealing to comparison, suddenly changes to light red, a sign that the function display is easily recognizable. Transition temperature of 45 ° C was exceeded.

Of course, the dye can also be used on every 65.

be attached to another surface, which in the heat flow e 1 s ρ 1 e

between the catalyst and the outside of the stopper, and instead of the Ag ₂ dye mentioned in Example 3, its temperature increases during the recombination. [Hg U] can also be the corresponding copper salt Cu ₂

Hg ] a] , which turns from cherry red to brown at 67 ° C.

The inventive method and the inventive devices make it possible in very a simple way of displaying the fully charged state without any special construction or circuit complexity of an accumulator via a simple temperature display. This is particular of importance for multi-cell batteries, such as those used in electric vehicles, in which a conventional monitoring of all individual cells involves a lot of effort.

1 sheet of drawings

Claims (5)

Patent claims: 1. A method for displaying the state of charge of an electric accumulator, which is provided with an arrangement for recombining the gases formed during the charge, characterized in that the termination of the charge acceptance via a dye on a carrier in thermal contact with the recombination device is applied and its color, its color intensity, its luminescence or its phosphorescence changes reversibly in the range between ambient temperature and a preselectable working temperature, is displayed. 2. Apparatus for performing the method according to claim I _1, characterized in that the dye (4) is attached to the housing (1) of a stopper containing the recombination device (2). 3. Apparatus according to claim 2, characterized in that the dye (4) on the base in Form of a figurative or abstract sign, possibly together with a contrasting one invariable dye is applied. 4. Device according to claims 2 and 3, characterized in that the dye (4) in the Housing material is distributed. 5. Device according to claims 2 to 4, characterized in that the dye lead iodide and / or contains silver / mercury iodide as an indicator color.