FR2762019A1 - METHOD AND CIRCUIT FOR CATHODIC PROTECTION AGAINST CORROSION OF A METAL COMPONENT PACKAGE - Google Patents

Abstract

The invention is characterized in that the negative pole is electrically connected by an electronic circuit to the wall of the element, electronic circuit which limits in the event of contact of an electrode with the wall of the element the intensity of the current which is established and the circuit, for implementing the method, is characterized in that a resistor, a Zener diode or a transistor is connected between the casing of the element and the negative pole of a secondary galvanic element .

Description

The invention relates to a method and a circuit.

  for cathodic protection against corrosion of a box

  tier of metallic elements in which the electrodes are

  only in connection with the element wall via the

electrolyte medium.

  A number of metallic elements are known.

  ques, which have a metal case. In this case for primary alkaline elements or secondary elements

  the element housing is used as a connection to the negative pole

  element, by establishing an electrical connection to the negative electrode. The element housing is of this

  way set to the electrochemical potential of the negative electrode

  tive and in this way it is protected in terms of its potential against corrosion attacks. Furthermore, any contacting of the positive electrode with the wall of the element housing leads to a short circuit of the element and of

  this way to his involuntary discharge.

  Galvanic elements, which have a box

  metallic tier, which is only in connection with the electro

  trodes through the electrolyte inside the element, on the other hand are relatively sheltered from short circuits. Likelihood and so the danger that also

  well the positive pole that the negative pole enters involuntary-

  ment in electrical contact with the element housing, is

  relatively small. In the case of large elements, which pos-

  a certain number of electrodes and in the case of ele

  elements, which are connected together to form a battery, for the safety reasons mentioned, electrical contact between the electrodes and the

the item.

  The reduction of the risk of short circuit is always

  However, it is linked to the disadvantage that electric links

  unpredictable traces of the positive electrode with the housing

  of the item remain unnoticed. The inner side of the box

  tier of the element is then no longer protected and is damaged by electrochemical corrosion which is installed if necessary. The object of the invention is to propose a method

  used to protect against cathodic corrosion an accumulator

  reader with a metal element housing. The invention has in

  besides the object of proposing a catholic protection process

  dic against corrosion of an accumulator with a case

  of metal cell, which contains a number of electro

  trodes, the process being particularly suitable for such accumulators

  readers connected to form batteries.

  The problem is solved according to the invention in that

  the negative pole is electrically connected by an electric circuit

  tronic on the wall of the element, electronic circuit which limits in case of contact of an electrode with the wall of

  the element the intensity of the current which is established.

  According to other characteristics of the invention: - the flow of current causes the delivery of a signal; - the intensity of the current is limited to a value which is smaller than the amount of the nominal capacity of

  the element in amps hour, expressed in amps.

  - the intensity of the current is limited to a value which is in-

  less than one tenth of the nominal capacity amount in

  amps hour, expressed in amps.

  - the connection of the negative electrode with the negative pole of the element and / or of the positive electrode with the positive pole of the element is opened by the signal when the intensity

  of current reaches a threshold value.

  The invention also relates to a circuit for implementing the above-mentioned method, characterized in that: - a resistor, a Zener diode or a transistor is connected

  between the element housing and the negative pole of an element

secondary galvanic.

  - an information device is provided, which indicates a step-

  current from the element housing to the negative pole

  a secondary galvanic element.

  The invention also applies to the use

  of the above circuit in a battery consisting of more

  several secondary galvanic elements.

  The invention also applies to a battery characterized in that a signal which occurs on an element actuates an external switch, which interrupts the passage

  of current in a set of batteries connected together.

  Drawings Figure 1 shows a simple arrangement according to the invention. Figure 2 shows a series arrangement of elements. It was indicated in Figure 1 by way of example

  a simple arrangement corresponding to the invention. We have re-

  presented an isolated element 1 with a positive electrode 2,

  a negative electrode 3 and a conductive metal container

  tor 4. The latter is connected to the negative electrode 3 to the

  resistance R, which limits the intensity which can-

ser.

  The value of the resistance is advantageously chosen

  tance R so that the current flowing through

  it, expressed in amperes, is smaller than the no-

  minimum of the element in amps / hour, in particular either in-

  less than a tenth of this value. In the case of a voltage

  of element of U volt and of a branching of n elements of ca-

  capacity C for the series of elements the applied voltage can

  reach the maximum value nU volt. To limit the intensity

  site which passes through resistance R in the case of a

  contact caused by a fault in the insulation of the tank

  even in the most unfavorable case of a link to

  strictly speaking unacceptable to a tenth of the intensity

  tioned above, the resistance is chosen as follows: R [Ohm]> n U [Volt] * 10 / C [Ah] Even then when the tank 4 of element 1 which is in the series connection at potential the most negative

  comes into contact in an unacceptable way (lack of insulation-

  tion) with the positive pole 2, of the element which is at the most positive potential, the voltage applied to the element tray reaches the maximum nU volt. In parallel with the resistor R, which limits the intensity, there is a signal sensor 5. As an alternative to the resistor R, it is possible to connect

  also a Zener diode or a transistor between the tank of the element

  ment 4 and the negative pole of element 1. If there is no insulation fault, practically no current flows at

  across resistance R. As a function of the

  attenuation of the potential of the negative electrode 3, of the type

  of electrolyte used and of the surface exposed to electro-

  lyte it can pass a small current (reduction in the case

  materials usually used for negative electrodes).

  The threshold value of a signal sensor 5 must

  be chosen higher than this small intensity (of re-

  pos), which can easily be determined experimentally-

  tale. In the case where in the normal state a reduction intensity passes, that is to say where the negative electrode 3 has a po-

  more negative resting potential than the cell of element 4 in the same electrolyte, the signal sensor 5 can also detect the variation in sign of the direction of the current and deliver a signal, when it is desired to limit itself to the identification of con -

  unacceptable tacts with parties with more po- potential

  sitive. This case is most critical due to the dissolution

  then possible from the material of the container of element 4.

  In Figure 2 there is shown a mounting in se-

  of elements, in which n1 + 1 cells 12 are at a more positive potential and n2 + 1 elements 13 are at

  a more negative potential than the element considered 10 in the middle. When each of the elements has the voltage U volt, in the most unfavorable case, due to a fault in the insulation on the tank of the element 16, there may be a positive voltage.

  tive of approximately n1 U volt on path 14 or a negative voltage of approximately n2 U volt on path 15. We can then

  easily calculate the intensity going through the maximum through

towards resistance R.

  In the special case of an element of the electoral system

  trochemical Lithium-Ion with a positive electrode made of a lithium chalkogenide and of a transitory metal such as LiMn204, LiCoO2, LiNiO2, or the like, of a negative electrode made of a reversible lithium or a metallic lithium, and of a

  element container in nickel or special steel the equilibrium potential of the element container is more positive than that of the negative electrode, but more negative than that of the positive electrode-5.

  As an alternative to using a resistor R indicated in Figure 1, with detector / discriminator mounted after the fact to identify a current flow above

  of a threshold value and trigger a signal you can use

  also be another combination of components, provided that it is clearly established that:

  - the element tray is in the normal case at one point

  which is not critical and is thus protected against corrosion, in the event of inadmissible contact and of inadmissible potential this is detected and signaled, or - the current flow which follows is limited to a small

  value in a way that is not critical.

Claims (7)

R E V E N D I C A T IONS   1) Method for cathodic protection against corrosion of an accumulator with a metal element housing, in   which the electrodes are only in connection with the pa-   king of the element via the electrolyte, characterized in that   the negative pole is electrically connected by an electric circuit   tronic on the wall of the element, electronic circuit which limits in case of contact of an electrode with the wall of   the element the intensity of the current which is established.   2) Method according to claim 1, characterized in that the passage of the current causes the delivery of a signal; 3) Method according to claim 1, characterized in that the intensity of the current is limited to a value which is smaller than the amount of the nominal capacity of the element in   amps hour, expressed in amps.   4) Method according to claim 3, characterized in that   the intensity of the current is limited to a value which is less   less than a tenth of the amount of nominal capacity in ampere- res hour, expressed in amps.    ) Method according to one or more of claims 1 to 4, characterized in that   we open the connection of the negative electrode with the ne-   gative of the element and / or of the positive electrode with the positive pole of the element by the signal when the intensity of the   current reaches a threshold value.   6) Circuit for implementing the method according to one or more   several of the preceding claims 1 to 5,   characterized in that a resistor, a Zener diode or a transistor is connected between the element housing and the negative pole of an element secondary galvanic.   7) Circuit according to claim 6, characterized in that   an information device is provided, which indicates a step-   current wise from the element housing to the negative pole of a secondary galvanic element.   8) Use of a circuit according to claims 6 or 7   in a battery consisting of several galvanic elements secondary ques.   9) Battery according to claim 8, characterized in that   a signal which occurs on an element activates an interrup-   external tor, which interrupts the flow of current through a   set of batteries connected together.