DE3232016A1 - ELECTROCHEMICAL BATTERY CELL - Google Patents

Description

Electrochemical battery cell

The invention relates to electrochemical battery cells, in particular cells in which insulator and Sealing materials are used.

One of the difficulties in making and using it of alkaline battery cells that have an alkaline electrolyte is that the electrolyte has metal surfaces can wet. This wettability is one of the major causes of leaks in Alkaline cells, as the electrolyte by wetting the surface of the material intended for the electrolyte Metal container can actually creep through the sealing gap, which is usually between the metal container and other metal surfaces are present, which in turn

usually serve as external power contacts for the cell.

A variety of materials have been proposed to act as gaskets or sealing joints and accordingly between the neighboring metal surfaces

OFFICE 6370 OBERURSEL *
LINDENSTRASSE 10
TEL. 06171/56849
TELEX 4186343 real d

OFFICE 8050 FREISING * SCHNEGGSTRASSE 3-5 TEL. 08161/62091 TELEX 526547 pawa d

ZWEIGBORO 8390 I'ASSAU LUDWIGSTRASSE 2 TEL. 0851/36616

TELEGRAM ADDRESS

AMUC - PO. '

HECK MUNICH

■ tS02 ■

• · «ι no« a

areas have been arranged. This is intended to provide both electrical insulation and effective sealing of the Areas can be reached from each other in order to prevent the creeping of the alkali electrolyte. In US-PS 39 22 178 a sealant mixture is described which has a fatty acid polyamide with more than about ten amine groups, the represents an effective barrier for the alkali electrolyte and thereby the creeping as well as the degradation of certain Cell components prevented by contact with the alkali electrolyte.

The same applies to the manufacture of alkaline button cells It is desirable that the seal or sealing material be substantially non-tacky in order to protect the automated To facilitate transport and use during cell production.

The invention is therefore based on the object of providing seals and sealing materials which have excellent flexibility, adhesiveness, are essentially non-sticky and hinder the creep of the electrolyte, making them suitable for use in Alkaline battery cells can be used.

The object is achieved according to the characterizing part of claim 1.

Thus, according to the present invention, there is an electrochemical cell with a certain amount of alkali electrolyte and one or more surfaces that can be wetted provided, a polyamide with fewer than 8 amine groups being provided on these surfaces.

In particular, the invention relates to an electrochemical cell having a housing, an anode, a cathode and a certain amount of alkali electrolyte material, at least one cell lid, in register with the container and at least an electrical insulator between the cell

lid and the container is provided, wherein the electrical insulator or its surfaces, which are in contact with the container and the cell lid, a polyamide with less than 8 amine groups.
5

Another embodiment of the invention relates to a method for sealing an electrochemical cell, wherein a sealing material is provided near the surfaces which is wetted by an alkali electrolyte can be. This sealing material has a polyamide with fewer than 8 amine groups.

Another method according to a further embodiment, according to which an electrical insulator and a seal tion to the electrochemical cell is that the surfaces of the insulator that with the container and are connected to the cell lid, covered with a gasket that is a polyamide with less than 8 amine groups .. Furthermore, the electrical insulator can be made from the polyamides according to the invention.

The cells produced according to the invention have an improved Leak resistance and sealing properties including resistance to creep of an alkali electrolyte on.

Further details, advantages and designs are described in the following description with reference to the drawing.
30th

The figure shows a partially cut-away view an electrochemical cell according to the invention.

According to the invention, alkaline battery cells can be produced * "will be where on or on the surfaces that go through an alkali electrolyte can be wetted, a polyamide with fewer than 8 amine groups is used.

The polyamides which can be used according to the invention include Fatty acid amides, their production and properties in "The Encyclopedia of Polymer Science and Technology, Interscience Publishers (John Wiley & Sons, Inc.)" New York ", Vol. 10, pp. 597-615. In general, polyamides are made by reacting a polybasic acid made with a polyfunctional amine. To the polybasic Acids belong to both branched and straight-chain alkyl groups, for example unsaturated fatty acids, derived from vegetable oils and other compounds. The polyamides according to the invention can therefore include those Include substances that are known as both straight and branched chain structure fatty acid polyamides.

The polyamides according to the invention preferably have 1-8 Amine groups. Particularly useful polyamides for the use according to the invention are available and are from sold by HB Fuller Company, Minneapolis, Minnesota and are available as resins under the trade name

"FULL-MELT * ^R) " known. One such resin, designated FM-8200, is a fatty acid polyamide containing from about 6 to about 7 amine groups. Another resin is designated FM-8050 and is similarly a fatty acid polyamide with a terminal acid group and an amine number of about 1. In addition to the materials mentioned above, other commercially available polyamides with a number of amine groups that fall into the above are according to the invention Areas mentioned fall, for example Union Camp 2645 (8 amine groups) and Henkel Macromelt 6239 (7 amine groups). applicable.

The polyamides according to the invention can be used in many ways can be used depending on the specific application conditions. For example, from polyamides Seals, sealing washers or sealing sleeves are manufactured as electrical insulators in a variety of alkaline battery cells can be used. On the other hand, the polyamide can be used as a sealant or adhesive

W ft · · ·

• · fr · * A «« <* ■

'are applied, which is applied to such seals, sealing washers or sealing sleeves when these are arranged between adjacent metal surfaces in such cells.
5

The polyamides according to the invention can be used alone or mixed with auxiliaries, for example fillers, modifiers and hardeners, if desirable to modify physical properties.

When the polyamides according to the invention are used as a coating they can be applied by known methods, for example by hot melting or from • 5 a solution in a solvent, such as a mixture of Alcohol / aromatic hydrocarbon.

The methods of applying polyamides as suggested above are known and are not part of the invention.

In -the drawing is an example of an electrochemical Cell shown, which is a button cell 10 and belongs to the class of cells that are generally used in hearing aids, watches and other areas of application in which a continuous output of the cell with low energy output is desired is. A metal anode 14, usually made of either zinc or cadmium, is typically used is, with amalgamated zinc the preferred anode

^ου material is. However, other anode materials can also be used.

A container 12 houses a cathode 17, usually made of a material such as mercury oxide, silver oxide and

the like, with silver oxide being preferred. The cathode 17 is from the anode 14 as shown in the drawing by a porous separator 16 and an absorbent

32 32 0

nndshal tor 1 * 5 separated, the spacer 15 an alkali electrolyte such as potassium hydroxide (KQH) or Sodium Hydroxide (NaOH), for ionic conductivity having. The container 12 serves both as a cathode ais

Current collector and ^N positive connection of the cell, while the cell top or the cell cover 11, which is in direct contact with the anode 14, serves both as an anode current collector and as a negative connection of the cell. Both the cell cover 11 and the container 12 can be made of conductive materials, for example corrosion-resistant steel, nickel or nickel-plated steel. The inner surfaces of the cell lid. 11 can be coated with a suitable metal, for example tin, copper, silver or gold.

The cell cover 11 is in alignment with the container 12 or is placed on it, but on the other hand but electrically isolated from it. An electrical insulator, such as a snap-in plastic sealing sleeve 13, as shown, may be provided. According to the invention, this sealing sleeve 13 can be made of a polyamide with less than 8 amine groups. In this case, the sealing sleeve 13 has effective uniform Sealing properties that prevent the alkali electrolyte between the adjacent surfaces of both the Cell cover 11 and the sealing sleeve 13 or the container 12 and the sealing sleeve 13 creeps through.

In addition to using the polyamides described herein as a material from which the sealing sleeve 13 can be made, the invention also provides for the use of these polyamides as an adhesive coating, which is provided between the container 12 and the cell cover 11 either instead of the sealing sleeve 13 or as a coating is, the ^{OJ is drawn} over the surfaces of the sealing sleeve 13, whereby this is with the corresponding adjacent surfaces of the container 12 and the cell cover 11 in contact.

So, with reference to the drawing, those adjacent surfaces of the sealing sleeve 13 may be provided with a Diohtmittel or an adhesive, which in fluid form can be distributed, so that when the sealing sleeve 13 is arranged between the adjacent surfaces of the container 12 and the cell lid 11, the sealant forms a barrier to prevent penetration and decomposition Alkali electrolytes is insurmountable.

The polyamide sealant of the invention can be used with seals; those from others, from the claimed Polyamide differentiating materials are made. For example, the sealing sleeve 13 can consist of a Insulating material such as nylon or polyolefins, for example polyethylene or polypropylene, can be made and can be used in conjunction with the sealant according to the invention.

As mentioned above, the class of polyamides of the invention is particularly useful in that they are essentially are not sticky. It has been found that the properties have advantages in the manufacturing process, especially where the sealing sleeves and the sealing means are used in the automated production of Button cells are used. By having sticky properties are not available, the sealants can be transported to the place of application during assembly with the help of automatic machines of the cell, clogging and downtime of the machines being substantially reduced or be eliminated.

Furthermore, the non-tackiness promotes a uniform distribution of the coating, which in turn produces a layer improved surface contact between the metal and the adhesion ^ * ^3, thereby eliminating error seal substantially.

Mine further embodiment consists in a method for Sealing an electrochemical cell with a container, nirfor a certain amount of an alkali electrolyte and at least a surface that is undesirably wetted by the electrolyte.

This method consists in placing a certain amount of a polyamide on this surface or surfaces with an amine number below 8 is provided. The surfaces can be coated with the polyamide or im Case of seals, sealing sleeves and the like. From the Be made of polyamide.

The invention also relates to a method of manufacturing electrochemical cells by arranging the container, the Alkali electrolytes and the cell cover, with a seal or an electrical insulator or both are provided between the cell lid and the container. According to the invention an electrical insulator is used, which consists of the claimed Polyamides is made. In one embodiment, such an isolator can be used alone will. In a further embodiment, the insulator can be coated with a certain amount of a sealant which comprises the polyamides of the invention.

5 The sealant is closed by a machine

the coating station promoted. As mentioned above, the manufacture of electrochemical cells is supported by the properties of the polyamides according to the invention, the ⁵ ^ promoted by used on an industrial scale machines can be changed.

The way in which the inventive class of polyamides is used, can of course deviate from the above-mentioned embodiments and vary. Therefore, 5 NEN the polyamides on a substrate, for example as a thin coating by spraying, dipping and the like. Applied will.

Claims (11)

Claims Ij Electrochemical cell with a container, a certain amount of alkali electrolyte arranged therein and at least one surface which is wettable by this alkali electrolyte, characterized in that an amount of a polyamide with an amine number below 8 is provided on at least one area of this surface. 2. Cell according to claim 1, characterized in that the surface between the Container and the cell cover is arranged. 15th 3. Cell according to claim 2, characterized in that the polyamide as a preformed electrical insulator is provided between the container and the cell lid. 20th 4. Cell according to claim 2, characterized in that the polyamide between the OFFICE 6370 OBERURSEL *
LINDENSTRASSE 10
TEL. 06171/56849
TELEX 4186343 real d OFFICE 8050 FREISING * SCHNEGGSTRASSE 3-5 TIU .. 08161/62091 TEI PY 526547 pjwa ti BRANCH OFFICE 8390 PASSAU LUDWIGSTRASSE TEL. 0851/36616 TELEGRAM ADDRESS AMUC - PO ¹ 'CK MUNCHI • 0 52-802 ■ Area of a preformed electrical insulator is provided which is associated with the container and the cell lid * Ln is touch. 5. Cell according to claim 3 or 4, characterized in that / 3 is the branched-chain polyamide is. 6. Cell according to claim 3 or 4, characterized in that the polyamide is essentially is not sticky. 7. A method for producing an electrochemical cell according to claim 1, characterized in that that between the container and the cell lid an amount of a polyamide having an amine number is provided below 8. 8. The method according to claim 7, characterized in that - indicates that the polyamide is preformed between the container and the cell lid as a electrical insulator is provided. 9. The method according to claim 7, characterized in that the polyamide as Sealant is used on the surfaces of a preformed electrical insulator is arranged and is in contact with the container and the cell lid. 10. The method according to claim 9, characterized in that the electrical insulator is made from a polyamide with an amine number below 8. 11. The method according to claim 8 or 9, characterized that the polyamide is essentially non-tacky.