DE2262133B2 - Primary dry cell - Google Patents

Description

The invention relates to a primary dry cell with a cup-shaped negative electrode made of a consumable metal, a mixture of particles of an oxidic depolarizer arranged therein, Particles of a conductive material and an electrolyte, a permeable separator, attached to the side walls rests against the cup-shaped electrode and separates it from the mixture, one in the middle of the mixture arranged positive current collector, which extends to the bottom of the negative electrode and a permeable insulator, which rests on the bottom of the cup-shaped electrode and this from the mixture and separates the rod-shaped pantograph.

In such cells the insulator consists of the mixture from the bottom of the cup-shaped electrode separates, usually made of a permeable material, such as B. porous paper, the electrolyte easily soaks up. The use of such a permeable insulator is advantageous because it also makes the active one Metal can be used anodically in the area of the bottom of the cup-shaped electrode. With cells with a thin, permeable, separating lining made of, for example, ordinary paper or with a gel-coated paper, the mixture is first lined with the separator cup-shaped electrode used, then the rod-shaped current collector made of carbon through the middle of the mixture pressed in until it rests on the insulator at the bottom of the cup-shaped electrode. Here Particles of the mixture can be pushed through the insulator by the current collector and into Come into contact with the bottom of the negative electrode. The isolator is usually made of relatively thin paper with a thickness of about 0.35 to 0.40 mm or less. As a result of the Penetration of the mixture through the insulator can result in short circuits or corrosion on the floor the cup-shaped electrode. In order to avoid these difficulties, one already has impermeable ones Used isolators, e.g. B. Cup made of a plastic or paper, with a film of a impermeable plastic is coated. The disadvantage of such an arrangement is that by This impermeable insulator blocks the bottom of the negative electrode and therefore allows for discharging the cell cannot be used.

The invention is based on the object of a

ι - indicate primary dry cell where on the ground the cup-shaped negative electrode uses an insulator that is permeable to the electrolyte, but at the same time prevents the penetration of the particles of the depolarizer mixture when the rod-shaped Current collector made of coal is pushed through the mixture during assembly of the cell.

According to the invention, this object is achieved by a cell which is characterized by an impermeable cell Protective layer that only rests against the permeable insulator where it rests against the rod-shaped Opposite pantograph, the remaining parts of the permeable insulator leaves free and the passage of the Electrolytes are not prevented by this.

In one embodiment of the invention, the impermeable protective layer consists of a centrally arranged circular plates made of an impermeable material, e.g. B. made of wax or a film one impermeable plastic, which are arranged on one side of the cup made of porous paper. At a Another embodiment of the invention is a strip of film made of an impermeable Plastic attached diametrically above the cup. The protective layer can be on one side or the other of the isolator be arranged, <i h. on the side

■ to which rests on the rod-shaped pantograph, or on the side that rests against the bottom of the cup-shaped electrode.

From US-PS 15 15 652 cells are known in which the depolarizer mixture on a lower Cap is arranged within a hollow cylinder made of moist electrolyte so that between the Mixture-carrying cap and the bottom of the cup-shaped negative electrode an air chamber is formed, so the bottom of this electrode is not accessible to ion exchange and thus for the Power generation fails. In the case of these cells, the cap that receives the mixture is attached to the bottom of the Cup-shaped electrode facing side opposite the lower end of the current collector paraffinic felt disc, which only serves to seal an opening arranged in the cap, which the Ventilation after the assembly of the cell is used. The function of the disc in this known cell is also from the different task with that of the protective layer in the dry cell according to the invention not comparable.

The F i g. 1 and 2 show a round primary dry cell that is cylindrical, cup-shaped negative electrode 10 made of a consumable metal, such as zinc or magnesium, with a thin, permeable separator 12 made of ordinary paper or with a suitable gel such as Contains carboxymethyl cellulose coated paper.

Inside the electrode 10 is the mixture that is passed through the separator 12 from the side walls the cup-shaped electrode 10 is separated. The mixture 14 contains particles of an oxidic depolarizer, such as manganese dioxide mixed with particles of a conductive substance such as carbon black or graphite, and one Electrolytes. A rod-shaped current collector 16 made of carbon is embedded in the mixture 14, and its upper The end protrudes slightly over the open end of the cup 10 emerged. A cup 18 made of porous material is located adjacent to the bottom of the cup-shaped electrode 10 Paper; it serves as an insulator, the mixture 14 and the rod-shaped current collector 16 made of carbon from the Bottom of the cup-shaped electrode 10 separates. An impermeable protective layer in the form of a circular Plate 20 made of a film of a plastic, e.g. B. polyethylene, is located between the lower End of the rod-shaped current collector 16 and the Paper cup 18.

The cell is closed by an insulating disk 22, preferably made of a plastic, which A sealing ring 24, preferably made of, is arranged closely around the upper end of the current collector 16 Steel, surrounds the upper edges of the electrode 10. This ring 24 is under high radial pressure after pressed inwardly against the outsides of the walls of the electrode 10 Metal over the top of the current collector 16 serves as a connector for the cell.

The F i g. 1 and 2 show that the impermeable protective layer in the form of the circular plate 20 protects the cup 18 made of porous paper against the ingress of particles of the mixture, if the current collector 16 is pushed through the mixture during assembly of the cell. Preferably, the dimensions of the circular plate 20 are slightly larger than the diameter of the Current collector 16. As a result, the cup 18 is protected even when the current collector 16 is not is pressed exactly in the middle through the mixture 14. It can be seen that the plate 20 is only the center of the Protects the cup 18, which is just below the current collector 16 The remaining areas of the cup 18, which separate the mixture 14 from the bottom of the electrode 10 are not coated and can easily with become saturated with the electrolyte because they are permeable. The unshielded areas of the cup 18 made of porous paper therefore serve as a separator permeable to ions and enable utilization a substantial portion of the bottom of the electrode 10 during the discharge of the cell.

The protective layer 20 can consist of various impermeable materials, e.g. B. from a Wax, a varnish, or a film made from an impermeable plastic such as polyethylene. the Protective layer in the form of the circular plate 20 can be placed directly on the center of the cup 18 made of porous Paper in the form of a hot melt or a coating during or after the manufacture of the Cup to be applied.

The Fig.3 shows another embodiment of the Invention, at v / elcher the impermeable protective layer of an elongated strip 28 of a film of a impermeable plastic, e.g. B. polyethylene, the diametrically on one side of the cup 30 from porous paper is applied. The strip 28 of film is made on the jenipen side of the cup 30 Paper applied to the mixture 14 is applied.

This embodiment of the invention brings! with the advantage that the impermeable Schulzschicht easier and more economical to apply during the manufacture of the cups from porous paper can. Usually such cups are made mechanically so that a number of cups at the same time from a sheet of porous paper, e.g. B. Kraft paper, are punched out. When using this procedure it is convenient to put the protective layer on the as

ίο To apply the starting material serving sheet of paper before the individual cups are punched out. When using a plate made of a plastic According to FIGS. 1 and 2, these platelets must be arranged at certain intervals on the sheet of paper be, and the cutting during punching must be controlled so that the platelets from the Plastic sit exactly in the middle of the cups. if but one has a protective layer in the form of an elongated strip 28 made of plastic according to FIG. 3 used, se such a regulation can be omitted. For the Production of paper cups according to this embodiment of the invention is first introduced longer tape of the film of the plastic on the paper sheet, along its entire length.

The individual paper cups can then be punched out along this band, with one regulation cutting is not required

The strip 28 fulfills the same function as a protective layer as the plate 20. That of the strip 28 uncovered parts of the cup 30 remain permeable to the electrolyte.

4 shows a further embodiment of the Invention. Here, the impermeable protective layer 32 is located between the cup 34 made of porous Paper and the bottom of the cup-shaped electrode 10. The protective layer 32 can also take the form of a circular plate or an elongated strip made of the film of an impermeable plastic exhibit. You can either directly on the bottom of the paper cup 34 or on the bottom of the Electrode 10 be attached. In any case, it protects against complete penetration by particles of the Mixture through the cup 34 made of paper.

The protective layer in the various embodiments of the invention must be so thick that the penetration of particles of the mixture through the permeable cup on the bottom is prevented. For example, a wax plate with a Thickness of about 0.05 mm has been used successfully.

When using a film made of an impermeable plastic as a shield-shaped layer is a Film thickness of about 0.010 to about 0.015 mm is sufficient.

The invention has proven to be particularly advantageous in the case of cells with a magnesium electrode. In the case of such cells, there is a tendency for the side walls to crack during discharge due to the expansion of the reaction products of the cell. As long as there is a certain capacity in the mixture, the cell can be discharged further. In the case of cells that have an impermeable, 7. B. plastic-coated cup on the bottom: n, which prevents the penetration of particles of the mixture when the rod-shaped current collector is pushed in

^{Soi 1} prevent carbon, but the side walls of the magnesium electrode will be consumed much more quickly, causing complete separation of the bottom of the electrode. if

at the same time cracks appear in the side walls of the cup-shaped electrode, so the whole thing opens Sidewall outward and the contact between the electrode and the depolarizer assembly ceases making the cell unusable. This difficulty can be overcome by adding more active magnesium metal to the side walls of the electrode; Magnesium is but relatively expensive, and this increases the cost of the cell.

When using a structure of a dry cell according to the invention, it is possible to achieve a considerable Part of the bottom of the cup-shaped electrode at the Implementation of the cell exploit, and the opening of the side walls to the outside when discharging will open easily and economically effectively avoided.

Another advantage of dry cells according to the invention with an electrode is made of magnesium in that delays in starting avoided

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appear. Usually these delays are dependent on the size of the area of the active negative electrode, which takes part in the reaction electrochemically. The larger the available area this electrode, the shorter the start-up delay. Because according to the invention a larger part of the bottom of the cup-shaped electrode is available for the supply of electricity, are such Startup delays significantly reduced.

In a number of trials, the usefulness of the cells tested according to the invention. Several magnesium cells were made, some of them contained a cup made of porous paper, the top of which was covered with a polyethylene iIm was, while other cells according to the invention one

ί Cups made of porous paper with a wax plate in the middle as a protective layer. In all cells, the paper cups were made from Kraft paper about 0.23 mm thick. The wax flakes were about 0.05 mm thick. All cells

ίο contained a separator made of ordinary kraft paper with a thickness of about 0.11 mm and electrodes made of magnesium with the same thicknesses of the side walls and the bottom and the same amount by weight of a depolarizer mixture. All cells were

Γ) alternately for three minutes with a load of 3.55 ohms and then for eighteen minutes at 72.8 ohms to an interruption voltage of 1.28VoIt. The cells with cups made of polyethylene-coated paper had a usage value of 07.1 Suinutrii, while tilt lines with paper cups with a wax plate could be used for 78.5 hours. That means a profit of 18%.

Different embodiments of the cell according to

»I the invention are possible. So can the protective layer not in the form of a circular plate or a strip, but can also be rectangular or be elliptical. The insulator at the bottom of the cup electrode can also be used as a cup instead of a cup

be formed in a ring or flat disk of porous paper.

1 sheet of drawings

Claims (3)

Patent claims: 1. Primary dry cell with a cup-shaped negative electrode made from a consumable Metal; a mixture of particles of an oxidic depolarizer arranged therein, particles a conductive substance and an electrolyte; a permeable separator covering the side walls abuts the cup-shaped electrode and separates it from the mixture; one in the middle of that Mixture arranged rod-shaped positive current collector, which extends to the bottom of the cup-shaped negative electrode ranges; and a permeable insulator attached to the bottom of the cup-shaped Electrode is applied and this from the mixture and the rod-shaped current collector separates, characterized by an impermeable protective layer, which is permeable to the Insulator rests roughly only where it is opposite the rod-shaped current collector, the leaves free remaining parts of the permeable insulator and the passage of the electrolyte through them not prevents. 2. Dry cell according to claim I _1, characterized in that the impermeable protective layer consists of a circular plate of an impermeable material. 3. Dry cell according to claim I _1, characterized in that the impermeable protective layer consists of a strip of impermeable plastic.