RU96122490A - WATER-ACTIVATED CHEMICAL CURRENT SOURCE - Google Patents

Claims (16)

1. A water-activated chemical current source for use with a water-based electrolyte that contains (I) a magnesium or aluminum-based anode and (II) a copper-based cathode, containing (a) about 55 to 85 wt.% Copper hydroxide chloride , (b) about 5 to 20% by weight of sulfur; and (c) about 1 to 25% by weight of the electrically conductive additive.  2. The water-activated chemical current source according to claim 1, wherein said electrically conductive additive is selected from the group consisting of carbon, graphite, carbon black and acetylene black.  3. The water-activated chemical current source according to claim 2, wherein said additive is graphite.  4. The water-activated chemical current source according to claim 1, wherein said anode contains an alloy selected from the group consisting of MA2-1, AZ 61, AZ 31, Al-Zn (6 wt.% Zn), AZ 61A, AP 65 , AT 61A, AT 61B, MTA 75.  5. The water-activated chemical current source according to claim 1, wherein said copper-based cathode contains (a) about 71.6 wt.% Copper hydroxide chloride, (b) about 15.8 wt.% Sulfur, and (c) about 12 6 wt.% Electrically conductive additives.  6. Water-activated chemical current source according to claim 1, in which the cathode consists mainly of the above components.  7. The water-activated chemical current source according to claim 1, also containing an electrolyte in the form of fresh or sea water.  8. A water-activated chemical current source containing (I) an anode containing an alloy selected from the group consisting of MA2-1, AZ 61, AZ 31, Al-Zn (6 wt.% Zn), AZ 61A, AP 65, AT 61A, AT 61B, MTA 75 and (II) a copper-based cathode containing (a) about 71.6 wt.% Copper hydroxide chloride, (b) about 15.8 wt.% Sulfur, and (c) about 12.6 wt.% electrically conductive additives.  9. A method of manufacturing a water-activated current-generating device, comprising the following operations: (I) manufacturing an anode based on magnesium or aluminum; (II) the manufacture of a copper based cathode containing (a) about 55 to 85 wt.% Copper hydroxide chloride, (b) about 5 to 20 wt.% Sulfur; and (c) about 1 to 25 wt.% An electrically conductive additive, and (III) placing said anode and cathode with a gap between them in a housing adapted to receive a predetermined amount of electrolyte based on water in order to activate said current generating device.  10. The method according to claim 9, in which said electrically conductive additive is selected from the group consisting of carbon, graphite, carbon black and acetylene black.  11. The method of claim 10, wherein said electrically conductive additive is graphite.  12. The method according to claim 9, in which said anode contains an alloy selected from the group consisting of MA2-1, AZ 61, AZ 31, Al-Zn (6 wt.% Zn), AZ 61A, AP 65, AT 61A , AT 61B, MTA 75.  13. The method according to claim 9, in which said copper-based cathode contains (a) about 71.6 wt.% Copper hydroxide chloride, (b) about 15.8 wt.% Sulfur and (c) about 12.6 weight .% electrically conductive additives.  14. The method according to claim 9, in which said electrolyte is an electrolyte in the form of fresh or sea water.  15. A water-activated chemical current source for use with a water-based electrolyte containing an anode made of a material selected from the group consisting of magnesium, aluminum or their alloys, or a mixture thereof, and a cathode containing copper hydroxide chloride, sulfur and conductive additive.  16. A method of manufacturing a water-activated current generating device, comprising the following steps: (I) manufacturing an anode based on magnesium or aluminum, (II) manufacturing a cathode based on copper containing copper hydroxide chloride, sulfur and an electrically conductive additive, and (III) placing said anode and a cathode with a gap between them into a housing adapted to receive a predetermined amount of water-based electrolyte so as to activate said current generating device.