Electrochemical cell label with integrated tester
First Claim
1. A method for making a label for an electrochemical cell having a housing and two terminals, which label includes a substrate and an integral cell condition tester;
- wherein said tester comprises heat generating means and means for making electrical contact with the terminals of said cell;
said method including the steps of;
a) making a preform by forming on a releasable transfer web at least the portion of the tester which comprises said heat generating means;
b) affixing the preform to the substrate, andc) removing the releasable transfer web.
2 Assignments
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Accused Products
Abstract
A label for an electrochemical cell with a condition tester for the cell integrated with the label to form a label/tester composite is disclosed. The label/tester composite comprises a thermochromic coating in thermal contact with an electrically conductive coating. The label/tester composite is preferably constructed by applying an adhesive to the inside surface of a heat shrinkable base film forming part of the label. A substructure containing a cured conductive coating and preferably also a thermochromic coating is formed on a releasable web. The substructure is transferred from the releasable web to the inside surface of the heat shrinkable base film and in contact with a portion of the adhesive on the base film. A patterned partition insulating coating is then applied over the transferred conductive coating. The label/tester composite is applied to the cell housing. The integrated tester may be manually activated by depressing one or two regions on the surface of the composite. The conductive coating becomes heated and the generated heat causes changes along the thermochromic coating to indicate the condition of the cell.
38 Citations
22 Claims
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1. A method for making a label for an electrochemical cell having a housing and two terminals, which label includes a substrate and an integral cell condition tester;
- wherein said tester comprises heat generating means and means for making electrical contact with the terminals of said cell;
said method including the steps of;a) making a preform by forming on a releasable transfer web at least the portion of the tester which comprises said heat generating means; b) affixing the preform to the substrate, and c) removing the releasable transfer web. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- wherein said tester comprises heat generating means and means for making electrical contact with the terminals of said cell;
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12. A method for constructing a label integrated with a condition tester forming a label/tester composite for an electrochemical cell and applying said composite to the cell, said cell having a housing and a positive and a negative terminal, said method comprising the steps of:
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a) applying a thermochromic coating onto a side of a heat shrinkable base film, b) applying an adhesive coating over the thermochromic coating and over at least another portion of the film on the same side of the film as the thermochromic coating, c) applying an electrically conductive coating onto a releasable web, d) heat curing the conductive coating on the releasable web to form a substructure on said web, said substructure comprising the cured conductive coating, e) adhering said substructure to the portion of adhesive over the thermochromic coating, f) removing the releasable web, and g) applying the base film to the cell housing by contacting exposed portions of the adhesive coating on said film to the housing, whereby at least a portion of said conductive coating is in proximity to a conductive surface in electrical contact with a terminal of said cell.
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13. A method for constructing a label integrated with a condition tester forming a label/tester composite for an electrochemical cell and applying said composite to the cell, said cell having a housing and a positive and a negative terminal, said method comprising the steps of:
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a) applying an adhesive coating onto at least a portion of a side of a heat shrinkable base film, b) applying an electrically conductive coating to a releasable web, c) heat curing the conductive coating on said web, d) applying a thermochromic coating over the cured conductive coating to form a substructure on said web, said substructure comprising the cured conductive coating and the thermochromic coating; e) adhering said substructure to at least a portion of said adhesive on the base film; f) removing the releasable web, and g) applying the base film to the cell housing by contacting exposed portions of the adhesive coating on said film to the housing, whereby at least a portion of said conductive coating is in proximity to a conductive surface in electrical contact with a terminal of said cell.
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14. In combination, an electrochemical cell and a label/tester composite;
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
said label/tester composite being attached to the cell housing;
said composite including a heat shrinkable base film, a thermochromic coating, a heat cured electrically conductive coating in thermal contact with the thermochromic coating, and means for maintaining said conductive coating spaced from the cell housing, said means comprising a coating of electrically insulating material having a plurality of cavities extending through the thickness thereof, wherein a portion of the conductive coating is positioned over at least one of said cavities;
the tester being activatable by applying manual pressure over the conductive portion over said at least one cavity thereby causing it to be pushed through said cavity and electrically contact a cell terminal, said means electrically and thermally insulating said conductive coating from the cell housing, wherein at least the majority of the remaining cavities in the coating of electrically insulating material form thermally insulating air pockets between the label/tester composite and the cell housing, wherein at least a portion of the coating of electrically insulating material comprises a plurality of spaced apart ribs wherein the spaces between said ribs form at least a portion of the thermally insulating air pockets.
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
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15. In combination, an electrochemical cell and a label/tester composite;
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
said label/tester composite being attached to the cell housing;
said composite including a heat shrinkable base film, a thermochromic coating, a heat cured electrically conductive coating in thermal contact with the thermochromic coating, and means for maintaining said conductive coating spaced from the cell housing, said means comprising a coating of electrically insulating material having a plurality of cavities extending through the thickness thereof, wherein a portion of the conductive coating is positioned over at least one of said cavities;
the tester being activatable by applying manual pressure over the conductive portion over said at least one cavity thereby causing it to be pushed through said cavity and electrically contact a cell terminal, said means electrically and thermally insulating said conductive coating from the cell housing, wherein at least the majority of the remaining cavities in the coating of electrically insulating material form thermally insulating air pockets between the label/tester composite and the cell housing, wherein at least a portion of the coating of electrically insulating material comprises a plurality of discrete islands of material wherein the spaces between said islands of material form at least a portion of the thermally insulating air pockets.
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
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16. In combination, an electrochemical cell and a label/tester composite;
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
said label/tester composite being attached to the cell housing;
said composite including a heat shrinkable base film, a thermochromic coating, a heat cured electrically conductive coating in thermal contact with the thermochromic coating, and means for maintaining said conductive coating spaced from the cell housing, said means comprising a coating of electrically insulating material having a plurality of cavities extending through the thickness thereof, wherein a portion of the conductive coating is positioned over at least one of said cavities;
the tester being activatable by applying manual pressure over the conductive portion over said at least one cavity thereby causing it to be pushed through said cavity and electrically contact a cell terminal, said means electrically and thermally insulating said conductive coating from the cell housing, wherein at least the majority of the remaining cavities in the coating of electrically insulating material form thermally insulating air pockets between the label/tester composite and the cell housing, wherein said label/tester composite comprises means for permitting at least one end of the tester to be heat shrunk evenly over one of said cell shoulders.
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
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17. In combination, an electrochemical cell and a label/tester composite;
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
said label/tester composite being attached to the cell housing;
said composite including a heat shrinkable base film, a thermochromic coating, a heat cured electrically conductive coating in thermal contact with the thermochromic coating, and means for maintaining said conductive coating spaced from the cell housing, said means comprising a coating of electrically insulating material having a plurality of cavities extending through the thickness thereof, wherein a portion of the conductive coating is positioned over at least one of said cavities;
the tester being activatable by applying manual pressure over the conductive portion over said at least one cavity thereby causing it to be pushed through said cavity and electrically contact a cell terminal, said means electrically and thermally insulating said conductive coating from the cell housing, wherein at least the majority of the remaining cavities in the coating of electrically insulating material form thermally insulating air pockets between the label/tester composite and the cell housing, wherein said label/tester composite comprises means for permitting at least one end of the tester to be heat shrunk evenly over one of said cell shoulders, wherein said means for said at least one end of the tester to be heat shrunk evenly comprises at least two fingers protruding from said end of the conductive coating.
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
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18. In combination, an electrochemical cell and a label/tester composite;
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
said label/tester composite being attached to the cell housing;
said composite including a heat shrinkable base film, a thermochromic coating, a heat cured electrically conductive coating in thermal contact with the thermochromic coating, and means for maintaining said conductive coating spaced from the cell housing, said means comprising a coating of electrically insulating material having a plurality of cavities extending through the thickness thereof, wherein a portion of the conductive coating is positioned over at least one of said cavities;
the tester being activatable by applying manual pressure over the conductive portion over said at least one cavity thereby causing it to be pushed through said cavity and electrically contact a cell terminal, said means electrically and thermally insulating said conductive coating from the cell housing, wherein at least the majority of the remaining cavities in the coating of electrically insulating material form thermally insulating air pockets between the label/tester composite and the cell housing, wherein said label/tester composite further comprises a dielectric coating between a portion of the conductive coating and a portion of the coating of electrically insulating material to prevent accidental contact between said portion of the conductive coating and the cell housing.
- said cell comprising a metal housing having a cylindrical wall with first and second shoulders at respective ends thereof;
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19. A label/tester composite for application to an electrochemical cell having a housing and a pair of terminals, said label/tester composite comprising a heat shrinkable base film and an adhesive coating over one side of the base film, a thermochromic coating, an electrically conductive coating in thermal contact with the thermochromic coating, and separation means for maintaining the conductive coating spaced from the housing when the composite is applied thereto, wherein said label/tester composite further comprises a dielectric coating between the conductive coating and the adhesive coating, said dielectric coating protecting the conductive coating from chemical attack by said adhesive coating, and wherein the thermochromic coating, the electrically conductive coating, and said separation means are on the same side of the base film as the adhesive coating, wherein said conductive coating is formed on said base film by heat curing a conductive coating on a releasable web and transferring the cured conductive coating to at least a portion of said adhesive on said base film.
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20. A label/tester composite for application to an electrochemical cell having a housing and a pair of terminals, said label/tester composite comprising a heat shrinkable base film and an adhesive coating over one side of the base film, a thermochromic coating, an electrically conductive coating in thermal contact with the thermochromic coating, and separation means for maintaining the conductive coating spaced from the housing when the composite is applied thereto, wherein the thermochromic coating, the electrically conductive coating, and said separation means are on the same side of the base film as the adhesive coating, wherein said conductive coating is formed on said base film by heat curing a conductive coating on a releasable web and transferring the cured conductive coating to at least a portion of said adhesive on said base film, wherein said composite is in contact with the housing of an electrochemical cell, and said separation means contacts said housing, wherein said separation means comprises a coating of electrically insulating material having a plurality of cavities extending through the thickness thereof, wherein said label/tester composite further comprises a dielectric coating between a portion of the conductive coating and the coating of electrically insulating material, said dielectric coating preventing accidental contact between the conductive coating and the cell housing, wherein a portion of the conductive coating is positioned over at least one of said cavities, whereby the tester is activatable by applying manual pressure over the conductive portion over said at least one cavity thereby causing said conductive portion to be pushed through said at least one cavity and electrically contact a cell terminal.
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21. A label/tester composite for application to an electrochemical cell having a housing and a pair of terminals, said label/tester composite comprising a heat shrinkable base film and an adhesive coating over one side of the base film, a thermochromic coating, an electrically conductive coating in thermal contact with the thermochromic coating, separation means for maintaining the conductive coating spaced from the housing when the composite is applied thereto, and means for permitting at least one end of the tester to be heat shrunk evenly over a shoulder of the cell, wherein the thermochromic coating, the electrically conductive coating, and said separation means are on the same side of the base film as the adhesive coating, wherein said conductive coating is formed on said base film by heat curing a conductive coating on a releasable web and transferring the cured conductive coating to at least a portion of said adhesive on said base film, wherein said composite is in contact with the housing of an electrochemical cell, and said separation means contacts said housing, wherein said separation means comprises a coating of electrically insulating material having a plurality of cavities extending through the thickness thereof, wherein a portion of the conductive coating is positioned over at least one of said cavities, whereby the tester is activatable by applying manual pressure over the conductive portion over said at least one cavity thereby causing said conductive portion to be pushed through said at least one cavity and electrically contact a cell terminal.
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22. A label/tester composite for application to an electrochemical cell having a housing and a pair of terminals, said label/tester composite comprising a heat shrinkable base film and an adhesive coating over one side of the base film, a thermochromic coating, an electrically conductive coating in thermal contact with the thermochromic coating, separation means for maintaining the conductive coating spaced from the housing when the composite is applied thereto, and means for permitting at least one end of the tester to be heat shrunk evenly over a shoulder of the cell, said latter means comprising at least two spaced apart fingers protruding from an end of the conductive coating, wherein the thermochromic coating, the electrically conductive coating, and said separation means are on the same side of the base film as the adhesive coating, wherein said conductive coating is formed on said base film by heat curing a conductive coating on a releasable web and transferring the cured conductive coating to at least a portion of said adhesive on said base film, wherein said composite is in contact with the housing of an electrochemical cell, and said separation means contacts said housing, wherein said separation means comprises a coating of electrically insulating material having a plurality of cavities extending through the thickness thereof, wherein a portion of the conductive coating is positioned over at least one of said cavities, whereby the tester is activatable by applying manual pressure over the conductive portion over said at least one cavity thereby causing said conductive portion to be pushed through said at least one cavity and electrically contact a cell terminal.
Specification