JPH04303783A - Temperature indicating battery checker - Google Patents

Abstract

PURPOSE:To prevent the degradation of conductance in a conducting layer due to folding, stabilize conductance and enable uniform and exact color indication. CONSTITUTION:On one side of the base film 1 of polyester film, an aluminum foil is attached as a conducting layer 2. On the other side of the base film 1, a picture layer 3 is formed in printing, and on a determined part corresponding to the heated part of the conducting layer 2, a temperature indication ink layer 4 made from thermo-chromic chiral nematic liquid crystal is spread and dried.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature-indicating battery checker that prevents deterioration of conductivity of a conductive layer due to bending, stabilizes conductivity, and provides accurate color display without unevenness.

0002

[Prior Art] Conventionally, temperature-indicating battery checkers include one in which a pattern layer and a thermoindicating ink layer are provided on one side of a strip of paper or plastic film, and a conductive layer is formed on the other side. Ta. The conductive layer is formed of a conductive paste such as silver or carbon, or a metal vapor deposition film. This temperature-indicating battery checker generates heat by applying a voltage to a conductive layer, and a thermo-indicating ink layer displays a colored display in response to a change in temperature of the conductive layer.

[0003] The temperature-indicating battery checker uses both ends of the temperature-indicating battery checker as input/output terminals, and the terminals are manually pressed and brought into contact with the electrodes of the dry battery. It is. Therefore, when a temperature-indicating battery checker is packaged together with a dry cell battery, the temperature-indicating battery checker is provided with a bending portion, folded and compacted, and packaged together with the dry cell battery as an inconspicuous accessory.

[0004] In order to provide the temperature-indicating battery checker with a bent part, the entire temperature-indicating battery checker is wrapped around a hard metal plate having angular edges, and a pad is strongly pressed against the edge. , a processing method has been adopted in which a trace of the edge is made on a temperature-indicating battery checker to form a bent part.

[0005]

[Problem to be solved by the invention] However, the conductive layer is
It is made of a conductive paste such as silver or carbon, or a metal vapor deposition film, and is fragile. therefore,
During the bending process, the conductive layer rubbed against the angular edges of the metal plate, causing damage to the area and making it prone to cracking and breakage. Furthermore, when folded for storage, a load was applied to the folded portion of the conductive layer, resulting in progressive deterioration. As a result, the conductivity of the conductive layer becomes partially unstable, and conventional temperature-indicating battery checkers are unable to generate heat at a constant temperature, resulting in uneven coloring of the thermo-ink layer and other problems. It showed no voltage.

[0006]

[Means for Solving the Problems] In order to solve the above-mentioned problems, the present invention provides that a conductive layer is formed on one side of a base film, and a pattern layer and a temperature-indicating ink layer are formed on the other side. In the temperature-indicating battery checker having a folded part, the conductive layer is formed of a malleable metal foil. Further, the conductive layer may be covered with a protective layer.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be explained in detail below with reference to the drawings. FIG. 1 is a sectional view of a temperature-indicating battery checker according to the present invention. A conductive layer 2 made of a malleable metal foil is formed on one side of the base film 1,
A pattern layer 3 and a temperature-indicating ink layer 4 are formed on the other surface.

The base film 1 is a film-like material or a sheet-like material, and has a thickness within a range that does not cause problems in thermal conductivity. Further, when the heat generated in the conductive layer 2 is strong, it is preferable that the base film 1 has heat resistance. Examples of materials having such properties include polyester resins, polyamide resins, acrylic resins, and vinyl chloride resins.

A conductive layer 2 is formed on one surface of the base film 1. The conductive layer 2 is a layer that has the function of a terminal for inputting and outputting current, and the function of a heating element that generates resistance heat by passing current. The conductive layer 2 is a malleable foil that is resistant to bending and made of conductive metal, metal compound, carbon, or the like. Specifically, there are aluminum foil, copper foil, etc.

The conductive layer 2 may be attached to the entire surface of the base film 1. Alternatively, the conductive layer 2 may have a constant pattern shape including at least a pair of terminal parts 21, 21 and a heat generating part 22 that connects them without disconnection (see FIG. 2).

Alternatively, the conductive layer 2 may have gaps 23 and heat generating portions 22 formed into an arbitrary pattern (see FIG. 3).

The heat generating portion 22 may have a pattern shape. For example, there is a tapered shape in which the width gradually decreases from one terminal portion 21 toward the other terminal portion 21. By adopting such a shape, the amount of heat generated by the heat generating portion 22 differs depending on the location, so that the coloring area of the temperature-indicating ink layer 4 gradually decreases, and various forms of color display can be realized. Further, the terminal portions 21, 21 may have a pattern shape.

[0013] Patterning of the conductive layer 2 can be carried out by etching,
There are various methods such as photoresist method and masking method. Specifically, there is a method in which a metal foil is first bonded to the base film 1, a resist layer is formed by printing with a negative pattern of a predetermined pattern of the conductive layer 2, and then the resist layer is removed by etching.

A protective layer may be formed on the conductive layer 2 if necessary. It is effective to form the protective layer over the entire surface of the conductive layer 2 except for the pair of openings that expose the terminal portions 21, 21, since the exposed portion of the conductive layer 2 can be reduced (FIG. 3). reference). Materials constituting the protective layer include common elastic resins such as vinyl chloride resin and vinyl butyral resin. When the conductive layer 2 is patterned on the base film 1, the protective layer should have good adhesion to both the base film 1 and the conductive layer 2. Since the conductive layer 2 is reliably sandwiched between the layer and the base film 1, lifting or peeling of the conductive layer 2 from the base film 1 can be prevented.

A pattern layer 3 and a temperature-indicating ink layer 4 are formed on the surface of the base film 1 opposite to the surface on which the conductive layer 2 is formed (see FIG. 1).

The pattern layer 3 may be formed as characters or symbols for appropriate purposes such as explaining how to read the color display of the temperature-indicating ink layer 4, or may be formed as a color pattern or pattern to add design. may be formed. The pattern layer 3 is usually formed by a printing method, a coating method, or the like using colored ink or the like.

The temperature-indicating ink layer 4 is made of a composition that senses temperature changes caused by the heat generated by the conductive layer 2 through the base film 1 and develops color according to each temperature, using a conventional printing method or coating method. It is formed by laws, etc.

Furthermore, it is preferable that the temperature-indicating ink layer 4 is formed on a portion other than a bent portion provided when the temperature-indicating battery checker is used or stored. At the bent portion, the temperature-indicating ink layer 4 and the conductive layer 2 are inevitably stretched, resulting in a thinner thickness or cracks. This is because problems such as the color development of the temperature-indicating ink layer 4 do not match between the bent portion and the portion other than the bent portion occur.

As the material constituting the thermochromic ink layer 4, for example, ink containing thermochromic pigments or thermochromic liquid crystals can be used. Specifically, a temperature-indicating ink composition or a temperature-indicating paint composition that causes a color change phenomenon in a target temperature range using a thermostatic pigment composition containing one or more of a reversible thermometric pigment, an irreversible thermometric pigment, and a chiral nematic liquid crystal. It is recommended to use In addition, substances that exhibit various effects may be contained as necessary.

Example: A polyester film with a thickness of 35 μm is used as a base film, an aluminum foil with a thickness of 7 μm is provided as a conductive layer on one side, and a pattern layer is printed on the other side of the polyester film to form a predetermined pattern. A thermochromic ink layer made of an ink containing a reversible temperature-indicating material made of thermochromic or chiral nematic liquid crystal was applied to a portion of the aluminum foil corresponding to the heat-generating portion and dried. When the bent portion of this temperature-indicating battery checker was bent, no defects such as destruction of the conductive layer occurred. The resistance value between the terminal portions before the bending process was 2Ω, whereas the resistance value after the bending process was 5Ω. Desired color development of the temperature-indicating ink layer was obtained regardless of the bent portion.

Comparative Example When a temperature-indicating battery checker having a conductive layer made of an aluminum vapor-deposited film was bent, cracks appeared in the conductive layer. The resistance value between the terminal portions before the bending process was 4 to 5Ω, whereas the resistance value after the bending process was ∞Ω. The color development of the temperature-indicating ink layer was uneven at the bent portions, and the desired color development could not be obtained.

[0022]

Effects of the Invention The temperature-indicating battery checker of the present invention is a temperature-indicating battery checker in which a conductive layer is formed on one side of a base film, and a pattern layer and a temperature-indicating ink layer are formed on the other side. In a temperature-indicating battery checker in which a conductive layer is formed on one side of a material film and a pattern layer and a temperature-indicating ink layer are formed on the other side, the conductive layer is formed of a malleable metal foil. did.

Therefore, even if the temperature-indicating battery checker is bent at the bend, since the conductive layer is made of a malleable metal foil, the conductive layer will not be broken or damaged, and the conductivity of the conductive layer will be stable and there will be no unevenness. It is possible to obtain a constant color display without any blemishes, making it possible to display accurate color display.

[Brief explanation of drawings]

FIG. 1 is a sectional view showing an embodiment of a temperature-indicating battery checker of the present invention.

FIG. 2 is a front view showing the other side of the above embodiment of the invention.

FIG. 3 is a front view showing another embodiment of the invention.

[Explanation of symbols]

1 Base film 2 Conductive layer 21 Terminal section 22 Heat generating part 23 Gap 3 Picture layer 4 Temperature-indicating ink layer

Claims (2)

[Claims] Claim 1: A temperature-indicating battery checker having a bending part, in which a conductive layer is formed on one surface of a base film, a pattern layer and a temperature-indicating ink layer are formed on the other surface, and the conductive layer is malleable. A temperature-indicating battery checker characterized in that it is formed of a metal foil having a temperature-indicating battery checker. 2. The temperature-indicating battery checker according to claim 1, wherein the conductive layer is covered with a protective layer.