JP5501922B2 - Temperature indication label - Google Patents

Description

  The present invention relates to a temperature indicating label. More specifically, the present invention relates to a temperature indication label that is affixed to products and devices that require temperature management and is used for temperature management such as measurement of temperature history and accumulated heating amount, and confirmation of temperature.

  Conventionally, in order to measure the temperature history and accumulated heating amount, and to check the temperature, a temperature indicating member is provided on a part of the support such as a film via an adhesive layer, and a surface film is laminated thereon. A temperature indicating label of the configuration is known (see, for example, Patent Document 1). These labels are used in various industrial fields that require temperature control because they are inexpensive and have high detection accuracy, are less likely to malfunction, and do not require additional equipment such as a power source.

  For example, in products and equipment that require temperature management, those that require heating above a preset temperature, or that are heated above a certain temperature may cause inconvenience such as deterioration or malfunction. There is something that happens. In order to perform these temperature controls, the temperature label is actually used.

  However, as described above, since the temperature indicating member is provided on a part of the support through the pressure-sensitive adhesive layer, a step occurs between the pressure-sensitive adhesive layer and the temperature indicating member, and when a surface film is laminated thereon, Bubbles sometimes entered the temperature indicating label due to the difference in level.

  In particular, when using a temperature indicating label outdoors, it is necessary to increase the thickness of the surface film in order to increase the so-called weather resistance so that it is resistant to light and rain, dust, light such as ultraviolet rays, and changes in the outside air. However, when the thickness of the surface film exceeds a certain level, the rigidity of the surface film increases, and it becomes difficult for the surface film to follow the step, resulting in an increase in bubbles entering the temperature indicating label.

  This bubble expands due to heat when the temperature label is heated, and the surface film and adhesive layer peel off, destroying the temperature label, especially when used in liquids such as water and oil, and used outdoors. In such a case, the liquid may enter from the peeled portion, and the temperature indicating member may be dissolved or altered, so that the function as the temperature indicating material cannot be performed. As a result, the temperature indicating label may not be used.

  For this reason, in order to eliminate the level difference between the pressure-sensitive adhesive layer and the temperature indicating member, and to suppress the entry of bubbles into the temperature indicating label, an insole sheet having a thickness similar to that of the temperature indicating member is provided on the pressure-sensitive adhesive layer. It is done to prevent entry. (See Patent Document 2).

  However, it is necessary to dispose the temperature indicating member and the insole sheet on the pressure-sensitive adhesive layer so that air bubbles are not involved, and there are problems such as a complicated manufacturing process and layer structure.

  In addition, when used outdoors, the temperature indicating member may be deteriorated by ultraviolet rays or the like, and as a countermeasure against this, a special film having light resistance is used for the surface film. It is expensive compared with the case of using this film.

JP 2001-83020 A JP 2003-172661 A

  The present invention has good weather resistance, can be used outdoors, can suppress the entry of bubbles without complicating the structure of the temperature indicating label, and even after being heated above a certain temperature. The present invention provides a temperature indicating label that can exhibit good performance as a temperature indicating material without causing destruction of the label and without deteriorating the temperature indicating member due to ultraviolet rays or the like.

The present invention solves the above-mentioned problems by laminating a laminated transparent film on the first pressure-sensitive adhesive layer and the temperature indicating member, and the second pressure-sensitive adhesive layer is a temperature indicating label having ultraviolet absorptivity. It came to complete.
That is, the present invention
“1. At least a first pressure-sensitive adhesive layer is provided on a support, and a temperature indicating member that develops or changes color at a predetermined temperature is provided on a part of the first pressure-sensitive adhesive layer. On the pressure-sensitive adhesive layer and the temperature indicating member, a laminated transparent film having a configuration in which the first transparent film and the second transparent film are bonded together via the second pressure-sensitive adhesive layer is laminated, and the second pressure-sensitive adhesive A temperature label, characterized in that the layer is UV-absorbing. "

  According to the present invention, by laminating the laminated transparent film on the first pressure-sensitive adhesive layer and the temperature indicating member, the followability of the laminated film is improved with respect to the step generated in the first pressure-sensitive adhesive layer and the temperature indicating member. The air bubbles can be prevented from entering, and even when the temperature indicating label is heated, the label is not destroyed and can be used stably. Furthermore, since the second pressure-sensitive adhesive layer has ultraviolet absorptivity, light resistance is improved, and a temperature indicating label that can be used outdoors can be obtained at a low cost.

It is sectional drawing which showed typically an example of the temperature indication label of this invention. It is sectional drawing which showed typically an example of the conventional temperature indication label.

  An example of the temperature indicating label of the present invention will be described with reference to FIG. As a configuration of the temperature indicating label (1) of the present invention, a first pressure-sensitive adhesive layer (3) is provided on a support (2), a temperature indicating member (4) is provided on a part of the pressure-sensitive adhesive layer, and further The laminated transparent film (5) is provided on the top. The laminated transparent film (5) has a configuration in which the first transparent film (5a) and the second transparent film (5c) are bonded together via the second pressure-sensitive adhesive layer (5b). . Further, the second pressure-sensitive adhesive layer (5b) is characterized in that it has a structure having ultraviolet absorptivity.

  By setting it as the said structure, it becomes possible to suppress that a bubble enters a temperature indication label, and to improve a weather resistance.

  In the present invention, as a mechanism for suppressing air bubbles from entering the temperature indicating label, it is presumed as follows. That is, in the temperature indicating label of the conventional configuration represented by the temperature indicating label shown in FIG. 2, the surface film (5 ′) is provided on the first pressure-sensitive adhesive layer (3) and the temperature indicating member (4). At this time, air bubbles enter due to a difference in level between the first pressure-sensitive adhesive layer (3) and the temperature indicating member (4). For this reason, in order to suppress the entry of bubbles, it is necessary to adopt a configuration in which the surface film follows the step. In the present invention, by using a laminated transparent film, compared to a single-layer surface film of the same thickness, its rigidity is lowered, it becomes easier to follow the step, and air bubbles enter the temperature indicating label. I think it can be suppressed.

  The laminated transparent film used in the present invention has a structure in which a first transparent film and a second adhesive film are bonded to each other via a second adhesive layer between the first transparent film and the second transparent film. The three-layer structure of the agent layer and the second transparent film is the minimum constituent unit. By adopting this configuration, the film itself becomes softer and the rigidity can be reduced as compared with a single-layer film having the same thickness.

  The laminated transparent film may be a laminated transparent film having more than 3 layers using 3 or more transparent films, and is appropriately selected depending on the situation of use.

  The laminated transparent film used in the present invention is preferably about 25 μm to 100 μm. When the temperature is within this range, it is preferable because the temperature-retaining label has sufficient weather resistance even when used outdoors, and the rigidity of the film can be lowered and air bubbles can be prevented from entering the temperature-recognizing label.

  Moreover, the 1st transparent film and 2nd transparent film which are used for the said lamination | stacking transparent film may use the same material and thickness, and may use a different thing, respectively.

  The first transparent film and the second transparent film used in the present invention are not particularly limited as long as they have transparency and can recognize from the laminated transparent film side that the temperature indicating member is colored, decolored, or discolored. Specific examples include films made of polyolefin resins, polyester resins, polystyrene resins, acrylic resins, polyamide resins, and fluororesins.

  Moreover, it is preferable that the 1st transparent film and 2nd transparent film used for this invention are about 12 micrometers-50 micrometers from the preferable range of the said surface film.

  The transparency of the transparent film or laminated transparent film used in the present invention means that it is colorless or colored and has a light transmittance that can recognize changes such as coloration, decoloration, or discoloration of the temperature indicating member.

  The 2nd adhesive layer of this invention can be formed by arrange | positioning an adhesive by coating, printing, etc. on a 1st transparent film or a 2nd transparent film. The second pressure-sensitive adhesive layer needs to have ultraviolet absorptivity in order to improve the light resistance of the temperature indicating label. As the means, it is possible to make the pressure-sensitive adhesive contain an ultraviolet absorber or to make the adhesive itself an ultraviolet-absorbing pressure-sensitive adhesive. Specific examples of the pressure-sensitive adhesive used for the second pressure-sensitive adhesive layer include acrylic pressure-sensitive adhesives, rubber-based pressure-sensitive adhesives, silicone-based pressure-sensitive adhesives, polyurethane-based pressure-sensitive adhesives, and epoxy resins. Among these, an acrylic pressure-sensitive adhesive is preferable because it has good weather resistance and hardly deteriorates the material.

  The thickness of the second pressure-sensitive adhesive layer is preferably about 5 μm to 20 μm. When in this range, when the first transparent film and the second transparent film are laminated to form a laminated transparent film, the first transparent film and the second transparent film are not peeled off, and the second Since it can prevent the cost increase by making an adhesive layer thicker than necessary, it is preferable.

  Further, as described above, the second pressure-sensitive adhesive layer can be configured to contain an ultraviolet absorber in the pressure-sensitive adhesive. Examples of the ultraviolet absorber include salicylic acid-based, benzophenone-based, benzotriazole-based, hindered amine. Type, benzoate type, triazine type, cyanoacrylate type, and the like, and it is sufficient that they are uniformly dispersed or dissolved in the pressure-sensitive adhesive.

  In the present invention, since the second pressure-sensitive adhesive layer has a UV-absorbing configuration, the transparent film itself may not have the UV-absorbing property, and the options for the transparent film used for the laminated transparent film are expanded. It will be.

  The support used in the present invention is not particularly limited as long as the first pressure-sensitive adhesive layer can be formed. For example, paper such as fine paper, kraft paper, coated paper, art paper, polyolefin resin, polyester resin, polystyrene Examples thereof include a resin, an acrylic resin, a polyamide resin, a fluorine resin, a mixture of these resins, or a film made of a laminate.

  The 1st adhesive layer used for this invention can be formed by arrange | positioning an adhesive on a support body by coating, printing, etc. The pressure-sensitive adhesive to be used is not particularly limited as long as the temperature indicating member can be fixed and a laminated transparent film can be laminated on the first pressure-sensitive adhesive layer and the temperature indicating member, but the acrylic pressure-sensitive adhesive and rubber-based pressure-sensitive adhesive are used. Agents, silicone adhesives, polyurethane adhesives, epoxy resins, and the like. Among these, an acrylic pressure-sensitive adhesive is preferable because it has good weather resistance and hardly deteriorates the material. The first pressure-sensitive adhesive layer may be made of the same material as the second pressure-sensitive adhesive layer.

  The thickness of the first pressure-sensitive adhesive layer is preferably about 10 to 100 μm. Within this range, it is possible to transmit the temperature from the device with the temperature label attached to the temperature indicating member without dropping, and the temperature of the temperature indicating label is sufficient, such as the laminated transparent film does not peel off due to heating. Since it can be exhibited, it is preferable.

  The temperature indicating member used in the present invention has a structure in which waxes or organic compounds that melt at a preset temperature are laminated in a coarse state on a colored substrate such as colored paper (hereinafter referred to as a wax type temperature indicating member). Can be used).

  Until the temperature reaches the preset temperature, the wax-type temperature indicating member scatters light and becomes opaque, thus hiding the color of the colored substrate. The waxes and organic compounds laminated in the coarse-grained state melt and penetrate into the colored base material, making it possible to see the colored base material that has been concealed up until now, and to develop a mechanism of coloring. Have.

  In the wax type temperature indicating member, as a method of laminating coarse particles of wax or organic compound on a colored substrate, the wax or organic compound is coarsely dispersed by dispersing the wax or organic compound in an organic solvent using a ball mill or the like. Waxes and organic compounds in a state can be obtained. By applying the coarse wax and organic compound on a colored substrate and drying, the coarse wax and organic compound can be laminated on the colored substrate.

  The set temperature at which the wax-type temperature indicating member is colored is determined by the melting point of the wax or organic compound. Accordingly, in order to set the desired temperature, waxes and organic compounds may be appropriately selected. Examples of the waxes used in the present invention include natural waxes and synthetic waxes. , Microcrystalline wax, polyethylene wax, and the like are used. Examples of the organic compound include long chain fatty acids and esters thereof, amides, and the like. For example, trilaurin, myristic acid, behenic acid, stearic acid amide and the like are used.

  The thickness of the temperature indicating member used in the present invention is preferably about 50 to 150 μm. If it is in this range, the sensitivity of the temperature indicating member is good and easy to recognize, which is preferable. If it is thicker than this range, the transmission of heat from products and devices with temperature indicating labels that require temperature control will be delayed, and actual temperature history may not be shown.

  In addition, when the temperature indicating member is thinner than this range, when a wax type temperature indicating member is used, it tends to be difficult to recognize a coloring state due to a temperature change of the temperature indicating member. From the above, it is preferable to be in the above range.

  Since the wax-type temperature indicating member tends to increase in thickness as a temperature indicating member due to its structure, the problem of a step is particularly likely to increase, and this is a particularly preferable aspect in terms of the effect of the present invention.

  In addition to the wax-type temperature indicating member, an electron-donating coloring compound and an electron-accepting compound dispersed in a resin or encapsulated in microcapsules are laminated on a substrate such as paper or film. The thing of the structure (henceforth a chemical reaction type | mold temperature indicating member) can also be used. When the temperature indicating member of this configuration reaches a preset temperature, it can be confirmed that the preset temperature has been reached by changing to a decolored state or a discolored state in addition to a change to a colored state due to a chemical reaction. it can.

  As the temperature indicating member used in the present invention, the wax type temperature indicating member and the chemical reaction type temperature indicating member can be used in combination.

  As an example of the method for producing the temperature indicating label of the present invention, the pressure-sensitive adhesive is laminated on the support (2) by coating, printing or the like to form the first pressure-sensitive adhesive layer (3). On the layer, a temperature indicating member (4) is provided. The temperature indicating member to be provided can be formed in an arbitrary shape such as a circular shape or a polygonal shape. On the first pressure-sensitive adhesive layer and the temperature indicating member layer, the laminated transparent film (5) is bonded using a laminator or the like to form a temperature indicating label.

  Moreover, as an example of the manufacturing method of the said laminated transparent film (5), the adhesive containing the ultraviolet absorber used as the 2nd adhesive layer (5b) is applied on the 1st transparent film (5a). It can be obtained by forming a laminated transparent film by printing, etc., and laminating the second transparent film (5c) on the second pressure-sensitive adhesive layer. Furthermore, when laminating | stacking a transparent film, it can obtain by repeating formation of a 2nd adhesive layer and bonding of a transparent film.

    The temperature label of the present invention is often used by being attached to products or devices that require temperature management in order to perform temperature management. On the back surface of the temperature label support, an adhesive, a magnet, etc. The magnetic material or the like can be provided and attached to the products or devices.

  When manufacturing the temperature indicating label of the present invention, in consideration of the use as described above, a double-sided pressure-sensitive adhesive tape or the like may be used as the first pressure-sensitive adhesive layer laminated on the support.

Examples of the present invention will be described below, but the present invention is not limited thereto.
Example 1
(Production of temperature indicating member)
Polyethylene wax (melting point: 100 ° C.) 40 parts by mass Methyl ethyl ketone 60 parts by mass The above components were stirred and mixed in a ball mill for 1 hour to obtain a wax coating liquid in a coarse state.
Next, φ5 mm red colored paper is disposed as a substrate, and the colored surface is disposed on the surface side. On the colored surface of the colored paper, the wax coating solution is applied and dried at room temperature, so that the colored surface is concealed in white by a coarse-grained wax, and a temperature indicating layer composed of a base material and a wax layer. A member was obtained. The thickness of the obtained temperature indicating member was 100 μm.
(Manufacture of surface film)
Acrylic adhesive solution (Sedine 7850, manufactured by Sekisui Chemical Co., Ltd.)
45 mass% toluene / ethyl acetate solution) 100 mass parts Benzotriazole UV absorber (TINUVIN PS manufactured by BASF)
5 parts by mass The above components were mixed by stirring to obtain a pressure-sensitive adhesive coating solution containing an ultraviolet absorber.
A 25 μm polyethylene terephthalate film is used as the first transparent film, and the adhesive coating solution is applied onto the transparent film and dried at room temperature, whereby a second adhesive layer is formed on the transparent film. Provided. The thickness of the pressure-sensitive adhesive layer was 10 μm.
On the second pressure-sensitive adhesive layer, a 25 μm FEP film (fluorine film) was bonded as a second transparent film using a laminator to obtain a laminated transparent film.
(Manufacture of temperature label)
Double-sided pressure-sensitive adhesive tape using a 15 mm × 15 mm square acrylic pressure-sensitive adhesive as the support and the first pressure-sensitive adhesive layer (Double-sided pressure-sensitive adhesive Y-9479 manufactured by Sumitomo 3M Limited) First pressure-sensitive adhesive layer 25 μm Support 12 μm polyethylene terephthalate The temperature indicating member is disposed substantially at the center. Next, the laminated film was laminated on the first pressure-sensitive adhesive layer and the temperature indicating member using a laminator to obtain a temperature indicating label.

Comparative Example 1
On the first pressure-sensitive adhesive layer and the temperature indicating member, a 50 μm polyvinyl fluoride film (a special film having light resistance) that is a surface film having a single layer structure was laminated instead of the laminated transparent film used in Example 1. Except for the above, a temperature indicating label was obtained in the same manner as in Example 1.

Comparative Example 2
In the production process of the surface film, a temperature indicating label was obtained in the same manner as in Example 1 except that no benzotriazole-based ultraviolet absorber was blended.

The temperature indicating labels obtained in Example 1 and Comparative Examples 1 and 2 were evaluated in the following manner. The results are shown in (Table 1).

Intrusion of bubbles: The state of bubbles in the obtained temperature indicating label was visually confirmed.
○: No entry of bubbles around the temperature indicating member.
X: A large amount of air bubbles are found around the temperature indicating member.

Heating test: The obtained temperature label was affixed to a coated iron plate and immersed in an oil bath at 130 ° C. for 3 minutes to confirm the state of the temperature label.
○: It has a function as a temperature indicating label, and no change is seen in the structure.
X: Due to the expansion of the bubbles, the film laminated on the first pressure-sensitive adhesive layer and the temperature indicating member peels off, the oil enters, and does not function as a temperature indicating label.

Light resistance: The obtained temperature indicating label was affixed to a coated iron plate and irradiated with a xenon fade meter (manufactured by Suga Test Instruments Co., Ltd.) for 1000 hours to confirm the state of the temperature indicating label after irradiation.
◯: No change was observed in the temperature label before and after irradiation, and it has a function as a temperature label.
X: It does not have light resistance, a temperature indicating member deteriorates and discolors, and does not have a function as a temperature indicating label.

  As is clear from the results of the above (Table 1), the temperature indicating label of Example 1 can suppress the intrusion of bubbles, the label structure is not changed in the heating test, the light resistance is good, and the temperature indicating label The performance was sufficiently satisfied.

  On the other hand, the temperature indicating label of Comparative Example 1 was good in light resistance, but it was thought that it was derived from the surface film having a single-layer structure. Intrusion of bubbles was observed, and in the heating test, the surface film was peeled off. Was destroyed.

  Moreover, although the temperature-increasing label of Comparative Example 2 used a laminated transparent film as the surface film, the entry of bubbles was suppressed and good results were also obtained in the heating test, but the light resistance was poor.

  As described above, the temperature labels of Comparative Examples 1 and 2 did not have performance as a temperature label.

  The temperature indicating label of the present invention can be used in various fields requiring temperature management because it can be affixed to products and devices that require temperature management and temperature history and temperature can be confirmed.

DESCRIPTION OF SYMBOLS 1 ... Temperature label 2 ... Support body 3 ... 1st adhesive layer 4 ... Temperature indicating member 5 ... Laminated transparent film 5a ... 1st transparent film 5c ... 2nd transparent film 5b ... 2nd adhesive layer 5 '... Surface film

Claims (1)

  A first pressure-sensitive adhesive layer is provided on at least a support, and a temperature indicating member that develops or changes color at an arbitrary preset temperature is provided on a part of the first pressure-sensitive adhesive layer, and the first pressure-sensitive adhesive A laminated transparent film having a structure in which a first transparent film and a second transparent film are bonded together via a second pressure-sensitive adhesive layer is laminated on the layer and the temperature indicating member, and the second pressure-sensitive adhesive layer is made of ultraviolet rays. A temperature indicating label characterized by having absorbency.

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