JP2015063123A - Phosphorescent silicone gel sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a phosphorescent gel sheet that is flexible compared to a thermosetting polyurethane or the like, and has elasticity, weak adhesiveness, excellent optical characteristics such as transparency and light guiding property, and excellent phosphorescent performance.SOLUTION: A phosphorescent silicone gel sheet is obtained by applying the following compounded raw material by a coating device on a sheet substrate that is transparent or white or shows specular reflection, and curing the compounded raw material applied on the substrate by heating at 100 to 250°C for about 5 minutes to form a phosphorescent layer. The compounded raw material comprises: a raw material in total 100 wt.%, including 86.0 to 94.0 wt.% of an addition reaction curable silicone gel material essentially comprising organopolysiloxane and 6.0 to 14.0 wt.% of an addition reaction curable silicone rubber material essentially comprising an organopolysiloxane; and 20.0 to 400.0 wt.% as an external percentage of a phosphorescent agent compounded in the raw material.

Description

  The present invention relates to a phosphorescent silicone gel sheet that can be used for evacuation guidance signs, advertisements, and signboards using phosphorescence and retains the elasticity and adhesion specific to gels.

Phosphorescence stores light energy in the ultraviolet region, such as the light from the sun and fluorescent lamps, and can emit phosphorescence in the dark. Therefore, phosphorescence is very effective for blackouts caused by power outages during disasters such as earthquakes and typhoons. Means. For this reason, phosphorescence has been used for indications such as wide-area evacuation sites and tsunami evacuation sites, and is a direction adopted for high-intensity phosphorescent evacuation guidance signs. In addition, the sign function such as evacuation guidance sign by phosphorescence does not require a power supply or wiring and piping, is maintenance-free, does not require electricity bills, and is not particularly limited, so it is an effective means suitable for energy-saving CO ₂ measures. It has become.

  Conventional phosphorescent sign boards are manufactured by adhering the back side of a phosphorescent pigment-containing acrylic plate to a white acrylic plate with an adhesive and adhering a transparent polyethylene terephthalate (hereinafter referred to as PET film) with a printed design on the front side. It was. This method has many work steps and has a problem that a curing period of 2 to 3 days is required because an adhesive is used. The particle diameter of the phosphorescent pigment is 20 to 70 μm, and the afterglow luminance is considered to be better as the particle diameter of the phosphorescent pigment is larger. However, a large luminous pigment of 100 μm or more is disclosed as a prior art because it is difficult to form by a usual casting method or coating such as screen printing (Reference 1).

JP 2009-163022 [0006-0007, 0015-0017, FIG. 1]

  This technology uses a centrifugal molding drum, and without using an adhesive, a PET film layer, a phosphorescent layer in which a phosphorescent pigment is mixed in a resin material such as thermosetting polyurethane, and a white reflective layer in which a white pigment is mixed in a resin material, The feature is that these are laminated and integrated. The above-mentioned prior art is excellent in that a resin layer mixed with a phosphorescent pigment of 100 μm or more is laminated on a PET film without using an adhesive, but is laminated by a centrifugal drum molding machine for curing molding. There was a problem in productivity because it took several hours from casting to obtain a molded product, for example, it was necessary to flatten by heat treatment.

  The present invention solves these problems, and can employ a manufacturing process that allows continuous production and ensures quality, and is more flexible, elastic, finer than thermosetting polyurethane and the like. The present invention provides a phosphorescent gel sheet having adhesiveness, excellent light characteristics such as transparency and light guide properties, and excellent phosphorescence performance.

  In order to achieve the above object, the phosphorescent silicone gel sheet according to claim 1 of the present invention is an addition reaction curing type silicone gel material containing organopolysiloxane as a main component. 0% by weight, a total of 100% by weight of raw material of addition reaction curing type silicone rubber material containing organopolysiloxane as a main component and 6.0 to 14.0% by weight; A compounding material blended with 400.0% by weight is applied onto a sheet-like substrate by a coating apparatus, and the compounding material coated on the substrate is heated at 100 to 250 ° C. for about 5 minutes to be cured. It is characterized by forming a phosphorescent layer.

  Further, the phosphorescent silicone gel sheet according to claim 2 of the present invention is such that the phosphorescent silicone gel sheet comprises 86.0-94.0% by weight of an addition reaction curing type silicone gel material mainly composed of organopolysiloxane, 100% by weight of raw material of addition reaction curing type silicone rubber material mainly composed of siloxane, which is 6.0-14.0% by weight, and luminous agent + white pigment 20.0-400.0% as external number Is applied to a sheet-like substrate by a coating device, and the compounded material applied on the substrate is heated at 100 to 250 ° C. for about 5 minutes to be cured, thereby storing the phosphor. A layer is formed.

  According to these configurations, not only the surface of the phosphorescent silicone gel sheet is rubberized to increase the surface strength, but the mechanical strength of the product can be increased while maintaining the elastic force specific to the gel. When performing punching or cutting, the phosphorescent silicone gel does not protrude from the cut surface. Moreover, since the compounding raw material which mix | blended the above-mentioned silicone gel, silicone rubber, and the catalyst with a hardening acceleration | stimulation has high viscosity, since a luminous agent with high specific gravity can be uniformly stirred and mixed, luminous agent is luminous phosphoric silicone. It can disperse | distribute uniformly to a gel layer (light storage layer), and can implement | achieve the light storage and light emission by a phosphorescent agent efficiently. Moreover, when a white pigment is mixed with the phosphorescent agent, phosphorescence and light emission by the phosphorescent agent can be realized more efficiently. In this case, the amount of the white pigment added is preferably in the range of 1 to 30% of the phosphorescent agent by weight.

  Further, the phosphorescent silicone gel sheet according to claim 3 of the present invention is a phosphorescent silicone gel sheet comprising 86.0-94.0% by weight of an addition reaction curing type silicone gel material mainly composed of organopolysiloxane, The compounding raw material which added the addition reaction hardening type silicone rubber material which has siloxane as a main component to 6.0 to 14.0 weight% and made a total of 100 weight% was apply | coated on the sheet-like base material with the coating apparatus. Then, on the silicone gel sheet obtained by heating and curing at 100 to 250 ° C. for about 5 minutes, 20.0 to 400.0% by weight of the phosphorescent agent is applied as the external number, and further, A phosphorescent layer is formed by heating and curing an addition reaction curing type transparent silicone material at 100 to 250 ° C. for about 5 minutes. Characterized in that to those were.

  Further, the phosphorescent silicone gel sheet according to claim 4 of the present invention is a phosphorescent silicone gel sheet comprising 86.0-94.0% by weight of an addition reaction curable type silicone gel material mainly composed of organopolysiloxane, The compounding raw material which added the addition reaction hardening type silicone rubber material which has siloxane as a main component to 6.0 to 14.0 weight% and made a total of 100 weight% was apply | coated on the sheet-like base material with the coating apparatus. Then, on the silicone gel sheet obtained by heating and curing at 100 to 250 ° C. for about 5 minutes, the phosphorescent agent + white pigment 20.0 to 400.0% by weight is applied as the external number, By applying an addition reaction curing type transparent silicone material on it and heating at 100 to 250 ° C. for about 5 minutes to cure. Characterized in that it is obtained by forming a light layer.

  According to these configurations, not only the surface of the phosphorescent silicone gel sheet is rubberized to increase the surface strength, but the mechanical strength of the product can be increased while maintaining the elastic force specific to the gel. When performing punching or cutting, the phosphorescent silicone gel does not protrude from the cut surface. Also, after applying a hardened 10 to 100 μm luminous agent dispersed in a silicone agent solution on a silicone gel sheet obtained by heating and curing a blended raw material containing the aforementioned silicone gel and silicone rubber, heat curing is performed. Since the phosphorescent silicone gel sheet is obtained, the phosphorescent agent can be uniformly dispersed on the phosphorescent silicone gel layer, biased in the direction of the layer and added, and phosphorescence and light emission by the phosphorescent agent can be efficiently realized. Moreover, since the phosphorescent agent particles do not enter the silicone gel layer, the phosphorescent performance of the phosphorescent silicone gel sheet can be enhanced. Moreover, when a white pigment is mixed with the phosphorescent agent, phosphorescence and light emission by the phosphorescent agent can be realized more efficiently. In this case, the amount of the white pigment added is preferably in the range of 1 to 30% of the phosphorescent agent by weight.

  Further, the phosphorescent silicone gel sheet according to claim 5 of the present invention is a phosphorescent silicone gel sheet comprising 86.0-94.0% by weight of an addition reaction curing type silicone gel material mainly composed of organopolysiloxane, The compounding raw material which added the addition reaction hardening type silicone rubber material which has siloxane as a main component to 6.0 to 14.0 weight% and made a total of 100 weight% was apply | coated on the sheet-like base material with the coating apparatus. By heating and curing a phosphorescent agent 20.0 to 400.0% by weight on the blended raw material applied on the substrate at 100 to 250 ° C. for about 5 minutes. A phosphorescent layer is formed.

  Further, the phosphorescent silicone gel sheet according to claim 6 of the present invention is a phosphorescent silicone gel sheet comprising 86.0-94.0% by weight of an addition reaction curing type silicone gel material mainly composed of organopolysiloxane, The compounding raw material which added the addition reaction hardening type silicone rubber material which has siloxane as a main component to 6.0 to 14.0 weight% and made a total of 100 weight% was apply | coated on the sheet-like base material with the coating apparatus. Then, a material obtained by applying 20.0 to 400.0% by weight of a phosphorescent agent and white pigment as an external number on the blended raw material applied on the substrate is heated at 100 to 250 ° C. for about 5 minutes to be cured. It is characterized by forming a phosphorescent layer.

  According to these configurations, not only the surface of the phosphorescent silicone gel sheet is rubberized to increase the surface strength, but the mechanical strength of the product can be increased while maintaining the elastic force specific to the gel. When performing punching or cutting, the phosphorescent silicone gel does not protrude from the cut surface. In addition, after applying a 10 to 100 μm thick phosphorescent agent dispersed in a silicone agent solution on a blended raw material containing the aforementioned silicone gel and silicone rubber, a thermoluminescent silicone gel sheet is obtained by heating and curing. It is possible to uniformly disperse the phosphorescent agent in the phosphorescent silicone gel layer and add the phosphorescent agent so as to be biased in the layer thickness direction, thereby efficiently realizing phosphorescence and light emission by the phosphorescent agent. In addition, since the phosphorescent agent does not pass through the coating apparatus, a phosphorescent agent having a larger diameter can be directly added to the phosphorescent silicone gel layer (phosphorescent layer), so that the phosphorescent performance of the phosphorescent silicone gel sheet can be enhanced. Moreover, when a white pigment is mixed with the phosphorescent agent, phosphorescence and light emission by the phosphorescent agent can be realized more efficiently. In this case, the amount of the white pigment added is preferably in the range of 1 to 30% of the phosphorescent agent by weight.

  The phosphorescent silicone gel sheet according to claim 7 of the present invention is the phosphorescent silicone gel sheet according to any one of claims 1 to 6, wherein the phosphorescent agent is strontium aluminate, barium aluminate, or alumina. It is composed of at least one compound of calcium acid type and further added with europium as an activator.

  The strontium aluminate, barium aluminate, and calcium aluminate phosphorescent materials of this configuration are harmless to humans because they are not self-luminous materials, have excellent phosphorescent performance, and have higher luminous performance and afterglow brightness. Yes. Moreover, since it is a baked material, it has excellent weather resistance and can be used outdoors, and has little secular change. Further, the phosphorescent color emitted from the phosphorescent agent can be green, blue, red, or a mixed color depending on the structure of the fired crystal.

  The phosphorescent silicone gel sheet according to claim 8 of the present invention is the phosphorescent silicone gel sheet according to any one of claims 2, 4 and 6, wherein the white pigment is selected from titanium oxide, zinc oxide, and calcium carbonate. It is characterized by being one or more kinds of compounds.

  By mixing the phosphorescent agent and the white pigment, the incident light to the phosphorescent layer is refracted and diffusely reflected by the white pigment particles, and the intensity of the incident light to the adjacent phosphorescent agent is added to improve the phosphorescent ability. In addition, even when the phosphorescent agent emits light, phosphorescence is incident on the adjacent white pigment particles, and the phosphorescence intensity can be increased by refraction and diffuse reflection.

  The phosphorescent silicone gel sheet according to claim 9 of the present invention is the phosphorescent silicone gel sheet according to any one of claims 1 to 8, wherein the substrate is a transparent substrate or a white substrate. It is characterized by being.

  The phosphorescent silicone gel sheet according to claim 10 of the present invention is the phosphorescent silicone gel sheet according to any one of claims 1 to 8, wherein the substrate is a metal foil or a metal vapor-deposited film exhibiting specular reflection. It is characterized by that. The phosphorescent silicone gel sheet according to claim 11 of the present invention is the phosphorescent silicone gel sheet according to claim 10, wherein the metal foil or metal deposited film is made of aluminum, silver, copper, titanium, zinc, nickel, gold, or the like. It is characterized by being one kind of metal selected from.

  Since the base material overlaps with the phosphorescent layer by these configurations, if the base material is transparent, it is possible to transmit light incident on the phosphorescent layer and light emission of the phosphorescent layer well. Moreover, if a base material is white, light emission of a phosphorescent layer will be reflected, light emission will be returned to the phosphorescent layer side, and it will put on, and a light emission capability will be improved. Moreover, when the light to be excited enters the phosphorescent layer, the incident light that has passed through the phosphorescent layer is reflected by the white base material and reflected to the phosphorescent layer side, so that the luminous intensity can be increased. In addition, if the substrate exhibits specular reflection, that is, a substrate made of a metal foil or a metal vapor deposited film, all of the light emission of the phosphorescent layer is efficiently reflected and returned to the phosphorescent layer side to be sufficiently added. To increase the luminous ability. In addition, when the light to be excited enters the phosphorescent layer, the incident light that has passed through the phosphorescent layer is efficiently reflected by the specular reflection base material and completely reflected to the phosphorescent layer side, thereby returning the luminous ability further. it can. Moreover, as a metal of metal foil or a metal vapor deposition film, one type of metal can be selected from aluminum, silver, copper, titanium, zinc, nickel, and gold.

  The phosphorescent silicone gel sheet according to claim 12 of the present invention is the phosphorescent silicone gel sheet according to any one of claims 1 to 11, wherein the phosphorescent silicone gel sheet is on the substrate side of the phosphorescent silicone gel sheet or the phosphorescent layer side of the phosphorescent silicone gel sheet. Alternatively, an adhesive layer is formed on both surfaces of the phosphorescent silicone gel sheet.

  With this configuration, even if the object that causes the phosphorescent silicone gel sheet to indicate the phosphorescence has a curved surface as well as a flat surface, it can be easily and reliably applied. Moreover, since the surface on which the luminous index is displayed can be selected from the phosphorescent silicone gel sheet layer side or the substrate side, it is easy to use by adapting to the usage environment.

  Moreover, the phosphorescent silicone gel sheet according to claim 13 of the present invention is the phosphorescent silicone gel sheet according to any one of claims 1 to 12, wherein the substrate is peeled off from the phosphorescent silicone gel sheet. And Moreover, the phosphorescent silicone gel sheet according to claim 14 of the present invention is characterized in that, in the phosphorescent silicone gel sheet according to claim 13, an adhesive layer is formed on one side or both sides of the phosphorescent silicone gel sheet.

  Examples of the material from which the phosphorescent silicone gel sheet can be easily peeled off include polyethylene terephthalate film (PET film) and polypropylene film which have been subjected to release treatment, and release treatment agents such as silicone and fluorine release agents. There is an agent. Thereby, the phosphorescent silicone gel sheet layer can be peeled from the substrate and formed as a single body. With this configuration, the phosphorescent silicone gel sheet layer alone has slight adhesiveness, so that it can be easily pasted on an object to be phosphorescently labeled, and if the adhesive layer is additionally formed, the pasting is more reliable. For example, it is possible to illuminate with afterglow at the time of a power failure or when the power is turned off by attaching only the phosphorescent layer inside the luminaire.

  In addition, a lighting device with a guide sign according to claim 15 of the present invention is a sticking of a graphic sign or a symbol or a character to the inner surface of the lighting panel using the phosphorescent silicone gel sheet according to claim 9. It is characterized by that.

  Since the base material is superposed on the luminous layer by this configuration, if the base material is transparent, the light energy of the illumination is efficiently incident on the luminous layer, and if the illumination is interrupted, A light-transmitting transparent or semi-transparent lighting panel can be transmitted well to mark a graphic or symbol or character formed by a phosphorescent layer.

  In addition, a lighting device with a guide sign according to claim 16 of the present invention is an outer surface of a lighting panel that uses a phosphorescent silicone gel sheet according to claim 10 or claim 11 to indicate a figure or a symbol or a character. It is characterized by being pasted on. In addition, a guide sign device according to claim 17 of the present invention is a sticking of a graphic sign or a symbol or character on the outer surface of a sign panel using the phosphorescent silicone gel sheet according to claim 10 or claim 11. It is characterized by having attached.

  With these configurations, a mirror-reflecting base material and a phosphorescent layer are laminated on the outer surface of the panel, so that illumination light and external light enter the phosphorescent layer and then mirror-reflect the base material. Since it is reflected and re-enters the luminous layer to increase the amount of accumulated light, the luminous ability of the luminous layer is enhanced. In addition, when the illumination is interrupted, mirror reflection by the base material on the back surface is added to the light emission of the phosphorescent layer, so that it is possible to brightly sign a graphic or symbol or character formed with the phosphorescent layer over a long period of time.

  According to the phosphorescent silicone gel sheet according to any one of claims 1 to 14 of the present invention, the mechanical strength of the product is increased while maintaining the elastic force peculiar to the gel, and it is applied to advertisements and signboard signs accompanied with figures and character signs. Easy to use, excellent in weather resistance, and durable. In addition, even if the phosphorescent silicone gel sheet is stamped or cut according to the figure or character marking, the phosphorescent silicone gel does not protrude from the cut surface, so the figure or letter should be clearly marked even in the dark when the lighting etc. is cut off. Can do. In addition, the strontium aluminate-based phosphorescent agents used are safe for human livestock, have excellent phosphorescent performance, and have higher luminous performance and afterglow brightness. Since it is uniformly distributed in the layers and can be unevenly distributed in the layer thickness direction, it is possible to efficiently realize light storage and light emission by the light storage agent. Further, when a white pigment is mixed in the phosphorescent agent, phosphorescence and light emission can be realized more efficiently by refraction and diffuse reflection of the white pigment. If a white base material or a base material exhibiting specular reflection is employed, the luminous ability and luminous ability of the luminous layer can be further enhanced. Further, if the phosphorescent silicone gel sheet layer is used as a single substance, it has a slight adhesiveness, so that it can be easily affixed to an object to be phosphorescently labeled, and if an adhesive layer is additionally formed, the affixing will be more reliable. In addition, according to the lighting device with guide sign and the guide sign device according to claims 15 to 17, by applying the phosphorescent silicone gel sheet of the present invention, a sign of a figure or a symbol or character having excellent phosphorescent ability and luminous ability Signs can be provided, contributing to evacuation guidance and disaster prevention.

It is an example of the luminous silicone gel sheet which concerns on the form for implementing this invention, Comprising: (a) is a luminous silicone gel sheet which has a luminous layer with a transparent base material, (b) is a base material side of (a). (C) is a schematic cross-sectional view of an adhesive layer having an adhesive layer on the phosphorescent layer side of (a). It is an example of the luminous silicone gel sheet which concerns on the form for implementing this invention, Comprising: (a) is the luminous silicone gel sheet which has the luminous layer which mixed the white pigment with a transparent base material, (b) is (a). (C) is typical sectional drawing of what has an adhesion layer in the luminous layer side of (a). It is an example of the luminous silicone gel sheet which concerns on the form for implementing this invention, Comprising: (a) is a luminous silicone gel sheet which has a luminous layer with a white base material, (b) is a base material side of (a). (C) is a schematic cross-sectional view of an adhesive layer having an adhesive layer on the phosphorescent layer side of (a). It is an example of the luminous silicone gel sheet which concerns on the form for implementing this invention, Comprising: (a) is a luminous silicone gel sheet which has the luminous layer which mixed the white pigment which has a white base material, (b) is (a). (C) is typical sectional drawing of what has an adhesion layer in the luminous layer side of (a). It is an example of the luminous silicone gel sheet which concerns on the form for implementing this invention, Comprising: (a) is the luminous silicone gel sheet which has a luminous layer with the base material which exhibits a specular reflection, (b) is the basis of (a) (C) is typical sectional drawing of what has an adhesion layer in the luminous layer side of (a), what has an adhesion layer in the material side. An example of a phosphorescent silicone gel sheet according to an embodiment for carrying out the present invention, wherein (a) is a phosphorescent silicone gel sheet having a phosphorescent layer mixed with a white pigment having a substrate exhibiting specular reflection, and (b) is (A) What has an adhesion layer in the base material side, (c) is typical sectional drawing of what has an adhesion layer in the luminous layer side of (a). It is an example of the luminous silicone gel sheet which concerns on the form for implementing this invention, Comprising: (a) is the luminous silicone gel sheet which consists only of a luminous layer, (b) has an adhesion layer in the luminous layer side of (a). It is typical sectional drawing of a thing. It is an example of the luminous silicone gel sheet which concerns on the form for implementing this invention, Comprising: (a) is the luminous silicone gel sheet which consists only of the luminous layer which mixed the white pigment, (b) is the luminous layer side of (a) It is typical sectional drawing of what has an adhesion layer. It is explanatory drawing which shows roughly the manufacturing process of the luminous silicone gel sheet which is one Example of this invention. BRIEF DESCRIPTION OF THE DRAWINGS It is an application example of the luminous silicone gel sheet which concerns on the form for implementing this invention, Comprising: (a) Schematic arrangement | positioning drawing of the illumination in a underground passage, a label | marker, (b) (C) is typical sectional drawing of another lighting fixture with a guide sign of (a), (d) is typical sectional drawing of the guide sign of (a).

  The phosphorescent silicone gel sheets 1 and 16 according to the embodiment of the present invention include the base materials 2 and 14 and the phosphorescent layer 3 as main parts. The phosphorescent silicone gel sheet 16 will be described using the manufacturing process of FIG. The raw material of the phosphorescent layer 3 of the phosphorescent silicone gel sheet 16 is 86.0-94.0% by weight of an addition reaction curing type silicone gel material mainly composed of organopolysiloxane, and an addition reaction mainly composed of organopolysiloxane. A raw material of a total of 100% by weight of 6.0 to 14.0% by weight of a curing type silicone rubber material and 20.0 to 400.0% by weight of a phosphorescent agent as an external number are blended to obtain a blended raw material, The compounding raw material 11 is obtained by adding a catalyst having a curing accelerating action to this as necessary.

  As a phosphorescent agent, mainly alumina, oxides of manganese and magnesium, and further added strontium compound, barium compound or calcium compound, and a raw material with europium added as an activator, strontium aluminate series Alternatively, a barium aluminate-based or calcium aluminate-based compound is obtained, and then the calcined compound is pulverized and adjusted by sieving to create a phosphorescent agent having an average particle size in the range of 10 to 100 μm for each predetermined particle size. As for the particle size at which the performance of the phosphorescent agent can be exhibited, 20 to 100 μm is good in luminous performance represented by luminous performance and afterglow luminance. Moreover, since the fine particle part of 7 micrometers or less forms a pseudo-particle when it adds to a silicone gel raw material, the performance as a luminous agent becomes difficult to fully exhibit. The specific gravity of the phosphorescent agent is about 3.6 to 4.1.

  As the base material 14, a flexible thin-walled material such as a polyethylene terephthalate film, a polypropylene film, paper, or cloth is used, and a material wound around a roll 13 is usually used. The other base material 14 includes a white base material having a white color obtained by adding a white pigment to the above-described material.

  Moreover, as the base material 14 exhibiting specular reflection, a sheet of one kind of metal foil (thickness 10 to 200 μm) selected from aluminum, silver, copper, titanium, zinc, nickel, and gold can be used. The metal foil is excellent in bending resistance, exhibits specular reflection having high luster and high reflectivity, and is excellent in water vapor and gas barrier properties, and hardly deteriorates the quality of the substrate. Moreover, it is suitable that the phosphorescent silicone gel sheet is formed on the glossy surface side of the base material 14 in order to exhibit a mirror effect and maintain the phosphorescence and light emission effects. In addition, as a base material 14 exhibiting specular reflection, a single metal selected from aluminum, silver, copper, titanium, zinc, nickel, and gold is vacuumed on one side of a film such as a polyethylene terephthalate film, a polypropylene film, or a polyethylene film. There is a metal vapor deposition film (thickness 10-200 μm) formed by vapor deposition, and the vapor deposition film is thin, excellent in bending resistance, exhibiting specular reflection having high brightness and high reflectivity. Excellent barrier properties and almost no quality degradation of the film substrate. Further, the vapor deposition film does not form a complete film surface but can be formed so as to partially transmit light. In addition, it is preferable that the phosphorescent silicone gel sheet is formed on the vapor deposition film side of the substrate 14 in that the mirror effect is sustained.

  Although the thickness of the base material 14 can be 10-200 micrometers, it is 50-100 micrometers normally. A primer can also be applied to the substrate 14 by the coating apparatus 12. As the primer, a silicone-based adhesive is used. The aforementioned blended raw material 11 in which a silicone gel material, a silicone rubber material, a phosphorescent agent, and a catalyst are blended on the base material 14 is continuously applied by the coating apparatus 12. The thickness of the product 19 is practically 30 to 500 μm. As the coating apparatus 12, a comma coater, a reverse coater, a doctor knife coater, an air knife coater, a bar coater, a die coater, or the like is used.

  After apply | coating the mixing | blending raw material 11 on the base material 14 with the coating apparatus 12, it is made to heat and harden | cure at 100-250 degreeC for about 5 minutes with the drying furnace 15, and the luminous silicone gel sheet 16 is formed. The range of the heating temperature is more preferably 120 to 200 ° C. The phosphorescent silicone gel sheet 16 is protected by attaching the protective film 17 to the surface of the phosphorescent silicone gel sheet 16 thus formed on the silicone material side, and the handling thereof is simplified. The material of the protective film 17 is a flexible thin sheet-like material such as a polyethylene terephthalate film, a polypropylene film, paper, cloth, etc., like the material of the substrate 14.

  The phosphorescent silicone gel sheet 16 which is another embodiment of this invention is demonstrated. The raw material of the phosphorescent layer 3 of the phosphorescent silicone gel sheet 16 is 86.0-94.0% by weight of an addition reaction curing type silicone gel material mainly composed of organopolysiloxane, and an addition reaction mainly composed of organopolysiloxane. A curing type silicone rubber material is blended with 6.0 to 14.0% by weight to make a total of 100% by weight, and if necessary, a catalyst having a curing accelerating action is added to form a blending raw material 11. is there. On the silicone gel sheet obtained by applying this compounding raw material 11 on the sheet-like base material 14 by the coating device 12 and heating and curing at 100 to 250 ° C. for about 5 minutes, As a number, a phosphorescent agent 20.0 to 400.0% by weight was applied, and an addition reaction curing type transparent silicone material was further applied thereon at 100 to 250 ° C. for about 5 minutes in a drying furnace 15. The phosphorescent silicone gel sheet 16 is formed by heating and curing. The phosphorescent silicone gel sheet 16 thus formed can be placed on the phosphorescent layer 3 by biasing the phosphorescent agent in the layer thickness direction since the phosphorescent layer 3 can be applied and disposed on a layer near the surface with the silicone gel layer as a base. . Therefore, since a coarse-grained luminous agent can be arrange | positioned near the surface, the luminous performance and luminous performance of the luminous silicone gel sheet 16 can be improved.

  Moreover, the phosphorescent silicone gel sheet 16 which is another embodiment which concerns on this invention is demonstrated. The raw material of the phosphorescent layer 3 of the phosphorescent silicone gel sheet 16 is 86.0-94.0% by weight of an addition reaction curing type silicone gel material mainly composed of organopolysiloxane, and an addition reaction mainly composed of organopolysiloxane. A curing type silicone rubber material is blended with 6.0 to 14.0% by weight to make a total of 100% by weight, and if necessary, a catalyst having a curing accelerating action is added to form a blending raw material 11. is there. This compounding raw material 11 is applied onto the sheet-like base material 14 by the coating device 12, and the phosphorescent agent 20.0 to 2 as an external number of the compounding raw material 100% by weight on the compounding raw material 11 applied on the base material 14. A phosphorescent silicone gel sheet 16 is formed by applying a dispersion of 400.0% by weight in a silicone agent solution and curing it by heating at 100 to 250 ° C. for about 5 minutes in a drying oven 15. The phosphorescent silicone gel sheet 16 thus formed can be placed on the phosphorescent layer 3 by biasing the phosphorescent agent in the layer thickness direction since the phosphorescent layer 3 can be applied and disposed on a layer near the surface with the silicone gel layer as a base. . Therefore, since a coarse-grained luminous agent can be arrange | positioned near the surface, the luminous performance and luminous performance of the luminous silicone gel sheet 16 can be improved.

  Moreover, what mixed the phosphorescent agent and the 1 type or multiple types of white pigment chosen from the titanium oxide, the zinc oxide, and the calcium carbonate can be added to the luminous layer 3 as a luminous agent. The phosphorescent layer 3-b in which the phosphorescent agent and the white pigment are mixed has the intensity of the incident light on the adjacent phosphorescent agent added by the white pigment particles being refracted and diffusely reflected by the incident light to the phosphorescent layer. improves. In addition, even when the phosphorescent agent emits light, phosphorescence is incident on the adjacent white pigment particles, and the phosphorescence intensity can be increased by refraction and diffuse reflection. In this case, the amount of white pigment added is preferably in the range of 1 to 30% of the phosphorescent agent by weight.

  As described above, in this embodiment, an addition reaction curable type silicone gel material mainly composed of organopolysiloxane, an addition reaction curable type silicone rubber material mainly composed of organopolysiloxane, and a phosphorescent property. Lubricating phosphorescent agent or phosphorescent agent + white pigment, and catalyst are blended at a predetermined ratio, applied to the sheet-like base material 14 by the coating apparatus 12, and heated, easily and in a short time. The thin-walled phosphorescent silicone gel sheet 16 that increases the mechanical strength of the entire sheet and retains the elastic force peculiar to the gel can be formed at low cost.

  In another embodiment, an addition reaction curing type silicone gel material containing organopolysiloxane as a main component, an addition reaction curing type silicone rubber material containing organopolysiloxane as a main component, and a catalyst at a predetermined ratio. A phosphorescent agent having phosphorescence and luminescence on a silicone gel sheet obtained by blending and coating on a sheet-like base material 14 by a coating device 12 and heating and curing at 100 to 250 ° C. for about 5 minutes. Alternatively, by applying a phosphorescent agent + white pigment and then heating an addition reaction curing type transparent silicone material, the mechanical properties of the entire sheet can be easily and quickly. A thin-walled phosphorescent silicone gel sheet 16 that increases the strength and retains the elasticity inherent to the gel, and that can further exhibit phosphorescence and luminescence. It can be formed on.

  In another embodiment, addition reaction curing type silicone gel material mainly composed of organopolysiloxane, addition reaction curing type silicone rubber material mainly composed of organopolysiloxane, and catalyst. Is applied to the sheet-like base material 14 by the coating apparatus 12, and further, a phosphorescent agent having phosphorescent properties and luminous properties or a phosphorescent agent + white pigment mixed with a silicone agent solution is applied thereon. After that, by heating, the thin-walled phosphorescent silicone gel sheet can easily and quickly increase the mechanical strength of the entire sheet and retain the gel-specific elastic force, and further exhibit phosphorescent and luminous properties. 16 can be formed at low cost.

  In the embodiment described above, the blended raw material containing the phosphorescent agent or the phosphorescent silicone gel sheet 16 is formed by adhering the phosphorescent agent and the blended raw material to the base material 14, but not limited thereto, the phosphorescent silicone gel layer is not limited to this. It is also possible to peel off from the material 14 to be a single body. This is because, for example, when it is desired to follow the shape from both the front and back surfaces of the use site, for example, when it is attached to the inside of the lighting fixture and the afterglow is used, the phosphorescence is stored as shown in FIGS. The silicone gel layer 3 can be used alone. In this case, as the base material 2, the phosphorescent silicone gel sheet 1 is formed using a base material such as a polyethylene terephthalate film or a polypropylene film that has been subjected to a release treatment in advance, a fluororesin film, a paper that has been subjected to fluorine processing, or the like.

  FIG. 9 schematically shows a process of forming a phosphorescent silicone gel sheet 16 adhered on a substrate 14 such as a polyethylene terephthalate film (PET film), a metal foil sheet such as aluminum, and a metal deposition sheet such as aluminum. It is. As a raw material of the phosphorescent silicone gel sheet 16, 86.0-94.0% by weight of an addition reaction curing type silicone gel material mainly composed of organopolysiloxane and an addition reaction curing type mainly composed of organopolysiloxane are used. Mixing raw material 11 with a total of 100% by weight of silicone rubber material, 6.0 to 14.0% by weight, 20.0 to 400.0% by weight of phosphorescent agent as external number, and catalyst is prepared. To do. In addition, a white pigment can be mixed with the phosphorescent agent in advance before the preparation of the blended raw material 11.

  This blended raw material 11 is supplied to the coating apparatus 12. A polyethylene terephthalate film (PET film) thickness 50 to 100 μm, which is a base material 14 wound continuously around a roll 13, or a metal foil sheet such as aluminum, or a metal vapor deposition sheet thickness 10 to 200 μm such as aluminum It is supplied to the coating apparatus 12 and the blended raw material 11 is applied to the surface of the film 14 so that the total thickness is 250 to 500 μm. The film on which the compounding raw material 11 is applied is cured by passing it through a drying furnace 15 at 150 ° C. for 5 minutes. Thereby, one side is integrated with polyethylene terephthalate film or aluminum foil sheet, aluminum vapor deposition sheet, and the other side has a cushion characteristic peculiar to gel while maintaining surface strength, and a phosphorescent silicone gel sheet with luminous and luminous properties. 16 is obtained. Moreover, the adhesive layer film 18 can be bonded to the base material side of the phosphorescent silicone gel sheet 16 or the silicone gel side which is the phosphorescent layer, or the protective film 17 can be continuously wound around the roll 20.

  Moreover, the compounding raw material 11 which is not mixed with the phosphorescent agent is applied on the base material 14 with the coating device 12 and passed through the drying furnace 15 at 150 ° C. for 5 minutes to cure the phosphorescent agent or phosphorescent material on the cured silicone gel layer. The phosphorescent silicone gel sheet 16 can also be formed by applying an addition agent + white raw material and further applying an addition reaction curing type silicone agent thereon with a drying furnace 15. Alternatively, the compounding raw material 11 not mixed with the phosphorescent agent is applied on the base material 14 by the coating device 12, and then the phosphorescent agent or the phosphorescent agent + white raw material is applied on the layer of the compounding raw material 11 applied thereafter. The phosphorescent silicone gel sheet 16 can also be formed by curing a material dispersed in a silicone solvent in a layer form and curing it in a drying furnace 15. In the case of these processes, since the coarse-grained luminous agent is distributed near the surface of the luminous layer, the luminous performance and luminous performance of the luminous silicone gel sheet 16 can be improved.

  Since the phosphorescent silicone gel sheets 1 and 16 according to the present invention are excellent in phosphorescent performance and light emitting performance, they store light energy in the ultraviolet region such as sunlight and light of fluorescent lamps, and emit phosphorescence in the dark for a long time. Can do. This phosphor can be used for evacuation guidance signs, advertisements, signs of characters and figures. It can also be used as a backlight on the back side of a transparent printed matter. Further, the present invention can be applied to a lighting apparatus that uses afterglow due to phosphorescence. In these cases, the phosphorescent silicone gel sheet 1 is cut and used in the form of letters and figures. However, even if the phosphorescent silicone gel sheet 1 according to the present invention is punched or cut, the silicone gel protrudes from the cut surface. There is no.

  The aspect which uses the luminous silicone gel sheet 1 which concerns on this invention for a label | marker etc. is as follows with reference to FIGS. In the case where the phosphorescent labeling is performed by pasting on an outer wall or the like, the phosphorescent silicone gel sheet of the phosphorescent layer 3-a (including a white pigment added 3-b) having the adhesive layer 4 with the transparent substrate 2-a as the outer surface. No. 1 has a good light transmission and is easy to be applied (FIGS. 1c and 2c). Moreover, since this phosphorescent silicone gel sheet 1 has sufficient weather resistance, it takes an aspect that is not easily damaged in use.

  The use of the phosphorescent layers 3-a and 3-b with the adhesive layer 4 applied is applied when the phosphorescent silicone gel sheet 1 is sandwiched between transparent materials such as glass at least one side. It is easy to do and is suitable (FIGS. 7b and 8b).

  In addition, the phosphorescent silicone gel sheet 1 in the case where the phosphorescent afterglow is used by being affixed inside a lighting fixture is affixed by affixing the phosphorescent layers 3-a and 3-b with the adhesive layer 4 attached to the light transmitting surface. The back surface on the side is preferably a transparent substrate 2-a (FIGS. 1c and 2c). In this case, it is preferable to add a white pigment to the phosphorescent layer 3-b and apply the white base material 2-b or the specular reflection base material 2-c to the base material because phosphorescence can be emitted strongly (FIG. 4c, FIG. 6c).

  An application example of the phosphorescent silicone gel sheets 1 and 16 of the present invention will be described with respect to an illumination 31 with a guidance sign and a guidance sign 32 in an artificial illumination passage such as an underground passage. In FIG. 10A, a guide sign-attached illumination 31 is arranged on the ceiling of the underground passage R, and a guide sign 32 is arranged on the side wall. In FIG.10 (b), as an example of the illumination 31 with a guidance sign, the luminous storage which has the transparent base material 2-a, the luminous layer 3, and the adhesion layer 4 inside the lighting fixture 30 (usually comprised with an acrylic board). This shows a silicone gel sheet 1 (FIG. 1c or FIG. 2c) affixed. During illumination, the illumination from the light source L accumulates energy in the phosphorescent layer 3 via the transparent substrate 2-a, and the illumination disappears. For example, the phosphorescent layer 3 emits light through the acrylic plate of the luminaire 30 and can be brightly displayed for a long period of time so that the figure and characters displayed on the phosphorescent silicone gel sheet 1 can be easily seen. Moreover, since the phosphorescent silicone gel sheet 1 is installed in the instrument 30, there is no fear of breakage or contamination, and there is little deterioration in the functions of phosphorescence and light emission. Further, as the phosphorescent silicone gel sheet 1, the phosphorescent silicone gel sheet 1 shown in FIGS. 7b and 8b, to which a protective film 5 is applied instead of the substrate 2-a, can also be applied.

  Moreover, in FIG.10 (c), as another example of the illumination 31 with a guidance label | marker, the adhesion layer 4, the specular reflection base material 2-c, and phosphorescence are provided on the outer side of the lighting fixture 30 (usually comprised with an acrylic board). The layer 3 and the phosphorescent silicone gel sheet 1 (FIG. 5b or FIG. 6b) having a protective film 5 as necessary are pasted. During illumination, illumination energy from outside light enters the phosphorescent layer 3 and the phosphorescent layer. The light that has passed through can be reflected by the specular reflection base material 2-c and energy can be accumulated in the phosphorescent layer 3 again. Further, if there is no illumination, the luminous layer 3 emits light strongly in the surface direction while being reflected by the specular reflective substrate 2-c, so it is bright so that it is easy to visually recognize the figures and characters indicated by the phosphorescent silicone gel sheet 1, Can be marked for a long time. Moreover, as the specular reflection base material 2-c, a metal foil or a metal vapor deposition film in which one kind of metal is selected from aluminum, silver, copper, titanium, zinc, nickel, and gold can be used. Further, when a metal vapor deposition film such as aluminum is used for the specular reflection base material 2-c, a part of the illumination from the light source L can be taken into the luminous layer 3.

  In addition, in FIG. 10D, as an example of the guide sign 32, the adhesive layer 4 and the specular reflection substrate 2-c are provided outside the guide sign 32 (usually composed of an acrylic plate) without the light source L. A phosphorescent silicone gel sheet 1 (FIG. 5b or FIG. 6b) having a phosphorescent layer 3 and a protective film 5 as required is shown. During illumination, illumination energy from surrounding ambient light enters the phosphorescent layer 3. The light that has passed through the phosphorescent layer 3 is reflected by the specular reflective substrate 2-c and accumulates energy in the phosphorescent layer 3, and when there is no illumination as in the case of a power failure, the luminous layer 3 emits light by the specular reflective substrate 2. Since light is emitted strongly in the surface direction with reflection at -c, the phosphorescent silicone gel sheet 1 can be brightly displayed for a long time so that the figure and characters indicated by the phosphorescent silicone gel sheet 1 can be easily seen. Moreover, as the specular reflection base material 2-c, a metal foil or a metal vapor deposition film in which one kind of metal is selected from aluminum, silver, copper, titanium, zinc, nickel, and gold can be used.

  When the phosphorescent silicone gel sheet is used, the phosphorescent silicone gel sheet can be used for the phosphorescent indication and the illumination field accompanied by energy saving.

1: phosphorescent silicone gel sheet 2: base material 2-a: transparent base material 2-b: white base material 2-c: base material exhibiting specular reflection 3: phosphorescent layer 3-a: transparent phosphorescent layer 3-b: white phosphorescent layer
4: Adhesive layer 5: Protective film 6: Adhesive separator
11: Compounding raw material 12: Coating device 13: Roll 14: Base material 15: Drying furnace 16: Luminescent silicone gel sheet 17: Protective film 18: Adhesive film
19: Luminescent silicone gel sheet with film 20: Roll 30: Lighting fixture 31: Illumination with guide sign 32: Guide sign L: Light source R: Underground passage

Claims (17)

  The phosphorescent silicone gel sheet comprises 86.0-94.0% by weight of an addition reaction curable type silicone gel material mainly composed of organopolysiloxane and an addition reaction curable type silicone rubber material mainly composed of organopolysiloxane. A compounding raw material in which a total of 100% by weight of raw materials of 6.0 to 14.0% by weight and a phosphorescent agent of 20.0 to 400.0% by weight are blended on a sheet-like base material by a coating apparatus. A phosphorescent silicone gel sheet, wherein a phosphorescent layer is formed by applying and curing the blended raw material applied on the substrate at 100 to 250 ° C. for about 5 minutes.   The phosphorescent silicone gel sheet comprises 86.0-94.0% by weight of an addition reaction curable type silicone gel material mainly composed of organopolysiloxane and an addition reaction curable type silicone rubber material mainly composed of organopolysiloxane. A blended raw material containing 100% by weight of a total of 6.0 to 14.0% by weight and a phosphorescent agent + white pigment of 20.0 to 400.0% by weight as an external number is formed into a sheet-like base by a coating apparatus. A phosphorescent silicone gel sheet characterized in that a phosphorescent layer is formed by coating on a material and heating and curing the blended raw material coated on the substrate at 100 to 250 ° C. for about 5 minutes. .   The phosphorescent silicone gel sheet comprises 86.0-94.0% by weight of an addition reaction curable type silicone gel material mainly composed of organopolysiloxane and an addition reaction curable type silicone rubber material mainly composed of organopolysiloxane. The compounding raw material which mix | blended 6.0-14.0 weight% and was made into 100 weight% in total is apply | coated on a sheet-like base material with a coating apparatus, and it heats and cures at 100-250 degreeC for about 5 minutes. 20.0 to 400.0% by weight of a phosphorescent agent is applied as an external number on the silicone gel sheet obtained by applying the additive, and an addition reaction curing type transparent silicone material is further applied thereon. A phosphorescent silicone gel sheet comprising a phosphorescent layer formed by heating and curing at 100 to 250 ° C. for about 5 minutes.   The phosphorescent silicone gel sheet comprises 86.0-94.0% by weight of an addition reaction curable type silicone gel material mainly composed of organopolysiloxane and an addition reaction curable type silicone rubber material mainly composed of organopolysiloxane. The compounding raw material which mix | blended 6.0-14.0 weight% and was made into 100 weight% in total is apply | coated on a sheet-like base material with a coating apparatus, and it heats and cures at 100-250 degreeC for about 5 minutes. On the silicone gel sheet obtained by the above, a phosphorescent agent + white pigment 20.0 to 400.0% by weight is applied as an external number, and an addition reaction curing type transparent silicone material is further formed thereon. A phosphorescent silicone characterized in that a phosphorescent layer is formed by heating and curing the coated material at 100 to 250 ° C. for about 5 minutes. Sheets.   The phosphorescent silicone gel sheet comprises 86.0-94.0% by weight of an addition reaction curable type silicone gel material mainly composed of organopolysiloxane and an addition reaction curable type silicone rubber material mainly composed of organopolysiloxane. 6.0 to 14.0% by weight, and a total of 100% by weight of the blended raw material was applied onto a sheet-like base material by a coating apparatus, and the mixed raw material applied on the base material A phosphorescent silicone, wherein a phosphorescent layer is formed by heating and curing a phosphorescent agent 20.0 to 400.0% by weight at 100 to 250 ° C. for about 5 minutes. Gel sheet.   The phosphorescent silicone gel sheet comprises 86.0-94.0% by weight of an addition reaction curable type silicone gel material mainly composed of organopolysiloxane and an addition reaction curable type silicone rubber material mainly composed of organopolysiloxane. 6.0 to 14.0% by weight, and a total of 100% by weight of the blended raw material was applied onto a sheet-like base material by a coating apparatus, and the mixed raw material applied on the base material It is characterized in that a phosphorescent layer is formed by heating and curing a phosphorescent agent + white pigment 20.0 to 4000.0% by weight at 100 to 250 ° C. for about 5 minutes. Luminescent silicone gel sheet.   The phosphorescent agent comprises at least one compound of strontium aluminate, barium aluminate, and calcium aluminate, and further contains europium as an activator. The phosphorescent silicone gel sheet according to any one of the above.   The phosphorescent silicone gel sheet according to any one of claims 2, 4, and 6, wherein the white pigment is one kind or a plurality of kinds of compounds selected from titanium oxide, zinc oxide, and calcium carbonate.   The phosphorescent silicone gel sheet according to any one of claims 1 to 8, wherein the base material is a transparent base material or a white base material.   The phosphorescent silicone gel sheet according to any one of claims 1 to 8, wherein the substrate is a metal foil or a metal vapor-deposited film exhibiting specular reflection.   11. The phosphorescent silicone gel sheet according to claim 10, wherein the metal of the metal foil or the metal vapor-deposited film is one kind of metal selected from aluminum, silver, copper, titanium, zinc, nickel, and gold.   The phosphorescent silicone according to any one of claims 1 to 11, wherein an adhesive layer is attached and formed on the substrate side of the phosphorescent silicone gel sheet, the phosphorescent layer side of the phosphorescent silicone gel sheet, or on both sides of the phosphorescent silicone gel sheet. Gel sheet.   The phosphorescent silicone gel sheet according to claim 1, wherein the substrate is peeled off from the phosphorescent silicone gel sheet.   The phosphorescent silicone gel sheet according to claim 13, wherein an adhesive layer is formed on one side or both sides of the phosphorescent silicone gel sheet.   A lighting device with a guide sign, wherein a sign of a figure or a symbol or a character is marked on the inner surface of the lighting panel using the phosphorescent silicone gel sheet according to claim 9.   12. A lighting apparatus with a guide sign, wherein the phosphorescent silicone gel sheet according to claim 10 or 11 is used to affix a graphic label or a symbol or a letter on the outer surface of the lighting panel.   12. A guide sign device comprising a phosphorescent silicone gel sheet according to claim 10 or 11, wherein a graphic sign or a symbol or character is attached to the outer surface of the sign panel.

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