JP2015206970A - Braille label and manufacturing method of the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a braille label that has a simple configuration and is a soft adhesive body, but hardly peels, and allows a user to easily read braille and easily feel the texture such as the softness of the adhesive body, and provide a manufacturing method of the braille label.SOLUTION: The braille label includes: a film 1 made of a synthetic resin; an adhesive layer 3 formed on the rear surface of the film 1; release paper 2 temporarily bonded to the film via the adhesive layer 3; and a projection 9 formed on the film 1 side by pressing the film 1 and release paper 2 integrated via the adhesive layer 3 under a heating condition by a heating mold 6. The projection 9 is processed so that the inside is hollow and the shape is thin and high.

Description

  The present invention relates to a braille label and a method for manufacturing the same. More specifically, the present invention relates to a Braille label and a method of manufacturing the Braille label that are difficult to peel off, easily read Braille, and easily grasp the texture of a dressing body by making the projections to be braille hollow and processing them into a thin and high shape.

  As a conventional Braille label, there is a Braille label shown in FIG. In this conventional example, in a braille label 101 in which a label base material 110 made of paper is subjected to Braille processing for a visually impaired person, the label base material 110 is made of a synthetic resin on the side where the convex pin P for braille processing is pressed. The reinforcing resin film 111 is bonded, and the recesses subjected to Braille processing are filled with a thermoplastic resin or an ultraviolet curable resin and solidified.

  In the conventional Braille label 101, as shown in FIG. 9, a reinforcing resin film 111 made of a synthetic resin is bonded to the side of the label base 110 that presses a convex pin P for Braille processing such as a Braille printer. Alternatively, in addition to the reinforcing resin film 111, the filling resin 112 is filled into the recess subjected to Braille processing and solidified, so that the label substrate 110 is not easily damaged during the Braille processing and is durable. It is excellent in that it does not easily dent over time.

  However, the resin film 111 and the filling resin 112 as in Patent Document 1 can give strength to the braille label 101, but need strength and durability of a product package or the like that is immediately discarded in use. This is unsuitable for products that do not, and there is a problem that the production cost increases and the manufacturing process increases and becomes complicated.

  In addition, the recess filled with the filling resin 112 is like a hard plate in a portion where the number of characters is large and the projections are dense, so that it cannot follow the shape change when pressing a soft garnish, In addition to causing peeling, the visually impaired person can read the braille with his fingertips, and there is a problem that it is difficult to feel the texture such as the softness of the dressing body in the place where the projections are dense and hard and plate-like .

  Furthermore, in the method of using a convex pin P such as a Braille printer and pressing the convex pin P from the back side of the label base material 110 to perform Braille processing, force is applied only from the back side of the label base material 110 at the time of engraving. Therefore, there are problems that the peripheral portion including the protrusion is lifted and peeled, and that the film and the release paper are damaged due to the impact at the time of stamping.

Utility Model Registration No. 3183596

  In view of the above circumstances, the present invention has an object to provide a braille label that is easy to manufacture at low cost, is difficult to peel off, can easily read braille, and can easily grasp the texture of a dressing body, and a method for manufacturing the same. To do.

  The Braille label of the first invention includes a film made of a synthetic resin, an adhesive layer formed on the back surface of the film, a release paper temporarily attached to the film via the adhesive layer, and the adhesive layer. The film and the release paper integrated with each other are provided with a protrusion formed on the film side by being pressed under heating by a heating mold composed of a male mold and a female mold, It is characterized by a shape that is narrower and higher than the standard Braille size so as to form Braille by combining one or more, and to deform following the deformation of the adherend.

  The Braille label according to the second aspect of the present invention is the invention according to claim 1, wherein when the protrusion is attached to a soft adherend that sinks due to the pressure of the fingertip, the depression of the adherend according to the pressure of the fingertip. Along the shape, the inside is hollow so that it sinks including the peripheral part, and it is processed into a thin and high shape so that Braille can be read by the sense of touch of the fingertip even in the sinked state.

  The Braille label of the third invention is the invention according to claim 1 or 2, wherein the protrusion has a diameter of 1.35 to 1.55 mmφ and a height of 0.55 to 0.85 mm. It is characterized by.

  The Braille label of the fourth invention is a film made of synthetic resin, an adhesive layer formed on the back surface of the film, a release paper temporarily attached to the film via the adhesive layer, and the film is male. And a protrusion formed by being pressed under heating by a heating mold composed of a mold and a female mold, and the protrusion forms a braille by combining one or more, and follows the deformation of the adherend Thus, the shape is narrower and higher than the standard braille size.

  According to a fifth aspect of the present invention, there is provided the Braille label according to the fourth aspect of the present invention, wherein the protrusion is a dent of the adherend according to the pressure of the fingertip when the protrusion is attached to a soft adherend that sinks by the pressure of the fingertip. Along the shape, the inside is hollow so that it sinks including the peripheral part, and it is processed into a thin and high shape so that Braille can be read by the sense of touch of the fingertip even in the sinked state.

  The Braille label according to a sixth aspect of the present invention is the invention according to the fourth or fifth aspect, wherein the protrusion has a diameter of 1.35 to 1.55 mmφ and a height of 0.55 to 0.85 mm. Characterized by

  According to a seventh aspect of the present invention, there is provided a Braille label manufacturing method comprising: a film made of a synthetic resin; an adhesive layer formed on the back surface of the film; a release paper temporarily attached to the film via the adhesive layer; and the film A method of manufacturing a Braille label comprising a protrusion that forms a Braille by combining one or more on the side, the adhesive layer forming step of forming the adhesive layer on the back surface of the film, the film and the release paper, And pressing the film and the release paper integrated by the sticking process under heating with a heating mold consisting of a male mold and a female mold, A projection forming step for forming the projection. In the projection forming step, a single Braille shape is formed by combining one or a plurality of the projections, and the standard Braille size is deformed following the deformation of the adherend. And wherein the processing into thin high shape than.

  According to an eighth aspect of the present invention, there is provided the Braille label manufacturing method according to the seventh aspect of the invention, wherein, in the protrusion forming step, the protrusion is attached to a soft adherend that sinks by pressing the fingertip. Along the shape of the corresponding dent of the adherend, the inside is hollow so that it sinks including the peripheral part, and it is processed into a thin and high shape so that Braille can be read by the tactile sensation of the fingertip even in the sinked state It is characterized by.

  According to a ninth aspect of the present invention, there is provided the Braille label manufacturing method according to the seventh or eighth aspect, wherein the protrusion has a diameter of 1.35 mmφ to 1.55 mmφ and a height of 0.55 mm to 0.85 mm. It is characterized by being.

  According to a tenth aspect of the present invention, there is provided a Braille label manufacturing method comprising: a film made of a synthetic resin; an adhesive layer formed on the back surface of the film; a release paper temporarily attached to the film via the adhesive layer; A braille label manufacturing method comprising a single or a plurality of projections that are combined to form a braille, the adhesive layer forming step of providing the adhesive layer on the back surface of the film, and the film as a male type and a female type The projection comprises a projection forming step for forming the projection by pressing with a heating mold comprising: and a bonding step for integrating the film and the release paper via the adhesive layer. In the forming step, the protrusions are formed in braille by combining one or a plurality thereof, and processed into a shape that is thinner and higher than the standard braille size so as to be deformed following the deformation of the adherend. And butterflies.

  The manufacturing method of the braille label of the eleventh aspect of the invention is the adherend according to the invention according to claim 10, wherein the protrusion is attached to a soft adherend that sinks by pressing the fingertip. The inside is hollow so that it sinks along the shape of the dent, and it is processed into a thin and high shape so that Braille can be read by the sense of touch of the fingertip even in the sinked state.

  According to a twelfth aspect of the present invention, there is provided the Braille label manufacturing method according to the tenth or eleventh aspect, wherein the protrusion has a diameter of 1.35 mmφ to 1.55 mmφ and a height of 0.55 mm to 0.85 mm. It is characterized by being.

  According to the first invention, since the protrusion is thin and high, the protrusion becomes sharper than the standard protrusion while maintaining the width of the apex portion necessary for reading, and can be easily felt by the fingertip. Even when the protrusion sinks together with the presentation body according to the pressure of the fingertip, it is possible to maintain an appropriate height as Braille.

  In addition, according to the first invention, since the uniform flexibility is provided so that the entire film can follow the present body, the visually impaired person can read the braille and simultaneously the softness of the present body. Easy to grasp the texture.

  Furthermore, according to the first invention, since the film and the release paper are integrated through the adhesive layer, the integrated three layers can be simultaneously subjected to mold processing, thereby simplifying the manufacturing process. Can do.

  According to the second invention, the solid projection filled with the conventional synthetic resin or the like becomes a hard plate in the portion where the number of characters is large and the projection is dense, so that the shape change when the soft dressing body is pressed. It was not possible to follow up, and it was a factor that caused voids and caused peeling, but by making the protrusions hollow, the hollow protrusions themselves extended, so that the entire film can be made flexible. .

  That is, according to the second aspect of the invention, the projection and the projection peripheral portion smoothly follow the shape change of the attachment body along the movement of the fingertip that is sequentially slid while pressing when the visually impaired person reads Braille. Therefore, even if the presenting body is soft, it is possible to provide a braille label that makes it difficult for the film to peel off from the presenting body.

  According to the third invention, if the diameter of the protrusion is smaller than 1.35 mmφ, the surface with which the fingertip comes into contact is reduced and the stimulation is too strong, and if it is larger than 1.55 mmφ, the interval between the adjacent protrusions is narrowed. If both are lower than 0.55mm, the projection will sink with the body, and if it is 0.85mm or more, the upper part of the projection will slide with the fingertip. Since both of them had a risk of lowering the tactile reading rate, the diameter was set to 1.35 to 1.55 mm and the height was set to 0.55 to 0.85 mm, while solving the above problems. It is possible to provide a Braille label that can be easily felt by the fingertip and can maintain an appropriate height as Braille even in a state in which the protrusion sinks together with the presentation body according to the pressure of the fingertip.

  According to the fourth aspect of the present invention, since the protrusion is thin and high in shape, the protrusion becomes sharper than the standard protrusion while maintaining the width of the apex portion necessary for reading, and can be easily felt by the fingertip. Even when the protrusion sinks together with the presentation body according to the pressure of the fingertip, it is possible to maintain an appropriate height as Braille.

  In addition, according to the fourth invention, since the uniform flexibility is provided so that the entire film can follow the present body, the visually impaired person can read the braille and simultaneously the softness of the present body. Easy to grasp the texture.

  According to the fifth invention, the solid projection filled with the conventional synthetic resin or the like becomes a hard plate in the portion where the number of characters is large and the projection is dense, so that the shape change when the soft dressing body is pressed. It was not possible to follow up, and it was a factor that caused voids and caused peeling, but by making the protrusions hollow, the hollow protrusions themselves extended, so that the entire film can be made flexible. .

  That is, according to the fifth aspect, the protrusion and the protrusion peripheral portion smoothly follow the shape change of the attachment body along the movement of the fingertip that is sequentially slid while pressing when the visually handicapped person reads Braille. Therefore, even if the presenting body is soft, it is possible to provide a braille label that makes it difficult for the film to peel off from the presenting body.

  According to the sixth invention, if the diameter of the protrusion is smaller than 1.35 mmφ, the surface with which the fingertip comes into contact is reduced and the stimulation is too strong, and if it is larger than 1.55 mmφ, the distance between the adjacent protrusions is narrowed. If both are lower than 0.55mm, the projection will sink with the body, and if it is 0.85mm or more, the upper part of the projection will slide with the fingertip. Since both of them had a risk of lowering the tactile reading rate, the diameter was set to 1.35 to 1.55 mm and the height was set to 0.55 to 0.85 mm, while solving the above problems. It is possible to provide a Braille label that can be easily felt by the fingertip and can maintain an appropriate height as Braille even in a state in which the protrusion sinks together with the presentation body according to the pressure of the fingertip.

  According to the seventh invention, since the film and the release paper are integrated through the adhesive layer, the integrated three layers can be simultaneously subjected to mold processing, and the manufacturing process can be simplified. .

  Further, according to the seventh invention, conventionally, a processing method has been used in which a projection is formed by pressing a convex pin for braille processing from the back side of paper or the like using a Braille typewriter or the like. Since the force is applied only from the back side of the paper, etc., there was a risk that the peripheral part including the protrusions might be lifted off or the film and the release paper might be damaged by the impact at the time of stamping. Since the film and release paper are pressed by heating with a heating mold consisting of a male mold and a female mold to form a protrusion, force is applied from above and below, and the periphery includes the protrusion. Protrusions having an appropriate height can be formed on the surface of the film without damaging the film and the release paper without the portion being peeled off from the release paper and floating.

  Furthermore, according to the seventh invention, since the heating mold is used without using an expensive plate making machine, the manufacturing cost can be suppressed.

  According to the eighth invention, the solid projection filled with the conventional synthetic resin or the like becomes a hard plate in the portion where the number of characters is large and the projection is dense, so that the shape change when pressing the soft dressing body. Because it was unable to follow up and created voids, causing peeling, the hollow protrusions themselves were expanded by making the protrusions hollow, so that the entire film was manufactured with uniform flexibility. can do.

  That is, according to the eighth invention, the projection and the projection peripheral portion smoothly follow the shape change of the attachment body along the movement of the fingertip that is sequentially slid while pressing when the visually handicapped person reads Braille. Therefore, even if the exhibit is soft, it is possible to manufacture a braille label in which the film is difficult to peel off from the exhibit.

  According to the ninth aspect of the present invention, it is easy to feel with the fingertip by defining an optimal numerical range in which the diameter of the protrusion is 1.35 to 1.55 mmφ and the height is 0.55 to 0.85 mm. A braille label provided with a projection capable of maintaining an appropriate height as braille even when the projection sinks together with the mounting body in response to the pressing of.

  According to the tenth aspect of the present invention, conventionally, a processing method is used in which a Braille typewriter or the like is used to press a convex pin for Braille processing from the back side of a sheet or the like to form a projection. Since the force is applied only from the back side of the film, there is a risk that the peripheral part including the protrusions may be lifted off or the film and the release paper may be damaged by the impact at the time of stamping. The release paper is pressed under heating by a heating mold consisting of a male type and a female type to form a protrusion, and since force is applied from above and below and heated, the peripheral portion including the protrusion is Protrusions having an appropriate height can be formed on the surface of the film without being lifted off from the release paper and without damaging the film and the release paper.

  Further, according to the tenth invention, since the heating mold is used without using an expensive plate making machine, the manufacturing cost can be suppressed.

  According to the eleventh aspect of the present invention, the solid projection filled with the conventional synthetic resin or the like becomes a hard plate in the portion where the number of characters is large and the projection is dense, so that the shape change when the soft dressing body is pressed is changed. Because it was unable to follow up and created voids, causing peeling, the hollow protrusions themselves were expanded by making the protrusions hollow, so that the entire film was manufactured with uniform flexibility. can do.

  That is, according to the eleventh aspect of the invention, the projection and the projection peripheral portion smoothly follow the shape change of the mounting body along the movement of the fingertip that is sequentially slid while pressing when the visually handicapped person reads Braille. Therefore, even if the exhibit is soft, it is possible to manufacture a braille label in which the film is difficult to peel off from the exhibit.

  According to the twelfth aspect of the present invention, it is easy to feel with the fingertip by defining an optimal numerical range in which the diameter of the protrusion is 1.35 to 1.55 mmφ and the height is 0.55 to 0.85 mm. A braille label provided with a projection capable of maintaining an appropriate height as braille even when the projection sinks together with the mounting body in response to the pressing of.

4 is a plan view showing a configuration of a braille label A. FIG. (A) It is A-A 'sectional view in Drawing 1 of Braille label A, and (B) It is a sectional view of Braille label B. It is a figure with which it uses for description of metal mold | die shaping | molding, Comprising: (A) It is a figure which shows before a press, (B) It is a figure which shows after a press. It is a figure which shows the structure of a male type | mold metal mold | die, Comprising: (A) The whole top view, (B) It is sectional drawing of a convex part. It is a figure which shows the structure of a female type | mold metal mold | die, Comprising: (A) The whole top view, (B) It is sectional drawing for a recessed part. In Braille label A, it is explanatory drawing which shows that hollow protrusion itself deform | transforms and deform | transforms smoothly as a whole. (A) It is a flowchart which shows the flow of the manufacturing method of the braille label A, (B) It is a flowchart which shows the flow of the manufacturing method of the braille label B. It is the schematic of the manufacturing apparatus of the braille label A. It is explanatory drawing of the structure of the conventional braille label.

  Below, the structure of the braille label A and the braille label B which concern on embodiment of this invention is demonstrated based on drawing.

  As shown in FIG. 1, the Braille label A of the present invention is composed of a Braille-processed film 1 and a release paper 2. As will be described later, the film 1 is peeled off from the release paper 2 and is softly worn. It is used by being attached to a body O (not shown), for example, an individually wrapped rice ball or wet tissue.

  The film 1 has a thickness that can easily follow deformation during braille processing and is not easily torn, and can retain the shape after processing over time. For example, the thickness is 100 to 150 μm, preferably 130 μm. The synthetic resin sheet is made of, for example, polyethylene terephthalate, polyethylene, or polypropylene.

  The film 1 has a release agent made of silicone resin or the like coated on the back surface. The film 1 may be a two-layer structure with a printing layer 3 (not shown) formed of printing ink, and the printing layer 3 and the upper surface of the printing layer 3 are prevented from being discolored or worn. It is good also as three layers with the laminate film 4 (illustration omitted) to do.

  The release paper 2 is a processed paper having a release agent made of silicone resin or the like coated on the front surface. For example, a glassine-type release paper or laminate generally used as an adhesive label, an adhesive sticker, etc. Type release paper or coated paper type release paper.

  The film 1 and the release paper 2 are temporarily attached so as to be peelable through an adhesive layer 5 described later.

  The adhesive layer 5 is applied to the back side of the film 1 and is a paste for temporarily attaching the film 1 and the release paper 2, and is an acrylic adhesive, natural rubber adhesive, synthetic rubber adhesive, silicone Known pressure-sensitive adhesives such as system pressure-sensitive adhesives may be used.

  The protrusion 10 has a three-layer label 6 (not shown) composed of an adhesive layer 5, a film 1 temporarily attached and integrated through the adhesive layer 5, and a release paper 2 as shown in FIGS. Thus, it is formed by being pressed under heating by a heating mold 7 composed of a male mold 8 and a female mold 9 by a manufacturing method described later.

  As shown in FIG. 6, the protrusion 10 has a hollow inside, is processed into a thin and high shape, and has a diameter of 1.35 to 1.55 mmφ and a height of 0.55 to 0.85 mm. For this reason, when the braille label A is attached to the soft dressing body O that sinks by pressing the fingertip, the protrusion 10 includes the peripheral portion along the shape of the depression of the dressing body O according to the pressing of the fingertip. You can read braille by touching your fingertips even if you sink. More preferably, the protrusion 10 has a diameter of 1.50 mmφ and a height of 0.70 mm.

  Next, the braille label B of the present invention will be described. The Braille label B is the Braille label A, and the label 6 is pressed under heating by the heating mold 7 to form the protrusions 10. Instead, the adhesive layer 5 is formed on the back side of the film 1. After that, the two-layer label 6 composed of the film 1 and the adhesive layer 5 is first pressed under heating by the heating mold 7 to form the protrusions 10, and then the release paper 2 and the adhesive layer 5 are formed. Are temporarily attached to and integrated with each other. Therefore, the braille label B has the protrusion 10 formed only on the film 1 side on which the adhesive layer 5 is formed, and the release paper 2 becomes flat.

  Next, a method of manufacturing the braille label A and the braille label B according to the present invention will be described mainly based on FIGS.

  As shown in FIGS. 7A and 8, the manufacturing method of the braille label A mainly includes a step ST1 (corresponding to the adhesive layer forming step of claim 7) of providing an adhesive layer 5 on the back surface of the film 1, and a film. 1 and the release paper 2 are integrated through the adhesive layer 5 (step ST2 (corresponding to the sticking process of claim 7)), and the film 1 is heated by a heating mold 7 including a male mold 8 and a female mold 9. Step ST3 (corresponding to the protrusion forming step of claim 7) for forming the protrusion 10 by pressing under heating.

  In step ST <b> 1, an adhesive is applied to the back surface while the roll-shaped film 1 is fed out in a strip shape, and the adhesive layer 5 is formed on the back surface of the film 1.

  In step ST2, the roll of release paper 2 is fed in a strip shape, and the release paper 2 is integrated on the adhesive layer 5 side of the film 1 on which the adhesive layer 5 is formed on the back surface in step ST1, thereby integrating the three-layer structure label. 6 is formed.

  Here, when a film having a two-layer structure including the printing layer 3 is used as the film 1, the printing layer 3 is formed on the upper surface of the label 6 by a printing process, and has a three-layer structure including the printing layer 3 and the laminate film 4. When the film 1 is used as the film 1, after the printing process, a laminating film 4 that prevents color fading and wear of the printing layer 3 and protects the printing layer 3 is bonded to the upper surface of the printing layer 3.

  In step ST3, as shown in FIG. 3, by pressing the label 6 at a temperature at which the label 6 becomes soft with the heating mold 7 including the male mold 8 and the female mold 9, as shown in FIG. The projection 10 is formed.

  Here, the heating mold 7 is made of a durable metal such as carbon steel, and is composed of a male mold 8 and a female mold 9 and can be heated to a temperature at which the label 6 becomes soft. Use with appropriate heating. The heating mold 7 conforms to, for example, the Braille type Braille that is widely used in general, and represents one character by six points of horizontal 2 × vertical 3 and presses a plurality of characters at a time. it can.

  The male mold 8 is made of, for example, steel or a metal such as steel, and as shown in FIGS. 3 and 4A, a movable core 12 and a movable side mounting plate 12 having a plurality of cores 11 movable in the female mold direction. Consists of.

  As shown in FIG. 4B, the core 11 includes a main core 13 and a base 14, and the core 11 at a position corresponding to the braille to be engraved is movable in the direction of the female die 9. The size of the main core 13 is, for example, a height H1 of 0.8 mm and a top height H2 of 0.4 mm. The size of the base 14 is, for example, a height H3 of 0.3 mm.

  As shown in FIG. 4A, the movable side mounting plate 12 has, for example, a depth D1 of 40 mm and a width W1 of 11 mm.

  The female die 9 is connected to an electric heating device so as to be heated. The female die 9 is made of, for example, steel or a metal such as steel, and is a plate 16 having a plurality of cavities 15 engaged with the main core 13 on the surface as shown in FIG.

  As shown in FIG. 5B, the cavity 15 has a chamfered surface periphery so that the label 6 is not damaged at the corners of the surface periphery when the mold is processed. As for the size of the cavity 15, for example, the diameter F is 1.5 mmφ, the height H4 is 0.8 mm, and the size C of the chamfered portion is 0.1 mm.

  As shown in FIG. 5A, the plate 16 has a depth D2 of 44 mm and a width W2 of 11 mm, for example.

  In addition, after the process of this step ST1, you may provide processes, such as a punching process which cuts out the braille label A in arbitrary shapes.

  As shown in FIG. 7B, the manufacturing method of the braille label B mainly includes the step ST11 (corresponding to the adhesive layer forming step of claim 10) of providing the adhesive layer 5 on the back surface of the film 1, and the film 1. Step ST12 (protrusion forming process of claim 10), which is pressed under heating by a heating mold 7 comprising a male mold 8 and a female mold 9 to form the protrusion 10, and the film 1 and the release paper 2 are bonded to the adhesive layer. And step ST13 (attaching step of claim 10) integrated through 5.

  In step ST <b> 11, a pressure-sensitive adhesive is applied to the back surface while the roll-shaped film 1 is fed out in a band shape, thereby forming a two-layer structure label 6 composed of the film 1 and the pressure-sensitive adhesive layer 5.

  Here, when a film having a two-layer structure including the printing layer 3 is used as the film 1, the printing layer 3 is formed on the upper surface of the label 6 by a printing process, and has a three-layer structure including the printing layer 3 and the laminate film 4. When the film 1 is used as the film 1, after the printing process, a laminating film 4 that prevents color fading and wear of the printing layer 3 and protects the printing layer 3 is bonded to the upper surface of the printing layer 3.

  In step ST12, the label 6 is pressed by the heating mold 7 including the male mold 8 and the female mold 9 at a temperature at which the label 6 becomes soft, and the protrusion 10 as shown in FIG. 2B is formed. The description of the heating mold 7 is the same as described above, and will be omitted.

  In step ST13, the release paper 2 is superposed and integrated on the adhesive layer 5 side of the film 1 while the roll of the release paper 2 is fed out in a strip shape.

  In addition, after the process of this step ST1, you may provide processes, such as a punching process which cuts out the braille label A in arbitrary shapes.

  As described above, according to the present invention, it is possible to provide a Braille label and a method for manufacturing the Braille label that have a simple configuration that can be manufactured at low cost but are difficult to peel off, can easily read Braille, and can easily grasp the texture of the dressing body. Can do.

  It should be noted that the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention.

A, B: Braille label 1: Film 2: Release paper 3: Print layer 4: Film 5: Adhesive layer 6: Label 7: Heating mold 8: Male mold 9: Female mold 10: Protrusion 11: Core 12: Movable side mounting plate 13: Main core 14: Base 15: Cavity 16: Plate H1-H4: Height D1-D2: Depth W1-W2: Width F: Diameter C: Chamfer 101: Braille label 110: Label base material 111: Resin film 112: Filling resin O: Display body P: Convex pin

Claims (12)

A film made of synthetic resin;
An adhesive layer formed on the back surface of the film;
Release paper temporarily attached to the film via the adhesive layer;
The film integrated through the adhesive layer and the release paper are provided with protrusions formed on the film side by being pressed under heating by a heating mold composed of a male mold and a female mold. ,
A braille label having a shape that is narrower and higher than a standard braille size so that the protrusion is formed by combining one or a plurality of protrusions to form a braille, and deforms following the deformation of the adherend.   When the protrusion is attached to a soft adherend that sinks by pressing the fingertip, along the shape of the depression of the adherend according to the pressure of the fingertip, the inside is hollow so as to sink including the peripheral portion, The braille label according to claim 1, wherein the braille label is processed into a thin and high shape so that the braille can be read by a tactile sensation of a fingertip even in a sinked state.   The braille label according to claim 1, wherein the protrusion has a diameter of 1.35 to 1.55 mmφ and a height of 0.55 to 0.85 mm. A film made of synthetic resin;
An adhesive layer formed on the back surface of the film;
Release paper temporarily attached to the film via the adhesive layer;
The film comprises a protrusion formed by being pressed under heating by a heating mold consisting of a male mold and a female mold,
A braille label characterized in that a single or a plurality of the protrusions are combined to form Braille, deformed following the deformation of the adherend, and have a shape that is thinner and higher than a standard Braille size.   When the protrusion is attached to a soft adherend that sinks by pressing the fingertip, along the shape of the depression of the adherend according to the pressure of the fingertip, the inside is hollow so as to sink including the peripheral portion, The braille label according to claim 4, wherein the braille label is processed into a thin and high shape so that the braille can be read by a tactile sensation of a fingertip even in a sinked state.   The braille label according to claim 4 or 5, wherein the protrusion has a diameter of 1.35 to 1.55 mmφ and a height of 0.55 to 0.85 mm. A film made of synthetic resin, an adhesive layer formed on the back surface of the film, a release paper temporarily attached to the film via the adhesive layer, and a braille formed by combining one or more on the film side A method of manufacturing a braille label having a protrusion to be
An adhesive layer forming step of forming the adhesive layer on the back surface of the film;
An attaching step of integrating the film and the release paper through the adhesive layer;
The film and the release paper integrated by the sticking step are pressed by heating with a heating mold composed of a male mold and a female mold, and a projection forming step for forming the projection,
In the protrusion forming step, the protrusions are formed in braille by combining one or a plurality of protrusions, and are processed into a shape that is thinner and higher than a standard braille size so as to be deformed following the deformation of the adherend. A manufacturing method for braille labels.   In the step of forming the protrusion, when the protrusion is attached to a soft adherend that sinks by pressing the fingertip, the protrusion is depressed along the shape of the dent of the adherend according to the pressure of the fingertip, including the peripheral portion. The method for manufacturing a braille label according to claim 7, wherein the inside is hollow and processed into a thin and high shape so that the braille can be read by a tactile sensation of a fingertip even in a sinked state.   The method of manufacturing a braille label according to claim 7 or 8, wherein the protrusion has a diameter of 1.35 mmφ to 1.55 mmφ and a height of 0.55 mm to 0.85 mm. Form a braille by combining a film made of a synthetic resin, an adhesive layer formed on the back surface of the film, a release paper temporarily attached to the film via the adhesive layer, and a single or multiple combination of the film A method of manufacturing a braille label having a protrusion,
An adhesive layer forming step of providing the adhesive layer on the back surface of the film;
A projection forming step of pressing the film under heating with a heating mold composed of a male mold and a female mold to form the projection;
It consists of a sticking step of integrating the film and the release paper through the adhesive layer,
In the protrusion forming step, the protrusions are formed in braille by combining one or a plurality of protrusions, and are processed into a shape that is thinner and higher than a standard braille size so as to be deformed following the deformation of the adherend. A manufacturing method for braille labels.   In the step of forming the protrusion, when the protrusion is attached to a soft adherend that sinks by pressing the fingertip, the protrusion is depressed along the shape of the dent of the adherend according to the pressure of the fingertip, including the peripheral portion. The method for manufacturing a braille label according to claim 10, wherein the inside is hollow and processed into a thin and high shape so that the braille can be read by touching the fingertip even in a sinked state.   The method of manufacturing a braille label according to claim 10 or 11, wherein the protrusion has a diameter of 1.35 mmφ to 1.55 mmφ and a height of 0.55 mm to 0.85 mm.

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