RU171581U1 - TACTICAL LABEL - Google Patents

Abstract

The utility model relates to printed tactile means of displaying static information in embossed or Braille type. It is carried out by the method of layer-by-layer printing on the surface of a substrate using an UV curable inkjet printer. forms of tactile protrusions. The technical result of the utility model is an improvement in the tactile receptivity of information, i.e. the convenience and speed of reading, legibility, etc. It is achieved by the fact that the plate contains a base (1), on the surface of which protrusions (2) are formed in a certain order, formed by successive deposition of layers of material cured by ultraviolet radiation. The first layer (3) of fully cured material has the shape of a closed loop with a recess in the middle, the second layer of material (4) placed on the surface of the substrate in the recess, and the third (5) and subsequent layers (6) located on the surface of the previous layer and partially the first while the second and subsequent layers are cured together with each other. The force of surface tension keeps the drop from spreading beyond the first layer and gives it a hemisphere shape.

Description

The utility model relates to technical means of information accessible for people with disabilities, namely, printed tactile means for displaying static information in relief or Braille. The utility model is designed to convey static information to blind and visually impaired people with the help of tactile sensations and can be used in the socio-cultural sphere, medicine, transport and consumer services.

The prior art device with protrusions formed by the method of three-dimensional inkjet printing (European patent EP 2097247 priority 21.10.2006, published 09.09.2009, URL: http://www.google.ru/patents/EP2097247A2?cl=en&hl=en) , which consists of the following stages: 1) supply of two or more liquids having a different composition to an inkjet printer; 2) mixing two or more liquids in a controlled amount; 3) applying a mixture of two or more liquids with an inkjet printer to the substrate; 4) at least partial curing of the applied mixture by ultraviolet (hereinafter referred to as UV) radiation; 5) repeating stages 2-4 to build a three-dimensional relief on the basis of.

Also known is a visual tactile pointer (RF patent for utility model 145752, IPC B41M 3/16, priority 05/15/2014, published 09/27/2014, URL: http://poleznayamodel.ru/model/14/145752.html) a base of a polymeric material and protrusions arranged in a certain order on its front side, formed by layer-by-layer deposition of a material that is cured by ultraviolet radiation, with each subsequent layer of material forming tactile protrusions completely covering the previous applied layer.

A tactile pointer is also known (RF patent for utility model 134113, IPC B41M 3/16, priority 02/19/2013, published 11/10/2013, URL: http://poleznayamodel.ru/model/13/134113.html), by a combination of features selected as a prototype, containing a base, on one of the surfaces of which protrusions are made of UV curable material, the properties of which are set by placing the UV curable material on the surface of the base in an uncured state, subsequent curing by UV radiation, while these protrusions are made in last set layers that are uniformly arranged on each other, starting from the first one, placed on the surface of the base, and are made of a material whose properties are set due to the above-mentioned features of its formation, the second layer is made of a material whose properties are set by placing a UV curable material forming this layer, on the surface of the first layer in the uncured state, subsequent curing by UV radiation, and the subsequent layers are made of material whose properties are set by placing Ф cured material forming this layer on the surface of the previous layer in the uncured state, subsequent curing by UV radiation.

For all analogues, an essential feature that coincides with the feature of the utility model is the formation of protrusions by the method of layer-by-layer deposition of a material that is cured by ultraviolet radiation.

A common drawback of all analogues and prototype is that the layers of liquid material are not limited by spreading, which does not guarantee guaranteed reproduction of the specified size of the protrusion. In addition, the prototype protrusions have a flat convex shape, which does not provide the proper tactile receptivity of information.

The problem, which the utility model is aimed at, is to increase the dimensional accuracy and ensure the sharpness of the shape of the tactile protrusions.

The tactile susceptibility of information is directly affected by the geometric dimensions of the protrusions and their shape. The world has developed the optimal geometry of the protrusions (Marburg font), fixed in GOST R 50918-96 (Display devices for information in the Braille system). GOST defines, in particular, the nominal dimensions of the protrusions and tolerances on them, for example, the diameter of the base of the protrusion of 1.60 ± 0.1 mm, height 0.55 ± 0.05 mm. The optimal shape of the protrusion is the hemisphere.

Such stringent requirements cannot be sustained simply by applying layers of liquid ink to a free surface and without restricting them from spreading. The relief of the protrusion in this case is determined by the ratio of the wetting and surface tension forces (adhesion and cohesion) and depends on many factors (base material, surface wettability, roughness, ink viscosity, temperature, thickness and area of the layer, etc.), which makes it difficult guaranteed performance of the optimal protrusion profile.

The technical result of the utility model is to improve the tactile receptivity of information, i.e. convenience and speed of reading, legibility, etc.

The main structural elements of the tactile tablet are the base (1) and tactile protrusions (2) located on its front surface.

The geometric dimensions of the base are determined by its information content. The base material may be synthetic, composite or inorganic, rigid or film.

Tactile protrusions form embossed text, pictograms, or braille text. The protrusions are layered in layers by means of an inkjet printer with UV curable ink. The shape and size of the protrusions meet the above requirements.

The technical result is achieved by the fact that the tactile plate contains a base, on the surface of which protrusions are formed in a certain order, formed by successive deposition of layers of material cured by ultraviolet radiation, while the first layer of the protrusion placed on the surface of the base is made in the form of a closed loop, which forms the base of the future protrusion of a given size and forms a depression in the middle. The layer is applied by means of an inkjet printer and completely cured by UV radiation. Then, a second layer of ink is applied to the substrate, which completely fills the recess and is kept from spreading by the contour. The area of the second layer is smaller than the first. Then the second layer is irradiated with UV radiation, but due to its large thickness, the curing process occurs rather slowly. The third and subsequent layers are applied to the partially hardened previous layer. Thus, the second and subsequent layers form a monolithic drop and cure together with each other. The force of surface tension keeps it from spreading outside the first layer and gives it the shape of a hemisphere. Full cure occurs in a few minutes.

The utility model differs from the prototype in the following features:

- the first layer is not flat, but has the shape of a closed loop with a recess,

- the second layer is not located on the surface of the first layer, but on the surface of the base in the recess,

- the third and subsequent layers are placed not only on the surface of the previous layer, but also partially on the surface of the first layer,

- the second and subsequent layers are not cured in layers, but together with each other.

The whole set of distinctive features provides a technical result.

In private forms of the utility model execution, the following are possible:

- the use of visual information on the tablet along with tactile information, which makes it possible for visually impaired people who do not speak Braille to use it,

- the color of the protrusions and the base in various colors, which improves the color perception of the visually impaired,

- the use of a protective coating in the form of a layer of varnish or film on top of the base, which allows the use of the plate in severe climatic conditions and increases its wear resistance,

- the use of a film with a sticky layer as the basis, which simplifies installation and the ability to update information.

The plate is fixed on a surface in a public place accessible to blind people at a convenient height for use. The direction to the location of the plate can be specified by tactile pointers on the floor.

The utility model is illustrated by a drawing (Fig. 1), which shows a fragment of a section of a device with a single protrusion. The layers are shown in a hardened state, taking into account the interaction of the wetting forces and surface tension. The following are indicated in the figure: base (1), protrusion (2), first layer (contour) (3), second layer (4), third layer (5), fourth layer (6).

For experimental verification of the achievement of the technical result, several bases were made of various materials (polyvinyl chloride, acrylic, glass, aluminum). The first layer of UV-curable ink (3) was applied to the front surface of the base (1) in the form of a closed loop forming the base of future protrusions (2) of the text in Braille. The layer was applied simultaneously with printheads of all colors (6 pcs.) And hardened with UV radiation.

The second layer (4) filled the recesses formed by the contours of the first layer (3) and irradiated with ultraviolet light. The third (5) and subsequent layers (6) were applied to the previously not hardened previous layer. Thus, the second and subsequent layers formed a partially solidified monolithic drop. The force of surface tension, keeps it from spreading outside the first layer and gives it the shape of a hemisphere. Full cure occurred after 2 minutes.

Measurements of the geometric dimensions of the bulges using a measuring microscope and micrometer showed that the dimensions on all tested base materials fit into tolerances: the diameter of the base of the protrusion is 1.60 ± 0.1 mm, the height of the protrusion is 0.55 ± 0.05 mm.

For comparison, a sample of the same content was made using prototype technology. Measurements showed that the diameter of the base of the protrusion was 2.0 ± 0.2 mm, depending on the base material, with the corresponding variation in the height of the protrusion.

Similarly, plates with convex text and embossed pictograms were made.

To test for tactile susceptibility, an expert assessment was conducted by representatives of the organization of the All-Russian Society of the Blind, who confirmed the achievement of the goal of the utility model.

Claims (5)

1. A tactile tablet containing a base, on the surface of which protrusions are formed in a certain order formed by successive deposition of layers of a material cured by ultraviolet radiation, characterized in that the first layer of fully cured material has the form of a closed loop with a recess in the middle, and the second layer of material placed on the surface of the base in the recess, and subsequent layers are located on the surface of the previous layer and partially of the first, while the second and subsequent layers of the cured They are shared with each other. 2. A tactile tablet according to claim 1, characterized in that the surface of the base contains flat visual information. 3. The tactile tablet according to claim 1, characterized in that the surfaces of the base and protrusions are painted in different colors. 4. A tactile tablet according to claim 2 or 3, characterized in that the base and protrusions are coated with a protective layer in the form of varnish or film. 5. A tactile tablet according to claim 2 or 3, characterized in that a film with an adhesive layer is used as a base.

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