The present invention relates to a braille plate and manufacturing method thereof, and more particularly to a braille plate which is used for mounting on an elevator and the manufacturing method thereof.
Elevators typically provide a configuration of braille, providing the guide for users by touching. In generally, the braille in plastic form is alternatively attached to an elevator decorative plate or directly structured on an elevator control panel via metalworking.
In this way, the braille in plastic form is usually attached manually. It causes an inaccuracy attachment position or the inner leakage of the air, therefore to peel off from the elevator, and in order to the temperature change. Furthermore, the elevator decorative plate which is made of metal materials cannot have a seamless visual appearance, even if the braille in plastic form is transparent, which results in inferior texture of the overall product and easily causing detachment by damages via fingers or sharp objects.
During the process of hot stamped molding, the formed bump structure may be interfered by the difference of material characteristics of metal. The overall shape of each elevator decorative plate cannot be ensured that is not affected. Moreover, the bumped small piece metal plates which are used for attaching on the elevator metal decorative plate still have the problems such as the oblique dislocation or failing to form in a one-piece structure. This phenomenon means that the process (stamped molding) is not suitable for manufacturing all types of metal elevator decorative plate. Once the elevator panel is required to have numerous floors of a tall building, the area of metal or plastic plate becomes more wide and large, therefore the needs of installation space increases simultaneously. The elevator panel with certain area may not be completely satisfied by the braille which is manufactured by the traditional process.
In order to solve the problems mentioned in the background, the present invention relates to a braille plate and manufacturing method thereof, and more particularly to a braille plate for elevator and manufacturing method thereof. The braille plate has an advantage that is applicable to any elevator decorative plate which made of metal materials. In particular, the braille plate is provided as a structure formed by a substrate which is formed-after-formation of a body and contains crosslinking agent. With the aforementioned method, the invention may generate a braille character via the predetermined bump rules without affecting the appearance or surface of the elevator decorative plate while saving manufacturing space.
In accordance with some embodiments of the disclosed invention, a braille plate is provided. The braille plate comprises a plurality of substrates and a plurality of bump structures. The plurality of substrates, contain a crosslinking agent and form on a body. The plurality of bump structures, are formed by at least one main layer. Further, the aforementioned body is an elevator decorative plate.
In accordance with some embodiments of the disclosed invention, a manufacturing method of the braille plate is provided. The manufacturing method comprises: provide a body mounted to an elevator; forming a substrate having a pattern shape on the body via coating a crosslinking agent. Form at least one main layer on the substrate in accordance with a maximum diameter and a maximum height, the maximum height is formed by a ratio which is determined by the maximum diameter: the maximum height. Form a bump structure by curing the at least one main layer via a curing process. Perform the aforementioned steps repeatedly or synchronous multiple-times, and finally form a braille character on the body via the plurality of bump structures.
The above summary of the present invention is to provide a basic description of the various aspects and features of the present invention. It is not a detailed description. Its purpose is not to specifically recite keys or critical elements of the present invention, and it is not intended to limit the scope of the present invention. It merely presents a few concepts of the present invention in a concise manner.
To clarify the purpose, technical solutions, and the advantages of the disclosure, embodiments of the present invention will now be described more fully hereinafter with reference to the accompanying drawings.
The present invention relates to a braille plate and manufacturing method thereof, and more particularly to a braille plate for elevator and manufacturing method thereof.
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As used hereinafter, the term “main layer 32” is a portion of material having a certain height included in a bump structure (e. g., as a maximum height H shown in
The present embodiment assumes that the substrate 30 is rounded or substantially rounded, and assumes that the aforementioned main layer 32 is successively formed the aforementioned bump structure 31 along the direction of an arrow shown in
In some embodiments, the substrate 30 may be assumed to be rectangle shape, substantially rectangle shape or any suitable pattern shape. In this case, the bump structure 31 may be assumed to be formed in following instructions. Form the aforementioned main layer 32 with a predetermined height along the direction of an arrow shown in
On the other hand, when the aforementioned body 1 is a glass layer, the crosslinking agent may use isocyanate paints such as water-soluble isocyanate compound, epoxy-based paints such as poly-epoxy-based compound, ammonia-based compound or other paints which consist of resin. Moreover, when the aforementioned body 1 is a metal layer consisting of Al (aluminum), Cu (copper) or both, the embodiment may alternatively perform a degreasing treatment (e. g., alkali-degreased and solvent-degreased) on surface of the body 1 and therefore to remove oil-deposits being on such surface. Thereafter, the coating or inkjet printing the crosslinking agent on the surface of the body 1 according to the aforementioned pattern shape will be performed. In this embodiment, the sort of crosslinking agent can be solely used or in combination with other paints. Furthermore, it is noted that the resin which is used to consist the crosslinking agent in the present invention is not limited, i.e. the resin could be any type of resin, such as acrylic resin and polyester resin.
In the present embodiment, when each bump structure 31 respectively forms on main layer 32, the bump structure 31 may optionally include a decorative layer 33 as shown in
For example, when the decorative layer 33 contains particles. The particles may be metallic particles, or non-metallic particles such as stones. As such, it is possible to enhance the tactile impression by adjusting the surface roughness of the bump structure 31. In particular, when the particles are rubber particles, the structural stability of the bump structure 31 can be enhanced by damping the touching forces due to the position of the particles adequately adjusted.
For another example, when the decorative layer 33 is a layer contains powder. The powder may include but not limited to metallic powder, metal-oxide powder, fluorescent powder, ceramic powder or combinations thereof; and the layer may be shaped on the bump structure 31 via adhesive agent. The term “shaped” used here is to refer to the process for inkjet printing three-dimensional patterns such as relief structures, or two-dimensional patterns such as hollow patterns and textures. Furthermore, the adhesive agent may be a material that needs to be added additionally or a material that is a portion of the main layer 32, in order to adhere directly or indirectly the layer on the main layer 32 to form the decorative layer 33. It is noted that material which is used to consist the adhesive agent in the present invention is not limited, e.g., the material may be a material for adhering heterogeneous materials therebetween, and the material may also be selected for use based on the requirements of visual effects such as light-transmitting.
Please refer to
As described in the step A3, the term “ratio” refers to a result that be obtained by dividing the value of the diameter by the value of its corresponding height in each certain position, of the main layer 32 (e.g., the maximum diameter D and its corresponding maximum height H shown in
As described in the step A4, the term “curing process” refers to the act includes any suitable heat processing or optical processing ways. Specifically, the aforementioned main layer 32 may be cured by irradiating with UV light if the material of it containing photo-curable resin (i.e., photosensitive resin). The main layer 32 may be cured by heating with infrared radiation if the material of it containing heat-curable resin (i.e., thermosetting resin). Furthermore, the main layer 32 may be cured by alternatively using the aforementioned ways if the material of the main layer 32 containing both of photo-curable resin and heat-curable resin.
Specifically, as described in the step A3 or in the step A4, the aforementioned main layer 32 is possible to have a decorative layer 33 therein or thereon by performing the step A5, and optionally select to use a surface treatment method for processing the bump structure 31 to having different visual effects such as matte surface, semi-matte surface, with multiple reliefs and forged surface. The term “surface treatment” used here is to generally refer to the process for processing a physical object to present a predetermined visual effect.
The above description is merely the embodiments in the present invention; the claim is not limited to the description thereby. The equivalent structure or changing of the process of the content of the description and the figures, or to implement to other technical fields directly or indirectly should be included in the claim. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without creative efforts shall fall within the protection scope of the present invention.
Number | Date | Country | Kind |
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110128245 | Jul 2021 | TW | national |