RU124024U1 - MODULAR DESIGNER FOR PRODUCTION OF VOLUME LIGHT LETTERS AND SYMBOLS FOR ADVERTISING SIGNS - Google Patents

Abstract

Use - for the manufacture of advertising and information signs, light signs, light signs used in advertising and exhibition business ..

The essence of the utility model lies in the technical solution to the problem of increasing the manufacturability of the assembly of three-dimensional light letters and symbols intended for advertising signs, pointers, signs, by changing the technology of this process, by using the designer of three-dimensional light letters and symbols for this purpose. The designer consists of sets of typical modules made in the form of a hollow parallelepiped, a cube, a pyramid, a quarter or a half cylinder, a diagonal half of a cube. The front surface of the modules is made of dielectric material, both light-conducting and non-transmitting light, of different colors. The front surface can be either flat or convex. Also, the front surface can be made of a dielectric opaque material, both flat and convex, in which there are holes in diameter of the diodes used, arranged in the form of a grid or in another order, and diodes are inserted into these holes, the luminous side out. The side surfaces are made of a dielectric material, both light-conducting and non-transmitting light, of different colors. They are equipped with recessed metal spring-loaded sockets with limiters of at least two, into which conductive cylindrical or rectangular connecting elements are inserted for the electrical and mechanical connection of each two neighboring modules. The rear surface is also made of dielectric material, both light-conducting and non-transmitting light. On the back surface there are LEDs, both ordinary and RGB (multi-color). Moreover, in the case of using RGB diodes, the number of connecting elements between the modules should be at least four. On the back side of the rear surface there are devices in the form of flat pivoting loops that can be extended, or threaded rods or threaded holes designed for fastening the modules in the assembly to the supporting structures. On the back side of the rear surface there is also a connector for connecting assembled from letter modules into an electric circuit. The terminals of the diode circuit inside the module are connected to the sockets and connector. The connection is parallel. The simplicity of design and the use of low-voltage diodes allows the designer to use the advertisement by the customers themselves. The technical result is achieved due to the industrial line production of standard modules, from which volume light letters and symbols are then constructed, used in advertising and information signs. The produced modules can be completed with the designers of volume light letters and symbols in the required composition during sales in specialized stores or Internet stores and delivered to end users (entrepreneurs, advertising firms) anywhere in the country for further use in the assembly of advertising and information signs, light signs , signs.

Description

1. Name of utility model

Modular constructor for the manufacture of three-dimensional light letters and symbols for advertising signs.

2. The technical field to which the utility model relates.

The utility model relates to the field of advertising and exhibition business and is intended for the manufacture of advertising and information signs, illuminated signs, illuminated signs.

3. The prior art, a known device that is being improved in the proposed utility model.

Advertising and information signs relate to the objects of outdoor and indoor advertising. These are the three-dimensional designs most demanded in the advertising market, possessing maximum attractiveness and special aesthetics. Their visual effect far exceeds the power of perception of a flat image due to a brighter texture and decorativeness. Against the general background of flat advertising and information media, three-dimensional signs using volume letters and various backlight options look advantageous day and night, which means that their working capacity is 24 hours a day. At the same time, signboards with volumetric letters are easily readable at any time of the day.

Currently, there are many technologies for manufacturing volumetric light letters and symbols, which have one thing in common: letters for signboards are made entirely individually at specialized facilities. Conditionally three-dimensional light letters can be divided by appearance, size, material from which they are made and technique. Different types of classification are given in various sources (www.vink.ru./info/articles/291 /; www.spbridka.rf /? P = 80; www / proplakat.rf / products; www.pro-rek.ru/portfolio / podmenvu-razdela-2 /: and others.The proposed utility model relates to the manufacture of classic volumetric letters of small and medium size with a luminous front (as well as side) panels.

You can familiarize yourself with various technologies for manufacturing volumetric light letters and symbols on the websites of various companies specializing in the manufacture of outdoor advertising. For example:

RECOL (http: www.rekol.ru), Alaska (http: www, alaska-.s.ru), First direction (http: www.viveska.info), PRO-R (http: www.pro-r .ru / site / entry / svetovaya_reklama /), Virage (http: www. viraj-spb.ru) and others. The main points in the proposed technologies are:

1. Development and coordination with the customer of the appearance of the letters.

2. Production of volume letters, symbols, signs at the customer’s production.

3. The manufacture of the supporting structure at the customer’s production.

4. Exposure, fastening of letters and symbols on the supporting structure.

5. Installation and electrical wiring of LED circuits.

6. Installation by the manufacturer or transfer to the customer of the sign.

The disadvantages of the above typical technologies are:

1. A sufficiently large time from item 1 to item 6, especially in conditions of remote location of the customer.

2. The great difficulty of making changes to the finished sign. Almost need to order a new one.

3. The complexity of service signs by the customer.

4. The customer’s lack of ability to quickly assemble on their own to assemble and disassemble the required sign (in terms of content). The solutions closest to the proposed utility model are:

A) The technology of manufacturing volumetric light letters with their own hands, described on the company's website NOTably (http://zametno.su/page/294) (see Ex. No. 1) However, in order to assemble a sign according to this technology, you must:

1. To have professional knowledge and labor skills in the production of advertising.

2. To make orders for the manufacture of components in various specialized firms.

This is a serious obstacle to solving the problem.

B) The use of LED-boards (LED, LED-, Flash-, flash-boards) (http://flash-doska.ru) (See Project No. 2) This board allows you to clearly place any information by the customer, without any either production skills. However: 1. Draw symbols on it manually.

2. Boards are limited in size.

3. The high cost of such boards.

Thus, the acquisition of such a board and its use as a sign does not solve the problem. (The main purpose of using taxi taxi is to display rapidly changing information)

B) Of interest is the Russian development “LED Module Designer“ Lite-Light ”, manufactured in China and offered by Helvetika (http://www.helvetica-spb.ru/catalog-ee-spb.html) (CM Project No. 3 ) However, in essence, as the developer indicates, it is intended for use inside light letters and boxes for backlighting.

D) The various LED modules presented on (http://www.radiodetali.com/) and other sites are light devices intended for illumination in volume letters and symbols and can be used in the proposed modular constructor as a light element of the light module.

Thus, the current developments do not allow to solve the problem of reducing the complexity of the assembly of three-dimensional light letters and symbols intended for advertising signs by simplifying the technology of this process, in order to provide customers with the opportunity to collect signs if necessary.

It should be noted that the mass of consumers, especially in large and medium-sized businesses, is interested in individual signs, but a large segment of small businesses, especially at the initial stage of formation, would prefer inexpensive standard signs that they could collect from the ordered modules of letters and symbols, Install and maintain by yourself. Another area of use of the above signs, consisting of letters and symbols assembled from the proposed constructor, are various thematic industrial temporary exhibitions, as well as information temporary signs installed on infrastructure objects, for example, road and the like. As a power source for such signs, not only a stationary electric network can be used, but also ordinary batteries (automobile, instrumental).

While bulky neon glass lights with a supply voltage of up to 10,000 volts or fluorescent lamps were used to illuminate the signs, this was not possible, because working with such light devices requires special training, but with the advent of low-voltage light diodes, the situation has changed dramatically.

4. The goal that should be achieved as a result of the application of the proposed utility model.

The purpose of the development of this utility model is to eliminate the above disadvantages, namely, reducing the complexity of the assembly of volume light letters and symbols intended for advertising signs, by simplifying the technology of this process. As a technical solution to the problem, it is proposed to use for this purpose the proposed designer of three-dimensional light letters and symbols from modules in which light diodes are used as light devices. Letters and symbols are assembled from typical light modules, like cubes. The modules are various in shape and are interconnected using spring connectors. This will allow the assembly of advertising signs with cheaper low-skilled personnel or by the forces of the customers themselves, with knowledge in the volume of high school.

The technical result is achieved due to industrial line production of typical volume letters modules, which can then be sold in specialized stores or online stores and delivered to end users (entrepreneurs, advertising firms) anywhere in the country. And already from the ordered set of modules, the user can independently assemble the required sign. Naturally, the modules should be produced in series that vary in size, color, font, etc.

5. Disclosure of a utility model.

The utility model is a constructor of modules made in the form of a hollow parallelepiped, a cube, a pyramid, a quarter or a half cylinder, a diagonal half of the cube. The front surface of the module is made of a dielectric material, both light-conducting and non-transmitting light, such as acrylic or PVC of different colors. The front surface can be either flat or convex. Also, the front surface can be made of a dielectric opaque material, both flat and convex, in which there are holes in diameter of the diodes used, arranged in the form of a grid or in another order, and diodes are inserted into these holes, the luminous side out. The side surfaces are made of a dielectric material, both light-conducting and non-transmitting light, such as acrylic or PVC of different colors. They are equipped with recessed metal spring-loaded sockets with limiters of at least two, into which conductive cylindrical or rectangular connecting elements are inserted for the electrical and mechanical connection of each two neighboring modules. The back surface is also made of a dielectric material, both light-conducting and non-transmitting light, such as acrylic or PVC. On the back surface there are LEDs, both ordinary and RGB (multi-color). Moreover, in the case of using RGB diodes, the number of connecting elements between the modules should be at least four. On the back side of the rear surface there are devices in the form of flat pivoting loops that can be extended, or threaded rods or threaded holes designed for fastening the modules in the assembly to the supporting structures. On the back side of the rear surface there is also a connector for connecting assembled from letter modules into an electric circuit. The outputs of the neon diodes inside the module are connected to the sockets and connector. The connection is parallel.

6. Brief Description of the Drawings

In the drawing (1) a Set of modules 1 are presented in a direct projection (front view) a set of modules, with diodes located inside the modules and the option of assembling the letters "C" from them.

In the drawing (2), a set of modules 2 are presented in a direct projection (front view) a set of modules with diodes located inside the modules and the option of assembling the letters “C” from them.

In the drawing (3) a Set of modules 3 are presented in a direct projection (front view) a set of modules with open diodes located on the front surface and the option of assembling the letters “C” from them

In the drawing (4), Module 1 shows one of the modules, with diodes located inside it, in three projections with a cut. The section also shows the connecting elements.

In the drawing (5), Module 2 shows one of the modules, with open diodes located on the front surface, in three projections with a cut. The section also shows the connecting elements. 7. Implementation of a utility model.

The implementation of this utility model is carried out by industrial line production of typical volumetric modules. Structurally, the modules can be manufactured in several ways: 1. The front, side and rear surfaces are separately manufactured and then they are glued into a single module of the required shape. 2. The front and side surfaces are made as a whole by casting, the back surface is made separately and then both parts are glued into a single module of the desired shape. 3. The front and back surfaces are made separately, and the perimeter of the side surfaces is made as a whole by casting and then they are glued into a single module of the desired shape. Recessed metal spring-loaded slots with stops intended for fastening the modules to each other, as well as for transmitting the supply voltage for the diodes, should be located in the middle of the side surfaces and recessed to a depth of no more than 10% -20% of the module width, in order to avoid darkening on front surface of the module.

Claims (15)

1. Modular constructor for the manufacture of three-dimensional light letters and symbols for advertising signs made in the form of a hollow parallelepiped with an open dielectric light-conducting front surface both in flat and convex versions and with open dielectric rectangular back and side surfaces with recessed metal not less than two spring-loaded sockets with limiters into which conductive cylindrical connecting elements are inserted, for electrically mechanical and mechanical connection between each of two adjacent modules, characterized in that LEDs are installed inside each, and devices on the rear surface are installed in the form of flat rotary loops for fastening the modules in the assembly to the supporting structures. 2. The designer according to claim 1, characterized in that the front surface is made of dielectric opaque material in both flat and convex versions, in which there are holes in diameter of the diodes used, located in the form of a grid or in another order, and in these holes are inserted diodes with the luminous side out. 3. The designer according to claim 1, characterized in that the side surfaces are made of dielectric light-conducting materials. 4. The designer according to claim 1, characterized in that the rear surface is made of a dielectric light-conducting material. 5. The designer according to claim 3, characterized in that the rear surface is made of dielectric light-conducting material. 6. The designer according to any one of claims 1, 3-5, characterized in that the front surface is made of dielectric opaque material, both in flat and convex versions. 7. The designer according to claim 1, characterized in that it comprises a cube-shaped module, the side face of which has a size equal to the size of the small side face of the parallelepiped, with recessed metal sockets in the side walls for mounting on plug-in conductive connecting elements. 8. The designer according to claim 1, characterized in that it comprises a module in the form of half a cube, divided into two halves by a diagonal plane, with recessed metal sockets in the side walls for mounting on plug-in conductive connecting elements. 9. The constructor according to claim 1, characterized in that it comprises a quarter-cylinder module, the straight side walls of which have a size equal to the size of the small side face of the parallelepiped, with recessed metal sockets in the straight side walls for mounting on plug-in conductive connecting elements. 10. The designer according to claim 1, characterized in that it comprises a module in the form of a half-cylinder, the straight side wall of which has a size equal to the size of the small side face of the parallelepiped, with recessed metal sockets in the straight side wall for mounting on plug-in conductive connecting elements. 11. The designer according to claim 1, characterized in that it comprises a module in the form of a pyramid or a truncated pyramid with recessed metal sockets in the side walls and bases for mounting onto plug-in conductive elements. 12. The designer according to any one of claims 1, 7-11, characterized in that the recessed connecting metal spring-loaded jacks and conductive connecting elements have a rectangular cross-section. 13. The designer according to any one of claims 1, 7-11, characterized in that the recessed connecting metal spring-loaded jacks and conductive connecting elements have a square section. 14. The designer according to any one of claims 1, 7-11, characterized in that on the back surface there are threaded rods for fastening the modules in the assembly to the supporting structures. 15. The designer according to any one of claims 1, 7-11, characterized in that on the back surface there are holes with threads for mounting the modules in the assembly to the supporting structures.

Images