RU187449U1 - LED BLOCK - Google Patents

Abstract

The utility model relates to light-signaling devices for organizing movement, is intended for encoding and transmitting information when determining the position of objects moving along a given path, and can be used in the design of optoelectronic systems with high-precision positioning of a moving object, including a subway train, another rail vehicle, storage equipment, vehicles with automated maintenance system, as well as automatic maintenance, etc. The light-signal unit comprises a housing 1 in the form of a flat box divided by partitions into cells 2, in which light-signal elements 3 are placed, having a contact part with fastening means for fixing in the body cell, and a working part on which are made recesses with a fluorophore placed in them. In elements 3 applied fluorophore of the same species or different species. Elements 3 are placed in the housing 1 with the formation of a regular structure. The fastening means of the elements 3 are made with a detachable connection. Cell 2 of the housing 1 is made with the formation of a regular structure. The housing 1 is made to ensure the regularity of the structure formed by the cells 2 of the housing 1 with the sequential placement of at least two buildings. Elements 3 with different fluorophores are arranged in series so that the maximum difference in the response spectrum between adjacent elements 3 or groups of elements is observed. The technical result from the application of the utility model is the expansion of the arsenal of technical means of high-precision positioning of the vehicle. 8 s.p. f-ly, 2 ill.

Description

The utility model relates to light-signaling devices for organizing movement, is intended for encoding and transmitting information when determining the position of objects moving along a given path, and can be used in the design of optoelectronic systems with high-precision positioning of a moving object, including a subway train, another rail vehicle, storage equipment, vehicles with automated maintenance system, as well as automatic maintenance, etc.

The prior art light-signaling devices for marking the route of vehicles used to inform traffic participants, provide orientation along the route, safety.

It is known to use a package of light-signaling devices installed along a curving section of the roadway to indicate the curvature of the path in a longitudinal profile or in a plan according to GOST GOST R 52289-2004, Fig. B.29, B.30 to inform road users. The disadvantage of this device is the inability to encode unique information for positioning a moving object due to the imposition of responses from other objects.

A device is known, which is a package of light-signaling elements, namely, bands with fixed reflectors, used to determine the position of the aircraft during landing according to the patent of the Russian Federation No. 2654455. A disadvantage of the known technical solution is the inability to determine the exact position (location) of a moving object on the trajectory.

The task to which the proposed utility model is directed is to create a device that allows you to encode unique information suitable for sequential reading in real time to accurately determine the position of an object on the motion path.

The technical result from the application of the proposed utility model is the expansion of the arsenal of technical means of high-precision positioning of the vehicle.

The specified technical result is achieved in that the light-signal unit contains a housing with passive light-signal elements placed therein, while the housing is made in the form of a flat box divided by partitions into cells in which passive light-signal elements are fixed, having a contact part with fixing means for fixing in the cell housing, and the working part on which the recesses are made and a fluorophore is placed in them.

The case is made with a protective coating with poor light reflection.

In the light-signaling elements, one kind of fluorophore is used.

Various types of fluorophores are used in the light-signaling elements, while the light-signaling elements are placed in the housing with the formation of a regular structure.

The fastening means are designed to provide a detachable connection.

The housing is equipped with fastening means for mounting the unit in the place of its use.

The cells of the body are made with the formation of a regular structure.

The housing is designed to ensure regularity of the structure formed by the cells of the housing, with the sequential placement of at least two buildings.

Light-signal elements with different fluorophores are arranged in series so that the maximum difference in the response spectrum between adjacent light-signal elements or groups of elements is observed.

The utility model is illustrated by drawings.

In FIG. 1 shows a light-signal unit - top view.

In FIG. 2 shows a section AA of FIG. one.

A utility model can be implemented as follows.

The block includes a housing 1 made of a corrosion-resistant material - stainless metal, for example, aluminum alloy, hard thermosetting plastic. Case 1 has cells 2 located with the formation of a regular geometric structure consisting of a repeating finite set of objects. Blocks can be placed on barrier fences, platforms, beams, tunnel walls. When several blocks are placed sequentially in any direction of their case, the repetition of cells 2 is maintained. Cells 2 contain light-signaling elements 3 having a contact part with fixing means for fixing in the cell of the case, and a working part. Element 3 can be made in the form of a flat base, on one side of which there is a fastening element 4 for fixing the element 3 in the cell 2, at least one recess 5 is made on the other side of the base, filled with a fluorophore, for example, UV-curable ink with the addition of quantum points of production IQdemy http://www.iqdemy-chemicals.pro/ru/2017/07/14/chernila-na-osnove-kvantovyx-tochek-svoistva-primenenie-perspektivy/ or fluorescent paints Mala AA-1002374-2.

Fluorophores are selected so that adjacent light-signal elements, groups of elements differ significantly in spectral response.

The light-signal unit essentially resembles a cash register with signs placed in the cells connected to the cell by an assembly operation, forming an encoded signal transmitting information.

The device operates as follows.

The object moving along the trajectory illuminates the light-signal unit with ultraviolet light. In this case, a sequence of light responses with different spectral composition is reradiated by the fluorophores. The resulting responses are read sequentially in time as the object passes along the block. This oriented set of sequentially read spectral responses is encoded information about the position of the object on the motion path, which allows the recipient of information, in particular, the automatic control device of the vehicle, to carry out control actions. An example of such a control device is the control system "Vityaz" JSC "NIIP" them. V.V. Tikhomirova https://niip.ru/catalog/asu-metro/su-vityaz/.

The proposed utility model allows you to create a device for high-precision positioning of the vehicle and provides a stable controlled result when using it.

Claims (9)

1. A light-signal unit comprising a housing with light-signaling elements housed in it, characterized in that the housing is made in the form of a flat box divided by partitions into cells in which passive light-signaling elements are mounted, having a contact part with fastening means for fixing in the housing cell, and the working part on which the recesses are made with the fluorophore placed in them. 2. The light signal unit according to claim 1, characterized in that the housing is made with a protective coating with poor light reflection. 3. The light-signal unit according to claim 1, characterized in that a fluorophore of the same type is used in the light-signal elements. 4. The light-signal unit according to claim 1, characterized in that various types of fluorophore are used in the light-signal elements, while the light-signal elements are placed in the housing with the formation of a regular structure. 5. The light-signal unit according to claim 1, characterized in that the fastening means are designed to provide a detachable connection. 6. The light-signal unit according to claim 1, characterized in that the housing is equipped with fastening means for mounting the unit in a place of its use. 7. The light-signal unit according to claim 1, characterized in that the housing cells are formed with the formation of a regular structure. 8. The light-signal unit according to claim 1, characterized in that the housing is designed to ensure the regularity of the structure formed by the cells of the housing during the sequential placement of at least two buildings. 9. The light-signal unit according to claim 1, characterized in that the light-signal elements with different fluorophores are arranged in series so that the maximum difference in the response spectrum between adjacent light-signal elements or groups of elements is observed.

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