RU168162U1 - LIGHT INSTRUMENT - Google Patents

Abstract

The utility model relates to lighting devices using LEDs and can be used mainly on surface and / or underwater vehicles. The essence of the utility model is that it contains a radiator case, on the lateral surface of which there are fins for heat removal, LED modules with LEDs mounted in the inner lower part of the radiator case, a power supply connected to the LED modules and configured to connect to it is a power cable stretched through a pressure seal, as well as an optically transparent diffusing lamp mounted on top of the LED modules, the upper edge of which is connected to the lower edge of the radiator case pa, wherein the apparatus introduced removable cover connected to the upper edge of the radiator body, on which is fixed bracket configured to rigid attachment to a support surface for placing the light unit, and is configured in a detachable pressure seal lid. The device provides improved lighting quality while improving reliability and simplifying installation. 5 cp f-ly, 1 ill.

Description

The utility model relates to lighting devices using LEDs and can be used mainly on surface and / or underwater vehicles.

Known lamp marine local lighting [RU 80152, U1, B61D 29/00, F21S 8/10, 01/27/2009], comprising a metal housing with a gland entry for the power cable, a board with light sources and elements of an electronic power supply and control unit, a diffuser, the back cover, sealing parts, while the metal case simultaneously serves as a heat sink for light sources, the electronic power supply and control unit can be connected to the supply network of either alternating or direct current, and the output has a stabilized direct current for power supply light sources which are applied as a super-bright white light emitting diodes, the design provides smooth adjustment of the emission intensity of light source, and the shape of the lens surface provides the desired direction of light output and suppression of glare.

The disadvantage of this device is the relatively uneven distribution of the light flux due to the linear placement in the same plane of the light emitting diodes.

Also known is a lamp for emergency lighting of the interior of surface and submarines [RU 123898, U1, F21S 8/10, 01/10/2013], comprising a metal housing, rulers with light sources and electronic power supply and control elements located on them, a diffuser, details sealing, and the metal case is made in the form of surfaces concave inside the case, and the diffuser is made in the form of an outwardly concave plate with a finely divided prismatic inner surface.

The disadvantage of this technical solution is the relatively uneven distribution of the luminous flux due to the linear placement of the light emitting diodes on the surface concave inside the housing, which does not allow to create a uniform distribution of the luminous flux.

In addition, a known LED lamp [RU 90165, U1, F21S 8/10, 12/27/2009], comprising a housing, installed in it, at least two matrix LEDs and a unit for powering them; moreover, the housing is made of heat-conducting material with a compartment for the power supply unit, a compartment for the placement of LED arrays made profiled, and elements made on the housing for mounting the lamp in various operating conditions, while the housing is made in the form of a segment of a hollow metal profile, the front side of which is trihedral consisting of two inclined lateral and one middle horizontal faces, made with the possibility of installing matrices of LEDs on them and providing the required directions of light emission, heat transfer from the LED arrays to the hollow profile and heat sink to the surrounding space, the back side of the hollow profile is made in the form of a jumper connecting the rear parts of the side faces made with longitudinal grooves, inside the hollow metal profile is divided by longitudinal partitions into separate cavities, and the cavity under the trihedral side is made with the possibility of placing in it a power supply with conductive wires to the matrices of LEDs.

This technical solution also has the disadvantage associated with the relatively uneven distribution of the light flux, which is due to the linear placement of light-emitting diodes in three planes extending along the sides of the trapezoid, which does not allow to create a uniform distribution of the light flux, especially in the end directions.

Explosion-proof LED luminaire also belongs to the known ones [RU 127429, U1, F21S 8/00, 04/27/2013], consisting of a housing and a diffuser, in which several groups of light-emitting diodes are connected to the power supply, and the LEDs are made in groups of sections of the side faces of the hollow pyramid connected to the holder, and are oriented by optical axes perpendicular to the indicated faces, surface-mounted light-emitting diodes are used that are mounted on the boards, moreover, the dimensions of the boards correspond the dimensions of the side faces of the pyramid, and the holder is made in the form of a hollow truncated pyramid, the base connected to the installation disk, and the pyramid, holder and disk are made integrally in the form of a module, and the power supply to the LEDs is through an explosion-proof junction box mounted on the outer side surface of the housing , and a driver installed on the back of the disk.

The disadvantages of this technical solution are the relatively low reliability due to poor heat dissipation due to the absence of fins on the housing, as well as the relatively large dimensions and high complexity of installation.

In addition to the above, also known is a circular signal light [RU 2153623, C1, F21S 2/00, 07/27/2000], comprising a housing with a protective cap and two, three or more groups of light-emitting diodes connected to current supply means mounted on the holder therein the holder is made in the form of reinforcement with two, three or more hollow correctly truncated pyramids assembled on it with a coinciding longitudinal axis of symmetry, on the apofem of each of the side faces of which light-emitting diodes with optical and axes perpendicular to the indicated faces of the truncated pyramids.

The disadvantages of the device are the relatively high complexity due to the use of a large number of truncated pyramids, the complexity of their layout and installation of current-carrying means.

Another analogue of the proposed is a light device [RU 123895, U1, F21S8 / 00, 01/10/2013], containing a light source based on solid-state light-emitting elements mounted on the faces of the holder in the form of a pyramid, paired with a reflector, a housing with power elements placed in it and connections, and an optically transparent cap that covers the light source, while the body is made in the form of an inverted glass with ribbing of the outer side surface, the holder is made monolithic and mounted with the base of the pyramid on a flat surface the body in the middle part, the reflector is made of a complex spatial shape, repeating the shape of the surfaces on which this reflector is superimposed: the shape of a pyramid and a free flat surface of the body around it.

This device also has disadvantages associated with the relatively high complexity of the design due to the presence of a reflector as a separate part, as well as a cover, and the complexity of installation, which is due to the implementation of the holder monolithic, since in this case access to supply power to the LEDs is complicated.

The closest in technical essence to the proposed one is a light device [RU 139697, U1, F21S 8/00, 04/20/2014] containing a housing made in the form of a glass (inverted bowl) equipped with fins on the cylindrical surface that provide heat dissipation, LED modules, a holder, the outer surface of which is made in the form of a pyramid, on the faces of which LED modules are installed, a power supply unit located inside the case, an optically transparent cap (diffusing cover) mounted outside the holder with LED modules, while the holder is made hollow and with a flat ring at the base of the pyramid having more than six faces, made as a single part, the power supply is also placed inside the holder, the flat ring of the holder on one side is interfaced with the open base of the cap wall, and on the other hand - with an open base of the wall of the housing glass.

A feature of this technical solution is that the outer surface of the holder is made of reflective, the wall of the cap is made of diffusing, the holder is made of heat-conducting material in the form of a truncated pyramid with eight faces, the housing is equipped with at least one cable gland and a terminal connector installed inside the housing , and the device itself is attached to the ceiling of the room with a hook.

The disadvantage of such a light device is the relatively poor quality of lighting.

Indeed, since the radiator case is made in the form of a glass (inverted bowl), the known light fixture is attached to the ceiling by a hook, as shown in its description. However, with its predominant use on surface and / or underwater vehicles and fastening to the ceiling of the room, under the conditions of movement of the vessel and natural pitching, the light device in suspension does not exactly repeat the trajectory of the room as a whole and this leads to a constant change in the illumination of the room under these conditions and the emergence of "dead zones". Therefore, the disadvantage of using such a light device is the relatively low quality of lighting due to the instability (inconstancy) of lighting the space inside the room on surface and / or underwater vehicles.

In addition to the noted drawbacks, it can be pointed out that there is no possibility of fixing the lamp at an angle to the surface of the mount. It also reduces the quality of lighting rooms with a complex internal structure and the appearance of "dead zones".

The disadvantage of the closest technical solution is the relatively low reliability caused by the fact that the cable gland in the radiator case creates a thermal effect on the cable in the most critical place - at the entry point, which also reduces the reliability of the device, and the use of the hook causes the mechanical effect of the case on power supply cable, which causes the possibility of mechanical damage, which, thus, reduces the reliability of the device as a whole.

Another important drawback of the closest technical solution is the relatively complex installation process in the room, associated with the complexity of connecting the power cable to the power supply.

The problem that is solved in the proposed utility model is the creation of a lighting device that, when used for lighting rooms on surface and / or underwater vehicles, provides improved lighting quality while improving reliability and simplifying installation.

The required technical result is to improve the quality of lighting while improving reliability and simplifying installation.

The problem is solved, and the required technical result is achieved by the fact that in a light device containing a radiator case, on the side surface of which there are fins for heat dissipation, LED modules with LEDs mounted in the inner lower part of the radiator case, a power supply connected to LED modules and made with the possibility of connecting to it a power cable drawn through a pressure seal, as well as an optically transparent diffusing lamp mounted on top of the LED modules, top the second edge of which is connected to the lower edge of the radiator case, according to a utility model, a removable cover is introduced connected to the upper edge of the radiator case, on which a fastening bracket is mounted, which can be rigidly fixed to the bearing surface to accommodate the light fixture, and the pressure seal is made in removable cover.

In addition, the desired technical result is achieved by the fact that the mounting bracket is made with the possibility of inclined fixation of the light device to the bearing surface.

In addition, the desired technical result is achieved by the fact that the mounting bracket is made of a U-shape with a vertical orientation.

In addition, the required technical result is achieved by the fact that the mounting bracket is made of a U-shape with a horizontal orientation.

In addition, the required technical result is achieved by the fact that the radiator case, on which the U-shaped mounting bracket with a vertical orientation is mounted, is additionally equipped with a U-shaped mounting bracket with a horizontal orientation.

In addition, the required technical result is achieved by the fact that the casing-radiator is made in the form of a cylinder.

The drawing shows a light device, a General view.

In the drawing are indicated:

1 - case-radiator, 2 - removable cover, 3 - mounting bracket, 4 - optically transparent diffusing lamp, 5 - pressure seal, 6 - mounting bracket with horizontal orientation.

The proposed light device contains a radiator housing 1, on the side surface of which fins are made for heat removal.

The light device also contains LED modules (not shown in the drawing) with LEDs mounted in the lower inner part of the radiator housing 1, as well as a power supply unit (not shown in the drawing) connected to the LED modules and configured to connect a power cable to it, stretched through the pressure seal 5.

In addition to the above light device contains an optically transparent diffusing lamp 4, mounted on top of the LED modules and the upper edge of which is connected to the lower edge of the housing-radiator 1.

A feature of the proposed light fixture is that a removable cover 2 is introduced, connected to the upper edge of the radiator housing 1, on which a fastening bracket 3 is mounted, made with the possibility of rigid fastening to a bearing surface (for example, a ceiling or a wall of a room) to accommodate a light fixture, and the pressure seal 5 is made in a removable cover 2.

The mounting bracket 3 can be made with the possibility of inclined fixation of the light device to the bearing surface. Moreover, the mounting bracket 3 is made in a U-shape or with a vertical orientation (position 3) or with a horizontal orientation (position 6), or an option can be used when both mounting brackets are present.

The case-radiator 1 itself can be made in the form of a cylinder.

The light fixture is used as follows.

The light fixture is attached with its mounting bracket 3, usually to the ceiling of the room, but due to the fact that it is made with the possibility of inclined fixation relative to the axis of attachment to the removable cover 2, it provides comfortable lighting of the necessary sections of the room, which is an advantage relative to the closest technical solution. For wall mounting, a horizontally oriented mounting bracket 6 or both brackets can be used for more reliable mounting in the corners of the room.

After the supply voltage is supplied through the power cable to the power supply, radiation from the LEDs installed on the LED modules occurs and the room is illuminated through a diffusing lamp 4.

Under the conditions of the vessel’s movement and natural rolling, the light fixture in the fixed state exactly repeats the trajectory of the room, and this leads to a constant illumination of the necessary sections of the room or the whole room. This improves the quality of lighting relative to the closest technical solution, especially indoors on surface and / or underwater vehicles.

In addition, the thermal effect on the cable is excluded in the most critical place at the place of entry into the device, which also increases the reliability of the device. The mechanical effect on the cable is also excluded, since it is connected to a cover stably attached to the bearing surface of the room.

Additionally, one can note the achievement of such a positive effect as simplification of installation. Due to the fact that a removable cover with a hermetic input is used, at first the required number of covers and the supply cable to them are fixed in the room, and the remaining parts of the devices can be completely assembled. Then, through the upper hole of the radiator case, the power cable is connected to the power supply and the radiator case is attached to the cover.

Thus, the proposed technical solution ensures the achievement of the required technical result, which consists in improving the quality of lighting while improving reliability and simplifying installation.

Claims (6)

1. A light device comprising a radiator case, on the side surface of which there are fins for heat dissipation, LED modules with LEDs mounted in the lower inner part of the radiator case, a power supply connected to the LED modules and configured to connect a power cable to it , stretched through the pressure seal, as well as an optically transparent diffusing lamp mounted on top of the LED modules, the upper edge of which is connected to the lower edge of the radiator housing, characterized in that on a removable cover connected to the upper edge of the radiator body, on which a mounting bracket is fixed, made with the possibility of rigid attachment to the bearing surface to accommodate the light fixture, and the pressure seal is made in a removable cover. 2. The lighting device according to claim 1, characterized in that the mounting bracket is made with the possibility of inclined fixation of the lighting device to the bearing surface. 3. The lighting device according to claim 1, characterized in that the mounting bracket is made in a U-shape with a vertical orientation. 4. The lighting device according to claim 1, characterized in that the mounting bracket is made in a U-shape with a horizontal orientation. 5. The lighting device according to claim 3, characterized in that the casing-radiator on which the U-shaped mounting bracket with a vertical orientation is mounted is additionally equipped with a U-shaped mounting bracket with a horizontal orientation. 6. The light device according to claim 1, characterized in that the casing-radiator is made in the form of a cylinder.

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