RU139697U1 - SHIP LED LIGHT - Google Patents

Abstract

1. A light device comprising a housing made in the form of a glass, equipped with ribs on its cylindrical surface, 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 placed inside the housing, an optically transparent cap mounted outside the holder with LED modules, characterized in that the holder is made hollow and with a flat ring at the base of the pyramid having more than 6 faces, made in the form of a single part, the power supply is also located inside the holder, the flat ring of the holder is connected on one side with the open base of the cap wall, and on the other hand, with the open base of the wall of the housing cup. 2. The light device according to claim 1, characterized in that the outer surface of the holder is made reflective. The light device according to claim 1, characterized in that the cap wall is made of light-scattering. The light device according to claim 1, characterized in that the holder is made of heat-conducting material. The light device according to claim 1, characterized in that the holder is made in the form of a truncated pyramid having 8 faces. The light device according to claim 1, characterized in that the housing is equipped with at least one cable gland. The lighting device according to claim 1, characterized in that a terminal connector is installed installed inside the housing. The lighting device according to claim 1, characterized in that a sealing washer is inserted, and the flat ring of the holder is coupled with the open base of the cap wall through it.

Description

The utility model relates to lighting devices and can be used in various industries, mainly on surface and / or underwater vehicles.

A well-known ship local lighting fixture comprising a metal housing with a gland entry for a power cable, a board with light sources and elements of an electronic power supply and control unit, a diffuser, a back cover, sealing parts, while the metal housing simultaneously serves as a heat sink for light sources, an electronic power supply and the control can be connected to the mains supply of either alternating or direct current, and at the output it has a stabilized direct current to power the light sources, as in which superbright light-emitting diodes of white luminescence are used, and the design provides for smooth adjustment of the luminous intensity of the light sources, and the shape of the diffuser surfaces provides the required direction of light output and suppression of the glare effect (RF Patent No. 80152, U1, publ. January 27, 2009).

A limitation of this device is the linear placement in the same plane of the light emitting diodes, which does not allow to create a uniform distribution of the light flux. The design is complicated due to the introduction of adjusting the intensity of the glow of the light sources.

Known lamp for emergency lighting of the interior of surface and submarines, containing a metal body, rulers with light sources and elements of an electronic power supply and control located on them, a diffuser, seal details, while the metal body is made in the form, and the diffuser is made in the form of a concave outward plates with a finely divided prismatic inner surface (RF Patent No. 123898. U1, publ. 10.01.2013).

A limitation of this technical solution is the linear placement of light-emitting diodes on a concave surface inside the housing, which does not allow to create a uniform distribution of the light flux. The design is complicated due to the introduction of adjusting the intensity of the outgoing light flux and power from both direct and alternating current networks.

Known LED lamp containing a housing, installed in it, at least two matrix of LEDs and a unit for their power supply, and the housing is made of heat-conducting material with a compartment for the power supply, a compartment for the placement of LED matrices, 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 fettered and one middle horizontal faces, made with the possibility of installing matrices of LEDs on them and providing the required direction of light output, heat transfer from the LED matrices to the hollow profile and heat sink to the surrounding space, while 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, while inside the hollow metal profile is divided by longitudinal partitions into separate cavities, and the cavity under the trihedral side made with the possibility of placing in it a power supply with conductive wires to the matrices of LEDs. (RF patent No. 90165, U1, publ. 12/27/2009).

A limitation of this technical solution is the linear arrangement of light emitting diodes in three planes extending along the sides of the trapezoid, which does not allow creating a uniform distribution of the light flux, especially in the end directions.

An explosion-proof LED lamp is known, 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 on sections of the side faces of the hollow pyramid connected to the holder and are oriented by optical axes perpendicular to the indicated faces, case-free surface-mounted LEDs are used that are mounted on the boards, and the dimensions of the boards correspond to the dimensions of the side faces of the peers IDs, 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 via an explosion-proof distribution box mounted on the outer side surface of the case, and the driver mounted on the back of the disk (RF Patent No. 127429, U1, publ. 04/27/2013).

A limitation of this device is the use of unsuccessful surface-mounted LEDs and the power supply to the LEDs through an explosion-proof junction box installed on the outer side surface of the case, and through a driver installed on the back of the drive, which increases the size and complicates installation. The absence of fins on the housing impairs heat dissipation. Due to the use of an explosion-proof junction box installed on the outside of the case and a driver installed on the back of the drive, the device is quite large and does not provide ease of installation.

Known round-light flashing light, comprising a housing with a protective cap and two, three or more groups of light-emitting diodes mounted on the holder connected to current supply means, the holder is made in the form of fittings with two, three or more hollows assembled on it correctly truncated pyramids with a coinciding longitudinal axis of symmetry, on the apofem of each of the side faces of which light-emitting diodes are mounted with optical axes perpendicular to the indicated faces of the truncated pyramids (RF Patent No. 2153623, C1, publ. 07.27.2000).

The device allows for uniform circular illumination, but its drawback is the design complexity due to the use of a large number of truncated pyramids, the complexity of their layout and installation of current supply means.

The closest is a light device containing a housing made in the form of a glass, equipped with ribs on its cylindrical surface, 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 located inside the housing, a cap, - optically transparent, mounted outside the holder with LED modules (RF Patent No. 123895, U1, publ. 10.01.2013).

In this technical solution, the light device comprises a light source based on solid-state light-emitting elements mounted on the faces of the holder in the form of a pyramid coupled to a reflector. The case contains batteries and connections. Optically transparent cap closes the light source. The body is made in the form of an inverted glass with ribbing of the outer side surface. The holder is made monolithic and is installed by the base of the pyramid on a flat surface of the body in its middle part. The case in the form of a glass is equipped with a lid. The reflector is made of 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 housing around it.

Due to the presence of a reflector, as a separate part, as well as a cover, the design is complicated. The case in the form of a glass is paired with a monolithic pyramid of the holder with its bottom. The implementation of the monolithic holder complicates the installation, since access to supply power to the LEDs is unsatisfactory, the placement of the power supply exclusively in the housing increases the longitudinal dimensions.

The technical result that is obtained by performing the claimed utility model is the simplification of a compact design and installation work.

To achieve the specified technical result, in a known light device containing a housing made in the form of a glass, equipped with ribs on its cylindrical surface, 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 placed inside the housing, the cap is optically transparent, mounted outside the holder with LED modules, according to the claimed device, the holder is hollow and with a flat ring in the main A pyramid with more than 6 faces and made as a single part is constructed, the power supply unit is also located 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 the open base of the wall of the body cup.

Additional embodiments of the device are possible, in which it is advisable that:

- the outer surface of the holder was made reflective;

- the cap wall was made light-scattering;

- the holder was made of heat-conducting material;

- the holder was made in the form of a truncated pyramid;

- the housing was equipped with at least one cable gland;

- a terminal connector installed inside the housing has been introduced;

- a sealing washer was introduced, and the flat ring of the holder is paired with the open base of the cap wall through it.

The indicated advantages of the utility model, as well as its features are explained with the help of an embodiment with reference to the attached drawing.

Figure 1 depicts a drawing of the claimed light fixture disassembled before assembly.

The light device (figure 1) contains a housing 1. made in the form of a glass equipped with ribs. The device has LED modules 2, holder 3. The outer surface of the holder 3 is made in the form of a pyramid having more than 6 faces on which LED modules 2 are mounted. The power supply unit 4 is placed inside the housing 1. The cap 5 is made optically transparent and mounted outside of the holder 3 with LED modules 2. The holder 3 is made hollow and with a flat ring 6 at the base of the pyramid, made in the form of a single part. The power supply 4 is also located inside the holder 3. The flat ring 6 of the holder 3 on one side is associated with the open base of the wall of the hood 5, and on the other hand with the open base of the wall of the glass of the housing 1.

To further simplify the device, the outer surface of the holder 3 is made reflective (reflector as a separate part is excluded).

The wall of the cap 5 can be made light-scattering (embossed) to disperse the light flux and eliminate blinding effects with a direct look at the light device.

The holder 3 is made of heat-conducting material to improve the heat sink of the LED modules 2.

To further reduce the longitudinal dimensions, the holder 3 is made in the form of a truncated pyramid with many faces, theoretically approaching a spherical, but easier to manufacture and mount LED modules 2.

The housing 1 can be equipped with, but at least one cable gland 7 to improve dust and moisture resistance.

For added ease of installation, a terminal connector 8. can be inserted inside the housing 1.

A sealing washer 9 can be introduced, and the flat ring 6 of the holder 3 is interfaced with the open base of the wall of the cap 1 through it to further improve the dust and moisture resistance.

Figure 1 also shows: stud 10, hook 11, cover 12 of terminal connector 8, plate 13 of terminal connector 8, screw 14 of cover 12, screw 15 of terminal connector 8, as well as screw 16 of cap 5, flat ring 6 and sealing washer 9 .

Fit.1 clearly confirms the ease of assembly and installation.

When developing a ship LED light fixture - the declared light fixture, the key points were: simplification while ensuring the distribution of snow flow R, with a power of not more than 20 W, operation from a network of 127 V, all no more than 2 kg, dimensions no more than 200 × 200 × 300 mm, dust and water tightness no less than IP 64, luminous flux no less than 1600 Lm, temperature on the lamp housing no more than 60 ° C, ability to withstand load in the amount of five times the mass of the lamp.

Since the holder 3 is hollow, and the flat ring 6 of the holder 3 is on one side connected with the open base of the wall of the hood 5, and on the other hand, with the open base of the wall of the cup housing 1, easy access to the mounted elements of the device is provided. The mounting wires (not shown in FIG. 1) are attached via terminal connector 8 to the cable, power supply unit 4, and then to the LED modules 2.

The power supply unit 4 is placed both inside the housing 1 and inside the holder 3, which reduces the size. When assembling the device, the power supply unit 4 is tightly mounted in the mounting clip (not shown in FIG. 1), which is located inside the holder 3.

The most successfully declared light device can be industrially used as a ship LED lamp, but can also be successfully used in other sectors of the economy with the ability to solve problems aimed at simplifying the design and improving operational properties, reducing dead zones and increasing strength parameters .

Claims (8)

1. A light device comprising a housing made in the form of a glass, equipped with ribs on its cylindrical surface, 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 placed inside the housing, an optically transparent cap mounted outside the holder with LED modules, characterized in that the holder is made hollow and with a flat ring at the base of the pyramid having more than 6 faces, made in the form of a single part, the power supply is also located inside the holder, the flat ring of the holder is connected on one side with the open base of the cap wall, and on the other hand, with the open base of the wall of the housing cup. 2. The light device according to claim 1, characterized in that the outer surface of the holder is made reflective. 3. The light device according to claim 1, characterized in that the wall of the cap is made of diffuser. 4. The lighting device according to claim 1, characterized in that the holder is made of heat-conducting material. 5. The lighting device according to claim 1, characterized in that the holder is made in the form of a truncated pyramid having 8 faces. 6. The light device according to claim 1, characterized in that the housing is equipped with at least one cable gland. 7. The lighting device according to claim 1, characterized in that a terminal connector is installed that is installed inside the housing. 8. The lighting device according to claim 1, characterized in that the sealing washer is inserted, and the flat ring of the holder is coupled to the open base of the cap wall through it.

Images