RU87832U1 - DIODE ENERGY SAVING NON-SECONDARY LAMP - Google Patents

Abstract

1. A diode energy-saving baseless lamp, characterized in that it is dustproof and waterproof and includes a housing with an electronic module housed in it, equipped with a plurality of LEDs and connected to a wiring harness that is sealed from the housing, a lens made of translucent material connected to the housing, and mounting base, and the housing is detachably connected to the mounting base by means of a lock connection, and the mounting base is made with a hole whose diameter is provided pass the electric wire to the connector and holes for fastening elements, wherein the lens body and the mounting base are interconnected snugly formed using seals. ! 2. The diode lamp according to claim 1, characterized in that in the end part of the housing adjacent to the mounting base, locking elements are made in the form of curly protrusions for connection with the mounting base having mating locking elements in the form of curly grooves. ! 3. The diode lamp according to claim 2, characterized in that the housing comprises at least one preferably cylindrical wall and a bottom connected to it, and the locking elements in the form of curly protrusions for connection with the mounting base are flush with the bottom of the housing. ! 4. The diode lamp according to claim 3, characterized in that the electrical wire is hermetically removed from the housing through a through hole made in the bottom of the housing and sealed on the inside of the housing with a cured polymer mass, for example polymerized resin, cast in the area of the output of the electric wire, partially limited one side of the wall to

Description

The utility model relates to lighting devices, namely to energy-saving lamps based on light diodes. The main area of use of the lamp is outdoor advertising, however, the technical solution is not limited only to this area and can be applied in any area where fast installation and reliable operation of lighting lamps is required, preferably as part of an electrical network consisting of, including similar lamps and other electric lighting fixtures.

A LED lamp is known from the prior art, comprising a LED emitter module including a printed circuit board with LEDs, a radiator, a hollow cylindrical body with an electronic unit containing a control system with a control element, a voltage converter and current stabilizing elements, a contact system that connects a source through an electronic block external voltage with a printed circuit board with LEDs, and on the printed circuit board next to the LEDs there is a temperature sensor connected with a control element of the control system, a transparent diffuser is fixed on the radiator, covering the printed circuit board with LEDs on top. (RU 80285 U, H01L 33/00, 01/27/2009).

Also known is a LED lamp including an LED, one of the electrical terminals of which is connected to a metal base forming one of its electrodes and the other is connected to its end electrode, a dielectric sleeve mounted on the end of the base, a ballast, and the LED and its electrical terminals are included base to the plane of attachment of the semiconductor emitting element, while the electrical connection of one of the electrical terminals of the LED with the electrode of the lamp is carried out by an internal metal base of the base, and the free volume of the base is filled with heat-conducting base mastic. (RU 2231170 C2, H01L 33/00, 06/20/2004)

An energy-saving circular LED lamp is also known, which contains a board with LEDs soldered and mechanically fixed by means of a heat-conducting dielectric compound, arranged in concentric circles at angles from 0 to 90 °, while the extreme LEDs are soldered around the perimeter and at an angle of 90 ° to the round the board with the bodies pressed to it and have an oval, extended in the horizontal plane, luminescence pattern, and the LEDs located behind them in a circle are soldered to the board At an angle of 45 ° with the bodies pressed against it, they have a wide-angle luminosity diagram. (RU 63490 U, F21S 8/00 05/27/2007).

A disadvantage of the known technical solutions is the lack of dust and moisture protection and the inconvenience of installation and maintenance.

The task, the technical solution is aimed at, is to create an economical lighting device, the design of which ensures the convenience and speed of installation, as well as a sufficient degree of tightness and dust protection of the device during operation, including under the influence of precipitation at any time of the year.

The problem is solved due to the fact that the diode energy-saving baseless lamp, according to the invention, it is dustproof and waterproof and includes a housing with an electronic module housed in it, equipped with a plurality of LEDs and connected to a wiring harness that is sealed from the housing, connected to the housing a lens made of translucent material and a mounting base, the housing being detachably connected to the mounting base by means of a lock connection, and the mounting base is made with miles, the diameter of which provides the electric wire with a connector pass, and holes for fixing elements, wherein the lens body and the mounting base are interconnected snugly formed using seals.

In the end part of the housing adjacent to the mounting base, locking elements in the form of figured protrusions can be made for connection with the mounting base having mating locking elements in the form of figured grooves.

The housing may comprise at least one, preferably cylindrical wall and a bottom connected to it, and the locking elements in the form of figured protrusions for connection with the mounting base are flush with the bottom of the housing.

The electrical wire can be hermetically removed from the housing through a through hole made in the bottom of the housing, and sealed on the inside of the housing with a cured polymer mass, for example, polymerized resin, poured into the outlet area of the electrical wire, partially limited on one side by the wall of the housing, and on the other, by an additional a wall, preferably a curved shape, integral with the bottom and the wall of the housing.

The wall of the housing from the inside may contain protrusions and / or recesses reciprocal to the recesses and / or protrusions on the basis of an electronic module, made mainly in the form of a printed circuit board.

The lamp lens can be made convex, preferably dome-shaped and provided with a thread in the end part for connection with the lamp housing, and the housing wall on the inside contains a thread corresponding to the thread of the lamp lens.

Or, the lamp lens may be convex, preferably dome-shaped and provided with a step for connection with the lamp housing.

The lens of the lamp can be made of high impact polymer, for example polycarbonate.

The lens of the lamp can be made with an external smooth dome-shaped surface and a raised internal surface, preferably with ribs or grooves, or grooves and polyhedral or conical or spherical recesses for uniformly scattering light.

As at least part of the sealant, a cured polymer mass can be used, cast in the area where the lamp parts join.

As at least a part of the seals, a seal made in the form of a cylindrical or flat ring or a cord coiled of elastic material from the ring can be used.

The electronic module can be equipped with an electric element that provides a stroboscopic light effect of the lamp.

To adjust the flicker frequency of the diode lamp, the electric element can be equipped with a regulator, access to which is provided through a hole in the wall of the housing, and the hole is hermetically sealed with a plug made of an elastic polymer material, for example rubber.

The holes for the fasteners in the mounting base can be made of a smaller diameter than the hole for the passage of an electric wire with a connector.

The mounting base may have a bottom and a cylindrical wall with a shelf perpendicular to it, in which the locking elements are made in the form of curly grooves corresponding to the locking elements in the form of curly protrusions, made in the end part of the housing adjacent to the mounting base.

In the space between the wall shelf and the bottom of the mounting base, a latch for connecting the lamp housing to the mounting base can be located, made of elastic material and adjacent to the inner side of the wall of the mounting base.

The technical result achieved by the above set of features is to reduce the time and labor costs for installation, repair and maintenance during operation of the lamp by making a detachable connection of the housing to the mounting base by means of a lock connection, as well as making the mounting base with holes for fasteners and a hole that allows the passage of an electric wire with a connector, which is especially important in the case of installing many of these lamps interconnected in an electric circuit, as well as to increase the reliability, safety and efficiency of the device in various conditions and to extend its service life, including in the conditions of its round-the-clock operation, due to the implementation of a dust-proof diode lamp with tight fit to each other, including through the use of seals, a lens, a housing and a mounting base.

The utility model is illustrated by the following drawings, in which:

figure 1 is a cross section of a diode energy-saving baseless lamp;

figure 2 view a in figure 1;

figure 3 mounting base top view and in cross section;

figure 4 is a diode energy-saving baseless lamp, a view in a perspective view;

figure 5 - diode energy-saving baseless lamp during installation, side view;

figure 6 is a diode energy-saving baseless lamp Assembly, side view.

The essence of the technical solution is as follows.

The diode energy-saving baseless lamp 1 is dustproof and waterproof. It includes a housing 2 with an electronic module 3 located therein, equipped with a plurality of LEDs 4 and connected to an electric wire having a connector 5, which is hermetically removed from the housing 2, a lens 6 made of translucent material connected to the housing, and a mounting base 7. The housing 2 is detachably connected to the mounting the base 7 through the lock connection 8. The mounting base 7 is made with a hole 9, the diameter of which ensures the passage of the electric wire with connector 5, and holes 10 for fasteners. The lens 6, the housing 2 and the mounting base 7 are interconnected with a snug fit made using seals 11.

In the end part of the housing 2 adjacent to the mounting base 7, there are made locking elements in the form of curly protrusions 12 for connection with a mounting base having mating lock elements in the form of curly grooves 13.

The housing 2 comprises a cylindrical wall and a bottom connected to it. The locking elements in the form of figured protrusions 12 for connection with the mounting base are flush with the bottom of the housing.

The electrical wire is hermetically removed from the housing 2 through a through hole made in the bottom of the housing and sealed on the inside of the housing with a cured polymer mass, for example, a polymerized resin. The polymer mass is poured in the area of the output of the electric wire, partially bounded on one side by the wall of the housing, and on the other, by an additional wall, preferably of a curved shape, integral with the bottom and the wall of the housing.

The wall of the housing 2 from the inside contains protrusions and / or recesses reciprocal to the recesses and / or protrusions on the basis of an electronic module, made mainly in the form of a printed circuit board. This embodiment of the walls of the housing and the base of the electronic module provides reliable fixation in a predetermined position of the electronic module relative to the lamp housing, which positively affects the extension of the lamp life

The lens 6 of the lamp is convex, preferably dome-shaped and provided with a thread in the end portion for connection with the lamp housing, and the wall of the housing on the inside contains a mating thread for the lamp lens or the lens of the lamp is convex, preferably dome-shaped and provided with a shoulder for connection with the lamp housing . The lens of the lamp is made of impact-resistant polymer, for example, polycarbonate, which provides high strength and vandal-proof lamp. In addition, the lens is made with an external smooth domed surface and a raised internal surface, preferably with ribs or grooves, or grooves and polyhedral or conical or spherical recesses. This embodiment provides uniform light scattering and obtaining a luminance brightness identical to the properties of an incandescent lamp with greater energy consumption than the actual energy consumption of an energy-saving diode lampless lamp.

As seals 11, a cured polymer mass is used, cast in the area where the lamp parts are connected, and a seal made in the form of a cylindrical or flat ring or a cord coiled from an elastic material.

The electronic module 3 can be equipped with an electric element that provides a stroboscopic light effect of the lamp. Moreover, to adjust the flicker frequency of the diode lamp, the specified electrical element can be equipped with a controller. Access to the controller in this case is provided through an opening in the housing wall. The hole in the lamp housing is hermetically sealed with a plug made of an elastic polymer material, for example rubber, to ensure the dust and moisture protection of the lamp as a whole.

The holes for the fasteners in the mounting base 7 are made of a smaller diameter than the hole for the passage of the electric wire with the connector.

The mounting base 7 has a bottom and a cylindrical wall with a shelf perpendicular to it. In the shelf, the locking elements are made in the form of curly grooves reciprocal to the locking elements in the form of curly protrusions made in the end part of the housing adjacent to the mounting base. In the space between the wall shelf and the bottom of the mounting base, there is a latch for connecting the lamp housing to the mounting base, made of elastic material and adjacent to the inner side of the wall of the mounting base.

The device operates as follows.

When mounting a diode energy-saving baseless lamp 1 on the surface, the mounting base 7 is fixed using fasteners, for example, screws. After that, through the hole 9 in the mounting base 7, designed to pass the electric wire with the connector, a through hole is drilled in the surface on which the lamp is mounted. An electric wire with a connector 5 is passed through the hole and a dust and moisture-proof lamp is fixed with tightly adjacent to each other, including through the use of gaskets 11, lens 6 and the housing 2 on the mounting base, ensuring its tight fit with mating lock elements 12 and 13, made on the lamp housing 2 and the mounting base 7. Connect the connector 5 of the electric wire with a common electrical circuit on the surface side opposite the installation side, providing aesthetics of the backlight.

Thus, increased reliability, safety and efficiency of the device in various conditions and extension of its service life, including in the conditions of its round-the-clock operation, are achieved.

When performing outdoor advertising with backlighting, many similar lamps are used, placed according to a pre-planned scheme on a billboard with advertising and information materials. In this case, due to the use of the design features of the lamp, it is possible to stage-by-stage the installation of the backlight system, which consists in fixing the total number of lamps on the shield at the first stage of the mounting base, drilling all openings for passing electrical wires with connectors at the second stage, and mounting on the third stage of all lamps and connecting them in the fourth stage to a common lighting system.

During the operation of the backlight systems from the claimed lamps, some of the lamps may require replacement, which can be done with little time and labor due to the peculiarities of the design of the lamps.

At the same time, when using multi-colored lamps with a stroboscopic effect, the flash frequency of which is adjustable from 1 to 4 flashes per second, the visibility and attractiveness of signage and advertising materials increases.

Claims (16)

1. A diode energy-saving baseless lamp, characterized in that it is dustproof and waterproof and includes a housing with an electronic module housed in it, equipped with a plurality of LEDs and connected to a wiring harness that is sealed from the housing, a lens made of translucent material connected to the housing, and mounting base, and the housing is detachably connected to the mounting base by means of a lock connection, and the mounting base is made with a hole whose diameter is provided pass the electric wire to the connector and holes for fastening elements, wherein the lens body and the mounting base are interconnected snugly formed using seals. 2. The diode lamp according to claim 1, characterized in that in the end part of the housing adjacent to the mounting base, locking elements are made in the form of curly protrusions for connecting to the mounting base having mating locking elements in the form of curly grooves. 3. The diode lamp according to claim 2, characterized in that the housing comprises at least one preferably cylindrical wall and a bottom connected to it, and the locking elements in the form of curly protrusions for connection with the mounting base are flush with the bottom of the housing. 4. The diode lamp according to claim 3, characterized in that the electrical wire is hermetically removed from the housing through a through hole made in the bottom of the housing and sealed on the inside of the housing with a cured polymer mass, for example a polymerized resin, poured into the outlet area of the electric wire, partially limited to one side of the wall of the housing, and on the other, an additional wall of preferably a curved shape, integral with the bottom and the wall of the housing. 5. The diode lamp according to claim 3, characterized in that the housing wall on the inside contains protrusions and / or recesses corresponding to the recesses and / or protrusions on the basis of an electronic module made primarily in the form of a printed circuit board. 6. The diode lamp according to claim 3, characterized in that the lens of the lamp is convex, preferably dome-shaped, and provided with a thread in the end part for connection with the lamp housing, and the wall of the housing on the inside contains a thread corresponding to the thread of the lamp lens. 7. The diode lamp according to claim 3, characterized in that the lamp lens is convex, preferably dome-shaped and provided with a ledge for connection with the lamp housing. 8. The diode lamp according to claim 1, characterized in that the lamp lens is made of high impact polymer, such as polycarbonate. 9. The diode lamp according to claim 1, characterized in that the lamp lens is made with an external smooth dome-shaped surface and a relief internal surface, preferably with ribs or grooves, or grooves, and polyhedral, or conical, or spherical recesses for uniformly scattering light. 10. Diode lamp according to claim 1, characterized in that as at least a part of the seals, a cured polymer mass is used, which is cast in the zone of connection of the lamp parts. 11. The diode lamp according to claim 1, characterized in that as at least part of the seals used seal, made in the form of a cylindrical or flat ring, or a cord coiled from a ring of elastic material. 12. The diode lamp according to claim 1, characterized in that the electronic module is equipped with an electric element that provides a stroboscopic light effect of the lamp. 13. The diode lamp according to claim 12, characterized in that for adjusting the flicker frequency of the diode lamp, the electric element is equipped with a regulator, access to which is provided through an opening in the housing wall, the opening being hermetically sealed with a plug made of an elastic polymer material, for example rubber. 14. The diode lamp according to claim 1, characterized in that the holes for the fasteners in the mounting base are made of a smaller diameter than the hole for passing the electric wire with a connector. 15. The diode lamp according to claim 1, characterized in that the mounting base has a bottom and a cylindrical wall with a shelf perpendicular to it, in which the locking elements are made in the form of curly grooves, corresponding to the locking elements in the form of curly protrusions made in the end of the housing adjacent to the mounting base. 16. The diode lamp according to claim 15, characterized in that in the space between the wall shelf and the bottom of the mounting base there is a latch for connecting the lamp housing to the mounting base, made of elastic material and adjacent to the inner side of the wall of the mounting base.