RU70050U1 - LED LAMP - Google Patents

Abstract

The utility model relates to the field of semiconductor devices based on LEDs, as well as to the field of lighting, and can be used in the manufacture of LED barrage lamps, signal lights for beacons, towers, tall and long buildings, airfields, as well as lamps for lighting and lighting. The LED lamp includes a means of connecting to an external electrical network, power supply elements, a base, a cover, and a hollow cylindrical board with LEDs on the outer surface of the board, the cover being connected by fasteners to the base and fixes a hollow cylindrical board vertically mounted on the base, in the inner cavity of which the power supply is placed on the part of the board, bent into the cavity. 1 ill.

Description

The utility model relates to the field of semiconductor devices based on LEDs, as well as to the field of lighting, and can be used in the manufacture of LED barrage lamps, signal lights for beacons, towers, tall and long buildings, airfields, as well as lamps for lighting and lighting.

Known LED lamp to indicate obstacles, including means for connecting to an electrical network in the form of power wires connected to a power supply, the base is a disk-shaped board with a power supply located on it (lamp LED power supply circuit), and circuit boards with LEDs forming vertically the located cylinder is a six-sided parallelepiped. LEDs are mounted on the outer side faces of the specified box. Above the boards with LEDs, there is an additional board in the form of a disk with additional LEDs installed on it.

(WO 0114789, B64D 47/06, F21S 8/00, F21V 19/00, F21V 23/00, F21V 29/00, H01L 25/075, published 2001-03-01).

A disadvantage of the known technical solution is the increased complexity of manufacturing, the high complexity of assembly operations and the insufficient vibration resistance of the lamp structure due to the use of a sufficiently large number of fasteners.

The objective of the utility model and the technical result is the creation of an LED lamp, the design of which reduces

the complexity of assembly work, and also has increased vibration resistance.

The technical result is achieved by the fact that the LED lamp includes means for connecting to an external electrical network, power supply elements, a base, a cover and a hollow cylindrical board with LEDs on the outer surface of the board, the cover being connected by fasteners to the base and fixes a hollow cylindrical board vertically mounted on the base , in the internal cavity of which the elements of the power supply are placed on the part of the board, bent into the cavity. In addition, the hollow cylindrical plate is made of metal, or a two-layer metal-plastic material, or thermoplastic, or thermoset; a hollow cylindrical plate is made with a section in the shape of a circle or with a section in the form of a polygon; the lamp is equipped with additional LEDs located on the cover; the base is fastened with a means of connecting to an external electrical network, made in the form of a socle of a traditional lamp; base and cover are made with flanges.

The implementation of the method and the design of the LED lamp according to the utility model are illustrated in the figure shown in figure 1, where:

1 - hollow cylindrical plate;

2 - power supply elements;

3 - LEDs;

4 - the extreme part of the board blank bent into the cavity;

5 - bending line of the workpiece (additional vertical grooves);

6 - electrical findings;

7 - base;

8 - means of connection to the electric network - base;

9 - a cover;

10 - fasteners in the form of a screw;

11 - threaded hole.

An LED lamp according to a utility model is manufactured as follows. On the workpiece of the hollow cylindrical board 1, made rectangular by traditional methods of mounting and connecting electrical or semiconductor devices, the elements of the power supply unit 2 and LEDs 3 are placed.

The elements of the power supply 2 are placed, mainly vertically, on the extreme part of the workpiece board. The dimensions of the extreme part of the workpiece 4 in the form of a rectangle are determined by simple construction, based on the sizes of the power supply elements, which are set by the total power of the LEDs.

After this installation, the extreme part of the workpiece 4 with the elements of the power supply placed on it is bent at an angle to the plane of the workpiece of the board along a line parallel to the height of the workpiece of the board, which provides the desired final shape of the hollow cylindrical board 1 with LEDs. After that, the remaining part of the board blank is bent around its extreme part along lines 5 parallel to the height of the blank and located between the LEDs (or vertical rows of LEDs) until the edge of the blank of the board is connected to the bending angle of the blank part with the power supply elements.

To reduce the effort required to bend the board blank, which makes the method according to the invention more technologically advanced, vertical triangular or rectangular grooves to a depth of 0.5-0.9 thickness of the board blank (not shown) can be additionally made in the body of the blank 1 of the board along lines 5 ) Vertical grooves 5 can be performed both on the side of the placement of the power supply elements, and on the reverse side

the side of the placement of the power supply elements. The number, shape, depth and location of the grooves is determined by simple design, based on the desired final section of the cylindrical plate. The simplicity of the operations of grooves 5 and bending of the workpiece of the hollow cylindrical plate 1 provides the possibility of their automation.

At the end of the bending operation, a hollow cylinder is formed - a closed vertical hollow cylindrical board 1, in which the LEDs 3 are located on its outer surface, and the elements of the power supply 2 are inside its cavity on the part of the board 4, bent inward (located inside) of the cavity. A section of a cylindrical plate formed by the movement (rotation) of a straight line parallel to itself can be made in the form of a circle (with a large number of vertical grooves or without them) or in the form of a polygon with more than three faces. Placing the elements of the power supply 2 inside the cavity of the cylindrical board 1 on the part of the board 4, bent into the cavity, in one technological operation significantly reduces the complexity of assembly work and makes the lamp more compact.

The shape and absence of a large number of connecting elements provides high resistance to vibration of this hollow cylindrical plate 1.

Then, the hollow cylindrical board 1, equipped with electrical leads 6, is vertically mounted on the base 7 in the form of a flat disk fastened with a means of connecting to an external electrical network — in this case, the base 8 of a traditional incandescent lamp. On the upper part of the hollow cylindrical plate 1, a cover 9 is mounted in the form of a flat disk with an opening, which is rigidly connected to the base 7 using fasteners 10 (in this case, a screw that is screwed into the hole with a thread 11 made in the base 7).

The cover 9, connected by fasteners 10 to the base 7, rigidly fixes the position of the hollow cylindrical board 1 with LEDs 6, which ensures high stability of the lamp design according to the utility model to the effects of vibration. To increase the rigidity of the lamp design as a whole, the base 8 and the cover 9 can be made with flanges. As fasteners 10 can be used known fasteners: screws, bolts, studs with nuts, racks with threads and screws, etc.

The hollow cylindrical board 1 with LEDs can be made of metal, or a two-layer metal-plastic material, or thermoplastic, or thermoset. The choice of material is determined by the power indicators of the lamp according to the utility model and operating conditions. The use of a two-layer material "metal-plastic" can significantly reduce the complexity of manufacturing electrical circuits of the lamp due to mechanization and automation.

According to a utility model, the lamp can be equipped with additional LEDs located on the cover, the need for which is determined by the purpose of the lamp and the conditions of its operation (not shown).

Thus, the lamp design according to the utility model ensures the achievement of a technical result: reducing the complexity of assembly work, and also has increased vibration resistance.

Claims (6)

1. LED lamp, including means for connecting to an external electrical network, power supply elements, base, cover and hollow cylindrical board with LEDs on the outer surface of the board, characterized in that the cover is connected by fasteners to the base and fixes a hollow cylindrical board vertically mounted on the base, in the inner cavity of which the elements of the power supply are placed on the part of the board, bent into the cavity. 2. The LED lamp according to claim 1, characterized in that the hollow cylindrical board is made of metal, or a two-layer metal-plastic material, or thermoplastic, or thermoset. 3. The LED lamp according to claim 1, characterized in that the hollow cylindrical board is made with a section in the shape of a circle or with a section in the form of a polygon. 4. The LED lamp according to claim 1, characterized in that it is equipped with additional LEDs located on the cover. 5. The LED lamp according to claim 1, characterized in that the base is fastened with means for connecting to an external electrical network, made in the form of a base of a traditional lamp. 6. The LED lamp according to claim 1, characterized in that the base and cover 9 are made with flanges.