RU108122U1 - LED LAMP - Google Patents

Abstract

 1. LED lamp, including a power supply and a base, on the upper side of which there are cooling elements, and on the lower flat side there are LEDs, characterized in that the cooling elements are a needle radiator, made integral with the base and occupying at least 85-90% the area of the base, with the ratio of the height of the needle to the thickness of the base in the range 4: 1-6: 1, the execution of the average diameter of the cross section of the cone in the range of 4-7 mm and the taper in the range of 1-2º, while the base and the needle radiator are cast from aluminum niya or aluminum alloy. ! 2. The LED lamp according to claim 1, characterized in that the surface of the needle radiator and the entire upper part of the base are blackened. ! 3. The LED lamp according to claim 1, characterized in that the LEDs are mounted on a printed circuit board, which, in turn, is attached to the base, and there is a heat-conducting paste between the printed circuit board and the base. ! 4. The LED lamp according to claim 1, characterized in that each LED is mounted on a separate printed circuit board, which is a substrate, which, in turn, is attached to the base, and there is a heat-conducting paste between the substrate and the base. ! 5. The LED lamp according to claim 1, characterized in that the LED and a separate printed circuit board are a single assembly element, which further comprises an LED lens, and each assembly element is connected to another electrical circuit. ! 6. The LED lamp according to claim 1, characterized in that it additionally has a housing to which the base, the power supply and the fastener elements of the lamp are attached. ! 7. LED light

Description

The utility model relates to lighting engineering, namely, devices for lighting workshops, warehouses, hangars, sports fields and complexes, for street lighting, as well as for other industrial and social facilities.

Known LED lamp, including the base, made in the form of a profile having a flat section on the inner surface and made within its grooves and / or holes for placement of fasteners in them, fixing at least one electric board, equipped with light emitting located on it diodes, while at least one side of the base is flanged (Utility Model Patent No. 99854, priority dated July 28, 2010).

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. In this case, the housing is made in the form of a segment of a hollow metal profile, consisting of a U-shaped compartment for placing a light source on high-power LEDs, compartments for accommodating LED power supplies and a cylindrical compartment for attaching the lamp to the console tube of the lighting support, while on the outer surface of the compartments of high-power LEDs and power sources, heat-conducting fins made of the same material are placed, increasing the area of the external surface of the lamp (utility model patent No. 102748, priority of September 28, 2010).

Known LED lamp containing a radiator with a light source in the form of an LED module or ruler and a power supply, the radiator has at least one flat surface on which is fixed at least one light source and the power supply, closed by a casing that does not prevent the spread electromagnetic waves and forming the front side of the lamp. This luminaire is also characterized by the fact that on a radiator having more than one flat surface, light sources can be mounted on more than one surface. In addition, the outer side of the radiator is made of a needle or ribbed (utility model patent No. 1196927, priority dated 11.03.2010).

Known LED lamp containing a perforated base of at least two sections, rigidly fastened to each other by the sides in a vertical plane, the upper side of the base is provided with vertical ribs, the lower side is profiled grooves for mounting a cluster with a printed circuit board and LEDs, to the sides each section of the base has a power supply and a radiator with cooling fins, each in its own section. An electric fan is located in the luminaire above the base ribs, the upper side of the base is equipped with a suspension bracket with an eyebolt and a carbine, the base ribs act as guides for the air flows created by the fan (utility model patent No. 95068, priority date 10.03.2010). Based on the set of essential features, this technical decision is taken as a prototype.

The prototype has the following disadvantages:

- heavy weight, caused, in particular, by the presence of a fan (about 12 kg);

- insufficiently effective heat removal, as fins on the base, which is the main heat-carrying body, are not optimal, and needle-shaped radiators are located on the sides of the lamp and, in addition, are separate parts attached to the base of the lamp;

- the design of the luminaire from 2 sections, with the presence of needle radiators on one side, and power units on the other sides, does not allow creating an effective design of luminaire blocks consisting of 2 or more luminaires.

The inventive utility model of the LED lamp eliminates the noted disadvantages of the prototype.

The technical solution to the problem is to create a technologically advanced in manufacture, reliable in operation, relatively light fixture, which is essentially a module that can be aggregated into blocks of 2, 3 or more fixtures, which saves energy and meets the standards for LED fixtures .

The LED lamp, according to the claimed utility model, includes a power supply and a base, on the upper side of which there are cooling elements, and on the lower flat side there are LEDs, characterized in that the cooling elements are a needle radiator, made integral with the base and occupying at least 85 -90% of the base area, with the ratio of the height of the needle to the thickness of the base, in the range 4: 1 - 6: 1, the execution of the average diameter of the cross section of the cone in the range of 4-7 mm and the taper in the range of 1-2 degrees, while The innovation and the heatsink are cast in aluminum or aluminum alloy.

This embodiment of the luminaire is especially effective when lighting large areas, when the luminaires use powerful LEDs that heat up quite strongly and require efficient heat dissipation. An experimentally selected needle radiator according to the claimed utility model and other additional measures set forth below provide such efficient cooling of the lamp even without the use of a fan.

The LED lamp, according to the claimed utility model, is also characterized in that the surface of the needle-shaped radiator and the entire upper part of the base are blackened. From the theory of heat transfer it is known that a black body emits heat more efficiently than a light body, ceteris paribus. Blackening of the needle radiator and the upper surface of the base is carried out by one of the methods known in the art.

The LED lamp, according to the claimed utility model, is also characterized in that the LEDs are mounted on a printed circuit board, which in turn is attached to the base, and there is a heat-conducting paste between the printed circuit board and the base. The use of a single printed circuit board is known and is a possible embodiment. The presence of heat-conducting paste between the printed circuit board and the base makes the heat-conducting medium continuous and increases the efficiency of heat removal.

The LED lamp, according to the claimed utility model, is also characterized in that each LED is mounted on a separate printed circuit board, which is a substrate, which in turn is attached to the base, and there is a heat-conducting paste between the substrate and the base. This embodiment is economically viable.

The LED lamp, according to the claimed utility model, is also characterized in that the LED and a separate printed circuit board are a single assembly element, which additionally contains an LED lens, and each assembly element is connected to another electrical circuit. This option improves the LED assembly process in the luminaire.

The LED lamp, according to the claimed utility model, is also characterized in that it has an additional housing to which the base, the power supply and the fastener elements of the lamp are attached. Such a design, presented in the figures below, is quite optimal for the claimed utility model.

The LED lamp, according to the claimed utility model, is also characterized in that the printed circuit board with LEDs mounted on it or assembly elements connected to each other by an electric circuit are filled after assembly with a compound. The presence of a compound increases the reliability and durability of the lamp.

The LED lamp, according to the claimed utility model, is also characterized in that the fastener of the lamp is a U-shaped strip attached to the housing, on which, for example, an eye bolt is mounted on top. It describes one of the options for mounting, which is not fundamental, but simple enough, and therefore economical.

LED lamp, according to the claimed utility model, is also characterized in that the lamps can be connected in blocks of 2, 3 or more lamps. This is a fundamental possibility of using the luminaire as a module in a block, when the parameters of one luminaire are multiplied by their required number to achieve the general necessary technical characteristics of the block. This is another advantage over the prototype design.

The LED lamp, according to the claimed utility model, is also characterized in that the lamps are connected into blocks, for example, using fasteners in the form of U-shaped strips, holes in them for eye bolts and connecting strips, which, in turn, are attached, for example, eyebolts. It describes one of the options for the lamp.

LED lamp, according to the claimed utility model, in one embodiment is presented in the following figures:

Figure 1 is an external view of the lamp, a bottom-front view;

Figure 2 - the appearance of the lamp, a top view of the front;

Figure 3 is a sketch of the LED lamp.

Declared as a utility model, the LED lamp consists of a base 1, with which at the same time a needle radiator 2 is made, cast from aluminum or an aluminum alloy. Assembly elements of LEDs 4 are attached to the bottom flat surface 3 of the base. Each assembly element 4 of the LED is an assembly unit and consists of the LED 5 itself with a lens 6 mounted on the substrate 7. On the substrate, before it is attached to the base, heat-conducting paste is applied 8. Quantity elements, the power of the LEDs and their location are determined by the technical conditions of a particular lamp. Each element is connected to the other using an electric wire. The wiring diagram for connecting elements of a special design is poured on the bottom surface of the base with a layer of compound 9. Base 1 is attached to the housing 10 of the lamp. A direct current source closed by a cover 11 is also attached to the lamp housing 10. Brackets 12 are attached to the lamp housing 10, on which there are eyebolts 13 for hanging the lamp at the required distance from the floor.

The lamp has powerful LEDs with a power of 1 to 10 watts each.

The design of the lamp, including the dimensions of the radiator and its needle surface, the absence of a protective casing, the base and radiator of aluminum or aluminum alloy, the blackening of their surfaces and the use of heat-conducting paste provide effective cooling of the lamp without using a fan and makes it quite easy. In addition, the design of the lamp allows you to use it as a module and combine these modules into blocks of 2, 3 or more lamps, depending on the purpose of such a block and the requirements for it.

Claims (10)

1. LED lamp, including a power supply and a base, on the upper side of which there are cooling elements, and on the lower flat side there are LEDs, characterized in that the cooling elements are a needle radiator, made integral with the base and occupying at least 85-90% the area of the base, with the ratio of the height of the needle to the thickness of the base in the range 4: 1-6: 1, the execution of the average diameter of the cross section of the cone in the range of 4-7 mm and the taper in the range of 1-2º, while the base and the needle radiator are cast from aluminum niya or aluminum alloy. 2. The LED lamp according to claim 1, characterized in that the surface of the needle radiator and the entire upper part of the base are blackened. 3. The LED lamp according to claim 1, characterized in that the LEDs are mounted on a printed circuit board, which, in turn, is attached to the base, and there is a heat-conducting paste between the printed circuit board and the base. 4. The LED lamp according to claim 1, characterized in that each LED is mounted on a separate printed circuit board, which is a substrate, which, in turn, is attached to the base, and there is a heat-conducting paste between the substrate and the base. 5. The LED lamp according to claim 1, characterized in that the LED and a separate printed circuit board are a single assembly element, which further comprises an LED lens, and each assembly element is connected to another electrical circuit. 6. The LED lamp according to claim 1, characterized in that it additionally has a housing to which the base, the power supply and the fastener elements of the lamp are attached. 7. The LED lamp according to claim 4 or 5, characterized in that the printed circuit board with LEDs mounted on it or assembly elements connected to each other by an electric circuit are filled in after compounding with a compound. 8. The LED lamp according to claim 6, characterized in that the fastening element of the lamp is a U-shaped strip that is attached to the housing, on which, for example, an eye bolt is attached from above. 9. The LED lamp according to claims 1, 6 or 8, characterized in that the lamps can be connected in blocks of 2, 3 or more lamps. 10. The LED lamp according to claim 9, characterized in that the connection of the lamps into blocks is carried out, for example, using fasteners in the form of U-shaped strips, holes in them for eye bolts and connecting strips, to which, in turn, fasten, for example, eyebolts.