RU118025U1 - LED LAMP - Google Patents

Abstract

1. LED lamp, comprising a housing, on the inner surface of which LED modules are fixed, and a light-transmitting part covering the body, and the inner surface of the body has a curved concave shape, characterized in that the light-transmitting part has a flat shape, and the LED modules are fixed on the inner surface of the body so that the directions of maximum luminous intensity of at least some modules are located at an angle to each other. ! 2. The lamp according to claim 1, characterized in that each LED module contains several LEDs, the directions of the maximum luminous intensity of which coincide, while the LED modules are fixed on the inner surface of the housing so that the directions of their maximum luminous intensity are normal to this surface. ! 3. A lamp according to claim 1, characterized in that the inner surface of the body is formed by a flat base surrounded by flat side walls set at an obtuse angle to the base. ! 4. A lamp according to claim 1, characterized in that the inner surface of the body is formed by a flat base surrounded by arcuate side walls, while the inner surface of the body is cup-shaped. ! 5. A lamp according to claim 1, characterized in that the inner surface of the housing is shaped like a segment of a sphere. ! 6. The lamp of claim 1, wherein the body is made of aluminum. ! 7. The lamp according to claim 1, characterized in that the LED modules are evenly distributed over the entire inner concave surface of the housing. ! 8. Lamp according to claim 1, characterized in that the LED modules are printed circuit boards with LEDs mounted on them. ! 9. Lamp according to claim 1, different

Description

The field of technology.

The inventive utility model relates to electrical engineering, namely to lighting technology using light emitting diodes (LEDs). The inventive LED lamp is mainly used for outdoor lighting of roads, streets, squares, various urban landscapes, territories and structures.

The prior art.

Known LED lamp containing the housing and the matrix of LEDs installed therein. The front side of the housing is trihedral, consisting of two inclined side and one middle horizontal faces, made with the possibility of installing matrices of LEDs on them and providing the required direction of light output. An optically transparent streamlined shape cap is installed above the three faces of the case (RF patent No. 90165 for utility model, IPC F21S 4/00, F21V 14/00, 2009 [1]).

The disadvantage of this analogue [1] is the large surface area and the complex design of the cap. With such a design of the lamp:

- significantly increased material consumption for an optically transparent cap;

- increased complexity of its manufacture in connection with giving the above cap streamlined;

- reduced reliability and impact resistance of the lamp as a whole.

Also known is a lamp comprising a housing with light-emitting elements and a transparent cover, while the inner surface of the housing is made in the form of a segment of a sphere on which light-emitting elements are mounted, while the light-emitting elements are made in the form of LED modules. The cover is made in a form identical to the shape of the inner surface of the housing. (RF patent No. 54137 for utility model, IPC F21S 13/00, F21V 11/00, 2006 [2]).

The disadvantage of this analogue [2] is the curved shape of the lamp cover. This form of light transmitting part increases the complexity of its manufacture.

Also known is a street lamp LED-LS02, comprising a housing with LEDs and a light transmitting part, while the LEDs are mounted on a concave surface of the housing, while the light transmitting part has a convex outer surface and is mounted on the housing from the side of its concave surface (Internet resource http: // www.litewell.ru/led-ls02/. [3]).

The specified analogue [3] has an inherent disadvantage of analogue [2].

The specified lamp [3] is the set of essential features the closest device of the same purpose to the claimed utility model. Therefore, it is adopted as a prototype of the claimed utility model.

Disclosure of a utility model.

The technical problem, which is aimed by the claimed utility model, is to increase the manufacturability of the design of the LED lamp.

The technical result provided by the claimed utility model is to reduce the material consumption and the complexity of manufacturing a LED lamp.

The essence of the invention lies in the fact that the LED lamp contains a housing, on the inner surface of which LED modules are fixed, and a light transmitting part covering the housing, the inner surface of the housing having a curved concave shape. In this case, the light-transmitting part has a flat shape, and the LED modules are fixed on the inner surface of the housing so that the directions of the maximum light intensity of at least some modules are located at an angle to each other.

Each LED module preferably contains several LEDs whose direction of maximum light intensity is the same. In this case, the LED modules are fixed on the inner surface of the housing so that the directions of their maximum light intensity are normal to this surface.

The inner surface of the housing is mainly formed by a flat base surrounded by flat side walls installed at an obtuse angle to the base.

The inner surface of the housing can be formed by a flat base surrounded by arched side walls, while the inner surface of the housing has a cup shape.

The inner surface of the housing may take the form of a segment of a sphere.

The housing is preferably made of aluminum.

The LED modules are preferably arranged uniformly over the entire inner concave surface of the housing.

LED modules are mainly printed circuit boards with LEDs mounted on them.

The light transmitting part is mainly made of plastic or glass.

The light transmitting portion is preferably fixed to the housing from the side of the inner surface of the housing.

A brief description of the drawings.

The essence of the utility model is illustrated by the following graphic materials. The figure 1 shows a diagram of a lamp with an inner surface of the body in the form of a truncated pyramid; figure 2 - diagram of the LED lamp according to example 1; figure 3 is a diagram of a LED lamp according to example 2; figure 4 is a diagram of light intensity for a lamp with a flat inner surface of the housing; figure 5 is a diagram of the luminous intensity for a lamp with a concave surface of the housing; Fig.6 is a diagram of the luminous intensity for the LED lamp according to example 1; 7 is a diagram of the luminous intensity for the LED lamp according to example 2.

Implementation of a utility model.

The LED lamp (Fig. 1) contains a housing (1), LED modules (2) and a light transmitting part (4).

The housing (1) is made of a heat-conducting material, preferably aluminum. The housing (1) simultaneously serves as a bearing surface for the placement of LED modules (2) and a heat sink. In this case, the housing (1) contains a mount to the support (not shown). On the outer surface of the housing (1) can be made ribs. The inner surface (3) of the housing (1) is an optical compartment and is designed to fix the LED modules (2). The above inner surface (3) is smooth and has a curved concave shape. The inner surface of the housing (3) mainly consists of a flat base surrounded by flat side walls mounted at an obtuse angle to the base. The side walls are preferably inclined and flat. In this case, the inner surface of the housing (3) has the shape of a truncated pyramid.

LED modules (2) are either separate LEDs or printed circuit boards with one or more LEDs mounted on them. If there is more than one LED in the LED module (2), they are mainly oriented so that the directions of their maximum light intensity coincide.

LED modules (2) are fixed on the inner surface (3) of the housing (1) so that the directions of the maximum light intensity of at least some modules (2) are located at an angle to each other. This provides a wider diagram of the luminous intensity of the claimed lamp in comparison with the luminous intensity diagram of one LED module (2).

In this case, the LED modules (2) are mainly fixed on the inner surface (3) of the housing (1) so that the directions of their maximum light intensity are normal to this surface (3).

The light transmitting part (4) provides protection for the LED modules (2), is made of plastic or glass and has a flat shape. Depending on the radiation frequency of the LED modules (2), the inner side of the light transmitting part (4) can be coated with a phosphor.

A seal (not shown) may be placed along the line of contact of the light transmitting portion to the housing. Various materials can be used as a sealant, for example felt or rubber.

Examples of specific performance.

Example 1. The side walls of the housing (1) have curved arcuate shapes (figure 2). In this case, the inner surface of the housing (1) has a cup-shaped shape.

Example 2. The inner surface of the housing (3) has the shape of a segment of a sphere (figure 3).

Example 3. In order to protect the lamp, the light transmitting part (4) is fixed to the housing (1) from the side of the inner surface (3) of the housing (1).

The implementation of the structural elements of the claimed invention is not limited to the above examples.

Work description.

When a voltage is applied to the LED lamp, the LED modules (2) emit light fluxes and generate heat. Luminous fluxes from each LED module (2) are emitted in the direction specified by the lamp design, and heat is removed through the housing (1) and dissipated in the environment. Each LED module (2) has a light intensity distribution over corners in space and is characterized by a corresponding radiation pattern (5) (Figs. 5, 6, 7). The total luminous flux of an LED lamp is formed by summing the luminous flux formed by the LED modules (2), and is characterized by the corresponding radiation pattern (6). Moreover, the luminous intensity diagram of the entire lamp (6) has a larger directivity angle compared to the luminous intensity diagram (5) of each LED module (2) and compared to the luminous intensity diagram for a lamp in which the LEDs are oriented in one direction (Fig. 4 )

The use of the inventive LED lamp consists in mounting it on a support or on brackets fixed to the supports, at a height corresponding to the type of surface to be illuminated. Then the LED lamp is connected to a power source. Power supply voltage is supplied from transformers common for lighting and power loads.

Compared with the analogue [3], the advantage of the inventive LED lamp is also the complete absence of glare, since the convex light-transmitting part becomes a secondary emitter when dusted, as a result of which the lamp starts to shine in the horizontal direction.

Thus, from the foregoing, it follows that in the inventive LED lamp, the claimed technical result: "reducing the material consumption and laboriousness of manufacturing the LED lamp" is achieved due to the fact that the LED lamp contains a housing, on the inner surface of which LED modules are fixed, and a light transmitting part covering the housing, moreover, the inner surface of the housing has a curved concave shape. In this case, the light-transmitting part has a flat shape, and the LED modules are fixed on the inner surface of the housing so that the directions of the maximum light intensity of at least some modules are located at an angle to each other.

Industrial applicability.

The authors of the utility model made a prototype of the claimed LED lamp, tests of which confirmed the achievement of the technical result.

The inventive LED lamp is implemented using industrially produced devices and materials, can be used at any electrical enterprise and will find wide application in the electronics industry in the production of LED lamps.

INFORMATION SOURCES.

1. RF patent №90165 for utility model, IPC F21S 4/00, F21V 14/00, publ. 2009 year

2. RF patent No. 54137 for utility model, IPC F21S 13/00, F21V 11/00, publ. 2006 year

3. Internet resource http://www.litewell.ru/led-ls02/.

Claims (10)

1. The LED lamp, comprising a housing, on whose inner surface LED modules are fixed, and a light transmitting part covering the housing, the inner surface of the housing having a curved concave shape, characterized in that the light transmitting part has a flat shape, and the LED modules are mounted on the inner surface of the housing so that the directions of maximum light intensity of at least some modules are located at an angle to each other. 2. The lamp according to claim 1, characterized in that each LED module contains several LEDs, the directions of the maximum light intensity of which coincide, while the LED modules are fixed on the inner surface of the housing so that the directions of their maximum light intensity are normal to this surface. 3. The lamp according to claim 1, characterized in that the inner surface of the housing is formed by a flat base surrounded by flat side walls mounted at an obtuse angle to the base. 4. The lamp according to claim 1, characterized in that the inner surface of the housing is formed by a flat base surrounded by arched side walls, while the inner surface of the housing has a cup shape. 5. The lamp according to claim 1, characterized in that the inner surface of the housing has the shape of a segment of a sphere. 6. The lamp according to claim 1, characterized in that the housing is made of aluminum. 7. The lamp according to claim 1, characterized in that the LED modules are placed evenly over the entire inner concave surface of the housing. 8. The lamp according to claim 1, characterized in that the LED modules are printed circuit boards with LEDs mounted on them. 9. The lamp according to claim 1, characterized in that the light transmitting part is made of plastic or glass. 10. The lamp according to claim 1, characterized in that the light transmitting part is fixed to the housing from the side of the inner surface of the housing.