RU2530535C1 - Led lamp with radiator - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: LED lamp comprises a frame with radiator (FR) made as an elongated body with inner cavity, at its lateral side there are longitudinal-oriented fins (F) with slots, a board with light-emitting diodes, which is installed in FR, and voltage converter (VC) placed in the FR plane. Technical result is attained due to performance of the FR shaped as a cup (C) with open butt end and at external surface of the cup walls there are fins (F). Slot in the A are made as grooves (G) oriented along the lamp longitudinal axis, which are open from the side of the open butt end of C. Each G passes through the whole thickens of the F and divide it into outside and inner parts. The FR is equipped with KP an end plate-type flange to which the upper sections of the F outside parts join, the flange is installed so that it forms in the cross-sectional plane a circular gap between the flange and C walls, and the gap value corresponds to G. The C walls are embedded in regard to the upper surface of the end flange. The VC is placed in the C cavity in the area corresponding to the G layout area. The LED board has the central via opening, it is installed at the end flange with formation of a gap between its lower surface and upper surface of C walls.

EFFECT: improving efficiency of heat removal.

6 cl, 1 dwg

Description

The invention relates to lighting equipment, namely to LED lamps.

Known for LED lamps, which as light sources contain LED light sources that require the use of a specialized voltage converter, also called a power supply, which allows you to adapt the power characteristics of these light sources to the parameters of standard power networks.

Considered LED light sources and voltage converters during operation emit a significant amount of heat, for the removal of which various designs of radiators are used.

Known LED lamp [RU 108123], containing made in the form of an extended body provided with an internal cavity, a radiator body, on the outer side surface of which are longitudinally oriented ribs. The radiator case has an end base covering its internal cavity. The lamp also contains an LED board mounted on the end base of the housing, and a voltage converter placed in the cavity of the housing-radiator.

Due to the radiator case, equipped with fins, the presence of which increases its heat dissipation ability, the heat released during the lamp operation is removed. In this case, with the vertical position of the lamp in the gaps between the ribs, free movement of ascending flows of warm air occurs, which contributes to better heat removal from the radiator case.

However, the design of the device in question does not provide ventilation slots, which reduces the efficiency of heat dissipation.

Known LED lamp [CN 101701701], selected as the closest analogue.

The lamp under consideration contains a body-radiator made in the form of an extended body, having an internal cavity, provided with longitudinally oriented ribs located on its outer side surface, in which there are slots, an LED board mounted on the radiator body, and a voltage converter placed in the cavity of the radiator body . The slots in the ribs are made in the form of through channels passing through the entire height of the ribs. The radiator case also has an end base covering its internal cavity, on which the LED board is located.

With the vertical position of the lamp in question in the gaps between the ribs there is free movement of ascending flows of warm air. In addition, the slots made in the ribs form ventilation slots that allow air to flow through the ribs in the longitudinal direction. These factors contribute to better heat dissipation from the radiator case when the lamp is in a vertical position.

However, the device in question has a number of disadvantages leading to a decrease in the efficiency of heat removal.

With the horizontal position of the lamp in question, part of the ribs creates an obstacle to the free movement of the ascending flows of warm air, which affects the efficiency of heat dissipation.

Another significant drawback is the lack of air circulation in the cavity of the radiator housing, in which the voltage converter is located, since this cavity is closed by the end base. In this case, the placement of the LED board on the specified end base leads to thermal contact of the voltage converter with the LEDs, and the heat generated by them is first dissipated on the specified base and only then passes to the side surface and fins of the radiator case and is discharged into the environment.

The task of the invention is to increase the efficiency of heat dissipation.

The essence of the invention lies in the fact that in an LED lamp containing a body-radiator made in the form of an extended body, having an internal cavity, provided with longitudinally oriented ribs located on its outer side surface, in which there are slots, an LED board mounted on the radiator body, a voltage converter placed in the cavity of the radiator housing, according to the invention, the radiator housing is made in the form of a cup having an open end part, on the outer surface of the walls of the cat The ribs are located horny, the slits in the ribs are made in the form of recesses oriented along the longitudinal axis of the lamp, open from the side of the open end part of the glass, each recess extends over the entire thickness of the rib and divides the rib into the outer part and the inner part, the radiator body is equipped with an end plate flange, to which the upper sections of the outer parts of the ribs adjacent to the bottom are installed with the formation in the plane of the cross section of a circular gap between it and the walls of the glass, the value of which corresponds to the width of the recess, with Enki cup recessed relative to the upper surface of the end flange, the voltage converter is placed in the cavity of cup in an area corresponding recesses location area, the LED substrate has a central opening therethrough and mounted on the end flange with a gap between its lower surface and the upper surface of the beaker wall.

In the particular case of the invention, the recess in the ribs is made in such a way that the outer side surface of the inner parts of the ribs is part of the outer side surface of the walls of the glass.

In the particular case of the invention, the ribs have an arched profile in cross section.

In the particular case of the invention, in each pair of adjacent ribs one of the ribs has a shorter length.

In the particular case of carrying out the invention, the lamp comprises a current supply means made in the form of a standard base fastened to the lower part of the radiator body.

In the particular case of the invention, the lamp comprises a diffuser having the shape of a part of a spherical body mounted on the end flange over the LED board.

The presence of the housing-radiator in the inventive LED lamp provides heat removal from the LEDs located on the LED board (hereinafter, LEDs are understood as LED radiation sources made in the form of single LEDs or assemblies of light-emitting crystals), as well as from a voltage converter (power supply) used to adapt the power characteristics of the LEDs to the characteristics of the power supply network. In this case, the presence of fins on the case-radiator increases its surface and, accordingly, increases its heat dissipation ability. In addition, with the vertical position of the casing-radiator in the gaps between the ribs there is free movement of ascending flows of warm air, which contributes to better heat dissipation.

As a material for the manufacture of a radiator case, heat-conducting material, for example, an aluminum alloy, is used.

The presence in the ribs of open recesses extending over the entire thickness of the ribs and forming ventilation ducts in the ribs makes it possible to pass through the ribs of air both in the direction along the longitudinal axis of the lamp and in the direction transverse to the ribs, both in vertical and horizontal position The radiator case carries out the movement of ascending flows of warm air through the fins, which improves the conditions of heat removal.

Fundamentally important in the inventive lamp is the organization in it of a number of special ventilation channels for air circulation.

Thus, by making the end part of the radiator case open and having a central through hole in the LED board located on top of the radiator case, the internal cavity of the radiator case in which the voltage converter is placed communicates with the air environment and air circulation is provided in the cavity. In addition, due to the glass walls being buried relative to the end flange on which the LED board is mounted, the resulting gap acts as a ventilation gap, in which air circulation also occurs, which contributes to better heat dissipation from the LED board, and also ensures the absence of thermal contact between the LED board and voltage converter. In this case, the heat generated by the LEDs is dissipated in the heat-conducting flange, goes directly to the fins of the radiator case and then dissipates from the fins into the external environment, without heating the walls of the glass inside which the voltage converter is placed.

These factors provide a significant improvement in the conditions of heat removal from the LEDs and from the voltage converter (power supply), which is clearly manifested in a significant decrease in the temperature of the glass with the voltage converter.

Thus, the technical result achieved by using the claimed invention is to increase the efficiency of heat dissipation, which is due to the presence in the lamp of the above-described ventilation ducts.

In the case when the recess in the ribs is made in such a way that the outer side surface of the inner parts of the ribs is part of the outer side surface of the walls of the glass, the design and manufacturing technology of the lamp is simplified.

In the case when the ribs have an arched profile in cross section, their area and, accordingly, heat transfer increase. In this case, the ribs are located on the outer surface of the walls of the glass with a swirl, which ensures turbulent movement of ascending air flows in the gaps between the ribs, which improves the heat removal conditions.

In the case when in each pair of adjacent ribs one of the ribs has a shorter length, the manufacturing process of the radiator body by casting is simplified.

In the case where the lamp contains a current-carrying means, made in the form of a standard base fastened to the lower part of the radiator housing, it is possible to install the inventive lamp in a standard cartridge connected to the power supply network.

In the case where the lamp contains a diffuser having the shape of a part of a spherical body mounted on the end flange over the LED board, the uniformity of its light flux in a wide angular range is ensured.

The figure shows a General view of the LED lamp (front view).

The LED lamp contains a radiator housing made of heat-conducting material and made in the form of a glass 1, in particular, having a wider upper and narrower lower cylindrical parts (not indicated by positions in the drawing). The glass 1 has an open end part (not indicated by the position in the drawing) and an internal cavity 2. The glass 1 also contains longitudinally oriented ribs 3 located on the outer surface of its walls 4. In particular, in each pair of adjacent ribs 3, one of the ribs 3 has a smaller length.

In the ribs 3 there are recesses 5 oriented along the longitudinal axis of the lamp, open from the open end part of the glass 1. Each recess 5 extends over the entire thickness of the rib 3 and divides it into the outer part 6 and the inner part 7.

In particular, the recess 5 in the ribs 3 is designed so that the outer side surface of the inner parts 7 of the ribs 3 is part of the outer side surface of the walls 4 of the glass 1.

The radiator case is equipped with an end plate flange 8, to which the upper sections of the outer parts 6 of the ribs 3 are adjacent from below. The flange 8 is installed to form a circular gap in the plane of the cross section of the lamp (not indicated by the figure) between it and the walls 4 of the glass 1, the size of which corresponds to the width of the recess 5. The walls 4 of the glass 1 are recessed with respect to the upper surface of the end flange 8.

The lamp also contains an LED board 9 made of heat-conducting material, having a central through hole 10 and mounted on the end flange 8 with the formation of a gap (not indicated by the figure in the drawing) between its lower surface and the upper surface of the walls 4 of the glass 1.

In the cavity 2 is placed a voltage converter 11 (power supply), which is located in the zone corresponding to the zone of location of the recesses 5.

The lamp comprises a current supply means 12, made, in particular, in the form of a standard base fastened to the lower part of the glass 1, installed in the cartridge.

The voltage converter 11 is electrically connected to the LED board 9 and to the current supply means 12 and, in particular, provides rectification and stabilization of the current coming from the power source (not shown in the drawing), in particular from a standard power supply network.

The lamp comprises a diffuser 13 having, in particular, the shape of a part of a spherical body mounted on the flange 8 over the LED board 9.

The lamp also contains an insulating sleeve 14.

The device operates as follows.

Connect the lamp to a power source. In particular, the lamp base 12 is mounted in a cartridge connected to a standard power supply network.

When the lamp is connected to a power source, an electric current flows through its electric circuit. When current flows through the LEDs, they emit light. Light radiation is output through the diffuser 13, which performs light-emitting and protective functions, ensuring uniformity of radiation in a wide angular range.

The heat generated by the LEDs and the voltage converter 11 is removed using a radiator housing.

In this case, the heat from the LEDs is evenly distributed on the LED board 9, from which it passes to the ribs 3, and then dissipates into the environment. The heat from the voltage converter 11 is dissipated through the walls 4 of the glass 1, passes to the ribs 3, and then is also dissipated into the environment. In this case, there is no thermal contact between the LEDs and the voltage converter 11. The gaps between the ribs 3, the recesses 5 in the ribs 3, the circular gap between the end flange 8 and the walls 4 of the glass 1, the gap between the LED board 9 and the upper surface of the walls 4 of the glass 1 serve as ventilation channels for air passage. The result is an efficient heat removal from the lamp during its operation.

Claims (6)

1. LED lamp containing a body-radiator made in the form of an extended body, having an internal cavity, provided with longitudinally oriented ribs located on its outer side surface, in which there are slits, an LED board mounted on the radiator body, a voltage converter placed in the cavity case-radiator, characterized in that the case-radiator is made in the form of a glass having an open end part, on the outer surface of the walls of which there are ribs, slots in the ribs they are filled in the form of recesses oriented along the longitudinal axis of the lamp, open from the side of the open end part of the glass, each recess extends over the entire thickness of the rib and divides the rib into the outer part and the inner part, the radiator casing is equipped with an end plate flange, to which the upper sections of the outer parts of the ribs installed with the formation in the plane of the cross section of a circular gap between it and the walls of the glass, the value of which corresponds to the width of the recess, the walls of the glass are recessed with respect to the top the surface of the end flange, the voltage converter is placed in the cavity of the glass in the zone corresponding to the location of the recesses, the LED board has a central through hole and is mounted on the end flange with the formation of a gap between its lower surface and the upper surface of the walls of the glass. 2. The LED lamp according to claim 1, characterized in that the recess in the ribs is made so that the outer side surface of the inner parts of the ribs is part of the outer side surface of the walls of the glass. 3. The LED lamp according to claim 1, characterized in that the ribs have an arched profile in cross section. 4. The LED lamp according to claim 1, characterized in that in each pair of adjacent ribs one of the ribs has a shorter length. 5. The LED lamp according to claim 1, characterized in that it comprises a current supply means made in the form of a standard base fastened to the bottom of the radiator body. 6. The LED lamp according to claim 1, characterized in that it comprises a diffuser having the shape of a part of a spherical body mounted on a flange on top of the LED board.