RU114124U1 - LED LAMP - Google Patents

Abstract

1. LED luminaire, including radiator plates bonded to each other and to the base, forming a heat-distributing surface and a LED module mounted on the base, containing a board with LEDs and a lens, characterized in that the inner side of the radiator plates bonded to each other and forming a heat-distributing surface under the base is made in the form of a truncated cone, in the cavity of which an LED module is mounted, while along the perimeter of the inner side of each radiator plate, at least two bends are made, providing reliable heat transfer contact with the base. ! 2. The lamp according to claim 1, characterized in that the bends on each inner side of the radiator plates fastened to each other and forming a heat-distributing surface, forming a truncated cone, are made with windows equal to 0.4-0.8 of the bend height to create heat-dissipating streams from the LEDs of the lamp. ! 3. The lamp according to claim 1, characterized in that the lens is mounted on the folds of an annular recess made in the upper part of the tapered surface above all the LEDs of the module. ! 4. The lamp according to claim 1, characterized in that on the upper surface of the plates and on the surface in contact with the base of each radiator plate, bends are made perpendicular to the longitudinal axis of the lamp, on which two locking connecting elements are made, one of which is in the form of a hole on the bend, and the second - in the form of a protrusion on the same bend opposite the hole, while the plates are fastened to the base using solder, welding or glue with

Description

The utility model relates to lighting engineering, and in particular to devices for lighting rooms, such as reading rooms, libraries, etc., as well as for street lighting.

Known street LED lamp, see patent for utility model No. 83587 F21S 13/10, publ. 06/10/2009, containing a housing with a light source installed inside the housing, and a power supply, while the entire surface of the housing is a cooling radiator made in the form of fins mounted on three sides around the perimeter of the housing. The light source is made in the form of an LED module in which the light-emitting elements are combined in at least four parallel lines of serially connected heavy-duty LEDs, each of the LEDs being attached not only by soldering the contact leads, but also by soldering the heatsink of the LED to special, electrically neutral, circuit board contacts. In addition, the printed circuit board is made on a metal plate made of aluminum, rigidly fixed to the casing, to which copper foil is attached using resin-pre-impregnated fiberglass, and the lamp power supply has an input voltage control connector that allows you to remotely control the power supply on and off, various external lighting control systems.

The disadvantages of the known lamp include the lack of efficiency of heat dissipation from high-power LEDs and the complexity of the design.

Known for a more advanced LED lamp according to the patent for utility model No. 96696, F21S 4/00, publ. 08/10/2010 year - a prototype containing light emitting diodes mounted on the outer surface of the housing and connected by a flexible cable to the power supply, an optical lens, a radiator housing made of a hollow profile, while the optical lens covering the LEDs can be made in the form of various geometric shapes, and the radiator casing is made in the form of vertical fins of heat-conducting material. The optical lens can be made in the form of a ring, triangle, rectangle, square.

The disadvantages of the known LED lamp include the low efficiency of heat dissipation from LEDs.

The objective of the proposed utility model is to develop the design of a high-power LED luminaire that more efficiently provides heat dissipation and maintains the temperature of the luminaire elements within operating limits.

The task is achieved by combining well-known features common to the prototype, including radiator plates bonded to each other and to the base, forming a heat-distributing surface and mounted on the base of an LED module containing a board with LEDs and a lens and new features, namely, that the inner side is bonded to each other with the other and forming the heat-distributing surface of the radiator plates under the base is made in the form of a truncated cone, in the cavity of which is mounted LED module, with at least two bends along the perimeter of the inner side of each radiator plate, providing reliable heat transfer contact with the base.

Bends on each inner side of the radiator plates bonded to each other and forming the heat-distributing surface, forming a truncated cone, are made with windows equal to 0.4-0.8 of the bending height, to create heat sinks from the LEDs of the lamp.

The lens is mounted on the bends of the annular recess, made in the upper part of the conical surface above all the LEDs of the module.

On the upper surface of the plates and the surface of each radiator plate in contact with the base, bends are made perpendicular to the longitudinal axis of the lamp in the form of a trapezium with the top pointing to the center, on which two locking connecting elements are made, one of which is in the form of an opening on the bend, and the second in the form of a protrusion on this the same bend opposite the hole, while on the base there are holes corresponding to the locking protrusion for fixing the plates with solder or glue when assembling the radiator.

The angle of inclination of the inner side to the vertical fastened to each other and forming a heat-distributing surface of the radiator plates forming a truncated cone is made equal to 1.0-60 °.

The novelty of the proposed technical solution is the implementation of the inner side of the radiator plates bonded to each other and forming the heat-distributing surface under the base in the form of a truncated cone, in the cavity of which an LED module is mounted, at least two along the perimeter of the inner side of each radiator plate bending, providing reliable heat transfer contact with the base.

Thus, the execution of the inner side, under the base of radiator plates fastened together and forming a heat-distributing surface in the form of a truncated cone, promotes heat flow directed from the base, and the presence of bends and windows in them ensures the creation of heat removal channels and provides more efficient heat removal from the space between the radiator plates.

The signs of bending on each inner side of the radiator plates bonded to each other and forming a heat-distributing surface, forming a truncated cone, are made with windows equal to 0.4-0.8 of the bending height, to create heat sinks from the lamp LEDs, mounting the lens on the bends of the annular recess made in the upper part of the conical surface above all the LEDs of the module, performing on the upper surface of the plates and the surface of each radiator plate in contact with the base ibs perpendicular to the longitudinal axis of the luminaire in the form of a trapezoid with the apex directed toward the center, on which two locking connecting elements are made, one of which is in the form of a hole on the bend, and the second in the form of a protrusion on the same bend opposite the hole, while on the base the the protrusion of the hole for fixing the plates with solder or glue when assembling the radiator, as well as performing the angle of inclination of the inner side to the vertical fastened to each other and forming a heat distribution the surface of the radiator plates forming a truncated cone equal to 1.0-60 ° are additional signs that contribute to the achievement of the task set by the useful model.

Thus, the presence of locking joints on the upper and lower bends of the radiator plates and holes on the upper surface of the base allows you to install and fix the radiator plates strictly at a predetermined distance from each other, determined by the distances between the holes in the base, ensuring uniform heat removal from all radiator plates without overheating or their side.

According to the patent information research, the features of the proposed technical solution are new, not obvious, industrially feasible and are aimed at achieving the objective set by the useful model.

The proposed utility model is illustrated by drawings.

Figure 1 schematically shows a General view of the lamp.

In figure 2. The radiator plate of the lamp with the connecting elements of the lock on the limb is shown.

The proposed LED lamp consists of a base 1 with holes 2 made and distributed over its surface area 2 for installing LEDs. On board 3, LEDs 4 and other electronic components are installed. Radiator plates 5 using a lock connection made in the form of a protrusion 6 and a hole 7 in the bends 8 perpendicular to the longitudinal axis of the lamp, are fixed on the base 1. In the upper part, the radiator plates are fastened to each other using the same lock connection. Guide bends 9 forming a surface in the form of a truncated cone with windows 10 made at 0.4-0.8 of their possible heights contribute to the efficient removal of heat fluxes. The bends 8 associated with the base 1 provide reliable by soldering, welding or gluing the contact of the radiator plate 5 with the base 1.

Holes 11 on the surface of each radiator plate 5 create peculiar channels for removing heat from more heat-loaded plates to less loaded ones. The protrusions 12 are made on the outer side of the lower part of the radiator plates 5. The lens 13 is fixed in an annular recess 14 made in the lower part of the radiator plates 5. The shell 15 with the protrusion of the protrusions 12 is mounted on the device using the rolling operation.

The proposed device operates as follows.

Initially, all radiator elements are manufactured and assembled using a conductor into a single element forming, for example, a toroidal three-dimensional figure. To do this, the locking protrusions 6 of the radiator plates 5 are bent down, the lower and upper protrusions are installed in the openings of the bends and are bent by connecting the plates to each other. Then, fixing on the base 1 of the entire preassembled set of plates is carried out by soldering, welding or gluing the lower bends 8 to the base 1. From the bottom, on the protrusions 12 of the radiator plates 1, a shell 15 with a flanged lower edge is contacted connected to the side of the protrusion 13. Using of the sunset mechanism, the upper edge of the shell 15 is rolled up to cover the protrusions 12 of each radiator plate 5. The lens 13 is fixed on the limb in an annular recess 14 made in the radiator plates 5.

When installed on the base 1 of the board 3 with LEDs 4, which are heated during operation, the base 1 transfers the removed heat through the bends 8 to the radiator plates 5. The heat flux generated by the guide bends 9 and the windows 10 made in them passing between the plates 5 provide efficient heat dissipation. The heat transmitted by the plates 5 along the perimeter of the shell 15 also contribute to its uniform and effective heat dissipation, maintaining the temperature of the base and LEDs within the specified operating limits.

At present, the enterprise has developed technical documentation for the proposed device, produced an experimental batch of fixtures, the tests of which showed positive results.

After conducting complex tests, a decision will be made on the organization of production of the proposed devices.

Claims (5)

1. LED lamp, including radiator plates bonded to each other and with a base, forming a heat distribution surface and mounted on the base of an LED module containing a board with LEDs and a lens, characterized in that the inner side of the radiator plates bonded to each other and forming a heat distribution surface under the base is made in the form of a truncated cone, in the cavity of which an LED module is mounted, while along the perimeter of the inner side of each radiator At least two bends are made of the plate, providing reliable heat transfer contact with the base. 2. The lamp according to claim 1, characterized in that the bends on each inner side of the radiator plates bonded to each other and forming the heat distribution surface forming a truncated cone are made with windows equal to 0.4-0.8 of the bending height to create heat sinks streams from the LEDs of the lamp. 3. The lamp according to claim 1, characterized in that the lens is mounted on the bends of the annular recess, made in the upper part of the conical surface above all the LEDs of the module. 4. The lamp according to claim 1, characterized in that on the upper surface of the plates and on the surface of each radiator plate in contact with the base there are bends perpendicular to the longitudinal axis of the lamp, on which two locking connecting elements are made, one of which is in the form of an opening on the bend, and the second - in the form of a protrusion on the same bend opposite the hole, while fixing the plates on the base is carried out using solder, welding or glue when assembling the radiator. 5. The lamp according to claim 1, characterized in that the angle of inclination of the inner side to the vertical fastened to each other and forming a heat-distributing surface of the radiator plates forming a truncated cone is made equal to 1.0-60 °.