RU186401U1 - LED downlight - Google Patents

Abstract

The utility model relates to the field of lighting devices, namely, to the field of LED lamps for domestic, office and industrial use. The technical result is to improve the operational properties and expand the functionality of LED ceiling lights To achieve the specified technical result in a LED ceiling lamp consisting of a frame, with boards with LEDs fixed on it, a ceiling inserted into the frame and made of layers of light of transparent and reflective materials, and a power supply unit with control devices connected to the LEDs, it is proposed: - in the center of the plafond to make a hole into which the central carrier sleeve is inserted, to which the base (cover) and the frame are attached, - make the power supply with control devices mounted on a ring-shaped printed circuit board, one-piece or made of several segments and mounted around a central carrier sleeve inside a lamp, into a ceiling, except for layers of translucent and reflective th materials further include a layer of light diffusing material disposed below a layer of translucent material, - cover secured in the frame so that the LEDs light translucent layer end face, - the frame luminaire manufactured so that between the base and reflective material was convection channel for cooling.

Description

The utility model relates to the field of lighting devices, namely to the field of LED lamps for use in everyday life, office and industrial premises.

Various designs of LED ceiling lights are widely known in the art.

In particular, a LED ceiling light (RU PM No. 161017) is known, comprising a housing, a diffuser made of translucent material and LED strips evenly placed on the rear wall of the housing, fixed in the housing with fasteners, characterized in that the housing is made of plastic by thermo-vacuum molding with ribs stiffness, while the LED bars are located along the line of the ribs, and the diffuser is attached to the housing by means of a plastic rivet screw. The disadvantage of this design is the unevenness of the light flux, the inability to attach to conventional ceilings, the inability to control lighting parameters using a remote control or smartphone.

Also known is a LED lamp (RU PM No. 129746) comprising a metal housing, a protective optical diffusing glass, a power source, and LED groups connected in series or parallel or in series-parallel to the power source. LED groups are formed by LEDs mounted on a printed circuit board made of aluminum or copper, which is attached to a metal radiator by cold compression. The design flaw is also the unevenness of the light flux, the inability to attach to conventional ceilings, the inability to control lighting parameters using a remote control or smartphone.

The known design of the LED lamp (RU PM No. 104809), made in the form of a rectangular flat figure, inside of which there are LEDs with a power source on the printed circuit boards. The front side of the luminaire is made of translucent material containing light-scattering particles, the opposite side of the luminaire has a reflective coating, the end sides of the luminaire are made of an aluminum profile with radiator cooling fins, printed circuit boards are mounted in the profile with LEDs located on them, connected to each other in an electrical network in a parallel way , printed circuit boards are fastened together by connectors, while in the locations of the LEDs on the front The lamp has semicircular through holes.

This design is closest to the claimed utility model and is selected as a prototype. The disadvantages of the known designs include:

- the possibility of placement only in suspended ceilings,

- the inability to switch from warm to cold light,

- the inability to control lighting parameters using a remote control, smartphone, etc.

Thus, the technical problem that currently exists is the impossibility of using modern flat LED lamps in domestic conditions, since all known designs have external power supplies that can only be placed under a false ceiling. The creation of this utility model is aimed at solving this problem, namely, to create a design of a household ceiling lamp with uniform illumination with the possibility of mounting on ordinary bearing surfaces (ceilings), with the possibility of remote control and rational heat dissipation.

The technical result is the improvement of operational properties and the expansion of the functionality of LED ceiling lights.

To achieve the specified technical result, in an LED ceiling lamp consisting of a frame with boards with LEDs fixed on it, a ceiling inserted into the frame and made of layers of translucent and reflective materials, and a power supply with control devices connected to the LEDs, it is proposed:

- in the center of the ceiling, make a hole into which the central carrier sleeve is inserted, to which the base (cover) and the frame are attached,

- the power supply with control devices to perform mounted on a ring-shaped printed circuit board solid or consisting of several segments and mounted around a Central carrier sleeve inside the lamp,

- in the ceiling, in addition to layers of translucent and reflective materials, additionally include a layer of light-scattering material located under a layer of translucent material,

- mount the plafond in the frame so that the LEDs shine at the end of the translucent layer,

- make the lamp frame in such a way that there is a convection channel for cooling between the base and the reflective material.

Additional features of the proposed lamp is the following:

- the base of the lamp can be solid or consisting of individual crossbars,

- the frame, the base and the Central bearing sleeve can be made of aluminum,

- an additional fixing plate with a hook for hanging an additional lighting device, for example, a chandelier of a traditional design, electrically connected to control devices that control the lighting (turning on, off, adjusting brightness) of an additional lighting device, can be installed on the central supporting sleeve,

- the central carrier sleeve can be closed from below with a decorative overlay,

- the LEDs on the boards can be of a warm and / or cold glow and can be switched on with the help of a control device all at once or in any combination,

- the lamp in accordance with the claimed design may have a round, rectangular, square or any other shape,

- the luminaire frame can be made in such a way that when the luminaire is fixed on the bearing surface between the base and the bearing surface, a second convection channel is formed for additional cooling of the structure,

- the control device board additionally contains a wireless interface module (for example, WiFi, Bluetooth) for receiving signals from external devices (remote control, smartphone, etc.) to control the lamp operation mode.

Thus, the claimed design of the LED ceiling lamp allows you to make ultra-thin and at the same time heavy-duty ceiling lamp of large diameter with a perfectly even luminous surface and the ability to remotely control the color temperature and brightness of the glow.

As a translucent material, light-emitting glass, for example, PMMA with a pixel texture, is used.

In FIG. 1 shows a sectional view of a lamp, where:

1 - central bearing sleeve

2 - carrier sleeve for mounting to a bearing surface

3 - switching terminals

4 - a fixing level

5 - ring-shaped printed circuit board

14 - the first convection channel

15 - second convection channel

16 - frame mounting screw

17 - shade

In FIG. 2 shows a cross section of the lamp in the area of the edging, where:

6 - the base of sheet aluminum

7 - clamping insert

8 - wire to the power supply

9 - a layer of reflective material

10 - layer of translucent material containing light scattering particles

11 - layer of diffuser glass

12 - printed circuit board with LEDs

13 - frame made of aluminum profile

Figure 3 is an example of a General view of a round lamp.

The lamp, in accordance with the claimed design, contains a frame made of aluminum profile 13, to which, using the mounting screws of the frame 16, a base 6 of sheet aluminum is connected. In the frame of the aluminum profile, a shade 17 is installed, made of a layer of reflective material 9, a layer of translucent material 10 and a layer of light-diffusing material 11.

In the center of the ceiling 17, a hole is made in which a central carrier sleeve 1 is inserted, to which, in turn, a frame of aluminum profile 13 and a base 6 of aluminum sheet are attached. In the hole, around the Central carrier sleeve 1 is installed a power supply with control devices mounted on an annular printed circuit board 5.

Through the switching terminals 3 on the ring-shaped printed circuit board 5, power is supplied from an external source. In the aluminum frame 13, printed circuit boards with LEDs 12 are mounted. Each printed circuit board with LEDs 12 is electrically connected via wire 8 to a power supply mounted on an annular printed circuit board 5.

The ceiling 17 is inserted into the frame of the aluminum profile 13 so that the LEDs shine at the end of the layer of translucent material 10.

Using the bearing bushes 2, the luminaire assembly is attached to the bearing surface.

Between the base of sheet aluminum 6 and the shade 17, clamping inserts 7 are installed, with the help of which a convection channel 14 is formed.

The frame of the aluminum profile 13 can be made in such a way that a second convection channel 15 is formed between the supporting surface and the base 6 of sheet aluminum. A fixing plate 4 with a hook can be installed in the center of the lamp for hanging an additional lighting device, for example, a chandelier of a traditional design. Moreover, the design of the luminaire makes it possible to electrically connect the additional lighting device with control devices mounted on the ring-shaped printed circuit board 5 of the lamp, so that the control of the illumination of the additional lighting device (in particular, switching on, off, brightness control) is performed by the control devices.

Assembly of construction:

Flexible boards with LEDs are glued from the inside along the perimeter to the frame made of aluminum profile 13, after which plates of light-scattering 11, light-conducting 10 and light-reflecting 9 material are sequentially inserted into the frame. Then, the base 6 is fastened to the frame using fixing screws 16. At the same time, the clamping inserts 7 inserted between the base and the ceiling provide a more even and reliable fastening of the ceiling.

Thus, the proposed ceiling LED lamp has improved performance compared with the known, namely:

1. The luminaire has a built-in power supply and a control module, which allows you to mount it close to the bearing surface (ceiling) using standard wiring and mounting hardware;

2. creates a more uniform light flux due to the lack of bright point sources of light, which reduces the harmful effect on the organs of vision;

3. provides increased efficiency of heat removal from LEDs due to the presence of convection channels in the luminaire design;

4. Supports the ability to use in conjunction with a conventional chandelier.

Claims (13)

1. LED ceiling lamp, consisting of a frame with LEDs mounted on it, a ceiling inserted into the frame and made of translucent and reflective layers, and a power supply with control devices connected to the LEDs, characterized in that - in the center of the ceiling there is a hole in which the central carrier sleeve is inserted, to which the base and the frame are attached, - the ceiling further comprises a light scattering layer located under the translucent layer, - the frame is made in such a way that a convection channel is formed between the base and the reflective material, - the plafond is fixed in the frame so that the LEDs shine at the end of the translucent layer. 2. LED ceiling lamp according to claim 1, characterized in that the base can be made solid or consisting of individual crossbars. 3. The LED ceiling lamp according to claim 1, characterized in that the frame, base and central bearing sleeve can be made of aluminum. 4. The LED ceiling lamp according to claim 1, characterized in that a fixing bar with a hook is installed on the central carrier sleeve. 5. The LED ceiling lamp according to claim 1, characterized in that the central carrier sleeve is closed from below with a decorative trim. 6. The LED ceiling lamp according to claim 1, characterized in that the LEDs used are warm and / or cold light emitting diodes, which are turned on with the help of a control device all at once or in any combination. 7. The LED ceiling lamp according to claim 1, characterized in that it has a round, rectangular, square or any other shape. 8. The LED ceiling lamp according to claim 1, characterized in that a second convection channel is formed between the base and the bearing surface. 9. The LED ceiling lamp according to claim 1, characterized in that the control device board further comprises a wireless interface module for receiving signals from external devices for controlling the lamp operation mode.

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