RU111248U1 - LED LAMP - Google Patents

Abstract

 1. LED lamp, including a flat box-shaped housing with a window made of translucent material, LEDs mounted on solid strip-shaped printed circuit boards, electrically connected to each other, distributed over the area of the rear wall of the housing and secured to it with fasteners, characterized in that the boards made of foil PCB, while the electrical connection of the printed circuit boards with each other is made using patch wires. ! 2. The lamp according to claim 1, characterized in that the perimeter of the window is slightly smaller than the perimeter of the rear wall of the housing. ! 3. The lamp according to claim 1, characterized in that a translucent material having a transmittance from 80 to 90% is used as a translucent window material. ! 4. The lamp according to claim 1, characterized in that the housing is made with the possibility of installing it in the cell of the suspended ceiling. ! 5. The lamp according to claim 1, characterized in that the housing is equipped with a means of attachment to the surface of the external structure.

Description

The utility model relates to lighting engineering, namely to LED lamps mounted in cells of a false ceiling or on walls of premises.

Currently, LED luminaires are being actively developed, the designs of which are adapted to be embedded in cells in a false ceiling or to be installed on the surface of a room wall, which can be used instead of fluorescent lamps of a similar application.

So, the known LED lamp described in [RU 102278]. The LED lamp in question comprises a housing, on the back wall of which, one under the other, there are extended metal reflectors having a plate base and side walls. In each reflector there is a printed circuit board made of foil PCB with a line of LEDs mounted on it, and each board contains a series of through metallized holes, at least one of which is placed under each of the LEDs.

The use of metal reflectors allows you to provide a given radiation pattern.

At the same time, the presence of these reflectors limits the width of the radiation pattern, which can narrow the scope of the lamp. In addition, due to the installation of printed circuit boards with LEDs inside the metal reflectors, and not directly on the back wall of the housing, the conditions for heat removal from the LEDs are worsened, and therefore, printed circuit boards with through metallized holes are used in the luminaire.

In turn, the use of metal reflectors and boards with through metallized holes complicates the design of the lamp.

Known LED lamp [RU 87598], which is selected as the closest analogue.

Consider a LED lamp contains a flat box-shaped, in particular, rectangular-shaped housing with a window made of translucent material, while the perimeter of the rear wall of the housing corresponds to the perimeter of the window. LEDs are mounted on the rear wall of the housing. They are mounted on solid-strip-shaped printed circuit boards with an aluminum base. The boards are electrically connected to each other, distributed over the area of the rear wall of the case and fastened to it with fasteners. In this case, the electrical connection of the printed circuit boards to each other is made using inter-circuit connections, each of which connects two adjacent boards using connectors.

The housing of the lamp in question is made with the possibility of its installation in the cells of the suspended ceiling.

The disadvantage of this luminaire is the use of the above-described mainboard connections, which leads to a complication of the design, as well as the use of printed circuit boards based on aluminum, which are more expensive than foil-coated textolite boards.

The objective of the claimed utility model is to simplify and reduce the cost of the design of the LED lamp.

The essence of the claimed utility model is that in the LED lamp, including a flat box-shaped housing with a window made of translucent material, LEDs mounted on solid strip-shaped printed circuit boards electrically connected to each other, distributed over the area of the back wall of the housing and mounted on it fasteners, according to a utility model, the boards are made of foil-coated PCB, while the electrical connection of the printed circuit boards to each other is made using switching x wires.

In the particular case of the utility model, the window perimeter is slightly smaller than the perimeter of the rear wall of the housing.

In the particular case of the utility model, a translucent material having a transmittance from 80 to 90% was used as a translucent window material.

In the particular case of the utility model, the housing is configured to be installed in a cell of a suspended ceiling.

In the particular case of the utility model, the housing is equipped with a means of attachment to the surface of the external structure.

The implementation of the housing of the inventive lamp in the form of a flat body having a box-shaped shape, on the front surface of which a window is made of translucent material, provides the adaptation of the lamp design to be embedded in the cells of the false ceiling or to install it on the surface of the wall of the premises. The presence of printed circuit boards with LEDs mounted on the rear wall of the housing and distributed over its area in the form of continuous stripes allows you to create a luminous flux that ensures uniform illumination of the surface.

Due to the fact that the boards with LEDs are fixed with fasteners directly on the rear wall of the case, which simultaneously serves as a heat sink, the conditions for heat removal from the LEDs are improved, which allows you to use printed circuit boards not on a metal basis, but cheaper printed circuit boards on a textolite basis, coated with a layer of metal foil, in particular, a layer of copper foil. In this case, the required conditions for heat removal are achieved by selecting the dimensions of the rear wall of the housing and the power of the LEDs used.

The connection of the printed circuit boards with LEDs with each other using switching wires provides ease of communication and helps to simplify the design of the inventive lamp.

Thus, the technical result achieved by using the claimed utility model is to simplify and reduce the cost of the design of the LED lamp.

Using a window, the perimeter of which is slightly smaller than the perimeter of the rear wall of the housing, allows you to hide fully or partially the elements of the electrical circuit of the lamp, in particular, switching wires and a power supply, if installed near the side wall (side walls) of the housing.

In the case when a translucent material having a transmittance from 80 to 90% is used as a translucent window material, scattering of light favorable for visual perception is achieved with a relatively high transmittance thereof. In particular, polymethylmethacrylate having a transmittance of 80 to 90% can be used as said translucent material.

In the case when the casing is made with the possibility of installing it in the cell of the suspended ceiling, the lamp can be used as a ceiling lamp, while its dimensions and the fixing means used are selected from the condition of incorporating the lamp into a mesh suspended ceiling.

In the case where the housing is equipped with a means of attachment to the surface of the external structure, it is possible to mount the lamp on the surface of the external structure, for example, on the wall surface. The specified fastening means can be made, in particular, in the form located at the edges of the housing, at least two plate protrusions with holes for fasteners.

Figure 1 presents a General view of the inventive device (front view; figure 2 is the same (top view).

The LED lamp contains a flat box-shaped housing 1, on the rear wall 2 of which are fixed printed circuit boards 3 made in the form of continuous strips (two printed circuit boards are indicated by the figure in the drawing) with LEDs 4 mounted on them (two LEDs are indicated in the drawing). The boards 3, in particular, are fastened with rivets 5 (in the drawing, one rivet is indicated by the position). Boards 3 are made of foil-coated PCB, in particular, of PCB-foil-coated PCB.

In particular, the lamp contains seven boards 3, each of which has 6 LEDs.

The housing 1 is closed by a window 6 of translucent material. In particular, the front wall of the housing 1 is a window 6 made of polymethylmethacrylate having a transmittance of 80 to 90%.

The boards 3 are distributed over the area of the rear wall 2 of the housing 1 and are electrically connected to each other by means of switching wires 7 (in the drawing, the part indicates the part of the wires 7). The wires 7, in particular, are located near the side wall 8 of the housing 1.

The lamp also contains a power unit 9, electrically connected via switching wires 7 to the boards 3 and located on the rear wall 3 of the housing 1, in particular, near its side wall 10.

The housing 1, in particular, is configured to be installed in a cell of a suspended ceiling.

The device operates as follows.

The luminaire is mounted on a support, in particular, it is fixed in a cell of a suspended ceiling.

When the power supply 9 is turned on, current flows through the electrical circuit of the LEDs 4, the LEDs 4 emit light. Due to the fact that the board 3 with LEDs 4 are distributed over the area of the rear wall 2 of the housing and 1, the lamp emits a uniform light flux. Due to the presence of glass 6, a relatively high transmission of light is achieved, and at the same time, scattered radiation favorable for visual perception is ensured.

Claims (5)

1. LED lamp, including a flat box-shaped housing with a window made of translucent material, LEDs mounted on solid strip-shaped printed circuit boards, electrically connected to each other, distributed over the area of the rear wall of the housing and secured to it with fasteners, characterized in that the boards made of foil PCB, while the electrical connection of the printed circuit boards with each other is made using patch wires. 2. The lamp according to claim 1, characterized in that the perimeter of the window is slightly smaller than the perimeter of the rear wall of the housing. 3. The lamp according to claim 1, characterized in that a translucent material having a transmittance from 80 to 90% is used as a translucent window material. 4. The lamp according to claim 1, characterized in that the housing is made with the possibility of installing it in the cell of the suspended ceiling. 5. The lamp according to claim 1, characterized in that the housing is equipped with a means of attachment to the surface of the external structure.