RU181133U1 - LED TAPE FOR LED LAMP - Google Patents

Abstract

The utility model relates to lighting engineering and is intended for use as an optical radiation source in LED electric lamps, mainly in LED lamps with a spherical translucent diffuser - a bulb, the shape and dimensions of which correspond to serial incandescent lamps. The essence of the utility model is that in the LED strip for a LED lamp, including the first and second LED elements electrically connected using a connecting current lead, each of which contains a printed circuit board made in the form of a strip, on which a number of electrically connected semiconductor light sources are located, as well as electrodes located at the end sections of each strip, providing connection of each LED element with a connecting current lead and with an external power source, according to a utility model, the LED strip contains a single a flexible printed circuit board including a central platform and two extended side parts adjoining to it, each of which is made in the form of a strip, on which A series of electrically connected semiconductor light sources is located, a conductive path located along its perimeter is formed on the surface of the central platform, while the first and second LED elements are formed by the side parts of a single printed circuit board with semiconductor light sources located on them, a conductive path is used as a connecting current lead, as electrodes, providing the connection with it of the first and second LED elements, used adjacent Conducting regions leading to the conductive path formed on the end parts of the surface of the side parts of a single printed circuit board located near the central platform.The technical result achieved by the implementation of the utility model is to simplify the installation of LED strip elements while ensuring their mutual spatial position. 1 ill.

Description

The utility model relates to lighting engineering and is intended for use as an optical radiation source in LED electric lamps, mainly in LED lamps with a spherical translucent diffuser - a bulb, the shape and dimensions of which correspond to serial incandescent lamps.

At present, LED tapes are used more and more widely as optical radiation sources for LED lamps with a bulb - diffuser, which provide a more uniform spherical distribution of the light flux compared to plate LED boards installed in the lamp perpendicular to its axial line.

Known LED strip described in [RU 168264],

The LED strip under consideration (see Fig. 1) includes three extended LED elements with LED chips mechanically and electrically connected to each other by means of flexible wire conductors welded to these elements.

The specified LED strip is intended for use in an LED lamp having a spherical translucent diffuser. In this case, in the working position, the LED strip is fixed on a horizontally oriented wire holder so that its LED elements are located in different planes relative to the axis of the lamp.

However, using flexible wire leads it is difficult to achieve the installation of LED strip elements in the required operating position and fixing them in the selected position.

Another disadvantage of this LED strip is the need to use a significant number of rations to connect the elements of the LED strip with each other, which complicates its installation.

Known LED strip described in [RU 2546469], which is selected as the closest analogue.

This LED strip is intended for use in an LED lamp with a bulb - diffuser and includes (see Fig. 2) the first and second LED elements electrically connected by means of a connecting current lead. Each element contains a printed circuit board made in the form of a strip on which a number of electrically connected semiconductor light sources, in particular LED chips, are located. At the end sections of each strip, wire electrodes are located that provide the connection of each element with a connecting current lead and with an external power source. As a connecting current lead, a metal wire fixed to the rod holder oriented in the direction of the axis of the lamp is used, to which the wire electrodes of the LED elements are soldered.

The presence of the specified metal wire allows for the electrical connection of the elements of the LED strip while ensuring the fixation of their mutual spatial working position.

However, the need to connect by soldering the electrodes of the LED elements with a connecting current lead, made in the form of a metal wire, complicates the process of mounting the LED strip.

The problem that can be solved by using the utility model is to simplify the installation of LED strip elements while securing their mutual spatial position.

The essence of the utility model is that in the LED strip for the LED lamp, including the first and second LED elements electrically connected by means of a connecting current lead, each of which contains a printed circuit board made in the form of a strip, on which a number of electrically connected semiconductor light sources are located, as well as electrodes located at the end sections of each strip, providing the connection of each LED element with a connecting current lead and with an external source Italy, according to a utility model, an LED strip contains a single flexible printed circuit board, including a central platform and two extended lateral parts adjacent to it, each of which is made in the form of a strip on which a number of electrically connected semiconductor light sources are located, located on the surface of the central platform its perimeter is a conductive path, while the first and second LED elements are formed by the side parts of a single printed circuit board with half-wires located on them with single light sources, a conductive track was used as a connecting current lead, and conductive regions adjacent to the conductive path formed on the end sections of the surface of the side parts of a single printed circuit board located near the central platform were used as electrodes for connecting the first and second LED elements.

In the particular case of a utility model, the central area of a single printed circuit board has the shape of a circle and is provided with a central through hole.

The implementation of the LED strip in the form of a single printed circuit board, the long extended parts of which form its elements, and the central part, made in the form of a platform with a conductive path, serves as a connecting current lead, as well as the presence of the conductive regions described above on the surface areas adjacent to the conductive path of a single PCBs allow electrical connection of LED strip elements without soldering.

In addition, the presence of a central site allows the installation of LED strip elements in the lamp without using soldering by mechanically fastening the specified area with a holder installed in the lamp, in particular using glue, fasteners.

These factors simplify the installation of LED strip elements, both during its manufacture and when it is installed in the working position inside the lamp.

Due to the placement of the above components of the LED strip on a single flexible printed circuit board, their mutual spatial position is fixed, both after the manufacture of the LED strip and after its installation inside the lamp. At the same time, due to the flexibility of a single printed circuit board, it is possible in the working position to give the LED strip elements a configuration that ensures the spatial distribution of light sources over the volume of the internal space of the LED lamp.

The material of the flexible single substrate can be used, in particular, copper or aluminum with a dielectric coating, foil textolite.

As semiconductor light sources can be used, in particular, single LEDs, LED chips, light emitting crystals.

Advantageous is the use of semiconductor light sources connected in series. At the same time, a high supply voltage of the LED strip is achieved, which makes it possible to use a high voltage current source as an external power source.

The lateral extended parts of a single printed circuit board can have a different configuration in the horizontal plane. In particular, in the horizontal plane, they can be in the form of straight stripes, curved stripes, wave-like stripes, spiral-shaped stripes.

Thus, the technical result achieved by the implementation of the utility model is to simplify the installation of the LED strip elements while ensuring the fixation of their mutual spatial position.

In the case when the central platform of a single printed circuit board has the shape of a circle and is equipped with a central through hole, it is possible to fix the LED strip inside the lamp at the end of the axial rod-shaped conical holder without the use of mechanical fasteners, which even more simplifies the installation of the LED strip.

The figure shows a General view of the claimed device.

The LED strip contains a single flexible printed circuit board, including a central platform 1 and two extended side parts 2 and 3 adjacent to it, each of which is made in the form of a strip on which a number of electrically connected semiconductor light sources 4 are located (in the figure, one semiconductor source is designated Sveta). The side parts 2 and 3 of the printed circuit board with the light sources 4 located on them form the first and second LED elements (not indicated by the figure in the figure).

A conductive path 5 located along its perimeter is formed on the surface of the central platform 1. On the end surface sections of the side parts 2 and 3 of the printed circuit board located near the central platform 1, conductive regions 6 and 7 are formed adjacent to the platform 1 and playing the role of electrodes providing electric connection of the first and second elements with each other.

In particular, the central area 1 of the printed circuit board has a circle shape and is provided with a central through hole 8.

In particular, the lateral parts 2 and 3 of a single printed circuit board in the horizontal plane have a spiral shape.

Conducting regions 9 and 10 are formed on the outer end portions of the side parts 2 and 3 of the printed circuit board, which act as electrodes for connecting the LED strip to an external power source.

The device operates as follows.

The LED strip is mounted in an LED lamp (not shown in the drawing). The central area 1 of the LED strip is mounted on a holder mounted in the interior of the sealed bulb of the LED lamp. In particular, the central platform 1 is fixed at the end of the axial rod-shaped conical holder mounted in the interior of the bulb of the LED lamp. In this case, the conductive regions 9 and 10 are connected to the terminals providing the connection of the LED board with an external power source.

When power is supplied to the LED strip through an electrical circuit including conductive areas 9 and 10, series-connected light sources 4 of the first and second LED elements, conductive areas 6 and 7, conductive path 5, an electric current flows, and light sources 4 emit light. Moreover, due to the presence of multiple light sources 4, spatially distributed over the volume of the bulb of the LED lamp, a wide radiation pattern in the horizontal and vertical planes is provided.

Claims (2)

1. LED strip for a LED lamp, including the first and second LED elements electrically connected using a connecting current lead, each of which contains a printed circuit board made in the form of a strip, on which a number of electrically connected semiconductor light sources are located, as well as located at the end sections of each strip electrodes, providing the connection of each LED element with a connecting current lead and with an external power source, characterized in that the LED strip contains a single flexible printed circuit board, including a central platform and two extended side parts adjacent to it, each of which is made in the form of a strip on which a number of electrically connected semiconductor light sources are located, a conductive path located around its perimeter is formed, while the first and second LED elements are formed by the side parts of a single printed circuit board with semiconductor light sources located on them, as nogo tokovoda wiring used as the electrodes, providing a connection to it first and second LED elements are used adjacent to a conductive path electrically conductive areas formed on the end portions of the side surface parts of the one printed circuit board arranged near the central area. 2. The LED strip according to claim 1, characterized in that the central area of the single printed circuit board has a circle shape and is provided with a central through hole.

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