RU115043U1 - LED LAMP - Google Patents

Abstract

1. LED lamp, containing a printed circuit board with radio electronic components and caps located at both ends of the lamp and connected to the printed circuit board using electrical inputs, characterized in that the electrical inputs are inserted into the outputs of the caps, and each output of the cap is made in the form of a hollow tube, in this case, each electrical input is made in the form of a rigid bare wire, the thickness of which is sufficient so that it does not bend under its own weight in the area from the printed circuit board to the output of the base. ! 2. Lamp according to claim 1, characterized in that the terminals of the caps are crimped. ! 3. Lamp according to claim 1, characterized in that the electrical leads are made of copper. ! 4. The lamp according to claim 1, characterized in that contact pads are made from the ends of the printed circuit board, to which the electrical leads are soldered. ! 5. The lamp according to claim 1, characterized in that at each of the two ends the printed circuit board is equipped with two electrical inputs, while the electrical inputs located at one end are made in the form of a single wire soldered to the site on the printed circuit board near its middle. ! 6. The lamp according to claim 1, characterized in that at each of the two ends the printed circuit board is provided with one electrical input, while the terminals of the base are electrically connected to each other inside the base.

Description

Technical field

The inventive utility model relates to electrical engineering, namely to lighting technology using light emitting diodes (LEDs). The inventive LED lamp can be used to replace gas discharge lamps in the reconstruction of lighting systems with minor changes associated with switching.

The prior art.

A known terminal block for fixtures (RF patent No. 2061986 for an invention, IPC H01R 9/24, 1996 [1]) containing a dielectric housing in which current-carrying plates for fire connection of the corresponding wires, intermediate conductive elements are installed. Current-carrying plates are made in the form of printed conductors of a common single-sided board. On both sides of the board is coated with a dielectric compound. Intermediate conductive elements are each made in the form of a U-shaped bracket. The racks of brackets are inserted into the through holes made in the dielectric base of the board, and are soldered to the corresponding current-carrying plates. A screw is installed on the U-shaped bracket, the head of which rests on the crossbar of the bracket. Between the struts of the U-shaped bracket there is a threaded part of the screw with a threaded fastener installed on it. The length of the threaded part of the screw is chosen to be less than the length of the struts of the bracket. Threaded fasteners are made in the form of rectangular nuts. On both sides, the board is covered with a dielectric compound.

The disadvantage of this analogue [1] is the complex design of the connection of the printed circuit board and the lamp, in which the U-shaped brackets with screws and fasteners are used as intermediate conductive elements. To connect the printed circuit board to the lamp, it is necessary to install U-shaped brackets on the dielectric base of the printed circuit board, the racks of which are inserted into the through holes made in the base of the board and soldered to the corresponding current-carrying plates. Then cut off the conductor of a certain length, strip it from both ends and fix one of them on the screw between the bracket and the fastener, and connect the second end to the lamp. Such a connection is material intensive and time consuming.

The specified terminal block to the fixtures [1] is the set of essential features the closest device of the same purpose to the claimed utility model. Therefore, it is adopted as a prototype of the claimed utility model.

Disclosure of a utility model.

The technical problem, which is aimed by the claimed utility model, is to simplify the connection of the printed circuit board and socles without compromising the quality of the connection.

The technical result provided by the claimed utility model is to simplify the connection of the printed circuit board and socles.

The essence of the inventive LED lamp is that the LED lamp contains a printed circuit board with electronic components and socles, placed at both ends of the lamp. The plinths are connected to the printed circuit board using electrical inputs. Electrical inputs are inserted into the terminals of the plinths. Moreover, each conclusion of the cap is made in the form of a hollow tube. At the same time, each electrical input is made in the form of a rigid uninsulated wire, the thickness of which is sufficient so that it does not bend under its own weight in the area from the printed circuit board to the output of the base.

The findings of the socles can be crimped.

The electrical inputs are mainly made of copper.

At the ends of the printed circuit board, pads can be made to which electrical inputs are soldered.

From each of the two ends, the printed circuit board is preferably equipped with two electrical inputs, the electrical inputs located on one end made in the form of a single wire soldered to the platform on the printed circuit board near its middle.

From each of the two ends, the printed circuit board can be equipped with one electrical input, while the conclusions of the base are electrically connected to each other inside the base.

A brief description of the drawings.

The figure 1 shows a diagram of a LED lamp, side view, figure 2 - section aa of figure 1; figure 3 - mounting of the radiator and the light transmitting part;

Implementation of a utility model.

The LED lamp (figure 1) contains a radiator (1), on which a printed circuit board (2), a light-transmitting part (3) and socles (4) are fixed.

The radiator (1) is made in the form of a part of the cylinder formed by the section of the cylinder by a plane parallel to the axis of the cylinder (figure 2). The radiator (1) is made of a heat-conducting material, preferably aluminum. The surface of the radiator (1), intended for mounting the printed circuit board (2), is made flat and smooth. The radiator (1) is designed to remove heat from the printed circuit board (2) with the installed electronic components (5).

The printed circuit board (2) is a plate made of a dielectric, mainly PCB. On the first side of the printed circuit board (2) there are electrical conductors connecting the pads intended for the installation of electronic components (5), including LEDs. The second side of the printed circuit board (2) is fixed on a flat part of the surface of the radiator (1).

The light transmitting part (3) is made in the form of a cylindrical gutter, preferably of plastic or glass. To hold the light-transmitting part (3) on the radiator (1), the latter is equipped with grooves (9), and the light-transmitting part (3) is provided with sides (6) (Fig. 3).

Sockets (4) are placed on both ends of the lamp and are designed for additional fixation of the radiator (1) and the light transmitting part (3), as well as for supplying power to the LED lamp. From each of the two ends of the printed circuit board (2), one or two electrical inputs (7) can be placed. The electrical inputs (7) are soldered at one end to the printed circuit board (2), and the other inserted into the terminals (8) of the plinths (4). The inputs (7) are made in the form of rigid uninsulated wires, the thickness of which is sufficient to pass the current consumption of the LED lamp and so that the wire does not bend under its own weight in the area from the printed circuit board (2) to the output (8). The mentioned conclusions (8) of each base (4) are made in the form of hollow tubes fixed in the base housing (4) on a dielectric holder. Parts of electrical inputs (7) protruding beyond the terminals (8) of the base (4) are cut off.

The terminals (8) can be crimped to provide better contact between the electrical inputs (7) and the terminals (8) of the base (4).

Electrical inputs (7) are made mainly of copper.

Examples of specific performance.

Example 1. From the ends of the printed circuit board (2), contact pads are made to which electrical inputs are soldered electrically connecting the conclusions (8) of the plinths (4) to the circuits of the printed circuit board (2).

Example 2. From each of the two ends of the printed circuit board (2) is equipped with two electrical inputs (7). In this case, the electrical inputs (7) located on one end are made in the form of a single wire soldered to the platform on a printed circuit board (2) near its middle.

Example 3. From each of the two ends of the printed circuit board (2) is equipped with one electrical input (7). In this case, the conclusions (8) of the base (4) are electrically interconnected inside the base (4)

The implementation of the structural elements of the claimed utility model is not limited to the above examples.

Work description.

When the LED lamp is turned on, the terminals of the base (6) with the electrical inputs (7) located in them are supplied with electric power, which is then supplied to the electronic components (5) of the printed circuit board (2). During operation of the LED lamp, the LEDs (5) emit light and dissipate heat, and other electronic components (5) dissipate heat. The heat generated during the operation of the electronic components (5) is removed through the printed circuit board (2) and the radiator (1) to the external environment.

The use of the inventive LED lamp is to install it in an appropriate cartridge lighting system. The inventive LED lamp can be installed instead of a discharge lamp. In this case, additional switching of conductors suitable for the cartridge is required, associated with the disconnection of the elements ensuring the operation of the gas discharge lamp (chokes, ballasts, ballasts), and the connection of the claimed LED lamp directly to the power supply.

Thus, from the foregoing, it follows that in the inventive LED lamp, the claimed technical result: “simplification of the connection of the printed circuit board and socles” is achieved due to the fact that the LED lamp contains a printed circuit board with electronic components and socles placed at both ends of the lamp. The plinths are connected to the printed circuit board using electrical inputs. Electrical inputs are inserted into the terminals of the plinths. Moreover, each conclusion of the cap is made in the form of a hollow tube. At the same time, each electrical input is made in the form of a rigid uninsulated wire, the thickness of which is sufficient so that it does not bend under its own weight in the area from the printed circuit board to the output of the base.

Industrial applicability.

The authors of the utility model made a prototype LED lamp, tests of which confirmed the achievement of the technical result.

The inventive utility model is implemented using industrially manufactured devices, can be applied at any electrical enterprise and will find wide application in the electronics industry in the production of LED lamps.

INFORMATION SOURCES.

1. RF patent No. 2061986 for the invention, IPC H01R 9/24, publ. 1996 year

Claims (6)

1. The LED lamp containing a printed circuit board with electronic components and socles, placed at both ends of the lamp and connected to the printed circuit board using electrical inputs, characterized in that the electrical inputs are inserted into the terminals of the socles, each terminal of the base is made in the form of a hollow tube, in this case, each electrical input is made in the form of a rigid uninsulated wire, the thickness of which is sufficient so that it does not bend under its own weight in the area from the printed circuit board to the output of the base. 2. The lamp according to claim 1, characterized in that the conclusions of the socles are crimped. 3. The lamp according to claim 1, characterized in that the electrical inputs are made of copper. 4. The lamp according to claim 1, characterized in that from the ends of the printed circuit board are made contact pads to which the electrical inputs are soldered. 5. The lamp according to claim 1, characterized in that from each of the two ends the printed circuit board is equipped with two electrical inputs, while the electrical inputs located on one end are made in the form of a single wire soldered to a platform on the printed circuit board near its middle. 6. The lamp according to claim 1, characterized in that from each of the two ends the printed circuit board is equipped with one electrical input, while the conclusions of the base are electrically connected to each other inside the base.