WO2013048277A1

WO2013048277A1 - Light emitting diode assembly

Info

Publication number: WO2013048277A1
Application number: PCT/RU2011/000752
Authority: WO
Inventors: Юрий Борисович СОКОЛОВ
Original assignee: Общество с ограниченной ответственностью "ДиС ПЛЮС"
Priority date: 2011-09-30
Filing date: 2011-09-30
Publication date: 2013-04-04
Also published as: EA024614B1; EA201400229A1

Abstract

The light emitting diode assembly relates to lighting technology and increases the manufacturability of the structure, provides reliable connection to an electrical network and reduces operating costs. The assembly comprises a light emitting diode lamp with a socket, a current source situated at a distance from the light emitting diode lamp, and a lamp holder. The connecting surfaces of the socket and the holder form a rotating pair, the movable component of which is provided with a means for fixing the mutual position of the components of the rotating pair, wherein the holder comprises a hollow inner cylinder situated inside a hollow outer cylinder, the closed end of which has a first contact element mounted thereon in such a way as to be connectable with a remote power supply; a second contact element is mounted on the lateral surface of the aforesaid cylinder in such a way as to be able to enter into direct or indirect electrical contact with the remote power supply.

Description

LED complex

• Field of technology.

The solution relates to lighting engineering and can be used in the manufacture of lighting equipment for general outdoor and indoor lighting.

• The prior art.

LEDs are an effective light source, have low power consumption and long life. In the case of the integrated use of LED lamps, for example, in multipoint ceiling lights or chandeliers, the use of threaded socles for electrical and mechanical connection to the power supply network is not optimal.

Known lighting devices for the content of LEDs placed on. the surface of the heat pipe that is installed with the possibility of heat exchange with a fin radiator equipped with a base for connecting the lamp to the power supply network and to the power supply unit located inside the device (patent RU96696 for utility model, application WO201187023 or patent CH700967).

International application WO2008 / 093978 published on 07.08.2008 describes an LED lamp containing LEDs located on a board mounted on the end of a heat pipe placed in a cavity of a radiator on which a threaded base is mounted, which serves to connect the lamp to the power supply network and hold the lamp in the lighting fixture. Known Solution does not have a built-in power supply. A variant of the LED lamp is provided, the power of which is carried out from a direct current network of 12 V.

Known LED lamp containing an LED block placed on one of the ends of the heat-conducting rod, on which are strung ring-shaped elements with a developed cooling surface. A threaded base mounted on the free end of the heat-conducting rod serves to connect the lamp to the power supply network and to hold the lamp in the lighting fixture. The known solution does not have a built-in power supply (published application US2011018417, MKI H01J61 / 52, publication date 01/27/2011).

The closest analogue of the claimed solution is the decision on the application US2011018 17.

The technical result. The claimed solution is to create a simple and reliable electromechanical connection of an LED lamp with a holder.

'Disclosure of the invention.

The solution is characterized by the following set of essential features:

An LED complex comprising an LED lamp connected to the holder and a current source located away from the LED lamp equipped with a radiator, on the surface of which a radiation source with an optical system is mounted and a base is fixed, characterized in that the connection surfaces of the base and holder form a rotational pair, the movable link is equipped with means for fixing the mutual position of the links of the rotational pair, the holder includes an inner hollow cylinder located inside the outer hollow cylinder, on the closed end of which is placed the first contact element for connection to a remote power source, and a second contact element mounted on its side surface is installed with the possibility of direct or indirect electrical connection with a remote power source.

The specified set of signs of the LED complex may have the following specifying and developing signs:

- a means of fixing the mutual position of the links of the rotational pair is made in the form of an elastic element placed on its movable link. Fixing the relative position of the links of the rotational pair ensures the reliability of fixing on the lamp holder in any spatial position due to the elastic interaction forces of the mating elements of the base and the holder of the LED lamp;

the radiation source is placed on a board installed with the possibility of heat exchange on the first end of the hollow cylindrical radiator, and the base is fixed on the second end of the radiator;

the base and holder are fixed in the cavity of the cylindrical radiator. This embodiment allows not only to significantly reduce the height of the LED complex,. but also greatly simplify its installation on a carrier LED complex surface; -the radiator and the base are made of one heat-conducting but non-conductive material, in the form of a single part, which will improve the manufacturability of the design and reduce the cost of assembling the lamp;

- a single powerful LED or a cluster of powerful LEDs can be used as a radiation source. In the latter case, a proportional increase in the radiator cooling surface will be required;

- the second contact element of the holder can be connected to a remote power source directly or indirectly, through similar contacts of the holders of adjacent LED lamps, for example, in the case of a series connection of LED lamps in multipoint lamps.

The essence of the holder of the LED lamp is characterized by the following set of features:

An LED lamp holder containing an internal hollow cylinder located inside an external hollow cylinder, on the closed end of which there is a first contact element mounted with the ability to connect to a remote power source, and on the side surface a second contact element mounted with the possibility of direct or indirect electrical connection with a remote power source, while the inner surface of the inner cylinder is configured to form a rotational pair with the basement surface. ^■ List of graphic materials.

The solution is illustrated by the following graphic materials:

figure 1 shows a three-dimensional image of a General view of the LED complex in the analysis;

figure 2 shows a three-dimensional image of a General view of a shortened version of the LED complex in the analysis;

on Fig.3 shows a side view of a shortened version of the LED complex in the analysis;

figure 4 shows a three-dimensional image of the holder in disassembled form;

in Fig. 5 shows a three-dimensional image of the inner cylinder, illustrating an embodiment of a means of fixing the relative position of the links of the rotational pair

Fig. 6 shows a section of the cap;

Fig. 7 shows a top view of the holder assembly.

■ Detailed description of the solution.

The LED complex (Fig. 1 and Fig. 2) contains a LED lamp 1 and a holder 2. The LED lamp 1 has a unit 3, including a radiation source on the board 3 'and a light-diffusing sheath 3 ", a radiator 4, a base 5, equipped with contact elements 12 and 13. The holder 2 has (Fig. H) an inner hollow cylinder 7 located inside the outer hollow cylinder b, on the closed end 16 of which the first contact element 8 is placed, and a second contact element 9 is installed on its side surface for electrical connection with the remote the source power supply (not shown). The inner cylinder 7 of the holder 2 has a surface 10 that forms a rotational pair with an adjacent surface 11 of the base 5. The interaction of the surfaces of the rotational pair ensures an unambiguous positioning of the base 5 relative to the holder 2 and the creation of a guaranteed electrical connection between the corresponding contact elements of the holder 2, the base 5 and the outputs of the power source.

The fixation of the mutual position of the links of the rotary pair is provided by the elastic forces of the guide elements 17 on the base 5 and the guide elements 18 on the holder 2 in the course of their elastic interaction that occurs when the movable link (base 5) rotates relative to the fixed link (holder 2) of the rotational pair and the protrusion 19 in the corresponding recess on the guides 17 of the base 5.

The shape and dimensions of the radiator are selected depending on the power of the used radiation source and the purpose of the LED complex. So, to use the LED complex as light sources for a chandelier, the radiator of the LED lamp can be made elongated, for example, in the form of a candle. In the case of using the LED complex as an integrated ceiling light source, the radiator should be wide and flat, which makes it easy to install the LED complex as, for example, a spot lamp. Moreover, in all embodiments of the LED complex, the base and holder are not structurally changed. ■ Industrial applicability

The embodiments of the elements and components of the LED complex described in the description are not exhaustive. They can be adapted for specific lighting purposes. The structural elements of the LED complex have simple technological forms that can be manufactured using well-known tools having high performance and automated control.

Claims

Claim

1. LED complex containing

LED lamp connected to the holder and a current source located far from

An LED lamp equipped with a radiator, on the surface of which a radiation source with an optical system is mounted and a base is fixed, characterized in that the connection surfaces of the base and holder form a rotational pair, the movable link of which is provided with means for fixing the relative position of the links of the rotational pair, the holder includes an inner hollow cylinder located inside the outer hollow cylinder, on the closed end of which is placed the first contact element,

mounted with the ability to connect to a remote power source, and on its side surface has a second contact element mounted with the possibility of direct or indirect

electrical connection to a remote power source.

2. -LED complex according to paragraph 1,

characterized in that, the radiation source is placed with the possibility of heat exchange on a board mounted on the first end of the hollow cylindrical radiator, on the second end of which a base is fixed.

3. LED complex according to paragraph 1 or paragraph 2, characterized in that the base and holder

fixed in the cavity of a cylindrical radiator.

4. LED complex according to paragraphs 2 or 3, characterized in that the radiator and the base are made as a single part from one heat-conducting

material.

5. The holder of the LED lamp containing an inner hollow cylinder, placed inside the outer hollow cylinder, at the closed end

which is placed the first contact element mounted with the possibility of connection with

remote power source and on the side

the surface has a second contact element mounted with the possibility of direct or

indirect electrical connection with

remote power source, while the inner surface of the inner cylinder is configured to form a rotational pair with

base surface of the LED lamp.