RU144430U1 - LED LAMP - Google Patents

Abstract

LED lamp containing a bulb with grooves on the inner surface for mounting the reflector, a reflector with latches on the upper surface for mounting with the bulb, an LED chip on a ceramic substrate on an intermediate metal heat sink, a driver, a plastic radiator equipped with plates with holes in the bottom of the radiator for mounting with a housing, a housing with grooves for mounting a radiator and a base, characterized in that the intermediate heat absorber with a chip on a ceramic substrate is equipped with two curved and metal plates which are inserted and electrical contacts in the connectors, which is provided with a driver placed into the inner metal core of the radiator, the reflector surface is provided with a latch on the lower surface, which are inserted into the holes located on the top of the radiator plane.

Description

The utility model relates to lighting engineering, in particular to light sources - lamps on light-emitting diodes, intended for use in domestic and industrial premises for replacing incandescent lamps with a power of 25-100 W with a base E14 and E27.

LED lamps are known for replacing conventional incandescent lamps, consisting of several main parts - modules, for connecting them into a single whole various technological operations are used, such as soldering, welding, riveting, as well as threaded connections, valve and latch systems. The US lamps described in US Pat. the modules are non-separable, carried out by welding, soldering, etc., which requires a lot of time.

Of the known analogues, the closest is the design of the LED lamp described in patent CN 201757293, published 09.03.2011. The bulb, the LED chip on the board mounted on the coolant, the radiator, the driver in the heat-insulating housing and the base form the structure of the lamp. The flask is attached to the coolant by means of latches, which are protrusions on the inner surface of the flask, which, when the flask is mounted on the coolant and rotates around its axis, enter the grooves on the outer surface of the coolant. The inner core of the radiator is attached to the heat-insulating casing by means of latches located on the heat-insulating casing, and correspondingly located recesses on the radiator. Latches and recesses are symmetrically distributed around the circumference, their number should be more than three. The cap is worn on the bottom of the case.

The main disadvantage of this device is the use of other connection methods (mounting on thermal grease, soldering) of the remaining modules: an LED chip on the board and a coolant, a coolant and a radiator, a coolant with a chip and a driver, which leads to the need to use special materials and tools that complicate and increase the cost of assembly LED lamp, as well as in the case of soldering, which have a negative impact on the environment.

The technical problem, which the utility model is aimed at, is to create a simple and optimal design of an LED lamp, the implementation of which facilitates and cheapens the assembly of LED lamps, while eliminating harmful environmental effects.

The technical result is achieved by the fact that the LED lamp containing the flask with grooves on the inner surface for mounting the reflector, the reflector with latches on the upper surface for mounting with the bulb, an LED chip on a ceramic substrate on an intermediate metal heat sink, a driver, a plastic radiator equipped with plates with holes in the bottom of the radiator for mounting with a housing, a housing with grooves for mounting a radiator and a base, characterized in that the intermediate heat sink with a chip on ceramics cal substrate is provided with two bent metal plates which are inserted and electrical contacts in the connectors, which is provided with a driver placed into the inner metal core of the radiator, the reflector surface is provided with a latch on the lower surface, which are inserted into the holes located on the top of the radiator plane.

With this solution, all the LED lamp modules - bulb, reflector, LED chip on a ceramic substrate and an intermediate metal heat sink, radiator, driver, housing and base - are connected to each other in several movements using latches or latches on each module. The design of the modules can change, the type and location of the valves and latches must remain unchanged.

In FIG. 1 shows the appearance of the modular design of the LED lamp.

In FIG. 2 shows the appearance and connection diagram of the radiator with the casing and the base for standards E27 and E14 using latches and the inner surface of the insulating casing.

In FIG. 3 shows the appearance of the connection of the flask, reflector, intermediate metal heat absorber with a chip on a substrate and a radiator.

The modular design of the LED lamp (Fig. 1) consists of a bulb 1 with grooves on the inner surface 2, a reflector 3 with latches 4 and 5, an LED chip on a ceramic substrate 6, mounted on an intermediate metal heat sink with two curved plates for mounting 7, plastic a radiator 8 with an internal vertical metal core with holes 9, a driver 10 with connectors 11, a housing 12 and a cap 13. In the lower part of the internal vertical metal core of the radiator 8 (Fig. 2) four layers are made by stamping us 14 holes. On the inner surface of the housing 12 in the grooves 15 are made four latches 16 (Fig. 2). The lower part of the radiator 8 and the upper part of the housing 12 have the same diameter, the size and position of the grooves 15 corresponds to the size and position of the plates 14, the latches 16 are located at the level of the holes in the plates 14. The radiator 8 is connected to the housing 12 by means of latches 16. The diameter of the lower part of the housing 12 corresponds to the diameter of the base 13: E27 or E14, the base 13 is worn on the lower part of the housing 12. The intermediate heat absorber with a chip on the ceramic substrate 6 is equipped with two curved metal plates 7 (Fig. 3), which are electrical contact E. The driver 10 has two connectors 11 for electrical contacts, the dimensions of the connectors 11 and their position correspond to the size and position of the metal plates 7. On top of the metal core of the heat sink 8 is attached an intermediate metal heat absorber with a chip on the substrate 6, the metal contacts 7 of which are installed in the connectors 11 of the driver 10 placed inside the metal core of the radiator 8. The surface of the reflector 3 has a hole in the central part for the chip on the substrate 6, latches 4 and 5 are located on the perimeter on both sides of the reflector (f ig. 3). The latches 4 are protrusions on the upper surface of the reflector 3, the latches 5 are four protrusions in the form of hooks located symmetrically at the same distance from each other on the lower surface of the reflector 3. On the upper plane of the radiator 8 there are four holes symmetrically at the same distance from each other 9, the dimensions of which correspond to latches 5. To the upper plane of the outer part of the radiator 8, a reflector 3 is attached, four latches 5 of which are placed in the holes 9. The bulb 1 is attached to the reflector 3 by means of two grooves on the inner surface of the bulb 1 and the projections 4 on the reflector surface, which during the installation of the flask and its rotation about its axis are in the grooves 2. Thus, for the assembly of LED lamp requires only a few movements of the collector.

When the LED lamp is connected to the electrical network by screwing the cap 13 into a cartridge of the corresponding diameter (E27 or E14), voltage is supplied through the cap 13 to the driver 10, and then to the LED chip on the substrate 6, which is the light source, thus the lamp It works no worse than collected in another way.

In comparison with the known analogues, the proposed utility model, thanks to the developed system of latches, allows you to assemble the lamp from individual modules in several movements without the use of special equipment and additional materials, which facilitates and reduces the cost of assembly of LED lamps, reduces the amount of manual labor, increases the strength and reliability of the LED lamp design , increases the efficiency of serial production of LED lamps, eliminates the harmful effects of soldering and welding on the environment at.

Claims (1)

LED lamp containing a bulb with grooves on the inner surface for mounting the reflector, a reflector with latches on the top surface for mounting with a bulb, an LED chip on a ceramic substrate on an intermediate metal heat sink, a driver, a plastic radiator equipped with plates with holes in the bottom of the radiator for mounting with a housing, a housing with grooves for mounting a radiator and a base, characterized in that the intermediate heat sink with a chip on a ceramic substrate is equipped with two curved metal plates which are inserted and electrical contacts in the connectors, which is provided with a driver placed into the inner metal core of the radiator, the reflector surface is provided with a latch on the lower surface, which are inserted into the holes located on the top of the radiator plane.