RU78605U1 - LED NETWORK LAMP - Google Patents

Abstract

The claimed utility model relates to LED network lights. The proposed LED network light is designed on the basis of the LED housing, having a specific name Acriche, made by Seoul Semiconductor technology using the brightest crystals in the world. The proposed LED network bulb is characterized by two options for its design. Structural elements, such as the Acriche assembly, the ceiling and the radiator, are unified, i.e. common to two design options. The difference lies in the design features regarding the mounting of this bulb. In one case, it is characterized by a transition block and a standard base. In another case, it is characterized by an installation socket of the original design, which is attached to the wall or ceiling using dowels or self-tapping screws with a special head that can not be unscrewed using a standard set of standard screwdrivers. The radiator used in this light bulb is characterized by compactness, combined with the size of the light bulb, which ensures the convenience of its use in any lamps and its design in relation to the general interior of the rooms. Moreover, the proposed radiator does not allow heating in excess of the permissible temperature level.

Description

(01) The claimed utility model relates to LED network lamps and can have a wide range of applications, which include: indoor and outdoor lighting of building entrances and staircases; lighting of auxiliary premises in apartments; emergency lighting of industrial, administrative and public buildings; lighting of fences of various objects around the perimeter; subway tunnel lighting; lighting of warehouse and basement; lighting of elevators, baths, saunas, garages; local sections of emergency operations; application as an individual lamp in the workplace.

State of the art

(02) At present, Camelion Chinese LED lamps are on sale in the lighting market, which can be considered as the closest analogue to the claimed utility model due to the presence of some common design features with the claimed utility model.

(03) For example, the lamps of the “JDR LED 21” model have a set of low-power LEDs, in the amount of 21 pieces, connected in series to the 220 V 50 Hz network through standard E14 and E27 sockets. LEDs are focused using a reflector, providing a radiation angle of 24 °. These lamps have a narrow light beam, and therefore they can be used for local illumination of workplaces or illumination of objects, but these lamps are unsuitable for uniform illumination of squares or tunnels. In addition, the presence of a base switch allows you to easily turn the lamp out of the holder, which is a significant drawback from the point of view

vandal resistance. It should also be noted that the declared data of this lamp for the service life is overestimated several times and clearly pursues advertising purposes. The low reliability of the lamps is due to the lack of a proper radiator for heat dissipation, which leads to an early failure of these lamps.

(04) Lamps of another model “P19R-E2701W” contain a set of low-power LEDs, in the amount of 19 pieces, having a common ceiling and a standard E27 base. Their difference from the previous model is the absence of a reflector, the role of which is played by the LEDs themselves. The angle of emission of LEDs is 40-45 °. The luminous intensity of this lamp does not exceed 40 cd. The aforementioned narrow radiation angle and weak light intensity are significant disadvantages of this lamp.

The essence of the claimed utility model

(05) The claimed LED network lamp, in comparison with the known LED network lamps, is aimed at achieving several independent technical results at once: energy saving and durability are achieved using design features that characterize the electrical part of such an LED network lamp; vandal resistance and universal mounting to the surface are achieved using the original design of the mounting socket for mounting this lamp on the wall or ceiling using dowels and screws with special heads, and the mounting socket can be easily replaced with a standard base; impact resistance is achieved by using polycarbonate as an impact resistant material for the manufacture of a ceiling; safety is achieved by the fact that the polycarbonate cover in the event of its possible destruction does not break up into sharp fragments, like glass, which can injure a person. In addition, safety is achieved with

due to the fact that the special threaded connection of the lamp radiator to the lamp can not be unscrewed, which eliminates the risk of life-threatening contact with the conductive parts of the lamp during its use.

(06) The claimed LED lamp was developed on the basis of the LED housing, having a specific name Acriche, manufactured by Seoul Semiconductor technology using the brightest crystals in the world. It should be noted that the light sources of the Acriche assembly family operate at standard mains voltages of 100, 110, 127 (on order), 220 and 230 V 50 Hz with a wide range of variation from the nominal values. In addition, Seoul Semiconductor has more than 100 patents for this production technology. For more information on the Acriche assembly, see www.acriche.com.

(07) In the specific example used, the Acriche assembly is a substrate on which a plurality of interconnected spot LEDs are arranged, combined into a matrix. A reflector housing is mounted on the substrate, on which, in turn, a lens is mounted. It should be noted that the “floating” lens method was first proposed in the Acriche assembly: the lens is attached by adhesion to a gel-like sealant that fills the entire cavity inside the reflector housing. This “floating” lens method allows not only to exclude mechanical stresses during thermal cycling, but also to provide autofocus in a wide range of ambient temperatures. The entire Acriche assembly above is placed on an installation board in an octagonal or other shape and is electrically connected to it.

(08) “Acriche” assembly is an LED light source (an analogue of an incandescent filament) operating from standard mains voltages, which has not yet been used in LED lighting devices, to which the claimed LED network clearly refers

light bulb. Therefore, the use of the Acriche assembly in an LED light fixture as an LED LED network lamp is new at the utility model level.

(09) For this, the mounting plate on which the LED housing is placed and electrically connected to it is placed in the recess (niche) of the upper stage of the radiator and is attached to it with two screws and a heat-conducting paste. The radiator, in turn, is designed to remove heat, and is structurally a two-stage cylinder. The upper step has a smaller circle diameter than the lower. Moreover, there is a thread around the entire circumference of the radiator niche designed for screwing on the ceiling. It should be noted that the use of this radiator for heat dissipation as part of an LED network lamp is also a novelty, since it is known in the lighting industry to use such heat sink radiators only in powerful spotlights, and then not as part of the lighting part of the spotlight, but as part of its power supply and start-up -regulating equipment (PRA), thus protecting them from overheating. The material for making the radiator is aluminum.

(10) Radiator designs shall be characterized by the following conflicting requirements. On the one hand, radiators must have maximum dimensions for heat dissipation, on the other hand, radiators must have minimal dimensions in terms of ergonomics. In this proposed radiator, a compromise was found between these two conflicting requirements, which distinguishes the proposed radiator from the known radiators. Namely, the proposed radiator provides heat dissipation at a minimum size, ensuring its compactness relative to the size of the lamp itself, the convenience of using the lamp in any fixtures, and the lamp design in relation to the general interior of the room. Experimental data showed that thanks to the proposed radiator, the heating of the LED network lamp during

operation at a nominal ambient temperature (20 ° C) does not exceed 60 ° C, while the maximum allowable heating temperature for the Acriche assembly is 80 ° C.

(11) For this, the proposed radiator on the circumference of the lower stage has alternating transverse grooves, the outer edges of which are rounded. Moreover, the angle between the centers of any adjacent transverse grooves is 12 °. Thus, the circumference of the lower stage of the radiator geometrically includes 30 transverse grooves alternating one after another (and also 30 alternating plates located one after another located between the grooves).

(12) The translucent transparent cover, as indicated above, is made of impact resistant polycarbonate. A gasket in the form of a ring is glued to the upper surface of the radiator niche to seal the LED. At the bottom of the lampshade there is a thread due to which the lampshade is screwed onto the radiator. Screwing on the lampshade is carried out using a special key and its corresponding recesses located uniformly around the circumference of the outer part of the lampshade. After screwing on the lampshade all the way, its cylindrical part is completely sunk in the radiator niche and you can unscrew the lampshade only using a special key. Lampshades can have various light-transmitting colors (white, red, yellow, etc.) so that depending on the specific orders, it would be possible to easily screw on the lampshade of the desired color without affecting or changing the lamp design itself.

(13) Further, the claimed utility model provides for two options for constructive implementation regarding the mounting of this lamp. In the first embodiment of the constructive implementation of the utility model, it has a three-stage adapter block and a standard E27 base screwed into the corresponding standard cartridge.

(14) A sealing gasket is glued to the bottom surface of the radiator in the form of a ring under which the adapter block is installed. In this case, the upper stage of the adapter block is attached to the lower stage of the radiator through the sealing gasket using three screws spaced apart from each other by a circle at an angle of 120 °.

(15) The lower stage of the adapter block acts as a sleeve on which the standard E27 base is put on until it stops. Moreover, the mastic, which serves for the adhesion strength of the standard E27 base to the surface of the sleeve, is a mixture of a compound based on epoxy resin and fillers based on polymeric materials and silicon dioxide. The standard base is electrically wired to the mounting plate as follows. The wires from the mounting plate are first passed through two through holes in the radiator niche, 180 ° apart from each other. Further, wires are passed through two through holes in the adapter block, specially provided for this purpose. To connect to the E27 base, one wire is soldered to the upper part of the base of the base, and the other wire is soldered inside to the base of the base.

(16) In the second embodiment of the utility model, instead of the adapter block and standard E27 base, an installation socket is provided for mounting on a wall or ceiling. To do this, an installation socket having a diameter larger than the diameter of the lower stage of the radiator is attached with three screws to the lower stage of the radiator through a sealing gasket in the form of a ring glued to the lower surface of the radiator. The mounting socket is made of heat-resistant plastic and has a through hole in its center, which serves to pass two wires, in order to electrically connect them to the mains wires laid on the wall or ceiling. The mounting socket is attached to the wall or ceiling using dowels and self-tapping screws with a special head so that unauthorized persons can not

unauthorized to unscrew them using ordinary standard screwdrivers. To do this, on the surface of the installation outlet, protruding beyond the diameter of the lower stage of the radiator, there are three holes spaced from each other in a circle at an angle of 120 °.

(17) Thus, the unified structural elements that are common to the above two options for constructive implementation of the utility model are the Acriche assembly, a ceiling, and a radiator. Different structural elements are, as indicated above, a three-stage adapter block and a standard E27 base in one embodiment, and a mounting socket in another embodiment.

(18) Figure 1 shows the claimed LED network lamp according to the first embodiment of the utility model, which uses a adapter block and a standard E27 base for mounting. Figure 2 shows the claimed LED network lamp according to the second embodiment of the structural embodiment of the utility model, which uses a mounting socket for mounting. The following structural elements are identically marked with the reference numerals on both figures: 1 - LED Acriche housing; 2 - installation board; 3 - shade; 4 - radiator; 5-junction block; 6 - base; 7 - installation socket; 8 - wire contacts; 9 and 10 - screws; 11 and 12 - sealing gaskets and 13 - dowels (or self-tapping screws with a special head). Figure 3 shows a top view of the radiator, explaining its design with respect to the presence on its surface of 30 alternating transverse grooves (and 30 alternating transverse plates).

(19) This claimed LED network lamp has the production name: “Ecoton - LS 03. Its advantages include a wide radiation angle of 120 °, a luminous flux of at least 264 lm at a nominal power consumption of 3.3 watts. The brightness of the claimed lamp model

equivalent to the brightness of a conventional incandescent lamp with a power of 40 watts (i.e. energy savings of about 10 times). In addition, the durability of such a lamp is at least 6 years.

Claims (4)

1. The LED network lamp, characterized by the presence of an LED light source, a plafond and a standard base, characterized in that the LED light source is an LED enclosed assembly in the form of a substrate with dot LEDs placed on it, interconnected and forming a matrix; a reflector housing for spot LEDs mounted on a substrate, and a lens worn on the reflector housing and attached by adhesion to a gel-like sealant that fills the entire cavity inside the reflector housing, the above-mentioned LED housing assembly being placed on an installation board with an octagonal or other shape and is electrically connected to it, and the lampshade, being translucent and transparent, is made of impact-resistant polycarbonate, and in its lower part there is a thread for screwing it In addition, a two-stage radiator made of aluminum is additionally introduced into the LED network lamp, the upper stage of which has a smaller circle diameter than the lower stage of this radiator, and there is a thread around the entire circumference of the niche of the upper stage of the radiator to screw on the lampshade, and on the circumference the lower stage of the radiator there are alternating transverse grooves, the outer edges of which are rounded, and the angle between the centers of any adjacent transverse grooves is 12 °, forming on the circumference of the lower stage of the radiator 30 alternating transverse grooves and 30 alternating plates located between the grooves, and a three-stage adapter block made of heat-resistant plastic, the diameter of the upper stage of which is larger than the diameter of each of the middle, and a three-stage adapter block made of heat-resistant plastic, the diameter of the upper stage of which is larger than the diameter of each of the middle and lower stages of this adapter block, and the diameter of the lower stage of which is smaller than the diameter of the middle steps of this adapter pad, while the mounting plate is octagonal or otherwise attached to the surface of the niche of the upper stage of the radiator with two screws and heat-conducting paste, a sealing gasket in the form of a ring is glued to the upper surface of the lower stage of the radiator, and the ceiling is screwed into the niche of the upper stage of the radiator to emphasis to this sealing gasket, and the screwing on of the lampshade is carried out using a special key and its corresponding recesses located uniformly around the circumference the outer part of the lampshade, in addition, after screwing the lampshade all the way, its cylindrical part is completely sunk in the radiator niche and you can unscrew the lampshade only with the same special key; a sealing gasket in the form of a ring is also glued to the lower surface of the radiator’s bottom, under which adapter block with the upper surface of the upper stage, while the upper stage of the adapter block is attached to the lower stage of the radiator through a sealing gasket using three screws s, separated by 120 ° from each other, the lower stage of the adapter block acts as a sleeve for a standard base; for this, the standard base is put on the lower stage of the adapter block until it stops in the lower surface of the middle stage of the adapter block and is coupled to the lower stage of the adapter block with using mastic, in addition, the standard base is electrically connected to the installation board with two wires, for this the wires from the installation board are first passed through two through holes in the radial niches ora spaced from each other circumferentially by 180 °; then the wires are passed through two through holes in the adapter block, specially provided for this purpose; and finally, one wire is soldered to the upper part of the cap base, and the other wire is soldered inside to the base of the cap. 2. The LED network lamp according to claim 1, characterized in that the ceiling can have a different light transmitting color. 3. The LED network lamp, characterized by the presence of an LED light source and a transparent protective housing, characterized in that the LED light source is an LED enclosed assembly in the form of a substrate with dot LEDs placed on it, interconnected and forming a matrix; a reflector housing for spot LEDs mounted on a substrate and attached to it, and a lens worn on the reflector housing and attached by adhesion to a gel-like sealant that fills the entire cavity inside the reflector housing, the aforementioned LED housing assembly being placed on the mounting plate octagonal or other shape and is electrically connected to it, and the ceiling, being a translucent and transparent, is made of impact-resistant polycarbonate, and in its lower part there is a In order to screw it on, in addition, a two-stage radiator made of aluminum is additionally introduced into the LED network lamp, the upper stage of which has a smaller circle diameter than the lower stage of this radiator, and there is a thread around the entire niche of the upper stage of the radiator to screw the lamp on it, and on the circumference of the lower stage of the radiator there are alternating transverse grooves, the outer edges of which are rounded, and the angle between the centers of any adjacent transverse grooves adjacent to each other It sets 12 °, thereby forming on the circumference of the lower stage of the radiator 30 alternating transverse grooves and 30 alternating plates located between the grooves, and an installation socket made of heat-resistant plastic, the diameter of which is larger than the diameter of the lower stage of the radiator, while the installation plate an octagonal or other shape is attached to the surface of the upper stage of the radiator with two screws and a heat-conducting paste, a sealing strip is glued to the upper surface of the lower stage of the radiator ka in the form of a ring, moreover, the lampshade is screwed into the niche of the upper stage of the radiator until it stops against this sealing gasket, and the lampshade is screwed on with the help of a special key and its corresponding recesses located uniformly around the circumference of the outer lampshade, in addition, after the lampshade is screwed on until it stops the cylindrical part is completely recessed in the niche of the radiator and you can unscrew the lampshade only with the help of the same special key, also on the lower surface of the lower radiator stage on the sealing gasket in the form of a ring, under which the mounting socket is installed, while the mounting socket is attached to the lower stage of the radiator through the sealing gasket with the help of three screws 120 ° apart from each other, in the center of the mounting socket there is a through hole for passing wires from the installation board through itself for the purpose of electrically connecting them to the corresponding network wires laid on the wall or ceiling, for this wire from the installation board first passed through two through holes into the radiator niches, spaced 180 ° apart from each other, then passed through the through hole in the mounting socket; and, finally, connected to the corresponding network wires laid on the wall or ceiling using dowels or self-tapping screws with a special head that can not be unscrewed using a standard set of standard screwdrivers, there are three holes on the surface of the installation socket that extends beyond the diameter of the lower stage of the radiator spaced 120 ° apart from each other. 4. The LED network lamp according to claim 3, characterized in that the ceiling can have a different light transmitting color.