RU220026U1 - LED LAMP - Google Patents

Abstract

The utility model relates to lighting engineering, in particular to the designs of lighting devices based on light emitting diodes, such as lamps designed to illuminate various administrative, public, industrial, office, retail and warehouse premises. LED luminaire comprising a rectangular housing, an installation slot made with the possibility of placing a bolt in it, end caps with gaskets made with recesses and the possibility of screw fixation with the housing through C-shaped elements located inside the sealed circuit, a diffuser placed hermetically in the housing using a sealing cord, a module that can be placed in the housing on the mounting protrusions and is made in the form of a printed circuit board with LEDs, while the LEDs are placed under the optical lens, the mounting plate is placed in the housing due to the collinear protrusions and fixed in it through the C-shaped element, wherein the mounting plate is made with the possibility of placing on it a power source, fixed with screws, with the possibility of reliable electrical contact of all metal elements through the C-shaped element, while the first end cap additionally contains a sealed cable gland, and the second end cap contains pressure balancing valve. The technical result achieved by using the utility model is to increase reliability while maintaining structural integrity and eliminating the likelihood of malfunctions.

Description

FIELD OF TECHNOLOGY

The utility model relates to lighting engineering, in particular, to designs of lighting devices based on light-emitting diodes, such as lamps, designed to illuminate various administrative, public, industrial, office, retail and warehouse premises.

BACKGROUND OF THE INVENTION

From the prior art, an LED lamp is known, containing a housing, end caps, a printed circuit board on which LEDs are placed, as well as a power supply and a protective screen made of optically transparent material, while the housing is made in the form of an elongated hollow profile of heat-conducting material with two inclined longitudinal partitions forming the upper compartment, two side compartments and the lower compartment in the housing, a power supply unit is located in the upper compartment of the housing, the upper part of the upper compartment of the housing is configured to form a fixture attachment point for a lamp in various operating conditions, having a T-shaped profile, in the lower compartment the housing is made with the first protrusions for fixing the printed circuit board and the second protrusions for fixing the protective screen, according to the present utility model, additionally contains an elastic element made in the form of a U-shaped profile, with the possibility of fixing a power supply unit in it, while the U-shaped profile of the elastic element has lateral mounting ends in contact with the inner surface of the upper compartment of the case, and the power supply unit is placed in the upper compartment of the case with the possibility of thermal contact with the shelf of the T-shaped profile of the case and fixing the spatial position of the power supply unit by means of an elastic element. On each inclined longitudinal partition, at the junction with the inner side surface of the housing, a shelf is made, against which the corresponding side mounting end of the elastic element rests. The first protrusions are made in the form of inclined protrusions with the possibility of their plastic deformation for fixing the printed circuit board in them. Each outer side surface of the case is made in the form of a smooth anodized surface or a surface with a polymer dust-repellent coating. The second protrusions are made in the form of inclined protrusions with the possibility of their plastic deformation for fixing the protective screen in them. The protective screen is made in the form of an elongated biconvex lens having an installation shelf along the edges. The upper part of the housing on each outer side surface has a mounting protrusion, which is a radiator fin, and a mounting rounded recess, with which the elastic bracket of the luminaire mount is in contact. The elongated hollow body profile made of heat-conducting material is thin-walled (RU 154192, 25.02.2015).

The complication of the housing due to additional partitions leads to the need to use a precisely manufactured additional element of a certain shape to install a power source for LEDs. At the same time, the shape of the additional element depends on the dimensions of the power source, which complicates and complicates the assembly of the lamp. In addition, there is no reliable fixation of internal elements and reliable contact of metal parts for grounding, which increases the risk of damage to internal elements during transportation and storage, and also reduces the safety of the lamp.

At the top of the profile there is a groove for installing the bolt. However, once the end caps are installed, the slot is blocked for inserting or removing a bolt into the slot. The installed bolt, if it is not necessary, can later be removed only by partially disassembling the luminaire (unscrewing the self-tapping screws and removing the end cover) directly during installation. The same inevitability of parsing occurs when additional bolts are required. Repeated disassembly/assembly of the luminaire degrades its performance and reliability and reduces its service life.

The end caps are fastened with screws, however the C-shaped elements for the screws are located on the outside of the sealed circuit. Installing with screws will damage the coating of the case, which can lead to subsequent corrosion and destruction of the case, thereby reducing its reliability.

In addition, an LED lamp is known, including a radiator housing made in the form of an elongated thin-walled profile of a heat-conducting material, having an upper cavity closed in cross section, with a power source installed in it, and an open cavity formed by a central shelf and two side inclined walls adjacent to it. with end grooves in which a protective light-transmitting screen is installed with sealing with a sealing material, a lower longitudinal cavity, with an LED module installed on the lower surface of the central shelf, while the central shelf has a central longitudinal U-shaped protrusion directed upwards; on the side surfaces of the body-radiator, longitudinal heat-removing ribs are made, directed upwards, and on the upper surface there are grooves for installing the fastening elements of the lamp to the support; in addition, the luminaire is equipped with two end caps, sealed with gaskets, one of the caps has a pressure seal, characterized in that the central shelf and side walls of the radiator housing in cross section are made of variable thickness, increasing towards the places of their articulation; the outer side surfaces of the housing-radiator, including the heat-removing fins, are made with a wavy surface, and the radiator fins have an alternating height; on the upper surface of the housing-radiator, symmetrical rectangular horizontally located longitudinal grooves are made; the power supply is located on the guide shelf mounted along the corresponding longitudinal grooves of the upper closed cavity of the radiator case (RU 180657, 12/18/2017).

Due to the presence of heat-removing fins, the luminaire, at the beginning of operation, will effectively exchange heat with the environment. However, in the course of further operation, the described fins will quickly become covered with particles suspended in the air (dust, soot, etc.), which will degrade the heat transfer efficiency and ultimately lead to overheating of the lamp.

Due to the presence of a sealed cable gland, a reliable method of sealed input / output of the supply cable is implemented, however, in the described luminaire, during operation, due to inevitable mechanical influences and influences in the form of vibrations of various frequencies, the threaded fastening pair cable gland-nut will spontaneously unwind, which will lead to loss of tightness of the lamp.

The installed pressure equalization valve will help equalize the pressure difference between the environment and the sealed LED compartment of the luminaire, however, without protection from external influences, it will also spontaneously unscrew, which will eventually lead to loss of tightness and moisture penetration inside.

Also known is a LED lamp including a lamp body of a rectangular shape, equipped with a rectangular-shaped circuit board in the lamp body, a rectangular-shaped circuit board is provided on the circuit board, the latter is at least an LED lamp, which is equipped with a uniformly distributed circuit board, and in the upper part a rectangular lamp plate is installed in the lamp body, a rectangular plug is installed at the bottom of the lamp body, both ends of the rectangular lamp body are fixed with a baffle, respectively, each baffle is provided with a silica gel gasket at the junction with the lamp body, equipped with at least a baffle vent on each baffle, fitted with a waterproof ventilated membrane of at least one deck in each baffle vent, fitted with at least a respirator on a mounting panel, must be fitted with a waterproof vented membrane of at least one deck in each respirator (CN 204647947, 18.03 .2015).

The disadvantage of the known technical solutions is that these devices are quite fragile and require increased care during their transportation, storage, installation and dismantling. In addition, the installed lenses will contribute to changing the angle of the light flux, however, the disadvantage is the need to install a lens on each LED. This will increase the risk of breakage, loss of each of the lenses and thereby reduce the reliability of the lamp. It will also reduce the manufacturability and assembly speed of the lamp.

In addition, the installed pressure equalization valve does not have structural elements to prevent its spontaneous unwinding.

ESSENCE OF THE UTILITY MODEL

The technical problem solved by the claimed utility model is to create a new lamp with increased reliability required in this area to maintain integrity and serviceability during transportation, installation and dismantling.

The technical result achieved by using the utility model is to increase reliability while maintaining structural integrity and eliminating the likelihood of malfunctions.

To solve the problem and achieve the claimed technical result, an LED lamp is proposed, containing a rectangular body, an installation groove made with the possibility of placing a bolt in it, end caps with gaskets made with recesses and the possibility of screw fixation with the body through C-shaped elements located inside the sealed circuit, a diffuser placed in the housing hermetically with the help of a sealing cord, a module configured to be placed in the housing on the mounting ledges and made in the form of a printed circuit board with LEDs, while the LEDs are placed under the optical lens, a mounting plate placed in the housing due to collinear protrusions and fixed in it through a C-shaped element, while the mounting plate is made with the possibility of placing a power source on it, fixed with screws, with the possibility of reliable electrical contact of all metal elements through the C-shaped element, while the first end cover is additionally contains a sealed cable entry, and the second end cap contains a pressure equalization valve.

In addition, the LED luminaire may be characterized in that the end caps have hexagonal recesses made to accommodate cable entry and a pressure equalization valve.

BRIEF DESCRIPTION OF THE DRAWINGS

The utility model is illustrated by drawings. The drawings are presented in a volume sufficient for the understanding of the utility model by specialists, and in no way limit the scope of the utility model. In the drawings, the same elements are indicated by the same positions.

Fig. 1 luminaire in isometry with partially spaced components;

Fig. 2 top view of the lamp;

Fig. 3 image of a longitudinal section of the luminaire, limited in the area of the end cap with cable entry;

Fig. 4 image of a cross section of the lamp in the area of installation of the power source;

Fig. 5 end view of the luminaire from the side of the cable entry with a cutout in the end cap for depicting the fixation of the mounting plate;

Fig. 6 is an image of a longitudinal section of the lamp, limited in the area of the end cover with a pressure equalization valve.

List of items on the drawing:

pos. 1 module

pos. 2 Corps

pos. 3 Diffuser

pos. 4 Mounting plate

pos. 5 Power supply

pos. 6 Screw

pos. 7 Bolt

pos. 8 Optical lens

pos. 9 Sealed cable entry

pos. 10 First end cap

pos. 11 Pressure equalization valve

pos. 12 Second end cap

pos. 13 Gasket

pos. 14 Sealing cord

pos. 15 First mounting tabs

pos. 16 Second mounting tabs

pos. 17 Locating groove

pos. 18 Concave elements

pos. 19 Collinear projections

pos. 20 C-pieces

DESCRIPTION OF THE IMPLEMENTATION OF THE UTILITY MODEL

The claimed LED lamp contains a module 1 placed in a housing 2, while the module is an LED module from a printed circuit board and LEDs soldered onto it. The housing 2 may be made of a thermally conductive material, in a preferred embodiment the housing is made of an extruded aluminum alloy.

In addition, the LED lamp contains a diffuser 3 located in the housing 2, while the diffuser 3 is a translucent part to protect the module 1 from the environment.

As can be seen from the drawings, the LED lamp contains a mounting plate 4, which is a part on which internal elements are placed, such as a power source 5, and which is involved in providing electrical contact between the components of the lamp. In this case, the power supply 5 is a stabilized current source for powering the module 1 and is placed inside the housing 2 on the mounting plate 4 with screws 6, in addition, the screws 6 serve to ensure electrical contact.

The fastening of the LED lamp itself is carried out due to the bolt 7, placed in the mounting groove 17 of the housing 2.

In addition, the module 1 contains an optical lens 8, which is an optical part, more specifically, a composite modular multilens for LEDs soldered onto the printed circuit board of the module 1.

As shown in the drawings, the LED lamp also contains a sealed cable gland 9, which is a standardized element that serves to hermetically lead the cable from the power source 5 to the outside of the lamp.

In addition, the housing 2 of the LED lamp has the first end cap 10. In this case, the first end cap 10 has a shaped groove for a sealed cable entry 9.

An additional element of the LED lamp is the pressure equalization valve 11. The pressure equalization valve 11 is able to pass gas molecules and retain liquid molecules and serves to equalize the pressure difference that inevitably forms between the environment and the sealed LED compartment of the lamp during its operation. This eliminates the possibility of liquid penetration through the seals.

In addition, the housing 2 of the LED lamp has a second end cap 12. The second end cap 12 has a shaped groove for the pressure equalization valve 11.

At the same time, the end caps have hexagonal recesses for installing a cable gland or a pressure equalization valve with limitation of their axial rotation. In addition, the depth of the hex slot in the end cap allows installation of a pressure equalizing valve without going beyond the plane of the face of the end cap.

Thus, as follows from the above, the body 2, the diffuser 3, the first end cap 10 and the second end cap 12 form a closed circuit, which is sealed through the use of a gasket 13 and a sealing cord 14, which are used to seal the end caps 11 and 12 and diffuser 3. In this case, the sealing cord gasket 13 is made of an elastic material such as silicone or a similar material.

At the same time, the housing 2 of the LED lamp has the first mounting protrusions 15 and the second mounting protrusions 16 that serve to fix the internal elements of the LED lamp. As well as concave elements 18, which are elements in the structure of the housing 2, which simultaneously serve to increase the resistance to deformation by reducing the length of the side walls and for the mating fastener. In addition, collinear protrusions 19, which are elements in the structure of the body 2, which serve to install the mounting plate 4. Also C-shaped elements 20, which are elements in the structure of the body 2, which serve to fasten with screws screwed concentrically to these elements and implement electrical contact with screws 6.

The implementation of the lamp is as follows.

The module 1 and the segmented modular optical lens 8 are installed in the body 2, thanks to the first mounting tabs 15 and the second mounting tabs 16. Next, the power supply 5 is installed on the mounting plate 4 using screws 6, which is mounted on the collinear tabs 19, after which it is fixed with a screw 6 in the C-shaped element 20. Then the power supply 5 is electrically connected to the module 1. After that, the diffuser 3 and the sealing cord 14 are installed, the latter being located between the diffuser 3 and the housing. Next, a sealed cable gland 9 is installed in the first end cap 10, through which the electric cable of the power source 5 is passed. A pressure equalization valve 11 is installed in the second end cap 12. Then both end caps 10 and 12 with gaskets 13 are installed on the ends of the housing 2, each of the gaskets 13 remains between the end cap 10 and 12 and the housing 2.

LED lamp works as follows.

When the power supply cable 5 is connected to the mains, a stabilized current is supplied to module 1 and, accordingly, the LEDs, and the LEDs begin to emit light. In this case, heat is released, which is removed from module 1 and dissipated by the housing into the surrounding space. Thanks to the optical lens 8, the necessary distribution of the light flux is created.

Claims (2)

1. An LED lamp containing a rectangular body; a mounting groove configured to accommodate a bolt; end caps with gaskets, made with recesses and the possibility of screw fixation with the body through C-shaped elements located inside the sealed circuit; a diffuser placed in the housing hermetically with a sealing cord; a module configured to be placed in the housing on the mounting ledges and made in the form of a printed circuit board with LEDs, while the LEDs are placed under the optical lens; a mounting plate placed in the housing due to collinear protrusions and fixed in it with a screw through a C-shaped element, while the mounting plate is made with the possibility of placing a power source on it, fixed with screws, with the possibility of reliable electrical contact of all metal elements through a C-shaped element ; while the first end cap additionally contains a sealed cable gland, and the second end cap contains a pressure equalization valve. 2. LED lamp according to claim 1, characterized in that the end caps have hexagonal recesses designed to install and protect against spontaneous unscrewing of the cable gland and the pressure equalization valve.