RU211077U1 - Lamp - Google Patents

Abstract

The device is a lamp, belongs to the field of lighting engineering, consists of a main body part made of cast aluminum, along the perimeter of which through ventilation holes are made; the ribs formed by the ventilation holes have recesses for fixing the cable suspension; in the main body part, a recess is made for installing lenses, in which lenses that do not protrude beyond the dimensions of the housing are installed, and silicate glass that does not protrude beyond the dimensions of the housing is installed over the lenses; at the bottom of the recess, grooves are made for an elastic seal with a profile that compresses the persistent sides of the lens; the power supply is installed in a compartment separated from the main body part by a jumper, which is small compared to the surface area of this compartment with a cross-sectional area; and the internal volume of the lamp is separated from the atmospheric air by a compartment containing a hydrophilic sorbent and a pressure equalization valve.

Description

Field of technology to which the utility model belongs

The utility model relates to the field of lighting engineering and is intended for lighting industrial and commercial facilities, warehouses and other premises and territories.

State of the art

Known LED lamp, described in patent RU 150257, with a metal finned housing; with lenses above the LEDs installed deep enough in the case so that, if necessary, they can be covered with a protective silicate glass that does not protrude beyond the dimensions of the case with the help of additional fasteners; with a compartment for a power source mounted on ribs protruding from the housing, or, as they can also be called, protrusions or jumpers, having a small cross-sectional area compared to the dimensions of the compartment to reduce the thermal effect of the luminaire housing heated by LEDs on the compartment with the power supply.

The main disadvantage of the device known from patent RU 150257 is that in the main working position of the lamp with LEDs down, the cooling fins protruding from its body do not work efficiently enough, since they allow the free flow of upward convection flows of heated air and the free replacement of the heated air leaving upwards by the suitable one from below. managed to warm up with air only around the perimeter of the lamp. Away from the perimeter, closer to the central part of the luminaire, the heated air under the luminaire cannot rise upward, since the luminaire body interferes with it, and the heated air above the luminaire cannot rise upward, since cold air from below must come in its place, which also interferes with the body of the lamp. Along the perimeter, the body of the luminaire is framed by a frame containing a group of holes designed, as follows from the description, to drain rainwater. If these holes were made in the main housing element, to which heat is transferred from the LED modules, and convective air passed through the holes, the perimeter of each of the holes would participate in heat exchange with the air passing through them, which would lead to a decrease in the case temperature. But making holes not in the main body element, but in the frame fixed on the body element, leads to the fact that the heat flux from the LED modules must overcome the contact resistance of the body-frame and then only be removed from the frame into the air, which reduces the efficiency of the frame as a heat exchange element . In addition, the cable suspension device known from patent RU 150257 requires additional fasteners mounted on the main body element.

A well-known LED lamp HB LED G1 manufactured by MGK Lighting Technologies LLC, information about which is posted on the page on the company's website: https://www.ltcompany.com/ru/products/types/industrial-luminaires/more-than- 12-meters/hb-led-gen-1/. This luminaire has ventilation holes for convecting air that improve heat dissipation, made along the perimeter of the main body part; The luminaire can be installed on a mounting surface using a lyre or bracket, and suspended installation on cables is also possible.

The well-known device HB LED G1 has a number of disadvantages: the lenses for LEDs installed in the luminaire protrude beyond the dimensions of the luminaire body, which makes them more vulnerable to mechanical stress. Lenses and LEDs are not covered with silicate glass, which is used in lamps in fire hazardous areas, as well as to protect against the abrasive action of sand dust. Such glass can be installed using an additional accessory - a frame, the description of which is on the manufacturer's website page: https://www.ltcompany.com/en/products/types/industrial-luminaires/more-than-12-meters/hb- led-floodlight/#accessories. This frame is an additional element complicating the design of the luminaire and stands out more than the lenses for the dimensions of the luminaire. The possibility of hanging on cables is not incorporated in the main body part made of cast aluminum, which complicates the possibility of such mounting.

The power source is installed on the case and is closed from above by a casing, which does not facilitate heat removal from the heating source, but, on the contrary, creates an air environment around the source heated by the heat of the lamp case, which leads to additional heating of the power source, which, in turn, reduces its life.

The internal volume of the luminaire is not separated from the external environment by a pressure equalization valve in such a place in the housing that the air passing through the valve, before entering the main internal volume, passes through a compartment with a hydrophilic sorbent specially designed to reduce humidity.

Utility Model Disclosure

The technical result is an LED lamp with a body made of cast aluminum with holes in the main body part that improve heat dissipation, designed to be hung on a bracket or lyre; with the possibility of suspension on cables with fastening of cables for the main body part; without protruding lenses from the body of the lamp; with the possibility of installing protective silicate glass above the lenses without using an additional frame surrounding the glass; with protection of the power supply from excessive heating; and with protection of the internal volume from fogging.

The result is achieved by the fact that on the ribs formed by the ventilation holes along the perimeter of the main body part made of cast aluminum, recesses are made that fix the cable fastening loop; the recess in the body part for the group lens or lenses has sufficient depth so that the installed lens or lenses do not protrude from the body, and it remains possible to install protective silicate glass over them in a specially provided groove on the body; the compartment for installing the power source has significant dimensions, and therefore a significant own radiator area for efficient cooling of the power source; and a small area of thermal contact with the main body part compared to the dimensions of the compartment; In order to protect against moisture and fogging, the lens is installed in the grooves on an elastic gasket (seal), which, during installation, compresses the edges of the lens stop and seals the internal volume so that the only communication between the main, containing electronic components, such as a printed circuit board with LEDs, the internal volume of the lamp with the external environment was a pressure equalization valve communicating with the main internal volume through a compartment containing a moisture equalizing hydrophilic sorbent, such as a bag of silica gel.

There can be one or more lenses for LEDs in one lamp; one or different types; lenses can be refractive type with a convex outer side or flat, the so-called TIR (Total Internal Reflection) type. If necessary, when installing the lens, instead of an elastic sealing gasket, an adhesive sealant can be used, and the compartment through which the internal volume of the luminaire communicates with the atmosphere is also filled with sealant - in this case, the maintainability of the luminaire will decrease, but a higher degree of protection of the housing IP according to GOST can be achieved 14254-2015.

Description of drawings

Figure 1 shows a sketch of a variant of the appearance of the lamp, which shows the main body part (1); ventilation holes along the perimeter of the main body part (2); recesses on the ribs formed by the ventilation holes for fixing the cable suspension (3); recess in the body for installing lenses (4); a lens (5) installed in the recess for the lenses, while the lens adjacent to it has been removed from the lamp image for clarity, and a groove for installing an elastic seal (6) is visible under it; a hole connecting the internal volume of the lamp with the compartment for the hydrophilic sorbent (7), which simultaneously serves as a channel for conducting wires from the compartment with the power supply to the LED module under the lens; a groove for installing a protective silicate glass over the lenses (8).

In FIG. 2 shows a sketch of a variant of the appearance of the lighting device, which shows the compartment for the power source (1), separated from the main body part (2) by a jumper (3); also shown is a pressure equalization valve (4), in this variant of the luminaire, installed in the wall of the power source housing, connected to the compartment for the hydrophilic sorbent, which simultaneously acts as a heat-insulating jumper, and at the same time wires from the power source to the LED module pass through it.

In FIG. 3 shows a sketch of the variant of the appearance of the lamp, which shows the main body part (1); for clarity, the power supply housing is removed, and compartments (2) are shown that connect the internal volume of the lamp with the atmosphere, and are intended, incl. to accommodate the hydrophilic sorbent.

Implementation of the utility model

Luminaire, the main body part of which is made of cast aluminum with ventilation holes along the perimeter that improve heat exchange between the body and ambient air; with a notch on the ribs formed by the ventilation holes for fixing the cable suspension; with a recess in the body for installing lenses with a margin of depth for the possibility of installing both lenses and, if necessary, protective silicate glass installed above the lenses without protruding beyond the body; with grooves intended for installation of an elastic sealing gasket having a shape that, when the lens stops are drowned in it, the edges of the stops are compressed by the sealing material to protect the internal volume of the lamp from moisture; with a compartment for a power source separated from the main body part by a jumper, possibly composed of two or more jumpers, with a small total cross-sectional area compared to the total area of \u200b\u200bthe outer surface of this compartment that performs the radiator function; with a compartment separating the internal volume of the lamp body from the atmosphere through the pressure equalization valve and containing a package with a hydrophilic sorbent. The cross-sectional area of the jumper separating the power supply compartment from the lamp housing can be called small compared to the external surface area of the power supply compartment, if the first indicated area is less than the second, and these areas differ by at least ten times. In this case, the effect of thermal power input into the power supply compartment will be negligible compared to the effect of thermal power removal into the air, and the jumper can be considered thermally insulating.

Claims (1)

LED luminaire with a main body part made of cast aluminum, characterized in that there are through ventilation holes along the perimeter of this part; the ribs formed by the ventilation holes have recesses for fixing the cable suspension; in the main body part, a recess is made for installing lenses, in which lenses that do not protrude beyond the dimensions of the housing are installed, and silicate glass that does not protrude beyond the dimensions of the housing is installed over the lenses; at the bottom of the recess, grooves are made for an elastic seal with a profile that compresses the persistent sides of the lens; the power supply is installed in a compartment separated from the main body part by a jumper small in comparison with the surface area of this compartment of the cross-sectional area; the internal volume of the luminaire is separated from the atmospheric air by a pressure equalization valve; and between the pressure equalization valve and the main internal volume of the lamp there is an intermediate compartment with a hydrophilic sorbent.

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