RU209774U1 - LED HOUSING - Google Patents

Abstract

The utility model relates to the field of lighting engineering, namely to the design of the housing of an LED lamp. The housing of the LED lamp includes a profile formed by the bottom and side walls, top and end caps, while on the bottom wall of the profile there are longitudinal protrusions and grooves for installing a modular LED board, the side walls of the profile are made with mounting grooves, on the inside of the bottom wall there are mounting protrusions under the cantilever pipe, while the spikes are made on the inner sides of the bottom and side walls, the top cover is made removable with fixing spikes engaged with the upper pair of mounting grooves in the upper part of the side walls of the profile, and the end cap is fixed with the help of intermediate and lower mounting grooves . The technical result is to simplify the assembly and installation of the LED lamp. 3 w.p. f-ly, 3 ill.

Description

The utility model relates to the field of lighting engineering, namely to the design of the housing of an LED lamp.

A luminaire housing is known (RF patent No. 2692625, IPC F21V 21/108, published on 06/27/2019), which consists of interconnected segments of two profiles of different cross-sectional shape. As profiles, two segments of a plate having an L-shaped shape and protrusions on the inner surface, forming grooves with a cross section in the form of a trapezoid, and one segment of a plate, at the ends of which, perpendicular to the surface of the plate and along its length, protrusions with a cross section in the form trapezoid. Some arms of segments of the L-shaped plate are interconnected by a "swallow's nest" connection by inserting one protrusion of the plate with protrusions into one groove of one L-shaped plate and inserting its other protrusion into the groove of another L-shaped plate.

The disadvantage of this solution is that in this housing it is impossible to provide a degree of protection from the environment above IP54, which does not allow the use of lamps on the street and in places of high humidity. In addition, this construct does not provide for the possibility of mounting the lamp on the console.

A well-known LED lighting module (RF patent No. 124768, IPC F21S 13/10; published 02/10/2013), the body of which is made in the form of a radiator from a profile body with a rear wall and two side walls, with ribs at least on the side walls, containing at least one an LED radiation source mounted on at least one mounting plate fixed in the internal symmetrical grooves of the body-profile, a protective optically transparent screen fixed in the symmetrical grooves, while the body-profile is made with a jumper between the side walls of the profile to form a closed cavity. The ribs on the side walls of the body-profile of the luminaire make it possible to increase the rate of heat dissipation from the luminaire body to the environment, ultimately lowering the thermal resistance between the LED body and the environment, lowering the temperature of the LED, thereby increasing the power and durability of the luminaire. The internal symmetrical slots for the mounting plate of the LED light source serve to fix the mounting plate with the LEDs.

To ensure the degree of protection from the environment IP65 and higher, the manufacture of side covers from plastic or aluminum is required, as well as the installation of a sealed cable gland and additional sealing of the light part, which in turn leads to a significant increase in both the cost of the product as a whole and labor costs.

As the closest analogue, a luminaire profile was chosen (RF patent for industrial design No. 115422, MKPO 25-01, 26-05, 26-03 published on 07/15/2019), which is a closed rectangular profile. U-shaped grooves are made on the bottom wall of the profile, passing into the inner cavity of the profile. The lower ends of the side walls are bent inward to form a groove running along the entire length of the profile. On the outer side of the side walls, spikes are made at a given distance from each other and L-shaped grooves, and C-shaped grooves are made on the inner side of the side walls.

The disadvantages of this solution is that this profile is closed and when manufacturing a lamp with several LED module boards, the length of the lamp increases significantly, which leads to the complication of connecting the modules to each other and sealing these modules. The rear wall is very thin, which does not allow the use of fasteners, and therefore it is necessary to cut out the rear wall and mount additional fastening elements, which significantly increases the cost of the product as a whole and labor costs. In addition, the cooling ribs located on the outside of the profile break the aesthetic appearance and limit the use on park supports.

The objective of the utility model is to develop an easy-to-install and maintain housing for an LED lamp.

The technical result is to simplify the assembly and installation of the LED lamp.

The technical result is achieved by the fact that the body of the LED lamp includes a profile formed by the bottom and side walls, top and end caps, while on the bottom wall of the profile there are longitudinal protrusions and grooves for installing a modular LED board, the side walls of the profile are made with mounting grooves, on the inner On the side of the lower wall, mounting protrusions are made for the cantilever pipe, while the spikes are made on the inner sides of the bottom and side walls, the top cover is made removable with fixing spikes engaged with the upper pair of mounting grooves in the upper part of the side walls of the profile, and the end cap is fixed with using intermediate and lower mounting grooves.

Further, the utility model is illustrated by the following drawings.

Fig.1 - profile of the housing of the LED lamp.

Fig. 2 is a 3/4 side view of the housing of the LED lamp.

Fig. 3 is a 3/4 side view of the housing of the LED lamp.

The housing of the LED lamp, made of aluminum alloy, includes the main profile of an open type 1 (figure 1), which is a U-shaped element, with a top cover 2, which provides free access for mounting and connecting modular boards.

The main profile 1 is formed by the bottom wall 3 and the side walls 4.

On the lower side of the lower wall 3, longitudinal protrusions 5 are made, forming a recess 6 for the installation of modular boards and lenses. At the same time, the longitudinal protrusions 5 ensure the precise installation of modular boards and lenses, and also serve as lateral protection against mechanical damage to the boards and lenses. On the bottom wall 3, along the entire length of the main profile 1, U-shaped grooves 7 are also made, passing into the internal cavity of the main profile 1 and intended for mounting modular lenses. Protrusions 5 and U-shaped grooves 7 run along the entire length of the main profile 1.

On the inner side of the lower wall 3 there are also mounting protrusions 8, 9 of different lengths for the cantilever pipe, while the bevels made at the ends of the protrusions 8, 9 provide a tighter fit of the cantilever pipe, preventing displacement.

On the inner sides of the lower wall 3 and side walls 4, as well as on the protrusions of the U-shaped grooves 7, special spikes 10 are made, providing an increase in the heat transfer area and passing along the entire length of the main profile 1. Thus, the side walls 4 provide the function of a radiator for heat removal from the LED matrix, which allows you to increase the life of the lamp as a whole.

In the upper part of the side walls 4 there are pairs of upper and intermediate C-shaped mounting grooves 11, 12, running along the entire length of the main profile 1. In the lower part of the side walls 4, lower C-shaped mounting slots 13 are made. -shaped grooves 12 and 13 are installed end caps 14 (figure 2, figure 3) using a screw connection. The end caps 14 may be made of steel, aluminum or plastic.

The top cover 2 has U-shaped grooves 15,16 running along the top cover 2 along its entire length. At the same time, the U-shaped grooves 15, 16 are intended for installing bolts or nuts in them for mounting the mount or for fixing it on the cantilever mount. U-shaped groove 16 can be used to install a power source. At the ends of the top cover 2, spherical spikes 17 are made, which engage with a pair of C-shaped grooves 11 and ensure the installation of the top cover 2 in the main profile 1.

The luminaire is assembled in the following way: the manufactured main profile 1 is cut in multiples of the number of installed modular lenses. After cutting the main profile 1, a hole is drilled for laying wires to the modular board. Next, the modular board is inserted from the bottom side of the bottom wall 3 into the recess 6. After that, the modular lens is installed from above and fixed with screws in the U-shaped grooves 7.

Then the top cover 2 is installed. In this case, the top cover 2 can be installed both on the entire length of the main profile 1, and on a part of the main profile 1, which leads to a reduction in the cost of the lamp as a whole. In the case of partial installation of the top cover 2, an additional steel cover 18 is inserted into the upper C-shaped grooves 11 for the remaining length of the main profile (figure 3), and after it - the top cover 2, the spherical spikes 17 of which also engage with the top C-grooves 11. Otherwise, the top cover 2 is installed on the entire length of the main profile 1.

Further, end caps 14 are attached to the intermediate and lower C-shaped grooves 12 and 13 using a screw connection.

Advantages of the utility model

The main profile 1 and the top cover 2 are made of aluminum to reduce the weight of the case.

When connecting the main profile 1 and the top cover 2, the spherical studs 17 engage with the upper C-slots 10, which simplifies the assembly of the body and reduces the assembly time by reducing the number of operations.

Reducing weight, reducing the number of operations, components and assembly time, in turn, can also significantly reduce the cost of production. The design of the housing of the LED lamp allows it to be mounted as park lamps, which allows to increase the service life of such a park lamp, since the aluminum housing removes heat much better than the traditional steel housing.

Claims (4)

1. The case of the LED lamp, including a profile formed by the bottom and side walls, top and end caps, while on the bottom wall of the profile there are longitudinal protrusions and grooves for installing a modular LED board, and the side walls of the profile are made with mounting grooves, characterized in that on the inner side of the lower wall there are mounting protrusions for the cantilever pipe, while the spikes are made on the inner sides of the bottom and side walls, the top cover is made removable with fixing spikes engaged with the upper pair of mounting grooves in the upper part of the side walls of the profile, and the end cap fixed with intermediate and lower fixing grooves. 2. The body of the LED lamp according to claim 1, characterized in that the top cover has U-shaped grooves for installing fasteners in them. 3. The body of the LED lamp according to claim 1, characterized in that the top cover has a U-shaped groove for installing a power source. 4. The body of the LED lamp according to claim 1, characterized in that the top cover is installed on the main profile together with an additional cover that completely covers the top of the main profile.

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