RU211376U1 - LAMP - Google Patents

Abstract

The utility model relates to lamps, mainly for lighting squares, parks and streets with one-story buildings. The claimed luminaire comprises a support and a lamp fixed on it in the upper part, containing a housing, a light source and a diffuser, the support being made of a rectangular shape of constant cross section and hollow in cross section. The lantern is made annular with a body having the shape of a rectangle in cross section, the diffuser is fixed in the upper part of the support, and the light source is made in the form of LEDs on the reflector and is installed in the inner cavity of the lantern. EFFECT: simplification of lamp design. 7 w.p. f-ly, 19 ill.

Description

The utility model relates to lamps, mainly for lighting squares, parks and streets with one-story buildings.

A lamp is known from the RF patent for the invention "LED lamp and heat sink profile as its body" No. 2575299, IPC F21S 2/00, publ. 20.02.2016.

Disadvantages: the complex design of the luminaire, made by LED with the use of a very complex shape aluminum profile as a housing, low-tech manufacturing and high cost.

Known lamp from the RF patent for invention No. 2106571, IPC E21R 3/00, publ. 03/10/1998, prototype.

This luminaire contains a support of a complex shape that can be changed in operation and one lantern fixed in the upper part of the support.

Disadvantages: the complexity of the design due to the very complex design of the support and insufficiently efficient lighting due to the use of one lamp.

The task of creating a utility model: simplifying the design of the lamp.

Technical result achieved: simplification of the design of the lamp.

The solution to this problem was achieved in a lamp containing a support and a lamp fixed on it in the upper part, containing a housing, a light source and a diffuser, in that the support is made of a rectangular shape of constant cross section and hollow in cross section, the lamp is made an annular shape with a body having the shape rectangle in cross section, the diffuser is fixed in the upper part of the support, the light source is made in the form of LEDs on the reflector and is installed in the inner cavity of the lantern.

The width and thickness of the cross section of the support can be made from the ratio:

h=(1.8…2.2) g,

where h is the width of the cross section of the support;

g - thickness of the cross section of the support.

The cross section of the support can be made square, the lamp is attached using two plates installed in the same plane at an angle to the axis of the support, and the lamp is fastened eccentrically to the support.

Reflectors can be installed in the cavity of the lantern at an angle to the horizontal surface:

α=30…60°.

The thickness of the cross section of the support can be made constant from the ratio:

δ=(0.08…0.12) g,

where δ is the wall thickness of the support;

g - thickness of the cross section of the support.

The body of the lamp can be made of plastic.

The body of the lantern can be made of metal and an anti-corrosion coating is applied on its outer surface.

The diffuser can be rounded around the entire perimeter towards the inner cavity of the lantern.

The essence of the utility model is illustrated in the drawings (Fig. 1-19), where:

- in Fig. 1 shows the main view of the first lamp;

- in Fig. 2 shows a side view of the first lamp;

- in Fig. 3 shows the main view of the second lamp;

- in Fig. 4 shows a side view of the second lamp;

- in Fig. 5 shows a section E-E of the support of the first lamp;

- in Fig. 6 shows a section F-F of the support of the second lamp;

- in Fig. 7 shows a view of the lantern of the first lamp in section A-A;

- in Fig. 8 shows a view of the lantern of the second lamp in the section D-D;

- in Fig. 9 shows a view of the first lamp with a support, in section B-B;

- in Fig. 10 shows a view of the cover along H of the first lamp;

- in Fig. 11 shows a view of the second lamp with a support, in section C-C;

- in Fig. 12 shows a view of the cover along K of the second lamp;

- in Fig. 13 shows the fastening of the lantern of the second lamp;

- in Fig. 14 shows the fastening of the lantern of the first lamp;

- in Fig. 15 shows the illumination diagram at a≤30°;

- in Fig. 16 shows the illumination diagram at 30°≤a≤60°;

- in Fig. 17 shows the diagram of illumination at a≥60°;

- in Fig. 18 shows the appearance of the first lamp;

- in Fig. 19 shows the appearance of the second lamp.

Symbols of the elements of the lamp given in the description:

support 1;

lantern 2;

mount 3;

support base 4;

building 5;

the horizontal part of the body 6;

the vertical part of the body 7;

anti-corrosion coating 8;

compartment cover 9;

diffuser 10;

inner cavity 11;

reflector 12;

LEDs 13;

screws 14;

good lighting zone 15;

mediocre lighting zone 16;

curved plates 17;

bolts 18;

nuts 19;

flat plates 20.

The design of the lamp is shown in Fig. 1-19.

In FIG. 1 and 2 shows the first lamp, it contains a support 1, a lamp 2, and a mount 3, and the base of the support 4 in the lower part.

Support 1 is made in the form of a rectangle in cross section of constant height (Fig. 5).

The width and thickness of the cross section of the support 1 can be made from the ratio (Fig. 5):

h=(1.8…2.2) g,

where h is the width of the cross section of the support;

g - thickness of the cross section of the support,

In FIG. 3 and 4 shows the second lamp, it contains a support 1, a lamp 2, and a mount 3, and the base of the support 4 in the lower part. The difference between the second variant and the first variant is that the support 1 is made of a square shape in cross section (Fig. 6) and is constant in height and in the fastening structure 3 (Fig. 11 and 12).

The second option has a square section:

h=g

where the width of the cross section of the support is h;

and the thickness of the cross section of the support - g.

This design allows for the manufacture of support 1 to use commercially available rolled products. This will simplify the design of support 1 and make it more manufacturable and cheaper to manufacture.

In FIG. 7 and 8 shows a view of two versions of the lantern 2.

In both versions, the lanterns 2 are annular in shape and have an outer diameter D _н and a plan width h, while it is recommended to make the lantern width in plan within:

L=(0.1…0.2) D _n ,

where L is the width of the lantern (Fig. 9);

D _n - outer diameter of the lantern.

Lantern 2 includes a housing 5. Housing 5 includes a horizontal part of the housing 6 and a vertical part of the housing 7, mounted to each other at an angle of 90°. Housing 5 can be made of plastic or metal with anti-corrosion coating 8.

The body 5 fastening is placed on the vertical part of the body 7.

A diffuser 10 is installed on the lower part of the housing 5 along its diagonal (Figs. 7 and 8), which together with the housing 5 forms an internal cavity 11. A gasket can be installed between the housing 5 and the diffuser 10 (the gasket is not shown in Figs. 1-19).

In the inner cavity 11 of the lamp 2 there is a reflector 12, on the surface of which the LEDs 13 are fixed at an angle to the horizontal plane α (in the form of an LED strip or LED strips).

Optimum angle of installation of the reflector 12 to the horizontal plane:

α=(30…60)°, which is proved in Fig. 15-17.

The diffuser 10 can be rounded around the entire perimeter towards the inner cavity 11 of the lantern 2 (Fig. 8). This will improve its heating in the autumn-spring period.

Screws 14 (Fig. 10, 12) fasten the roof of the compartment 9 to the body 5.

In FIG. 9 shows a section of the first lamp with support 4.

In FIG. 10 shows a view of the compartment cover 9 along H for the first lamp, which is fastened with screws 14.

In FIG. 11 shows a section of the second lamp with support 4.

In FIG. 12 shows a view of the compartment cover 8 by K of the second lamp, which is fastened with screws 14.

In FIG. 13 shows the fastening of 3 lamps 2 of the second lamp. It is made by fastening in the form of two curved plates 17, which are attached on one side to the support 1 at an angle ϕ, and on the other hand, to the lantern 2. The fastening is made with bolts 18 with nuts 19.

In FIG. 14 shows the fastening of 3 lamps 2 of the first lamp. It is made by fastening in the form of two flat plates 20, which are attached on one side to the support 1 at an angle ϕ, and on the other - to the lantern 2.

From FIG. 15…17 it follows that the optimal installation angle of the reflector 12 is

α=(30°…60°).

In this case, the zone of good illumination 15 will be solid, and the zone of mediocre illumination 16 will be narrow (Fig. 16).

Optimum angle between curved plates 17:

ϕ=90…120°.

Assembly and operation of the lamp.

Supports 1, lanterns 2 and bases of support 4 are made separately.

Since support 1 is made of the simplest form from a commercially available profile, it will turn out to be simple in design and technology. The internal cavity of the support 1 allows you to lay cables there to turn on and off the LEDs 13.

In the manufacture of lamps 2, a housing 5, a diffuser 10 and a reflector 12 with LEDs 13 are made separately in the form of an LED strip or LED strips.

The use of LEDs 13 will reduce the energy consumption of the lamp by about 10 times.

After assembling the lamp, it is installed on the base of the support 4.

In FIG. 18 and 19 show the first and second versions of LED lamps.

The use of the proposed lamp allowed:

simplify its design;

simplify manufacturing technology;

expand the range of the illuminated surface;

prevent pollution of the diffuser 10 due to its location in the lower part of the body and rounding into the internal cavity 11.

Claims (14)

1. A lamp containing a support and a lamp fixed on it in the upper part, containing a housing, a light source and a diffuser, characterized in that the support is made of a rectangular shape of constant cross section and hollow in cross section, the lamp is made an annular shape with a body having the shape of a rectangle in cross section, the diffuser is fixed in the upper part of the support, the light source is made in the form of light-emitting diodes on the reflector and is installed in the inner cavity of the lantern. 2. Luminaire according to claim 1, characterized in that the width and thickness of the cross section of the support are made from the ratio: h=(1.8…2.2) g, where h is the width of the cross section of the support; g - thickness of the cross section of the support. 3. The luminaire according to claim 1, characterized in that the cross section of the support is made of a square shape, the luminaire is attached using two plates installed in the same plane at an angle to the axis of the support, and the lantern is attached eccentrically to the support. 4. Luminaire according to claim 1, characterized in that the reflectors are installed in the cavity of the lantern at an angle to the horizontal surface α=30…60°. 5. Luminaire according to claim 1, characterized in that the thickness of the cross section of the support is made constant from the ratio: δ=(0.08…0.12) g, where δ is the wall thickness of the support; g - thickness of the cross section of the support. 6. Lamp according to claim 1, characterized in that the body of the lamp is made of plastic. 7. Lamp according to claim 1, characterized in that the body of the lamp is made of metal, and an anti-corrosion coating is applied on its outer surface. 8. Lamp according to claim 1, characterized in that the diffuser is rounded around the entire perimeter towards the internal cavity of the lamp.

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