RU154093U1 - LAMP - Google Patents

Abstract

1. A lamp made up of light units selected in an amount from 1 to 10, rigidly installed using connecting elements on the mounting pipe with power wires drawn through them, each of the light units, all of whose internal surfaces are coated with a reflective and electrically insulating layer, is made from structurally rigidly interconnected cylindrical longitudinal bodies with power supply units installed inside them on the basis of and fixed by means of supports of mounting plates, on which LED modules are mounted with a set of LEDs placed on them, while in the cylindrical longitudinal case there is a hole for the passage of light flux covered by a light diffuser, the end end parts of the cylindrical longitudinal body are closed with removable upper and lower covers with through holes for air flow, of which the top cover is made with an arcuate tab, plug, air filter and filter retainer, and the bottom cover is made with air frame fixed filter. 2. The lamp according to claim 1, in which the connecting elements are made in the form of a junction box and a lower cover. The lamp according to claim 1, in which in each of the light nodes the number of circuit boards is selected in the range from 1 to 12.4. The luminaire according to claim 1, wherein the mounting plates are made in straight cross section. The luminaire according to claim 1, in which the mounting plates are made in the cross section of a convex U-shaped, trapezoidal or semicircular shape. The lamp according to claim 1, in which in each of the light nodes the combination of LEDs

Description

The proposed device relates to the field of lighting and is intended for use as a street lamp or a lighting fixture in office retail, sports, industrial and other premises, including those with high humidity or dust.

To illustrate the known level of development in this area, you can specify the objects protected by patents No. 2240470, 24099162, 473007, 2502013, 2506492,2509952 for inventions, as well as patent No. 101147 for utility model. The disadvantages of the known devices are, in particular, their overheating during operation and the limited ability to control the luminous flux. The closest analogue (prototype) of the claimed technical solution for the similarity of essential features is the product protected by patent No. 2506492.

The problem solved by the product is to improve the known devices to eliminate their disadvantages with the achievement of a technical result with respect to expanding the ability to control the radiation patterns of the lamp when solving various problems of lighting distribution on the plane and in space, including at a considerable distance from the lighting objects.

The specified technical result is achieved using the proposed device, schematically reflected in the following figures of the drawings.

FIG. 1. General view of one of the options for the lamp.

FIG. 2. The longitudinal section of the light node.

FIG. 3. Schematic representation of the top cover assembly.

FIG. 4. Schematic representation of the bottom cover assembly.

FIG. 5. Variability in the execution of the shape and size of the circuit board: a) the first version of the shape and size; b) the second version of the shape and size.

FIG. 6. Comparison of the shapes of the light diffuser lamp in cross section with respect to refraction and reflection of light, a) a radial shape lamp, b) a flat shape lamp.

FIG. 7. Variability of the arrangement of structural elements inside the light unit with various combinations of their shapes, sizes, quantities and directivity: a) 1 row of broadband light, 2 rows - narrowly directed; b) 3 rows of broadband light; c) 1 row of directional light, 1 row of narrowly directed; d) 1 row of broadband light.

The main structural components and features of the claimed device are identified by a list of their designations in the indicated figures, namely:

1 Light node.

2 Junction box.

3 Mounting pipe.

4 Power cord.

5 Reflective and electrical insulating layer.

6 Detail view of an enlarged image of small elements

7 Case.

8 Power supply unit.

9 The basis of the power supply.

10 Backing up the circuit board.

11 Mounting plate.

12 LED module.

13 LED.

14 Hole for luminous flux.

15 Light diffuser.

16 Top cover.

17 bottom cover.

18 Airflow hole.

19 Arcuate insert.

20 Cap.

21 Air filter.

22 Filter latch.

23 Filter frame.

24 Thermally conductive substance.

25 axis of symmetry.

26 Ray of light.

27 Airflow.

28 Light emission pattern.

With a detailed description of the device (Fig. 1-7), it is not advisable to dwell on its structural units and elements known from published sources, and only its essential structural features should be characterized in more detail. To achieve the specified technical result, the proposed lamp is made up of light units 1, selected in an amount of 1 to 10, rigidly installed using connecting elements on the mounting pipe 3 with power wires passed through them 4. Each of the light units 1, all of whose inner surfaces are covered applied reflective and electrical insulating layer 5 (see remote fragment 6 of an enlarged image of small elements in Fig. 2), is made of structurally rigidly interconnected cylindrical longitudinal housing 7 with installed inside them power supplies 8 based on 9 and secured by supports 10 of the mounting plates 11. On the mounting boards mounted LED modules 12 with a set of LEDs 13 mounted on them.

In the cylindrical longitudinal body 7, an opening 14 is made for the passage of the light flux, closed by a light diffuser 15, the shape of the ceiling of which in cross section can be relatively radial or flat (Fig. 6a) and 6b)). The end end parts of the cylindrical longitudinal housing 1 are closed by removable upper 16 and lower 17 covers, respectively, with through holes 18 for air flow 27. The passage through the light nodes 1 and their lower 17 and upper 16 covers of the cooling air stream cleaned by filters 21 is clearly shown by arrows 27 in FIG. 2. A schematic representation of a detailed structural embodiment of the top cover 16 is shown in FIG. 3, and the bottom cover 17 in FIG. 4. The upper cover 16 is made with an arcuate tab 19, a plug 20, an air filter 21 and a filter lock 22, and in the lower cover 17 is made with an air filter 21, fixed frame 23.

To clarify the design features of the developed luminaire, it is advisable to note that its connecting elements can be made in the form of a junction box 2 and a lower cover 17. In each of the light nodes 1, the number of mounting plates 10 can be selected in the range from 1 to 12, and in cross section mounting plates 11 can be made straight as well as convex, for example, U-shaped, trapezoidal or semicircular in shape (see Fig. 1, 2, 5 and 7).

In each of the light nodes 1, the set of LEDs 13 can be installed in an amount selected from 4 to 100. In this case, the set of LEDs in an amount of n ₁ selected with respect to their total number n in the range of 1.05≤ (n ₁ + n) / n≤1.9 can be performed narrowly, and the set of LEDs in an amount of n ₂ selected within 1.1≤ (n ₂ n) / n≤1.8 can be made broadband. The light diffuser 15 of the lamp, repeating the shape of the housing 7, can be made in the cross section of a semi-oval or semicircular shape, in a jointly assembled state, forming in the cross section an oval or round shape with a diameter of from 50 to 200 mm.

The surface area S _{1 of} the hole 13 in the light unit 1 of the luminaire for passing the light flux is selected with respect to the surface area S _{2 of} its entire surface within 0.2 ≤ S ₁ / S ₂ 0 0.7. The arcuate tab 19 of the top cover 16 in the light unit 1 of the luminaire is made in the form of a cross section fully repeating the shape of the cross section of the housing 7. On the inner surface of the housing 7 are structural elements made entirely with it - longitudinal supports 10 of the mounting plate 11 in the form of ledges and arranged parallel to symmetrically with respect to each other. In this case, the mounting plate 11 is mounted on the supports 10 through a layer of thermally conductive substance 24. The light nodes 1 of the lamp are made from 200 to 3200 mm long, and the area S _{3 of the} through holes 18 of the upper 16 and lower 17 covers is completely covered by air filters 21, and is selected with respect to to the area S _{4 of the} entire surface of the lid in the range 0.1 ≤ S ₃ / S ₄ ≤0.9.

The variability of the arrangement of structural elements inside the light unit for the various combinations of their shapes, sizes and quantities for controlling the directivity and angular distribution of light rays 26 and light fluxes illustrates the operation of the lamp, which is clearly shown in FIG. 5, 6 and 7. In FIG. 7 are illustrated: option a) - on the trapezoidal mounting plate, two types of narrow-beam light and one broadband are used, which allows us to solve the problem of lighting the floor surface and lower parts of the side walls in the room. Option b) —On a U-shaped mounting plate, three broadband light sources are installed, which makes it possible to solve the problem of lighting the floor surfaces and surfaces of the side walls in the room. Option c) - on the L-shaped mounting plate one source of oblique light and one narrowly directed are installed, which allows us to solve the problem of lighting the floor surface and the surface of the corresponding wall in the room. Option d) - on the trapezoidal mounting plate, there is one source of extra broadband light that allows us to solve the problem of optimal lighting in the room exclusively on the floor surface.

As is obvious from the foregoing, the described structural embodiment of the claimed device predetermines the achievement of the specified technical result, which is ensured by an interconnected set of claimed design features of the product and the experiments were confirmed. In addition, an increase in the reliability of the design of the device with an increase in its resistance to destructive external mechanical and aggressive physical and chemical influences, including high atmospheric humidity and / or dust, is achieved, as described above, by the use of protective agents against aggressive external the effects of coating layers, using a purge of filters to clean the air flow, and, in particular, through the use of a small amount of structural ele ENTOV and application of simple components and parts.

The industrial applicability of the claimed solution is proved by the possibility of its multiple reproduction in the manufacturing process. The design of the device, which follows from its description, provides the possibility of serial production and the use of common materials and processing technologies, since the product, in particular, is not critical to the accuracy of manufacturing parts. The claimed lamp has a novelty, since the interconnected set of its essential features is not known from publicly available information.

Among the other advantages of the described lamp can be noted its resistance to overheating, the relatively low cost of its manufacture and attractive ergonomic indicators.

Claims (14)

1. A lamp made up of light units selected in an amount from 1 to 10, rigidly installed using connecting elements on the mounting pipe with power wires drawn through them, each of the light units, all of whose internal surfaces are coated with a reflective and electrically insulating layer, is made from structurally rigidly interconnected cylindrical longitudinal bodies with power supply units installed inside them on the basis of and fixed by means of supports of mounting plates, on which LED modules are mounted with a set of LEDs placed on them, while in the cylindrical longitudinal case there is a hole for the passage of light flux covered by a light diffuser, the end end parts of the cylindrical longitudinal body are closed with removable upper and lower covers with through holes for air flow, of which the top cover is made with an arcuate tab, plug, air filter and filter retainer, and the bottom cover is made with air filter fixed by a frame. 2. The lamp according to claim 1, in which the connecting elements are made in the form of a wiring box and a lower cover. 3. The lamp according to claim 1, in which in each of the light nodes the number of circuit boards is selected in the range from 1 to 12. 4. The lamp according to claim 1, in which the circuit boards are made in cross section straight. 5. The luminaire according to claim 1, in which the mounting plates are made in the cross section of a convex U-shaped, trapezoidal or semicircular shape. 6. The lamp according to claim 1, in which in each of the light nodes the set of LEDs is installed in an amount selected in the range from 4 to 100. 7. The lamp according to claim 1, in which the set of LEDs in an amount of n ₁ selected with respect to their total number n in the range of 1.05≤ (n ₁ + n) / n≤1.9 is narrowly directed, and the set of LEDs in the amount of n ₂ selected in the range 1.1≤ (n ₂ + n) / n≤1.8, made broadband. 8. The lamp according to claim 1, in which the light diffuser, repeating the shape of the body, is made in the cross section of a semi-oval or semicircular shape, in a jointly assembled state forming in the cross section an oval or round shape with a diameter of 50 to 200 mm. 9. The lamp according to claim 1, in the light node of which the area S _{1 of the} surface of the hole for the passage of the light flux is selected with respect to the area S _{2 of} its entire surface within 0.2≤S ₁ / S ₂ ≤0.7. 10. The lamp according to claim 1, in which the arcuate tab of the top cover is made in the form of a cross section fully repeating the shape of the cross section of the housing. 11. The lamp according to claim 1, in which on the inner surface of the housing are structural elements that are integral with it — longitudinal supports of the mounting plate in the form of ledges and arranged parallel-symmetrically to each other. 12. The luminaire according to claim 12, in which the circuit board is fixed to the supports through a layer of thermally conductive substance. 13. The lamp according to claim 1, in which the light nodes are made in a length of 200 to 3200 mm. 14. The luminaire according to claim 1, wherein the area S _{3 of the} through holes of the upper and lower covers is completely covered by air filters and is selected with respect to the area S _{4 of the} entire surface of the cover within 0.1≤S ₃ / S ₄ ≤0.9.

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