RU2768240C1 - Lighting fixture (variants) - Google Patents

Abstract

FIELD: lighting.

SUBSTANCE: group of inventions relates to structures of lighting apparatuses. The lighting fixture according to all variants of the invention comprises a volumetric light-transmitting dome light formed by a bottom 7 and lateral sides (faces) 8, configured to be coupled with the base 9 of the light fixture to mount the assembled light fixture on a dropped ceiling. To manufacture the dome light, a single workpiece produced by cutting and milling a flexible sheet material is used. The workpiece of the dome light is made with a bottom, on the sides whereof, along the bending lines 2, lateral rectangular faces 8 are located, separated by edges, made with chamfers 1 at the edges. The bending lines 2 along the perimeter of the bottom 7 for subsequent folding are made in the form of non-through milled grooves. Rectangular cutouts 4 are therein made at the corners of the faces 8 on the sides parallel to the bending lines 2. Between the cutouts 4 in the first implementation variant, when the bottom 7 constitutes a square, latches 3 are formed at the edge of each of the faces for connecting the dome light with the base 9. Between the cutouts 4 in the second implementation variant, when the bottom 7 generally constitutes a regular polygon, two opposing latches 3 are formed at the edges of two opposite faces 8 for connecting the dome light with the base 9. The latch 3 may be absent on the short side of the rectangular workpiece, and multiple latches 3 should be made on the long side, depending on the length. Between the cutouts 4 in the third implementation variant, when the bottom 7 constitutes a rectangle, at least two latches 3 are formed on the two long opposite faces 8 for connecting the dome light with the base 9. Between the cutouts 4 in the first implementation variant, when the bottom 7 constitutes a triangle, latches 3 are formed at least on two faces for connecting the dome light with the base 9. In all variants of the invention, each latch 3 is made between the cutouts 4 with a through longitudinal groove 5 along the edge of the face 8, on both sides whereof through transverse slots 6 are made.

EFFECT: in all variants of the technical solution, structural simplification and reduction in the amount of operations not requiring high qualifications, reduction in the time for production, assembly, and repair with a minimum amount of production equipment are achieved, and costs of manufacturing special equipment and environmental pollution are also eliminated due to the absence of adhesives and other chemical elements in the production process.

12 cl, 21 dwg

Description

The claimed group of inventions relates to the design of lighting devices, as well as to the field of construction and can be used as fixtures built into a false ceiling inside industrial and residential buildings.

Known LED lamp, including a prefabricated housing, made with the possibility of installation in the cells of a false ceiling, and mounted in it LED lighting modules, each of which is a single-sided printed circuit board with a chain of LEDs placed on it, and a raster mirror grille, with each LED lighting the module is equipped with a plafond with an individual diffuser made of lighting plastic (RU No. 132860.).

The disadvantage of the design of the specified box is that the sides of the sidewalls are attached to one another. This complicates its manufacture. As well as the gases released during soldering have a harmful effect on the body of the worker. A large number of operations, parts, long manufacturing time, the use of tooling / slipway worsens the maintainability and manufacturability of the product

A well-known LED lamp contains a housing and LEDs placed on the boards, it is equipped with a ceiling mounted on the front side of the housing, and the boards with the LEDs placed on them are installed between the ceiling and the front side of the housing with the orientation of the LEDs towards the ceiling, and the number of boards is equal to at least three, while the housing has at least one hole for power supplies for the LEDs placed on the boards. (RU No. 103387).

The disadvantage of the design is the insufficient reliability of the connection of the removable sidewalls with the base and the insufficient rigidity of the structure, a large number of operations, parts, and a long manufacturing time.

A ceiling fluorescent lamp is known, containing a housing with electrical circuit elements and at least one light source with a device for controlling its operation and a ceiling connected to the housing by means of locks, and the locks for attaching the ceiling to the housing are made in the form of an elastic latch, one end connected by an axis with ceiling and the other end with an additional earring installed in the housing with the ability to move and turn (RU No. 106337)

The disadvantages of this design are the structural complexity, lack of reliability and complexity of the assembly of the lamp.

Known lamp, in which the box (plafond) is box-shaped and contains a polygonal bottom, sidewalls and removable sidewalls. Two sidewalls located one against the other are rigidly connected to the bottom and can be made with it from one rectangular part, for example, by stamping. Four loops are made on the sides of each of the sidewalls (along the box-shaped ribs). On the removable sidewalls (along the box-shaped ribs) four tabs (latches) are made, each of which is inserted into the corresponding loop and bent, while each tab has a locking tongue. On the bottom along the perimeter there are hinge-locks designed to interact with the docking nodes of the removable sidewalls. Each of the removable sidewalls is attached to the bottom with a locking connection. In this case, the straps of the removable sidewalls are bent and inserted into the corresponding loops rigidly connected to the bottom of the sidewalls. The straps are fixed with tongues, and the lock connection is securely fixed with bend-locks. The assembled luminaire box is installed in a T-profile modular ceiling (RU No. 79163, prototype).

The disadvantages of this design are structural complexity, lack of reliability and complexity of the assembly of the lamp, low maintainability.

The problem, which is directed by all variants of the invention, connected by a single inventive concept, is to create an effective design of the lamp and expand the arsenal of ceiling lamps suitable for a variety of designs of slatted ceilings.

The technical result, which provides a solution to the problem for each variant of the invention, is to increase the reliability and rigidity of the design of the lamp box with a minimum consumption of materials, to simplify the design, which ensures the production of quickly assembled shades with a minimum number of operations, without the use of hardware, rivets, glue, as well as expensive and time-consuming in the development of technologies such as injection molding, extrusion, etc., reducing the labor intensity of assembling and installing luminaires at the site of operation, while expanding the range of shades of various sizes and shapes, improving maintainability, suitability for transportation and storage of plafond blanks in a stack. The installation of the luminaire provides only for the operations of inserting the assembled luminaire into the cell and connecting the power supply, easy transfer to another cell (if necessary, it can be mounted on a suspension (existing or separate), the possibility of prompt removal of the ceiling for repair work on the base.

The essence of the invention according to option 1 lies in the fact that the lamp contains a three-dimensional light-transmitting ceiling formed by the bottom and sides, made with the possibility of mating with the base of the lamp for mounting on a suspended ceiling, characterized in that the ceiling is made in the form of a single piece from a blank of flexible sheet material , each side of the plafond is made in the form of a flat quadrangular face integral with the bottom, the perimeter of which is a polygon, on the sides of which the plafond faces are located along the fold lines, the volume of which is formed by folding along the fold lines until the ribs are closed between adjacent faces, made with chamfers on the edges , and the fold lines are made in the form of grooves, while at the corners of the faces, on the sides parallel to the fold lines, cutouts are made, between which, along the edge of each of the faces, latches are formed to connect the ceiling with the base, each latch is made with a through longitudinal groove along the free edge gran and, on both sides of which through transverse grooves are made.

Preferably, the plafond latches are made with the possibility of their installation in the through slots of the base, made of a stepped shape with a protrusion for insertion into the through longitudinal slot of the latch when mating the plafond with the protrusion in the base slot.

Preferably, the plafond is made of a prismatic shape from a billet of flexible sheet material from the group: light-diffusing, transparent, colored light-transmitting material.

The essence of the invention according to option 2 lies in the fact that the lamp contains a three-dimensional light-transmitting ceiling formed by the bottom and sides, made with the possibility of mating with the base for placement on a false ceiling, characterized in that the ceiling is made in the form of a single piece from a blank of flexible sheet material, each side of the plafond is made in the form of a flat quadrangular face integral with the bottom, the perimeter of which is a polygon, on the sides of which the plafond faces are located along the fold lines, the volume of which is formed by folding along the fold lines until the ribs are closed between adjacent faces, made with chamfers on the edges, and the fold lines are made in the form of grooves, while at the corners of the faces, on the sides parallel to the fold lines, cutouts are made, between which, at the edges of two opposite faces, latches are formed to connect the ceiling with the base, each latch is made with a through longitudinal groove along the free edge r rani, on both sides of which through transverse grooves are made.

Preferably, the plafond latches are made with the possibility of their installation in the through slots of the base, made of a stepped shape with a protrusion for insertion into the through longitudinal slot of the latch when mating the plafond with the protrusion in the base slot.

Preferably, the plafond is made of a prismatic shape from a billet of flexible sheet material from the group: light-diffusing, transparent, colored light-transmitting material.

The essence of the invention according to option 3 lies in the fact that the lamp contains a three-dimensional light-transmitting ceiling formed by the bottom and sides, made with the possibility of mating with the base for placement on a suspended ceiling, characterized in that the ceiling is made in the form of a single piece from a blank of flexible sheet material, each side of the plafond is made in the form of a flat quadrangular face integral with the bottom, the perimeter of which is a rectangle, on the sides of which the plafond faces are located along the fold lines, the volume of which is formed by folding along the fold lines until the ribs close between adjacent faces, made with chamfers on the edges, and the fold lines are made in the form of grooves, while at the corners of the faces, on the sides parallel to the fold lines, cutouts are made, between which, at the edges of two long opposite faces, at least two latches are formed to connect the ceiling with the base, each latch is made with through longitudinal a groove along the free edge of the face, on both sides of which through transverse grooves are made.

Preferably, the plafond latches are made with the possibility of their installation in the through slots of the base, made of a stepped shape with a protrusion for insertion into the through longitudinal slot of the latch when mating the plafond with the protrusion in the base slot.

Preferably, the plafond is made of a prismatic shape from a billet of flexible sheet material from the group: light-diffusing, transparent, colored light-transmitting material.

The essence of the invention according to option 4 lies in the fact that the lamp contains a three-dimensional light-transmitting ceiling formed by the bottom and sides, made with the possibility of mating with the base for placement on a false ceiling, characterized in that the ceiling is made in the form of a single piece from a blank of flexible sheet material, each side of the plafond is made in the form of a flat quadrangular face integral with the bottom, the perimeter of which is a triangle, on the sides of which the plafond faces are located along the fold lines, the volume of which is formed by folding along the fold lines until the ribs close between adjacent faces, made with chamfers on the edges, and the fold lines are made in the form of grooves, while at the corners of the faces, on the sides parallel to the fold lines, cutouts are made, between which, at least at the edges of the two faces, latches are formed to connect the ceiling with the base, each latch is made with a through longitudinal groove along the free edge rani, on both sides of which through transverse grooves are made.

Preferably, the plafond latches are made with the possibility of their installation in the through slots of the base, made of a stepped shape with a protrusion for insertion into the through longitudinal slot of the latch when mating the plafond with the protrusion in the base slot.

Preferably, the plafond is made of a prismatic shape from a billet of flexible sheet material from the group: light-diffusing, transparent, colored light-transmitting material.

In the drawing of Fig. 1 shows a flat blank of a square ceiling, in Fig. 2 - sections A-A, B-B, C-C, G-D according to Fig. 1 in FIG. 3 - the assembly sequence of a square ceiling with a separately made base and a light source, in Fig. 4 - the assembly sequence of a square lampshade with a base and a light source made at the same time, in Fig. 5 shows a flat blank of a rectangular ceiling, in Fig. 6 shows a flat blank of a square ceiling, in Fig. 7 shows a flat blank of a hexagonal ceiling, in Fig. 8 shows a flat blank of a triangular ceiling, in Fig. 9 and FIG. 10 shows a flat blank of a square ceiling in the process of folding the edges, in Fig. 11 - five possible forms of the ceiling, in Fig. 12 and FIG. 13 is a general view of the installation of fixtures on slatted ceilings of the Grilyato type, in Fig. 14 - schemes for installing fixtures on slatted ceilings of the Grilyato type with different dimensions of the ceiling relative to the ceiling cell, in Fig. 15 and FIG. 16 is a general view of the installation of fixtures on slatted ceilings, in Fig. 17 - schemes for installing fixtures on slatted ceilings with different dimensions of the ceiling relative to the distance between the slats of the slatted ceiling, in Fig. 18 - base, where the light source is made in the form of an LED module with a plurality of LEDs, in FIG. 19 - the base, where the LED light source is made in the form of a mono-module, in FIG. 20 - the base is made together with the LED module and is integral with it, in Fig. 21 - the base is made with a socket for lamps with a base.

The luminaire according to the first variant of the invention contains a volumetric light-transmitting ceiling formed by the bottom 7 and sides 8, made with the possibility of mating with the base 9 of the luminaire for mounting the luminaire assembly on a false ceiling.

The bottom 7 and all sides (faces) 8 of the ceiling are made in the form of a single piece from a flat billet of flexible sheet material. Each face 8 of the plafond is made flat in the form of a rectangle, at the same time with a flat bottom, the perimeter of which is a polygon (for example, a regular equilateral polygon), on all sides of which, along the lines 2 of the fold, there are faces 8 of the plafond separated by ribs, volume (volumetric form) which is formed by folding the faces 8 along the fold lines 2 until the ribs close between adjacent faces 8 to form a volume having the shape of a prism. Edges 8 are made along the perimeter of the bottom together with the bottom from a whole one-piece workpiece made by cutting and milling flexible sheet material and made with chamfers 1 on all free edges. Line 2 fold along the perimeter of the bottom 7 is made in the form of non-through milled grooves, for example, a triangular section. At the same time, at the corners of all faces 8, on the sides parallel to the fold lines 2, rectangular cutouts 4 are made, between which, along the edge of each of the faces 8, latches 3 are formed to connect the ceiling with the base 9 of the lamp. Each latch 3 is made on part of its length with a through longitudinal groove 5 along the free edge of the edge 8, on both sides of which there are through transverse grooves 6.

The latches 3 for connecting the ceiling with the base 9 are made with the possibility of their repeated installation in the through slots 10 of the base 9, made of a stepped shape with a protrusion 11 for insertion into the through longitudinal groove 5 of the latch 3 when the ceiling is mated with the protrusion 11 in the slot 10 of the base 9. The ceiling is made removable-slip-on, prismatic shape (in the form of a tray), from a blank of flexible sheet material from the group: light-scattering, transparent, colored light-transmitting material.

The luminaire according to the second variant of the invention contains a volumetric light-transmitting ceiling formed by the bottom 7 and sides 8, made with the possibility of mating with the base 9 of the luminaire for mounting the luminaire assembly on a false ceiling. The bottom 7 and all sides 8 of the ceiling are made in the form of a single piece from a flat billet of flexible sheet material. Each side of the ceiling is made in the form of a flat quadrangular face 8 together with a flat bottom 7, the perimeter of which is a polygon, on all sides of which, along the fold lines 2, there are faces 8 of the ceiling separated by ribs, the volume (volumetric shape) of which is formed by folding the faces 8 along the fold lines 2 until the ribs close between adjacent faces 8 to form a volume having the shape of a prism. The edges 8 are made along the perimeter of the bottom 7, integral with the bottom 7, from a whole one-piece workpiece made by cutting and milling a flexible sheet material and made with chamfers 1 on all free edges. Line 2 fold along the perimeter of the bottom 7 is made in the form of non-through milled grooves, for example, a triangular section. At the same time, at the corners of all faces 8, on the sides parallel to the fold lines 2, rectangular cutouts 4 are made, between which, at the edges of two opposite faces 8, latches 3 are formed to connect the ceiling with the base of the lamp 9. Each latch 3 is made on a part of its length with a through longitudinal groove 5 along the free edge of the face, on both sides of which there are through transverse grooves 6.

Latches 3 for connecting the ceiling with the base 9 are made with the possibility of their repeated installation in the through slots 10 of the base 9, made of a stepped shape with a protrusion 11 for insertion into the through longitudinal groove 5 of the latch 3 when the ceiling is mated with the protrusion 11 in the slot of the base. At the same time, the plafond is made removable and put on, prismatic in shape (in the form of a tray), from a blank of flexible sheet material from the group: light-scattering, transparent, colored light-transmitting material.

The luminaire according to the third variant of the invention contains a volumetric light-transmitting ceiling formed by a bottom 7 and sides (faces) 8, made with the possibility of mating with the luminaire base 9 for mounting the luminaire assembly on a suspended ceiling. The bottom 7 and all sides 8 of the ceiling are made in the form of a single piece from a flat billet of flexible sheet material. Each side 8 of the ceiling is made in the form of a flat quadrangular face 8 together with a flat bottom 7, the perimeter of which is a rectangle, on all sides of which, along the fold lines 2, there are faces 8 of the ceiling separated by ribs, the volume (volumetric shape) of which is formed by folding the faces 8 along the fold lines 2 until the ribs close between adjacent faces 8 to form a prism-shaped volume. The edges 8 are made along the perimeter of the bottom 7 integrally with the bottom 7 from a whole one-piece workpiece made by cutting and milling a flexible sheet material and made with chamfers 1 on all free edges. Line 2 fold along the perimeter of the bottom 7 is made in the form of non-through milled grooves, for example, a triangular section. At the same time, at the corners of all faces 8, on sides parallel to the fold lines 2, rectangular cutouts 4 are made, between which, at the edges of two long opposite faces 8, at least two latches 3 are formed to connect the ceiling with the base 9 of the lamp. Each latch 3 is made on part of its length with a through longitudinal groove 5 along the free edge of the edge 8, on both sides of which there are through transverse grooves 6.

Latches 3 for connecting the ceiling with the base 9 are made with the possibility of their repeated installation in the through slots 10 of the base 9, made of a stepped shape with a protrusion 11 for insertion into the through longitudinal groove 5 of the latch 3 when the ceiling is mated with the protrusion 11 in the slot of the base. At the same time, the plafond is made removable and put on, prismatic in shape (in the form of a tray), from a blank of flexible sheet material from the group: light-scattering, transparent, colored light-transmitting material.

The luminaire according to the fourth variant of the invention contains a volumetric light-transmitting ceiling formed by a bottom 7 and sides (faces) 8, made with the possibility of mating with the base 9 of the luminaire for mounting the luminaire assembly on a suspended ceiling. The bottom 7 and all sides 8 of the ceiling are made in the form of a single piece from a flat billet of flexible sheet material. Each lateral side 8 of the ceiling is made in the form of a flat, quadrangular face 8 together with a flat bottom 7, the perimeter of which is a triangle, on all sides of which, along the fold lines 2, there are edges 8 of the ceiling separated by ribs, the volume (volumetric shape) of which is formed by folding faces 8 along fold lines 2 until the ribs close between adjacent faces 8 to form a prism-shaped volume. The edges 8 are made along the perimeter of the bottom 7 integrally with the bottom 7 from a whole one-piece workpiece made by cutting and milling a flexible sheet material and made with chamfers 1 on all free edges. Line 2 fold along the perimeter of the bottom 7 is made in the form of non-through milled grooves, for example, a triangular section. At the same time, at the corners of all faces 7, on sides parallel to the fold lines 2, rectangular cutouts 4 are made, between which, at least at the edges of two faces 8, latches 3 are formed to connect the ceiling with the base 9 of the lamp. Each latch 3 is made on part of its length with a through longitudinal groove 5 along the free edge of the edge 8, on both sides of which there are through transverse grooves 6.

Latches 3 for connecting the ceiling with the base 9 are made with the possibility of their repeated installation in the through slots 10 of the base 9, made of a stepped shape with a protrusion 11 for insertion into the through longitudinal groove 5 of the latch 3 when the ceiling is mated with the protrusion 11 in the slot 10 of the base 9. At the same time, The ceiling is made removable and slip-on, prismatic in shape (in the form of a tray), from a blank of flexible sheet material from the group: light-scattering, transparent, colored light-transmitting material.

Thus, in each version of the present technical solution, the luminaire contains a volumetric box-shaped (prismatic) shade and a base for installation in false ceilings, which has grooves for connection with the shade, as well as a light source installed on the base 9 inside the shade. The base 9 is a plate with through slots 10 for mounting the ceiling. The slots 10 of the base 9 are stepped in shape, with a central protrusion 11 (in the middle part along the length). The base 9 is made on a laser or CNC milling machine from a material selected from the group of metal (metal, steel) or plastic. As a flexible sheet material, it is possible to use, for example, polycarbonate or other material with the necessary flexibility. As a flexible sheet material, it is also possible to use a material that becomes sufficiently flexible when heated, such as acrylic, in which case the bending along the fold line 2 can be realized with heat.

The light source is made in the form of an LED module or a lamp with a base (Fig. 21).

The light source, made in the form of an LED module, can be implemented in the following versions:

- SMD module (Surface Mounted Device) - a device (light source) mounted on a surface, surface mount technology (Fig. 18);

- Mono-module SOV (Chip On Board) - the technology of mounting many crystals on a small area and coating them with a single phosphor (Fig. 19);

- SMD module, which is both a light source and at the same time the base of the lamp directly to which the ceiling is attached (Fig. 20), i.e. the base and the LED module can be combined into one piece (made in one piece).

Also, with proper organization of heat removal from the internal volume of the lamp, with the appropriate size of the ceiling and the implementation of electrical safety rules, standard lamps with sockets E14, E27, GU10, etc. can be used as a light source.

For the manufacture of the lamp shade, a whole (single) blank is used, obtained by cutting and milling flexible sheet material on a CNC milling machine. The plafond is made, for example, from a billet of flexible sheet material from the group: light-diffusing, transparent, colored material.

The ceiling blank is (figure 1) a flat single blank with a bottom, on the sides of which, along the fold lines 2, there are side rectangular faces 8 separated by ribs, made with chamfers 1 (oblique bevels) on the edges.

The fold lines 2 along the perimeter of the bottom 7 are made in the form of non-through milled triangular grooves, either by creasing (drawing a straight groove on the sheet material) or perforating. Fold lines 2 are necessary for subsequent folding. At the same time, rectangular cutouts 4 are made at the corners of the faces 8, on the sides parallel to the fold lines 2.

Between the cutouts 4 in the first version, when the bottom 7 is a square, on the edge of each of the faces, latches 3 are formed to connect the ceiling with the base 9. Each latch 3 is made with a through longitudinal groove 5 along the edge of the face 8, on both sides of which there are through transverse slots 6.

Between the cutouts 4 in the second version, when the bottom 7 is, as a rule, a regular (equilateral) polygon, on the edges of two opposite faces 8, two opposite latches 3 are formed to connect the ceiling with the base 9, each latch 3 being made with a through longitudinal groove 5 along the edge of edge 8, on both sides of which there are through transverse grooves 6. On the short side of the rectangular blank, there may be no latch 3, and on the long side, depending on the length, there should be several latches 3.

Between the cutouts 4 in the third embodiment, when the bottom 7 is a rectangle, at least two latches 3 are formed on two long opposite faces 8 for connecting the ceiling with the base 9, each latch 3 being made with a through longitudinal groove 5 along the edge of the edge 8, on both sides of which through transverse grooves 6 are made.

Between the cutouts 4 in the fourth embodiment, when the bottom 7 is a triangle on at least two faces 8 of which latches 3 are formed for connecting the ceiling with the base 9, each latch 3 is made with a through longitudinal groove 5 along the edge of the edge 8, along both sides of which are made through transverse grooves 6.

In the manufacture of the ceiling blank in any embodiment, through milling of the mating faces (sides) 8 of the ceiling is carried out with a conical cutter. Fold lines 2 are not milled through, leaving the required thickness of the material for bending, using a conical cutter (Fig. 2, III) in the form of a triangle angle, or a figured conical cutter (Fig. 2, II) in the form of a triangle angle with a U-shaped groove (cut-out) at the top, selected depending on the type and thickness of the material. Support cutouts 4, groove 5 of latch 3 and grooves 6 are milled with a cylindrical cutter. The groove 5 of the latch 3 can be milled partially or through.

To assemble the ceiling into the working position from a reamer - a flat solid blank - bending is carried out along the fold lines 2 (Fig. 2, II, III) until the chamfers 1 are aligned along the edges of the faces 8 with the formation of ribs of a volumetric prismatic ceiling between them.

The manufacturing process of a luminaire with a volumetric shade made of sheet plastic with snap fasteners to the base 9 of the luminaire consists of the following operations:

- Production of blanks for the ceiling scan.

- Making the base 9 of the lamp:

aluminum or steel;

based on LED module;

on the basis of a socket for lamps with a base.

- Installation of a light source, such as an LED module, incl. power supply, on the base of the lamp.

- Bending of the workpiece (sweep) and the formation of the ceiling.

- Installation and fastening of the ceiling on the base 9.

The assembly of the luminaire, after mounting the light source, is carried out in the following order: bending the sides of the ceiling along the fold lines 2, installing the ceiling on the base 9 until it is fixed with a latch 3 in the through slot 10 of the base 9, made in a stepped shape. The through slot 10 of the base 9 has a shape (perimeter) similar to the shape of the perimeter of the bottom 7 of the ceiling. The protrusion 11 of the through slot 10 of the base 9 is directed towards the periphery (edges) of the base 9.

Preferably, through milling, shown in callout I (Fig. 2) of chamfers 1 of the mating edges of the faces (sides) of the ceiling, is carried out with a conical cutter (Fig. 1, section B-B). Lines (places) 2 bends of a triangular section, presented on the callouts II, III (Fig. 2), are milled without leaving the required thickness of the material for bending (Fig. 1, section C-B, G-D) using a conical cutter (Fig. . 2, III) or a figured conical cutter (Fig. 2, II) used depending on the type and thickness of sheet plastic. Rectangular support cutouts 4, longitudinal groove 5 of the latch 3 and transverse grooves 6, which ensure the flexibility of the fastening latch 3, are milled with a cylindrical cutter. The groove 5 of the latch 3 can be milled with a cylindrical cutter partially or through.

The fastening of the volumetric lamp shade on the base is carried out due to the protrusion 11 in the through slot 10 of the base (Fig. 3) and the groove 5 of the latch 3 in the ceiling mounting unit (Fig. 1). Due to the presence of transverse grooves 6 along the free edge of the face, on both sides of the latch 3, it has additional flexibility and, by means of the beveled free edge of the face (chamfer 1 of the latch), when installed in the base slot 10, moves away and then, when the protrusion 11 of the base slot enters into the longitudinal groove 5 of the latch 3, the latter (due to the flexibility of the material of the cover) returns to its original position, which completes the installation and fixation of the removable-slip-on cover on the base (Fig. 3 and Fig. 4). Dismantling (removing) the cover from the base, if necessary, is carried out in the reverse order.

Thanks to this technical solution for the implementation of the luminaire, namely, a volumetric ceiling made of a monolithic (one-piece) blank of sheet material with fastening elements 5,6 of the latch 3 on the base 9 of the luminaire, it is possible to manufacture luminaires of various shapes: rectangular (Fig. 5), square (Fig. 6 ), polygonal (Fig. 7), triangular (Fig. 8) and others. In the manufacture of square (Fig. 6), triangular (Fig. 8), polygonal (Fig. 7), etc. forms of small sizes, the elements 5, 6 of the latch 3 for attaching the ceiling to the base 9 may not be located on all faces (sides) 8 of the scan, but only on a few, mostly opposite ones. With an increase in the size of the ceiling, the elements 5, 6 of the latch 3 of the fastening are formed, as indicated above, on each face 8 of the scan. In the manufacture of elongated (elongated linear) forms (Fig. 5), the number of elements 5, 6 of the latch 3 for attaching the ceiling to the base 9 is set depending on the length of the sides 8 of the sweep, and with a small length of the side 8, they are generally absent on it, provided that that neighboring faces 8 have latches 3 with fastening elements 5, 6.

On the basis of 9, the protrusions 11 of the slots 10 are made, as a rule, only on those sides of the slot 10, where it mates with the latch 3 of the ceiling.

In the case of manufacturing the base 9 together with the LED module (based on it), the number of parts of the lamp and operations is reduced (in Fig. 4 compared to Fig. 3), namely, the base and the LED module combined into one part eliminate the need to manufacture the base from aluminum or steel, there is no need for the operation of fixing the LED module to the base, which significantly reduces the cost, time for the production and assembly of the lamp.

At the same time, the luminaire can be easily moved to another place (limited only by the length of the wire) according to the required installation location. The inventive lamp has the lowest possible weight to reduce the material consumption of the product, convenience and reduce operating costs for the repair and maintenance of the lamp, as well as to reduce the load on the installation surface (ceiling).

At the same time, the lamp is the most maintainable, i.e. in the event of a failure of the lamp, the ceiling can be removed, for which you need to sequentially press the latches 3 from the protrusions 11 and remove the ceiling from the base 9.

The luminaire is intended, as a rule, for use in rack ceilings and rack ceilings of the Grilyato type.

The Grilyato ceiling consists of longitudinal and transverse U-shaped aluminum profiles, forming a lattice. The gratings are mounted on a suspension system assembled from rails of various lengths (600, 1200 and 2400 mm). The ceiling system itself is attached to the draft ceiling by means of suspensions and is additionally supported by wall corners. The corners, in addition to the aesthetic and supporting function, also set an even horizon for the ceiling plane.

The rack ceiling contains a load-bearing tire (stringers, traverses or combs) - steel strips on which the rails are attached, adjustable suspensions with which stringers are attached to the ceiling, rails - panels, most often aluminum, inserts for grouting gaps between rails, corner - profile for masking joints.

From above, in a cell of a suspended ceiling of the "Griglyato" type (Fig. 12 and 13) or between the slats of a slatted ceiling (Fig. 15 and 16), a lamp is installed so that the light source (light module) with a ceiling lamp is recessed into the cell of the ceiling ( the ceiling can protrude from the cell) (Fig. 14, a and Fig. 17, a), for this, the base 9 is larger than the cell, and fixes the lamp in the cell. Also, the plafond can be made smaller than the Grilyato-type ceiling cell or the distance between the laths of the slatted ceiling (Fig. 14,b and Fig. 17,b), in this case, the base 9 is made with additional bends down to center the base 9 in the center of the cell or between the rails of the rack ceiling. The luminaire is installed near the point of suspension of suspended ceiling structures, or on an independent suspension through the central suspension unit. The luminaire is balanced on the cell profile. When voltage is applied, the light source (light module) begins to emit a luminous flux. Since the light module is "recessed" in the cell, this allows the requirements for the protective angle of the light fixture to be met.

Since in all variants of the invention the bottom 7 and all sides (faces) 8 of the ceiling are made in the form of a single part from a flat billet of flexible sheet material, they can be conveniently transported, stored and stored in a stack, and during commissioning provide manufacturability and ease of pairing along fold lines of the ceiling blank, as well as in the zone of mating of the latches 3 with the base 9 of the lamp. The presence of chamfers 1 along the mating edges of the faces 8 allows them to be tightly connected when forming a three-dimensional shape of the ceiling without cracks and distortions of the edges between the faces 8. The presence and location of the grooves 5, 6 and the guide chamfers 1 on the sides parallel to the bend lines 2 provides sufficient flexibility in the mounting area of the ceiling to the base 9, which allows you to easily bend and accurately guide the latches 3 into the slots 10, without screwing, gluing and / or other connecting operations that cannot be visually reliably controlled. Thus, the proper mating of the latches 3 of the ceiling with the protrusions 11 of the base 9 is quickly and accurately performed and easily visually controlled without deformations or other damage to the ceiling.

The possibility of repeated reinstallation of the removable-slip-on cover ensures prompt replacement and/or repair of all luminaire units. All this is aimed at simplifying the design, improving manufacturability and maintainability.

Thus, in the manufacture of a luminaire in all variants of this technical solution, namely the implementation of a plafond of a volumetric light-diffusing plafond of various shapes and sizes, and its fastening elements to the luminaire base, it is achieved by simplicity of design and a minimum number of operations that do not require high qualifications, minimal production and assembly time , the minimum amount of production equipment for the technologies used, and also eliminates the cost of manufacturing special equipment (injection molds, forming devices) and environmental pollution due to the absence of glue and other chemical elements in the production process.

Claims (12)

1. A luminaire containing a volumetric light-transmitting ceiling formed by a bottom and sides configured to mate with the base of the luminaire for mounting on a false ceiling, characterized in that the ceiling is made in the form of a single piece from a blank of flexible sheet material, each side of the ceiling is made in in the form of a flat quadrangular face integral with the bottom, the perimeter of which is a polygon, on the sides of which, along the fold lines, the faces of the ceiling are located, the volume of which is formed by folding along the fold lines until the ribs close between adjacent faces, made with chamfers on the edges, and the fold lines are made in the form grooves, while at the corners of the faces on the sides parallel to the fold lines, cutouts are made, between which, along the edge of each of the faces, latches are formed to connect the ceiling with the base, each latch is made with a through longitudinal groove along the free edge of the face, on both sides of which there are see-through pop neck grooves. 2. Luminaire according to claim. 1, characterized in that the latches of the ceiling are made with the possibility of their installation in the through slots of the base, made of a stepped shape with a ledge for insertion into the through longitudinal groove of the latch when mating the ceiling with a ledge in the slot of the base. 3. The luminaire according to claim 2, characterized in that the ceiling is made of a prismatic shape from a blank of flexible sheet material from the group: light-diffusing, transparent, colored light-transmitting material. 4. A luminaire containing a volumetric light-transmitting ceiling formed by a bottom and sides made with the possibility of mating with a base for placement on a false ceiling, characterized in that the ceiling is made in the form of a single piece from a blank of flexible sheet material, each side of the ceiling is made in the form a flat quadrangular face integral with the bottom, the perimeter of which is a polygon, on the sides of which along the fold lines there are faces of the ceiling, the volume of which is formed by folding along the fold lines until the ribs close between adjacent faces, made with chamfers on the edges, and the fold lines are made in the form of grooves , while at the corners of the faces on the sides parallel to the fold lines, cutouts are made, between which, at the edges of two opposite faces, latches are formed to connect the ceiling with the base, each latch is made with a through longitudinal groove along the free edge of the face, on both sides of which there are through pop neck grooves. 5. Luminaire according to claim 4, characterized in that the lid latches are made with the possibility of their installation in the through slots of the base, made of a stepped shape with a protrusion for insertion into the through longitudinal slot of the latch when mating the plafond with the protrusion in the base slot. 6. A lamp according to claim 5, characterized in that the ceiling is made of a prismatic shape from a blank of flexible sheet material from the group: light-diffusing, transparent, colored light-transmitting material. 7. A luminaire containing a volumetric light-transmitting ceiling formed by a bottom and sides configured to mate with a base for placement on a suspended ceiling, characterized in that the ceiling is made in the form of a single piece from a blank of flexible sheet material, each side of the ceiling is made in the form a flat quadrangular face integral with the bottom, the perimeter of which is a rectangle, on the sides of which, along the fold lines, the faces of the ceiling are located, the volume of which is formed by folding along the fold lines until the ribs close between adjacent faces, made with chamfers on the edges, and the fold lines are made in the form of grooves , at the same time, cutouts are made at the corners of the faces on the sides parallel to the fold lines, between which at least two latches are formed at the edges of two long opposite faces for connecting the ceiling with the base, each latch is made with a through longitudinal groove along the free edge of the face, along both sides cat orogo made through transverse grooves. 8. Luminaire according to claim 7, characterized in that the latches of the ceiling are made with the possibility of their installation in the through slots of the base, made of a stepped shape with a ledge for insertion into the through longitudinal groove of the latch when mating the ceiling with a ledge in the slot of the base. 9. The lamp according to claim 8, characterized in that the ceiling is made of a prismatic shape from a blank of flexible sheet material from the group: light-diffusing, transparent, colored light-transmitting material. 10. A luminaire containing a volumetric light-transmitting ceiling formed by a bottom and sides configured to mate with a base for placement on a suspended ceiling, characterized in that the ceiling is made in the form of a single piece from a blank of flexible sheet material, each side of the ceiling is made in the form a flat quadrangular face integral with the bottom, the perimeter of which is a triangle, on the sides of which along the fold lines there are faces of the ceiling, the volume of which is formed by folding along the fold lines until the ribs close between adjacent faces, made with chamfers on the edges, and the fold lines are made in the form of grooves , while at the corners of the faces on the sides parallel to the fold lines, cutouts are made, between which, at least at the edges of the two faces, latches are formed to connect the ceiling with the base, each latch is made with a through longitudinal groove along the free edge of the face, on both the sides of which are made through pepper grooves. 11. Luminaire according to claim 10, characterized in that the plafond latches are made with the possibility of their installation in the through slots of the base, made of a stepped shape with a protrusion for insertion into the through longitudinal groove of the latch when mating the plafond with the protrusion in the base slot. 12. The lamp according to claim 11, characterized in that the ceiling is made of a prismatic shape from a blank of flexible sheet material from the group: light-scattering, transparent, colored light-transmitting material.

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