RU59207U1 - UNDERWATER LIGHT - Google Patents

Abstract

The inventive utility model relates to the field of lighting, namely, to create underwater lighting of fountains, in pools and decorative effects in the design of the interior and landscape.

The purpose of creating a utility model is to increase operational characteristics, increase service life and reduce energy consumption.

The underwater lamp contains a sealed housing, a light source located in it, fixed in the holder, the housing is made of transparent elastic material, a connecting sleeve connected to the housing and to the power cord at the point of contact, the housing is cylindrical in shape with a bottom in the center of the bottom the housing has a protrusion of the mating attachment part of the matrix, the internal thread is made in the protrusion, the internal recess is made in the housing, the housing is made of metal, for example, bronze, at the upper end of the housing you holes for fasteners are filled, a groove for a sealing element is made on the upper end of the case, a hole for a cable sleeve is made on the side of the case, the cover is made in the form of a disk, the cover is made of polymethylmethacrylate, the holes are made on the cover for fasteners, for example, LED the matrix is located in the inner recess of the lower part of the housing, a through central hole is made on the matrix, the matrix is bolted in the center to the counterpart at the bottom orpusa on the lower side of the matrix has elements liner supply, the sealing elements are in the form of rubber rings, the sealing elements are arranged in the recess of the lower housing. The housing is made integral with the bottom. The cover is made with a groove. The cover is made of plastic, coated, coated with acrylic dye, coated with latex. Fasteners are made in the form of screws or bolts. The fasteners are made in the form of screws with a cross slot, with a hexagonal slot, with a slot with an asterisk, with a triple slot, with a square slot, with a slot with an asterisk and a central mounting hole, countersunk screws. The eyeliner elements are made in the form of a terminal block, in the form of a quick-clamp connection, are soldered by welding, made self-clamping, screw. Sealing elements are placed in the groove of the cover. Sealing elements are made of silicone, of paronite, of latex.

According to Option 2, the underwater lamp contains a sealed housing, the light source located in it, mounted in the holder, the housing is made of transparent elastic material, a connecting sleeve connected to the housing and to the power cord at the point of contact, the mounting elements on the wall are made on the housing pool. The fastening elements are made in the form of a bracket, in the form of an anchor connection, in the form of a magnetic pair.

According to Option 3, the Luminaire contains a sealed housing, the light source located in it, fixed in the holder, the housing is made of transparent elastic material, a connecting sleeve connected to the housing and the power cord at the point of contact, while the housing is made of polymer material, the housing completed

with a weighting agent, the inner volume of the lid is many times greater than the volume of the body, the lid is made curly, for example, an abstract shape

The use of the utility model showed an increase in the quality and directivity in the illumination of the object, the possibility of using it for underwater placement of the lamp in fountains and pools and floating decorative decoration of the landscape. The use of various screws or bolts with a cross slot, with a hexagonal slot, with a slot with an asterisk, with a triple slot, with a square slot, with a slot with an asterisk and a central mounting hole, with a countersunk head, allows creating an anti-vandal design. The use of diode light sources allows to reduce electricity consumption and increase the service life, and small dimensions reduce the size of fittings. Reduced heat transfer compared to other light sources simplifies the design

The inventive utility model is developed and industrially produced by the YALTA Limited Liability Company, St. Petersburg, Russia

Description

The inventive utility model relates to the field of lighting, namely, to underwater illumination of fountains, in pools and to create decorative effects in the design of the interior and landscape.

The solution is known according to patent No. 215858 from 1994.10.12, RU, F 21 V 31/00, a small-sized underwater lamp containing a sealed housing, a reflector located in the housing, a fixed halogen lamp, a heat-resistant window made of a leucosapphire plate.

The advantage is the simplicity of the design.

However, the design does not provide a directed beam of light, and the cost of leucosapphire increases the price of the object

The solution is known according to the application No. 2001104061 dated 2001.02.12, RU, F 21 V 31/00, an underwater lamp containing a sealed housing, a light source located therein, fixed in a holder, the housing is made of transparent resilient material, and the holder is interconnected two plastic parts, one of them has a connecting sleeve connected to the housing, and a wire for electric power supply is laid in the place of their contact, while the housing, the sleeve and the holder part are interconnected using glue, which is used as lzovan solvent for resins. A fluorescent lamp was used as a light source.

The advantage of design is simplicity of design

However, the use of fluorescent lamps as a light source does not create a directional beam of light, but scattered light, which causes an increase in the power or number of lamps.

The purpose of creating a utility model is to increase operational characteristics, increase service life and reduce energy consumption.

The goal is achieved as follows. The underwater lamp contains a sealed housing, a light source located in it, fixed in the holder, the housing is made of transparent elastic material, a connecting sleeve connected to the housing and to the power cord at the point of contact, the housing is made of a cylindrical shape with a bottom in the center of the bottom of the housing a protrusion of the mating attachment part of the matrix is made, an internal thread is made in the protrusion, an internal recess is made in the housing, the housing is made of metal, for example, bronze, at the upper end of the housing holes for fasteners are made, a groove for a sealing element is made on the upper end of the case, an opening for a cable sleeve is made on the side surface of the case, the cover is made in the form of a disk, the cover is made of polymethyl methacrylate, holes for fasteners are made on the cover, for example, LED matrix, located in the inner recess of the lower part of the housing,

a through central hole is made on the matrix, the matrix is bolted in the center to the counterpart at the bottom of the housing, power supply elements are placed on the bottom of the matrix board, the sealing elements are made in the form of rubber rings, the sealing elements are placed in the groove of the housing. The housing is made integral with the bottom. The cover is made with a groove. The cover is made of plastic, made with a coating, the coating is made with acrylic dye, the coating is made with latex. Fasteners are made in the form of screws or bolts. Fasteners are made in the form of screws with a cross slot, with a hexagonal slot, with a spline with an asterisk, with a triple slot, with a square slot, with a slot with an asterisk and a central mounting hole, with a countersunk head. The elements of the connection are made in the form of a terminal block, in the form of a quick-clamp connection, are connected by soldering, made self-clamping, made screw. Sealing elements are placed in the groove of the cover. Sealing elements are made of silicone, of paronite, of latex.

According to Option 2, the underwater lamp contains a sealed housing, the light source located in it, mounted in the holder, the housing is made of transparent elastic material, a connecting sleeve connected to the housing and to the power cord at the point of contact, the mounting elements on the wall are made on the housing pool. The fastening elements are made in the form of a bracket, in the form of an anchor connection, in the form of a magnetic pair.

According to Option 3, the Luminaire contains a sealed housing, a light source located in it, fixed in the holder, the housing is made of transparent elastic material, a connecting sleeve connected to the housing and the power cord at the point of contact, the housing is made of polymer material, the housing is made with a weighting agent, the inner volume of the lid is many times greater than the volume of the body, the lid is made curly, for example, an abstract shape

In the drawings

Figure 1 - General view of option 1, where

1 - cover, 2 - case,

3 - LED matrix

4 - elements of the liner matrix

5 - internal recess in the housing,

6 - fasteners,

7 - cable box,

8 - the Central hole in the matrix,

9 - protrusion of the mating part at the bottom of the housing,

10 - sealing element,

11 - groove for the sealing element,

Figure 2 - General view, option 2, where

1 - cover

2 - housing

3 - LED matrix

4 - elements of the liner matrix

5 - internal recess in the housing,

6 - fasteners,

7 - cable box,

8 - the Central hole in the matrix,

9 - protrusion of the mating part at the bottom of the housing,

10 - sealing element,

11 - groove for the sealing element,

12 - fastening elements to the pool wall.

Figure 3 - General view, option 3

1 - cover

2 - housing

3 - LED matrix

4 - elements of the liner matrix

5 - internal recess in the housing,

6 - fasteners,

7 - cable box,

8 - the Central hole in the matrix,

9 - protrusion of the mating part at the bottom of the housing,

10 - sealing element,

11 - groove for the sealing element,

The essence of the utility model is as follows.

In Fig. 1, the lid 1 is made in the form of a disk of polymethyl methacrylate and, through openings for fasteners 6, is connected to a housing 2 made of metal, for example, bronze. The LED matrix 3 is placed in the inner recess 5 of the housing 2 and through the hole 8 in the center of the matrix is connected to the counterpart at the bottom of the housing 9. At the bottom of the housing there is a protrusion of the counterpart 9 with an internal thread for bolting to the matrix 2. Elements are placed on the bottom side of the matrix inlet 4. A groove 11 is made in the housing for accommodating the sealing element 10. A cable sleeve 7 with a connecting cable is connected to the side opening of the housing.

In figure 2, the cover 1 is made of polymethylmethacrylate and through holes for fasteners 6 is connected to the housing 2 made of metal. The LED matrix 3 is placed in the inner recess 5 of the housing 2 and through the hole 8 in the center of the matrix is connected to the counterpart at the bottom of the housing 9. At the bottom of the housing there is a protrusion of the counterpart 9 with an internal thread for bolting to the matrix 2. Elements are placed on the bottom side of the matrix inlet 4. A groove 11 is made in the housing for accommodating the sealing element 10. A cable sleeve 7 with a connecting cable is connected to the side opening of the housing. On the body there are fasteners to the pool wall 12.

In Fig. 3, 1 cover 1 is made of polymethylmethacrylate and, through openings for fasteners 6, is connected to a housing 2 made, for example, of metal. The LED matrix 3 is placed in the internal recess 5 of the housing 2 and is connected through a hole 8 in the center of the board to the counterpart at the bottom of the chassis 9. At the bottom of the chassis, a protrusion of the counterpart 9 is made with an internal thread for bolting to the matrix 2. Elements are located on the bottom side of the matrix inlet 4. A groove 11 is made in the housing for accommodating the sealing element 10. A cable sleeve 7 with a connecting cable is connected to the side opening of the housing. Cover 1 is made in the form of an abstract figure.

The use of the utility model showed an increase in the quality and directivity in the illumination of the object, the possibility of using underwater placement of the lamp in fountains and pools and floating decorative decoration of the landscape. The use of various screws with a cross slot, with a hexagonal slot, with a slot with an asterisk, with a triple slot, with a square slot, with a slot with an asterisk and a central fixing hole, with a countersunk head, allows creating an anti-vandal design.

The inventive utility model is developed and industrially produced by the YALTA Limited Liability Company, St. Petersburg, Russia

Claims (32)

1. An underwater lamp comprising a sealed housing, a light source located therein, a connecting sleeve connected to the housing and to the power cord at the point of contact, characterized in that the housing is cylindrical in shape with a bottom, the light source is made in the form of an LED matrix, the center of the bottom of the housing has a protrusion of the counterpart of the mounting of the LED matrix board, an internal thread is made in the protrusion of the mate, an internal recess is made in the housing, holes are made at the upper end for fasteners, a groove for the sealing element is made on the upper end of the case, a hole for the cable sleeve is made on the side surface of the case, the cover is made of polymethyl methacrylate in the form of a disk, holes for fasteners are made on the cover, the LED matrix is placed in the internal recess of the case, on the LED a through-hole central hole is made, the LED matrix is bolted in the center to the counterpart on the bottom of the housing, on the underside of the LED matrix the power supply elements are placed, the sealing elements are made in the form of rubber rings and placed in the groove of the lower part of the housing. 2. Underwater lamp according to claim 1, characterized in that the housing is made of a transparent elastic material. 3. Underwater lamp according to claim 1, characterized in that the housing is made, for example, of bronze. 4. Underwater lamp according to claim 1, characterized in that the housing is made integral with the bottom. 5. Underwater lamp according to claim 1, characterized in that the cover is made with a groove. 6. Underwater lamp according to any one of paragraphs.1 and 5, characterized in that the cover is made with a coating. 7. Underwater lamp according to any one of claims 1 and 6, characterized in that the cover is made of acrylic dye. 8. Underwater lamp according to any one of paragraphs.1 and 6, characterized in that the cover is made of latex. 9. Underwater lamp according to claim 1, characterized in that the fasteners are made in the form of screws or bolts. 10. Underwater lamp according to any one of paragraphs.1 and 9, characterized in that the fasteners are made in the form of screws with a cross slot. 11. Underwater lamp according to any one of paragraphs.1 and 9, characterized in that the fasteners are made in the form of screws with hexagonal slots. 12. Underwater lamp according to any one of claims 1 and 9, characterized in that the fasteners are made in the form of screws with an asterisk slot. 13. Underwater lamp according to any one of claims 1 and 9, characterized in that the fasteners are made in the form of screws with a triple slot. 14. Underwater lamp according to any one of claims 1 and 9, characterized in that the fasteners are made in the form of screws with a square slot. 15. Underwater lamp according to any one of paragraphs.1 and 9, characterized in that the fasteners are made in the form of screws with a slot with an asterisk and a central mounting hole. 16. Underwater lamp according to any one of claims 1 and 9, characterized in that the fasteners are made in the form of countersunk screws. 17. Underwater lamp according to claim 1, characterized in that the elements of the eyeliner are made in the form of a terminal block. 18. Underwater lamp according to claim 1, characterized in that the elements of the eyeliner are made in the form of quick-clamp connection. 19. Underwater lamp according to claim 1, characterized in that the elements of the eyeliner are connected by soldering-welding. 20. Underwater lamp according to claim 1, characterized in that the eyeliner elements are self-locking. 21. Underwater lamp according to claim 1, characterized in that the eyeliner elements are made screw. 22. Underwater lamp according to claim 1, characterized in that the sealing elements are made in the groove of the cover. 23. Underwater lamp according to any one of paragraphs.1 and 22, characterized in that the sealing elements are made of silicone. 24. Underwater lamp according to any one of paragraphs.1 and 22, characterized in that the sealing elements are made of paronite. 25. Underwater lamp according to any one of paragraphs.1 and 22, characterized in that the sealing elements are made of latex. 26. Underwater lamp according to claim 1, characterized in that on the housing there are fastening elements in the pool wall. 27. Underwater lamp according to any one of paragraphs.1 and 26, characterized in that the fastening elements are made in the form of a bracket. 28. Underwater lamp according to any one of paragraphs.1 and 26, characterized in that the fastening elements are made in the form of an anchor connection. 29. Underwater lamp according to any one of claims 1 and 26, characterized in that the fastening elements are made in the form of a magnetic pair. 30. Underwater lamp according to claim 1, characterized in that the housing is made of a polymeric material. 31. Underwater lamp according to claim 1, characterized in that the housing is made with a weighting agent. 32. The underwater lamp according to claim 1, characterized in that the internal volume of the cover is made many times greater than the volume of the housing, and the cover is made curly, for example an abstract shape.