RU161017U1 - LED CEILING LIGHT - Google Patents

Abstract

1. LED ceiling lamp comprising a housing, a diffuser made of translucent material and LED strips evenly placed on the rear wall of the housing, mounted in the housing by fasteners, characterized in that the housing is made of plastic by thermo-vacuum molding with stiffeners, while the LED ranges are arranged in line of ribs, and the diffuser is attached to the body by means of a plastic rivet screw. 2. The LED ceiling lamp according to claim 1, characterized in that recesses for applying sealant are made along the perimeter of the housing. 3. The LED ceiling lamp according to claim 1, characterized in that the stiffeners are parallel to each other and / or intersecting with each other.

Description

The utility model relates to the field of lighting, in particular to lighting devices based on LEDs and can be used for indoor lighting.

Known LED recessed lamp containing a housing, a diffuser made of translucent material, LEDs located inside the housing, mounted on a printed circuit board, which is attached to the housing with fasteners (patent for utility model of the Russian Federation No. 120483).

However, the disadvantage of this lamp is the large weight, the complexity of its design, material consumption and laboriousness in the manufacture and assembly of the lamp.

The closest technical solution chosen as a prototype is an LED ceiling lamp containing a housing, a diffuser made of translucent material and LED lines evenly placed on the rear wall of the housing, fixed in the housing with fasteners (patent for utility model of the Russian Federation No. 87598).

The disadvantage of this lamp is also the large weight, the complexity of the design and the complexity of its manufacture and assembly. Another disadvantage of these fixtures is the use of metal for the manufacture of the housing of the lamp. In this case, the problem arises due to different coefficients of linear thermal expansion of materials. The values of the linear thermal expansion coefficients of plastics and metal can vary several times. When the lamp is in operation, the housing and diffuser heat up, which leads to the expansion of materials. Materials with very different linear thermal expansion coefficients will have different dimensional changes. For this reason, elevated mechanical stresses and deformations occur at metal-plastic joints, which can lead to destruction of joints.

The objective of the proposed technical solution is to increase the reliability of the lamp, simplify its design and its constituent parts, as well as reduce the cost of the product by reducing weight, material consumption and laboriousness in the manufacture, installation and maintenance of the lamp.

The problem is solved in that in an LED ceiling lamp containing a housing, a diffuser made of translucent material and LED lines evenly placed on the rear wall of the housing, fixed in the housing by fasteners, according to a utility model, the housing is made of plastic by thermal vacuum molding with stiffeners, This LED line is located along the line of the ribs, and the diffuser is attached to the housing by means of a plastic rivet screw. Along the perimeter of the body are made recesses for applying sealant. The ribs are parallel to each other and / or intersecting with each other.

The claimed design of the utility model is shown in FIG. 1, the attachment assembly of FIG. 2 and the plastic case of FIG. 3.

The design of the LED ceiling lamp contains a plastic housing 1, a diffuser made of translucent material 2, plastic rivet screws 3, LED rulers 4, clips (or blind rivets) 5, a LED power supply 6, stiffeners 7, recesses for applying sealant 8.

The manufacture of a housing made of impact-resistant plastic (for example, ABS, polystyrene, polyethylene, PMMA, coextruded composite plastics, etc.) by thermal vacuum molding reduces the weight of the luminaire and eliminates the cost of cutting, cutting, bending metal sheets, welding, and cleaning from the manufacturing process and body painting. Through the use of plastic, the potential damage to the environment is reduced, since all waste, body parts and the diffuser are recycled. Also, plastic, unlike metal products, is not subject to corrosion. The design of the housing (the presence of a recess in the contour) allows you to apply sealing compounds, or a sealing cord, or profile to provide increased dust and moisture protection. The use of plastic rivet screws for attaching the diffuser to the housing facilitates access to electrical components for replacement or maintenance.

The body stiffeners protect the luminaire from linear deformation and mechanical stress. Their use can improve reliability, reduce the weight of the lamp without compromising its strength. The stamped grooves of the stiffeners also serve for fastening LED rulers, giving it additional strength.

The case is made with the possibility of installing in the cells of the suspended ceiling without additional fasteners, as well as for wall and wall mounting using various types of dowels and self-drilling screws. Thus, the design of the proposed LED ceiling lamp allows to simplify and reduce the cost of its manufacture, reduce the weight of the lamp by 2 times, while increasing reliability and increasing electrical safety (the plastic case does not conduct electric current).

Claims (3)

1. LED ceiling lamp comprising a housing, a diffuser made of translucent material and LED strips evenly placed on the rear wall of the housing, mounted in the housing by fasteners, characterized in that the housing is made of plastic by thermo-vacuum molding with stiffeners, while the LED ranges are arranged in line of ribs, and the diffuser is attached to the body by means of a plastic rivet screw. 2. LED ceiling lamp according to claim 1, characterized in that along the perimeter of the housing are made recesses for applying sealant. 3. LED ceiling lamp according to claim 1, characterized in that the stiffeners are parallel to each other and / or intersecting with each other.

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