RU186594U1 - PROFILE WITH POSSIBILITY OF PLACING AN LED LINE - Google Patents

Abstract

The utility model relates to the field of construction and can be used as an element of the decor of the surface and holder of light-emitting devices.

The technical result of the proposed utility model is to reduce the weight of the profile, as well as increase durability and durability. The technical result is achieved in that the profile with the possibility of placing an LED ruler, including a base and two side walls having external surfaces perpendicular to the base, the width of the base is equal to the distance between the external planes of the side walls, the thickness of the side walls increases uniformly towards the end of the side wall, the inner the walls form opposite inclined planes (the profile is made mirror-symmetric with respect to the plane dividing the base in half), characterized in that between the shackle walls and the base are two mutually perpendicular ribs adjacent to each other, one of the mutually perpendicular ribs adjacent to the base, the other adjacent to the side wall.

An LED strip is installed on the site between the ribs adjacent to the base. The ends of the side walls can be rounded, and the radius of the inner part of the rounding of the end is greater than the radius of the inner part of the rounding of the end. The angle of inclination of the flat surface of the side wall may be 5-15. The angles between mutually perpendicular ribs can be rounded, the angles between the ribs adjacent to the base and the base can be rounded, the angles between the ribs adjacent to the side walls and side walls can be rounded, and the radii of rounding of the external and internal angles are equal 0.25 ± 0.1 mm.

The claimed design and technical solution can be successfully applied for the manufacture of profiles for joints between decorative panels, decorated with backlight, for example, by placing LED strips, assemblies, etc. 4 s.p. f-ly, 1 ill.

Description

The utility model relates to the field of construction and can be used as an element of the decor of the surface and holder of light-emitting devices.

The famous "Housing for LED lighting" US D698075 [1], comprising a base, side walls with a flat outer side perpendicular to the base and protrusions on the inner sides of the side walls.

The disadvantage of this device is the increased material consumption due to the presence of protrusions on the inner sides of the side walls. A disadvantage is also the low optical efficiency due to the reflection of part of the light radiation by the protrusions on the inner sides of the side walls.

The closest technical solution is the “Housing for LED lighting” US D621542 [2], which includes a base and two side walls having external surfaces perpendicular to the base, the width of the base is equal to the distance between the outer planes of the side walls, the thickness of the side walls increases uniformly towards the end side wall, inner walls form counter-inclined planes. The profile is made mirror-symmetric with respect to the plane dividing the base in half.

The device has improved characteristics of material consumption due to the absence of protrusions on the inner surfaces of the side walls. Also, the luminous efficiency is improved due to the presence of flat inclined walls reflecting the light from the LED emitters into the space between the profile walls.

The disadvantage is the increased material consumption, as well as low resistance, leading to reduced durability.

The technical result of the proposed utility model is to reduce the weight of the profile, as well as increase durability and durability.

The technical result is achieved in that the profile with the possibility of placing an LED ruler, including a base and two side walls having external surfaces perpendicular to the base, the width of the base is equal to the distance between the external planes of the side walls, the thickness of the side walls increases uniformly towards the end of the side wall, the inner the walls form opposite inclined planes, (the profile is made mirror symmetric with respect to the plane dividing the base in half), characterized in that between the shackle walls and the base are two mutually perpendicular ribs adjacent to each other, one of the mutually perpendicular ribs adjacent to the base, the other adjacent to the side wall.

Through the minimum distance between the upper parts of the side walls, the LED strip or ruler moves inside the profile, so this distance should be slightly larger than the width of the LED strip. An LED strip (usually self-adhesive) is installed on the site between the ribs adjacent to the base, and in order to achieve uniform light emission along the length of the profile, the tape must be installed without distortions. When performing the width of the site close to the width of the installed tape, the installation occurs without distortions. Thus, for better installation of the LED strip, the distance of the inner part of the profile between the ribs adjacent to the base can be less than the minimum internal distance between the upper parts of the side walls, which will allow you to install the LED strip without bending and skewing.

The ends of the side walls can be rounded, and the radius of the inner part of the rounding of the end is greater than the radius of the inner part of the rounding of the end. The rounding of the walls will make it possible to more evenly distribute the mechanical forces from the insert and increase the contact area of the ends of the side walls and the surface of the insert mating with them, which increases the strength and resistance to mechanical stresses of the product as a whole.

The angle of inclination of the flat surface of the side wall may be 5-15. By decreasing the indicated angle of less than 5 degrees, the strength of the profile decreases, since the contact area of the strong profile with the weaker insert decreases and the destruction of the insert occurs with less effort. When the angle of 15 degrees is exceeded, an unacceptable decrease in light efficiency occurs, since the clearance between the inner surfaces of the side walls becomes small and a significant part of the radiation is absorbed and does not go to the outside of the profile.

The angles between the mutually perpendicular ribs can be rounded, the angles between the ribs adjacent to the base and the base can be rounded, the angles between the ribs adjacent to the side walls and side walls can be rounded, and the radii of the roundings of the outer and inner corners are 0.25+ -0.1 mm. The implementation of the angles between the structural elements with fillets will further reduce mechanical stresses in the corners, reduce the likelihood of a break and will lead to greater stability and durability of the profile.

The profile with the possibility of placing the LED strip is shown in FIG. (cross section of the profile), where:

1 - base;

2 - the outer plane of the side wall;

3 - rib adjacent to the base;

4 - rib adjacent to the side wall;

5 - inclined plane.

The device operates as follows: The profile is mirror symmetric with respect to the plane passing along the main direction of the profile, perpendicular to the base, through the center of the base. Between the flat base 1 and the side walls, the outer surface of which is marked 2, the inner inclined surface of the wall is marked 5, there are two mutually perpendicular ribs adjacent to each other, one of the mutually perpendicular ribs 3 is adjacent to the base, the other 4 is adjacent to the side wall.

The technical result is a reduction in material consumption and, accordingly, profile weight is achieved by the fact that two ribs adjacent to each other have less material consumption compared to a continuous step while maintaining the same mechanical strength.

Industrial applicability. The claimed design and technical solution can be successfully applied for the manufacture of profiles for joints between decorative panels, decorated with backlight, for example, by placing LED strips, assemblies, etc.

Claims (5)

1. A profile with the possibility of placing an LED ruler, including a base and two side walls having external surfaces perpendicular to the base, the width of the base equal to the distance between the outer planes of the side walls, the thickness of the side walls increases uniformly towards the side of the side wall, the inner walls form counter-inclined plane, characterized in that between the side walls and the base there are two mutually perpendicular ribs adjacent to each other, one of which is mutually perpendicular x ribs adjacent to the base, adjacent the other side wall. 2. The profile according to claim 1, characterized in that the distance of the inner part of the profile between the ribs adjacent to the base is less than the minimum distance between the upper parts of the side walls. 3. The profile according to claim 1, characterized in that the ends of the side walls are rounded, and the radius of the inner part of the rounding of the end is greater than the radius of the inner part of the rounding of the end. 4. The profile according to claim 1, characterized in that the angle of inclination of the flat surface of the side wall is 5-15 ° relative to the outer side of the side walls. 5. The profile according to claim 1, characterized in that the angles between mutually perpendicular ribs are made with rounding, the angles between the ribs adjacent to the base and the base are made with rounding, the angles between the ribs adjacent to the side walls and side walls are made with rounding moreover, the radii of rounding of the external and internal angles are 0.25 ± 0.1 mm.

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