RU148024U1 - LED LAMP - Google Patents

Abstract

1. LED lamp, comprising a housing, in the seat of which is installed a round multi-lens with single lenses, a printed circuit board with LEDs, while a round multi-lens is installed with the possibility of rotation around a geometric axis in the landing plane of the housing and changing the angle of radiation of the light flux, characterized in that a fixing element is inserted into it, and grooves are made at the end of the round multi-lens, the number of grooves being selected based on the required step of increasing the radiation angle of the light flux to cooperate with a locking elementom.2. The lamp according to claim 1, characterized in that the single lenses are located in a circular multi-lens on concentric circles. 3. A luminaire according to claim 1, characterized in that a round multi-lens is installed in the luminaire, in which the initial radiation angle of single lenses is chosen equal to the minimum value of the required radiation angle of the light flux, and their optical axis coincides with the optical axis of the LEDs. The lamp according to claim 1, characterized in that the multi-lens is made with a transparent outer surface.

Description

The utility model relates to lighting technology, namely, devices for industrial and street lighting, allowing you to change the angle of radiation in accordance with the required suspension height and level of illumination.

The famous LED lamp AtomSvet @ Plant (www.atom-svet.ru/catalog/1) with a rectangular multi-lens.

The disadvantage of this luminaire is that it has a fixed radiation angle and contains a rectangular multi-lens that does not allow it to rotate not a certain angle around the geometric axis in the landing plane. When changing the height of the suspension there is no possibility of changing the axial illumination of the working surface in accordance with its required level.

A well-known industrial LED lamp for a high suspension DSP 02-135-50 (www.fereks.ru), in the models of which it is established, one of the angles of radiation of the light flux equal to 15, 40, 60 and 120 °, by changing the type of round multi-lens.

The disadvantages of the known fixture are the need to change the type of multi-lens when establishing a new radiation angle and the need for a large set of multi-lenses to change its radiation angle, especially with a small step equal to 10-15 °. In addition, the disadvantage of the known lamp is that it uses a multi-lens with a semi-matt outer surface, and the lenses located in it form regular polygons.

The prototype of the utility model is a LED lamp (patent RU No. 2509 952 C2, IPC F21S 8/00, 03/20/14), comprising a housing with a printed circuit board with LEDs fixed therein, a primary optical system and a secondary optical system, characterized in that the LEDs on the printed circuit board form several separate segments on which the primary optical system is directly mounted, and above it is located the secondary optical system containing mullins segments and installed with the possibility of its radial movement relative respect to the lamp axis.

The disadvantage used in the prototype optical-mechanical system is the following:

1. A complex optical-mechanical system is used to rotate the secondary optical system and form the required angle of radiation of the luminaire, while the secondary optics consists of 3 groups of lenses, each of which contains 3 segments of multi-lenses, providing no more than 3 light intensity curves (CCR) .

2. To ensure a larger quantity than 3 KSS, with a larger, smaller or intermediate value of the angle of radiation, it is necessary to change the optical-mechanical system of the lamp.

3. The LEDs on the PCB segments and the lenses in the multi-lens segments are staggered, which does not allow to increase the angle of emission of the luminous flux of the lamp due to the defocusing of the optical system.

4. As the angle of radiation of the light flux decreases, due to the presence of the primary optical system, it becomes more difficult to ensure high coaxiality of the LED, primary and secondary optical systems.

5. Position labels are used only for combining the optical axes of LEDs, primary and secondary optical systems when changing lens segments of secondary optics, and not to ensure the defocusing of the optical system of the lamp.

6. The use of a secondary optical system of 3 groups of lenses, each of which consists of 3 types of segmented multi-lenses with different optical characteristics, complicates the technology of its manufacture, reduces the light efficiency of its aperture and leads to greater glare.

7. With a segmented arrangement of LEDs on the board, the heat sink efficiency from the LEDs decreases due to a decrease in the utilization of the area of the printed circuit board.

The objective of the utility model is to simplify the optical-mechanical system of the luminaire and to provide a change in the angle of radiation of the luminaire with the required step by defocusing the secondary optics.

The technical result is achieved by the fact that the LED lamp contains a housing, in the seat of which is installed a round multi-lens with single lenses, a printed circuit board with LEDs, while a round multi-lens is installed with the possibility of rotation around a geometric axis in the landing plane of the housing and changing the angle of light emission of the flow, according to the present utility model, a fixing element is introduced, and grooves are made at the end of the circular multi-lens, while the number of grooves is selected based on the required step of increasing the angle of radiation of the light flux with the possibility of interaction with the fixing element, single lenses are located in a circular multi-lens on concentric circles, the multi-lens is made with a transparent outer surface.

Thus, fixing the angle of rotation of the multi-lens with a transparent outer surface is ensured by the use of a fixing element-pin at the base of the seat included in one of the grooves of the end face of the multi-lens, selected in accordance with the desired angle of radiation of the lamp. The luminous flux provided by the lamp with a multi-lens during its defocusing is maintained at the same level. To increase the intercenter distance between the lenses, they are located on a multi-lens around the circumference.

In the proposed utility model, as the optical system of the luminaire is defocused, on the one hand, the fraction of the light flux passing through each multi-lens lens decreases and the loss of light flux decreases, and on the other hand, the loss of the light flux passing by the multi-lens increases slightly. In this case, the mutual compensation of two processes occurs, which ensures the constancy of the total

The utility model is illustrated by drawings (Fig. 1-6).

In FIG. 1 shows the proposed lamp with a round multi-lens in its original position (with a focused light flux).

In FIG. 2 shows a section of the lamp along line AA in FIG. one.

In FIG. 3 shows a light intensity curve of a luminous lamp with a focused light flux;

In FIG. 4 shows a luminaire with a round multi-lens rotated by a certain angle relative to its original position (with a defocused light flux).

In FIG. 5 shows a section of the lamp along the line BB in FIG. four.

In FIG. Figure 6 shows the luminous intensity curve of a lamp with a defocused luminous flux.

In the drawings, the numbers indicate:

1 - housing

2 - seat

3 - round multi-lens,

4 - single lens

5 - printed circuit board

6 - LED

7 - washer,

8 - screw for attaching a multi-lens,

9 - locking element - pin,

10 - groove

11 - concentric circle.

The LED lamp contains a housing 1, in the seat 2 of which is installed a round multi lens 3 with single lenses 4, a printed circuit board 5 with LEDs 6. A round multi lens with the required initial minimum angle of radiation of the light flux is fixed to the housing 1 with a washer 7 using screws 8, while round multi-lens 3 is installed with the possibility of rotation around the geometric axis in the landing plane of the housing 1 to change the angle of radiation of the light flux.

The difference of the proposed LED lamp is that a locking element 9 is inserted into it (a pin for fixing the multi-lens 3 in the desired position), and at the end of the multi-lens 3 grooves 10 are made with the possibility of interaction with the locking element 9, while the number of grooves 10 made at the end a round multi-lens 3, selected based on the required step of increasing the angle of radiation of the light flux, a round multi-lens 3 is installed in the LED lamp, in which the radiation angle of single lenses 4 is chosen equal to the minimum value the desired angle of radiation of the light flux, and their optical axis in the initial state coincides with the optical axis of the LEDs 6, single lenses 4 are located in a circular multi lens 3 on concentric circles 11, and the multi lens 3 is made with a transparent outer surface.

Thus, to ensure the required angle of radiation of the light flux at the seat of the housing 1 of the lamp there is a fixing element-pin 9, and at the end of the circular multi lens 3 there are a number of grooves 10, selected in accordance with the desired angle of radiation, to fix the position of the multi lens.

LED lamp works as follows.

If it is necessary to increase the angle of radiation of the light flux by defocusing the optical system of the lamp, a round multi-lens 3 containing single lenses 4 with the same characteristics is lifted, it is rotated around the geometric axis by a certain angle in accordance with the required level of increase in the radiation angle, and installed in the landing plane, achieving alignment the required groove 10 of the multi-lens 3 with the fixing pin 9.

Thus, the proposed design of the LED lamp allows to simplify the optical-mechanical system of the lamp and to provide a change in the angle of emission of the lamp with the required step in a wide range due to the defocusing of the secondary optics without additional replacement of its optical-mechanical system.

Claims (4)

1. LED lamp, comprising a housing, in the seat of which is installed a round multi-lens with single lenses, a printed circuit board with LEDs, while a round multi-lens is installed with the possibility of rotation around a geometric axis in the landing plane of the housing and changing the angle of radiation of the light flux, characterized in that a fixing element is inserted into it, and grooves are made at the end of the circular multi-lens, and the number of grooves is selected based on the required step of increasing the radiation angle of the light flux to engage the locking element. 2. The lamp according to claim 1, characterized in that the single lenses are located in a circular multi-lens on concentric circles. 3. The lamp according to claim 1, characterized in that the lamp has a round multi-lens, in which the initial radiation angle of single lenses is chosen equal to the minimum value of the required radiation angle of the light flux, and their optical axis coincides with the optical axis of the LEDs. 4. The lamp according to claim 1, characterized in that the multi-lens is made with a transparent outer surface.

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