RU194738U1 - SURGICAL LIGHTING CONTROL LIGHT - Google Patents

Abstract

The utility model relates to medical equipment, namely to surgical examination lamps based on LEDs with light emission control. The objective of the proposed technical solution is to simplify the manufacturing technology of the lamp while increasing its reliability by using flat aluminum boards that simplify the installation of LEDs on the board and provide heat removal in the lamp. This problem is solved due to the fact that in a surgical lamp with control of light radiation containing primary and secondary LEDs dispersed over its surface and combined into groups of primary and groups of additional LEDs, and a light field regulation device, wherein groups of primary LEDs and groups of additional LEDs are connected to each other and to a light field regulation device, the main LEDs are fixed on the aluminum flat board of the lamp, the optical axis of the main LEDs are parallel to the axis of the lamp and are evenly spaced around the main LEDs coincide with the focal point of the reflector, while the reflectors are asymmetric so that their optical axes intersect the optical axis of the lamp at a distance that determines the working area of the lamp, the area of the working light spot, additional LEDs are mounted on an additional aluminum flat plate, and their optical axes are directed parallel to the axis of the lamp. 4 ill.

Description

The utility model relates to medical equipment, namely to surgical examination lights using LEDs with light emission control.

The well-known "Surgical wide-angle lamp" (see RF patent for the invention No. 2415657, IPC A61F 9/007, z. 31.10.2006, opt. 04/10/2011), containing optical fiber made with the possibility of optical connection with the light source and receiving light a beam from a light source and transmitting a light beam to illuminate an area of a surgical site; a handle operably connected to the optical fiber; an optical element configured to receive a light beam and scatter a light beam to illuminate an area of a surgical site, wherein the optical element comprises a composite parabolic concentrator cone; and a cannula operatively connected to the handle for accommodating and guiding the optical fiber and the optical element.

A disadvantage of the known lamp is the complex manufacturing technology

The closest in technical essence to the claimed technical solution is "Surgical lamp with light emission control" (see patent for the invention of the Russian Federation No. 2413475, IPC АВВ 19/00, z. 24.01.2006), containing the main and additional LEDs mounted on the lamp housing dispersed over its surface and combined into groups of primary and groups of additional LEDs, and a light field control device, moreover, groups of primary LEDs and groups of additional LEDs are connected between and with a device for controlling the light field, the main LED lamp fixed to the housing with the intersection of the optical axes with the axis of the lamp in the center of the light spot, and additional LEDs mounted on the housing with their optical axes form a concentric light spot in the shape of a ring around the basic spot.

A disadvantage of the known luminaire is the complicated manufacturing technology, which is determined by the need to regulate each LED when attaching to the lamp housing.

The objective of the proposed technical solution is to simplify the manufacturing technology of the lamp while increasing its reliability, through the use of flat boards to simplify the installation of LEDs on the board.

This problem is solved due to the fact that in a surgical lamp with control of light radiation, containing the main and additional LEDs dispersed along its surface and combined into groups of main and groups of additional LEDs, and a light field control device, moreover, groups of main LEDs and groups of additional LEDs are interconnected and with the light field regulation device,

the main LEDs are mounted on the flat plate of the luminaire, the optical axis of the main LEDs are parallel to the axis of the luminaire and are evenly spaced around the circle, the emission points of each of the main LEDs coincide with the focal point of the corresponding reflector, while the reflectors are asymmetric so that their optical axes intersect the optical axis of the lamp at the distance that determines the working area of the lamp, additional LEDs are mounted on an additional flat board, and their optically e axis are directed parallel to the axis of the lamp.

- Performing an asymmetric reflector surface of the reflector allows when installing the reflector on the board to direct its optical axis at an angle to the main optical axis, ensuring intersection with it within the working area of the lamp, which allows the use of flat boards to install LEDs on them. For powerful lighting LEDs, the radiation is concentrated within a solid angle of 180 °, while the direction of the maximum radiation coincides with the axis perpendicular to the surface of the emitting crystal of the LED.

- the installation of LEDs on a flat board simplifies the manufacturing technology of the lamp;

In FIG. 1 is a schematic illustration of a surgical lamp with light emission control in accordance with the present invention, an arrangement of primary and secondary LEDs on a surgical lamp.

In FIG. 2 shows the course of light rays in the lamp.

In FIG. 3 - shows a device for adjusting the light field of a surgical lamp.

In FIG. 4 shows the installation of an asymmetric reflector.

The lamp contains:

1. Case

2. The main fee

3. Reflector (reflector) asymmetric.

4. The main LED

5. Additional fee

6. Additional LED with lens

7. Cap

8. The handle is sterilized

9. The main optical axis of the lamp

10. The optical axis of the reflector

11. The optical axis of the main diode

12. The path of the rays from the main diode

13. Optical axis of additional diodes

14. The working area of the lamp.

The main 4 and additional 6 LEDs are attached to the housing 1 of the lamp, combined in groups.

The main 2 and additional 5 flat boards are attached to the housing 1, on which the main 4 and additional LEDs 6 are installed, respectively, combined into groups of main 4 and groups of additional 6 LEDs, and a device for regulating the working area of the lamp (microcontroller 16, not shown shown), also mounted on flat boards. The main LEDs 4 are mounted on the main flat board 2 of the luminaire in such a way that their optical axes 11 are parallel to the axis 9 of the luminaire and are evenly spaced around the circumference. The light radiation from the main LEDs 4 is directed towards the reflector 3. The emission points of the main LEDs 4 coincide with the focal point of the reflector 3. In this case, the reflectors 3 are asymmetric and turned towards the optical axis 9 of the lamp, forming an angle d between the axis 9 of the lamp and axis 10 °, so that the optical axis of the reflectors 3 intersect the main optical axis 9 of the lamp at a distance that determines the working area of the lamp 14.

The luminous flux from the group of main LEDs 4, reflected from the reflector 3, has the form of a diverging light beam with an opening angle of 6 °. In this case, the reflectors 3, deployed in the direction of the optical axis 9 of the lamp so that the axis of the reflectors 3, intersecting the optical axis of the lamp 9, forms its working area 14.

The luminous flux from the group of additional LEDs 6 also has a diverging luminous flux with an opening angle of 10 °.

In the working area of the lamp, light flows from the main and additional groups of LEDs are superimposed.

Having the ability to control the light fluxes from the groups of main LEDs 4 and from the group of additional LEDs 6 separately, it is possible to adjust both the brightness and the width of the working area 14 of the lamp.

Claims (2)

A surgical lamp with light emission control, comprising primary and secondary LEDs dispersed over its surface and combined into groups of primary and groups of additional LEDs, and a light field control device, and groups of primary LEDs and groups of additional LEDs are interconnected and a device for regulating the working area of the lamp, characterized in that the main LEDs are mounted on the flat board of the lamp, the optical axis of the main LEDs are parallel to the axis of the lamp and are evenly spaced around the circle, the emission points of each of the main LEDs coincide with the focal point of the corresponding reflector, while the reflectors are asymmetric so that their optical axes intersect optical axis of the lamp at a distance that determines the working area of the lamp, additional LEDs are mounted on an additional flat circuit board , And their optical axes are parallel to the lamp axis.

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