CZ18926U1 - Lighting fixture - Google Patents

Abstract

The aim of the invention is to increase the light efficiency of a lighting fixture by providing a high brightness and the uniform distribution of a light flux inside a working area and to simplify the lighting fixture assembling process. The inventive lighting fixture comprises a body whose internal surface is shaped in the form a segment of sphere and on which light-emitting-diode modules are mounted in such a way that they are grouped and annularly arranged along the body internal surface symmetrically with respect to the center thereof. Inside a group, the light-emitting-diode modules are positioned at unequal distances from the body center and all groups are embodied in such a way that said light-emitting diode modules are internally located in the same manner. The radius of the sphere, which form the body internal surface, ranges from 0.8 to 1.2 m. The lighting fixture also comprises a decorative surface and a transparent cover which is made, for example, of optical polycarbonate and is shaped identically to the shape of the body internal surface. Said body internal surface and the cover can be embodied in the form of an assembly of spherical segments.

Description

(54) Utility model name:

Lighting fixture

CZ 18926 Ul

Lighting fixture

Technical field

The technical solution relates to medical technology and especially lighting fixtures for surgical workplaces.

BACKGROUND OF THE INVENTION

There is known a lighting body comprising a body with light-emitting elements, which are realized in the form of matrix array of light-emitting diodes, which further comprises a transparent cover and a light-diffusing panel (see RU patent utility model, 27852, MPT F21V 11/00, dated 20.2. 2003).

This light fixture is very difficult to mount because it requires a large number of light emitting diodes to achieve the required level of illumination and also does not have sufficiently high light efficiency.

A non-shading cold light illuminator is known, comprising a ring with light elements in the form of several light-emitting modules, each mounted on a rod mounted by means of a spherical pin in one of the ring seats, and also containing an energy source (see RU No. 2252441) , MPT G02B 21/06, of 20.5.2005).

The disadvantage of this device is the necessity to adjust each LED module,

The technical solution closest to the present invention is technically closest to the operating room lighting comprising a body composed of individual modules mechanically connected to each other, on the inner surface of which are mounted light-emitting diode modules (reference EP 1568935, MPT F21S 8/00, F21S 2). / 00 of 31 August 2005).

2o The known lighting fixture for operating theaters has a high luminous efficiency, but it has a very complex construction,

The object of the present invention is to simplify the construction of the lighting fixture while maintaining its high luminous efficiency.

This task is solved as follows.

The essence of the technical solution

The surgical lighting fixture comprises a body on the inner surface of which are mounted light emitting diode modules. In accordance with the invention, the body of the lighting body is integral and non-sectioned and its inner surface is spherical, the light-emitting diode modules are arranged on at least four groups in a circle symmetrically to the center of the body and have a uniform internal arrangement light-emitting diodes.

The light-emitting diode modules within each group are unequally spaced from the center of the body.

In addition, the radius of the spherical surface delimiting the inner surface of the body is 0.8 to 1.2 m.

In addition, the lighting body is provided with a cover which has the same shape as the body of the lighting body and is made, for example, of optical polycarbonate.

In the present lighting body, the body of the body is implemented as integral with an internal surface in the form of a spherical surface, which simplifies the construction of the lighting body. The arrangement of the light emitting diode modules on the inside of the body is arranged in at least four groups with the same internal light emitting diode modules in each group, fixed to the inner surface of the body in a circle symmetrically to the center of the body. operating field. The mounting of light emitting diodes connected in three groups or less on the inner surface of the body of the illuminator ensures insufficient illumination under shading conditions during the surgical operation. The realization of the inner surface of the body of the lighting body in the form of a spherical surface makes it possible to assemble the luminous fluxes of individual light-emitting modules arranged in groups and thus optimize the luminous flux.

The arrangement of the light-emitting modules within each group at different distances from the center of the body and the placement of the groups on the inner curved surface of the body ensure high homogeneity of light distribution within the working zone when joining the luminous fluxes of all groups.

The radius of the spherical surface delimiting the interior surface of the body of the lighting fixture is determined experimentally and is 0.8 to 1.2 m and is optimal for stacking the light flux of light emitting diode modules grouped together to provide optimum luminous flux on the operating table. The design of a spherical surface with a radius of less than 0.8 m or greater than 1.2 m also reduces the size of the work surface and reduces the light efficiency of the lighting fixture.

For example, a cover made of optical polycarbonate, which has a high visible light transmission coefficient and in a shape identical to the shape of the inner surface of the body of the lighting fixture, promotes its high light efficiency and prevents contamination of the light sources.

In this way, the above summary of features of the described illumination body makes it possible to simplify the construction of the illumination body while maintaining its high luminous efficiency.

The presence of essential features different from the template makes it possible to mark the presented technical solution as new.

There are no technical solutions disclosed today that match the features of the present lighting body with the characteristic features and therefore the present device meets the criteria of the inventive level.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 shows the illuminator in general view; Figure 2 shows the arrangement of the light-emitting diode modules on the inner surface of the body of the illuminator; Fig. 3 is a schematic diagram of luminous flux stacking of light emitting diode modules.

Description of exemplary embodiments

The lighting body consists of a body 1, a bottom cover 2 and light-emitting modules 3. The body 1 of the lighting body has a decorative outer cover 4 and an inner surface 5 on which light-emitting diode modules 3 are installed in groups 6. The number of groups 6 of light emitting diode modules 3 may vary from 4 to 8 depending on the particular needs.

The luminous fluxes of the light-emitting diode modules 3 are arranged in a working zone 7 distant from the body 1 of the illuminator 0.7 m to 1.4 m, which seems to be the optimal distance for surgical illuminators.

In the operation of the illuminator, a maximum illumination level is generated within the working zone of each of the groups 6 formed by the light-emitting diode modules 3, and by combining the luminous fluxes of all the groups 6, the total luminous flux in the working zone 7 is generated. This is very important in surgical lighting fixtures and the luminous fitting of the light-emitting modules 3 of the various groups 6 creates a high degree of homogeneity of light distribution within the working zone 7.

Industrial Applicability

The technical solution can be used in medical technology.

Claims (4)

PROTECTION REQUIREMENTS Lighting fixture comprising a body (1) on the inner surface (5) of which light-emitting modules (3) are attached, characterized in that the body (t) of the lighting body is integral and its inner surface (5) is shaped spherical surfaces, light modules (3) The 5 diodes are arranged in at least four groups arranged in a circle on the inner surface (5) of the body (1) symmetrically with respect to the center of the body (1) and the internal arrangement of the light-emitting module (3) is uniform. Lighting fixture according to claim 1, characterized in that the light-emitting diode modules (3) within each group are spaced at unequal distances from the center of the body (10). Lighting fixture according to claim 1, characterized in that the radius of the spherical surface defining the body (1) is 0.8 to 1.2 m. Lighting fixture according to claim 1, characterized in that it additionally comprises a cover (2) of, for example, optical polycarbonate, which has a shape identical to the shape of the inner surface of the lighting fixture mouth (1).