RU11925U1 - ELECTRODE-FREE INDUCTION LAMP - Google Patents

Description

10.24.95) or spherical shape (WO 96/37909, MKII H01 j 65/04, published on 11/28/96).

These analogs are intended to replace incandescent lambs, but their shape was chosen similar to the usual incandescent lamp. The luminous flux created by such lamps creates irregular illumination of the supernova, the WFO restricts the name of such lamellas in cases where the uniform luminous flux of a day of illumination of a non-extended volume is necessary. In addition, for these purposes, it is difficult to use lamps with balloons of a balloon or mushroom shape due to their large dimensions.

An electrodeless lamp is known which contains a cylindrical glass barrel filled with a working substance, means for creating and maintaining a gas discharge, placed along the cylinder’s base, and% electrodes electrodes generating RF epergy are placed on the outer end surfaces of the cylinder-shaped cylinder (nat. H05B 41/16, published on 08/13/96).

The disadvantage of the last of the identified analogues is the complexity of the constructive execution of funds, ensuring the creation and maintenance of a gas discharge. Another disadvantage is the unevenness of the luminous flux along the length of the cylinder created using these RF means for exciting a gas discharge.

The last of the described analogs of US Patent N 5545953 coincides with the noble model, but for the majority of significant signs, it is known as a trotter.

The technical result of the noisy model is the creation of a small-sized, durable light source that creates uniform illumination of non-drawn objects.

Relative, useful model can be characterized by the following sopocality of niznak:

an electrodeless induction lamina containing a cylinder in the form of a p-faceted nrisma from an opaque opaque material, but this value is chosen from the expression n 3, m channels made in nrism and filled with a working thing whose axes are parallel to the axis of nrisma, m nrn selected expressions m 2, the means of creating and maintaining a gas discharge, placed in one or more channels of the prism, the channels of which could be made with basic design or other configuration required to solve a solid problem arches, and in a non-transverse section form convex or extra-concave fhura.

The above summary of all the essentials is sufficient to achieve the indicated technical result.

Compared with nrotapash, an essential distinctive feature is the placement of means for creating and maintaining a gas discharge in one or several channels of the nrvorya, which provides not only the indicated technical result, but also a significant reduction in the dimensions of both the llama itself and the lighting device in which the declared llama will be posted.

At the highest level of technology, no solutions have been identified that have a combination of standard signs, a central sovokunnosga of the signs of the declared solution. No solutions were found either containing 01

utility model.

The utility model is illustrated by graphic materials, in which Fig. 1 shows the axial section of a cylinder fragment with an electrodeless induction lamina with the number of prism faces n 3, which ultimately converts the prismatic surface into a digital one (the means for creating and maintaining a gas discharge in cross section are not shown); figure 2 is a cross-sectional view of the lamp shown in figure 1; Fig. 3 is a cross-sectional view of a lamp whose balloon is in the form of a trihedral prism with hidden vertices; figure 4 is a cross section of a lamp, the cylinder of which is filled in the form from the channel U1n, asymmetric relative to the axis of nrisma; in FIG. 5 - shows a variation in the shape of the cross-section of a cylinder with two radial volumes and an axisymmetric cylindrical channel for accommodating means for creating and maintaining a gas discharge.

An electroless bezel-less lamp contains towers in the form of a p-shaped prism 1, with a coaxial coaxial channel 2 filled with a working substance, and a channel 3 configured to accommodate means 4 for creating and maintaining a gas discharge equipped with current leads (not shown in FIG.).

An electrodeless lamp operates as follows. When supplying and supplying voltage through current leads to means 4 for creating and maintaining gas discharges located in channel 3, they will begin to generate highly extinguished losses, causing the occurrence of a gas discharge in the working substance filling channels 2. Depending on the composition of the working substance and its pressure, the nature of the radiation generated by the gas discharge in the channels 2 changes, which is radiated through the otically transparent walls into the space surrounding the lamp. Depending on the specific needs, the radiation of a gas discharge can be converted into a distinct or other part of the spectrum, which is achieved by using a corresponding amount of phosphors or optical filters.

Claims (6)

1. An electrodeless induction lamp containing a cylinder of optically transparent material, filled with a working substance, equipped with means for creating and maintaining a gas discharge, characterized in that the cylinder is made in the form of an n-faced glass prism, where n is selected from the expression
n> 3,
in which m channels are made with axes parallel to the axis of this prism, the value of m being selected from the expression
m> 2.  2. The electrodeless induction lamp according to claim 1, characterized in that one of the channels is made coaxial prism.  3. An electrodeless induction lamp according to claim 1, characterized in that the means for maintaining a gas discharge are located in one of the channels of the prism.  4. An electrodeless induction lamp according to claim 1, characterized in that the means for maintaining the gas discharge are located in the channel, coaxial prism.  5. The electrodeless induction lamp according to claim 1, characterized in that the channels are made symmetrically to the axis of the prism. 6. An electrodeless induction lamp according to claim 1, characterized in that the means for creating and maintaining a gas discharge are placed in a coaxial prism of the channel between the pair of channels surrounding it.