RU2411967C2 - Lamp - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention refers to the room lighting and air handling. Lamp includes high-voltage power unit and housing with light lamps, ultraviolet lamps and discharge electrodes, which are installed in it. Lamp housing is made in the form of cellular frame in which there installed in turn are light and ultraviolet lamps; at that, ultraviolet lamps are covered with cells the surface of which, which faces the ultraviolet lamp, is covered with MgO₂ magnesium oxide, and discharge electrodes are arranged along the whole housing frame.

EFFECT: invention provides the room lighting at simultaneous air cleaning and its oxygen saturation.

2 cl, 1 dwg

Description

The invention relates to the field of electrical industry and light reflexology with the improvement of climatic conditions in the premises.

Known electric incandescent lamp with two incandescent bodies (RU 2140116, IPC Н01К 1/16, Н05В 39/04 from 10/21/1997). It is an incandescent lamp with two filament bodies and a base containing a contact device consisting of a removable contact electrode electrically connected to the end of the first filament body, a stationary contact impedance electrode installed in an insulating base mastic and connected in a standard way to the end of the second filament body. The removable contact electrode is made in the form of a thin-walled metal cap covering the end and side parts of the surface of the stationary contact impedance electrode of the cap, having the form of a flattened metal cylinder, with the inside of its surface. A dielectric layer is deposited on the inner part of the surface of the removable contact electrode, which provides electrical isolation at the operating frequency of this electrode from the stationary impedance electrode of the base. The contact device is equipped with a ribbon conductor extending from the perimeter of the removable contact electrode, passing into the inner volume of the cap through the gap between the cylinder of the stationary impedance electrode and the cap of the cap through the insulating mastic of the cap and electrically connecting with the help of an additional conductor and an additional current-carrying electrode-holder of the filament body electrode with the end of the first glowing body. The contact areas of both the removable contact electrode and the stationary impedance electrode are represented by solid flat surfaces of the ends of these electrodes. The mounting of the removable contact electrode on the stationary impedance electrode of the cap provides for the possibility of simple mechanical removal after failure of the first filament body from the stationary impedance electrode and its subsequent separation from the cap by mechanical rupture of the tape conductor to release the contact surface of the stationary impedance electrode and to ensure lamp reuse by use of a second glowing body. A removable contact electrode, a stationary impedance electrode, and a dielectric layer separating them form simultaneously a cylindrical capacitor, as a result of which the electric circuit of the lamp is represented by the first glowing body shunted through the said capacitor by the second glowing body. Therefore, during the operation of the first filament body, the second filament body is used as a shunt for the high-frequency components of the current with abrupt changes in the instantaneous voltage value on the lamp that occur when this voltage is switched using standard switches.

However, this electric incandescent lamp cannot be used to improve indoor air.

A device for light reflexology is known, comprising a body in the form of a hollow sleeve with an expanding working part and a means for directing radiation mounted on it, mounted to move along the axis of the body, as well as a vacuum source in the form of an elastic balloon in communication with the sleeve cavity (RU No. 1703104 , IPC A61H 39/06 dated 12/15/1988). The hollow sleeve is elastic. The means for directing radiation is made in the form of a collecting lens, while in the upper part of the balloon a transparent window is made in the form of a second collecting lens.

The disadvantage of this device is the impossibility of improving the air environment in the premises.

A known ion source containing a camera connected to the positive pole of the accelerating voltage source, and a single-electrode system connected to the negative pole of the voltage source (RU 1718297, IPC H01J 27/04 from 08/17/1987). The accelerating system is made in the form of separate elements isolated from each other, connected to a voltage source through resistors.

However, this ion source cannot be used to illuminate rooms.

The invention solves the problem of ionization of air in the room and its saturation with oxygen.

The technical result when using the invention is to create a lamp that allows, in addition to lighting, to produce oxygen and an ionic atmosphere.

The specified technical result is achieved by the fact that in a luminaire containing a high-voltage power supply and a housing with light lamps, ultraviolet lamps and corona electrodes installed in it, the novelty is that the housing is made in the form of a cellular frame in which alternating light and ultraviolet lamps are installed, in this case, ultraviolet lamps are covered by cells in which the surface facing the ultraviolet lamp is coated with magnesium oxide MgO ₂ , and the corona electrodes are placed throughout the frame to Orpusa. Corona electrodes are made in the form of needle pins.

The drawing schematically shows a General view of the lamp health.

The luminaire consists of a housing 1, made in the form of a cellular frame with alternating light lamps 2 and ultraviolet 3 installed in it. Corona electrodes 4 are placed in the form of needle pins throughout the frame of the housing 1. Ultraviolet lamps 3 are covered by cells 5, in which the surface facing the ultraviolet lamps 3 is coated with metal oxides, for example magnesium oxide MgO ₂ . Cells 5 serve to protect the human eye from direct exposure to ultraviolet rays. The lamp is equipped with a high-voltage power supply 6 for operation of the corona electrodes.

When the wellness lamp is turned on, lamps 2 emit ordinary light, and ultraviolet lamps 3, by their rays reaching the surface of cells 5 coated with magnesium oxide, emit oxygen O ₂ , improving the air in the room. Corona electrodes 4 in the form of needle pins, powered from a high-voltage power supply 6, emit ions, ionizing the air, which also contribute to the purification and improvement of air. The proposed lamp is installed on the ceilings of various premises for air conditioning.

Claims (2)

1. A luminaire comprising a high-voltage power supply and a housing with light lamps, ultraviolet lamps and corona electrodes installed therein, characterized in that the housing is made in the form of a cellular frame in which alternating light and ultraviolet lamps are installed, while the ultraviolet lamps are covered by cells, in which the surface facing the ultraviolet lamp is coated with magnesium oxide MgO ₂ , and the corona electrodes are placed throughout the frame of the housing. 2. The lamp according to claim 1, characterized in that the corona electrodes are made in the form of needle pins.

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