RU45585U1 - LUMINESCENT START-UP LAMP - Google Patents

Abstract

The technical solution relates to optics, namely to gas-discharge devices and can be used in fixtures. The startless fluorescent lamp contains a glass gas discharge tube with electrodes placed in it, the terminals of which are connected to a semiconductor rectifier connected, in turn, to the ballast, the ballast being a tungsten filament placed inside the glass gas discharge tube from one of its ends, while one end of the tungsten filament is connected to the electrode, and the other has leads connected to the inputs of the semiconductor rectifier, which is connected to the network. The useful effect of the proposed fluorescent lamp lies in its reliability, simplicity and cheapening, improving the radiation spectrum, reducing the stroboscopic effect.

Description

The proposed technical solution relates to optics, namely to gas-discharge devices and can be used in lamps.

A search conducted by domestic and foreign sources of information showed that well-known fluorescent lamps in the general case consist of a glass tube filled with gas with a phosphor deposited on its inner surface and placed inside the electrodes, a starter and a ballast (ballast). The main disadvantage of known fluorescent lamps is the instability of the starter, which entails overloading of the filaments, which, in turn, leads to lamp failure.

Non-starter ignition lamps are more promising, where the filaments are not used for their intended purpose, but act as electrodes of a gas discharge lamp - they are supplied with the voltage necessary to ignite the gas in the lamp.

As a ballast (ballast) in fluorescent lamps, a choke is most often used. The disadvantages of the throttle are its considerable weight and high cost. Recently, fluorescent lamps with electronic microcircuits as ballast, for example, from the company STMicroelectronics, have appeared.

The closest technical solution taken as a prototype is a fluorescent lamp, in which the throttle, which serves as ballast resistance, is replaced by an incandescent lamp (J. Radio, 1997, No. 5 p. 37, Fig. 4, p. RF No. 2041574). The described device comprises an incandescent lamp connected by means of a rectifier-multiplier with a conventional fluorescent lamp, consisting of a fluorescent tube with electrodes located inside. When you turn on the device in the network, the incandescent lamp and the thermistor warm up, the input voltage is

the diode bridge increases, two capacitors are charged through the corresponding resistors. When the total voltage on them reaches the ignition voltage of the fluorescent lamp, there will be a fast discharge of capacitors - this is facilitated by the corresponding diodes. By supplementing a conventional luminaire with an incandescent lamp with this device with a fluorescent lamp, it is possible to improve general or local lighting.

The disadvantages of this technical solution are the use of an electric incandescent lamp as a ballast, which must be placed next to a fluorescent lamp (bulky, unaesthetic, expensive).

The objective of the proposed technical solution is to reduce the cost of a fluorescent lamp, as well as to eliminate the above aesthetic disadvantages while maintaining the reliability of starting a fluorescent lamp while improving the radiation spectrum and reducing the stroboscopic effect.

The problem is solved by the proposed design of a fluorescent lamp without a starter, containing a glass gas discharge tube with electrodes placed in it, the terminals of which are connected to a semiconductor rectifier, connected, in turn, to the ballast, while the ballast is a tungsten filament placed inside the glass gas discharge tube with one of its ends, and one end of the tungsten filament is connected to the electrode, and the other has leads connected to the inputs of the semiconductor rectifier, which is connected to the network.

New in comparison with the prototype is the placement of ballast, made in the form of a tungsten filament, not outside the glass gas discharge tube (in the prototype - in an incandescent lamp, located separately), and inside it. Therefore, the technical solution has novelty.

In the claimed technical solution, it is proposed to use a tungsten filament, which can be placed inside a glass tube, as ballast resistance, which, unlike the prototype, does not

spoils the appearance of the lamp. The reduction in the price of the lamp made according to the technical solution is achieved due to the absence of expensive ballast resistances, such as a choke, in the design. In addition, the proposed ballast resistance in the form of a tungsten filament improves the radiation spectrum, since when the current passes through them, the tungsten filament heats up and glows. Thus, in addition to achieving the main technical result: improving aesthetic qualities, along with increasing the reliability of starting the fluorescent lamp and reducing its cost, an additional effect is achieved - improving the radiation spectrum and reducing the stroboscopic effect. Therefore, the proposed technical solution allows to obtain the claimed technical result.

In more detail, the design is described using Figure 1 schematically representing the implementation of a fluorescent lamp, where

1 - glass gas discharge tube,

2 - leg

3 - tungsten filament

4 - conclusions

5 - electrode

6 - conclusions

7 - semiconductor rectifier-multiplier.

In the glass gas discharge tube 1 with a phosphor deposited on its inner surface, hollow glass legs 2 are placed at both ends thereof. A tungsten filament having terminals 4 is inserted into one of the hollow glass legs 2 in a known manner, to which one of the electrodes is connected 5. In the other hollow the glass leg in a known manner inserted another electrode 5 having conclusions 6. Terminals 4 and 6 are connected to the inputs of the semiconductor rectifier-multiplier 7, which is connected to an AC voltage of 220 V. yamitel-multiplier 7 is a typical diagram. Tungsten filament 3 is made in the form of a spiral as in ordinary

incandescent lamps. The connection of the tungsten filament 3 with one of the electrodes 5 and the terminals 4 is carried out in a known manner, for example by soldering.

The power of the tungsten filament is determined by the power of the fluorescent lamp. For example, for a 40 W fluorescent lamp with a supply voltage of 220 V, the power of the tungsten filament is 150 watts.

The proposed fluorescent lamp operates as follows. Through a semiconductor non-starter apparatus, a fluorescent lamp is connected to an AC voltage of 220 V. The mentioned apparatus is a rectifier-multiplier by 4, having, as already mentioned, a typical electrical circuit. The voltage rectified and increased 4 times by the rectifier-multiplier 7 is supplied through the terminals 4, 6 to the tungsten filament 3 and the electrodes 5. Since the tungsten filament 3 is an active ballast, it limits the current through the fluorescent lamp.

For the practical implementation of the proposed design, only components manufactured by the industry are required. Therefore, the technical solution is industrially applicable.

The useful effect of the proposed fluorescent lamp lies in its reliability, simplicity and cheapening, improving the radiation spectrum, reducing the stroboscopic effect.

Claims (1)

A starter-free fluorescent lamp containing a glass gas discharge tube with electrodes placed in it, the terminals of which are connected to a semiconductor rectifier connected, in turn, to a ballast, characterized in that the ballast is a tungsten filament placed inside the glass gas discharge tube from one of its ends, and one end of the tungsten filament is connected to the electrode, and the other has leads connected to the inputs of the semiconductor rectifier, which is connected to the network.