RU74753U1 - DEVICE FOR LUMINESCENT LAMPS - Google Patents

Abstract

1. A device for fluorescent lamps, containing a voltage doubling circuit, consisting of two diodes and two capacitors, each of which is connected by the first output to the first input terminal, the second, respectively, to the anode of the first diode and the cathode of the second diode, forming respectively the negative and positive output poles, and the second output of each diode is connected to the second input terminal, a conductor-screen located on the surface of the lamp, as well as a resistor to which a conductor-screen is connected, and a third capacitor forming an RC circuit, I connect from the resistor side to the positive output pole, and from the capacitor side to the second input terminal, while the RC circuit is connected to the screen conductor by a common point of the resistor and capacitor, characterized in that the device for fluorescent lamps, containing a voltage doubling circuit, consisting of two diodes and two capacitors, each of which is connected by the first terminal to the first input terminal, the second terminal of the first capacitor is connected to the anode of the first diode, forming the negative pole of the output of the doubling circuit, the second terminal of the second the capacitor is connected to the cathode of the second diode, forming a positive pole of the output of the doubling circuit, the cathode of the first diode and the anode of the second diode are connected to the second input terminal and connected to the common connection point of two diodes connected to each other by the cathode and anode, and the anode of the first diode is connected with the first capacitor terminal and the negative shield, and the cathode of the second diode is connected to the second capacitor terminal and the positive shield. 2. The device for fluorescent lamps according to claim 1, characterized

Description

The utility model relates to electrical engineering, in particular to electric lighting, and is intended for ballasts assembled according to a voltage doubling circuit.

A device for igniting fluorescent lamps, containing a conductor screen located on the surface of the lamp, and a ballasts made according to the scheme of doubling the voltage on two capacitors and two diodes. The capacitors are connected by the first outputs to the first input terminal, the second respectively to the anode of the first and the cathode of the second diode, forming, respectively, the negative and positive output poles, and the second outputs of the first and second diodes are connected to the second input terminal, and the screen is connected through a resistor to a common point diodes and a second input terminal (US patent N 4260932, CL HB 37/00, 1981, Fig.15).

A device with an external electrode is a screen (US patent N 3624445, class Н05В 41/19 1971, Fig. 5). Here, a capacitor and a resistor are connected to the electrode. The device operates in a pulsed mode, and increased potential is supplied to the electrode from a pulse transformer. This trigger pattern is incompatible with the doubling pattern.

The closest device of the same purpose to the claimed utility model in terms of features is a device for igniting fluorescent lamps, and.with. RU 2083061 C1, 1993.05.11 comprising a conductor screen located on the surface of the lamp and a ballast made in accordance with a voltage doubling circuit for two capacitors and two diodes in which the first output of each capacitor is connected to the first input terminal, the cathode of the diode and the anode of the diode are connected to the second input terminal, the second terminal of the capacitor is connected to the anode of the diode, forming the negative pole of the output of the doubling circuit, the second terminal of the capacitor is connected to the cathode of the diode, forming the positive pole of the output. A charging resistance is connected between the terminal and the common point of the diodes. The screen is connected to the common point of the resistor, capacitor, connected on the resistor side to the common point of the capacitor and diode, and on the capacitor side to the common point of the diodes and terminal.

The disadvantage of the prototype is higher energy consumption due to active losses on the charging resistance, as well as on the resistor during cyclic charge and discharge of the capacitor creating a potential charge of a pulsating magnitude between the screen and the lamp inputs to ensure the opening of the circuit.

The essence of the utility model lies in a different design of the ballast, namely, the use of a screen made in the form of two transparent conductive plates located on both sides of the lamp surface, and a ballast made on two capacitors and four diodes, the voltage doubling circuit of which consists of two diodes and two capacitors, each of which is connected by the first terminal to the first input terminal, the second terminal of the first capacitor is connected to the anode of the first diode, forming about the negative pole of the output of the doubling circuit, the second terminal of the second capacitor is connected to the cathode of the second diode, forming a positive pole of the output of the doubling circuit, the cathode of the first diode and the anode of the second diode are connected to the second input terminal by a common connection point, and connected to the common junction point of two diodes connected to each other a cathode and an anode, the anode of the first diode connected to the first terminal of the capacitor and the negative lining of the screen, and the cathode of the second diode connected to the second terminal of the capacitor and the positive lining crane.

The technical result - improving the performance of the device, and reducing power consumption.

The specified technical result in the implementation of the utility model is achieved by the fact that in the known device comprising a screen made in the form of two transparent conductive plates located on both sides of the lamp surface, and a ballasts made of two capacitors and four diodes in which the voltage doubling circuit consists of two diodes and two capacitors, each of which is connected by the first output to the first input terminal, the second output of the first capacitor is connected to the anode of the first diode, about By identifying the negative pole of the output of the doubling circuit, the second terminal of the second capacitor is connected to the cathode of the second diode, forming the positive pole of the output of the doubling circuit, the cathode of the first diode and the anode of the second diode are connected to the second input terminal by a common connection point, and connected to the common connection point of two diodes connected between a cathode and an anode, the anode of the first diode connected to the first output of the capacitor and

negative lining of the screen, and the cathode of the second diode is connected to the second terminal of the capacitor and the positive lining of the screen. The technical result, manifested in the form of a quick start and an increase in the luminous flux of the lamp, is achieved by the fact that in this device the screen is made in the form of two transparent conductive plates that increases the luminous flux of the lamp. The screen plates are connected in parallel to the capacitor amplifying the electric potential and are connected to the voltage source through diodes that with this connection, a constant electric charge is created on the screen covers creating (inducing) an electric charge on the inner surface of the lamp housing matic charge opposite in sign and equal in magnitude to the charge on the outer screen plates of the capacitor. Due to the presence of these internal electric charges, a light breakdown of the interelectrode space of the lamp occurs, and each discharge of opposite charges occurs on its side, which allows to significantly increase the interelectrode distance of the electrodes in the lamp at a lower voltage of the power source.

Figure 1 shows the connection diagram of the screen.

In figure 1, the positions shown:

1 - lamp

2 - lamp electrodes

3, 4 - screen

5, 6, 7, - capacitors

8 - resistor

9, 10, 11, 12 - diodes

13, 14 - input terminals

Information confirming the feasibility of implementing the utility model with obtaining the above technical result is as follows.

Figure (1) shows a fluorescent lamp (1) with electrodes (2) containing a screen made in the form of two transparent conductive plates (3, 4) representing a capacitor, the plates of which are located on the surface of the lamp. The plates are made in the form of a deposited transparent conductive layer deposited on the outer surface of the lamp housing, followed by coating with a transparent dielectric layer. The plates are located symmetrically relative to each other on both sides of the lamp. As a transparent electrically conductive layer, for example, an indium oxide or electrically conductive powder layer is used.

SnO2 (Sb) containing 0.2-1.1 wt.% Antimony. As a transparent dielectric layer applied, for example, a layer made by gluing a transparent polymer film with an adhesive layer or by applying several layers of a transparent electrical insulating varnish. The ballast is made according to the scheme on two capacitors and four diodes. The voltage doubling circuit consists of two diodes and two capacitors in which, each capacitor (6, 7) is connected by the first terminal to the first input terminal (13), the second terminal of the first capacitor (6) has a common connection point with a limiting resistor (8) connected with the electrode (2) of the lamp, and with the anode of the first diode (9), forming the negative pole of the output of the doubling circuit, the second output of the second capacitor (7) is connected to the cathode of the second diode (10), forming the positive pole of the output of the doubling circuit. The cathode of the first diode (9) and the anode of the second diode (10) are connected to the second input terminal (14), and connected to a common point of connection of two diodes (11, 12) connected by a cathode and anode, and the anode of the first diode (11) is connected with the first output of the capacitor (5) and the negative lining of the screen (3), and the cathode of the second diode (12) is connected to the second output of the capacitor (5) and with the positive lining of the screen (4). To improve the conditions for the breakdown of the gaseous medium between the lamp electrodes, the screen covers (3,4) can be shifted relative to each other as follows: the positive cover (4) of the screen is shifted towards the negative electrode of the lamp, and the negative (3) towards the positive electrode. Around the circumference of the screen covers cover the bulb with a sector angle of 45 to 90 degrees, and the length is from 90 to 95 percent of its length.

The screen works as follows: when the supply voltage is connected to the terminals (13, 14) on the plates of the capacitor (5), amplifying the potential of the electric field on the plates (3, 4) of the lamp screen, a constant electric charge is created that induces electric charges on the inner surface of the lamp housing located on areas equal to the areas of the outer plates of the screen of equal magnitude, and opposite in sign to the electric charges on the plates (3, 4) of the screen, which improves the conditions for the breakdown of the medium between the electrodes (2) of the lamp. Under the action of the potential difference between the electrodes of the lamp, electric discharges occur in the gas filling the lamp housing. The current of this discharge in the lamp passes through the circuit: lamp electrode - electric charge on the inner surface of the bulb - lamp electrode. The current of the next discharge goes in the opposite direction on the other side of the housing, where the electric charges of a different sign are concentrated, and the electric field is on the first

the lining of the screen forms the corresponding electric charge. Due to the presence of these internal electric charges, a light breakdown of the interelectrode space of the lamp occurs, and each discharge of opposite charges occurs on its side, which allows to significantly increase the interelectrode distance of the electrodes in the lamp at a lower voltage of the power source. This process will continue until it develops into the main discharge between the electrodes of the lamp, which will take several periods.

The use of a screen made in the form of transparent conductive plates with the proposed switching circuit allows you to quickly start the lamp and ensure stable silent operation. The use of this screen allows the use of lamps with large interelectrode distances, providing fast ionization of gas in the lamp, and the use of transparent plates increases the emitting surface of the lamp compared to prototypes. Thus, the proposed utility model has significant differences and useful properties compared with the above prototype.

Claims (2)

1. A device for fluorescent lamps, containing a voltage doubling circuit, consisting of two diodes and two capacitors, each of which is connected by the first output to the first input terminal, the second, respectively, to the anode of the first diode and the cathode of the second diode, forming respectively the negative and positive output poles, and the second output of each diode is connected to the second input terminal, a conductor-screen located on the surface of the lamp, as well as a resistor to which a conductor-screen is connected, and a third capacitor forming an RC circuit, I connect from the resistor side to the positive output pole, and from the capacitor side to the second input terminal, while the RC circuit is connected to the screen conductor by a common point of the resistor and capacitor, characterized in that the device for fluorescent lamps, containing a voltage doubling circuit, consisting of two diodes and two capacitors, each of which is connected by the first terminal to the first input terminal, the second terminal of the first capacitor is connected to the anode of the first diode, forming the negative pole of the output of the doubling circuit, the second terminal of the second the capacitor is connected to the cathode of the second diode, forming a positive pole of the output of the doubling circuit, the cathode of the first diode and the anode of the second diode are connected to the second input terminal and connected to the common connection point of two diodes connected to each other by the cathode and anode, and the anode of the first diode is connected with the first terminal of the capacitor and the negative lining of the screen, and the cathode of the second diode is connected to the second terminal of the capacitor and the positive lining of the screen. 2. The device for fluorescent lamps according to claim 1, characterized in that the screen covers forming the positive and negative poles are offset from each other so that the positive screen is biased towards the negative electrode of the lamp, and the negative screen is towards the positive electrode lamps.