RU97212U1 - LUMINISCENT LAMP - Google Patents

Abstract

 1. A fluorescent lamp containing a housing, a discharge tube provided with a phosphor coating and filled with a working substance, legs with electrode holders, hermetically fixed at each end of the discharge tube and electrically connected to a ballast apparatus (PRA) located in the housing and connected to the power supply, characterized in that the lamp is equipped with a control LED located on the surface of the housing and connected to the lamp circuit. ! 2. The fluorescent lamp according to claim 1, characterized in that the LED is connected to the lamp circuit through a current-limiting resistor.

Description

The utility model relates to electrical equipment and is designed to control the operation of fluorescent lamps designed for lighting residential and domestic premises.

A device for monitoring the operation of signal lamps, containing a power source, a brake switch, electromagnetic relays connected in parallel with the brake switch and in series with signal lamps, decoupling diodes included in the power circuit of the signal lamps, control lamps connected to the power source through the disconnecting contacts of electromagnetic relays , electromagnetic relay of blocking of control lamps, opening contact, which is included in the power supply circuit of control lamps. (RF patent No. 2045428, IPC6 B60T 11/00, 1993).

A disadvantage of the known device is the limited control capabilities, three electromagnetic relays are used, which reduces the quality of control.

A device for monitoring the operation of the warning lights of the turn of the trailer, containing a power source, a switch, an electromagnetic relay connected in series with the signal lamp, relay contacts include a control lamp. (Yu.L. Timofeev, G.L. Timofeev, N.M. Ilyin, Electrical equipment of cars: Troubleshooting and prevention of malfunctions. M., "Transport", 2000, p. 212, Fig. 208).

A disadvantage of the known device is the inability to quickly determine the malfunction from the workplace: the turn signal lamp or control lamp burned out; defective relay or switch.

A device is known that contains a power source to which, through a switch, a lamp load element is connected. The control lamp from the power of the switching device is connected to the current sensor circuit. (V.V. Litvinenko, Electrical equipment of cars "Moskvich", M., ed. "Behind the wheel", 1997, from 135-137, Fig. 133).

A disadvantage of the known device is low functionality, for example, there is no diagnostics of the lamp in the on state from the current source, i.e. it is unclear when turned on: either the lamp burned out, or there is no connection to the power source. The device has a complex structure.

All the above devices are related to the control devices of the signal lights of a vehicle and cannot be used in energy-saving household lamps.

A compact fluorescent lamp (CFL) is known, containing a discharge tube, the ends of which are directed in one direction, provided with a phosphor coating and filled with a working substance, legs with electrode holders, equipped with current leads, hermetically fixed at each end of the discharge tube and electrically connected to a ballast ( PRA), equipped with a socle for connecting to power supply (US patent N 4347460, IPC 4 H01J 25/50, 1982).

Energy-saving fluorescent lamps, consisting of a lamp tube, ballast, starter, ignition electrode and an arm on which these components are mounted, are also widely known (see patent No. 2308783, IPC H01J 1/56 (2006.01), 2007).

The disadvantage of these solutions is the inability to determine the lamp operation in the case when there is no light emission - is this fact related to a lamp malfunction or lack of power in the network (for example, caused by a break inside the lamp).

The problem solved by the utility model is to simplify the monitoring of the operability of any type of fluorescent lamp.

The problem is achieved due to the fact that in the known fluorescent lamp containing a discharge tube provided with a phosphor coating and filled with a working substance, legs with electrode holders, hermetically fixed at each end of the discharge tube and electrically connected to a ballast (PRA) connected to power supply, in accordance with the utility model, the lamp is equipped with a control LED located on the surface of the housing and connected to the lamp circuit.

The LED can be connected to the lamp circuit through a current-limiting resistor.

The technical result from the use of the entire set of essential features of such a new technical solution is that the procedure for monitoring the operability of a fluorescent lamp is simplified.

The presence of a control LED connected through a current-limiting resistor to the lamp circuit provides the ability to monitor the operability of a fluorescent lamp, which makes it possible to determine without additional time if the fact of the absence of light emission from the lamp is associated with a lamp malfunction or lack of power in the network (for example, with a break inside the lamp) .

Technical essence, illustrated by drawings.

Figure 1 - General view of the lamp

Figure 2 is an example of a possible circuit diagram of the device.

The described example is given for a compact fluorescent lamp. The lamp comprises a discharge tube 1 provided with a phosphor coating and filled with a working substance. The ends 2 and 3 of the tube 1 can be directed, for example, in one direction (see figure 1). A control gear (PRA) 5 is located in the lamp housing 4. The housing can be provided with a cap 6. At each end 2, 3 of the discharge tube 1, legs 7 with electrode holders are hermetically fixed. The legs 7 with electrode holders are connected to contact elements (not shown) of the ballast 5. The lamp is equipped with a control LED 8 located on the surface of the housing 4 and connected through a current-limiting resistor 9 (see Fig. 2) to the lamp circuit.

The device operates as follows. When the switch 10 is turned on, voltage is supplied to the circuit. With a faulty lamp 11 and a good connection with the power source 12, the control LED 8 lights up, which indicates that there is a voltage in the network and it is necessary to change the lamp. If the control LED 8 also does not light, then two options are possible: either there is no connection to the power source or there is no power in the network. The latter is checked by turning on other electric heaters, after which a final conclusion is made.

There are other connection schemes, for example, with additional elements for switching off the control LED when the lamp is on.

It is possible to place the control LED in the housing of conventional fluorescent lamps, the ends of which are directed in different directions.

When a resistor is installed in the device, the operation does not have significant differences, but it makes it possible to change the nominal values of current-limiting elements for the optimal choice of the device operation mode.

The inventive device can be manufactured using well-known materials, electrical elements and technologies.

This device does not have complex design features, differs in small dimensions, ease of execution. It can act as a standalone device, or used as part of more complex fixtures. They also have the advantage of minimal manufacturing costs.

Claims (2)

1. A fluorescent lamp containing a housing, a discharge tube provided with a phosphor coating and filled with a working substance, legs with electrode holders, hermetically fixed at each end of the discharge tube and electrically connected to a ballast apparatus (PRA) located in the housing and connected to the power supply, characterized in that the lamp is equipped with a control LED located on the surface of the housing and connected to the lamp circuit. 2. The fluorescent lamp according to claim 1, characterized in that the LED is connected to the lamp circuit through a current-limiting resistor.