RU2045825C1 - Combined illumination unit - Google Patents

Abstract

FIELD: illuminating devices. SUBSTANCE: additional luminescent lamp 2, incandescent lamp 4, switch 11 are connected to diodes 5-8 and capacitors 9 and 10. This results in possibility to double light-illuminating area of luminescent illuminating unit for flashing illumination of transparencies and advertising boards having large area. Invention can be used for advertising boards, transparencies as well as for local incandescent lamp devices: sconces, desktop lamps, an so on. EFFECT: increased functional capabilities. 1 dwg

Description

 The invention relates to fluorescent lighting equipment and can be used in lighting systems for general fluorescent lighting, for example, advertising stands, banners, etc. and at the same time local lighting with incandescent lamps, for example sconces, table lamps, etc.

 Known lighting installation containing a fluorescent lamp with a throttle ballast, included in one diagonal of the bridge, the shoulders of which are made up of windings of other chokes [1] Another diagonal of the electric bridge is made up of electrical energy sources, a fuse and an additional inductor shunted by incandescent lamps. On two shoulders of the bridge, the chokes are also shunted with corresponding incandescent lamps (LN), and the LN are located in the immediate vicinity of the fluorescent lamp (LL) (gas discharge) and are designed to warm it with their heat before starting the LL.

 A disadvantage of the known lighting system is its low efficiency due to the large losses of electric energy in chokes and LV.

 The closest technical solution is a combined lighting installation containing LL with ballast LV, two capacitors connected in series and four diodes connected interconnected, the extreme free leads of which are included in the LL power supply circuit with ballast LL, the central midpoint of the diode connection is connected to one source terminal alternating current, and other midpoints of the diode connection are connected to the corresponding free terminals of the capacitors, the central connection point of which is connected to the other terminal of the AC source [2] Using capacitors and diodes, the voltage is doubled at the time of starting the LL, the filament of which may be previously blown. Ballast LN creates an additional luminous flux for local lighting.

 The disadvantage of the prototype is the small light-emitting surface of the lighting installation, since the light flux emits only one LL.

 The aim of the invention is to increase the light-emitting surface of the lighting installation by connecting additional LL with the simultaneous disconnection of its ballast LV.

 The essence of the invention lies in the fact that, in addition to the known and general distinguishing features, namely LL with ballast LV, two capacitors, one of the terminals connected to one of the terminals for connecting to an AC source, four centrally connected diodes, the central midpoint the connections of which are connected to another terminal for connection to an alternating current source, and the other midpoints of the connection of the diodes are connected to the corresponding free terminals of the capacitors, one of the free terminals of the diodes connected to one of the terminals of the LL, the other terminal of which is connected to one of the terminals of the ballast LN, the proposed combined lighting installation is characterized in that a second LL, the second ballast LN and a switch with closing and opening contacts are inserted into it, and one of the terminals of the second LL is connected with a free output of diodes, and its second output is connected to the output of the second ballast LV and one output of the make contact, the other output of which is connected to the combined terminals of the first LL and ballast LV, the free output to Torah connected to the other terminal for connection to an AC power source, to which via a break contact switch connected to the second free output ballast LN.

 The drawing shows an electrical diagram of the installation.

 The installation contains the main and additional LL 1 and 2, for example, unsuitable for use in conventional starter switching circuits due to burnout and breakage of the filament, the main and additional ballast LV 3 and 4, diodes 5-8, capacitors 9 and 10, switch 11 with make and break contacts, and the make contact has a delay for opening.

 In the initial position, one terminal of the AC source is connected to one of the terminals of the capacitors 9 and 10, and the other terminal of the source is to the central point of connection of the diodes 5-8, to LN 3 directly and to LN 4 through the NC contact of switch 11. The central point of connection of diodes 5, 6 and 7, 8 is connected to the terminals of capacitors 9 and 10, respectively. LL 1 and 2 are included in the corresponding circuit between the diodes 5 and 8 on the one hand and the make contact of the switch 11 on the other hand.

 The proposed installation works as follows.

 When an alternating current supply voltage appears, the half-wave supply voltage doubles on the plates of capacitors 9 and 10, due to the consonant inclusion of diodes 5-8. Due to the generated double voltage, a “cold” start of LL 1 and 2 through ballast LV 3 and 4, respectively, is carried out. Previously unsuitable for operation in starter circuits, LLs work and create a luminous flux using the proposed electrical circuit for their inclusion, which increases the service life of LLs by 70% simplifying the issues of their disposal.

 The current flowing through the ballast elements 3 and 4 creates an additional luminous flux, which, although small in comparison with the luminous flux from LL 1 and 2, but if ballast LV, for example LV 3, is used as a source of local lighting (sconce, table lamp, etc.), the proposed lighting system provides the highest light output due to the use of the energy of the voltage drop on the ballast, which was previously spent on all known ballast elements in the form of heat loss, creating unwanted noise, humming oil, and not to create additional light flux.

 When the switch 11 is turned on, the ballast LVs 3 and 4 are switched on briefly parallel to each other, and then, after a delay time, the opening contacts of the switch 11 turn off the ballast LV 4. During the technological dismantling of the LV 4, it can be used for other electrical circuits.

 Thus, in the LL operating mode, one LN 3 provides ballast functions to two LL 1 and 2 at once. The current flowing through the LN 3 is doubled. Therefore, the power of the LN 3 should be selected more than the power of the lamps 1, 2 and 4. The pulsations of the light flux from two LL 1 and 2 taking place are necessary for displaying advertising stands, banners, etc. with a large surface presented by the light information.

 The positive effect of using the invention is that the light emitting surface of the lighting installation is doubled, since instead of one LL, the light flux emits two LL at once with one common scheme of their launch.

Claims (1)

 COMBINED LIGHTING INSTALLATION comprising a fluorescent lamp with an incandescent ballast lamp, two capacitors, one of the terminals connected to one of the terminals for connecting to an alternating current source, four diodes connected in series, the central midpoint of which is connected to another terminal for connecting to an alternating source current, and other midpoints of the diode connection are connected to the corresponding free terminals of the capacitors, one of the free terminals of the diodes is connected to one m from the terminals of the fluorescent lamp, the other terminal of which is connected to one of the terminals of the ballast incandescent lamp, characterized in that in order to increase the light emitting surface, a second fluorescent lamp, a second ballast incandescent lamp and a switch with make and break contacts are inserted into the installation, one of the conclusions of the second fluorescent lamp is connected to the free output of the diodes, and its second output is connected to the output of the second ballast incandescent lamp and one output of the make contact, the other output to orogo connected to the first joint-pin fluorescent lamp and ballast incandescent bulbs, free output of which is connected to the other terminal for connection to an AC power source, to which via a break contact switch connected to the second free output ballast incandescent bulbs.