SU1195309A1 - Apparatus for testing incandescent lamps - Google Patents

Abstract

A DEVICE FOR MONITORING LIGHTING LAMP, containing a switch connected by the first outputs of the first and second closing contacts to the corresponding first and second terminals for connecting the alternating voltage source, the second outputs of the first and second closing contacts, respectively, to the first and second terminals for connecting the controlled glow lamp, The first incandescent lamp, the first amplifier, characterized in that, in order to expand the functionality of the device by providing control equivalent operation time, service life and the equivalent luminous flux of an incandescent lamp, a time counter, an induction measuring mechanism, a second incandescent lamp, the first, second, third, fourth, fifth, sixth, seventh and eighth diodes, the first and second resistors, the second amplifier, the first and second inputs of the time counter are connected respectively with. the second terminals of the first and second make contacts, the switch, the second output of the first contact contact of the switch are connected via the first glow lamp to the first lead of the first resistor and the interconnected anode of the first diode and the cathode of the second diode connected to the second output of the second cathode and anode. the closing contact of the switch non-indirectly, and through the second incandescent lamp, with the cathode of the third diode and the anode of the fourth diode, the cathode of which is connected to the anode of the three diode and the second of the first closing contact of the switch, the cathode of the third and anode of the fourth diode of the cathode the diode, with the anode of the sixth diode and with the first output of the second, the resistor connected to the second output with the first inputs of the first and second amplifiers, with the cathode of the seventh diode and with the anode of the eighth diode, the cathode of which It is connected with the anode of the seventh diode and with the first pin of the first resistor connected by the second lead to the anode of the fifth and cathode of the sixth diode and to the second inputs of the first and second amplifiers connected to the second windings of the inductive measuring mechanism.

Description

one

The invention relates to the control of measuring technique and can be used to estimate the operating time of incandescent lamps.

The purpose of the invention is to expand the functionality of the device by controlling the equivalent operating time, service life and the equivalent luminous flux of the incandescent lamp.

The drawing shows a diagram of the device.

The device for controlling the incandescent lamp 1 comprises a switch 2, a time counter 3, an induction measuring mechanism 4, a third 5, a fourth 6, a first 7, and a second 8 diodes, the first 9 and a second 10 an incandescent lamp, the fifth 11, the sixth 12, the seventh 13 and eighth 14 yyody, first 15 and second 16 resistors, first

17 and second 18 amplifiers. Switch 2 is connected first

The first and second short-circuit terminals with the corresponding first and second terminals for connecting an alternating voltage source, the second terminals with the first and second terminals of the pTs for connecting a controlled incandescent lamp 1, respectively. The first and second inputs of the time counter 3 are connected respectively to: the second terminals of the first and second closing contacts of the switch 2. The second terminal of the first closing contact of the switch 2 is connected via the first incandescent lamp 9 to the first terminal of the first resistor 15 and interconnected by the first diode 7 and the cathode of the second diode 8, connected by the cathode and the anode, respectively, with the second output of the second closing contact of the switch 2 directly, and through the second incandescent lamp 10 with the cathode of the third diode 5 and ano ohm fourth diode 6, the cathode of which is connected to the anode of the third diode 5 and to the second one of the first closing contact of switch 2. The third cathode 5 and anode of the fourth 6 diodes are connected to the cathode of the fifth diode I2 and the first high of the second resistor 16 connected by the second output with the first inputs of the first 17 and second

18 amps, with the cathode of the seventh

953092

diode 13 and the anode of the eighth diode 14, the cathode of which is connected to the anode of the seventh diode I3 and the first pin of the first resistor 15 connected by the second pin to the anode of the fifth 11 and the cathode of the sixth diode 12 and the second inputs of the first 17 and second I8 amplifiers connected by the first and second outputs

 with the inputs of the respective windings of the induction summing mechanism 4.

The device works as follows.

The control of the incandescent lamp 1 consists in measuring the actual operating time (t) of the lamp i and comparing it with the given value 0 (0 d,) - In this case, if. the lamp is considered unusable because it has used up the entire resource. This lamp must be replaced. In addition, the remaining life (tp) of operation of the lamp 1 is periodically monitored, which is determined from the ratio

(one)

where t is the total connection time 1 to the mains

For control of the incandescent lamp I, the switch 2 is turned on, while the alternating voltage of the primary network is supplied to the lamp I and to the counter 3 times. Thus, all the time during which the lamp 1 is lit, the counter 3 is on and counts the value of t.

During operation of the lamp I, the voltage of the network may fluctuate and deviate from its nominal value (s) both upwards and downwards. It follows from (1) that the incandescent lamp 1, which was connected to the mains during the time t., G and operated under voltage and was worn out in time, as well as the lamp that actually worked out time t

TO

(2).

9 Uu -h

From (2) it follows that the actual wear of lamp 1 is proportional to the fourteenth degree of the relative variation of the supply voltage and is determined by the value of tg. 3 To measure time t, the device uses an induction measuring mechanism 4, for example, an electricity meter whose readings are proportional to 14 (degrees of the Ug / U ratio. Two bridges are used to provide the necessary power dependence. The first bridge is made on diodes 5-8 and lamps 9 and 10 glowing, the second bridge is made on diodes 11-14 and resistors 15 and 16. When the network voltage is close to UH, the imbalance of the first and second bridges is insignificant, which ensures the formation of signals at the outputs of amplifiers 17 and 18 proportional to Since the indications of the induction mechanism 4 are proportional to the production of voltages at its inputs, the mechanism fixes the result that is proportional to –iu, fuj and „, i.e., the same as the time counter 3. With a relative deviation and, / Tsz network voltage relative to the voltage from the first bridge to the second bridge, proportional to the power function of the magnitude. This power function is provided due to the nonlinearity of the characteristics of the diodes 5-8 and the power bank lamps 9 and 10. When the voltage increases the current flowing through the diodes 5–8 i.lamsh 9 and 10 of incandescence, which non-linear dependence of the resistance of diodes 5–8 and lamps 9 and 10 on the current flowing through them, leads to a significant decrease in the diode resistance and with bulbs. As a result, the imbalance of the shoulders of the bridge increases nonlinearly (depending on the input voltage), which ensures a significant increase in the output voltage of the bridge on the elements 5-10. The output voltage of the bridge, made on elements 5-10, is fed to the input diagonal of the second bridge, executed on elements 11-16, where it is also nonlinearly transformed in accordance with the power function. The inclusion of resistors 15 and 16 (instead of incandescent lamps 9 and 10 at the first bridge) in the shoulders of the second bridge is not. how much reduces the power of the power function n) formation, realized by the second bridge, compared with the function of the first bridge converter, since the resistance of resistors 15 and 16 does not depend on the current passing through them. The selection of the parameters of element 5-16 of the first and second bridges, each of the diodes of which can be made, for example, a composite (of several series-connected diodes), provides a voltage proportional to the seventh degree Uj / U for the inputs of the amplifiers 17 and 18 gas-filled lamps 1 or grade 6, 5 for vacuum lamps. After amplification by amplifiers 17 and 18, their output voltages are multiplied by an induction mechanism 4, the reading of which is proportional. (B) hb) (h) h1e. the value of ccv1 of the operating time of the incandescent lamp 1 is divided in accordance with relation (2). Based on the indications of the induction mechanism 4, the real time t of the lamp 1 is determined and, comparing it with t,., The suitability of the lamp I is determined. for further operation, since in the case of a reduced voltage U of the network U, the indications of the induction mechanism 4 will be less than the counter 3 times, and in the case of higher Ug-f values more than the counter 3 times, in the red case the valid incandescent lamps 1 are excluded, and in the second, a pass for the continued operation of unusable incandescent lamps. From the reading tg of the induction mechanism 4, using the relation (1), the remaining life of the lamp 1 can be determined. By selecting the parameters of elements 5-16, a power function of the ratio (U, / / Tsz) can be provided, which in accordance with (2) allows to estimate the equivalent value of Ф, -light flux of the lamp 1 with the ratio Ф} (- (Уа.) н Uh - the value of the luminous flux at the voltage of the network U. Thus, the device due to the introduction of elements 3, 4, 5-9, 11- 17 provides the ability to control, in addition to the current value

51195309

the luminous flux, controlled by the work of tp of incandescent lamps I, a prototype, is also equivalent, which significantly expands the function of the values of the luminous flux P ,, the equivalent possibilities of the proposed valence time tg of work, the lifetime of the device.

Claims (1)

DEVICE FOR CONTROL OF LAMPS, containing a switch connected by the first terminals of the first and second make contacts to the corresponding first and second terminals for connecting an AC voltage source, the second terminals of the first and second make contacts - respectively, with the first and second terminals for connecting a controlled incandescent lamp, the first incandescent lamp, the first amplifier, characterized in that, in order to expand the functionality of the device by providing equivalent control tape operating time, operating life and equivalent luminous flux of an incandescent lamp, a time counter, an induction measuring mechanism, a second incandescent lamp, the first, second, third, fourth, fifth, sixth, seventh and eighth diodes, the first and second resistors are introduced into the device , a second amplifier, wherein the first and second inputs of a time counter are connected respectively to. by the second terminals of the first and second make contacts, the switch, the second output of the first make contact of the switch is connected through the first incandescent lamp to the first terminal of the first resistor and to the anode of the first diode and the cathode of the second diode, connected by the cathode and the anode to the second terminal of the second. closing contact switch directly, but through a second lamp filament - to the cathode of the third diode and the anode of the fourth diode, the cathode of which is connected to the anode of the third diode and a second terminal of the first switching contact switch, the cathode of the third diode chetvertoto minutes anode connected to the cathode of diode ¹ five- , with the anode of the sixth diode and with the first terminal of the second, a torus connected to the first inputs of the first and second amplifiers by the second terminal, with the cathode of the seventh diode and with the anode of the eighth diode, the cathode of which is connected to the anode ohm of the seventh diode and with the first terminal of the first resistor connected by the second terminal to the fifth anode and to the cathode Joint venture 00 о © simple diodes and with second inputs of the first and second amplifiers connected by the first and second outputs to the inputs * of the corresponding windings of the induction measuring mechanism. ? 195309