RU2000032C1 - Starter for firing of gaseous-discharge lamps - Google Patents

Abstract

Usage: in ballasts that provide ignition and emergency shutdown of gas discharge lamps. In order to increase reliability and increase service life, two heat-sensitive elements are installed in the starter. The first heat-sensitive element ignites a gas discharge lamp. The second heat-sensitive element connected with the posistor provides thermal protection of the starter from burnout and breakdown of the structural elements of the lamp. The invention can be used in radio tube production. 2 ill.

Description

Joint venture

WITH

The invention relates to electrical engineering, in particular to ballasts that provide ignition and emergency shutdown of gas discharge lamps.

The purpose of the invention is to increase speed and reliability.

In FIG. 1 presents the proposed device; in FIG. 2 is a simplified circuit diagram for starting a starter C with a two electrode discharge lamp.

In the evacuated cylinder 1, the current leads 2-10 are sealed. Inside the cylinder 1 there is a frame consisting of two parallel electrical and heat insulating flat screens 11 and 12, rigidly interconnected by electrically conductive posts 13-18, the ends of which are rigidly fixed in the holes of the tubular sockets 19-24, as well as on the screen 12 in the holes of the tubular sockets 25-30. Near the screen 12, on the uprights 14 and 20, a first electrically conductive jumper 31 is installed containing a fixed contact 32. Near the screen 12 on racks 15 and 21 a second electrically conductive jumper 33 is installed, containing a fixed contact 34 in the central part. In the tubular sockets 35 and 36, rigidly mounted on the screen 11, two ends of the first U-shaped heater 37 are rigidly fixed, the apex of which is rigidly lapped to the fixed end of the first heat-sensitive element 38.

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contact 30. which is spring loaded with respect to the fixed opposite contact 32 by a value of 25-60% of the maximum stroke of the free end of the first heat-sensitive element 38. The specified heat-sensitive element can be made of an alloy having a reversible shape memory effect, and of high-quality thermal bimetal . In the tubular sockets 40, two ends of the second U-shaped heater 41 are rigidly fixed, the top of which is rigidly lapped to the fixed end of the second heat-sensitive element 42. The movable end of the second heat-sensitive element 42 contains a rigidly fixed contact 43, which is spring-loaded with respect to the fixed contact 34 by the amount of 60-90% of the maximum possible free play of the end of the second heat-sensitive element 42. The specified heat-sensitive element can be performed ene alloy having shape memory effect, and also of thermostatic bimetals. In order to control the time (temperature) of the return of the second movable contact 43 to the closed initial state with the second fixed contact 34, a brace 44 is placed on the lateral surfaces of the heat-sensitive element 42, which ensures a clean bending of the heat-sensitive element 42 when it is cooled. By the maximum possible stroke of the free end of the heat-sensitive element, it is necessary to understand: the maximum possible movement of the movable end and the element when the temperature changes in the range from -196 ° C to 300 ° C (absolute value of displacement). In this case, the thermosensitive elements are selected in such a way that the main change in their shape lies in the temperature range -50 ° C -100 ° C. Near the screen 11, two ends of the resistor (posistor) 45 are rigidly fixed to the stand 15 and the fixed end of the heat-sensitive element 38. The stand 13 is electrically connected to one of the ends of the U-shaped pre-heater 37 installed in the socket 35, and one of the current leads. The stand 14 is electrically connected to one end of the second heater 41. installed in the socket 40. The stand 15 is electrically connected to the fixed contact 34. The stand 16 is also electrically connected to the fixed contact 34 and one of the free current leads. The stand 18 is electrically connected to one of the ends of the heater 37, rigidly mounted in the socket 36. The stand 17 is electrically connected to the fixed contact 32. One of the free ends of the heater 41 is rigidly mounted on the socket 40. In the free slot 46 on the screen 12 is rigidly fixed getter leg 47. Two electrodes 48 and 49, which perform the function of bursts, are rigidly attached to sockets 25 and 26 on the screen 12.

in the starter 50 start-up circuit with a two-electrode discharge lamp 51 (Fig. 2), terminal 52 is connected to one end of the inductive throttle 53, the second end of which is connected to one of the ends of the first

5 of the heater 37. The other end of the heater 37 is connected to one of the electrodes of the lamp 51. The fixed end of the first heat-sensitive element 38 is rigidly attached to the top of the heater 37,

0 movable contact 39, supported by fixed contact 32, electrically connected to one end of the second heater 41 and to terminal 54. The second end of heater 41 is connected to the second end of the gas discharge lamp 51. The fixed end of the second is rigidly attached to the top of this heater 41 thermosensitive element 42, the movable contact 43 of which is supported by

0 fixed contact 34. A resistor 45 (posistor) is connected between the fixed contact 54 and the fixed end of the heat-sensitive element 38. The dashed lines respectively show the extreme

5, positions 55 and 56 of the heat-sensitive elements 38 and 42 in the operating mode of the lamp 51. When the electric voltage is turned on to terminals 52 and 54, the main current passes through the inductive choke 53,

0 half of the heater branch 37, thermosensitive element 38, movable contact 39, fixed contact 32. At the same time, a small current (several milliamps) passes through resistor 45, contacts 13 and 34, thermosensitive element 42, half of heater branch 41. The first ensures contact break 39 and 42 temperature-sensitive element 38. In the process of opening

0 pins 39 and 32 in the inductive choke 53, a high voltage pulse is generated due to the self-induction EMF of the throttle 53, which is simultaneously applied to the main discharge gap of the lamp

5 5 and to a parallel-connected resistor 45. After ignition of the lamp 51, contacts 39 and 32 remain open due to further heating of the thermosensitive element 38 from two VRTWRs under the relay .37 and resistor 45. Further development

the arc discharge in the lamp 51 causes the heat-sensitive element 42 to heat from the two branches of the heater 41. This leads to the subsequent rupture of the contacts 43 and 34. Thus, the ignition of the discharge lamp 51 provides the temperature-sensitive element 38. The second temperature-sensitive element 42 provides shutdown of the main shunt discharge lamp gap of resistor 45 after ignition.

In the mode of short-term shutdown of the electric voltage source (pause 0.2-3.0 min), the proposed device shown in the diagram (Fig. 2) operates as follows. As a result of cooling of the starter 50, the temperature-sensitive element 38 returns to its original position from position 55 When the mains voltage appears at terminals 52 and 54, the temperature-sensitive element 38 is again heated to its initial shape temperature, while contacts 39 and 32 open and the lamp 51 lights up again. In this case, the contacts 43 and 34 continue to maintain a normally open state, since the temperature-sensitive element 42 has a lower temperature of restoration of the original form.

The operating mode of the starter 50 with the faulty lamp 51 is based on the following principle. After the electric voltage is turned on at terminals 52 and 54, the main electric current passes through the inductor 53, half of the branch of the heater 37, the thermosensitive element 38, normally closed contacts 39 and 32. The thermosensitive element 38, periodically heating and cooling, makes 3-5 attempts the ignition of the lamp 51, after which it is set to position 55. In this case, the contacts 43 and 34 remain in a normally closed state until the faulty lamp 51 is replaced. etsl p.

The installation of a second heater in the starter having a U-shaped top ensures continuous heating of the second heat-sensitive element in the lamp operation mode, which ensures a constant open position of the second contacts, the U-shaped shape of the top of the second heater provides the necessary mechanical strength of the heater-second heat-sensitive connection element, as well as the effective thermal connection between these structural elements by increasing the area

heat transfer under conditions of pz / um inside the banana.

The introduction of a second temperature-sensitive element into the starter makes it possible to provide 5 two main operating modes of the device with the lamp. The first mode of operation with the lamp is characterized by the fact that, after ignition, the second thermosensitive element breaks the electrical branch from the 10-switched resistor, which, when ignited, electrically shunts the main discharge gap of the lamp, limiting the amplitude of the ignition voltage pulse to normalized 15 values. As a result of ignition of the lamp, the second temperature-sensitive element, like the first, opens the contacts. The second mode of operation of the device with a lamp is characterized by the fact that when the lamp 0 goes out of line 0, the second thermosensitive element with a higher response temperature maintains the normally closed state of the second contacts, while the first thermosensitive element 5 makes 2-3 attempts ignition and is installed in the normal open position of the first contacts, maintaining this position until the moment the mains voltage is turned off. When voltage source 0 is turned back on, the described mode of operation of the device with a faulty lamp is repeated.

The selected value of springing the second movable contact to the second non-movable contact, which is 60-90% of the maximum possible stroke of the movable end of the second heat-sensitive element, allows a certain sequence of operation of two temperature-sensitive elements in time to be carried out. Thus, in all cases, the first heat-sensitive element provides the first ignition of a gas discharge lamp. The second thermo-5 sensitive element begins to work as the second, as a logical structural element according to one of the above described operating modes.

The amount of springing of the second fixed contact to the second fixed contact, which is less than 60% of the maximum possible stroke of the movable contact, leads to a situation in which the second heat-sensitive element 5 opens the contacts first. This is due to the fact that when the device is inserted into the device, two thermally sensing elements are identical in temperature of operation under conditions when the magnitude of the working gap between the second contacts is; less than the working gap between

first contacts, premature opening of the second contacts takes place. This leads to the exclusion from the electrical circuit protection of the elements of the lamp. As a result, for example, in the event of a lamp failure, the starter operates continuously in the ignition mode, which causes the throttle and the starter itself to burn out.

The magnitude of the spring contact of the second contact to the second fixed contact, which is more than 90% of the maximum possible stroke of the movable contact, causes the main discharge gap of the lamp to be shunted by these contacts due to a decrease in temperature on the first heat-sensitive element with a decrease in the value of the transmitted current during development and the formation of an arc discharge in the discharge gap of the lamp. This causes the lamp to go out at the stage of transition to the established mode of its operation.

Installing a resistor (posistor) inside the container between the fixed end of the invention. Starter for igniting gas-discharge lamps, containing a pumped-out ball with sealed current conductors and a heat-sensitive element in the form of a plate, at the end of which a movable contact is fixed, forming a contact pair with a fixed contact electrically connected to one of the current inputs, characterized in that, in order to improve performance and reliability, it is equipped with an additional heat-sensitive an element installed parallel to the first one, also made on the form of a plate, on the end of which an additional movable contact is installed, forming a second contact pair with an additional fixed contact, also connected to one of the current leads, a frame consisting of two parallel electrical and heat-insulating flat screens interconnected by a rigidly several heat-sensitive element and a second fixed contact allows you to create conditions for directional action Thermal energy released by the active part of the resistor (poistor) through the heat conductor; the metal end of the resistor is the metal body of the first heat-sensitive element. In this case, thanks to the high vacuum inside the cylinder,

insulating said elements from the thermal effects of the environment eliminates the dissipation of thermal energy into the environment. In addition, the electrical connection of the resistor parallel to the main discharge gap of the lamp suppresses the ignition voltage pulse to a normalized value, which eliminates the electrical breakdown of inductive throttle and auxiliary fittings. If the lamp ignition fails, a current of 2-5A passes through the specified resistor, which does not cause a strong heating of the starter.

electrical conductive racks, electrically connected to the respective current leads, on each of the two pairs of the indicated racks there is a corresponding conductive jumper in the central part of which is installed the corresponding of the fixed contacts, tubular sockets are rigidly installed in the screens, the ends of the first and second heaters, the vertices of which are U-shaped and are connected over one surface to one side of the fixed end of the corresponding temperature sensor of the element, the movable contacts of the first and second contact pairs are spring-loaded with respect to the corresponding fixed contacts, not a value of 25-60 and 60-90% of their maximum stroke, respectively, but a resistor is connected between the fixed end of the first heat-sensitive element and the additional stationary contact .

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