DE1002082B - Device for the time-delayed opening of the short-circuit connection between the preheating electrodes of a gas discharge lamp - Google Patents

Description

Patent 921,705 relates to a device for the delayed opening of the short-circuit connection between the two preheating electrodes of a gas discharge lamp, which is preceded by a choke coil is, using the magnetic force field generated by the ballast reactor, the acts on a time-delayed attracting armature provided for opening the short-circuit connection. In this device, the middle sheet-metal core leg which penetrates the winding of the A'Or switching choke coil protrudes the bobbin, and air gaps close on both sides of this free leg end on, and furthermore with this device on the free end of the leg there is one on this and one on one at the same time Pole piece attached to the traverse and furthermore are connected to the traverse by means of current heat Time-delayed locking member and a frame attached, and in this frame are a spring force standing armature as well as the opening contact for the ignition of the lamp arranged, and finally the traverse and the frame with the parts attached to it form one on the core of the Choke coil attachable unit. The hinged armature is like this in this device by a locking member latched that when switching on the tightening of the armature and thus the opening of the two lamp electrodes connecting short-circuit contact is initially prevented. In the period following switch-on the locking member bends under the influence of a direct or indirect from the electrode preheating current Resulting exposure to heat in such a way that with a time delay the unlocking and thus the The armature is tightened and the short-circuit contact opens. The opening of the short-circuit contact pulls the interruption of the current heat effect on the locking member and its re-cooling after himself. When the device according to patent 921 705 is switched off, the choke coil current is interrupted, the hinged armature falls off under the action of a return spring and is Locking member latched again; that for the short-circuit connection between the two lamp electrodes intended contact is closed again.

In the structural design of this device, it is desirable to use the choke coil as such to influence as little as possible by adding the switchgear. Already in patent 921 705 was therefore intended to run the device as a closed unit in such a way that it can be operated in the simplest possible way can be placed on the choke coil using three screws. This construction allows the cultivation the device according to patent 921705 to choke coils of various origins, the unit of Set up completely together beforehand for the delayed opening of the short-circuit connection between the

Preheating electrodes one

Gas discharge lamp

Addendum to patent 921 705

Applicant:

Justus Bäbler, Baden (Switzerland)

Representative: Dr.-Ing. O. Stürner, patent attorney,
CaIw-Wimberg, Ostlandstr. 36

Justus Bäbler, Baden (Switzerland),
has been named as the inventor

can be built. The disadvantage here is that the magnetic coupling of the device with the The inductor field is relatively weak. The result is that the magnetic force of the Choke coil current on the armature actuating the short-circuit contact is relatively small. if Even with normal operating currents, the armature is still attracted safely, as there are shortcomings, if for some reason the normal operating current is not reached. This occurs if the operating voltage drops too much below its normal value or if against End of lamp life the discharge current as a result of advanced sputtering of the emission layer of electrodes goes down. The consequence is that the tightening of the Armature after its release by the locking member and thus the opening of the short-circuit contact still takes place, but the armature is not held by the core, since the current of the short-circuit contact is still additional falls off. The consequence is a periodic movement of the armature, at least for a longer period of time Time must be prevented.

If the time-delayed opening of the short-circuit connection between the lamp electrodes in modification the device according to patent 921,705 is not affected by the magnetic force field of the lamp voltage stabilizing choke coil, but by using a special electromagnetic relay If its own excitation coil is to take place, it is advantageous if this relay has the lowest possible power consumption and small dimensions. However

609 7: 69i / 212

for relays with such properties is the armature tightening force not too big, so that under the difficult operating conditions listed in the previous paragraph likewise with an undesired periodic actuation of the contact device is to count.

In order to avoid the disadvantages mentioned, in a further development of the device according to patent 921 705, means are provided according to the invention, which correspond to the distance α to. In the attracted state, therefore, on the one hand, only a small magnetic force is required to hold the armature. On the other hand, in the lifted state, the spring force and thus the contact pressure are high. Holding the armature is thus possible even with a small current, and nevertheless a considerable contact pressure can be achieved when the armature is lifted.

This is also at the free end 6 ^{a of the armature 6}

prevent the locking member 22 from falling when the lamp burns down, in such a way that when the lamp is lifted current occurring decrease of the magnetic force armature (Fig. 1 a) this the armature end 6 "engages below

and locks the anchor suit. The insulating piece 36 is placed on the armature 6, via which the pressure is applied the contact spring 37 and the one behind it in the same horizontal plane, which is not visible Contact spring 42 acts. The mating contact spring 38

effect of this current on the armature controlling the contacts of the short-circuit connection Contacts operated continuously. The agents can be used individually or in combination.

It is useful to design the return spring as a toggle spring, whereby it is achieved that the return force is smaller when the armature is tightened than when the armature is deflected, where the short-circuit contact is closed is.

The short-circuit contact can also be associated with a bimetal element, which, when heated, causes a time-delayed, sudden additional lifting of the contact. The lifting, which is a tilting movement, can cause permanent contact opening. In this case, the reset to the original rest position must be carried out by hand. The additional The opening movement can also be performed after or after the one behind it in the same horizontal plane. Counter-contact springs 43, which are not visible, are firmly inserted in the frame 51. At the free ends

so the springs 37 and 38 are the contacts 11 ° and II ⁶ and on the springs 43 and 42 the contacts 17 °

'and 17 ^& . The contacts 11 ° and 11 ^& form the short-circuit contact, they are each connected to a terminal of the electrodes of the lamps. The contacts 17 ″ and 17 ⁶ are in the circuit of the locking member. The contact spring 38 is a bimetallic spring.

The free end of the spring 38 is slit in the longitudinal direction into two parts 38 'and ^38. The part 38 ^& is bent over and lies on the end of the

Cooling of the bimetal element again reversely 30 in the housing wall inserted spring 39. the

can be made, whereupon the device is ready to be switched on again.

1 and 2 show a view and side elevation of a switching device built onto the throttle, namely in working position; Fig. 1 a shows the contact position without current;

3 shows the contact position with permanent contact lifting;

Fig. 4 shows the device in relay construction;

6, 8, 9, 10 show interconnections with lamp and choke.

In the embodiment shown in FIG. 1, the housing 51 made of insulating material is placed on the inductor core 1. To fasten it, three screws 63, 64, 65 are provided, which simultaneously press the core sheets together. Is located on the central part of the core in magnetic communication with this stationary core part pole piece 19. The pole piece is ^a of the housing 51 for the traversing member 51st B. firmly inserted by pressing. The locking member 22 is fastened by means of the screws 31, 32 (not visible) in a recess in this cross member. In a groove 33 in the side wall, the armature 6 is pivotably mounted in a rubber intermediate layer. For the magnetic yoke of the anchor, where these are not carried by the air is guided from below through the housing wall iron countersunk screw 34. The head face 34 ^a of countersunk screws 34 projects by a distance of about 1 mm relative to the jacket portion of the spool core, while the Bolt protrudes with clearance through a round hole in the anchor without touching it.

The toggle spring 41 presses against the free end 6 ^{a of} the armature, which is designed as a cutting edge. This is pivotably mounted in the slot 48 (FIG. 1 a) in the housing wall. The pivot point of the toggle spring is offset by a small distance α from the direction of the tightened flat armature, so that a constant force on the armature end presses against the ma-spring 39 with bias against the adjusting screw 55. By turning this screw, the deflection of the changes spring 39, thus that of the spring 38. This allows the distance between the contacts 11 ° and are set with relay armature 6 ^& 11. When the armature is lifted off, it presses through the insulating piece 36 with increased force against the springs 37 and 42. As a result, the contacts 11 °, 11 ^& and the contacts 17 ^a , 17 ^{& are} closed. In this position, the spring end 38 ^{6 is} slightly lifted from the spring 39. The deflection of the armature 6, which is under increased force of the toggle spring 41, is limited by the spring 43. Its position can be precisely adjusted by turning the screw 54 and thus the deflection of the lifted armature 6. The setting is made so that the locking member 22 just ^{slips under the anchor end 6 fl} and thus causes the anchor lock (Fig. 1 a).

At the end of the spring 38 ^a there is the roller 40, which is easily rotatable about the axis 44. The spring 45, which is fastened to the housing 51, presses against this roller in the longitudinal direction of the spring 38. As already briefly mentioned, the spring 38 consists of bimetal. If this spring is heated, it bends upwards, and so does the axis

44 of the roller 40 pushes itself over the bent end of the spring 45. After a tilted position has been exceeded, the pretensioned spring 45 snaps under the roller and suddenly lifts it by half its roller diameter as shown in FIG. 3. A complete and permanent interruption of the contacts 11 ° and 11 ^{& takes place} . By pressing button 46, the spring

45 are printed behind the roller 40, whereupon the roller and thus the contact spring 38 after Cooling jumps back to its original position.

To heat the bimetal spring 38, a heating coil 47 is provided on it, the current of which ^{flows through the contacts 11 °, 11 &} and is therefore also interrupted after these contacts have opened.

magnetic suit. This force increases steadily. 70 The time it takes for the bimetallic spring 38 to heat up

5 6

to lock them in place, the armature 106, which can be pivoted in the pivot bearing 133 delay time of the locking member 22, is much larger than normal. Chosen at the freely movable end of the armature so that a response within the normal 106 press two symmetrically lying toggle springs delay time for the opening of the contacts 11 ^a , 141, which are stored in cutter bearings 101 ^{a , II 6} and 17 °, 17 ⁶ not take place can. This connection to the armature 106 in such a way that, when the extension is de-energized, the armature is lifted off the core 102 by a correspondingly thick coil 103. On the insulation layer between the heating coil and the bimetal armature 106 is the spring 109 with the two reaches. For heating the bimetal spring 38- sided tabs 109 ^a . The contact can also be riveted into the spring 109 by the heating through the opening sparks 111 °. The tabs 109 ^a press resiliently on the contacts 11 ° and 11 ^& are used, io against adjusting screws 154, and the contact 111 " presses which by the periodic switching when too small resiliently against the contact Hl ⁶ , which occur in the bimetal current .spring 138 is riveted in. The sum of its forces

The operation of the arrangement of FIG. 1 corresponds corresponding to the deflection force of the spring 141. The armature speaks at normal operating conditions to that end 106 of ^{Figure 6} is in the rest position in engagement with the of the patent 921 705. Hereinafter, the mode ¹ S blocking member 122 which described by the screw 130 with wise in abnormal operating conditions, the frame 101 is screwed. The concern of z. B. with reduced mains voltage or with more or blocking element 122 on the armature, the emission layer of the lamp 154 can be adjusted by means of the screws that are less degraded. On the locking member 122 is the electrode, which makes ignition more difficult, or heating coil 151 is applied, through which the no longer occurs. ^ao electrode preheating current flows. The bimetal spring 138

Under such conditions, the base plate 149 made of insulating material in the base 150

Usually still a suit of the anchor 6 and thus a material used.

The contacts ll ^e and H ⁶ open, but the current that is severely The free end of the spring 138 is split in two halves is ultimately no longer sufficient to split 138 ^a and 138 ⁶ open. The end 138 ⁶ is to be kept tightened half the armature 6. The result is a circular bent ^a 5 and comprises, lasting in the rest position periodic switching. The opening sparks produced at a distance from the end of the spring 139. The spring presses the contacts 139 against the adjusting screw 155, which heats and heats the bimetallic spring 38. The heating support 153 is screwed in. When the armature winding 47 is tightened, the bent end of the spring 138 ⁶ on the bimetallic spring 38 also contributes to the heating of the 106 . This causes the free 3o spring 139 to bend. The contacts 111 ° and Hl ⁶ end of the spring 38 are upward. The roller 40 rolls lifted from one another. The remaining distance can slowly be adjusted beyond the end of the spring 45 until the screw 155 is used. After a certain tilted position has been exceeded, this distance is relatively suddenly snapped under the roller compared to the entire armature stroke and this is small towards the top. When the armature 106 is tightened, the coil slide remains. As a result, the spring 38 is additionally switched on after a large part of the armature stroke, bent at the top, and the contacts 11 ″ and 11 ^& which favors armature tightening.
Touch is more possible (Fig. 3). After the other spring half 138 ^a has cooled down at right angles, the spring 38 can be bent by pressing on the. The roller 140 rests on the bend, button 46 the spring 45 again behind the roller ⁴ ° which is mounted on the spring 145. The spring 145 are pressed, whereupon the spring 38 springs back into its resting position by means of the insulating piece 120 in the frame 101 and secures the contacts closed. The end of the spring 145 ° is in engagement with. The device is again ready for a new ignition through the opening 148 of the base plate 149. led stick 146. By pushing in the stick

The bending of the spring 38 when heated by ⁴⁵ 146 in the opening 148 leaves the roller 140 over

the winding 47 can also be reversed, that is to say lift the spring end 138 ^a. The role 140 is obvious

against the spring 37 , so that instead of a permanent bend on the spring end 138 ^a . If

interruption a permanent short circuit occurs. This heats the spring 138, which is a bimetal spring,

Short circuit only stops when the whole lamp - so this bends to the right, and the roller 140

Circuit is switched off. ⁵ ° snaps under the spring force of the spring 145

In Fig. 4 an embodiment is shown, below. As a result, the spring 138 is additionally bent to the right in the case of the magnetic force action of the. There is a sudden choke coil current by means of one of the stabilizing lifting of the contacts and thus a separate coil connected upstream of the choke coil resulting in a final interruption of the heating circuit. Again, a toggle spring is used to prevent ^55. The stops 154 that the spring 109 be succeeded so far with a minimum of magnetic force action spring 138 that a new contact to get along. Furthermore, there would also be thermal contact here. The provision takes place acting device for keeping open the short press on the rod 146 at the opening 148. circuit terminal during operation of the lamp is thereby vortexed saw 140 via the bend 138 ^a role, raised to a periodic switching at about ^6o, whereupon the Spring 138 again to interrupt its previous weak current after some time. Rest position jumps back. The heating of the bimetal - this time is considerably longer than the normal spring 138 , due to the heating of the contacts, the delay time for the opening of the short-circuit connection can take place during periodic switching. An additional heating coil 147 can also be used between the lamp electrodes in order to avoid switching off incorrectly. It is switched off ⁶ 5 which is only switched into the electrode preheating circuit when the burn-up is very advanced.

Lamp, so where a replacement of the lamp itself is already Fig. 6 shows the interconnection of the above

becomes necessary. explained, in Fig. 4 shown ignition throttle with

The magnetic core 102 with a series reactor and the electrode coil 103 are inserted in the frame 101. Opposite the core is ⁷ ° connections of a fluorescent lamp 4. Instead of the

Each coil can have an impedance or effective resistance suitable for the operation of gas discharge lamps can be used, e.g. a capacitor or an incandescent lamp. By using an incandescent lamp a mixed light combination '5 is achieved at the same time.

The structure according to FIG. 4 enables the use of a "relatively small magnetic coil; dimensions of approximately 15 X 15 X 15 mm are sufficient. With a mains voltage of 220 V and 0.41 A power consumption, the voltage drop across the coil 103 is approximately Ibis 3% of the mains voltage, which means that it can also be installed in existing systems without resulting in a practically noticeable reduction in current.

The coil acts at the same time as a precal timpedance for the blocking of signal frequency voltages present on the line. 7 shows a spring arrangement which automatically reverses the opening of the short-circuit connection between the lamp electrodes after some time. This arrangement is important in systems with a large number of lamps and where large and long-lasting voltage drops must be expected during operation. The contact spring 238 is connected in an articulated manner to the locking spring 245 via the tilting member 230. In the rest position, the spring 245 presses via the tilting member 230 on the spring end 238 °. The pressure of the spring 245 and the rigidity of the bimetallic spring 238 are such that no tilting occurs during normal operation. If, however, the bimetal spring 238 heats up and bends to the right, a sudden additional bend occurs after a certain bend is exceeded, and thus a contact lift-off. The circuit is completely interrupted and the periodic switching stops. The spring 238 is bent into the stop position shown in FIG. 7 a '. The spring 238 then cools down again, and after some time it springs back into its original position while simultaneously pressing the spring 245 upwards. The contact is closed again and the lamp electrodes are preheated again.

The fact that the armature does not drop when the lamp current decreases can also be promoted by that, as illustrated by FIG. 8, via a 4-5 shunt 60 to the fluorescent lamp 4, an additional one Electricity flows. The capacitor current of the phase compensator can advantageously be used for this purpose will. An incandescent lamp can also be provided in the bypass path 60, whereby at the same time Mixed light is achieved.

In the embodiment according to FIG. 9, the phase shifter capacitor 52 is connected to the tap of the choke coil. The armature holding current for the armature 6 is increased in this way by the capacitor current.

If a capacitor is used as a shunt to increase the holding current, then this is the case It can be measured that, as can be seen in more detail in FIG. 10, it forms a resonant circuit with the series choke coil forms and thus an increase in voltage occurs at the non-ignited gas discharge lamp 4. If the emission current decreases with aging gas discharge lamps, it is due to increased Ignition voltage, the operation of such lamps can still be maintained over a longer period of time.

Claims (15)

PATENT CLAIMS: 1. Device for the delayed opening of the short-circuit connection between the preheating electrodes a gas discharge lamp according to patent 921 705, characterized in that means are provided -are in order even with a reduced magnetic force effect when a decrease occurs of the lamp current a permanent periodic closure »to prevent this short-circuit contact. 2. Device according to claim 1, characterized in that the counteracting the anchor suit Return spring is a toggle spring. 3. Device according to claim 1, characterized in that the contact device for the Electron short-circuit connection is additionally controlled by a bimetal element, which at least a time-delayed, sudden additional lift-off movement when heated causes a contact of the contact device. 4. Device according to claim 3, characterized in that on the bendable end of a strip-shaped bimetal spring, which has one contact of the electrode short-circuit connection has, a spring on the end face of the heating bimetallic spring via a tilting roller acts in such a way that it is additionally bent when it is bent and when a tilted position is reached will. 5. Device according to claim 3, characterized in that on the bendable end of a strip-shaped bimetal spring, which has one contact of the electrode short-circuit connection has, a locking member acts resiliently on the end face of the heating bimetal spring, so that it is additionally bent when it is bent and when it reaches a tilted position. 6. Device according to claim 3 to 5, characterized in that the contact device for the electrode short-circuit connection additionally controlling bimetal element by the result of the opening spark heating contact is heated. 7. Device according to claim 3 to 5, characterized in that the heating of the Contact device for the electrode short-circuit connection additionally controlling bimetal takes place by a heating coil, which flows from the over the electrode short-circuit connection Electricity is heated. 8. Device according to claim 2, characterized in that that after cooling the contact device additionally controlling the bimetal element the lifted contact returns to its closed position. 9. Device according to claim 2, characterized in that the provision of the from Bimetal experiencing an additional lift-off movement Contact member is made by hand. 10. Device according to claim 8, characterized in that the contact to be lifted a a spring causing a tilting action is exposed, which when the bimetallic element warms up the contact for the electrode short-circuit connection opens and this contact closes again when the bimetal element cools down. 11. Device according to claim 1, characterized in that that a partial current flows through a shunt current path ad to the gas discharge lamp, the serves as an additional holding current for the armature of the contact device. 12. Device according to claim 11, characterized by that the shunt current path is formed by a capacitor. 13. Device according to claim 11, characterized in that an incandescent lamp as a shunt serves. 14. Device according to claim 12, characterized in that the in the shunt current path The capacitor located at the same time is part of a resonance circuit, which has an increased ignition voltage for the gas discharge lamp supplies. 10 15. Modification of the device according to one or more of claims 1 to 14, characterized characterized in that the means or the means, when the lamp current decreases, a continuous prevent periodic closing of the contact for the electrode short-circuit connection, Part of a special, for the delayed opening of the short-circuit connection provided between the lamp electrodes, operated by the lamp current electromagnetic Relay with its own excitation coil is. 1 sheet of drawings