DE396020C - Switching device for switching variable resistors on and off, especially in Leonard drives - Google Patents

Description

Switching device for switching variable resistors on and off, Benn Switching on Leonard drives is usually done in such a way that one excites the exciter dynamo of the working motor switches on fully and then the excitation of the exciter machine the control dynamo gradually increases to full excitation. Then you want the speed increase even further, one weakens the excitation of the exciter @ Iviiamo of the work engine gradually while fully maintaining the excitation dynamo of the control dynamo.

Fig. I gives an example of this. The activation happens with the control body i. 2 is the excitation winding of the exciter dynamo 12 for the control dynamo 32 with their excitation 22. 3 is the excitation winding of the exciter dynamo 13 for the ArlieitsmOtOr 33 with his excitement 23. Now becomes the control organ in the direction of the arrow 4. rotated, a current of + goes through the arc io and (read control organ i first through the gradually decreasing resistance 6 and so excites the other side applied excitation winding 2 more and more; at the same time a current flows from io over the contact sheet 8 directly over the field winding 3 after - so that this winding is immediately fully excited. If the control element i is rotated by 180 °, it is so in the example vertically upwards, both excitations 2 and 3 are fully excited. If the control element i is continued in the direction of arrow 4, the remains Excitation 2 via; len arc 7 fully maintained while the current to the excitation winding 3 must flow through the gradually more and more switched on resistor 9, so that the excitement 3 is gradually weakened more and more. The consequence is that the working motor 33 assumes an ever increasing speed.

If you switch back in the direction of arrow 5, the excitement is 3 initially stronger again by shortening the switched-on resistor 9. The speed of the working motor 33 thus decreases. But is this engine very big or connected with large: \ Zassen, such as flywheels or heavy machinery, its speed drop, especially when the work machine is unloaded, cannot be as rapid go ahead, how to return the controller i or at least return it can. The result of the fact that the work motor 33 is now running faster than the position of the controller i corresponds to your resistor 9, is that he acts as a generator and generates a very high voltage, which he controls the control dynamo 32 pushes on. This creates unpleasant consequences, such as z. B. round fire to the Collectors, which can lead to serious damage to the machines.

According to the invention, this damage is grounded by a switching device avoided whose switching element when switching off the change made when switching on each individual resistance is reversed in a known manner makes as it happened when switching on, but that it is the resistances depending on its sense of movement switches off in a different order than it corresponds to the reverse order when switching on. This will cause it to turn off which produced when switching on after the amplification of the excitation of the control dvlianio Weakening of the excitation of the working motor only after or at the same time finite Weakening of the excitation of the control dynamo reversed. You can use the switching device but also designed in such a way that (read the switching element in reverse Sequence as with the Üinschalteil switches off, but it is by known means all position of the resistances switched too early depending on his sense of movement Additional resistors switch. 0l> these resistors switched on or off «-earth depends on whether the additional and the replacement resistors are ballast or parallel resistors.

depending on the circumstances, e.g. B. according to the size of the candidate Motors and the type and size of the driven machines can be found under choose the means indicated; you can do all of them at the same time or just some of them use. You can also use finite means or for just prevent the control organ from returning too quickly.

Figs. 2 to 8 show examples of the invention, namely Fig. 2 to 6 the switching on and off in several positions; in this example the excitation 2 of the exciter 12 weakened immediately at the beginning of the switch-off movement, but the excitation 3 of the excitation machine 13 is only increased again after the excitation 2 is already severely weakened. Fig. 7 shows, for example, the switching element Figs. 2 to 6, Fig. 8 all an example of the circuit of an additional resistor and a blocking of the switching element against returning too quickly.

In the Fig.2 to 6 the resting parts of the switching device are Gegcii the Abli. i remained unchanged, only the contact sheets' 7 and 8 are very short Segments fused together. The switching element r is only used to remove the positive current from the contact sheet io and for taking along the auxiliary switching organ 21 for switching on excitation 2 and 31 for switching on excitation 3. Das Switching element 21 is a drag switch, that is, one that is operated by the switching element i as long as it is not taken by an attack or similar means is prevented from calling. This one has to be exact for the following considerations memorize, as well as that (read switching element 31 is not taken by i as long as one of the members 16 or 26 does not lie against 31, depending on the direction of rotation. Alles Instead of the clutch of 1 illit 21 by friction can of course also be any enter another suitable type of coupling. One must also note that the switching element 31 in Fig. 2 (read segment 7 not touched, but freely passes over it, like this from the dependency; can be seen.

Fig. 2 shows the switching device in the switch-off position. Will the switching element r in the direction of the arrow q. rotated, it takes the tow switch 21 and first leads him to the highest resistance level 46 of the resistance 6. At the same time, i runs onto the contact sheet io and thereby connects all three Switching elements 1, 21 and 31 with '-,.

As can be seen from Fig. 3, the switching element 31 has this first Switch-on movement and the further turning of the switching element i did not participate, but has stopped on its segment 8 because 31 is not coupled with 1. By the described part of the movement becomes full i, exactly as in the example after of Fig. i, the excitation 1119 3 through 8 immediately fully switched on while the excitation 2 is gradually increased by gradually shortening the resistor 6.

As soon as the switching element i in the example is perpendicular to ollen, is 21 on 7 and 31 still on 8, so that now both excitations 2 and 3 are fully switched on are. If i is now moved further to further increase the speed, up to about in those in Fig. d. position shown, 21 can no longer go because it is at the stop 17 got stuck and thus stopped at 7. Instead it is now 31 taken by the driver i0 on the switching element i from i. 21 keeps the Excitation from 2 through 7 fully upright, while by moving on from 31 and the associated switching on of innner larger ones Share the Resistance 9 the excitation 3 is weakened more and more, also just like in fig. i.

If the switching element r is now returned, as shown in FIGS. 5 and 6 is shown in two stages, 31 remains because it is not coupled with i and since the Mitnehrner 16 leaves it. 21 moves in the direction of the Arrow 5 with back, as it is coupled with i and not involved in the return movement Stop is inhibited. The attenuation of excitation 3 is maintained by 3 i, while excitation 2 is weakened more and more at the same time by 2.1. at the return angle remains 2-. between around 21 always the same until - how this can be seen from Fig. 6 - 21 abuts the stop 27 and thereby goes along with i is hindered `, so that the angle is reduced from then on; in the off position it becomes too lull, as can be seen from Fig. 2.

Only when the switching element i forms an angle of 180 ° with the switching element 31 is 31 also returned, in that it is carried along by the driver 26 attached to the rear end of i. If i has reached the switch-off position, 31 must point vertically upwards, thus adopting the position shown in Fig. 2. With the return of 31 , however, the excitation 3 is intensified; But firstly, this does not happen immediately at the beginning of the regression, and secondly, what is particularly important, it only happens when 2 has already been switched off or weakened and only to the same extent as the increase in this weakening.

The device described is only an example that only the Provide proof of the possibility of such a safety circuit. Same Success can of course also be achieved with other embodiments.

Figure 9 shows the circuit of an additional resistor as an example. The circuit is the same as in Fig. I, only is in the circuit of the excitation 22 the control dynamo switched on a resistor i9. But this resistance is during the switching-on movement of the switching element i, i.e. during the movement in the direction of the arrow through a seated on the switching axis, in the illustration for clarity short-circuited because of the drag switch 29 drawn out on the left. During the switch-off movement however, the drag switch 29 opens the contact 39 and thereby switches the resistor i9 a. By switching on this resistor at the point shown occurs a strong weakening of the excitation 22 of the control dynamo 32, and there also the excitation 23 of the work motor 33 is increased, thereby a strong braking of the working motor 33 achieved, so that the control dynamo 32 stress is quickly removed.

In the same way, a resistor in the circuit of the Excitation 23 of the work motor or excitation 3 are switched on, which then takes the place of the switched-off part of the resistor 9.

Figure 9 also shows a locking device. the return of the Switching organ i when an impermissible for the working engine and the control dynamo occurs Voltage locks. This locking device of known type is for the sake of clarity moved out to the right, and only the electromagnetic coil 34 is drawn from it. The device is set so that when the voltage rises in the Leonard circuit of the machines 32 and 33 due to the rapid return of the control member the further Retraction is inhibited until it is released when the tension drops of the armature of the electromagnet 34 is released again, so that the switch-off movement can be continued.

Of course, relays can also be switched on in the current paths be, of which z. B: a resistor i controlled by the drag switch 29 9 switches on and off. If the blocking magnet is switched by a relay, so is set this instead of the blocking magnet to the voltage at which the further Return of the control organ is to be prevented.

With the circuit according to Fig. 9, it is not easily possible to to change from a set speed to a lower one. This regulation can only be achieved by first setting the new speed fallen below a little and that then something is switched up again, so that During this upward shift, the drag switch 29 closes the contact 39 again and thereby switches off resistor i9.

In the device according to FIGS. 2 to 7, however, can easily also be regulated back, not by increasing the excitation 3, but by weakening excitation 2, which comes out to be pretty much the same thing. One can So just switch back within certain limits and then the control unit leave.

However, if it is important to reduce the speed first To bring about amplification of the excitation of the work motor 33, e.g. B. about the uniqueness the To maintain the position of the control member, this can be done by an additional device are made possible by the modification of the switching operations in the return of the control organ by reversing the dependence on its sense of movement can be. You can do this for. B. place a push button on the axis d i (Fig. 8), when it is pressed down, the clutch is released from i with 21, but i with 31 is coupled. Then 31 goes back with the return of i, while 21 goes up 7 stops. So that 31 does not go over 8 in the reverse direction of the clockwise direction can also be carried along 1; a1111, 8 at the left end with one in Fig. G drawn stop 18 are provided.

Figure 8 gives an example of this. The axis .l l for the switching elements 1, 21 and 31 is provided with a sleeve: 12, which is roughly the shape of a thread roll and has a square 43 at the top. The switching element i engages around this square with a square cutout, so 42 rotates when turning i init. The sleeve .42 is pushed upwards by a spring 44 and thus couples 21 with 1, by inserting the lower cone 45 of the sleeve 42 into a corresponding conical bore \ -o11 21 is pressed. By means of a push button 46, the sleeve 42 can be mediated of the pins .47 against the action of the spring .14. be pressed downwards, so class now through the upper conical forums .48 <the switching element 31 couples with i, while at the same time 21 is uncoupled from i by the cone 4.5 also abw: irts goes. The push button 46 can be placed on its base. [C1 for more convenient handling because of being rotatable, so that he does not take part in the rotation of i when he is touched will.

The devices described can of course not only used to switch Leonard drives on and off «earth, but everywhere there, where changeable resistors or groups of other devices meaningfully switched Need to become.

Claims (6)

P: \ 1'1-: NT-ANSpRilciir: i. Switching device for switching on and off variable resistances etc., in particular with Leonard drives, characterized in that that (read switching organ when switching off the change that took place when switching on each individual resistance is reversed in a known manner makes as it happened when switching on, but that it is the resistances depending on its sense of movement switches off in a different order than it corresponds to the reverse order when switching on. 2. Switching device according to claim i, characterized in that (read the switching element the resistors in the reverse order as when switching on, but that it turns off means known per se instead of the resistors that are switched so early as a function of his sense of movement switches additional resistances. 3. Switching device according to the Claims i and 2, characterized by an additional device through which the modification the switching processes when they are returned by reversing the dependence on the sense of movement of the switching element can be canceled. - .. Switching device according to the claims i and 2, characterized (when switching off \ -o11 Leonard drives leave the when switching on after the amplification of the excitation of the control dynamo produced Weakening of the excitation of the work engine only after or at the same time as the weakening the excitation of the control dynamo is reversed. 5. Switching device according to Your claim 2, characterized in that (let the amplification of the excitation of the Workinotors when switching off Leonard drives by switching 7_usatz- «iderst; inden in the circuit of this excitation \ -hindered. 6. Switching device according to your claim 2, characterized in that the switching element excites the control (lvnanio when switching off Leonard drives before or at the start of the switching-off movement weakens this excitation by switching additional resistors in the circuit. ;. Switching device according to Claims 1 to 6, characterized by a locking device known per se, clie the too rapid return of the switching element of Leonard drives prevented depending on the voltage of the Leonard circle.