DE390626C - Procedure for starting three-phase motors - Google Patents

Description

Procedure for starting three-phase motors. For machines made by are driven by a three-phase motor started with a star-delta switch, it can happen that the machine for some reason during the operation must be stopped and then restarted under full load. As an example of this the self-spinner (self-actuator) can be cited, in which the cause of the stoppage E.g. a mechanical malfunction in the transmission, e.g. tearing of the pull-in rope. With the usual star-delta connection, the tightening torque of the is sufficient Star circuit - not for restarting under full load, but the '., Engine must be placed in a triangle on the net. So far this has been done with the star-delta switch only in star and, if then the motor did not start, in delta. However, this type of circuit has considerable disadvantages and can lead to serious, severe operational disruptions to lead.

The invention therefore provides for starting three-phase motors that are shown in Star or triangle can be hetrielk-en, a procedure before, after your tempering in no-load operation or under low load in the well-known star-delta connection, the On the other hand, starting at full load directly in a triangle, bypassing the star connection he follows.

According to the invention, the devices which are used to carry out the method can be designed in different ways. Figures 23 show examples of this. ei In Fig. i, 1, 2, 3 is a three-phase network, from which the stator 4 of a three-phase motor is fed 0 ,. will. The star and delta connections are made with the shift drum 6 . cr During normal starting, roller 6 is moved to the left in the figure; the engine is then started in the usual star-delta connection via the usual fuses 5 . If, on the other hand, the engine is to be started under full load, roller 6 is moved to the right; the motor then runs directly in the triangle, namely via the high fuses 25 . The device could also be designed in such a way that the switching lever for switching on is moved in one direction, probably for the normal star-delta connection as well as for the direct delta connection, i.e. in the latter connection the contact, pieces (lerart be adjusted, that the intervention is excluded in a star.. D-es z # Z> could, for. example be achieved by AEIE shift drum is axially moved against the initial power-delta and then rotated.

Fig. 2 shows how a switching device according to the embodiment of Fig. I could be arranged. The switch lever 7 switches the normal star-delta connection in the reverse clockwise direction, on the other hand in a clockwise direction directly to the highly secured delta connection. To avoid switching errors, a locking mechanism, 8 before-C, is seen, which usually prevents switching on into the immediate delta connection, but allows the switching movement in the opposite direction. The same purpose also serves the interlock 18, which lies between the highly secured and the usually secured delta connection, and which allows the transition from the high to the ordinary fuse, but excludes the reverse switching movement.

The device can therefore be designed in such a way that a direct transition from the highly secure to the usually secured rotary switch is possible without a power interruption, with only the degree of protection e5 el being changed. This can e.g. B. done so that the contacts of the roller 6 belm c transition, the mating contacts of the suffering S, baltstellen at the same timei 'g L erübren.

Instead of a single switch with different positions for the two delta connections, the device can also be designed so that starting with a star in a triangle or directly in a triangle with a switch happens, which is controlled by another switch so that it either switched via star in delta or directly in delta.

Fig. 3 gives an example of this. For starting both in the normal star-Dreieckschaltun-, as well as in the immediate Dre, to delta alone, the contact roller serves 16. The particular desired starting circuit is a 2-crestellt with the contact roller 26. If this is in its left position, when the contact roller 16 is switched on, the motor is started in the usual star-delta connection, the stator windings being secured by the usual fuses 5 CY. Since en the contact, e Z> el roller brought into its right position 26, then the Stromzuführun "s for Sternschaltun, -en interrupted and z. B. for the higher starting current fuses 5 for starting the triangle the fuses 15 connected in parallel. the engine is then secured in the high unmitteLaren delta connection. also tei the Ausführungsforrn after Fig. 3 of the Abb.:2 can be provided Verriegelunel gen accordingly.

If delay devices are on, -, ebraclit on the contact roller 16 for the usual starting in star-triangle, then these are expediently rendered ineffective depending on the position of the contact roller 26 Leini immediately switching on in triangle. If the motor is started in the unidirectional delta connection, it can be switched to the usually secured star-delta connection by simply moving the contact roller 26 back to the left without a stroke. It is possible to limit, in a known per se manner, the freedom of movement of the shift drum 26 by the delay devices in time, so that the roller 26 can be reset only after a gewssen time after start-up. It is also possible, the shift drum: by ekannte se means 1 in A'-hängi 26 -, - ness automatically reset of time.

According to the invention, the changeover can also take place in a different way automatically after the start of the lotor. Fig. 4 is an example of how this can be done depending on the speed. From the shaft of the motor armature 14, e, n centrifugal force switch 9 is driven, which closes a contact when a certain speed is reached or exceeded. This gives (read contactor io current and switches the contact roller 26 , which is in the highly secured triangle circuit, to the normal operating circuit. At the same time, contactor io opens contact lever ii and thus instructs its own circuit Centrifugal Schalfer can be made.

The transition from the highly secured to the usually secured delta connection can also be made dependent on the current consumption of the motor. Fig. 5 shows an exemplary embodiment for this. When the contact roller 26 is set to the highly secured triangle circuit, the armature of the contactor io is tightened and thus tensions the return spring 12. The armature of the contactor 2o jumps under the action of the weak spring 22 behind the nose 23 and thus locks the contact roller 26. At the same time as you tension the device, the short-circuit contact 21 is opened. If the motor is now connected to the mains in the highly secured triangle, the contactor draws its armature against the weak spring 22 and thus removes the locking. Same time, however, the contactor will receive io power and keeps its anchor against the spring 01.02 tightened until (Iie Stromaufnabme the engine of the agreed value is begenügt dropped to a then -. Current in the contactor io no longer hold the anchor, and the Spring 1: 2 pulls back the armature and the contact roller 26. At the same time, the short-circuit contact 21 is closed, the organs causing the switching being rendered ineffective and being secured against being switched on again as the current consumption increases.

In all cases it is also possible to use the engine at the immediate Switching on in triangle instead of using high fuses directly without fuses to be connected to the network, where the coarse fuses in the supply lines are sufficient to be considered.

Claims (2)

PATENT-AxkspRüciiE: i. Procedure for starting three-phase motors, which can be operated in sern or delta connection, characterized by that starting with no load or under low load in the well-known star-delta connection, starting at full load, on the other hand, is done directly in a triangle with bypassing a star connection he follows. 2. Device for performing the method according to claim i, characterized by a single switch with different positions for the two 23 delta connections. 3. Device according to claim 2, (Yel # denotes by such a formation of the switch that it switches lei rotation of the lever from zero in one direction from star to triangle, in the other direction immediately after triangle. 4. Device after the claim 2, characterized in that the lever is moved both for the usual star-delta connection as well as for the immediate triangle connection in one direction, where * ei in the latter connection the contacts are adjusted so that the connection in star 5. The device for executing the method according to claim 1, characterized in that the starting takes place via a star in a triangle or directly in a triangle with a switch which is controlled by a further switch so that it is either via Star in triangle or direct ar in triangle switches 6. Device according to Claims 1 to 5, characterized in that the direct triangular scarf is usually locked. 7. Device according to claims i to 6, characterized in that the delta connection is high or not at all when switched on immediately, but is usually secured when switched on beforehand in star. 8. Device according to claims i to 7, characterized in that Le.-m Ü.ergang from the highly secured to d'e usually secured delta connection only the security-Yso-ra, d 'is changed without Stromunterb zi brechuno-. el g. Device according to claims i to 8, characterized by interlocks which allow the transition from the high to the normal fuse or to the off-2 switch position, which exclude the reversed switching path a'-er. ok Device according to Claims 1 to 9, characterized in that switching delay devices are provided for the usual star-delta connection. known type can be made ineffective when switching directly in triangle. i i. Device according to claims i to io, characterized in that the freedom of movement between the highly secured and the usually secured delta connection is limited by delay devices in a manner known per se. 12. Device according to claims i to io, characterized in that the switchover from the highly secured to the usually secured delta connection takes place automatically as a function of time by means known per se. 13, device according to claims i to io, characterized in that the 'CT transition from the highly secured to the normal secured triangle connection takes place automatically as a function of the engine speed when a certain speed is reached or exceeded. 14. Device according to claims i to io, characterized in that the transition from the highly secured to the usually secured delta connection takes place automatically as a function of the current consumption. 15. Device according to claims 13 and 4, characterized in that the organ effecting the automatic switchover is made ineffective after the switchover by means known per se.