DE1001748B - Arrangement for switching on or tensioning a switch activated in the event of a fault, preferably a short-circuiter in contact converters - Google Patents

Description

Up to now it has been customary to use switches, preferably DC high-speed switches and switches, which are operated in the event of a malfunction Short-circuiter for contact converters, to be switched on or tensioned manually. This mostly happened in in such a way that a rod about 150 cm long and about 4 cm in diameter for tensioning the switch served, and it should be noted that the tensioning requires a not inconsiderable effort. If with regard to the response DC high-speed switches and short-circuiters in contact converters largely have to meet the same requirements, the stress on the Space, because a DC high-speed circuit breaker is a circuit breaker and must be used for both the conduct of the load current also for the disconnection process with a power greater than nominal power be measured; However, the short-circuiter does not carry the load current and is only intended to initiate of the short circuit, which usually lasts less than 1 second. Therefore, the from Hand-operated rod in many cases, especially with contact converters, makes operation difficult. For example, the space between the periodically actuated contact device and the cladding had to be must be made larger than necessary so that the clamping process can be carried out with the rod can be. It is also possible to install an openable window in the cladding through which the Rod could be stuck. This tensioning by hand is an unknown stress on the individual Parts of the contact converter, and in order to be armed against excessive stress, one must dimension all parts of the contact converter more generously than it is actually necessary.

The invention relates to an arrangement for switching on or tensioning an actuated in the event of malfunctions Switch, preferably a short-circuiter in contact converters, in which in normal operation a spring effect causing the disconnection or relaxation is compensated by a holding magnet will. According to the invention are an electrically controlled solenoid, the lever of the armature to the Holding magnets, and an auxiliary motor that is effective at a later point in time and that has a shaft with an eccentric the latching that becomes effective when a fault occurs, and a latching creates for normal operation.

In Fig. 1 of the drawing is essentially that of the lifting magnet, its lever, the holding magnet (Trigger magnet) and its armature existing part of the arrangement, for example. The process when switching on or tensioning is controlled by a two-pole push button switch, not shown, which can also be controlled remotely,

arrangement
for switching on or tensioning a switch activated in the event of a malfunction,

preferably a short circuiter

with contact converters

Applicant:

LICENTIA Patent Administration - G. m. B. H., Hamburg 36, Hohe Bleichen 22

Heinz Laube, Berlin-Charlottenburg,
has been named as the inventor

initiated. This push button switch switches the same; start two circuits. The first circuit actuates the lifting magnet 1 and the latter actuates the lever 2 with the pivot point 2 'in the direction of the arrow. The lower The end of the lever 2 closes the armature 3 of the which is provided with a nose and a pivot point 3 ' Holding magnets 4 counter to the action of the leaf spring 22. As a result, the axis 5 is in the fork 6 free; as a result of the action of the spring 7, it lies against the stop 8. After the armature 3 is brought up is, the located in the second circuit and already running auxiliary motor 9 (see. Fig. 2), the works via a gear 10 on the shaft 1, effective. An eccentric 12 is seated on this shaft a friction-reducing needle bearing and a curved, provided with a nose Switching disk 13. The switching disk 13 actuates a key switch 14, and this closes a parallel circuit to the auxiliary motor 9. Then a signal lamp is switched on via the key switch 15, which the operator indicates that the push-button switch initiating the switch-on process or the process for tensioning must be opened so that the switch-on or tensioning process is not carried out again needs to become.

The sounding or tensioning process by the auxiliary motor proceeds in such a way that the auxiliary motor 9 Now, after the armature 3 of the holding magnet 4 is brought up, the eccentric 12 is used against the special lever 16 presses and releases it. The lever 17 of the main shaft 18 is thus free. Turning further if the eccentric 12 presses against the lever 17, it rotates

609 768 ^ 226

thereby the main shaft 18 and opens the contacts 19 of the short-sighted closer to be closed in the event of malfunctions. The contacts 19 are assigned to each of the six phases. They are designed as contacts with double interruption; for example, each fixed contact on the left is one at a time; Phase, while the right fixed contact is the common short-circuit point. The contact bridge 19 ', which is held in the closed state by a strong compression spring 19 "during the short-circuit, is opened when tensioning by means of the lever 17 (approx. 1 mm). Of the six levers of the shaft 18, levers 17 with the latch 16 in 2 and lever 21 with the latch 20 in Fig. 1. The other four levers, not shown, are only mechanically fixedly connected to the shaft 18 and have no latch The lever 21 works in the same way as the lever 17. because both are fastened on the shaft 18 and each have to control a contact 19. The lever 21 is provided with a nose which is used to control the pawl 20. This pawl points can slide in a slot in the nose of the armature 3 diem friction. Before tensioning is the left end of the pawl 20 above the axis 5. During the Öff- _ nens of the contacts during the clamping of Kurzsehli Eßers through the above-described movement of the shaft 18 in the clockwise direction, the lever 21 also moves in the clockwise direction. The pawl 20 can move, since the nose of the lever 21 is no longer an obstacle, and comes to lie under the axis 5 as a result of the spring action, as FIG. 1 shows. In the tensioned state of the short-sighted closer, the position of the axis 5 is determined by the stop 8; it is advisable to design the stop 8 as an eccentric axis for the purpose of setting the exact spatial position. The pawl 20 is held by the axis 5 and is the stop for the nose of the lever 21. The short-circuiter is now tensioned, ie the switch-on process is ended. The auxiliary motor 9 is then switched off when the plunger of the key switch 14 slides off the nose of the switching disk 13.

The holding magnet can be controlled in various ways. It is recommended for tripping due to overcurrent to control the holding magnet by two opposing excitations, namely is the main excitation a constant excitation, the second a load current-dependent excitation, which only occurs at a given value above the nominal current (e.g. 120% of the nominal current) the constant main excitation cancels.

The switch-off takes place by weakening the holding magnet, the armature 3 is activated by the spring 22 thrown away. As a result, the axis 5 is moved to the left and that during normal operation effective pawl 20 of the lever 21 canceled. As a result, the contacts 19 close because of the The compression springs 19 ″ act immediately, and the latch 16 becomes effective.

Claims (4)

Patent claims: 1. Arrangement for switching on or tensioning a switch operated in the event of a fault, preferably of a short-circuit contactor in contact converters, in which a shutdown in normal operation or the spring effect causing relaxation is compensated by a holding magnet is, characterized in that an electrically controlled lifting magnet (1), the lever (2) of which the The armature (3) of the holding magnet (4) is brought up to the latter, and an auxiliary motor that is effective at a later point in time (9), which has a shaft (11) with an eccentric (12) which takes effect in the event of malfunctions becoming latch (16) of the short-sighted closer cancels and a latch (20) for normal operation creates, are provided. 2. Arrangement according to claim 1, characterized in that that the latch (20) for normal operation by an eccentrically adjustable Stop (8) is controlled. 3. Arrangement according to claim 1 or 2, characterized in that the latch (20) for the Normal operation as a rectangular angle with unequal leg lengths is formed around the vertex of the angle is rotatable against a spring action and the longer, with a slot provided leg is held by a displaceable axis (5), the position of which by the Position of the stop (8) is determined. 4. Arrangement according to claim 1 or the following, characterized in that the nose of the anchor (3) of the holding magnet in the event of a malfunction, the axis (5) moves quickly to the left and the latch (20) for normal operation. 1 sheet of drawings © 609 768/226 1.57