DE1075206B - Use of a bimetal switch as a motor protection switch for electric motors with two winding groups - Google Patents

Description

GERMAN

It is known to use bimetal switches as motor protection switches for electric motors. At acquaintances Circuits of this type run both the main winding circuit and the one in parallel switched starting circuit via the motor protection switch, its bimetal with the heating coil is in series. In these known motor protection switches, there is only indirect heating of the bimetal provided by the heating coil. As soon as an overcurrent occurs in the main winding, the bimetal is heated so much by the heating coil that the contacts of the bimetal switch are separated occurs and the entire motor circuit is switched off.

There are also known bimetallic switches each having a connection for a normally closed contact, the bimetallic spring and have a heating coil. The invention relates to the use of such a bimetal switch as a motor protection switch for those electric motors that have two winding groups.

In known engines of this type, for. B. the main winding of two windings, for example can be connected in parallel. Are these windings, as is the case with the known motor protection switches is the case with one winding, to the heating winding that is in series with the bimetal, connected, then if an overcurrent occurs, which is equal to the sum of the two currents in the two parallel windings, the entire motor circuit is switched off. Here it can but it can happen that the overcurrent in one of the two parallel windings is so great that one Damage to the winding occurs while the total overcurrent is not greater than the operating current of the motor protection switch.

The invention has for its object to provide a bimetal switch, each with a connection for one Normally closed contact, the bimetal spring and a heating coil as a motor protection switch with an electric motor, which has two winding groups to be connected so that each winding group for itself against overcurrents is protected. This object is achieved according to the invention in that both winding groups are separately connected to different connections of the bimetal switch so that the current for one winding group flows through the switching contacts and the heating winding, while the current for the other winding group via the switching contacts and the directly heatable bimetal or a second Heating coil is conducted.

If an overcurrent occurs in one of the two winding groups, the bimetal strip will either directly through the overcurrent flowing through it or through the heating winding through which Use of a bimetal switch

as a motor protection switch for electric motors

with two winding groups

Applicant:

Ellenberger & Poensgen GmbH,
Altdorf near Nuremberg

Jakob Ellenberger, Altdorf near Nuremberg,
has been named as the inventor

an overcurrent flows, heated and thus by disconnection of the contacts, the entire motor circuit is switched off. The invention thus achieves the advantage that with a single switch two windings or winding groups independently of each other against Overcurrents are protected.

As is known, bimetal switches are also used as a starter switch for electric motors that the Have the purpose of switching off the starting winding when the engine has reached its operating speed. At acquaintances Circuits is the heating coil of the starter switch from the heating coil of the motor protection switch fed, and the connection to the start-up winding is made via the switch contacts when switched on of the starter switch. According to a development of the invention is now in a such a circuit one of the two main windings of the motor to the fixed contact of the bimetal of the starter switch connected and the other main winding of the motor via the switch contacts and the bimetal strip or supplied with power via the second heating coil of the motor protection switch. Are at the electric motor, which is to be protected against overcurrents, the main windings connected in series, then the series-connected main windings of the motor are connected to the fixed contact of the bimetal Starter switch connected.

The invention is shown in more detail in the drawing

Fig. 1 shows a bimetal switch, both as a motor protection switch and as a starter switch for electric motors can be used,

2 shows an overcurrent switch actuated by a pushbutton,

909 729/340

3 shows a circuit diagram for the use of the switch according to FIG. 1 according to the invention,

4 shows a circuit diagram for the use of the bimetal switch shown in FIG. 1 as a motor protection switch and as a starter switch with main windings and starting windings connected in parallel,

5 shows the same circuit diagram as in FIG. 4 with main windings and connected in series Event windings,

Fig. 6 is a circuit diagram for the use of the bimetal switch of Fig. 1 as. Starter switch and the pushbutton-operated overcurrent switch as a motor protection switch for electric motors with parallel switched main windings and starting windings,

7 shows the same circuit diagram as in FIG. 6 with main windings and connected in series Event windings.

The two types of switches used will first be discussed. In Fig. 1 is the housing of the switch denoted by 1. In this the fixed contact (break contact) 2 is arranged, the 'means of the adjusting screw 3 is adjustable attached to the contact lug 4. Opposite it is the movable contact head (Normally open contact) 5, the one at the end of the bimetal strip 6, which runs out into the contact lug 7. A heating coil is located over the bimetal strip 6 8, which is connected to the contact lug 9. The end of the heating coil 8 is at 10 with the Bimetal conductively connected, so that from the connecting lug 7 via the bimetal strip 6, the heating coil 8 and the terminal lug 9 is a conductive connection.

On the base 11 of the pushbutton-operated overcurrent switch according to FIG. 2 is a U-shaped bracket 12 fastened by means of screws 13. This bracket 12 limits on the one hand the switch, on the other hand it serves as a storage for the contact bridge. Furthermore, this bracket 12 is parallel to the side wall 14 Guide part 15 arranged; this is in a manner not shown by means of a pin in the base 11 and is inserted into corresponding recesses of the bracket 12 by means of two pins 16 so that it is in its Location is recorded. This guide part 15 has a window-like recess 17 in which a with the Insulating body 19 fixedly connected carriage 18 is guided. The insulating body 19 carries the contact bridge 20, which is formed from an angle plate penetrating the insulating body 19 and with its lower End 21 protrudes into the area of two contact springs 22, 23. Furthermore, with the insulating body 19 is a electrically isolated from the contact bridge 20 guide rod 24 connected to the frame 12 opposite the action of the spring 25 is displaceable. The button 26 is used to operate this guide rod.

On the side of the switch facing away from the guide part 15 there is a bimetallic spring 27 which is equipped at its free end with a contact 28, which when the overcurrent protection switch is switched on with the contact bridge 20 is in connection. This contact 28 has a nose 29 which lies over the contact bridge 20 and holds the contact bridge in the position shown in FIG. at the Auführungsbeispiel of Fig. 2 is a winding 30 over the bimetallic spring 27 and over this one Winding 31 applied. One end of the two windings 30 and 31 is connected to the bimetal spring 27, the other end of the winding 30 to the terminal 45 and the other end of the winding 31 to the Terminal 38 electrically connected. The screw 32 serves to hold the two contact springs 22, 23 and the to fasten with them electrically connected pole 63 on the base 11.

In Fig. 3, the use of the switch shown in Fig. 1 is shown as a motor protection switch. Here, the two half motor windings 81, 82 are connected in parallel and via the connection 83 on the one hand and the normally closed contact 2 or terminal 4, on the other hand, is connected to the network. The stream runs from the a power line 4 via the normally closed contact 2 and the normally open contact 5 of the bimetal switch, then via a parallel branch consisting of the bimetallic strip 6 and the motor winding 82 on the one hand and the heating coil 8 of the switch, the line 9 and the motor winding 81 on the other hand, to the other power line 83. The switch switches the motor on in the event of overload, overheating or malfunction in the motor circuit from time to time after the bimetal strip has cooled down again automatically and remains in this position, if the overload, overheating or malfunction has disappeared in the meantime.

4 and 5 show the use of two switches according to FIG. 1 as a motor protection switch and as a start-up phase switch for e.g. 110 or 220VoIt.

In the circuit of FIG. 4, the two are half Motor windings 81, 82 connected in parallel and on the one hand via terminal 83 and on the other hand via the Contact or connection 4 is placed on a 110 volt network. One of the motor circuits includes: power line 4, normally closed contact 2, normally open contact 5, bimetallic strips 6, connection 7, motor winding 82, connection or power line 83; and to the other motor circuit include: power line 4, normally closed contact 2, normally open contact 5, heating coil 8, connection or line 9, Connection 9 ', heating coil 8', normally open contact 5 ', bimetallic strips 6 ', motor winding 81 and connection or power line 83. Parallel to connection 83 on the one hand and the normally closed contact 2 'of the second thermal switch 95', on the other hand, is the auxiliary phase, consisting from the parallel-connected auxiliary phase windings 92, 93 and the capacitor 94.

The circuit according to FIG. 5 is analogously the same circuit as the circuit according to FIG the motor windings 81 and 82 in series and, in turn, in parallel with this, the auxiliary phase via the connection 83 or contact 2 '. Here, too, the auxiliary phase comprises the two windings 92, 93 and the capacitor 94. Both auxiliary phase windings are connected in series.

The circuits according to FIGS. 4 and 5 work as follows: If the motor is connected to voltage, then remain the switches are closed when starting. At the end of the start-up process, the auxiliary phase has its Function fulfilled and is switched off. The shutdown occurs due to the heating that occurs during operation the heating coil of the auxiliary phase switch. Because the auxiliary phase switch in the circuit of the motor windings and is designed accordingly, it remains open during the entire operation. Will the Motor overloaded, e.g. B. braked, so occurs an additional heating of the heating coil 8 of the motor protection switch so that this also opens and closes again after cooling. Of these switching operations however, the auxiliary phase remains completely unaffected, since the auxiliary phase switch is designed accordingly are.

Figures 6 and 7 show the use of the switch of Figure 1 as an auxiliary phase switch and the switch according to Fig. 2 as a motor protection switch for 110 or 220VoIt.

1 ü / b 2üö

In both circuits, 81st, 82 designate the two Motor windings, 96 the motor protection switch, 95 'the auxiliary phase switch and 92 to 94 the auxiliary phase, consisting from the two auxiliary phase windings 92, 93 and the capacitor 94.

In the circuit according to FIG. 6, the motor circuit runs from the power line 63 via the switching contacts 21 to 23, the switching contact 28, the bimetal strip 27, from here on the one hand via the heating coil 31, the connection 38 and half Motor winding 82 and, on the other hand, via heating winding 30, connection contact 45, the heating winding 8 ', the normally open contact 5', the bimetal strip 6 ' and the other half of the motor winding 81 to the second line conductor 83. The auxiliary phase circuit runs again from the normally closed contact 2 'of the auxiliary phase switch 95' via the capacitor 94 and the two in parallel switched auxiliary phase windings 92, 93 to connection point 83 and thus to the second power line. In the circuit according to FIG. 6, the bimetallic strip 27 can be used in the same way as in the circuit according to FIG replace the second heating coil 31 and form the second current path.

In the circuit of FIG. 7, the motor circuit runs from the first power line 63 via the Switching contacts 21 to 23, the normally open contact 28, the bimetal strip 27, the parts 30, 45, 9 ', 8', 5 ', 6', 7 ', 81 and 82 to the second power line 83. The auxiliary phase circuit again runs from the normally closed contact 2 'of the auxiliary phase switch 95' via the capacitor 94 and the two connected in series Auxiliary phase windings 92 and 93 to connection point 83 and thus to the second power line.

The switching arrangement according to FIGS. 6 and 7 works in the same way as that according to FIGS. 4 and 5, with the difference that the motor protection switch 96 is switched on by hand with the aid of the push button switch 21 must become.

Claims (3)

Patent claims: 1. Use of a bimetallic switch, each with a connection for a normally closed contact, the bimetallic spring and a heating winding as a motor protection switch for motors with two winding groups, characterized in that both winding groups so connected separately to different connections of the bimetal switch are that the current for one winding group via the switching contacts and the heating winding flows, while the current for the other winding group via the switching contacts and the directly heatable bimetal or a second heating coil is passed. 2. Application of the bimetal switch as a motor protection switch according to claim 1 for motors with two winding groups and a starting winding using a second bimetal switch, whose heating winding is fed from the heating winding of the first switch and in Switch-on state establishes the connection to the starting winding via the switching contacts, thereby characterized in that one of the two main windings of the motor to the fixed contact of the bimetal of the second switch and the other main winding of the motor across the switching contacts and the bimetal strip or via the second heating coil of the first bimetal switch is powered. 3. Application of the bimetal switch according to claim 1 for motors with two winding groups and a starting winding using a second bimetal switch, the heating winding of which is fed from the heating coil of the first switch and when switched on via the switching contacts establish the connection to the starting winding, characterized in that the series-connected main windings of the motor to the fixed contact of the bimetal of the second switch are connected. Considered publications:
German patent specifications No. 822 277, 652 316,
767, 515 562, 464 688; Swiss Patent No. 215 225;
British Patent No. 613 237. 1 sheet of drawings © 909 729/340 2.60