DEM0013414MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: March 19, 1952. Advertised on November 10, 1955

GERMAN PATENT OFFICE

There are already circuit breakers for automatically breaking the circuit in the event of overload known, which use the properties of ferromagnetic metals or metal alloys, whose ferromagnetism is a function of temperature. This is done in a known manner in that at any point in a magnetic circuit closed by an armature made of a ferromagnetic metal or a ferromagnetic metal alloy element is switched on, through which the current to be secured flows in whole or in part and whose line cross-section is kept so that when the permissible current strength is exceeded, as a result the occurring Joule heat loses the ferromagnetism. Through the associated If the magnetic circuit is interrupted, the saturation of the force line is depressed so far that that the magnetic force acting on the armature is weaker than that on the armature mechanical force acting in the opposite direction, through which the magnetic force Circuit open and at the same time a break contact switched on in the circuit

509 579/130

M 13414 VIIIb / 21 c

is opened. Since the ferromagnetic element in the circuit prevailing overcurrent l) it takes a certain time to bring it to the magnetic transformation point, Iritl a delayed action of the circuit breaker on, the delay time decreasing with the intensity of the overflow. So advantageous are the delayed action of the circuit breaker in the case of the inherently harmless, briefly over the

ίο Sieheningsstromslärke rising Übercomslöl.lcn, as they are z. P>. disfigurement when starting electrical machines, so disadvantageous is it when a sudden short-circuit current occurs. Therefore, the use of the automatic circuit breaker is in most cases only in connection with a short-circuit fuse, / .. I !. a fuse, possible.

The subject of the load is a circuit breaker for the automatic interruption of the circuit in the event of overload, in which the Let the advantages of the thermal-ferromagnetic circuit breaker exploit in such a way that at the same time an immediately effective short-circuit protection arises. The safety device according to the invention is characterized by a magnetic llatipt and by a magnetic I auxiliary circuit, which are excited by the same current to be secured (lurcliflosseneii coil, as well as by an I start tauker belonging to the magnetic main circuit and by one of the Magnetic auxiliary armature belonging to the auxiliary circle, acting as a rotating armature on a common armature shaft sit and exert an oppositely directed torque on them, with one

3S lying below a certain upper current strength Amperage is the torque exerted by the auxiliary armature and an additional torsion spring and in the case of a current that rises above the specific overcurrent strength, that of the The main torque exerted by the main tanker, which causes the armature shaft to rotate and thus a break contact or a 11 η terbrecluingskon takt- triggering device actuated will. The triggering of the interruption

ΊΓ> contact or the break contact release device in the case of a longer lasting, over the Sielicrungsslromstrom strength up to the certain With currents increasing, the current goes into the wise before him, that at least one member of the

5 «magnetic auxiliary circle from a ferromagnetic Material, the ferromagnetism of which is a function of temperature, exists, and if so The current to be protected flows through the first line (| cross section in whole or in part is, so that when the current intensity increases over the fuse current intensity by the occurring Joule warmth their Ferroniagnetismtis loses, whereby the torque exerted by the auxiliary tankcr on the armature shaft wholly or partly -

(ίο is omitted and thus the armature shaft through the The main torque exerted by the I lauptauker, now predominant, was used to interrupt the Circuit leading rotation is granted.

The advantage of the circuit breaker according to the invention is that the delayed Effect of the same at a current strength below a certain overcurrent strength Short-term overcurrent surges that increase up to the specific overcurrent strength are not taken into account while at a current strength that increases beyond the certain overcurrent strength an immediate interruption of the circuit is brought about.

By correspondingly changing the tension of the torsion spring acting on the armature shaft as well by changing the air gap between the poles of the auxiliary magnetic circuit and the auxiliary anchor, i.e. by changing the position caused by the torsion spring and the auxiliary anchor on the Armature shaft exerted torque, the circuit breaker is on a certain overcurrent strength adjustable, which leads to an immediate interruption of the circuit. the The automatic circuit breaker is calibrated to a specific fuse current strength by means of a corresponding Change in the heating characteristics of the ferromagnetic members of the magnetic auxiliary circuit, z. B. by changing the Lcitting cross section of the same.

Further details and advantages of the invention can be found in the following description and from can be seen in the drawings. These represent two exemplary embodiments, namely FIG

1 shows an automatic circuit breaker, particularly suitable for direct current, in a schematic representation,

2 a circuit breaker intended for alternating current in a schematic representation,

3 shows the diagrammatic representation of the automatic circuit breaker according to FIG. 2, with it removed Insulating hood and partially cut-open insulating base,

Fig. 4 shows the individual representation of the tkontaktcs designed as a double contact,

5 shows the individual representation of a securing the contact release arm in its release position and locking device connected to a switch-on magnet,

6 shows the armature shaft and the common switching shaft of two automatic circuit breakers, which are combined to form a safety unit controlling a common switch-off contact,

7 shows the diagrammatic representation of the automatic circuit breaker provided with its insulating cover, from which the arrangement of the electrical connections and the type of fastening of the insulating base it appears

8 the screw serving as a stop for the main anchor in a special design.

The one shown schematically in FIG. 1 and schematically and graphically in FIGS. 2 and 3 Circuit breaker has a magnetic main circuit and a magnetic auxiliary circuit as well one main armature 1 associated with the main magnetic circuit and one with the magnetic one Auxiliary circle associated auxiliary anchor 2. the

579/130

M 13414VIlIb 121 c

The main magnetic circuit, which is closed by the main armature, is controlled by an electromagnet 3 caused, which is excited by a coil 4 through which the current to be secured flows. the Electromagnet 3 has ζλνεϊ as auxiliary poles Auxiliary armature 2 acting on branch legs 5, which in the likewise by the electromagnet 3 caused and closed by the auxiliary armature 2 magnetic auxiliary circuit Form intermediate links. The intermediate legs 5, which are electrically insulated from the electromagnet 3 consist of a ferromagnetic alloy, the ferromagnetism of which is a function of temperature is. The branch legs are conductive through a band 6 made of silver, for example connected and are completely or partially traversed by the current to be secured. Through appropriate Dimensioning of the line cross-section of the branch legs is achieved that with a Sustained overcurrent strength increasing over the fuse current strength the branch legs be heated to the magnetic transition point by the Joule heat that occurs and thus lose their magnetic properties.

A partial flow of the current to be secured through the branch legs 5 is, as shown in Fig. 1, achieved by arranging a resistor 7 connected in parallel.

In the circuit breaker according to FIGS. 2 and 3 intended exclusively for alternating current the heating current for the branch legs 5 is supplied by the secondary winding 8 of a transformer, the primary winding of which is formed by the excitation coil 4 for the electromagnet 3. the Branch legs 5 are thus traversed by a current, the strength of which depends on

^: the current to be secured is available.

%. , The main anchor 1 and the auxiliary anchor 2 are,

designed as a rotating armature, arranged on a common '■ # 4.0 armature shaft 9, which in the the pole ends of the electromagnet 3 connecting, consisting of non-conductive material end shields 10 and 11 are rotatably mounted. The order the main armature 1 and the auxiliary armature 2 is made such that when the circuit is closed this an oppositely directed torque is exerted on the armature shaft 9. At a Below a certain overcurrent strength lying amperage is through the auxiliary armature 2 and exerted a torque on the armature shaft 9 by an additional torsion spring 12, which is stronger than the counter torque exerted on the armature shaft by the main armature. Included the armature shaft is up to the stop of the main armature 1 against a stop screw 13 so far twisted that is between the pole ends of the electromagnet 3 and the ends of the main armature ι a large one and between the branch legs 5 and the ends of the auxiliary anchor 2 sets a small air gap.

The torsion spring 12 is designed in the form of a spiral spring and has one end the auxiliary anchor 2 and connected at the other end to the end shield 10. The connection the torsion spring 12 with the end shield 10 is made such that the spring tension changes can be. In the case of a longer lasting, between the fuse current strength and the certain Overcurrent strength lying current strength are the branch legs 5 by the occurring in these Joule heat is heated up to the magnetic transition point, giving it its ferromagnetism lose. Due to the associated failure of the torque which is exerted on the armature shaft 9 by the auxiliary armature 2 is, the torque exerted by the main armature 1 on the armature shaft 9 now predominates which as a result rotates the armature shaft 9 and thus at the same time by one on the armature shaft 9 provided trigger arm 14 a break contact is opened. When the amperage increases The overcurrent is determined by the main armature 1 on the armature shaft The torque exerted is greater than that by the Hirfs anchor and the torsion spring 12 applied counter-torque. . The associated rotation of the armature shaft 9 is a causes immediate interruption of the circuit.

By changing the torque generated by the auxiliary armature 2 and the torsion spring 12 is exerted on the armature shaft 9, the automatic circuit breaker is on the certain overcurrent strength adjustable. The setting of the circuit breaker to the specific overcurrent strength takes place either by changing the tension of the torsion spring 12 or by changing the air gap between the branch legs 5 of the electromagnet 3 and the auxiliary anchor ends. The one Certain overcurrent strength causing immediate interruption of the circuit becomes so high chosen so that the brief overcurrent surges occurring during operation, which are harmless in themselves lie under this; Due to the delayed action of the circuit breaker in the event of an under the long-lasting overcurrent strength of the specific overcurrent strength, the short-term, Overcurrent surges up to the certain overcurrent strength are not taken into account.

The automatic circuit breaker is calibrated to the fuse current strength using the appropriate Change in the heating characteristics of the ferromagnetic branch legs 5, through appropriate Dimensioning of the cable cross-section of the same. The release arm sitting on the armature shaft 9 14 has a release pin 15, through which, when caused by the overcurrent strength Rotation of the armature shaft 9 either, as shown in Fig. 1, a simple tongue contact or a double contact according to FIG. 4 in its interruption position is controlled.

The control of the simple tongue contact in its interruption position goes in the way in front of him that the resilient contact tongue 16 through the release pin 15 of the mating contact tongue 17 is pulled.

509579/130

M 13414 VIIIb / 21 c

In Jug. -i is one of the circuit breakers developed Dnppelkontakt shown, which from there is a combination between tongue contact and claw contact. The combined Tongue and claw contact is housed in an Isoliergehäusc ιX, which by two Screws 19 is attached to the bearing plate ii. The combined tongue and claw contact has a rigid contact tab 20 and a resilient one Contact tab 21 on. The latter is with the power supply and the rigid contact tab 20 is connected to the power line. The conductive connection /. between the resilient contact lugs 21 and the rigid Konlaktfahne 20 is connected to the resilient contact lug 21 once by a and with its free linden tree spring-loaded contact tongue 22 and against the rigid contact lug once produced by an angle lever pivotably mounted on an axis 23, which under the effect of a tension spring 25 acting on this with its rigid arm 26 in one of the rigid contact tab 20 provided resilient contact claw 27 engages and its resilient Arm 28 springs up against the resilient contact tongue 22. Hei the one caused by the overcurrent strength Rotation of the armature shaft 9 is counteracted by the release lever 14 provided Auslösezapfeii 15 acting on the rigid arm 26 of the Y-angle lever, the rigid arm 26 of the angle lever released from the contact claw 27 and after it has been released the resilient contact tongue 22 by the resilient angle lever arm 28 from its contact position from the rigid contact tab 20 pulled the trigger.

The release device 14 is in its release position by an automatic locking device locked according to FIG. The locking device consists of one pivotably mounted angle lever, on the arm 29 of which a tension spring 30 engages. The order of the bell crank is made such that the bell crank arm 31 when the tripping device is steered towards is pivoted into its release position by this and under the action of the tension spring strikes in front of the release arm in its release position.

A downshift device connected to the locking device aims to that the release can from the locking device is released. The Kinschaltvorrichtung consists of a magnetic coil 32 in which a designed as a piston armature 33 is mounted longitudinally displaceable. The armature 33 is connected to the arm 29 of the angle lever connected in such a way that it passes through the coil when a current flows through the anchor pull is pivoted out of its locked position.

Due to the special design of the armature shaft 9, two or more automatic circuit breakers can be combined to form a fuse unit controlling a common switch-off contact. In Fig. (1 , the armature shafts of two automatic circuit breakers are shown, which are combined with the aid of a common switching circuit to form a common disconnection contact-controlling fuse unit with a driver arm 34. The common switching shaft provided at one end with the release arm 14 for the switch-off contact is made up of shafts 36 rotatably mounted in the armature shafts and coupled between the automatic circuit breakers by a coupling member 35. The actuation of the switching shaft by the individual automatic circuit breakers takes place through the Mitnelimerarm 34 on the armature shaft 9, the driver arm associated with one automatic circuit breaker on a driver pin 37 provided on the disk-shaped coupling member 35 and the one associated with the other automatic circuit breaker on one provided on the trigger arm 14 Driving pin 38 acts.

7 shows the automatic circuit breaker provided with an insulating hood 39. The insulating hood 39 is attached by two screws 40 to an Isoliersockcl 41, which serves as a carrier for all parts of the circuit breaker is used. The fixation of the latter on any surface, z. B. on a switchboard, is carried out by provided on the mounting surface and with a through-hole provided mounting bracket] 42 and by socket pins 43, of which z. B. each inserted through two mounting brackets 42 and through one of the holes in the insulating base 41 will.

In Fig. 8, the stop screw 13 for the main anchor 1 is shown in a special version. This also serves to absorb shock. Here, the Stoppschraubc is on the front end is provided with a cavity in which a flange 45 held and on the other hand against a shock-absorbing pad 46 pending ball 47 is mounted.

Claims (13)

Patent claims: 1. Circuit breaker for the automatic interruption of an electrical circuit in the event of overload, characterized by a main magnetic circuit and a magnetic circuit Auxiliary circuit through which the same coil (4) flowed from the current to be protected are excited, as well as by a main armature (τ) belonging to the main magnetic circuit and an auxiliary armature (2) belonging to the auxiliary magnetic circuit, acting as a rotating armature sit on a common Ankerwellc (9) and on this an oppositely directed Apply torque, with one lying below a certain overcurrent strength Current strength exerted by the auxiliary armature (2) and an additional torsion spring (12) Torque and one over the 579/130 M 13414 VIIIb / 21 c certain overcurrent strength increasing current strength exerted by the main armature (i) Torque predominates, through which as a result the armature shaft (9) rotates and thus a release arm (14) located on the armature shaft causes a break contact or a break contact release device is actuated. 2. Circuit breaker according to claim 1, characterized in that at least one member (5) the auxiliary magnetic circuit made of a ferromagnetic material, its ferromagnetism is a function of temperature, exists and with a corresponding line cross-section is completely or partially traversed by the current to be secured, so that it is at an overcurrent strength that increases and sustains over the fuse current through the occurring Joule heat loses its ferromagnetism, which is due to the Auxiliary armature (2) on the armature shaft (9) torque exerted in whole or in part is omitted and thus the armature shaft (9) by the, now predominant, exerted by the main armature (1) Counter-torque is given a rotation leading to the interruption of the circuit. 3. Circuit breaker according to claims 1 and 2, characterized by a together with the main armature (1) forming the main magnetic circuit U-shaped electromagnet (3), which is excited by a coil (4) through which the current to be protected flows. 4. Circuit breaker according to claims 1 to 3, characterized in that the U-shaped electromagnet (3) with two as Auxiliary poles on the auxiliary armature (2) acting branch legs (5) is provided that this together with the auxiliary armature (2) forms the auxiliary magnetic circuit at the same time. 5. Circuit breaker according to claims 1 to 3, characterized in that at least one of the branch legs (5) consists of a ferromagnetic material and against the Electromagnet (3) electrically isolated, with the current to be secured flowing through it in whole or in part is. 6. Circuit breaker according to claims 1 to 5, characterized in that with alternating current the heating current for the ferromagnetic member (5) or for the ferromagnetic members of the auxiliary magnetic circuit supplied by the secondary winding (8) of a transformer whose primary winding is formed by the excitation coil (4) of the electromagnet (3). 7. Circuit breaker according to claims 1 to 6, characterized in that two or several circuit breakers to a common switch-off contact or a common one Breaking contact tripping device actuating fuse unit can be summarized are. 8. Circuit breaker according to claims 1 to 7, characterized in that the actuation of the switch-off contact or the switch-off contact tripping device takes place by a common selector shaft, which is rotatable in the hollow shaft-shaped armature shafts (9) stored and between the circuit breakers by coupling links (35) interconnected partial shafts (36) is composed. 9. Circuit breaker according to claims 1 to 8, characterized in that the actuation the switching shaft through the individual automatic screening machines by means of one at one end the armature shaft (9) provided driver arm (34) takes place, which on one to the Disk-shaped coupling members (35) arranged driving pins (37) acts. 10. Circuit breaker according to claims 1 to 9, characterized in that from the armature shaft of the last automatic circuit breaker protruding end of the switching shaft a release arm (14) for the break contact or for the break contact tripping device sits, which one with the Driver arm (34) interacting on the armature shaft (9) of the last automatic circuit breaker Has driving pin (38). 11. Circuit breaker according to claims 1 to 10, characterized in that the on the armature shaft (9) or on the switching shaft Seated release arm (34) for the switch-off contact or for the switch-off contact tripping device in its release position by an automatic locking device (29, 30, 31) is secured. 12. Circuit breaker according to claims 1 to 11, characterized in that a switch-on device connected to the locking device (29, 30, 31), e.g. a switch-on magnet (3 ² > 33) is provided to close the interrupted circuit, which acts on the locking device in such a way that the release arm (14) is released by this. 13. Circuit breaker according to claims 1 to 12, characterized in that the release arm has two switch-off contacts connected in parallel be operated in such a way that the first contact opens before the second and the second contact is closed before the first. Referred publications:
Austrian patent specification No. 99881. 1 sheet of drawings © 509 579/130 11.55