DE1588891B1 - PROTECTIVE DEVICE FOR THE THERMAL ELEMENT OF A CURRENT RELEASE - Google Patents

Description

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The invention relates to a protective device. This object is achieved according to the invention in a

device for the thermal element of an overcurrent protection device of the type mentioned

trigger. solved by the fact that this is an elongated,

With conventional overcurrent releases with one on the movable conductor and one elongated, fixed through Overcurrent caused heating has appealing 5 current conductors, which are closely spaced

Tripping device, in particular with a bi- arranged parallel to one another and at one end

metal element of lower rated current than are thermally connected to each other, in which the movable

Schem element, a short circuit or a conductor at its other end can be a movable one

comparable load cases flowing overcurrent shunt contact piece outside the main thermal element very quickly on such an io circuit of the overcurrent release and a

bring high temperature that a thermal over- flexible conductor with the movable conductor so

load of the bimetallic element occurs, which is a lead-bound that this partially with the main flow

Bende deformation of the bimetallic element resulting in the circuit of the overcurrent release with the thermal

Has. So far, in order to avoid this disadvantage, it has been an element of one end over the flexible element It is common for an overcurrent release to have a separate 15 conductor connected in series and a fixed conductor

Provide electromagnetic release device, shunt contact piece to the movable secondary

which on very strong overcurrents, z. B. a short-circuit contact piece opposite to form a

circuit current, responded and associated shunt small gap between the two with normal loading

Contact pieces closed, which arranged a shunt to the operating conditions and with the main bimetal element formed. Such an electro-ao circuit of the overcurrent release at the other end

However, the magnetic trip device has one end of the thermal element connected.

Talk time of 1.5 to 5 msec, which lasts until closing. Here, an overcurrent is generated by the over-

the associated shunt contact pieces an electromagnetic repulsion as a result of the current release

Attraction by the armature of an electromagnet between the two parallel elongated Leiverstichen. As a result of this time delay, the 25 tern flows, which is the only force to close the

total short-circuit current acts on both shunt contact pieces on a main current path, whereby

with a bimetallic element of low nominal current strength, an electrical

whereby the bimetal element in this time almost tric circle parallel to the thermal element

instantly overheats and becomes unusable. arises.

Protective Devices for Thermal Element 30 A useful embodiment of the invention an overcurrent release, in which an electro- consists in that the thermal element with seimagnetische Trip device shunt one end over the flexible conductor to the clock pieces closes and a protective circuit is connected around moving conductor at a point that forms the thermal element are therefore known. lies roughly in the middle of the movable conductor. Ever These protective devices work with an elec- tric device according to the position of the point on the movable conductor tromagneten and can at relatively low over- the ratio between the force for flow effectively the reopening of the closed the merging of the two shunt con-shunt contact pieces Prevent, because with the contact pieces and the force with which the two neighbors currents the short-circuit contacts exerted by the electromagnet after the contact together-attractive force is greater than the repulsive force 40 will hold.

between contact pieces that separate them from one another

seeks. However, as shown with the growth of the secondary drawing and will be explained in more detail below

Final current, the repulsive force is also described as a square. It shows

the magnitude of the shunt current increases, while F i g. 1 is a side view of a protective device

rend the tightening 45 exerted by the electromagnet in the closed position,

force as a result of the saturation of the nucleus of the electric F i g. FIG. 2 is a perspective view of the FIG. 1

magnets reaches a certain limit, each protective device shown can also be used in closed

but the repulsive force may increase in a position and

as the attractive force, whereby the produced Fig. 3 is a circuit diagram for explaining the Shunt contact is interrupted. As a result of the 50 current flow through the protection device in the tightening force of the electromagnet become the closed position.

in contact again by separate contact pieces. To protect one attached to a connection piece 69. In this way, the shunted bimetallic element 56 becomes an overcurrent breaker repeatedly closed and opened, which solver against an overcurrent flowing through this As a result of the repeated arcing at the 55, a protective device 80 is attached to the bimetallic element 56 Shunt contact pieces to heavy wear, connected in parallel. The protection device 80 includes Damage and deformation of the shunt - a stationary shunt contact piece 82, which by contact pieces leads (U.S. Patent 3,104,297). an electrically conductive holder 84 is carried, The invention is therefore based on the object of having a terminal block 42 of the overcurrent disconnection To provide new and improved apparatus 60 via a flexible conductor 86 and an auxiliary die the thermal element of an overcurrent release circuit conductor 88 is connected. One of the fixed completely opposed Ne overcurrent from any damage due to a shunt contact piece 82 protects. This device aims to have a short-circuit contact piece 90 attached to its lower have extremely short response times, d. H. the end of a conductor 92 in the form of a strip Closing the associated shunt contact pieces 65 made of a suitable elastic, electrically conductive Masoll worn within a span of only 0.15 to material that is roughly parallel to one 0.45 msec after the occurrence of the short-circuit current conductor 94 in the form of a strip of suitable mes be effected. rigid, electrically conductive material is arranged,

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so that there is a small distance between them. In the present case it was found that through remain. The elastic conductor 92 is at a position between the parallel arrangement of the elastic conductor 92 its ends lying point with a flexible and the rigid conductor 94 at a small distance from the conductor 60 and at the upper end with the adjacent one another the shunt contact pieces 82 and 90 End of the rigid conductor 94 connected, which in turn 5 after a time delay of only 0.15 to touch each other with the other end of a conductor 96 for 0.45 msec. It means that tion stands, which is a secondary terminal to a connection, not shown, through the present protection device leads. Conclusion on the associated bimetal element 56 in

In normal operation, the overcurrent causes an extremely short period of time to flow, which is the result

trigger a current through a main current path that has io that the bimetal element 56 is too large

is partly formed from the terminal block 42, overcurrent is protected. It was for example

a magnet winding 66, the bimetal element 56, determined that a bimetal element with a nominal

the conductor 60, the elastic conductor 92, the fixed current of 15 A with a short-circuit current of more

Conductor 94 and the conductor 96th than 50,000 A is sufficiently protected without a

If a short-circuit current or permanent deformation or other damage occurs to others

Way increased current occurs, which occurs several thousand.

Percent of the rated current of the overcurrent release The protective device according to the invention is thus exceeds, the above-described also indicates circuit breakers with current limiting Current path flowing current the magnet reversible, which have a switch-off time of 5 msec. Winding 66 of a stationary magnet core 64 occurs when an overcurrent occurs stimulates. This pulls a movable piece of magnet or the elastic conductor 92 and the rigid conductor 94 an anchor 68 and dissolves via a plunger 58 a repulsive force that is already on the legs The tripping mechanism of known construction wrote the closing of the shunt, contact pieces 82 and 90 causes. At the same time acts

Simultaneously with the introduction of this tripping pre-25 to the closed shunt contact pieces 82 At the beginning, through the parallel conductors 92 and 94, an electromagnetic repulsion and electricity flows in and 90 in the opposite direction, one that seeks to separate them from one another. This repulsive tromagnetic repulsion causes. This repulsion force increases with the increase in the overcurrent, momentarily rotates the elastic conductor 92 im, however, the electromagnetic repulsion increases Clockwise around its top, creating this 30 between the two conductors and the the movable shunt contact piece 90 with which tries to move the two shunt contact pieces into stationary shunt contact piece 82 to keep in touch, also to so that a separation and brings a shunt to the bimetalization of the shunt contact pieces from one another element 56 forms. This shunt branch is prevented from running.

from the connection block 42 via the shunt conductor 35 In the case of weak currents, up to about 2 ¹ »times

88, the conductor 86, the holder 84, the stationary of the response current strength of the shunt device

Shunt contact piece 82, the movable shunt, can be the movable shunt contact piece

circuit contact piece 90 to the elastic conductor 92. Since 90 repeated with the stationary shunt connector

by means of the bimetallic element 56 the contact piece 82 will come into contact and be driven by it.

ßende current greatly reduced, so that this will be disconnected before 40. The invention is such

Damage such as permanent deformation, repeated opening and closing of the shunt

is protected due to its highly heated state. However, contact pieces effectively prevented. As the

The short-circuit current or the overcurrent becomes F i g. 2 and 3 show that of the bimetallic element 56

flexible conductors 60 leading from the electromagnetically operating mechanism on the elastic conductor

or connected to the thermally operating mechanism at a point 92 ^ 4, which is between

switches. an upper end 92 B and a lower free one

After the overcurrent has been switched off, the end at which the movable shunt elastic is located returns Head 92 is located in its contact piece 90 due to its elasticity. This results in an over-normal position back, whereby the movable current over the conductor 60 via the point 92.4 on Lei shunt contact piece 90 from the stationary secondary 50 ter 92, through a section 92 C of the conductor 92, the Closing contact piece 82 is separated and the adjacent from point 92/1 to the upper end of the conductor circuit via the bimetal element 56 is open again. 92 extends, and from there to the adjacent ab-

As mentioned, it has already been proposed to cut the parallel conductor 94, whereby an electrical shunt contact, for example via the secondary magnetic repulsion between these connection contact pieces 82 and 90, is generated by the attraction 55, which moves the elastic conductor 92 so that that of an energized, stationary electromagnet to close a shunt contact piece 90 with the armature associated with the shunt. This measure contact piece 82 in connection comes, and a Neführt but is made to a benschluß for magnetizing the electrical for bimetallic element 56, magnets, and to overcome the inertia Thereby, the current / in a partial current I _1, the armature required time delay. Depending on the 60 flowing through the bimetal element 56, and broken down into one of the size of the overcurrent and the parallel current I ₂ , which flows via the shunt configuration and dimensions of the thermal element, contact pieces 82 and 90. The parallel current I _2, ie the bimetallic element, has so far been difficult, in conjunction with the partial current I _{1, to} protect the element from damage, since this results in electromagnetic repulsion between the adjacent contact pieces 82 and 90 and 65 tried to separate these shunt contact pieces was already required. An electromagnetic could also come to such a high temperature in the event of repulsion between a part 92 D of the conductor 92, which resulted in a permanent deformation of the element. between the shunt contact piece 82 and

the point 92 ^ 4 and only carries the parallel current I ₂ , and the adjacent section of the conductor 94, which carries the overcurrent / generated, which tries to bring the shunt contact pieces 82 and 90 into contact. However, this force is greater than that which tries to separate the shunt contact pieces from one another. This ensures that the movable shunt contact piece 90 is kept in contact with the shunt contact piece 82 during the duration of the overcurrent and any erosion or wear of the shunt contact pieces is prevented.

Claims (2)

Patent claims: 1. Protection device for the thermal element of an overcurrent release, characterized in that it has an elongated, movable conductor (92) and an elongated, fixed conductor (94) which are arranged parallel to one another at a small distance and at one end (92 B) with one another are connected, in which the movable conductor (92) at its other end carries a movable shunt contact piece (90) outside the main circuit of the overcurrent release and a flexible conductor (60) is connected to the movable conductor (92) so that this partially with the Main circuit of the overcurrent release with the thermal element (56) from one end of which is connected in series via the flexible conductor (60) and in which a fixed shunt contact piece (82) opposite the movable shunt contact piece (90), forming a small gap between the two in normal Operating conditions arranged and connected to the main circuit of the overcurrent release rs is connected to the other end of the thermal element (56). 2. Protection device according to claim 1, characterized in that the thermal element (56) is connected with its one end via the flexible conductor (60) to the movable conductor (92) at a point (92A) which is approximately in the middle of the movable conductor (92) lies. 1 sheet of drawings