DE706843C - Small quick switch with overcurrent release for electrical house and commercial systems - Google Patents

Description

Small high-speed switch with overcurrent release for electrical, house and Commercial facilities In the field of .electrical quick switch with automatic Tripping in the event of overcurrent or short-circuit has always been sought to reduce the breaker time to reduce as much as possible and the switching capacity and operational safety to increase. This is especially true in cases where, such as B. in the so-called socket machines, Kleimnotorschutzscbaltern and the like, it depends, with limited space get by or with given rooms an optimum of switching capacity without impairment to achieve operational safety.

The proposal for a switch has already become known at which the spring, which gives the contact pressure, is arranged so that it is instantaneous the triggering of the switch is decoupled from the movable switching element. It is a switch with only one latch point at which for the purpose of reducing the pressure caused by high latch pressures upon release to overcome friction a role between the pressure surfaces of the two cooperating Pawls are arranged, as is sometimes the case with switches for relative large currents occur with magnet activation.

The invention is intended to result in the immediately upon triggering ensuing ineffectiveness of the contact compression spring achievable advantage of a delay-free Contact separation when switching off, especially automatic switching off for miniature high-speed switches or installation switches with electromagnetic and / or thermal release. Such switches can be found under the influence of two latches mechanically connected one behind the other or in parallel stand, one of which is released during the automatic release and the other, which preferably has the shape of a toggle lever, after switching on causes the handle used for switching on to remain in the switched-on position.

According to the invention, there is at least one of these two latches within the frictional connection between the contact point and the spring that generates the contact pressure, which itself Force transmission link in the positive connection between the contact point and the switch drive forms when switched on.

The following are the features of the invention and their advantages in detail described and explained on the basis of exemplary embodiments.

Fig. I first explains the principle of immediately upon triggering disengageable contact pressure spring. In Fig. 2, 3 and 4 are for further explanation three different switch positions of a mechanism corresponding in principle to Fig. i shown. Figs. 5 to 8 show an executed self-locking device, from which some details are explained in more detail by Figs. 9, 10, i and 12.

In Fig. I, i is the handle designed as a tilting handle. She is over the fixed axis 2 rotatable. On the axis 3, an arm 4 is articulated, which over the joint 5 acts on a leaf spring 6. The opposite end of the leaf spring is articulated around the pin 7. With 8 is the fixed contact piece, with 9 denotes the movable switching arm, which is rigid with the movable switching contact connected is. The arm is under the action of an opening spring io, which is shown in FIG On position strives to bring the arm 9 into the off position. At the leaf spring 6 is a pawl i i hinged, which is against with a locking lug a pin 12 of the switching arm 9 is supported. 13 is a rush trigger magnet with a movable plunger core.

In the switched-on position shown, this pushes against the links i to 4th formed knee joint against the free end of the leaf spring 6 and holds thereby the switching arm 9 against the action of the spring io in the switched-on position. Of the contact pressure acting between the contact element on the switching arm 9 and the fixed contact 8 is applied by the tensioned leaf spring 6.

If a short circuit occurs or another switching condition leading to triggering occurs on, the magnet 13 is excited and the plunger is thrown against the pawl t i. In this moment the coupling between the pawl i i and the locking pin is activated 12 of the switching arm 9 canceled. The spring io takes effect, it snaps the switch arm 9 with the movable contact in the switch-off position.

The schematic diagram shows that the effect of the contact pressure spring 6 at the moment of the release process by uncoupling this spring from the movable one Switching element 9 is completely canceled. The switching arm 9 can therefore its switch-off movement begin before the spring 6 has relaxed.

In this way, a considerable increase in the switch-off speed and thus the switching capacity is achieved. This increase in the switching capacity makes it possible, among other things, to design the self-contained installation switches that are suitable for installation on meter boards and the like, despite an increased switching capacity, with reduced dimensions. Above all, this also considerably reduces the operating time of the switch from the start of tripping to the start of contact separation, which is particularly important for the timely disconnection of short circuits. Figs. 2, 3 and 4 show an embodiment corresponding to the principle explained by Fig. T, which proves to be particularly advantageous in particular for smaller automatic switches, such as automatic socket-outlet switches and other automatic installation switches. The mechanism shown in these figures essentially contains the following parts: The handle i can be rotated about the fixed axis 2. It is under the action of a spring, not shown, which tries to rotate it clockwise and to hold it against a stop 15 seated on the angle lever 14. The angle lever 14 is by a. Pin 5 is connected to the drive lever 4. With this a double-armed lever 16 is articulated and slidably coupled by bolts 17 and elongated hole i8. The contact compression spring 6, which is designed as a tension spring, acts between the links 4 and 16. The stationary bearing journal of the lever 16 is denoted by i9.

The switching element 9 consists of a longitudinally displaceable rod, which carries the movable contact piece 2o and under the action of the opening spring io stands. The rod 9 is hinged to a rotary lever 21 which is against the pawl i i supports. The pawl i i is rotatable in an elongated hole 22 of the lever 16 and also guided in the elongated hole 23 of a stationary part.

Fig. 2 shows the mechanism in the switch-off position. Will handle i moved clockwise, the part 24 of the handle takes the stop 15 and so that the angle lever 14 clockwise with. That formed from the members 14 and 4 The knee joint is stretched, thereby tensioning the coitact pressure spring 6. Thereon the double-armed lever 16 is also clockwise around its bearing point i 9 pivoted. The pawl i i, which connects the parts 16 and 21 of the mechanism is moved up in the fixed guide 23. The pawl takes the rotary lever 21 and thus the switching element 9 into the switched-on position with. The final switch-on position is shown in Fig. 3. Of the Contact between the stationary contact pieces 8 and the movable contact bridge 20 is made. The opening spring io is under tension, and so is the mechanism is in the position shown by the elongated knee joint 14.4 and a die Movement of this joint limiting stationary stop 25 in the position reached secured.

If a short circuit or overcurrent occurs, the pawl i i through turned the release magnet. This will make the coupling between this pawl and the drive lever 2 1 of the switching element 9 is canceled. The switching element 9 immediately jumps into the switch-off position under the action of the switch-off spring io. This moment is represented by fig. Q. reproduced.

Due to the effect of the contraction pressure spring 6 contracting the remaining parts of the mechanism are in the switch-off position shown in Fig brought back.

In the embodiment shown, the opening spring acts io directly on the movable contact member or the contact bridge 2o avoiding any intermediate joints. As a result, there is a deadlock between this spring and the switching element excluded under all circumstances. This also contributes to to shorten the switching time and reduce the switching process itself to what is achievable Accelerate as much as possible.

The pawl i r is also according to the invention at the same time as a magnet armature formed or directly connected to this anchor in one piece. That too accelerates the release process and simplifies the construction.

When using a thermal Auslös.eelementes, z. B. a bimetal strip, this element can also act directly on the pawl i i.

The self-switch described is also characterized by that in the switch-off process only the switching element g and a simple one connected to it Drive lever 21 are to be accelerated by the opening spring i o. These parts have a very low mass, which can still be achieved through the use of light metal and through a suitable constructive training, z. B. by using a hollow one Rod for the production of the switching element 9, can be reduced in size.

The lever 21 is driven via the pawl i x, which the the only effective connection @ this lever with the rest of the mechanism. This has the consequence that the pawl is when switching on and during the switching off process does not rotate out of or into its locked position, but at the same time a sliding movement their storage executes.

The handle i could in and of itself be directly fixed to the member 15 be connected, as is the case with the schematic diagram in Fig. I. The application an acting with dead gear coupling between the handle and the member 15 there however, the advantage that the switching mechanism is independent when it is switched off by hand the front of the speed of the handle can move into the switch-off position. Man thus achieves a faultless jump switch-off in a simple manner even with manual operation.

One that was completed in terms of design and other features Embodiment of the arrangement explained with reference to FIGS. 2, 3 and 4 is shown in FIGS Figs. 5, 6, 7 and 8 shown. The: corresponding individual parts of the automatic switch are provided with the same reference numbers as in Figs. 2, 3 and q .. The application however, the features of the invention are by no means restricted to the exemplary embodiment.

According to the invention, the mechanism is mounted on two boards 30 in the self-switch according to Figs. 5 to 8 that the release coil 3 i and the release pawl ii (Fig. 6) are between the boards, while part of the switching mechanism is on both outer sides of the Boards or outside of the space enclosed by the boards is arranged in an easily accessible manner. In contrast to this, in known installation circuit breakers, the coils were attached outside the board space, while the mechanism is almost completely between the two. Circuit board enclosed space. Since any testing of the switch extends primarily to testing the mechanism, this arrangement according to the invention is a significant advantage.

The trip coil 31 is made of two windings that go through an insulating wall are separated from each other, which the rod-shaped switching element serves as a guide. The insulating body 32 of the double coil is shown separately in Fig. I i shown. Through a hole 38 in: the wall separating the two coil spaces 33, the switching element 9 is passed through as shown in FIG. The opening spring io can be housed in the interior of the bore 38.

The connection of the contact pieces 8 and 2o is expediently carried out in accordance with the circuit diagram 12, according to which the interruption path in terms of circuitry between the two coil turns. This arrangement has the advantage that besides that Blowing field of the coils nor the own field of the arc have a favorable blowing effect exercises. In addition, this arrangement allows a very simple line routing in the Structure of the switch, as the two inner ends of the coils only connect to the upper Ends of the two bolts 39 (Fig. 6), at the lower ends of which the fixed contacts 8 sit, need to be connected.

The arrangement shown in Fig. 5 to 8 is equipped with an additional bimetal strip 34 for thermal release. This bimetallic strip acts by means of an adjusting screw 35 on the pawl ti, which is also designed here as a release pawl. The insulating sock136 of the circuit breaker forms a cup-shaped cavity 37 (Fig. 6 tend 9 ) , which is intended to accommodate the contact organs and the blow iron. In addition to the switching chamber, special cavities can also be provided in the base to accommodate the blow iron. According to the further invention, the mechanism, the contact elements, the release elements and the blow iron form a unit which is placed as a whole on the base 36 in such a way that the contact elements and the blow iron dip into the cavity 37 of the base, which is open towards the handle. This design allows the switching mechanism to be tested prior to assembly with the base, with all elements essential for the operation of the arrangement being freely accessible. It is useful for such a design of the switch if the movable contact bridge, as in the example shown, is on the side of the switching and blowing coil opposite the handle and when the coils and the stationary contact pieces 8 firmly connected to the coil body are switched off moved away. The type of fastening of the unit, which is essentially held together by the boards 3o and formed by the mechanism, contact elements, release elements and blow iron, on the base can be seen in Fig. 5 and the left half of Fig. 8. The blow irons 4o protrude into recesses in the base 36, which are expediently designed so that the switch unit can be simply plugged onto the base with the aid of the blow irons. The further fastening can take place according to the invention in that bolts 4i inserted from the underside of the base are screwed into nuts 42 which are non-rotatably mounted in recesses in the blow iron 4o. It is advisable to use square nuts. Thereby special, bent and provided with threaded holes parts z. B. saved the blow iron. The overall width of the switch can also be kept small in this way.

The recesses in the middle part of the blow iron, between which the two contact points are also useful in that through they are divided into two pairs of pole pieces by the effective parts of the blow iron each of which holds one of the two switching points between itself and thus a blown field of particular density.

In Fig.9 the base is shown on its own as seen from above. He contains a switch cabinet 37 and two further cavities 43, 44. for receiving the blow iron 40 as well as bores on their base for inserting the fastening bolts 4i.

The switching chamber 37 formed by the base can be made by other means to support the arc quenching. You can z. B. cooling Provide insulating materials or metal protrusions near the arc and that Connect the inside of the base to the area around the switch using cooling channels. In the illustrated embodiment, metal plates are i-so, -lated from one another 45 arranged like a grid in the arcing chamber, between which the arc is driven by magnetic blowing. To prevent the arc from penetrating between To facilitate this, additional cavities 46 are provided beyond the same. The arc chamber is essentially closed to the outside. But it can also small exhaust openings to cope with particularly large switching capacities Be provided cross-section; these then expediently open into the space below the switch cap to avoid the appearance of fire outside the switch. One of the plates 45 is shown by itself in Fig. I o.

In the base of the switch according to the invention, bolts 48 are expediently arranged perpendicular to the fastening plane, which on the one hand establish the electrical connection to the current-carrying parts of the switch and, on the other hand, for fastening clamping pieces 49 (Fig. 6, 7) or connecting or. Fastening bolts 50 (Fig. 5,8) can be used. They are stored in bores 5 i of the base, which 'expediently have extensions to accommodate the necessary fastening screws. For the purpose of non-rotatable storage of square nuts or of inserted parts (e.g. 5o, Fig. 8), the widenings of the holes provided on the underside of the base are expediently rectangular or square in shape. The connecting pieces 49 are fork-shaped so that they can be plugged into the base from the side through openings provided for this purpose. As can be seen in Fig. 6, they can have screwed-in or pressed-in recesses into which the nuts 52, which are used to secure them, engage, so that the connecting pieces cannot be pulled out of the base when the nut is tightened. The shape of the connecting bolts 5o, which could be provided instead, can be seen particularly clearly in FIG. The use of the bolts 48 provided in the base enables a simple and inexpensive production of various types of connection options which make the switch usable for many purposes without any further changes other than replacing the connection parts being required for this purpose.

Claims (9)

PATENT CLAIMS: i. Small high-speed switch with overcurrent release for electrical house and commercial systems, which under the influence of two mechanical one behind the other or in parallel connected latches, one of which when the automatic release is released and the other, which is preferred has the shape of a toggle lever, after switching on the remaining to switch on serving handle causes in the switched-on position, characterized in that at least one of these two latches (1, 4 and 1 i, 12 in Fig. 1) within the frictional connection between the contact point (8, 9) and the spring system (6) that generates the contact pressure, which itself is a power transmission link in the positive connection between the contact point (8, 9) and the switch mechanism (i) when switched on. 2. Switch according to claim i, characterized in that one at the contact point (8) provided contact bridge (20) through a connecting them to the drive mechanism, switching element which can be moved back and forth in a straight line (part 9, FIG. 2) with a rotary lever (21) is articulated, which is in the switched-on state and during the switch-on process in known white against a pawl (i i) supported, which bearings on the one end of a horizontal beam-like lever (16) mounted in a stationary manner is, at the other end of which the contact compression spring (6) engages, via which the Switch drive (i) acts on the horizontal beam-like lever (Fig. 2). 3. Switch according to claim i and 2, characterized in that the pawl (i i) with the anchor of the release electromagnet forms a part (Fig.2). Switch according to claim i to 3, characterized in that the handle (1, 24) with the one driven by it Member (15, 14) of the switching mechanism to achieve an independent of the handle rapid switch-off movement (snap action) is coupled through dead gear (Fig. 2 until 6). 5. Switch according to claim i to 4, characterized in that the trip coil with the release armature between two parallel bearing plates (3o in Fig. 5 to 7), but part of the switching mechanism on the outside of the circuit boards or is arranged outside of the space enclosed by the circuit boards. 6. Switch according to claim i to 5, characterized in that the contact organs on the to Handle opposite side of the switching mechanism with this firmly connected are arranged, in such a way that the stationary contact pieces (9) to the side facing the handle and the movable contact piece (2o) moved away from the handle to the base surface when switching off (Fig. 6). 7: Switch according to claim i or the following, characterized in that the by the switch drive (i), the latching points (i 1, 21, 14, 4 in Fig. 2 to 7), the contact parts (8, 2o) and the contact pressure spring (6) formed switch mechanism forms a structural unit independent of the switch base (36), which is based on the Base is set that the contact pieces (8, 2o) and the blow iron (40) of the in the structural unit formed by the switch mechanism with included trigger respectively. Blowing electromagnets my or several cup-shaped cavities (37, 43, 44), de are provided in the switch base (36), engage. B. Switch according to claim i, characterized in that de switch-off spring (io) to avoid a dead Gangces when switched off immediately. d. H. avoiding joints or the like, on the longitudinally movable switching element (9) carrying the movable contact pieces attacks. 9. Switch according to claim i and 8, characterized in that the from Base-independent switch unit that engages in cavities in the base by means of the Blow iron is attached to the base, is attached to this au that of the back of the sock inserted bolts (41) in nuts (42), which cannot be rotated store in recesses in the blow iron (40), are screwed in.