DE599396C - Automatic switch with free release - Google Patents

Description

GERMAN EMPIRE

ISSUED ON June 30, 1934

REICH PATENT OFFICE

PATENT LETTERING

JYi 599396 CLASS 21c GROUP

Patented in the German Empire on September 30, 1930

The transmission of an automatically triggered overcurrent switch usually requires a spring action circuit breaker, also a lock that can be triggered by the organs responding to overcurrent, which holds the circuit breaker against its spring in the switched-on position, and also a mechanism known as trip-free that prevents the Current circuit device is held by the operating handle in the switched-on position if a persistent short circuit or overcurrent is present.
Since these functions have to be fulfilled at the same time, the known automatic switches result in rather complicated mechanisms with numerous individual parts, and in fact several individual mechanisms can usually be used for the various functions

ao differentiate from which the overall transmission is composed.

The invention is a mechanism for automatic switch, in which all necessary functions from a single

s5 borrowed gears are met that out substantially consists of fewer parts than the well-known automatic transmission.

The mechanism contains two independently resiliently movable switch bodies, which are at a distance from each other when the control element is switched on move with it, which only occurs after the latching of one switching body into one due to overcurrent releasable lock and is canceled after the control element has returned. With the known switches this Art, the locking and release parts are arranged in the same room in which the Power interruption takes place. The locking and release parts can therefore when Response of the switch can easily be destroyed by switching flames. According to the invention is a reliable protection of the switching mechanism on such installation circuit breakers against switching flames achieved in that the locking and. Release parts of the switch without the interruption point of the switch body regardless of the cover in the front part of the housing on the the pressure body facing side of the switching coil are arranged. The spacer, which is used to control the one switch body (counter body) by the push button, is also from the second switch body and the trip coil concentrically surrounded. This concentric arrangement of the spacer, of the one switching body and the solenoid receives the switch in an axial and radial direction Construction.

*) The patent seeker stated as the inventor:

Wilhelm Element in Finkenkrug b. Berlin-Spandau.

599 39B

The idea of the invention can be implemented in many ways. One can z. B. use a rotating drum as a switching element and also the two switching bodies as well the operating handle can be rotated about an axis.

The inventive idea as well as further inventive possible solutions and further training are explained on the drawing with the aid of various possible designs of the last-mentioned type.

FIGS. 1 to 3 show an automatic socket machine in three different switching states. In Fig. 4 a similar arrangement is shown in a design as a screw plug. FIGS. 5 to 10 show a further possible solution. The remaining FIGS. 11 to 14 show possible changes of details.

In Figs. 1 to 3, 1 is made of insulating material existing housing of the machine and 2 of the housing cover penetrated by the push button 3. A magnetic coil 4 is inserted from the front into the housing and is supported on lugs 5. In the bore of the coil the one switching body 6 is guided displaceably. He's got one at the top Bund against which a compression spring 7 is supported, the other end of which is against the Body of the coil 4 sets. The second switching body 8 (counter body) is in a guide 9 held and is arranged by a between him and a contact piece 10 Compression spring 11 out of guide 9 pressed against the switch body 6.

In the bore of the switch body 6, the rod-shaped spacer 12 is made of insulating material movably mounted. Its length is such that he presses the button 3 with the Counter body 8 couples.

At the front of the coil sits a locking spring 13, which serves to control the switch body 6 to be held in the switched-on state. On the same side of the spool is In addition, a magnet armature (not shown) that activates the lock when it is triggered between the switch body 6 and the locking spring 13 cancels.

The locking spring can consist of a heating tape that is connected to the circuit. In this case the arrangement is made so that in the event of long-lasting overcurrents, which do not exceed 2 to 3 times the rated current, the heating band 13 bends and thereby triggers the lock, while the magnet armature only applies to larger ones Short-circuit currents cause tripping.

The two switch bodies 6 and 8 are

at the same time designed as a circuit breaker.

The current runs from the contact piece 10 via a connecting braid 0 or the like to the counter body 8, from there in the switched-on state of the switch to the switch body 6, then through the Magnetic coil and possibly through the heating tape to the other contact piece of the switch.

The switch works as follows: When switched off, the Parts of the mechanism the position shown by FIG. The switch body 6 lies against the push button 3 and the counter-body 8 pushed out of its guide 9 against the spacer 12, the other end of which touches the push button 3. • To switch on, push button 3 is pressed into the switch until it reaches the through Fig. 2 reproduced situation comes. When the button is pushed in, the switch bodies 6 and 8 moved with it. The spacer 12, however, is the one between the two Maintain the distance between the bodies. Shortly before the push button 3 and with it the parts 6, 12 and 8 their lowest position reach, the bolt 13 jumps over the switch body 6. . Will now be the When the push button is released, the switch body 6 is released against the pressure of its spring 7 held by the bolt 13, while the spring 11, the counter body 8 and the spacer 12 and the push button 3 moved back into the rest position until the counter body 8 touches the switching body 6 and the current connection between the two switching and current connection bodies is established. This The state is shown by FIG. 3. The contact pressure is essentially of the Spring 11 is generated.

If an overcurrent occurs, the magnet 4 or a combined thermal and magnetic switch if the switch body 6 is released by the locking spring 13 designed as a heating band. It is then snapped back into its rest position (Fig. 1) by the spring 7 and the between him and the counter body 8 existing connection canceled. The switching arc arises in the immediate vicinity of the magnetic coil 4, specifically close to its axis, where the magnetic blown field is relatively is strong.

If switching on is performed while a short circuit or overcurrent persists, so the release takes effect. Switching on takes place, as can be seen from FIGS. 2 and 3, only after the push button 3 has reached its rest position again .. would at the moment when the according to Fig. 2 depressed counter-body touches the switch body 6 (Fig. 3), a short _ If the end exists, the body 6 can immediately be released again and into its own Snap back switch-off position.

The Sehaltkörper 6 can be wholly or partially made of magnetic material, in particular Iron, so that it forms a magnetic core at the same time. The magnet anchor is arranged in such a way that when the magnet is activated it is affected by the iron Immersion core 6 is attracted.

Furthermore, a plate made of magnetic material can be placed below the contact point

ίο arrange in order to create the lines of force to give direction and concentration favorable to extinguishing the arc. to for this purpose z. B. the guide 9 of the counter body 8 made of iron. One

is similar, formation of the individual parts from magnetic Material can also be used in the design options described below use.

Instead of only storing one switch body 6 in the solenoid, you can do both Arrange switch body in this way. This saves a special tour for the counter body.

Such an embodiment is shown in FIG. The switch is as Screw stopper formed. The ceramic housing 1 forms directly in its lower part the plug foot 15, which is provided with the screw-in thread 16 and as Contact piece trained fitting pin 17 carries. The fitting pin 17 penetrates the Plug foot 15 and is expedient directly through the intermediary of a movable strand conductively connected to the counter body 8.

The magnetic coil 4 can, as in the embodiment according to FIGS. 1 to 3, from consist of a single coil. In the embodiment of FIG. 4, however, it is in two sub-coils 18 and 19 disassembled, a space 20 between their adjacent end faces consists. The mode of operation of the switch corresponds to that of the example described above.

As the example of FIG. 4 shows, one can also use automatic switches according to the invention use different types of switching coils. It can be z. B. also two coils on the two Attach the legs of a U-shaped iron core. The two switch bodies can then move between the coils and the legs of the U-shaped core, and contact can be made between the Ends of the legs are made where there is a relatively strong magnetic blowing field trains.

In the embodiment according to FIGS. 1 to 3, the contact and the Interrupting the current in a closed space below the switching coil 4 instead of. As a result, a relatively strong gas pressure occurs when switching off, which makes it difficult for the arc to occur.

This gas pressure still has the effect of switches according to the invention that he Switch-off movement of the switch body6 supported. Differentiate switches according to the invention from the majority of known switches already in that when switching off only a relatively small mass is to be accelerated. As a result, it takes place switching off from the moment of triggering with a relatively large Speed. This property results in a low short-circuit inertia, whereby the so-called selectivity of the self-switch improved and the use of the switch in connection with fuses is favored. This short-circuit inertia is in that the gas pressure produced when switching off the switching off process supported, further reduced.

If one arranges the current connection elements so that the contact is made inside the tight coil bore takes place, then naturally the gas pressure and thus the arc-extinguishing one The effect is increased and, moreover, the short-circuit inertia of the arrangement is further reduced.

The favorable influence of the arrangement with regard to the extinguishing of arcs can be increased by ensuring, according to the example of FIG. 4, that the gas, which is strongly compressed shortly after switching off, will expand immediately afterwards can. In the embodiment of FIG. 4, this is caused by the fact that between the two coils 18 and 19 is a larger space in which the compressed Gas can expand. You can increase the effect if you combine this room with another, possibly outside the self-switch located larger expansion space connects.

In the examples described so far, the two switch bodies 6 move and 8 always simultaneously while the push button is being operated. The movement of both Body begins and ends at the same time. ■

However, it is also possible to have the movements or the Start or end movement of a switching body at another point in time than that of the other body, whereby the times can overlap. Essential for the arrangements is only that by moving the body initially a distance between them is maintained after releasing the push button so reduced that the contact is made.

An embodiment with subsequent movement of the two switch bodies is in the Fig. 5 to 8 shown in four different switching states. Figures 9 and 10 show Cross-sections showing the arrangement of the release device and the contact organs reveal. The arrangement differs from that previously described by the following:

A compensating spring 40 is arranged between the spacer 12 and the push button 3. This spring first of all causes the stroke of the push button from the distance between the two when the switch is switched off Switching body 6 and 8 can be different. The spring is also necessary to the subsequent To enable movement of the two switch bodies.

The counter body 8 is held by a rod 41 which is in the fitting pin 17 of the screw plug is movable. The movement of the counter body generated by the spring 11 is limited by a nut 42 which is located in a bore of the fitting pin 17 and moves when the counter body 8 is pressed down in this bore. The way of the Counter body is also limited by a stop formed by the insulating housing which the counter-body sits down when the button 3 is depressed (FIGS. 6 and 7).

An insulating piece 22 is made between the spacer 12 and the counter body 8 arc-resistant insulating material arranged.

Counter body 8 and switch body 6 are formed directly to current circuit members. For this purpose, they are provided with laterally protruding contact tabs (43 in FIG. 10). In order to prevent the contact tabs 43 from rotating, the insulating housing can be used to form guides, e.g. a guide wall, which only have a sliding movement the contact tabs 43 allow.

The switch body 6 is extended in a tubular extension that is attached to his End carries a stop 44. It is also provided with a cam 45. The body 6 can consist entirely or in part of iron. The insulating body 46 of the solenoid 4 is Reinforced at the front of the switch and forms a cavity to accommodate the Locking and release parts. The locking member of the switch consists of FIG. 9 a double-armed lever 47 which engages around the contact body 6 in an arc shape and around the axis 39 is rotatable. The magnet armature 48 is attached to one arm of the lever 47. The end of the bimetal strip that bends in the event of an overcurrent grips the other arm 49 at. The bimetallic strip can be connected to the switch body 6 by a stranded wire 50 be. An iron plate 51 is attached to the front of the solenoid. the The plate has a shoulder 52 which faces the armature 48. The switch works in the following way: Fig. S shows the switch in the off state. If button 3 is pressed, so it acts via the spring 40 and the spacer 12 on the counter body 8 until it lies against the stop formed by the insulating housing. This state is represented by FIG. 6. The switch body 6 has now retained its position. Now, however, the push button 3 strikes the stop 44 at the upper end of the switch body 6 and takes on from now on also these with. If button 3 is pressed further into the switch, it moves the body 6 down until its extension 45 behind the resiliently receding locking projection of the locking lever 47 latches. This position is shown in FIG. The two switch bodies 6 and 8 are in this state again approximated to the same distance that it was when the Switch (Fig. 5) had.

If the button 3 is released, it goes back to its rest position and gives the Counter body 8 free. The counter body 8 then comes into contact with the switching body 6 and establishes the current connection (Fig. 8).

The section reproduced by Fig. 9 shows the switch in the switched-on state, as it corresponds to FIG. If a short circuit occurs, the armature 48 is of the Extension 52 tightened and thereby the lever 47 is moved into the switched-off position. When responding of the bimetal strip 49, this also acts on the lever 47 and causes in tripping in the same way as the magnet armature.

In the case of automatic switches according to the invention, it is advisable to arrange the contact point in such a way that that the arc path from the lines of force of the blowing field generated by the coil cut as vertically as possible. The magnetic influence can be according to the invention further increase by laying the contact point between two plates of the magnetic material which are too close to each other both sides of the contact points. Such an arrangement is among others Modification proposals explained by FIG. 11.

In this arrangement, the counter body 8 is guided in a cavity, which is made by the insulating body ι is formed and which also belongs to the counter body 8 at the same time Compression spring 11 receives. In this way, a special bearing body can also be

be saved. Between the counter body 8 • and the switch body 6 is an insulating body 22 arranged, which is held in recesses of the two switch bodies 6 and 8 so that it enables both bodies to touch each other. The body 22 is made of arc-proof Material. It forms a continuation of the rod-shaped spacer 12, which in this case can also consist of metal.

The coil bore is lined with a sleeve 24 made of magnetic material, the is connected to a likewise magnetic body 25. Opposite the body 25 lies another magnetic body 26. The bodies 25 and 26 are through the Switching coil 4 excited to different magnetic poles. The arrangement is such that the interruption point is between the plates 25 and 26 and the magnetic Lines of force enforce the switching arc vertically so that an optimum blowing effect is achieved.

In the design options described so far, the two switch bodies form the mechanism directly affects the circuit breaker. Instead, it is also possible to provide special circuit breakers and Connect or couple these with the switch bodies.

In the arrangement according to FIGS. 12 to 14 the counter body 8 is mounted in a manner similar to that in the example according to FIG. 11. It carries a contact bridge 30 which is provided with two contact surfaces 31. Of the Switching body 6 is provided with a corresponding contact bridge 32. Between the Spacer 12 and the counter body 8 there is an insulating body 22.

The special design of the contact organs of the contact space is shown in FIG. 13 14 and 14 can be seen in greater detail, which have a cross section running through the contacts of the switch demonstrate. Fig. 13 gives a view of the switch, seen in the direction of the Fitting pin, Fig. 14 is a view of the switch, seen in the direction of the actuator, again. On the body of the coil 4 two webs 33 are arranged, which are located between the contact points 34 of the bridge 32 and leave a gap between them. A separating web 35 engages in this distance, which is connected to the insulating housing 1 can consist of one piece. The contact area is divided into two parts by the separators, so that any arcs that may arise are safely separated from one another. A similar Arrangement can also be used to advantage with double-pole switches.

In switches with split circuit coil according to Fig. ¹ to 4 can accommodate the special current circuit also organs in the space located between the two switching coils.

In addition to the improvements that are occasionally explained in the examples, switches according to the invention also achieve the following advantages over the known designs: The closed nature and compactness of the gearbox make it possible to give the switch even smaller dimensions than were customary up to now. You can ¹ they z. B. adapt to the recently used security system in which the cartridge diameter is not larger than the largest cartridge pin of the previous system. On the other hand, with otherwise the same external dimensions compared to the known automatic switches, there is the advantage that the switching mechanism takes up a relatively small amount of space, so that a larger space remains available for the current circuit members, which gives greater freedom with regard to the design and dimensioning of the current circuit members Arc space and the switching devices granted. Furthermore, as the examples show, it is easily possible to arrange all locking and release parts on the front of the switch, so that the operation of the switch can be observed after assembly or only after removal of the cap.

Claims (10)

Patent claims: 1.Switches with trip-free release and two independently resiliently movable switch bodies, which move at a distance from one another when the operating element is switched on, which is only canceled after the one switching body has latched into a lock that can be triggered by overcurrent and after the operating element has returned, characterized in that the locking and release parts of the switch are arranged without the interruption point of the switch body independent of the cover in the front part of the housing on the side of the switch coil facing the push button and the spacer between the push button and the one switch body (counter body) from the other switching body and ^{1 of} the trip coil is concentrically surrounded. 2. circuit breaker according to claim 1, characterized characterized in that the to the from the rod-shaped spacer (12) penetrated. Switch body (6) belonging spring (7) between the switch body (6) and the solenoid and the second switch body (counter body 8) listening feather (ii) on the other side the coil is arranged. 3. Automatic switch according to claim 1, characterized in that between the two switching and current connection bodies (6, 8) a rod-shaped spacer (12) continuing special insulating body (22) z. B. refractory, in particular ceramic material is arranged, which through recesses in the switch body can be held (Fig. 5 and 11). 4. circuit breaker according to claim 1 with thermal and magnetic release, characterized in that the locking of the switch body (6) by a Lever (47) takes place, which latches under spring action radially via a locking lug (45) of the switch body and on which both the armature (48) as well as a act on the heating band (49) (Fig. 5 to 10). 5. Automatic switch according to claim 1 and 4, characterized in that the locking lever (47) is designed as a double-armed lever which surrounds the switching body (6) or the spacer (12) in a circular manner and the magnet armature (48) carries on one lever arm, while the heating tape (49) engages the other lever arm (Fig. 9). 6. Automatic switch according to claim 1, 4 and ¹ S, characterized in that the locking lever (47), magnet armature (48) and heating band (49) are housed in a front recess of the coil former (46). · 7. Automatic switch according to claim 1, characterized in that the contact is made on the side of the switching coil facing away from the printing head in one of the insulating housing formed switch room or takes place inside the trip coil. 8. circuit breaker according to claim 1 and 7, characterized in that the coil consists of two sub-coils (18, 19) which between their adjacent end faces form a space (20) which the contact arm enlarged and receives contact parts (Fig. 4). 9. Automatic switch according to claim 1 and 7, characterized in that both are movable Switching body (6,8) are guided in the bore of the switching coil (Fig. 4). 10. circuit breaker according to claim 1, characterized characterized in that the two switch bodies with special current circuit devices, are optionally provided with several interruption points (Fig. 12 to 14). 1 sheet of drawings