DE974206C - Overcurrent circuit breaker with manual and magnetic or thermal release - Google Patents

Description

ISSUED NOVEMBER 3, 1960

B 31362 VIII b / 21 c

The invention relates to an overcurrent switch with manual and magnetic or also thermal release.

There are different types of overcurrent circuit breakers known, depending on whether it is It is a screw plug or socket machine, fundamentally different in structure are. The jump mechanism, the magnetic and the thermal switching mechanism are due to the fact that they are despite high pressure loads because of the small paths and spaces to each other Must be immovable, connected to one another by additional parts, which are referred to as scaffolding parts can be. These components are not absolutely necessary for the function of the machine therefore require a large amount of expensive cutting and punching tools, manufacturing time, Material waste and assembly time. The number of switch parts is still in the known machines always very considerable.

The relatively small number of components requires a known design in which the spring mechanism and the manual, magnetic and thermal release device on a molded insulating material are constructed as a base body, which when using appropriate housing parts for both screw plug and socket machines is used. This base body has the shape of a plate, on the partially reinforced Front in a ring open to the front

009 631/1

space the magnet coil is housed with the magnet core and attached at the front. The jump system with the push button, on the other hand, it protrudes into a pocket that is open towards the push button Pressed into it and is attached there. The base body is also designed so that it together with the housing wall has an outside of the base body, none of which is live Metal parts separate, well-sealed ίο spark space so that the switching arc and the gases produced by this do not reach the switching mechanism and the solenoid. The anchor, the bimetallic strip and the manual release do not cause the disconnection directly, but indirectly via a kind of swing that is on the die. Free release having locking shaft is attached so that all three trigger elements are particularly carefully aligned on the swing have to. On the back of this pressed part ao lies one of the toggle lever shaft of the jump mechanism operated switch lever carrying the current bridge for the switch contacts. This shape of the pressed part therefore requires pressing by means of several side slides. In addition, the little ones have to Axles or pins for pivoting components of the switching mechanism before each pressing process into the mold with expenditure of pressing time or later into the somewhat plastic one Mass of the compact are used, the accuracy is not always achieved that for a such a machine is an absolute prerequisite. It has been proposed in this design, the Base body made of two pressed parts, one plate-shaped and one ring-shaped or frame-shaped Part to produce so that they can be pressed without a sideshift. The ring or However, frame-shaped part must be placed on the plate-shaped part before assembly begins Part to be firmly connected to this. For securing the solenoid and inserting it of axles and pins for the pivoting components of the switching mechanism and for assembly the self-switch, the specified disadvantages remain.

There is a further type of automatic socket machine with rocker arm drive known in which a Made of insulating material, surrounded by the housing jacket and divided in the longitudinal plane of symmetry Base body is the carrier of all mechanical and electrical components. This basic body corresponds to in its outer dimensions completely the interior of the housing shell, d. h., also his The outer surfaces parallel to the parting plane extend to the corresponding inner surfaces of the housing jacket. Both main body halves have in their upper area, which supports the rocker arm their outer sides one to the outside, d. H. after the housing shell open, up to about the middle height of the base body reaching down switching chamber, in each of which a stationary one from below Switching contact penetrates. The bottom walls of both switching chambers hold each other as much distance as for accommodating the roughly horizontal T-shaped shift lever between them is required, the pivot web of this shift lever holding two spacers There is a strip of insulating material between which the spring mechanism that drives it and is influenced by the rocker arm is arranged. Shift lever and spring mechanism thus form a previously completed installation unit. Both body halves surround it as a loosely inserted part, its pivot axis when switching, slide in guide channels formed on the inner surfaces of the halves. The two Fixed contacts bridging, transverse to the pivot plane of the shift lever extending metallic The transverse web of the same passes through wide slots in the switching chamber side walls, which control the switching movement of the shift lever. The free distance between the two chamber floor walls for accommodation of the jump mechanism is achieved by the rocker arm mounting on them above on both sides and approximately in the middle of the construction height three corresponding projections are attached, that support each other. As a result, the accommodation space of the shift lever and Jump work on the two opposite sides and on the base surface open, and in addition, it stands with both of the aforementioned wide slots in the chamber bottom walls Switching chambers in connection. Below the lower support projections are the main body halves excepted towards the base surface, so that only one in each case in the outer surface of the base body running retaining wall remains. In the free space increased in this way housed two more structural units and specially attached to both halves. The one building unit consists of a downwardly open U-shaped metal frame with two inlaid insulating surfaces and between them arranged magnetic core and coil and an armature hinged to the frame, which is close and parallel to the Base runs and the free end has a resilient linkage, which in guide holes the insulating material is stored and with its free end in the work area of the Jump mechanism reaches up. The attachment of this unit is done in such a way that the two free tape ends of the coil winding on corresponding metal webs of one main body half fastened by screws, d. H. on one terminal bar and on one stationary Switching contact, components, which in turn are attached to this by several hollow rivets Half are attached. The other assembly, an upwardly protruding bimetal strip, is between the two lower support walls of the body halves and the free space between the Switching chamber floor walls upwards after the i? -O Jump mechanism guided and riveted to another opposite, also on the case half Clamp bar attached. On the other half of the main body, also in the space for the Accommodation of the coil frame, two further metallic conductor bars are attached by rivets,

namely the carrier of a stationary switch contact and a rail with terminals. The attachment of all of these parts therefore requires a considerable number of riveted and screwed connections, which make assembly more expensive and often lead to such strong stresses that the relatively weak insulating walls crack. The bottom ends of the two main body halves also require stiffening ίο by a metallic base plate, which in turn requires at least two screw connections. In addition, those components that still require adjustment after completion of such a machine base body, namely the magnet unit with armature and release linkage and the bimetallic strip in this design are difficult to access, ie set back from the outer surfaces of the receiving spaces. Another disadvantage is to be seen in the fact that when switching ~ Ver combustion gases the arc from both switching chambers can pass unhindered through the wide slits of their side walls into the space between the two halves of the body, so that over time they move the sensitive spring mechanism, the magnetic switch mechanism and the Reach the bimetal body and cause it to oxidize. The number of individual parts is also very high.

In the case of automatic switches with thermal tripping, it is also known to have two housings Divided in the longitudinal plane of symmetry, all switch parts receiving, storing and to form shell halves connected to one another by screws.

In such thermal overcurrent switches in screw plug form, it is also known that the screw base is included in the division and consequently its parts with the two housing parts are made in one piece; these two housing halves are supported by the two screw base parts comprehensive threaded basket and a cap encompassing the upper housing parts held together.

Furthermore, it is known to form only the switching chamber of insulating material symmetrically divided to its parting plane half th with overcurrent switches in screw plug form; with this design, however, there is a risk that the switching mechanism will be damaged by the switching arc and the gases flowing through it.
The invention has set itself the task of simplifying the construction of overcurrent circuit breakers even more, in that special fastening means are almost entirely dispensed with. It is possible to reduce the individual parts required for such machines to about forty. Furthermore, the main body halves to be pressed are designed so that they can be pressed without a sideshift.

The invention thus relates to an overcurrent circuit breaker with manual and magnetic or also thermal tripping, in which a surrounded by a housing jacket, in the longitudinal plane of symmetry Split base made of insulating material carries all mechanical and electrical components and is shaped so that its outer wall together with the housing wall forms a spark space forms; Such a switch is characterized according to the invention in that the base body consists of two containing the bearing bores for the shafts of the switching mechanism, at their edges superposed shell halves is such that the shell halves in after the division plane towards open recesses the spring mechanism with the actuating button and the solenoid with the Enclose magnetic core as only interposed parts securely in position, while on the flattened Outer surfaces of one half of the shell, the switching linkage with the switching contacts and on the the other half of the shell is the armature, the manual release and the thermal release device are arranged.

It can be seen that in this way practically all special fastening means, such as screws etc., and fastening measures with their labor expenditure can be largely avoided and that the essential components are only between the shell halves which surround them like a capsule are stored and held by the walls of the rooms. The assembly will this makes it extremely easier and cheaper. This design retains that of overcurrent circuit breakers known advantage that the switching due to arcing in the external switching chamber between the outer surface of one shell half and the adjacent one Combustion gases occurring in the housing wall the parts encapsulated between the shell halves, the sensitive jumping mechanism and the solenoid and also the diametrically opposite, between the outer surface of the other shell wall and the housing shell parts, the armature and the bimetal strip. The design of the switch according to the invention It also allows the same parts except for the compacts for both screw plugs can also be used for socket machines. Finally, there is another significant benefit based on the fact that the occasional after completion when checking the adjustment on a certain breaking current serving parts, the armature and the bimetallic strip on the The outer surface of one shell half is freely accessible.

When the overcurrent circuit breaker according to the invention is designed in the form of a screw plug the screw base is included in the division of the base body, in a similar way to thermal Overcurrent circuit breakers with screw base is already known; as a result, one can also store the middle socket contact in the recesses of the two shells. The connection of the two shell halves is carried out by means of cross bolts and the split screw base comprehensive threaded basket.

In a preferred embodiment, the locking shaft of the jump mechanism carries a knee-shaped

formed anchor. This swivels perpendicular to the axis of the magnetic core. This is the manual release and the thermal tripping carried out in such a way that on the transverse to the switch axis Part of the armature of the manual release slide and directly on the part of the bimetallic strip that runs parallel to the switch axis act.

In the drawing, an automatic screw plug machine is an exemplary embodiment of the subject matter of the invention shown.

Fig. Ι shows a longitudinal section, Fig. 2 is a plan view,

Fig. 3 and 4 the two shell halves of seen from the outside.

The insulating material carrier (Fig. 1) as the carrier of all mechanical and electrical parts consists of two shell halves 1, 2 obtained by longitudinal division in the plane of symmetry. In the division plane TT, in which the two shell halves 1, 2 lie on top of one another with their edges, there are various depressions ία , 2a, xb, 2b, ic, 2c are provided which, after the shell halves i, 2 are laid one on top of the other, form chamber-like receiving spaces which enclose the spring mechanism 3 with the actuating button 4, the magnetic coil 5 with the magnetic core 6 and the central terminal contact 7 securely in position. The components 3 to 6 are only inserted into these spaces between the shell halves 1, 2 and held in this position exclusively by a form fit. Both shell halves 1, 2 are then held together by cross bolts 8, 9. The threaded basket 10 surrounds the two base ends 1d, 2d and locks them in a particularly effective manner.

The outer surfaces xe, 2e of the shell halves 1, 2 are also flat, that is, they run parallel to the parting plane TT. The shafts 11, 15 for the spring mechanism 3 are mounted in holes 1 /, 2 / of both shell halves 1, 2. The shaft 11 carries the knee-shaped armature 12 a, 12 b on the outside of the flattened outer wall 2 e of the shell half 2. The manual release 13 acts directly on the part 12 a extending transversely to the switch axis. The bimetallic strip 14 acts directly on the part 12 b running parallel to the switch axis, so that no intermediate element is required for these two release drives. The armature 12 a, 12 δ itself pivots here perpendicular to the axis of the magnetic core 6.

On the flattened outer wall 1 e of the shell half ι the pivoting about the switch shaft 15 of the spring mechanism 3 switching linkage 16, 17 is arranged. The contact lever 17 carries a spring-influenced current bridge 18 which, as it moves upward, bridges the stationary contacts 19, 20, the carriers of which are fastened by the transverse bolts 8, 9.

The dashed line 21 indicates the housing jacket .

Claims (4)

Patent claims: i. Via current circuit breaker with manual and magnetic or thermal release, in which a base body made of insulating material, surrounded by a housing jacket and divided in the longitudinal plane of symmetry, carries all mechanical and electrical components and is shaped so that its outer wall forms a spark space together with the housing wall, characterized in that the base body consists of two shell halves (1, 2) which lie on top of one another at their edges and which contain the bearing bores (if, 2 /) for the shafts (11, 15) of the switching mechanism, in such a way that the shell halves are open towards the dividing plane Recesses (ία, 2α, ι b, 2b) enclose the spring mechanism (3) with the actuating button (4) and the magnetic coil (5) with the magnetic core (6) as only interposed parts, while on the flattened outer surfaces (iß, 2e) the one shell half (1) the switching linkage (16, 17, 18) with the switching contacts (19, 20) and the other shell half (2) the armature (12a, 12b), d he manual release (13) and the thermal release device (14) are arranged. 2. Switch according to claim 1 in screw plug design, characterized in that the screw base (1 d, 2d) is included in the division of the base body and the two screw base parts (Xd ₁ 2d) are encompassed by a threaded basket (10). 3. Switch according to claim 1 and 2, characterized in that the connection of the two shell halves (1, 2) takes place on the one hand by the cross bolts (8, 9) and on the other hand by the base halves (1 d, 2d) comprehensive threaded basket (10) . 4. Switch according to claim 1 to 3, characterized in that the locking shaft (11) of the spring mechanism (3) carries a knee-shaped armature (12 a, 126) which pivots perpendicular to the axis of the magnetic core (6) and on its transverse to Switch axis running part (12a) of the manual release (13), on whose part ( 12b) running parallel to the switch axis the bimetallic strips (14) act directly for the thermal release. Considered publications: German Patent Nos. 678493, 694107, 827984, 844610, 874 811; U.S. Patents Nos. 2513564, 2514545, 639,349, 2,642,510, 2,665,347; German patent applications A 10217 VIIIb / 21 c (announced on November 6, 1952), L 10270 VIIIb / c (published December 31, 1952), A 18579 VIIIb / 21c (published on May 20, 1954), L 98582 VIIIb / 2ic (published on May 20, 1954) 1943. iao For this purpose, 1 sheet of drawings © S09 628/100 1.56 (009 631/1 11. 60)