DE910083C - Overcurrent switch with automatic and manual release - Google Patents

Description

Overcurrent switch with automatic and manual release For an overcurrent switch With self-release and manual release, a mechanism is provided wond # - n that both has an extremely short switching time as well as a simple fabrication = in can be accommodated in a particularly small room. The overcurrent switch has a knee joint @ akmech "a@ni.smus, whose knee joint on the knee in an elongated hole one with the switching element (push button) connected part is performed. The knee joint is also at one end a locking lever and at its other end to one under the action of an opening spring Standing lever that can be linked in a form-fitting manner with switching contacts. The one on that Knee joint hinged locking lever is in the on position of this switch locked near the knee by a stop lever, the longer arm of which with the Locking lever cooperates un, d whose shorter arm is actuated by the outlet organs will.

The invention relates to a development of the Überstromau: slösers iin the direction, that is, as a two- or three-pole switch, @ especially Motorsch, utzsch, old, is usable. For the formation of the multipole switch, the arrangement is the switching contacts to their drive mechanism as well as the arrangement of the automatic FromMyseorgane also the drive mechanism and the switch contacts are essential Meaning. In the case of the multi-pole switches according to the invention, drive, s, mechanliis-mus, Switching contacts and automatic release organs like this; atus-formed and like this to one another appropriate that despite the multipolar switch an extremely b has rushed construction. The already proposed one contributes to the small dimensions Knieä steering mechanism is essential.

According to the invention, the lever on the overcurrent switch controls .der one end that eats the knee joint in a form-fitting manner, one at right angles to the direction of movement the push button movable slide switch with contact bridges, which at its bearing points guided in a curve between the plates of the mechanism (is that up to to push through the ball joint the contact bridges after their contact with the perform a sliding movement on stationary contact pieces @these. The inventive Control of the contact bridges gives the possibility of keeping the switching contacts tightly packed side by side in a switching chamber on the front side (to arrange the switch base, foreseeing that special magnetic blowing devices are required for the contacts are. At the same time, the self-cleaning of the contacts at Wied switch on -done. It is advantageous to use the magnetic and thermal Tripping elements housed in a rear cavity of the switch base, while on the front of the switch base next to each other to move the The slide switch serving mechanism and the switching chamber are located. More beneficial Details of the invention are; in the explanation: this exemplary embodiment highlighted.

In the drawing, a three-pole motor protection switch is shown as an exemplary embodiment.

Cowardly. i! shows a side view with a partial section, Fig. 2 shows a Top view with partial sections and FIG. 3 a rear anise (not; in FIG. Q. Is the Arrangement of the contact bridges on the desk (ieber shown; Fig. 5 to 7 give Schematic representations of the triggering device, the Schailter again.

In FIGS. 1 to 3, i is the switch base. The switch base i carries (Feg. i) on its front side the mechanism 2 for driving the switching contacts and d next to it .diie switching chamber 3. In a cavity on the back q. of the Sch.altersackeis, which is covered by a plate 5, there are the magnetic release elements 6 and the thermal release elements: 7. With 8 is the switch-on button and with 9 denotes the switch-off pushbutton, both perpendicular to the front of the switch base are movable. The back of the switch base has recesses q. ' provided to accommodate lines laid on the rear (Feg. i and 3).

The drive mechanism has essentially the same structure as the drive mechanism already proposed: Between the plates io, the switch-on pushbutton B is guided in the transverse webs ii, which has an elongated hole 13 (Fig. I) on an inserted part 12. In (the elongated hole 13 is the knuckle of the knee joint,. Whose (members are denoted by 14 and 15. One end of the knee = link, namely the (member 14) is hinged to the locking lever 16, which is around: the axis 17 is rotatable, the locking lever 16 acts in the vicinity of the knee joint (Fig. I, shown in dashed lines) with a double-armed stop lever 18 which can be rotated about the axis One arm of the stop lever forms a pawl which interacts with the pawl of the locking lever 16. The other arm of the stop lever 16 is controlled by the automatic release elements 6, 7, as described below The knee joint is positively connected to a lever 2-1, which can be rotated about the axis 2: 2. A spring 2 3 (switch-off spring) tries to rotate the lever 21 clockwise between the link 15 of the knee joint and the Lever 21 is still attached a spring 24, which has the task of the knee of the knee joint and. to lift the switch-on pushbutton 8 upwards.

According to the invention, a slide switch 25 is attached to the lever 21, which is positively hinged to the knee joint, which is movable transversely to the direction of movement of the switch-on pushbutton 8 (FIG The control bridges 27 cooperate with stationary contact pieces 28, 29, which are located in the sheep chamber 3. The switch slide 25 (is guided between the platform of the mechanism and is supported on a pin 30 which is in. The pin 3o penetrates the slide switch in a curved slot 31. The curve of the slot has such a shape that: the slide switch, before the contact parts 27, 28, 29 touch each other, moves essentially parallel to the If, however, you have touched the contacts, the switch slide leads to the pushing through of the knee joint with its contact bridge 27 on the stationary contact parts 28, 29 a sliding path through. This will clean the contacts, creating a good contact.

The Fig. Q. shows an advantageous attachment of the contact bridges on (the insulating cross member 26 of the slide switch 25. The insulating cross member 26 has namely for each contact bridge 27 two hook-shaped holding members 5o, diie with their wide hooks 51 facing each other. There is a slot between the hooks 52 available. The contact bridge is inserted upright through (this slot (and after stretching it, rotated it by go °, so that it is with its broad surface against -the hook that lays holding members. Between the hook-shaped retaining members there is a compression spring 53, which also serves as a contact compression spring. These A compression spring presses the contact bridge 27 against the hooks 51 of the holding members. A Cleaner 54 placed around the hook-shaped holding members 50 secures the position of the Pressure faders between the hook-shaped retaining members. The ring can after insertion the contact bridge - do not fall off. Because the contact bridges have recesses on their long sides 56 have., In which the hook-shaped retaining members 5o unite, mature, can they do not move in their longitudinal direction on the hook-shaped holding members. This type of attachment of the contact bridges not only allows simple attachment the contact bridges on the insulating crossbar, but also ensure that they are switched on evenly and turning off the three switch poles. The switching chamber 3 of the switch, idiie on the front of the switch base i next to the drive mechanism. 2 the switching contacts is formed by an insulating body 32, which is on the Switch base is attached (Fig. I). The insulating body 32 is with the help of Screws 33 attached to the switch base. It forms with the switch base i for the switch contacts: U-shaped interconnects, for the three switch poles. Of the Middle part 34 of the U-shaped control room forms the actual contact area, in which the movable contact bridge 27 and the stationary contact parts 28, 29 are located. The legs 35, 36 of the U-shaped switch room provide the ventilation channels of the contact area. They close small part of the insulating body between them 32, which carries the stationary contact parts 28, 29, and run parallel to the Front of the switch base. The upper vent channel 35 is through a 37 completed, which consists of liichtibogen-extinguishing gas lifting material. Of the Lower Enthiftungs: channel 36 is, as Fig. 2 shows, on the fastening screw ' 33 passed. Its opening 49 is scaled down to in case switching flames are off the vent duct to prevent switching flames from neighboring Switch poles touch each other. This ventilation duct also has a wall 38, which when heated 1, emits ichtbopenlösc he-nidies gas. From the Kontaktra @ ulm 34 is the one stationary contact part 28 in the ventilation duct 35 to the connection terminal 39 brought out. The andle: re stationary Kont: Akttei, l'29 steps through the switch base i in the rear cavity 4 and is together with the magnetic trigger 6 attached to the switch base by screw 33. The arrangement of the stationary Contact parts 28, 29 with their Z: ufüha-ungen is advantageous because of their current loop formation a favorable magnetic blown field for the shaft arcs is created without special magnetic blow coils are required. The magnetic trigger 6 insists on the magnetic coil 40 and: the armature 41. The thermal release 7 is formed by a bimetallic strip which is attached to the connection terminal 42 is. The thermal release 7 and the armature 4i ider three switch poles work together with the lever 43, which is rotatable about the axis 44 (Figs. 1 and 3). On the lever 43 acts a return spring 45, which idre the lever counterclockwise to idre: hen seeks. The lever 43 is connected to the stop lever 18 by a pointer-shaped intermediate element 46 coupled. The point of application of the pointer-shaped intermediate member 46 on the lever 43 is originally movable. In contrast, according to the invention, the distance from the attack point is of the intermediate link 46 @ to. (the stop lever 18 differs from sein, ne: r axis of rotation i9 adjustable. For this purpose, the arm of the stop lever has a flat curve. Slot 47, in which the intermediate member 46 is adjustable ar. By tightening the clamping screw 48 can, the Z: wiischengl @ ied '46 clamped in different places of the armchair will.

To explain the mode of action of the pointer-shaped intermediate link 46 dunes idlie rig. 5 to 7 of the drawing. Fig. 5 shows the locking lever 16 and the stop lever 18 with the usual overlap: the Kl, inken., before the automatic Have triggered triggering organs. The size of the overlap of the link is indicated by the angle a. The pointer-shaped intermediate member 46 is located in such a position (drawn in full) that its point of attack on the stop lever 18 is closest to the axis of rotation i9. The distance between the point of attack and that of the axis of rotation is denoted by Li. There is an overload in the electricity circuit on, the thermal release 7 and warms up, sags. The Lever 43 turned clockwise against the action of spring 45. This will the stop lever 18 rented. Has the overlap when the stop lever is moved If the little one has stopped, the thermal release 7 has covered the tow A 1. If the pointer-shaped Zwilschengl, ied 46 is in a different position, e.g. B. 4n, the distance I_2 from the axis of rotation, of the stop lever (Fig. 5, dashed drawn), then other conditions arise. The thermal release 7 m: uß, as shown in FIG. 7, cover a distance A2 which is greater than the distance A1 of the Fig. 6; the same overlap of the linkage (angle a) between the locking and lift stop lever. In addition, the thermal release must have a larger one Use force, dia. the violin power of the spring 45 has become greater. These The thermal release can only be carried out if it is with a larger current is charged as in, the case of fig. 6. So you can set different Positions of the pointer-shaped intermediate link on idiem stop lever the response of the Set Schialters to different amperages. For this reason it becomes expedient the stop lever 18 is provided with a scale via the curved slot 47.

The current curve in the motor protection switch is as follows: For everyone Switching pole is the current path from terminal 39 via Iden to the stationary contact part 28,: the movable contact bridge 27, the stationary contact part 29, the magnetic Release 6, the thermal release 7 to the connection terminal: 42 out. Be 55 d Terminals for connecting a neutral conductor. These clamps are, by a rail connected, which is inserted between the drive mechanism 2 and: the switch base Is (Figs. I and 2).

The mode of operation of the motor breaker is as follows: Diie F'iig. i generates the switch in the switch-off position. In this switch position are the Contact bridge 27: and the stationary contact parts 28, 29 separated from one another. To switch the switch on, press the switch-on pushbutton 8 downwards. Thereby wi: r (d the knee joint 14, 15 beyond the dead center remaining stretched. As a result of the stretching, the slide switch 25 with its contact bridges 27 pressed against the stationary Kontakttci, le 28 and 29. As a result of the blocking of the Kti: iegeilenkes i through the locking lever 16, the slide switch maintains this position. If an overcurrent or a short circuit occurs, the therrnisrlu release speaks 7 or the magnetic release 6 by turning the lever 43 @ clockwise will. Through this. wind overlaid pointer-shaped intermediate links i .I6 of the stop lever 18 moves, whereby the latching between. Lock lever and Anscli, laghel; el canceled -,will. If this is the case, the slide switch 25 can act as the opening spring 23 by leaps and bounds, in, the switch-off position move. To turn the switch off manually, The switch-off pushbutton 9 is moved downwards. With the downward contribution: g comes across he with one approach against: the stop lever i 8, and thereby lifts the latch: g between the locking lever and the stop lever.

Claims (5)

PATENT CLAIMS: i. Overcurrent switch with automatic and manual release as well as a knee commemorative mechanism, the knee joint of which is influenced by a push button on the knee and is hinged to a locking lever on one end and to a lever under the action of an opening spring on the other end, characterized in that the under action a switch-off spring lever (2i) controls a slide switch (25) with contact bridges (27) which can be moved transversely to the direction of the leg of the push button (8) and which at its: bearing points between the plates (io) of the Mechaufsmus .in a curve (3i) guided in this way is that until the knee joint is pushed through, the contact bridges (27) after they come into contact with the stationary contact pieces (28, 29) execute a sliding movement on them. 2. Overcurrent switch according to claim i, characterized in that the magnetic and thermal release elements (6, 7) are located in a rear cavity (4) of a switch base (i), the on the front side next to each other the ones used to move the ski slide Mechanism (2) and the switching chamber (3) carries. 3. Overcurrent switch according to claim r and 2, characterized gekennzeiichnet, d sat the switching chamber (3) for dne switch poles U-shaped switching rooms h: at, the middle parts (34) as switching rooms, the contact parts (27, 28; 29) receive and their Sche 'nke'l (35, 36) enclose the: insulating support (32) of the stationary contact parts (28,: 29) and form the ventilation channels for the contact areas. 4. Overcurrent switch according to claim i, characterized by d! ate on the slide switch (25) each contact bridge (27) between two hook-shaped Retaining members (5o) inserted and held against the hooks (5i) by a compression spring (53) is pressed, with a ring surrounding the H.alteglieder (54) dlie between the Holding members located compression spring (53) secures in their position. 5. Overcurrent switch according to claim i, characterized in that the den. Locking lever (i6) of the knee joint mechanism locking stop lever (i8) with one of the thermal and magnetic release mechanisms (6, 7) controlled,, under the action of a. The return spring (45) are rotatable, Lever (43) is coupled by a zeiigeTfö @ rmi @ ges Zwischengfiedi, (46) whose On the handle point on the rotatable lever (43) immovable, on the other hand on the stop lever (i8) at different distances from the axis of rotation (i9) this connection lever: s adjustable ,is.