DE395906C - Automatic coupling between the toggle and the movable switching element of an overcurrent rotary switch - Google Patents

Description

With electrical rotary switches you have to take into account the shop-like use already taken precaution that the toggle both in the direction of the switching movement as well as in the opposite direction without damage to the facility. If one uses such switchgear equipment For overcurrent switches, it is also necessary that when switched on, the toggle in both directions Turned without affecting the switch and by holding the toggle the automatic Switching off if the cause of the overload still exists is not prevented arbitrarily can be, but that the switch has a trip-free mechanism. The invention relates to a device that meets these requirements enough. Bs is between the movable contact member of the switch and the Toggle an intermediate member rotatable by the latter is provided, which is on a guide track runs that the intermediate link until reaching the .Switching position of the movable Kbntaktgliades leads in such a position, which corresponds to the coupling between toggle and contact member, and after reaching the Switching position can come into a position corresponding to the decoupling of both parts.

The drawing shows the device in A ^r Getting Connected with a so-called time-fuse plug, which acts as a current switch. Fig. 1 shows a longitudinal section through such a plug. Figure 2 is a top plan view of the stopper with the lid removed. Fig. 3 shows the actual coupling device in a side view, and Fig. 4 is a section along line AA of Fig. 3.

The fixed contact part of the switch is formed by the somewhat resilient arm α , which is electrically related to the threaded sleeve b . The movable part c is seated on a shift drum d which is rotatably seated on an axis e fixed in the housing. The spiral spring / arranged on the switch drum, which can be inserted into various tooth gaps for the purpose of regulation (see Fig. 4), is tensioned by the switch-on movement so that it returns the drum α to its starting position when the switch is triggered. The pawl g, which is under the action of a hot wire in the example, is able to hold the roller d on the nose h in the contact position. The movable contact c is electrically related to the central contact i of the plug through the axis e. In the lid k of the plug is in the usual

Claims (3)

Way a toggle Z rotatably mounted, which ends on the inside of the lid in protruding spring tongues m. On the uppermost end of the axis e, a disk η is fixed so that it cannot rotate, the edge of which runs in a spiral shape. Enveloping this disk η, a sleeve ο is placed rotatably around the head of the axis e, the upper end face of which has two pins p which can come into engagement with the tongues m of the ίο toggle I. In the side wall of the sleeve ο a pin q is mounted so that it can be moved radially; a spring r presses it inwards. The inner end of this pin q rests on the spiral edge of the disk η. An upwardly protruding pin s is attached to the shift drum d, which depending on the radial position of the member q can come into engagement with the latter. The spiral disk η is fastened in such a position on the axis e that the link q pushing the pin j and thus the roller d in front of it falls into the sink point t of the spiral disk η (Fig. 4) when the contact piece c faces the contact arm α . The mode of operation is as follows: If the toggle / is turned clockwise when the switch is interrupted, when viewed from above, its tongues m grip the pin p and turn the bushing 0. The link q grinds on the edge of the spiral disk μ, is thereby displaced radially outwards, comes into engagement with the pin s of the roller d and rotates this and thus the contact piece c. If the position shown in Fig. 4 is turned a little too far, the link q sinks radially inwards under the action of the spring r and releases the pin J. The spring tensioned during the rotation could now turn the roller d back again if it were not held in the position now reached by the pawl g on the nose h. In this position, a current short occurs between c and α. As long as the current short position exists, the toggle Z can be rotated in both directions without this affecting the switch. If the direction of rotation is reversed, as described above, the tongues slide over the pins p without any effect; if, on the other hand, the toggle / is rotated in the above-described direction corresponding to the activation, the sleeve ο is also rotated, and the link q moves radially again, guided by the disk n. This, however, has no effect on the shift drum d, there the link q cannot engage with the pin s, which is now out of its path, or it grips this pin, but without changing the contact position, falls into the sink point t of the spiral disk η and thus comes out of engagement with the pin s. If the pawl g is released by the action of the overcurrent switching device, the disk d rotates back under the influence of the spring / and opens the contact c-a. Holding the toggle during this opening process has no effect, since the pin s can slide past the inwardly pushed member q. In the embodiment described, the coupling member q moves radially to the rotational movement of its guide sleeve 0. Depending on the type of switch, an embodiment would also be possible in which this movement takes place in the axis of rotation of the guide sleeve or in a direction parallel to it. Godfather ν τ-An Proverbs: 1. Self-acting coupling between the toggle and the movable switching element of an electrical overcurrent rotary switch, characterized in that an intermediate member (q) rotatable with the aid of the lever runs on a guide track (s) which the intermediate member (q) l: is to achieve the Switching position of the movable switching element (d, c) leads to a position causing the coupling between the toggle (Z) and the moving switching element (d, f) and, after reaching the switching position, can come into a position corresponding to the decoupling. 2. Apparatus according to claim 1, characterized in that a relative to the him through the toggle (Z) given rotational movement radially displaceable pin (q) o. The like. Is provided, one end of which on an eccentric path (s) under spring pressure is guided, while the other end comes into engagement with a projection (s) of the movable contact member and the web (w) is provided with an escape point (t) opposite the position of the projection (s) corresponding to the current connection point. 3. Modification of the device according to claim 2, characterized in that the displaceability of the intermediate coupling member (q) is provided instead of in the radial in the axial direction with respect to the rotational movement imparted to it by the toggle. 1 sheet of drawings.