EP1001444A2 - Overcurrent trip device - Google Patents

Abstract

An overcurrent release for protective switching devices, in particular miniature circuit breakers or motor protection switches, with electromagnetic and thermoelectric tripping, consists of a thermally conductive tubular support body 11 wrapped with a coil 12 to increase intrinsic safety against higher currents, which has a stop end 13 and an opposite extended receiving end 14 for the system and the radial mounting of a bimetallic snap disk 15 with a central bore 31, a core 16 fastened in the support body 11 with a central bore 18, 19, an armature 20 movable in the support body 11 between its stop end 13 and the core 16, and out a plunger 25 which extends through the bore 31 in the snap disc 15 and the bore 18, 19 in the core 16 in the direction of the armature 20, the plunger 26 being thermoelectrically by means of the snap disc 15 via a thickening 27 and electromagnetically by means of the armature 20 a st Plunger actuator 26 can be disengaged, and the distance s between armature 20 and core 16 corresponds at most to the snap stroke of the snap disk 15 in the operational state. <IMAGE>

Description

The invention relates to an overcurrent release for electrical Protective switching devices, in particular miniature circuit breakers or Motor protection switch, with electromagnetic and thermoelectric Release.

Such an overcurrent release is already in DE-PS 36 37 275 disclosed. This known overcurrent release is up to seven times the rated current of the switchgear intrinsically safe. For the Motor protection, however, are overcurrent releases with magnetic Response values up to 20 times the nominal current are required, which results in an unprotected overcurrent release Range between seven times the nominal current and desired response value of the magnetic release results.

From DE-OS 19629062 it is still part of a further development of the aforementioned overcurrent release known Anchor when cold using an additional bimetal up to about ten times the nominal current in the sense of preventing the Responsive to hold on and only at larger currents mechanically overcome this bimetal by the magnetic force. It flows into this known overcurrent release Electricity on the order of seven to ten times Nominal current, i.e. up to the magnetic holding current, occurs a quick bend of the bimetal and thus for release of the anchor with the result that the critical area of the Circuit breaker thermally protected by means of the magnetic release becomes. The disadvantage of this is in principle reliable working overcurrent release that manufacture of its parts an extremely high accuracy makes necessary, which with simple means in the Series production is not easy to achieve.

The invention is accordingly based on the object of an overcurrent release of the type mentioned at the beginning, that for his critical area between the seven and ten times the nominal current the intrinsic safety with low constructive Effort is guaranteed.

According to the invention, this object is achieved in claim 1 mentioned features solved. Preferred features of the invention Advantageous further training are the subordinate claims refer to.

The response time is thus advantageous according to the invention the bimetallic disc in the critical range between the seven to twelve times the rated current using the magnet armature so greatly shortened that for the intrinsic safety of the switchgear required thermal protection is guaranteed. Here the magnetic force of the current-carrying coil is used, to directly over the anchor and a tubular actuator to apply the bimetallic snap disc. In a favorable way the bimetallic disc acts as an anchor restraint spring the anchor mechanically up to the magnetic response value of the Circuit breaker holds. As soon as the magnetic response value is reached, the armature presses over the tubular actuator the bimetallic disc above its snap point, that the plunger unlocks the circuit breaker of the circuit breaker can. When the coil is energized, the armature presses depending on Amount of current more or less on the bimetallic snap disc with the effect that in the critical area between snapping the seven and ten times the rated current heated disk is accelerated via the support body. Hereby the snap time of the snap disk is shortened so that the circuit breaker switches off quickly and thus intrinsically safe.

The mutual support of magnetic armature and bimetallic snap disc essentially only takes place in the critical area between seven and ten times the nominal current. For example Tripping characteristic prescribed for miniature circuit breakers comes from the fact that at higher Only flow the magnet armature and only at low currents Bimetal snap washer are effective.

Due to the conception according to the invention can be advantageous easily implement series production with simple means. The prerequisite for cost-effective production is given by the small number of simple parts, and by using only round symmetrical parts such as support body, anchor, tube, plunger, core, snap disc, A combined overcurrent release is available for the O-ring and cover made without additional assembly measures for the fully mechanical series production is designed.

For the function of the overcurrent release according to the invention on the one hand there is an intimate connection of the bimetallic snap disc with the support body, for example via a elastic o-ring, in order for electrothermal release good heat transfer from the support body to the snap disc guarantee. However, it is also important that the distance between anchor and Core (armature air gap) must not be larger than the snap stroke the bimetallic disc to ensure that, for example at high short-circuit currents the armature the snap disc not mechanically deformed.

That provided in the overcurrent release according to the invention Tappet actuator is preferably through the bore of the Core guided and preferably designed as a tube, which preferably loosely surrounds the plunger. This results in a extraordinarily compact design of the tappet actuator with optimal power transmission and introduction into the Snap disc.

According to a further embodiment of the invention, the core is adjustable in position in relation to the armature in the support body attached, which provides an additional adjustment for the armature air gap.

The snap disk is preferred in the receiving end of the support body applied to the edge by means of an elastic O-ring attached, the O-ring preferably by means of a lid-shaped cap is pressed against the snap disc, wherein the cap has a central tappet passage opening.

The hole in the core is according to a preferred embodiment the invention with a guide portion for the tappet actuator, preferably in the form of a pipe guide section, and a comparatively larger diameter section formed, the core itself preferably close to that Receiving end of the support body is attached to a compact To enable overcurrent release design.

According to a further embodiment of the invention, the anchor has a recess on the back for receiving a Stop end supporting vibration damping spring. By this measure is advantageous with the movement of the armature Network frequency counteracts such that a disturbing noise is reliably prevented.

Fig. 1

eine Schnittansicht durch ein Ausführungsbeispiel eines Überstromauslösers in seiner Bereitschaftsstellung;

Fig. 2

eine Schnittansicht des Überstromauslösers von Figur 1 nach elektromagnetischer Auslösung; und

Fig. 3

eine Schnittansicht des Überstromauslösers von Figur 1 nach elektrothermischer Auslösung.

The invention is explained in more detail below with reference to the accompanying drawings. Show it:

Fig. 1

a sectional view through an embodiment of an overcurrent release in its standby position;

Fig. 2

a sectional view of the overcurrent release of Figure 1 after electromagnetic release; and

Fig. 3

a sectional view of the overcurrent release of Figure 1 after electrothermal release.

A section through an overcurrent release is shown schematically in FIG 10 shown for protective switching devices, the one Has heat-conductive tubular support body 11, which is wrapped with a coil 12. The support body 11 has a molded stop end 13 and an opposite one extended receiving end 14 for the system and radial Storage of a bimetallic snap disc 15.

In the support body 11 is close to its receiving end 14 Core 16 attached to a central guide hole 18 and a wider bore 19 with a comparatively larger inner diameter owns.

Between the core 16 and the stop end 13 of the support body 11 is a slidably mounted in the tubular support body 11 Anchor 20 arranged, between the core 16 and the armature 20 a distance s is formed as an armature air gap. The armature 20 has a rear recess 21 for receiving one supported at the stop end 13 Vibration damping spring 22. This vibration damping spring 22 has only the function, a disturbing noise of the armature 20 due to the mains frequency, however, does not interfere functionally with the other mode of action of the overcurrent release 10.

The receiving end 14 of the support body 11 is by means of a cap 23 closed, which, like the supporting body 11, the core 16 and the armature 20 is rotationally symmetrical. The Cap 23 has a central guide opening 24 for guiding of a plunger 25 which can be disengaged to the left in FIG. 1 rear end of the plunger 25 protrudes through a central opening 31 of the snap disc 15 and by a tubular actuator 26 slidably mounted in the direction of the anchor 20th

The tubular actuator 26 is in its outside in the guide groove 18 of the core 16 rotatably supported, lies loosely with its one end on the armature 20 and with its at the other end of the snap disc 15. A thickening 27 on the plunger 25 is arranged according to Figure 1 so that the Bimetallic disc 15 between the thickening 27 and the end of the tubular control member 26 is located. The stop end 13 also has an opening 28 through which the overcurrent release can also be triggered manually by pressing in the armature 20 is.

The distance s between the core 16 and the armature 20 is such chosen to be at least half and at most the whole Snap stroke of the snap disk 15 corresponds to one hand to ensure adequate functioning and on the other hand mechanical damage to the snap disk 15 when triggered to avoid by the anchor 20.

The snap disk 15 is ready for operation in the receiving section 14 Condition recorded and maintained in such a way that them in lateral contact with the angled support body section 29 pressed by an elastic O-ring 30 is, which in turn is acted upon by the cap 23.

Figure 2 shows the overcurrent release 10 by electromagnetic Trip, wherein the armature 20 abuts the core 16 and the snap disc 15 through the tubular actuator 26 was brought into movement in the snap division, in the plunger 25 reaches its disengaged release position.

Figure 3 shows the overcurrent release 10 after electrothermal Triggered solely on the basis of the action of the snap disc 15, which when snapping to the thickened portion 27 of the Tappet 25 attacks and this in the disengaged position shown brings.

Claims (10)

Overcurrent release for protective switching devices, in particular miniature circuit breakers or motor protection switches with electromagnetic and thermoelectric tripping, consisting of a heat-conducting tubular support body (11) wrapped with a coil (12), which has a stop end (13) and an opposite extended receiving end (14) for the contact and the radial mounting of a bimetallic snap disc (15) with a central bore (31) having, a core (16) fastened in the supporting body (11) with a central bore (18, 19), an armature (20) movable in the support body (11) between its stop end (13) and the core (16), and a plunger (25) which extends through the bore (31) in the snap disc (15) and the bore (18, 19) in the core (16) in the direction of the armature (20), the plunger (26) being thermoelectrically by means of the snap disk (15) can be disengaged via a thickened portion (27) and electromagnetically by means of the armature (20) via a tappet actuating member (26), and the distance (s) between the armature (20) and the core (16) in the operational state corresponds at most to the snap stroke of the snap disk (15). Overcurrent release according to claim 1,
characterized, that the plunger actuator (26) through the bore (18, 19) of the core (16) is guided. Overcurrent release according to claim 1 or 2,
characterized, that the tappet actuator (26) is designed as a tube. Overcurrent release according to claim 3,
characterized, that the tube (26) loosely surrounds the plunger (25). Overcurrent release according to one of the preceding claims,
characterized, that the core (16) in the support body (11) via a thread (17) in its position with respect to the armature (20) is adjustably attached. Overcurrent release according to one of the preceding claims,
characterized, that the snap disc (15) in the receiving end (14) of the support body (11) is acted upon by an elastic O-ring (30) on the edge. Overcurrent release according to claim 6,
characterized, that the O-ring (30) is pressed by means of a cap (23) onto the snap disk (15) which is fastened in the receiving end (14) and which has a central tappet passage opening (24). Overcurrent release according to one of the preceding claims,
characterized, that the bore in the core (16) is formed with a tappet actuator guide section (18) and a comparatively larger diameter section (19). Overcurrent release according to one of the preceding claims,
characterized, that the core (16) near the receiving end (14) of the support body (11) is attached. Overcurrent release according to one of the preceding claims,
characterized, that the armature (20) has a rear recess (21) for receiving a vibration-damping spring (22) supported on the stop end (13).

Images