CZ300253B6 - Adjusting mechanism, particularly for thermal trip of electric switchgear - Google Patents

Abstract

The present invention relates to an adjusting mechanism, particularly for thermal trip of electric switchgear fitted with a bimetal (5) attached to strip holder (6) wherein the adjusting mechanism comprises a threaded adjusting element (13) with a head (12) being by its bottom portion with pressure engagement with said strip holder (6) or an auxiliary arm performed thereon wherein a threaded shank (14) of said threaded adjusting element (13) is guided by a thread in at least lower shell (1) of the electric apparatus housing with the aid of opposite walls (15) or projections protruding from the bottom of the electric apparatus lower shell (1) forming thus for said threaded shank (14) a tight groove (16) in which the threaded shank (14) is pressed to create an imprint for the threaded guide thereof, optionally said tight groove (16) can be provided with a nut (17) located therein transversely and without possibility of axial movement.

Description

BACKGROUND OF THE INVENTION The present invention relates to an adjustment device, in particular for a thermal release of an electrical switchgear, provided with a bimetallic mounted on a strip holder.

BACKGROUND OF THE INVENTION

Electrical switchgear, in particular circuit breakers, generally have two releases for the purpose of equipping their switchgear. Electromagnetic release responding to a short circuit in the monitored line and a thermal release responding to an excessive current load on the monitored line. The Te15 firing release is generally based on the use of bimetal, a bimetallic strip which bends appropriately according to the degree of its heating through the flow. At a certain moment of its bending, when the permissible current flow rate is exceeded, the bimetal acts mechanically on the triggering element of the switchgear, which further ensures that the electrical switchgear is switched off.

From the point of view of monitored overcurrents, it is evident that for electrical devices, such as house circuit breakers, it is not enough simply to be equipped with differently dimensioned and differently modified bimetals and their holders, but before the electrical device leaves the factory with respect to the declared parameters of electrical apparatus.

The positioning of the bimetal is carried out mechanically, in particular by the axial action of the adjusting screw elements on the holder, to which the bimetal is usually always attached at one end, usually by spot welding. For this purpose, the bimetal holder may also be equipped with an auxiliary adjusting arm or the like, which is provided with a threaded bore for the adjusting screw or which is spanned by a yoke, also with a threaded bore. However, for the head of the adjusting screw, it is then necessary to provide a proper (axial) reaction support for both directions of its axial action in at least one of the shells of the housing of the electrical apparatus.

Similarly, the positioning of bimetal, respectively. its holder uses a threaded worm imprinted into a pre-prepared groove in the base of the shell of the electrical switchgear of the machine. The threaded worm optionally extrudes a thread in this groove, in which it can then rotate and with a corresponding forward or backward movement and with its front end act on the holder or the auxiliary arm with the bimetal. With respect to the automation of production and the formation of pre-assembled groups of parts for the final assembly of the electrical apparatus, the use of a worm does not appear suitable for difficult automated recognition of its front and rear ends from the positioning disc. For this reason, the insertion of the worm into the subassembly of the electrical apparatus is usually done manually. In addition, the worm is usually more expensive than a typical cylinder head screw.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The object of the present invention is to overcome the disadvantages of the known adjusting devices for thermal releases of electrical switchgear, to achieve their simplification and efficient spatial arrangement in terms of automated assembly, while achieving material savings and stability in thermal release adjustment. The principle is that, with the bimetal strip holder, the lower part of the head of the adjusting threaded element is in pressure engagement, the threaded shaft of which is threadedly guided in at least the lower shell of the housing of the electrical apparatus.

- 1GB 300253 Bo

From the standpoint of assembly and manufacturing technology, it is furthermore advantageous according to the invention that the threaded shaft is threaded between two opposing walls protruding from the bottom shell of the housing of the electrical apparatus and forming a tight groove for the threaded shaft into which the threaded shaft is impressed its threaded guide.

The adjusting device according to the invention can be easily modified in a robust design, for example by providing a tight groove for the adjusting thread element with a nut disposed transversely and axially therein, or also in that the threaded guide of the threaded shaft of the adjusting thread element is in the lower shell. an electrical apparatus comprising opposing, at least two, two cylindrical or angular protrusions extending from the bottom shell of the electrical apparatus housing, wherein the gaps between opposing pairs of cylindrical or angular protrusions extending from the bottom shell of the electrical apparatus shell may form a transverse space for receiving a nut .

The arrangement of the adjusting device according to the invention allows a suitable selection of the adjusting thread element in its provision with a self-tapping thread, or of adjusting the threading element as a sharp-threaded screw or the like.

Overview of the drawings

Further advantages and effects of the present invention are further apparent from the accompanying drawing, in which: Figure 1 is a plan view of an exposed portion of the lower shell of an electrical switchgear showing the location and execution of a bimetal thermal trigger path and a threaded threaded alignment arrangement FIG. 2 is a schematic representation of the electrical path of the thermal release in the inverted position with respect to FIG. 1, with detail of the location of the lower shell or of the nut disposed transversely in the groove, the head of which is pushed into its bimetallic strip holder; the action of the bottom of the adjusting threading element on the bimetal tape holder and the threaded guide of the adjusting threading element shaft in an axially stationary nut, placed transversely in said groove in the lower electrical shell machines.

DETAILED DESCRIPTION OF THE INVENTION

According to the invention, the electrode path of the thermal release consists essentially of standard elements arranged in the mounting position in the lower shell 1 in positions which do not change after tilting the not shown upper shell of the electric apparatus and only fix them in these positions by means of opposing grooves, not shown and the like. The electrical track of the present invention forms a pre-assembled assembly to facilitate the final assembly of the electrical apparatus by automation procedures.

In the exemplary embodiment, the electrode track of the thermal release consists of a terminal 2, which comprises a relatively stationary connecting strip 3 and a flexible strip 4 attached thereto. The end of the flexible strip 4 is connected via an insert end of bimetal 5, for example by spot welding or riveting The tape holder 6 has a selected arm 7 for a certain length, which itself can deform to a certain extent, i.e. to bend and spring. For this purpose, the arm 2 is also provided with a proper bend with a radius 8 which forms, which would already be properly supported by the respective protrusion 9 of the respective groove W in the lower shell.

1, the relative bending position of the arm 7 of the bimetal tape holder 6. In said groove 10, the continuing portion of the arm 7 of the tape holder 6 is differently shaped and already fixedly fixed, and is attached to the adjacent tanning waist 11 in different ways. places continuing tanning passport H. etc.

-2GB 3UUZ53 B6

The actual adjusting device for spatial positioning of the bimetal 5 is based on the fact that the head 12 of the adjusting threaded element 13, whose threaded shank 14 is threadedly guided in at least the lower shell, is arranged in the pressure engagement with the tape holder 6 or the auxiliary arm (not shown). 1 housing of electric apparatus. The threaded shank 14 is threadedly guided between two opposing walls 15 extending from the bottom shell 1 of the housing of the electrical apparatus and forming a tight groove 16 into which the threaded shank 14 is embossed and in which the threaded shank 14 itself has a threaded guide press to create. The thread guide in the groove 16 may naturally be partially pre-formed by creating, for example, not shown vertical grooves in the opposing walls 15 of the tight groove V6 and the front will fit relative to each other along the axis of the tight groove 16 appropriately displaced. 1, it may be provided with a nut 17 disposed transversely and axially stationary in said tight groove 16 in the lower shell 1 of the electrical apparatus.

An alternative solution of the threaded shank 14 of the adjusting threaded element 13 in the lower shell 1 of the electrical apparatus may, instead of the opposing walls 15 of the tight groove 16, consist, for example, of unrecognized opposite pairs of cylindrical or angled protrusions projecting from the bottom shell 1 of the electrical apparatus. the specific size of the contact surfaces is facilitated by the formation of a threaded guide for the threaded shank 14 of the adjusting threaded element 13 after being pressed therebetween, but also at the same time they can create a defined transverse space for insertion of the nut 17.

The adjusting threaded element 13, as is apparent from the accompanying drawings of an exemplary embodiment of the present invention, consists of a conventional cylindrical head screw provided with any engagement recesses (not shown) for hand or power tools. The adjusting threaded element 13 with respect to its threaded shaft 14 may be provided with a self-tapping thread or a sharp thread in the form of screws or the like. For said tool, a side hole 18 is formed in the lower shell 1 through the bulkheads in this lower shell 1.

Before mounting the thermal release, the deflection of the arm 7 of the bimetal strip tape holder 6 is set, assuming that it will need to be deflected in one direction from this setting by pushing the bottom of the adjusting thread head 13 with the tape holder 6 respectively. with his auxiliary arm. After the first insertion of the adjusting thread element 13 into the tight groove 16, or between the notches (not shown) in the lower shell 1, optionally together with the nut Γ7 and subsequent insertion of the complete thermal release assembly as described above, the head 12 of the adjusting thread element Γ3 Adjustment of the thermal trigger follows by tightening the adjusting threaded element 13 to achieve the corresponding deformation or deformation. bending of the arm 7 of the strap holder 6 and thereby adjusting the angular position of the bimetal 5 connected thereto. Reverse rotation of the adjusting threaded element 13 is no longer expected. The pre-tensioning in the biasing arm 7 ensures the permanent positional stability of the bimetallic strip holder 6 and the unavoidable required thermal release characteristics of the electrical apparatus. In some special cases, a return spring (not shown) may be associated with the arm 7 of the bimetallic strip holder 6.

For mounting reasons, it is advantageous that the tape holder 6, or the auxiliary arm formed thereon, is provided with a non-illustrative slip-on notch for sliding on the adjusting threaded element 13, i.e. without further lateral insertion of the adjusting threaded element 13 or some other part of the heat trigger or the like. as a matter of principle, mount everything in one direction, in this case everything in one direction to the bottom of the bottom shell and the electrical apparatus.

-3GB 3UUZ53 B6

Claims (6)

Adjusting devices, in particular for the thermal release of an electrical switchgear, equipped with: A tape holder (6) attached to a bimetallic (5), characterized in that a head (12) of the adjusting threaded element (13), whose threaded shank is arranged in the pressing engagement with the tape holder (6) or the auxiliary arm formed thereon (14) is threadedly guided in at least the lower shell (1) of the housing of the electrical apparatus. io Adjusting device according to claim 1, characterized in that the threaded shank (14) is threadedly guided between two opposing walls (15) projecting from the bottom of the lower shell (1) of the housing of the electrical apparatus and forming a tight groove for the threaded shank (14). (16) into which the threaded shank (14) is impressed to form an impression on its threaded guide. 15 Dec Adjusting device according to claim 1, characterized in that the tight groove (16) is provided with a nut (17) disposed transversely and axially therein. Adjusting device according to claim 1, characterized in that the threaded guide of the threaded shank (14) of the adjusting threaded element (13) is in the lower electric shell (1). The apparatus consists of opposed, at least two pairs of cylindrical or angular protrusions projecting from the bottom of the lower shell (1) of the housing of the electrical apparatus. Adjusting device according to Claims 3 and 4, characterized in that the gaps between opposing pairs of cylindrical or angular protrusions projecting from the bottom of the lower shell 25 (1) of the housing of the electrical apparatus, forming a transverse space for receiving a nut (17). Adjusting device according to claim 1, characterized in that the threaded shaft (14) of the adjusting threading element (13) is provided with a self-tapping thread. Adjusting device according to claim 1, characterized in that the adjusting thread element (13) is formed by a sharp-threaded screw.