EP1361591A2 - Earth fault circuit breaker - Google Patents

Abstract

The fault current protection switch has a housing (11,14) and a test button (1) that interacts with a plastic spring element (7) inside the housing for resetting the test button. The spring element can be formed on the plastic test button and can be of meander- or L-shape. The test button accommodates a button head (2) and a button shaft (3a,3b) formed on the head that accommodates the spring element.

Description

The invention relates to a residual current or residual current device with a housing and with a test button, which are internal to the housing interacts with a spring element for key reset. Under fault current or residual current circuit breaker here also understood a differential current or DI circuit breaker.

A residual current or residual current circuit breaker is used to ensure safety protection against a dangerous body current in one electrical system. Such occurs, for example then when a person is a live part of a touched electrical system. The residual current - or differential current - then flows against the person as a body current Earth. The protection against dangerous body currents The protective device used disconnects when the so-called tripping fault current the affected circuit safe and fast from the network.

The structure and operation of such a RCCB are for example from DE 196 34 439 A1 and known from DE 195 13 029 A1. The RCD and DI circuit breaker are in a similar way from three assemblies built up. In the secondary winding of a summation current transformer, through its transformer core, all live conductors of one Conductor network are routed in the event of a fault current a voltage signal that induces a trigger circuit electronics or trigger circuit with the secondary winding connected trigger. The trigger is pressed then a switching mechanism by means of which the head of the Conductor network are separated. Here is the trigger circuit of the residual current circuit breaker is only inductive via the summation current transformer coupled to the conductor network. He therefore takes the energy required for triggering is independent of the mains voltage from the fault current itself, while with the DI circuit breaker triggering depending on the mains voltage using a Amplifier circuit is carried out, which is galvanically connected to the conductor network connected is.

The RCCB also instructs you to check its use or A test button is ready for operation when it is pressed a contact point closed in the circuit breaker and a test circuit is generated. This simulates in the total current transformer a fault current and consequently opens over the trigger and the switching mechanism the main contacts of the Circuit breaker.

The one that protrudes from an insulating material housing with its button head Test button is usually used to reset it Coupled inside the device or housing with resilient contact parts. As is known for example from DE 40 11 680 A1, torsion springs or spring plates are provided for this purpose.

From DE 44 20 767 A1 it is known in such a Test button arrangement in addition to a movable contact piece effective leaf spring a spiral spring and above also provide a contact pressure spring connected to this. Such a spring arrangement is particularly then used when the spring action of a single coil spring is insufficient for resetting the test button.

DE 199 12 416 A1 describes the use of a spiral Compression spring with two spring legs known, one of which one is supported on the button head of the test button.

A disadvantage of these known test button arrangements is on the one hand the button assembly when assembling the RCCB. On the other hand, especially in confined spaces Space within the switch housing or device, due to the use of metallic spring parts Clearances shortened and thus the required or prescribed creepage distances or clearances between electrical conductive and current-carrying parts in the protective switching device can no longer be observed.

The invention is therefore based on the object of an RCCB specify the disadvantages mentioned are avoided. In particular, an FI or DI circuit breaker should with a simple even in confined spaces mountable test button arrangement are provided.

According to the invention, this object is achieved by the features of claim 1. This is to reset the test button serving spring element a plastic part.

In an expedient embodiment, the spring element is on the expediently also made of plastic test button formed. Overall, this is the plastic test button designed in such a way that individual geometries of these Test button on a housing-internal housing part or can support the corresponding housing contour and thereby a resilient effect is achieved. The spring element itself can be meandering or L-shaped. There this means that only a single plastic part without conductive metal parts must be installed, there is a special easy assembly of the test button when assembling the Circuit breaker.

The test button having a button head and a button shaft is expediently frame-like at least on the shaft side shaped, this frame-like key shaft the spring element receives. With a preferably L-shaped test button one L-leg forms the key shaft, the in turn rests on a housing wall for sliding movement. The second L-leg forms next to the actual button head at least one contact shoulder that in the final assembly state on a housing collar that runs transversely to the housing wall is applied. This, a collar recess for the key head having the housing collar thus forms one inside the housing Stop for the test button.

The test button is in a particularly advantageous embodiment sliding within the housing Snap connection held. One is particularly suitable for this dome-like housing contour with snap hooks formed on the side or locking elements, the associated frame sides of the Overlap the key shaft. For easy assembly the locking element are provided with bevels over which the corresponding frame sides for making the snap connection can slide over.

In the embodiment with a meandering spring element whose spring turns expediently approximately across two opposite longitudinal sides of the frame below also known as a shaft frame. It is expediently one of the spring ends of the spring element in Area of the button head molded onto the test button while the other spring end of the spring element within the shaft frame is practically free to move. This movable spring free end is in the final assembly state installed in the housing the test button against a conveniently within of the shaft frame guided housing contour.

In the L-shaped version of the spring element is one the L-leg, preferably the comparatively short spring leg of the spring element, on one facing away from the push shaft The face of the button head is molded onto it. The then again leg ends not connected to the test button the comparatively long L-leg also ends expediently lies within the shaft frame and there preferably on the dome-like contour of the housing top of the button facing. In this variant the spring effect is achieved in that at low pressure the test button the angle between the two L-legs is reduced and a certain spring preload in the spring element is introduced. When you release the test button then the spring force is released due to the preload and presses the test button back in its starting position, whereby then the housing contour as an abutment for the spring element serves.

The operation of the test button with a meandering spring element is analogous, by pressing the test button there the distances between the individual into the housing Spring coils are reduced and therefore those for the Resetting the test button in its home or rest position required spring preload is generated.

The advantages achieved with the invention are in particular in that by using a plastic spring for Resetting a test button on a RCD or DI circuit breaker on the one hand a high degree of prefabrication is achieved. In addition, with a one-piece design, the test button and the spring element only a small number of individual parts To be provided when assembling the RCCB required are. As a result, it is not just the assembly effort significantly reduced. Rather, through the exclusive Use of plastic parts for both the test button itself, as well as for the spring element for key reset the prescribed creepage distances and clearances were observed, because no additional metal parts are used that this Could shorten creepage distances or clearances.

Due to the lack of metal parts for the key reset is therefore an installation of the test button and the spring element even with a protective switchgear with limited space and close distances to live parts possible in practically any place. In addition is thanks to an integrated snap or snap function Simplified assembly possible because no additional installation Springs and their preload are required.

FIG 1

in perspektivischer Darstellung eine Prüftaste mit daran angeformtem L-förmigem Federelement,

FIG 2

ausschnittsweise in perspektivischer Darstellung eine Gehäusehalbschale eines FI-Schutzschalters mit eingeschnappter Prüftaste gemäß FIG 1,

FIG 3

in einer Darstellung gemäß FIG 1 eine alternative Ausführung der Prüftaste mit mäanderförmigem Federelement, und

FIG 4

eine Prüftaste gemäß FIG 3 mit rahmenseitig angeformter Tragplatte für einen Schleifkontakt.

Exemplary embodiments of the invention are explained in more detail below with reference to a drawing. In it show:

FIG. 1

a test button with an L-shaped spring element molded onto it,

FIG 2

A perspective view of a section of a housing half-shell of an RCCB with a snap-in test button according to FIG. 1,

FIG 3

1 shows an alternative embodiment of the test button with a meandering spring element, and

FIG 4

a test button according to FIG 3 with a molded on the frame side support plate for a sliding contact.

Corresponding parts are in all figures with the provided with the same reference numerals.

The test button 1 shown in the figures has a Actuating button serving key head 2 and a molded thereon frame-like key shaft 3. The total L-shaped test button 1 is made of plastic. there A first L-leg 1a also forms the following as Shaft frame designated key shaft 3, while the other, second L-legs 1b running approximately at right angles to form contact shoulders 2a, 2b the button head 2 wearing.

On the shoulder contour formed by the abutment shoulders 2a, 2b are at right angles and opposite each other Support webs 4a and 4b formed. This, together with one running between the contact shoulders 2a, 2b Key wall 5 of the test button 1 an approximately U-shaped recording space 6 supporting webs 4a and 4b go into this approximately rectangular frame longitudinal webs 3a or 3b of the Key shaft 3 over.

A short L-spring leg extends into the receiving space 6 7a of an overall L-shaped spring element 7, the other, comparatively long L-leg 7b extends into the shaft frame 3 on the free end. The The length of the comparatively long L-spring leg 7b is included determined or limited by the length of the test head 2 carrying L-leg 1b of the test button 1.

The spring element 7 consists of - just like the test button 1 Plastic. The free end or end is the comparative short L-leg 7a of the spring element 7 on the test head 2 facing away from the bottom of the key wall 5 in the area between the two system shoulders 2a and 2b to the Test button 1 molded. This makes an overall plastic existing integral test button spring part 1.7 formed.

The one on the opposite of the button head 2 of the test button 1 Cross-frame side by one between the two Frame longitudinal webs 3a and 3b extending frame crosspiece 3c closed shaft frame 3 delimits an open frame interior 8, in which in FIG 1 a housing part or a housing contour 9 is indicated. Is supported on this housing contour 9 the leg-free end 10 of the long L-leg 7b of the Spring element 7 from.

As can be seen from FIG. 2, this housing contour 9 is expedient a rectangular or square case dome. The housing dome 9 is inside the housing on a housing wall 11 Housing half-shell of the otherwise not shown double-shell device housing of a RCD or DI circuit breaker 12 integrally formed and protrudes into the housing interior 13 into it. The housing half-shell is through the housing wall 11 as well as an integrally formed on it at the edge and transverse to it extending housing collar 14 formed the top of the housing or operating side of the circuit breaker 12.

A recess 15 is provided in the housing collar 14, which in the final assembly state of the test button 1 in the housing 11, 14 from in the embodiment cuboid control button and thus is penetrated by the button head 2 to the outside. Lying there in the final assembly state of the test button shown in FIG Contact shoulders 2a and 2b of test button 1 on the collar recess 15 limiting housing collar 14 inside the housing on.

This is molded onto the test button 1 with the short L-spring leg 7a Spring element 7 lies with its leg free end 10 of the long L spring leg 7b on the button head 2 facing Top of the housing contour 9 on this.

When you press test button 1, it is molded onto it Spring element 7 biased by the angle between the short L-leg 7a and the long L-leg 7b of the spring element 7 is reduced. The test button 1 moved into the switch housing 12 in the longitudinal direction 16 of the shaft, one running approximately parallel to the frame crosspiece 3c and internally stored dusty wire or Contact bracket 17 cooperating with the test button 1 Free end is operated. This one from one to one of the Longitudinal frame webs 3b of the key shaft 3 molded positioning lug 18 overlapped wire bracket 17 represents the actual Test contact within the circuit breaker 12.

To simplify the installation of test button 1 in the housing half-shell 12, a snap or snap connection is provided. This is realized by two opposite ones Sides of the dome-like housing contour 9 molded locking elements or latches 19a and 19b. These overlap each one facing frame longitudinal sides 3a and 3b of the key shaft 3 in the locked state. For this purpose, the locking elements 19a, 19b executed with bevels 20 which snap open the test button.

Both while depressing and releasing the Test button 1, whereupon this due to the spring force of the spring element 7 due to the spring preload introduced into this in the starting or rest position shown in Fig. 2 is reset, the locking elements 19a, 19b a sliding guide. The button shaft 3 slides forming L-leg 1b of the test button 1 in the longitudinal direction of the shaft 16 along the housing wall 11.

In the embodiments according to FIGS. 3 and 4, the Test button 1 basically analogous to the embodiment according to Figures 1 and 2 constructed. So is the test button 1 again L-shaped, the in turn open shaft frame 3 receives a housing contour 9 '. On this housing contour 9 'is supported by a meandering shape in this variant Spring element 7 'with the inside of the shaft frame 3 in Shaft longitudinal direction 16 movable spring free end 21.

The meandering spring element 7 'is also a to the Test button 1 molded plastic part, so that again a integral test button spring part 1.7 'made of plastic is. For this purpose, the spring connection end opposite the spring free end 21 22 of the spring element 7 'on the frame crosspiece 3c opposite end of test button 1 on the head side molded onto this. This form connection is due to the Key wall 5 facing web end 23 of the illustration 3 and 4 left frame longitudinal web 3b of the Shaft frame 3. The plate in this embodiment executed key wall 5 protrudes - again under Formation of the abutment shoulders 2a and 2b - also overall cuboid actuating button 24 of the button head 2 laterally across the entire frame width 3b of the shaft frame 3. The number of spring turns 25 of the meandering spring element 7 'is taking into account that for a Reset the test button 1 required spring force to the Adjusted shaft length 1 of the frame-shaped push shaft 3.

While in the embodiment shown in FIG 3 on the frame crosspiece 3c of the key frame 3 in turn a positioning lug 18 is molded on, in the embodiment according to FIG a support plate 26 is provided at this point. On this one the key shaft 3 molded support plate 26 is located an approximately hat-shaped, curved sliding contact 27, the Slip contact surfaces 27a and 27b over the surface of the Support plate 27 protrude into the housing interior 13. The leaf spring-like sliding contact 27, the outside of the apex rests on the support plate 25 is there by means of a Plastic molded web 28 fixed.

The sliding contact 27 serves to produce the test contact when pressing test button 1 - analogous to the sequence of movements the embodiment according to the variants according to FIGS. 1 and 2 - In the longitudinal direction of the shaft 16. This sliding contact version is particularly suitable for a so-called contact pairing, with no own spring effect for the provision of the Test button 1 is provided.

Test button 1 with integrated spring element 7, 7 'in a plastic version can only be small even in the housing interior 13 available installation space and short distances live parts can be easily placed. The integrated Snap function between the housing wall 11 and the Test button 1 by means of the in the embodiment Locking elements 19a and 19b realized locking connection allows also a particularly simple assembly when installing the Test button 1 in the circuit breaker housing 11, 14 and thus in total when assembling the circuit breaker 12. Because of the Plastic version of the spring element 7,7 ', which for resetting the test button 1 for the purpose of a function test of the circuit breaker 12 performed operation serves, the necessary creepage distances and clearances can also be used cramped space in the housing 11, 14 of a FI or DI circuit breakers 12 are reliably observed.

Claims (10)

Residual current circuit breaker (12) with a housing (11, 14) and with a test button (1), which interacts with a spring element (7, 7 ') for resetting the keys, characterized in that the spring element (7, 7') Plastic is made. Residual current circuit breaker according to claim 1, characterized in that the spring element (7, 7 ') is molded onto the plastic test button (1). Residual current circuit breaker according to claim 1 or 2, characterized in that the spring element (7,7 ') is meandering or L-shaped. Residual current circuit breaker according to one of claims 1 to 3, characterized in that the test button (1) has a button head (2) and a frame-like button shaft (3) formed thereon, which receives the spring element (7, 7 '). Residual current circuit breaker according to claim 4, characterized by an L-shaped test button (1), the L-leg (1a) forming the push-button shaft (3) of which rests on a housing wall (11) so that it can be moved, and whose contact shoulder (2a, 2b) The other L-leg (1b) forming it bears against a housing collar (14) which runs transversely to the housing wall (11) and which has a collar recess (15) penetrated by the key top (2). Residual current circuit breaker according to one of Claims 1 to 5, characterized in that the test button (1) is held in the housing (12) by means of a sliding connection (2a, 19a; 2b, 19b,). Residual current circuit breaker according to one of claims 4 to 6, characterized in that the frame-like push-button shaft (3) receives a dome-like housing contour (9) as a stop for the spring element (7, 7 '). Residual current circuit breaker according to Claim 7, characterized in that at least one latching element (19a, 19b) is molded onto the housing contour (9) and engages over a frame side (2a, 2b) facing it. Residual current circuit breaker according to claim 8, characterized in that the latching element (19a, 19b) has a run-on slope (20). Residual current circuit breaker according to one of claims 1 to 9, characterized in that a positioning lug (18) for a contact bracket (17) or a support plate (26) for a sliding contact (27) is formed on the end of the test button (1).

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