EP1717836B1 - Fuse holder, in particular for fuse sockets and load break switches - Google Patents

Abstract

A fuse holder has supporting lugs (20, 21), which are formed curved at the side walls (2) at the end (13) of the fuse holder. The supporting lugs exhibit a radius which corresponds to the external radius of coding elements (15). The side walls are provided with ribs (30, 31), opposite to each other, near the end of the fuse holder. The ribs protrude inwards from the side panels. The side walls are arranged, to a large extent, parallel to each other and are kept at a distance which is equal to the outer diameter of the coding element. The coding element is assigned as a separate part and can be removed and has a bush section (36), which specifies an opening, which specifies a predetermined size of the pole of the fuse element.

Description

The invention relates to a fuse holder, in particular for fuse base and fuse switch disconnectors according to the preamble of patent claim 1.

A fuse holder according to the preamble of claim 1 is known from DE 100 54 171 A1 known. Such fuse holders are used in fuse bases or fuse switch disconnectors, as for example from the DE 100 54 168 are known. In this fuse holder, the securing element is inserted into a pivotally mounted receiving part, which also has the function of acting as a coding element, ie to determine the size of the fuse element to be used. This known fuse holder completely fulfills its function and also allows the convenient insertion of securing elements by means of the pivotable receiving part, however, it is required by the association between the fuse holder and pivotable receiving part to match the individual mutually associated area exactly, in particular receiving sections are to provide in the fuse holder, in order to use the receiving part capable of pivoting therein. Therefore, the individual parts belonging to each other must be able to be produced with comparably high precision.

From the WO 00/24015 Another fuse holder is known, in which as a coding the size of the fuse element to provide a control arcuate insert is usually made of metal and must be inserted into designated grooves to complete the fuse holder. In this fuse holder is thus to provide either the provision of locking and locking grooves between the size of the fuse element controlling coding or there is a risk that the coding accidentally falls out of the fuse holder. The provision of locking and locking grooves requires a lot of effort and is therefore undesirable.

The invention has for its object to provide a fuse holder of the type mentioned, which can be manufactured with little effort and easy to use.

This object is achieved by the features specified in claim 1.

Further embodiments of the invention will become apparent from the dependent claims.

The fuse holder according to the invention has a holder body, with laterally to a bottom approximately perpendicular side walls, where short, arcuate retaining tabs are formed, wherein the arcuate retaining tabs are provided extending transversely to the axis of the holding body. Furthermore, the side walls are provided on the coding element receiving end with inwardly projecting ribs, which serve as limiting ribs when inserting the coding. In addition, in a preferred embodiment, a projecting holding tongue can be arranged on the bottom, which likewise serves to secure the coding element in an end position, if necessary also to fix it in an end position. The retaining tabs and the retaining tongue are located approximately in a direction perpendicular to the axis of the holding body plane and define a predetermined diameter corresponding to the outer diameter of the coding element to be used.

The coding element is made of plastic or preferably metal and can be used by means of a pivoting movement in a quick and easy way in the fuse holder according to the invention. In compliance with customary tolerances, therefore, the accuracy of fit between the coding and fuse holder is not critical, in particular the fuse holder need not have recordings or bearing parts to fix the coding in its final position, i. the coding is used easily and quickly without locking and locking elements in the fuse holder and can also be removed if necessary without further notice.

Fig. 1

eine Teilschnittansicht des Sicherungshalters, von der Seite her betrachtet mit eingesetztem Sicherungselement,

Fig. 2

eine Perspektivansicht des Sicherungshalters ohne Kodierelement,

Fig. 3

eine weitere Perspektivansicht des Sicherungshalters entsprechend Fig. 2,

Fig. 4a und 4b

Ansichten eines bevorzugten Kodierelements,

Fig. 5

eine Darstellung eines abgewandelten Kodierelements, und

Fig. 6

eine Perspektivansicht des Sicherungshalters zusammen mit dem Kodierelement.

Hereinafter, a preferred embodiment of the fuse holder according to the invention will be described with reference to the drawing to explain further features. Show it:

Fig. 1

a partial sectional view of the fuse holder, viewed from the side with inserted fuse element,

Fig. 2

a perspective view of the fuse holder without coding,

Fig. 3

3 is a further perspective view of the fuse holder according to FIG. 2,

Fig. 4a and 4b

Views of a preferred coding element,

Fig. 5

a representation of a modified coding, and

Fig. 6

a perspective view of the fuse holder together with the coding.

Fig. 1 shows a preferred embodiment of a fuse holder, which consists of a bottom wall 1 and two substantially parallel side walls 2 made of plastic, which protrude approximately perpendicularly from the bottom wall 1 and define a space for receiving a securing element 3.

At the upper side in Fig. 1 are formed on the side walls 2 in the inwardly facing surfaces with 5 designated webs, which are provided for insertion of a head contact 6 made of metal, through which an electrical contact between the one pole 3a of the fuse element 3 and the fuse block is manufactured as soon as the fuse holder is inserted into a fuse base and is in its operating position.

The fuse element 3 is in the position shown in Fig. 1 with the upwardly facing pole 3a of the fuse element 3 in electrical contact.

According to a preferred embodiment, a retaining spring 9 can be provided in Fig. 1 below the head contact 6, which surrounds the contact or pole 3a of the fuse element and thus keeps the fuse element 3 after insertion into the fuse holder against tipping out.

The first to be inserted in the fuse base end of the fuse holder is designated in Fig. 1 with 13. In this Area is the head or contact or pole 14 of the fuse element 3 and is scanned by a coding element to be described before the fuse element 3 is used.

According to Fig. 1 is located at the lower end 13 of the fuse holder, a coding element, which is denoted by 15 and which will be described in more detail below.

Fig. 2 shows further details of a preferred embodiment of the fuse holder, which is shown in perspective view.

2, the fuse holder is provided with a handle 16 which serves to push the fuse holder in the fuse base or pull out. The handle 16 may be connected to the bottom wall 1 and / or the side walls 2, 2 '.

Approximately parallel to the handle 16 is the head contact 6, the contact tongues 6a, 6b, which are preferably substantially parallel to each other and spaced from each other and according to FIG. 2 protrude laterally to in the operating position with the mating contacts in the fuse base in electrical contact reach.

The side walls 2, 2 'are formed in the illustrated embodiment substantially symmetrical to each other. As shown in Fig. 2, at the lower end 13 of the fuse holder, the side walls 2, 2 'slightly inwardly bent guide portions 17, 18, at their pointed end 19, 20 arcuate retaining tabs 22, 23 are molded. These retaining tabs 22, 23 serve to a still to be described coding to secure against displacement transverse to the axis of the fuse holder and, if necessary, at the same time to define the end position of the coding element, not shown, by means of formed on them, transverse to the axis of the fuse holder limiting lugs or boundary ribs 22a, 23a.

In the bottom 1 of the fuse holder, which may be partially cut, is located in a preferred embodiment, a retaining tongue 25 which projects from the bottom in the direction of the end 13 of the fuse holder and which together with the retaining tabs 22, 23 causes a fixation of the coding. Optionally, the retaining tongue 25 may be provided with a transverse to the axis of the fuse holder extending rib or nose 27.

In a preferred embodiment, on the guide portions 17, 18 inwardly projecting ribs 30, 31 are formed, which define the end position of the Kodierelementes 15 in the axial direction in the direction of the end 13 of the fuse holder. As can be seen further from FIG. 3, the bottom 1 is arc-shaped, at least in the region of the guide sections 17, 18, as illustrated by the reference number 33, the arc being adapted to the radius of the securing element 3 or the coding element to be inserted.

4a and 4b shows a preferred embodiment of the coding element 15. The coding element 15 preferably consists of a sleeve portion 36, to which perpendicular thereto wall and ring sections 37, 38 follow, whose outer diameter is greater than the outer diameter of the sleeve portion 36th Das Coding element 15 according to Figure 4 has approximately the shape of a winding element, wherein the largest outer diameter, determined by the ring sections 37, 38, corresponds to the diameter, which is determined by the retaining tabs 22, 23 and the surface area 33. Preferably, the coding element 15 has an outer diameter which corresponds to the outer diameter of the securing element 3. As an alternative to the coding element 15 according to FIG. 4, a coding element 15 may be used, which consists of a sleeve section 36 adjoining inwardly facing ring sections 40, 41, wherein the outer diameter of this coding element 15 again preferably corresponds to the outer diameter of the securing element.

The defined by the ring sections 37, 38 and 40, 41 opening diameter of the coding element 15 is adapted to the diameter of the contact head 14 of the fuse element 3 and is dimensioned depending on the fuse elements to be used 3 with different sizes. This means that with a given coding element 15, predetermined securing elements 3 can be used.

As can be seen from Fig. 6, the coding element 15 is inserted into the substantially annular space or hollow body which is defined by the retaining tabs 20, 21 and the retaining tongue 25 and by the arc 33 in the bottom 1. The coding element 15 is introduced before the use of the fuse holder from the outside in the form of a slight pivoting movement in the position shown in Fig. 6 and can be led out accordingly from there reversed.

In addition to the lateral ribs 30, 31, both the retaining tongue 25 with a transverse to the axis of the fuse holder rib 27 as well as the retaining tabs 22, 23 extending transversely to the axis of the fuse holder boundary ribs or retaining ribs 22a, 23 may be provided to secure a secure fixation of the coding element 15 against a displacement of the fuse holder in the direction of the end 13 addition.

In a manner known per se, the fuse holder may be provided with a guide pin 45 which projects from the bottom wall 1 and / or one of the side walls 2, 2 'and serves to be inserted in a fuse base side receptacle to pivot the fuse holder within the fuse holder To enable fuse bases.

Claims (11)

1. Fuse holder, in particular for fuse sockets and load break switches, having a base wall (1) which optionally can be partially open, on which laterally protruding side walls (2, 2') are arranged, it being possible to insert a fuse element (3) between the base wall (1) and the side walls (2, 2'), and having a coding part (15), characterised in that there are formed on the side walls (2, 2') supporting lugs (20, 21) which extend approximately arcuately at one end (13) of the fuse holder and have a radius that corresponds approximately to the outer radius of the coding element (15), in that the side walls (2, 2') are provided, in proximity to the end (13) of the fuse holder, with ribs (30, 31) which oppose one another and project inwardly from the side walls (2, 2'), in that the side walls (2, 2') are arranged substantially parallel to each other and maintain a distance which is approximately equal to the outer diameter of the coding element (15), the coding element (15) being able to be inserted such that it can be removed as a separate part and comprising a sleeve portion (36), which defines an opening (36a) which defines a predetermined size of a pole (14) of the fuse element (3).
2. Fuse holder according to claim 1, characterised in that the coding element (15) has annular portions (37, 38; 40, 41) extending laterally to the sleeve portion (36) and perpendicularly to the axis of the sleeve portion.
3. Fuse holder according to either claim 1 or claim 2, characterised in that the base wall (1) has a holding tongue (25) projecting to the end (13) of the fuse holder.
4. Fuse holder according to any one of the preceding claims, characterised in that there are formed receiving portions (33) that extend in a circular shape in the base wall (1).
5. Fuse holder according to any one of the preceding claims, characterised in that the outer diameter of the sleeve portion (36) or the outer diameter of the annular portions (37, 38; 40,41) determines the outer diameter of the coding element (15).
6. Fuse holder according to any one of the preceding claims, characterised in that the holding lugs (22, 23) and/or the holding tongues (25) are provided with a delimiting rib (22a, 23a; 27) extending radially to the axis of the fuse holder.
7. Fuse holder according to any one of the preceding claims, characterised in that the coding element (15) consists of metal or plastics material.
8. Fuse holder according to at least one of the preceding claims, characterised in that the maximum outer diameter of the coding element (15) corresponds to the outer diameter of the fuse element (3).
9. Fuse holder according to at least one of the preceding claims, characterised in that on the base wall (1) and/or on one of the side walls (2, 2') there is provided a guidance peg (45), which can be locked in a recess in the fuse socket for pivoting the fuse holder.
10. Fuse holder according to at least one of the preceding claims, characterised in that the side walls (2, 2') are extended by preferably slightly curved leg portions (17, 18) such that an annular chamber is formed that is only partially closed.
11. Fuse holder according to claim 10, characterised in that the holding lugs (22, 23) are formed integrally with the leg portions (17, 18).

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