DE1513553A1 - Device protection fuse holder - Google Patents

Description

Appliance hat $ - bio-food holder . The present invention relates to a device protection Sioherungshalter for screwing behind openings in a device wall.

Zr is preferably used to accommodate the dimension 5 jd x 20 »and corresponds advantageously to the standardized equipment protection safety holder according to DIN 41 673. The known types of execution according to this standard travel relatively small, lengthy tones of approx. 2 mm and a test voltage strength of ma = . approx. 2 kY, 50 Es, 1 min. Today's demands on single security holders have increased and greater creepage distances and higher dielectric strength are required. As a result of the new design of the registered fuse holder , it was possible for the first time to achieve creepage distances of around 4 mm and a dielectric strength of around 3 kV, 50 Hz, t min. While maintaining the dimensions according to DIN 41 673.

The prismatic insulating body of the known fuse holder consists of two parts, the plane of separation of which lies in the axial direction of the built-in fusible insert. The two halves of the insulating body are held together by a metal sheet metal bracket using two rivets . The previously known fuse holders have a prismatic structure. The cross-sectional area perpendicular to the fusible link axis is therefore square-shaped and has essentially the same size at the front - in the vicinity of the device wall - as at the rear in the vicinity of the terminal soldering lug.

According to the present invention, a Geräteschut $ -Sicherungshalter is councils wall for screwing behind perforations a Ge, two interconnected Isolierkörperteile comprehensively, characterized in that the separating plane of the two Isolierkörperteile is oriented transverse to the .axis of the receiving space for the fuse and foremost in Quarter of the holder is located, and that the two parts of the insulating body are parallel by two. are connected-oriented rivets to said cavity axis with an internal thread, which is also for turning screw the whole holder to the device wall are used. No additional rivets and no sheet metal bracket encompassing the insulating body are therefore required. As a result of the omission of these metallic parts, the requirements mentioned at the beginning can be met.

The fuse holder according to the invention can be made significantly slimmer at the rear, such that, for example, the cross-sectional area in the vicinity of the soldering lug is at least twice smaller than the cross-sectional area in the vicinity of the device wall. This frees up a lot of space for the wiring and for soldering the connecting wires, which makes assembly much easier.

An embodiment of such a device protection fuse holder is shown in the drawing.

Fig. 1 shows a side view partially in section, Fig. 2 the corresponding Front view, Fig. 3 is the plan of Pig. 1 represents.

The two insulating body parts which are held together with the tubular rivets 3 are denoted by 1 and 2 in the figures. These tubular rivets are provided with an internal thread which is used to attach the fuse holder to the device wall 4 by means of screws not shown in the figure. The line 5-5 represents the plane of separation of the two halves of the insulating body. The two soldering terminals are designated with 6 and 7. The cross-sectional area of the insulating body 2 at the point 8 - 8 is at least twice smaller than the cross-sectional area of the insulating body at the point 5 r 5.

Claims (1)

P atentan a pr ü ohe i.) Device protection fuse holder for screwing behind openings in a device wall, comprising two interconnected insulating body parts, dadu raw marked that the parting plane of the two insulating body parts is oriented transversely to the axis of the receiving space for the fusible ineat and is in foremost quarter of the holder is located, and that the two parts of the insulating body are connected by two hollow rivets with internal threads oriented parallel to the said cavity axis, which are also used to screw the entire holder onto the device wall. 2.) Fuse holder according to claim 1, e -kennz e dadurchg iohnet that the UmriD-Querechnittafläche of the insulator as measured in the vicinity of, lnschlußlötfahne is at least twice smaller than the Querechnittafläche of the insulating body, as measured close to the device wall.