NL9101530A - Fuse cap with current-measuring terminal - Google Patents

Abstract

The invention relates to a device for measuring current flowing in an electrical installation and is suitable for a fuse (fusable cut-out, blow-fuse) pertaining to the fuse box and formed in such a way that the current flowing through the fuse will flow through a wire loop situated outside the fuse carrier. The device is preferably formed by a fuse carrier for a fuse which pertains to the fuse box and is formed in such a way that the current flowing through the fuse will flow through a wire loop situated outside the fuse carrier. Thus the invention makes it possible to measure the current flowing through a single set of an installation.

Description

FUSE COVER WITH CURRENT MEASUREMENT CONNECTION

The invention relates to a device for measuring current flowing in an electrical installation.

Such devices are generally known, for example in the form of an ammeter permanently incorporated in an installation.

It may be useful for some purposes to measure the current flowing in an installation, for example when troubleshooting or measuring the power of loads connected to the electrical installation.

In some situations it is important that the total current flowing in a group of the electrical installation is measured. When the group is directly branched behind the fuse box, no conductor is available outside the fuse box, in which the total current flowing in the group concerned is available.

In order to be able to measure such a current, the present invention provides a device which is suitable for measuring the current at the location of the fuse box.

Such a situation occurs, for example, when the total load of a group has to be measured.

Another situation, in which it is important to measure the current flowing in a group, lies in the use of a group detector device, such as is the subject of Dutch patent application 9100570.

Although this known device is provided with means for measuring the current flowing in a group, the measuring signals thus obtained are not suitable for outward execution. This known device is thus not suitable for simply measuring the total flow flowing in a group.

Another drawback of this known device is that when using such a device, all fuses must be replaced by a measuring plug. This is a fairly time-consuming activity, which furthermore interrupts the power supply. For example, it is possible to replace the screw heads in the morning, before the loads are switched on, by those according to the inventor, to take measurements during the day and to screw in the original screw heads in the evening after the load has been switched off.

The device according to the present invention makes it possible to measure the current flowing in a group at the location of the fuse box without the above-mentioned drawbacks.

According to a preferred embodiment, the device is formed by a screw head for a fuse belonging to the fuse box, which is formed such that the current flowing through the fuse flows through a wire loop located outside the screw head.

It is thus possible to use the screw head according to the invention permanently, so that it is always possible to connect a measuring device, but it is also possible to replace the ordinary screw heads according to the invention only shortly before performing a measurement.

The invention will be elucidated hereinbelow with reference to the annexed drawings, in which: fig. 1 shows a perspective view of a fuse box, in which a device according to the present invention is applied; fig. 2 is a partly broken away perspective view of a preferred embodiment of a screw head according to the invention; and Fig. 3 is a partly broken away perspective view, to which the screw head according to the invention is connected, to which a current meter provided with a so-called ampere clamp is connected.

Fig. 1 shows a junction box 1, in which, among other things, a fuse box 2 is included. A series of fuse holders 3 is accommodated in the fuse box 2, a fuse cap 4 according to the present invention being placed on one of the fuse holders. A wire loop 5 is provided on the fuse cap 4, which is passed through the current flowing through the fuse.

It is possible to connect an ampere clamp 6 to the measuring loop 5, so that it is possible to measure the current flowing through the group in question with a measuring device not shown in the drawing, to which the ampere clamp 6 is connected by means of the wire 7. .

Fig. 2 shows the construction of the screw head according to the invention in more detail. The screw head 4 is formed by a substantially cylindrical jacket-shaped housing 8, which is made of an insulating material, for example plastic or porcelain. The cylinder jacket-shaped housing 8 is provided with an internal edge 9. A disc 10 made of conductive material is arranged against the edge 9. A central window 11 is arranged in this disc, while the disc 10 is provided with a recess 12. Partially extending into the window 11, a sleeve 15 is provided, which can for instance be made of plastic. A transparent glass pane 13 is arranged in the sleeve 15. On the other side of the rim 9, within the housing 8, is a metal-made, threaded, conductive screw sleeve 14. The fuse can be screwed into the fuse holder with this conductive screw socket 14.

For measuring the current, a wire loop 5 made of conductive material is provided, one end of which is connected to the metal disc 10, for example by brazing. The other end of the wire loop extends through the recess 12, and is again connected, for example, by brazing, to the threaded sleeve 14. In order to avoid danger of contact with live parts, the wire loop 5 is provided with an insulating layer 16. The space between the sleeve 15, the disk 10 and the internal wall of the housing 8 is filled with a hardening mass, for example a synthetic resin 17.

The fuse cap 4 thus formed can be screwed onto a fuse holder 3, as shown in Fig. 1. In this case, of course, a fuse 18 is enclosed between the fuse holder and the screw head.

A first conductor 19 is received in the fuse box 2, on which a fitting screw 20 is mounted. The current flows from the first conductor 19 through the conductive part of the adjusting screw 20, a first contact of the fuse 18, through the fuse, through the other contact of the fuse 18, the conductive plate 10, the wire loop 5, the screw sleeve 14, the bus 22 to a second conductor 21.

Finally, Fig. 3 shows how an ampere clamp 6 is connected to such a screw head 4. The ampere clamp 6 is connected via a cable 7 to a measuring device 23, which shows on a display 24 the value of the current flowing through the wire loop 5, and thus protected by the relevant fuse. It is also possible to connect a group detection device, such as is described in the aforementioned Dutch patent application, by means of ampere pliers.

Claims (6)

1. Device for measuring current flowing in an electrical installation, characterized in that the device is suitable for measuring the current at the fuse box. Device as claimed in claim 1, characterized in that the device is formed by a screw head for a fuse belonging to the fuse box, which is formed such that the current flowing through the fuse flows through a wire loop located outside the screw head. Device according to claim 2, characterized in that the wire loop is connected between the contact surface of the screw head which is arranged for making contact with the contacted contact of the fuse and the contact of the screw head, which is arranged for making contact with the contact fixed in the fuse box. Device as claimed in claim 3, wherein the screw head comprises a conductive plate on the inside of its closed end, and on the inside of its mantle surface a conductive sleeve provided with at least one external screw thread, characterized in that the conductive plate and the conductive sleeve are arranged insulated from each other, and that they are conductively connected to each other via the wire loop. Device according to claim 4, characterized in that the wire loop is insulated. Device according to claim 4 or 5, characterized in that one end of the wire loop is attached eccentrically to the plate as far as possible, and the other side of the wire loop is connected to the bush at the diametrically opposite position, and that the wire loop plane of the conductive plate at least once.