NL8004931A - ELECTRIC MINIATURE SAFETY. - Google Patents

Description

I -1-: vo 0929

Electric miniature safety.

Fast-acting electrical miniatures have been widely used in various electrical and electronic chains. In most of these safeties, the fusible element is either soldered to the ends of the supply wires or simply mechanically attached thereto.

U.S. Pat. No. 3,22T-8k1 describes a particular type of miniature safety. This safety comprises a hollow housing, consisting of an insulating material, such as a refractory material, an electrically non-conductive disc, which also consists of a refractory material and is mounted in the housing, and a pair of electrically conductive connections, which extend through a couple of spaced openings in the disc. The two terminals are partially housed in the housing and a fusible conductor extends between the enclosed ends of the terminals 15 and is soldered thereto at both ends.

Another type of safety includes a housing provided with a base plate, which is an insulating material, and a pair of supply wires, which are partially fed through the base plate into the housing.

Each end of the wires is bent and a fusible conductor extends between these ends, the ends of the fusible element being attached to the respective ends of the conductors by electrically conductive paste.

These known safeties, however, are particularly unstable * since the length of the fusible element is subject to variations and evaporation of the electrodes due to the heat generated by arc drawing tends to prolong the peak time. Therefore, these safeguards are not entirely satisfactory.

Another type of safety, described in British Pat. No. 969,665, comprises an integral safety body, through which body a pair of spaced supply wires extend beyond protruding ends of the body, and a fusible member, that is placed between the two ends of the wires in the body. The fusible member and wires are fully embedded in a solid, arc-extinguishing filler body 35 consisting of an epoxy resin, and an impermeable 8004931 -2-cup cap is placed over the body around the fusible member, the conductor portions in the body and the seal epoxy resin existing filler body.

However, the difficulty with safeties using epoxy fillers is that the heat generated by the flow of an electric current causes a thermal expansion and contraction occurs when the current is interrupted. Repeated thermal expansions and contractions often cause the fusible element to fail.

It is therefore an object of the invention to provide an electrical miniature safety, wherein the above-mentioned drawbacks inherent in the known safes practically do not arise.

Another object of the invention is to provide a miniature electric safety which exhibits fast operation and an improved arc extinguishing characteristic.

A further object of the invention is to provide such a safety, which also has an improved stability and thermal capacity.

The invention now provides a miniature electrical safety which, due to its very particular construction and arrangement of its constituent parts, has improved thermal stability and capacity and better arc quenching characteristic.

To this end, the safety according to the invention comprises a safety base plate and body, a safety cover that fits on the body and the base plate and a pair of electrically conductive wires extending from the base plate and partially embedded in the body. The body includes a pair of oppositely spaced, generally crescent-shaped parts, each part defined by an outwardly curved surface, generally planar top and bottom surfaces and an in the generally perpendicular inner wall, the inner walls being spaced parallel to each other and facing each other. The embedded ends of the electrically conductive wires are located in the center of each of the respective parts of the body. A groove is cut in each of the parts from the top surface thereof to approximately the center in each part, the groove thereafter in a horizontal direction relative to 8004931

V

-3- the perpendicular inner walls of the parts are bent. A fusible member is stretched between the terminals, the end portions of the member resting on the bottom of the grooves and soldered there.

5 In order to improve the thermal capacity of the safety and to prevent the solder from spreading in the event of a safety breakdown, a metal plate (e.g. a copper plate) is placed on the top of the soldering surface. preference for additional safety is associated with the respective surface.

The invention will be explained in more detail below with reference to the drawing. In the drawing: figure 1 shows a perspective view of a safety according to the invention, which is provided with a hood and is ready to be installed; figure 2 shows a perspective view of the safety shown in figure 1, with the cover removed therefrom; figure 3 shows a top view of the safety shown in figure 2, before the fusible element is clamped between the electrode, figure ^ a top view, corresponding to that according to figure 3, after the fusible element has been clamped between the electrodes and is soldered, figure 5 a section along the line VV of figure 4, and figure 6 a section over the line VI-VI of figure h.

Figure 1 shows an electrical miniature safety device, which is generally indicated by 1 and which safety device is provided with a cap or cover 3, which is mounted on a base plate 5, and a pair of electrodes 7 »7 ', which extend from the base plate 5 30. As indicated in Figures 5 and 6, the electrodes 7, 7 'are embedded in the base plate and body, as will be explained in more detail later.

As can be seen from Figure 2, the body comprises a pair of generally crescent-shaped, 5 substantially equal, oppositely spaced parts 9, 9 ', which are defined by curved outer surfaces 11, 11', relatively flat top surfaces 13, 13r and bottom surfaces (not shown) and to each other 8004931-Inverted interior walls or surfaces 15, 151> spaced apart and substantially parallel to each other. Each of the electrodes 7 "7" extends through the respective members 13, 13 * and terminates 17, 17 ", approaching the center of the members, 5 as shown in FIG. 5 and 6.

As further shown in Figures 2 and 3, a groove (19, 19 ') is cut in each of the parts 9,9' from the top face down to approximately the center of each part and then at right angles to the corresponding respective inner 10 walls 13, 13 *. A fusible element 21, e.g. an electrically conductive wire, is stretched between the terminals 17, 17 * of the electrodes 7, 7 ', the ends of the fusible element being at the bottom of the respective grooves and at the electrodes soldered, as indicated at 23.

Due to the particular construction of the miniature safety according to the invention and the arrangement of the fusible element in the grooves, there is less tendency for arc drawing when too much current flows through the safety, while when arcing occurs in connection with. too great a current, the arc can be extinguished faster.

As further shown in Figures h and 5, a relatively flat copper plate 25 of variable thickness is placed on the surface of the solder 23 in intimate contact therewith, for example, the plate may be connected to the solder. The presence of the copper plate 25 (or other equivalent plate) on the solder surface, as already mentioned, serves to impart greater thermal capacity to the safety in order to obtain faster melting of the fusible element, and constitutes a safety factor in that the plate prevents solder from spreading when safety fails due to excessive electric current.

The wire sections in the body, the brazing material and the copper plates, are completely enclosed by an insulated wall 27, which is part of the base plate.

The invention therefore provides an improved fast acting safety with better operating characteristics than the hitherto applied safeties for similar purposes. As already mentioned, due to the particular arrangement of the electrical 80 0 4 9 3 1 ·> -t? -5-- lead terminals 7, 7 'and the fusible element 21 arcing due to excess current is substantially reduced by safety, while when an arc is formed due to flow of very large current, this arc can become faster quenched. In addition, the thermal capacity of the safety can be increased or decreased by varying the thickness of the plate 25, which plate also serves to prevent solder from spreading in case of breakdown.

10 8004931

Claims (5)

1. Miniature electric safety provided with a safety base plate and body, a safety cover and a pair of electrically conductive supply wires extending from the base plate and partially embedded in the base plate and body, the body being provided with a a pair of opposed, generally spaced, generally crescent-shaped members, each of these members defined by an outwardly curved surface, generally planar top and bottom surfaces, and a generally perpendicular inner wall, wherein the inner walls are spaced apart and each of the electrically conductive wires protrudes from the base-1 plate and is partially embedded in one of the crescent-shaped parts, a groove perpendicular to the top faces of each of the crescent-shaped parts is incised a finite distance therein, which correspond with the ends of the electrically conductive wires and then horizontally in the crescent-shaped member, perpendicular to the inner wall thereof, and a fusible element which is stretched between the ends of the electrically conductive wires, which fusible element bottom of the groove is placed - and soldered to it. Safety according to claim 1, characterized in that each of the electrically conductive wires extends to approximately the center of the associated resp. crescent-shaped part extends and where each of the grooves is cut to approximately the center of the crescent-shaped part, before the groove is bent towards the inner wall. Safety according to claim 1, characterized by a metal plate, which is firmly placed on the surface of the solder. 30 i +. Security according to claim 3, characterized in that the plate consists of copper. Safety according to claim 2, characterized by a metal plate, which is placed firmly on the surface of the solder. Security according to claim 5, characterized in that the plate consists of solder. 80 0 4 9 3 1