NL8005421A - FAST-ACTING MELT SAFETY. - Google Patents

Description

Jf J * VO 1021

Fast-acting fuse.

The invention relates to fast-acting fuses and in particular relates to a fast-acting fuses which has improved reliability, thermal stability and power breaking capabilities.

5 A variety of fuses are used today to protect various electrical and electronic circuits. The primary function of the fuse is to protect these circuits from damage or destruction when an overload current, i.e., a current above the no-10 minimum fuse capacity, passes through the circuit. In order to avoid such damage or destruction, the fuses must act quickly and efficiently to interrupt the overload current. The faster the current-breaking action, the more effective the fuse protection under such conditions.

A variety of fast-acting fuses are known, with certain fuses being used as protectors for different electrical chains. In the construction and operation of certain of these fuses, it is usual to have a fusible link reliably tensioned between the two electrically conductive terminals. However, as is often the case in fuses designed to carry low currents, the fuses are generally not physically strong enough to be self-supporting in the home. As disclosed in U.S. Patent 2,577,405, when an overload current passes through this type of fuses, the fuse links are heated causing them to stretch and bend until they contact the fuse housing, thus resulting in an unreliable permissible load on the fuse. In order to overcome this difficulty, the protectors are provided with a bridge construction for carrying the fusion joints and preventing their accidental contact with the interior of the protector housing. However, for reasons discussed in the aforementioned U.S. Patent, the provision of such bridge structures has not been completely satisfactory, and is being discussed. according to this US patent provides a protector and disclosed for electrical circuits, which has a rigid support, which directly carries the melt bond, which support is provided with a conductive coating at each end, to which the ends of the fE: melting joint can be secured. The conductive coating used in this U.S. patent consists of a first silver coating adhered to the rigid support and a copper coating adhered to the silver coating.

The first coating is usually applied by brushing a conductive solution of silver on the rigid support, and the second coating is generally formed by dipping the silver-coated rigid support in an olloidal suspension of copper. It is therefore understood that these techniques are relatively cumbersome in ways of providing conductive coatings for the rigid carriers, and are therefore uneconomical. |

In addition, the melting compound in this US patent is tensioned at an angle to the longitudinal axis of the protector, which further complicates the manufacture of the fuse.

Japanese Patent 41-17949 discloses a fusion protection comprising an insulating base and two electrically conductive terminals, one bonded on one side of the insulating base and the second bonded on the other side thereof. A small hole is punched through the center of the insulating base and a fusion connection is passed through this hole. However, these fuses are also difficult to manufacture and do not satisfactorily overcome the aforementioned difficulties.

The invention represents a further improvement in the manufacture and operation of fast-acting fuses by providing a protector which overcomes the aforementioned difficulties while improving the current-breaking capability of the fuse.

It is therefore an object of the invention to provide a protective circuit for electric circuits, which is fast-acting and has a stable and reliable operation. -

It is a further object of the invention to provide a fast-acting fusible linkage which can be easily mass-produced.

It is yet another object of the invention to provide a fast-acting fuse, wherein the fusible link is reliably tensioned between the conductive terminals of the fuse, which exhibits excellent reliability and thermal stability.

In accordance with the invention, a fast-acting fuse is provided for protecting electrical circuits, which fuse exhibits improved stability, reliability and flame-retardant property due to the particularity of its construction and operation.

The particular present fuse comprises a base construction, which consists of an insulating plastic (eg phenol) plate and an adhering coating of a conductive metal (eg copper). The fuse base construction has an enlarged center section, which narrows on either side to define a pair of protruding arms, the ends of which are soldered to end caps, used to seal the fuse cartridge when the base construction is in the cartridge is inserted. A generally elliptical hole is provided in the center portion of the base, with the metal coating partially etched away to the base surface of the insulation board, the etched portion extending around the elliptical hole to provide a pair of mutual distance opposite conductive terminals. A groove is provided at the end of each conductive terminal near the etched surfaces, with a melting element sandwiched between the grooves 8005421-4 over the generally elliptical hole. §

Liquid solder is provided in addition to any groove for the t

Quantitative soldering of the ends of the melting element, which may be secured in the grooves or prayer.

The invention is further elucidated on the basis of the drawing, in which: *

Fig. 1 is a spatial view of the present SMS security; -

Fig. 2 is a top view of the present base, used to make the fuse shown in Fig. 1:

Fig. 3 is a section according to line III-III in Fig. 2:

Fig. 4 is a section according to the line IV-IV in Fig. 2:

Figure 5 is a plan view similar to Figure 2, however the melting element is stretched between the terminals over 15 feet: and

Fig. 6 is a section according to the line VI-VI of Fig. 5.

Referring to drawings and in particular Figures 1 and 2, the present fuse comprises a base 1 fitted in an insulation cartridge, such as a glass tube 3, covered at both ends 20 by end caps 5, 5 ', as shown in fig. 1. The foot 1, which is shown in detail in Figure 2, and which has the general shape shown therein, has enlarged its mid-section, as in 7 with a generally hexagonal or polygonal shape, which is on either side of the major axis of the foot narrows to define a pair of protruding arms 9, 9 ', the respective ends of which 11, 11', if desired, may be tapered and soldered to resp. the end caps 5, 5 * when the foot is placed in the housing or cartridge 3.

In its preferred construction, the base 1 contains an insulating plate 13, preferably made of a suitable phenolic resin, which can withstand the heat generated by the electric current which is coated with a plate 15 of Copper or other conductive metal . The Copper Sheet 15 may be bonded to the phenolic insulating sheet 13 or may have been coated thereon by other well known methods of forming an adhesive coating of the conductive metal on the insulating sheet. Thus, it is clear that the foot construction lends itself to easy mass production and production in commercial quantities. ::

5 "" As further shown in FIGS. 2 and 5, a generally elliptical hole 17 is punched or drilled through the center section.

7 of the base structure and substantially in the center thereof, with the copper plate 15 partially etched away as at 19, 19 ', to the bare surface of the insulation plate 13. By etching away portions of the copper plate 15 and providing

the hole 17, as described above, the base construction for: K

view of a pair of mutually opposite -r conductive terminals 21, 21 *. A pair of opposing grooves 22, 22 ', each provided at a conductive terminal 21, 21' near the etched areas 19, 19 ', serves to anchor and secure a fuse 25 tensioned between the terminals and over the generally elliptical hole 17. Solder receiving wells or recesses 27, 27 'are provided at each of the grooves 22, 22' for soldering the ends of the fuse 25 for closing the electrical circuit in the fuse .

The cross-sectional areas of the grooves 22, 22 'are preferably larger than the cross-sectional area of the fusible link 25, so that the ends of the fusible link can be placed in their associated grooves 25 or prayer.

The solder receiving wells 27, 27 'are filled with a solder material 23, 23' to not only close the electrical circuit in the fuse but also ensure quantitatively accurate soldering thus maintaining a constant level of thermal capacity with the brazed connections.

As is clear from the foregoing description, a fuse, constructed and used in accordance with the present principles, is an improvement over the known fuses used for the same purpose. Although 8005421 - 6 - the present fuse has been described with some degree of detail and divided in the drawing, it is nevertheless also clear from the description that various changes and modifications can be made which are within the scope of the invention.

IS

80 05 42 1

Claims (8)

1. Fast-acting fuse, characterized by a foot, enclosed in an insulating pattern, which foot consists of a bottom insulating layer of plastic and an upper conductive layer of metal, which is bonded to the lower layer and has the same dimensions, the foot being provided from an enlarged center section having a generally elliptical hole therein, the center section narrowing on either side thereof to a pair of laterally projecting arms, the ends of which are soldered to end caps, used to seal the ends of the insulation cartridge, 10 the metal layer is partially etched around the hole to define a pair of mutually opposite conductive terminals, further from a pair of opposed grooves, one in each of the conductive terminals, and a melting element, which is between the grooves tense and over the generally elliptical hole in the foot. Melt safety device according to claim 1, characterized in that a solder-receiving recess is provided at each of the terminals near each of the grooves for soldering the respective ends of the melting element. Melting safety according to claim 1, characterized in that the bottom layer of the foot is made of phenolic resin, and the top layer of copper. Melt safety according to claim 2, characterized in that the bottom layer of the foot is made of phenolic resin, and the top 25 layer of copper. Melt safety device according to claim 1, characterized in that the cross-sectional area of the grooves is larger than the cross-sectional area of the melting element, the ends of which are fixed in the grooves. Melt safety device according to claim 2, characterized in that the cross-sectional area of the grooves is larger than the cross-sectional area of the melting element, the ends of which are fixed in the grooves. 8005421 ♦ <ν · - a - Melt safety according to claim 3, characterized in that the cross-sectional area of the grooves is larger than the cross-sectional area of the melting element, the ends of which are fixed in the grooves. Melt safety according to claim 4, characterized in that the cross-sectional area of the grooves is larger than the cross-sectional area of the melting element, the ends of which are secured in the grooves. > 80 05 42 1