DE102020208224B3 - Electric fuse - Google Patents

Abstract

An electrical fuse (1) comprising an electrically conductive sheet (2) which has at least one row of perforations (3) transverse to the longitudinal direction, the sheet (2) being shaped around a longitudinal axis by at least an angle of 360 ° to form a three-dimensional body The perforations (3) run in the circumferential direction of the body, the three-dimensional body being connected at its end faces (6) with electrically conductive end caps (7) which have connecting lugs (8), the three-dimensional body with the end caps (7 ) is arranged in an electrically insulating fuse housing (9), the connection lugs (8) protruding from the fuse housing (9), and the spatial body being provided with at least one electrically conductive contact lug (11) on at least one of its end faces (6), wherein the at least one contact lug (11) protrudes from the fuse housing (9) through a recess (12) in the end cap (7).

Description

The invention relates to an electrical fuse made of an electrically conductive sheet metal which has at least one row of perforations transversely to the longitudinal direction.

Such a fuse is from the DE 10 2016 211 621 A1 known. The fuse there is designed as an elongated sheet metal, which has a plurality of rows of perforations in the longitudinal direction, each running transversely to the longitudinal direction. A plurality of such metal sheets can also be connected in parallel, the metal sheet or metal sheets being arranged in an electrically insulating fuse housing and being contactable from the outside. The fuse housing is usually filled with quartz sand.

The quartz sand acts as an arc extinguishing agent: if the rated current of the fuse is significantly exceeded - for example due to a high short-circuit current - this leads to a response of the fuse, in the course of which the fuse element first melts and then evaporates due to the high temperature development. This creates an electrically conductive plasma, through which the current flow between the electrical connections is initially maintained - an arc is formed. As the metal vapor from the vaporized fusible conductor is deposited on the surface of the quartz sand grains, the arc is cooled down again. As a result, the resistance inside the fuse link rises to such an extent that the arc is finally extinguished. The electrical line to be protected by the fuse is thus interrupted.

By providing the metal sheets with perforations, a conductor constriction is achieved, whereby the current density and thus the Joule heat increases on the remaining conductor material in order to ensure targeted melting at these conductor points.

The fuse must meet the requirement to have reproducible tripping characteristics (time-current profile). Deviations from these tripping characteristics, caused by manufacturing and material variations as well as environmental conditions such as temperature and installation characteristics of the fuse in the device, can result in false tripping and failure of the overload current protection.

When assembling the individual fuse conductors connected in parallel, a reproducible arrangement must be provided so as not to change the tripping characteristics. Furthermore, a minimum distance between the sheets connected in parallel must be observed during assembly in order to ensure insulation between the individual locking sheets.

The known locking plates with the perforations mentioned have a low level of stability, which makes assembly more difficult.

From the CH 33 88 90 A a low-voltage high-performance fuse is known, which is formed with a fuse link containing the fusible conductor and a filler, the fusible conductor consisting of a strip conductor such that the interrupting arc extends over the entire fusible conductor cross-section, and that the strip conductor is folded longitudinally and on all sides a filler layer sufficient to extinguish the interruption arc is surrounded. The strip conductor has three sections which are folded by about 90 ° at fold lines, creating an approximately U-shaped body which is provided with a number of rows of perforations along its longitudinal direction.

From the document DE 28 02 050 A1 an insulating fuse housing is known, at the ends of which there are two conductive terminals. Inside the housing there is a tubular, flexible element between the two clamps. It is embedded in a granular material that is suitable for suppressing arcs or sparks. The fusible element has a number of axially spaced, elongated openings which form parallel current paths. The paths are longer than the openings in the axial direction of the element. The openings are preferably trapezoidal with smaller dimensions parallel to the element axis. The element can consist of sheet metal that is slotted to form the trapezoidal openings.

From the document AT 271 607 B a fuse cartridge is known, consisting of a ceramic, cylindrical outer jacket open at the ends and an inserted, embedded in quartz sand or the like, bent from a lamella metal cylinder with bendable wings, which are bent over the ends of the ceramic cylinder jacket, the metallic cylinder has partially solid wall parts and conductor bridges formed by cutouts, which are repeated several times over the length, the conductor bridges at the interruption points forming the corners of an equilateral triangle and at the same time the centers of circles of equal size that touch each other and the inner cylinder of the ceramic body.

From the document U.S. 4,994,779 A a fuse with a circular fusible element with a stress relief section is known. The cylindrical fusible element is through Solder or other fusible alloy attached to a trigger mechanism. The trip section provides overload protection and the circular fuse element provides short circuit protection, resulting in a time delay fuse that can be used in locations with size restrictions.

From the document DE 693 606 A a high-voltage fuse which has a current-limiting effect is known, in which one or more fusible conductors with a surface area that is very large in relation to the cross section are embedded in sand or in a similar filler. In fuses of this type, by preventing arcing, considerable advantages in terms of avoiding pressure can be achieved. It is also possible to connect many individual conductors in parallel, i.e. to handle large through-currents.

The object of the invention is to provide an electrical fuse which, due to its structure, has a low tolerance of the tripping characteristic.

The object is achieved according to claim 1 by an electrical fuse, which is formed with an electrically conductive sheet that has at least one row of perforations transversely to the longitudinal direction, the sheet being formed around a longitudinal axis by at least an angle of 360 ° to form a three-dimensional body The perforations run in the circumferential direction of the body, the three-dimensional body being connected at its end faces with electrically conductive end caps having connection lugs, the spatial body with the end caps being arranged in an electrically insulating fuse housing, the connection lugs from the fuse housing protrude, and wherein the spatial body is provided on at least one of its end faces with at least one electrically conductive contact tab, the at least one contact tab protruding from the fuse housing through a recess in the end cap.

Advantageous further developments are given in the subclaims.

In particular, the sheet metal of the electrical fuse can be shaped into a spiral, which can advantageously also be designed as an Archimedean spiral. In this way, for reasons of insulation, the same spacing of the spiral sections is maintained across the width of the sheet metal.

If the electrical fuse is formed with a sheet metal, the two longitudinally extending edges of the sheet metal can be in contact, whereby the spatial body is a cylinder. Here, too, any cross-section can be selected, the circle being preferred, so that the three-dimensional body is a circular cylinder.

In a further development, at least one contact tab is formed on each end face and each end cap has at least one recess.

The contact tab or the contact tabs can be formed in one piece with the sheet metal. This enables a particularly simple and inexpensive production.

The fuse housing of the electrical fuse can be filled with quartz sand, the quartz sand also being filled into the three-dimensional body.

In one embodiment of the electrical fuse, the fuse housing is undersized in the longitudinal direction in relation to the length of the spatial body. As a result, the quartz sand filled into the fuse housing is pressed during the assembly of the end caps.

The sheet metal of the electrical fuse can have an opening located outside the perforations, through which quartz sand can be filled into the interior of the spatial body.

• 1 eine schematische Darstellung einer kreiszylindrischen elektrischen Schmelzsicherung mit einer Perforationsreihe,
• 2 eine schematische Darstellung einer kreiszylindrischen elektrischen Schmelzsicherung mit zwei Perforationsreihen,
• 3 eine schematische Darstellung einer kreiszylindrischen elektrischen Schmelzsicherung mit einer Perforationsreihe und einem Durchbruch zur Befüllung mit Quarzsand,
• 4 eine schematische Darstellung einer kreiszylindrischen elektrischen Schmelzsicherung mit Abschlusskappen und Anschlussfahnen in einem Sicherungsgehäuse,
• 5 eine Abschlusskappe mit Anschlussfahne in einer Seitenansicht,
• 6 eine Abschlusskappe mit Anschlussfahne in einer Draufsicht,
• 7 eine Abschlusskappe mit Anschlussfahne in einer Frontansicht,
• 8 ein Sicherungsblech mit einer Reihe von Perforationen,
• 9 ein Sicherungsblech mit drei Reihen von Perforationen,
• 10 ein Sicherungsblech mit einer Reihe von Perforationen unterschiedlicher Größe,
• 11 eine Draufsicht auf ein in einer archimedischen Spirale gewickeltes Sicherungsblech,
• 12 ein Sicherungsblech mit einer Reihe von Perforationen unterschiedlicher Größe und auf einer Stirnseite angeformten Kontaktfahnen,
• 13 ein zu einem kreiszylindrischen Körper gewickeltes Sicherungsblech gemäß 12,
• 14 ein Sicherungsblech mit einer Reihe von Perforationen und auf beiden Stirnseiten angeformten Kontaktfahnen,
• 15 eine Abschlusskappe mit Ausnehmungen für Kontaktfahnen und
• 16 ein zu einem kreiszylindrischen Körper gewickeltes Sicherungsblech mit einer Reihe von Perforationen in einem Sicherungsgehäuse mit Abschlusskappen.

The invention is explained in more detail below on the basis of exemplary embodiments with the aid of figures. Show it

• 1 a schematic representation of a circular cylindrical electrical fuse with a row of perforations,
• 2 a schematic representation of a circular cylindrical electrical fuse with two rows of perforations,
• 3 a schematic representation of a circular cylindrical electrical fuse with a row of perforations and an opening for filling with quartz sand,
• 4th a schematic representation of a circular cylindrical electrical fuse with end caps and connection lugs in a fuse housing,
• 5 an end cap with connection lug in a side view,
• 6th an end cap with connection lug in a top view,
• 7th an end cap with connection lug in a front view,
• 8th a locking plate with a series of perforations,
• 9 a locking plate with three rows of perforations,
• 10 a locking plate with a series of perforations of different sizes,
• 11 a top view of a locking plate wound in an Archimedean spiral,
• 12th a locking plate with a number of perforations of different sizes and molded contact lugs on one face,
• 13th a locking plate wound into a circular cylindrical body according to FIG 12th ,
• 14th a locking plate with a series of perforations and molded contact lugs on both ends,
• 15th an end cap with recesses for contact lugs and
• 16 a locking plate wound into a circular cylindrical body with a series of perforations in a fuse housing with end caps.

the 1 until 3 show schematic representations of a circular cylindrical electrical fuse 1 that as a circular cylindrical three-dimensional body made of a sheet of metal 2 (see 8th until 10 and 12th , 14th ) by deforming and by forming a connection of their longitudinally extending edges 5 originated. In an embodiment not according to the invention, the fuse 1 be designed as a tube.

In contrast to one by deforming a sheet metal 2 produced tubular circular cylindrical body, a pipe is to be understood here as a continuous three-dimensional body that has been created, for example, by drawing or extrusion.

In the schematic representations of the 1 until 3 show the walls of the fuse 1 one or two rows of perforations 3 which are located in the circumferential direction. Such perforations 3 are in the 8th until 10 , 12th and 14th shown in more detail and can have different shapes. They serve to reduce the material cross-section, so that the resistance to the electrical current increases and the fuse can be cut through at these points.

In the 3 is also a breakthrough 4th in the wall of the spatial body of the fuse 1 shown, which can be provided to fill the interior of the spatial body with quartz sand.

The spatial body of the fuse 1 has end faces 6th that should be closed so that the filled quartz sand cannot escape again.

Such a conclusion of the front sides 6th can for example with electrically conductive end caps 7th take place, for example, in the 5 until 7th are shown in different views. The end caps 7th can over the front sides 6th the three-dimensional bodies are pushed or pressed and have connecting lugs 8th for electrical contact.

Such a fuse manufactured as a three-dimensional body 1 with perforations 3 , their end faces 6th with end caps 7th are locked is in the 4th shown, these in addition in an electrically insulating fuse housing 9 is arranged, that with quartz sand 13th is filled. Through the design of the electrical fuse 1 as a three-dimensional body, there is a high mechanical strength, so that the desired electrical properties of the fuse 1 are also retained during assembly and are not impaired by possible deformations.

In the representations of the 1 until 4th only circular cylindrical three-dimensional bodies or tubes are shown, but other cross-sections such as, for example, elliptical, square, rectangular or triangular cross-sections may also be desirable or useful. It is essential for the invention that the shape is cylindrical, that is to say that it has a closed circumferential line in order to achieve the desired mechanical strength.

the 8th until 10 and 12th show electrically conductive sheets 2 with perforations 3 which can lead to a cylindrical body by deforming the longitudinally extending edges 5 of the sheets 2 are brought into contact with one another and are connected to one another, for example by soldering or welding.

However, it is also possible, as shown in 11 is shown rolling up the metal sheets to form a spiral, in particular an Archimedean spiral, which also results in high mechanical stability.

In the 12th is now a sheet 2 with perforations 3 different sizes shown that has an electrically conductive contact tab formed in one piece with this on one end face, which is used for contacting the electrical fuse 1 should serve. In the 13th a corresponding circular cylindrical spatial body is shown.

the 14th shows a corresponding embodiment of such an electrical fuse 1 with contact flags 11 on both front sides of the spatial body.

At the end of the front sides of the spatial body of the fuse 1 where the sheet metal 2 , from which the three-dimensional body was formed, contact lugs 11 end caps can be used, as shown in the 15th is shown. Such an end cap 7th has recesses 12th on through which the contact flags 11 can be inserted through.

the 16 now shows such an embodiment of an electrical fuse 1 with perforations 3 and molded contact lugs 11 through graduation caps 7th are inserted, which are part of the fuse housing 9 are. Around the one in the fuse box 9 and the spatial body of the fuse 1 To compact the quartz sand located is the fuse 1 in their length with an undersize compared to the length of the spatial body of the fuse 1 manufactured so that when the end caps are pressed on 7th the quartz sand 13th is pressed.

Claims (9)

Having electrical fuse (1), an electrically conductive sheet (2) which has at least one row of perforations (3) transversely to the longitudinal direction, the sheet (2) being shaped around a longitudinal axis by at least an angle of 360 ° to form a three-dimensional body, the perforations (3 ) run in the circumferential direction of the body, wherein the spatial body is connected at its end faces (6) to electrically conductive end caps (7) which have connecting lugs (8), the spatial body with the end caps (7) being arranged in an electrically insulating fuse housing (9), the Terminal lugs (8) protrude from the fuse housing (9), and wherein the spatial body is provided with at least one electrically conductive contact lug (11) on at least one of its end faces (6), the at least one contact lug (11) from the fuse housing (9) through a recess (12) in the end cap (7) protrudes. Electric fuse (1) Claim 1 , in which the two longitudinally extending edges (5) of the sheet metal (2) are in contact, whereby the spatial body is a cylinder. Electric fuse (1) Claim 2 where the cylinder is a circular cylinder. Electric fuse (1) Claim 1 , in which the sheet (2) is shaped into a spiral (10). Electrical fuse (1) according to one of the preceding claims, in which the at least one contact lug (11) is formed in one piece with the sheet metal (2). Electric fuse (1) Claim 5 , in which at least one contact lug (11) is formed on each end face (6) and each end cap (7) has at least one recess (12). Electrical fuse (1) according to one of the preceding claims, in which the fuse housing (9) is filled with quartz sand (13). Electrical fuse (1) according to one of the preceding claims, in which the fuse housing (9) is undersized in the longitudinal direction in relation to the length of the spatial body. Electrical fuse (1) according to one of the preceding claims, in which the sheet metal (2) has an opening (4) lying outside the perforations (3).

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