EP1511057A1 - Tubular fuse with end caps and synthetic sealing elements - Google Patents

Abstract

Two end caps (5) of electrically conductive material fit on both ends of a tube (4) so that an electrical contact is produced for each melting conductor (2). On one of the tube's ends in an intermediate area between an end cap's base and the tube's front side and in part of the tube's interior (3) adjacent to this base there is a sealing body (7) made from compressible plastic able to creep. An independent claim is also included for a method for producing a fusible cutout component.

Description

The invention relates to a fuse element with a fusible conductor, located in a gas-filled interior a cylindrical tube between two end faces of the Tubule extends, with two end caps from an electric conductive material so on the two ends of the tube are applied, that in each case an electrical contact to the Melt conductor is made. Furthermore, the invention relates a method of manufacturing such a fuse component.

Röhrenschmelzsicherungsbauelemente the aforementioned Art have long been known. For example, there are fuse components, where the cylindrical tube made a ceramic material and a circular cylindrical Interior and a square outer contour with rounded Has edges. The fuse element is for example a wire that extends diagonally in the interior in such a way that he only the walls of the tube at the Ends touched. The wire of the fusible conductor is around the Front sides of the tube led around, the ends of the Melt wire on the outer walls of the tube. On the two ends of the tube are metallic End caps fitted. For example, the end caps can be off an elastic material and on the ends of the tube be pressed on, with the pressing not only for a tight fit of the end caps, but beyond that too provides electrical contact to the fusible conductor. The Metal caps can also be glued to the ends of the tube or after appropriate preparation of the surface of the Outer wall of the tube to be soldered on this. There are a number of techniques of applying the end caps are known Both for a tight fit of the caps as well ensure good electrical contact with the fuse element.

There are fuse components of the aforementioned Kind, where between the end caps and the wall of the Tube remains a gap such that the interior of the Tube connected via the gap with the environment of the tube is. In this case, there is a gas exchange between the interior and the environment. In a warming and expansion of the gas in the interior, this flows out of the interior out, so that a relatively fast pressure equalization takes place.

In addition, there are fuse components in which the caps applied to the ends of the tube are that the interior is hermetically sealed. In these Components can be the interior with air or with a special one Gas (for example nitrogen) under normal pressure or be filled with reduced pressure.

When the fusible conductor in the interior of the tube is severed is (melted, i.e. the fuse turns off), As a rule, an arc is formed. The impulsive Energy supply due to the arc heats up the interior optionally existing gas and the melt through vaporizing materials. In a fuse element with a hermetically sealed interior and air or Gas filling supplies the energy supplied via the arc a sudden, sudden increase in pressure in the interior of the fuse component. This pressure pulse acts extinguishing the arc and is thus desirable.

A disadvantage of a fuse element with hermetic dense interior is, however, that the pressure increase is generated in the interior even if the fuse component, for example, during the manufacturing process, is heated from the outside. Such heating occurs, for example then, when to make a solder joint between the ends of the fusible conductor and the attached metallic End caps the end caps briefly to a higher Temperature be brought. A temperature increase can also occur in a curing process of an adhesive that the End caps should connect to the tube. The one with such Warming associated pressure rise in the interior of the tube leads to a desired load on the fuse component and possibly to a formation of a pressure equalization channel (Capillary channel) between the interior of the Tube and the environment through the gap between the tube and the end cap. The training of such unwanted capillary next to the fusible conductor, for example found in fuse components in their end areas sealed with a pourable silicone were.

The object of the invention is therefore, a fuse component of the type mentioned above, whose interior hermetically sealed in operation, but in which when sudden temperature and pressure rises during the Component manufacturing problems occurring above Kind be avoided.

This object is achieved by a fuse component solved with the features of claim 1. In addition, will the object by a method for producing a fuse component with the features of claim 10 solved.

The fuse element according to the invention is a Component of the type mentioned, which is characterized is that at least one of the two ends of the Tube in a space between the cap bottom of the End cap and the front side of the tube and in one at the Cap bottom adjoining part of the interior of the tube Sealing body of a predominantly elastically compressible but at the same time creepable (in the sense of flowable) plastic material is introduced, wherein the sealing body during Placing the end cap during manufacture of the fuse element between the front and the cap bottom has been compressed. The compressed in the introduction Sealing body is then anxious to expand again, being mainly in the interior of the tube inside. Finds shortly after his Incorporation during the manufacturing process due to a Manufacturing step, leading to an increase in temperature in the interior leads, a sudden increase in pressure in the interior instead, the case may occur that this overpressure via a temporarily formed channel between the tube, the sealing body and the end cap into the outer Environment compensates. Due to the fact that the Plastic material is creepable, so formed channels as well as any remaining gaps between the tube, the end cap and the intervening Melt conductor by flowing in of the plastic material again closed. After a certain time of compensation or the storage thus forms a hermetic seal of the interior of the tube. The invention In addition, fuse component allows a relative simple production because instead of any liquid Sealant material is a substantially solid seal body is used, whose shape previously to the dimensions of End cap can be adjusted.

The elastically compressible but at the same time creepable Plastic material is preferably a silicone. This plastic material can at the subsequent manufacturing steps well withstand occurring temperatures. advantageously, is a sealing body made of a slightly foamed, closed cell Silicone used. Such a seal body is preferably dimensioned so that it the cap bottom filled in and pressed hard when putting the caps and then penetrates into the interior of the tube. Due to the creep of the material is subsequently the preferably diagonally through the interior Fusible conductor completely enclosed in the area of the ends.

In the inventive method for producing a Fuse device is initially a fuse introduced into the interior of a cylindrical tube, being at both ends around the ends of the tube is guided on the outer wall of the tube. Subsequently end caps are attached to the ends of the tube with the put the end faces around the melt conductor ends. This is an electrical contact between the end caps and made the fusible link ends. Furthermore, it is between the inner bottom of at least one of the two end caps and the the inside bottom facing end of the tube a sealing body from a predominantly elastically compressible and at the same time introduced creep plastic material, wherein compressed the sealing body when placing the end cap becomes. Subsequently, the fuse element becomes for securing an electrical contact and / or mechanical Fixing the end caps to the tube of a temperature treatment subjected to temperatures above 150 ° C. Finally, a hermetic seal of the interior forms by creeping (slow flow) of the material of the Sealing body off. In this manufacturing process is ensures that at the temperature treatment step possibly forming channels then by flowing into it Material to be closed again. The inventive method easily allow the production of Fusible elements with hermetic sealing of the Interior.

Figur 1 eine schematische Längsschnitt-Darstellung des erfindungsgemäßen Sicherungsbauelements; und

Figur 2 eine schematische Querschnitt-Ansicht des in Figur 1 gezeigten Bauelements.

Advantageous and preferred developments of the invention are characterized in the subclaims. In the following the invention will be described with reference to a preferred embodiment shown in the drawing. In the drawing show:

Figure 1 is a schematic longitudinal sectional view of the fuse component according to the invention; and

Figure 2 is a schematic cross-sectional view of the device shown in Figure 1.

In the schematic longitudinal section illustration of Figure 1 a fuse component 1 is shown which has a fusible conductor 2, which is located in an interior 3 of a cylindrical Tube 4 extends diagonally. The fuse element 2 can in the embodiment shown as well as in all others Embodiments of the invention, both a wire with any Cross-sectional profile as well as an insulating one Core be wound fuse wire. The tube 4 has a cylindrical shape, which is an arbitrary cross-sectional profile may have. The interior 3 is, for example, circular cylindrical. The tube 4 is made of an electrically insulating Material manufactured, for example from glass, ceramic or plastic. In the embodiment shown is the Melt conductor 2 is guided diagonally through the interior 3. at other embodiments are other arrangements of the fusible conductor 2 in the interior 3 conceivable. The fuse element 2 is preferably wrapped around the end faces 8 of the tube 4, so that the ends of the fusible conductor 2 on the outer walls of the Rest tube. On the two ends of the tube 4 are End caps 5 made of an electrically conductive material. The metallic end caps are set up in this way, on the one hand, an electrical contact between the end caps 5 and the fusible conductor 2 and on the other hand a mechanically fixed connection between the end caps 5 and the Tube 4 is formed. The fuse element 2 is with the end caps 5, for example, connected via an external soldering, d. h., A solder joint 6 connects the on the outer wall of the tube 4 resting ends of the fuse conductor 2 with the inner walls of the metallic end caps 5. In the preferred Embodiment is the mechanical attachment the end caps 5 on the tube 4 in addition by an adhesive connection 9 secured.

As can be seen in Figure 1, is in the spaces between the bottoms of the end caps 5 and the respective end faces 8 of the tube 4 and in an adjacent to the cap bottom Part of the interior 3 of the tube 4 each one Inserted sealing body 7. The seal body 7 is made made of a plastic material that is elastically compressible (i.e. H. elastically deformable), but at the same time capable of creeping (in the sense of of flowable) is. When placing the end caps 5 on the Ends of the tube 4 are the previously introduced sealing body 7 strongly compressed and then stretch, preferably in the interior 3, again off. by virtue of the fluidity penetrate parts of the expanding seal body 7 in between caps 5 and 4 tubes existing Columns and enclose the near the ends of the tube 4 extending portions of the fusible conductor. 2

Figure 2 shows a schematic cross-sectional view, wherein the section out in the designated in Figure 1 with A level is. FIG. 2 shows the state for a certain time the manufacture of the fuse element suitable for a sufficient flow of the introduced material of the seal body 7 is sufficient. As can be seen in Figure 2, is that of the inner wall of the tube 4 in the cut area spaced fuse element 2 completely from the material enclosed by the seal body 7. Such enclosing is not possible with a purely elastic sealing body, but requires a flowable material.

The following is a preferred method for the production given a fuse element according to the invention. For the production of the fuse element is initially provided the fuse element 2 in a predetermined length and inserted into the interior 3 of the tube 4 and then bent around the end faces 8 of the tube, so that the ends of the fusible conductor 2 on the outer surfaces of the tube 4 rest. Subsequently, a thermal hardenable adhesive on the end faces 8 over the entire surface applied. The amount of glue and the method of application are chosen so that it is avoided that while or at subsequent process steps larger amounts of the adhesive get into the interior 3 of the tube 4. Subsequently is applied to the outer surfaces of the tube 4 in the places where the fusible conductor 2 rests, each a small amount Applied solder paste. The solder paste contains a flux. The Flux may also not in the interior of the 3 Get the fuse. For this purpose also serves the on the front side 8 applied adhesive. This forms one Barrier and prevents the solder paste by capillary action along the fusible conductor 2 via the end face 8 continues to flow into the interior 3.

Parallel to the mentioned production steps, the End caps 5 prepared by placing in the inner cap bottom molded piece of foam material (a slightly foamed silicone) is inserted. The caps are preferably rectangular, so that the inserted into the cap bottom Piece of foam material also of essentially rectangular shape is.

In a preferred embodiment, the tube has a Inner diameter of about 2.5 mm and outer dimensions of about 4mm x 4mm x 9.6mm. The end caps are about 2.8 mm deep and have a cross section of about 4.4 mm x 4.4 mm. The in the cap bottom inserted foam gasket body has a thickness of about 1.5 - 2.0 mm.

The prepared end caps are placed on the ends of the tube set with a predetermined force, so that deforms the foam and the applied adhesive distributed. Subsequently, the caps (preferably successively heated), so that on the one hand the solder paste a Solder connection between the fuse element 2 and the inner surfaces makes the end caps 5 and on the other hand, the adhesive 5 is pre-cured so that the caps mechanically fixed become. In this step of producing the solder joint and pre-curing the adhesive becomes the fuse component to temperatures above 150 ° C, for example about Heated to 300 ° C. The case in the interior 3 due to the gas filling resulting overpressure can thereby partly offset be that a thin channel between the interior and the external environment, for example, along the Melting conductor or along the wall of the tube 4 forms. In a subsequent manufacturing step, the Backup device again to a temperature of, for example heated to about 150 ° C, so that the adhesive final is cured.

Within the scope of the inventive idea are alternative embodiments conceivable. For example, the seal body could 7 fill only a portion of the cap bottom, for example be annular, so that it is the space between completely fills the end faces 8 and the cap base, but only to a lesser extent in the interior 3 penetrates. There are also embodiments conceivable in which a sealing body of the type mentioned only at one of the two Ends of the tube is introduced; the other end could be hermetically sealed in a conventional manner, for example by pouring with a liquid and then curing plastic.

Claims (16)

A fuse element (1) having a fusible conductor (2) extending in a gas-filled interior (3) of a cylindrical tube (4) between two end faces (8) of the tube (4), two end caps (5) made of an electrically conductive material are applied to the two ends of the tube (4) such that in each case an electrical contact to the fusible conductor (2) is made,
characterized in that at least one of the two ends of the tube (4) in a space between the cap bottom of the end cap (5) and the end face (8) of the tube (4) and in a part of the interior (3) adjacent to the cap bottom of the tube (4) a sealing body (7) made of a predominantly elastically compressible but at the same time creepable plastic material is introduced, which has been compressed during the manufacture of the end cap (5) during manufacture of the fuse element (1) between the end face (8) and the cap base , Fuse component according to Claim 1, characterized in that the sealing body consists of a silicone. Fuse component according to Claim 2, characterized in that the sealing body (7) consists of a slightly foamed, closed-cell silicone. Fuse component according to claim 1, characterized in that the sealing body (7) fills the entire cap base and penetrates in the manner of a plug in the part of the interior (3) of the tube (4). Fuse component according to Claim 1, characterized in that the fusible conductor (2) is guided diagonally through the inner space (3) of the cylindrical tube (4) and that the two ends of the fusible conductor (2) are located on mutually opposite surfaces of the outer wall of the tube (4). are attached. Fuse device according to claim 5, characterized in that the tube has a cross section with a substantially circular inner contour and a substantially square outer contour. Fuse component according to one of Claims 1 to 6, characterized in that the ends of the fusible conductor are mechanically fixed between the outer wall of the tube (4) and the inner wall of the end cap (5) by means of a solder joint (6) and are electrically connected to the end cap (5) are. Fuse component according to claim 1, characterized in that the sealing body is introduced only at one end and that the other end of the tube is hermetically sealed with a pourable, cured plastic. Fuse component according to one of Claims 1 to 7, characterized in that the end caps (5) are held by an adhesive connection, the adhesive (9) in the gaps between the end faces (8) of the tube (4) facing the end faces Distributed surfaces of the seal body (7) and the inner walls of the end caps (5). A method of manufacturing a fuse element, wherein: (a) a fusible conductor is introduced into the interior of a cylindrical tube, being guided at both ends around the end faces of the tube onto the outer wall of the tube, (b) placing end caps on the ends of the tube with the fusible conductor ends passing around the end faces thereby establishing electrical contact between the end caps and the fusible conductor ends, between the inner bottom of at least one of the two end caps and the end of the tube facing the inner bottom a sealing body is introduced from a predominantly elastically compressible and at the same time creep-capable plastic material, wherein the sealing body is compressed when the end cap is put on, (c) subjecting the fusible element to a thermal contact at temperatures above 150 ° C to secure electrical contact and / or mechanical attachment of the end caps to the tube, and (D) then forms a hermetic seal of the interior by creeping the material of the seal body. A method according to claim 10, characterized in that a respective adapted to the shape of the end caps sealing body is introduced into the end caps before placing them. A method according to claim 11, characterized in that the sealing body is introduced into the caps such that the plastic material covers the cap bottom in a layer thickness of 0.5 mm to 2.5 mm. Method according to one of claims 10 to 12, characterized in that prior to placing the end caps, a thermally curable adhesive is applied to the end faces of the tube, wherein the amount of adhesive and the type of application are chosen so that during this and during the further manufacturing process only the smallest possible proportion of the adhesive gets into the interior of the tube. A method according to claim 13, characterized in that solder paste is applied to the outer surfaces of the tube at the locations where the fuselage ends rest. A method according to claim 14, characterized in that the caps are heated after setting, so that using the solder paste solder joints between the fusible conductor ends and the end caps produced and at the same time the adhesive is at least partially cured. A method according to claim 15, characterized in that the end caps are heated successively , the end caps being heated by placing two adjacent electrodes on the face of a cap and energizing them.

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