DE1752760U - ELECTRIC IGNITION ELEMENT. - Google Patents

Description

Electrical ignition element The invention relates to a round electrical element in which a metal film is present on an insulating body, which the. Power supply electrodes metaUically conductive binds and evaporates when the current is applied, which initiates the jump of the ignition spark.

Such ignition elements are already known or objects of proposals that do not belong to the state of the art. For example, as part of an electrical ignition device with a center electrode in a cylindrical insulating body, a metal rivet as a center electrode in the insulating body, while the second electrode is the Bald- Metal sleeve containing material is used and the insulating body is provided with the metal layer with the exception of its outwardly directed end face. An electrical fuse that does not belong to the state of the art should be mentioned in which two power supply wires, which also serve as electrodes, are surrounded at a distance from one another by a bead, preferably made of glass-like insulating material, on the surface of which is a firmly adhering metal layer with a defined electrical resistance is applied, which is connected to the electrodes in conductive connection. Finally, let us not consider the state of the art. hdrender suggestion an electrical% elemenr tæinex metal film provided on an insulating body some very narrow places with high current density. has, whereby the 4ontaktotelle or * -otellen expediently through Creation of any profiled junction on a plane or deformed metallized surface he ge w. a The invention is also concerned with a. electrical connections Dar last be & eihnetea Art and has set itself the goal Uei eloMriuöheN. Ignition elements generally occurring difficult to eliminate chains * The following considerations have led to the establishment of the invention If you touch the surface of a thin, homogeneous metal filament, who is connected to one of the sources of electricity and eats with him a leading body which ends in a point and which other poi never has stromquoiie to Ansoiaua, oo ucimilmt an This contact point is due to the high density of the streets meta This melting process takes place very quickly, eo that eating by dac. Eye is only perceived as a spark. At the boiling point of the tip d .. tallilm forms Calibrate the points in the $ ette of the Spltgee dle the terminal dM Metallfllwa 6eenubor lies.

The ohmic resistance of a conductor depends on the specific Resistance of the material, the cross section and the length.

In addition, there are the following requirements: The initial sentence should be the sparking point.

The number of elements how the squib build up should be as few as to be possible. Furthermore, they should have a simple structure and be suitable for Suitable for mass production.

The outer diameter of the squib is with such a tolerance to produce that the pressing of this element into the detonator always with the same press-in force can take place.

The formation of the area of the ceramic pill to be metallized expediently meets the technical requirements of the injection molding machine.

The metal film should have a uniform thickness, so that a uniform ohmic resistance is achieved.

The invention relates to an electrical ignition element in which a metal film is present on an insulating body as a conductive connection between the power supply electrodes and which has one or several points of high current density at which the metal film is evaporated. The essence of the invention is seen in the fact that the insulating body is designed in such a way that the surface carrying the metal film is designed to rise. Here it is possible, the insulator not only with a, Sondemmt-t Mehrerenden.Metallfiaquestende and ateigem trained To provide surfaces. Furthermore, ew eich has proven to be advantageous placed, the insulator with a conical central channel z. Z. equip a hole in which as a center electrode in the same direction as the Channel tapering tube used. z. B. pressed in, it. the Pick-up electrode, which is attached to the metalized surface or surfaces that rise, expediently takes the form of a cylinder, e.g. Be a cylindrical sleeve which terminates in one or more tips resting on the surface or surfaces provided with the metal layer.

By such training of the insulating body that the The surface or surfaces that are supposed to carry a metal film is formed or are, it is achieved that on the surface or A uniform metal film can be applied to surfaces, in particular by means of the spraying process. If one uses to- In addition, the further feature of the invention to provide an insulating body with a conical channel, so it is also possible to the latter as well as the AnaatzetUok of the ascendingly educated Surface or surfaces have a similarly thicker metal film to raise. That way, the requirements for that Thickness and uniformity of the metal film at its opposite different places easily accessible, with additional This includes the aforementioned BencamuhgdeMetallfilm in particular important with regard to the tapered channel is in which. in a further embodiment of the invention all means electrode in the same direction as the canal. of the pipe is used, in particular pressed in. It will be there- namely by avoiding the metal film on every pall Pressing in the pipe is important for the transfer of current could lose As was further found, is the cone of the central canal expediently dimensioned to 4 ", 0 or smaller. If this win- If you choose bigger, there is a risk that the Pressed in, the tube serving as the bottom and bottom electrode does not go through ßelbstheamung holds, Furthermore, this version has the advantage that the conical tube with little longitudinal displacement not from the Wandung list, since the pressed material is within the sizes zen des Rookaohen Gesetwo relaxedMan has & lBo with dieeer Tube electrode not only creates an intimate, elastic connection posed, but also at the same time takes into account that the spark between the metal film and the outer electrode only occurs at the Side of the tip (s) which is to form the pole connection of the tallfilm opposite A particular advantage of the described design was the fact that only in this way a directed spark formation is possible. can be held. This is with regard to a safe radio tion of an igniter provided with the igniter element according to the invention is of particular importance. It is necessary that the initial sentence is applied to the point that generates the spark, because this is the only way to guarantee that it is flawless Ignition is given e pursuit iee vorgeeicbaetea The concept of the invention results in the execution of the ble- pack, nor the noramic cylinder as mentioned earlier one end face with an advantageously conical approach metallic coating and the outer electrode ale cylinder is formed with a radial, inwardly drawn edge. If you now connect these two elements by adding the Seam electrode calibrated and unburdeltp over the ceramic cylinder until this reaches the ceramic body with the edge of the electrode, the tips come to rest on the cone with a defined contact force. If you now follow the pressing of this entire assembly into the detonator, so you can see that there is the initial sentence in the conical tube ouhugt and thus the contact pressure Rohres to the Metslifila and the other time to the The surface of the cone slides down and presses against the tips, The guarantee that the squib after being pressed into the Detonator no longer ldat, is given by the pill and Detonator hole has been made with a press tolerance are .. You have the advantage over the "NuruMbordelun. g" part that the contact pressure on the initial sentence is approximately the is equal to. It is advantageous, as already mentioned, as a material for the Insulating body uses a ceramic material, however it is also possible to use other materials. As an example, plastics of the most varied types, in particular ethoxylin resins or the like, are indicated. Depending on the material, care must be taken that when the conical tube serving as the center electrode is pressed in, a certain material-related specific load is not exceeded, as otherwise the insulating body could be destroyed. Here, the specific external pressure on the conical tube should not be greater than the specific internal pressure on, for example, the ceramic body.

A particularly suitable material for the pick-up electrodes, which expediently allows a cylinder with an inwardly drawn edge that ends in one or more tips, is silver, as this prevents chemical attack on the initial sentence. In training the tips into which the cylinder runs must be observed, that these will respond to bending after assembling the detonator. In view of this, it is advantageous to design the tip or tips so that the bending stress over is constant over the entire cross-section. Be has proven to be possible proved the Point or the point a the shape of a triangle <u even, this baseline is equal to its Che) even more advantageous it is, however, that of the last third or fourth of the Triangle n its Gruadfläche, ie. at the point where the triangle merges into the zyltndrieobo inhalation electrode Pieces are cut off turning to the bottom line Aufdioae width is reached that the point or points on the increasing area be, areas a defined, pointfSr- e AU <gh * t4 * re Bt rg 4 edition, d & ine stronger bend nanotehr a «FnSe The entrance and the tips are emphasized exactly on the rising surfaces For further explanation of the Ertinduas. loosen the drawings serve the several presentation forums, for example and Briefly illustrate, Figure each shows a vertical section through a detonator element geali of the invention Figure 2, gives a top view of the element after education1 again, Figure 3, voranoehaulight the special purpose-built holding a contact committee * Roof Figure 1 shows the ignition element according to the invention an insulating body 1, which is advantageously made of a ceramic There is material that can be machined. PurposefulMiss the IsolierkSypor 1 has the shape of a cylinder. He- According to the invention, the insulating body 1 is now on one of its foreheads. area with one or more ascending surfaces 2 provided so that in an imaginary section along the dashedgeeichMlMa3Noderaehreye AufßttteMrper Would give the content of yramidn or beneficial Have cones, the surfaces 2 as well as those adjoining these Closing FIs 4 are shown with a dashed line Metal layer 5 provided. In this way it will be as above thinks that it is possible to form the layers of the Metsllfilme so that the metal film on the surfaces 2 is relatively thin on the Butt 6 and the anachlieasenden surfaces 4 are stronger is, the metal film only needs up to the points 7 to extend. The insulating body 1 also has a central hole the calibration tapers in the direction of arrow 9. In the hole 8 becomes a central electrode, in its upper one Part also conically shaped. Tube 10 inserted, des- senVerjüngung also runs in the direction of arrow 9 As the figure measures, the equicity of hole a is not evenly over its entire length, but in its upper part, ie approximately from the point 11, more than below the same. It thus corresponds to theirs. 1 covered with the metal film, the specific requirements and the requirements with regard to self-locking. The size of the cone angle depends both on the nature of the metal film and on the material of the pipe used and is in the present. Trap 5 wherein the metal film precipitates a Palladima silver government and the tube 10 made of silver or Other metals consist of the taper of the hole in your The part lying below the point 11 is considerably smaller and although for manufacturing reasons. For the same reason, the un- terte part of the bore 8, ie held approximately below the point 12 cylinfrisch. The tube 10 is designed only in its upper part with the same conicity as the metallized bore part up to the point 11 and then runs cylindrically. The securing of the pipe 10, which in and of itself holds by the self-locking, against stresses against the cone can be done in various ways. This is shown in such a way that a short piece of a second tube 13 is drawn over the lower part of the tube 10 and connected to the tube 10 by soldering or gluing. But you can also secure against displacement by omitting the Rohrstückohene 13, that the protruding end of the pipe 10 with an adhesive, e.g. B. poured on Kunatbarcbaeist or- but pulls a mandrel ring on it, which is supported against the insulating body 1.

The pick-up electrode 14 is located on the outside of the insulating body 1 in the form of a cylinder surrounding the insulating body 1. In its upper part, the pick-up electrode 14 has a radially inwardly drawn edge 15 which runs out into the tip 16, which in turn rests on the metallized surface 2. As mentioned, the tip 16 comes with a defined contact pressure on the flea 8 that the removal electrode 14 is pulled over the insulating body 1 and beaded at the points 17, this is done so that the edge 15 of the removal electrode 14 rests on top of the ceramic body 1, the tip 16 is also on the surface 2 with the desired Force on. As can be seen from FIG. 2, the cylindrical pick-up electrode 14 runs out over its edge 15 in a total of 3 tips 16. Otherwise, the reference terms correspond to figure t. as far as the relevant parts can be seen, those of Figure 1.

Figure 3 shows how from one or more of the contact tips 16, which originally have the shape of a triangle with the base line 17, small triangles are cut out at the points 18 perpendicular to the base line 17. In this way it is achieved that a greater deflection of the contact tips 16 in the vicinity of the base line 16 at which the tips in the Edge 1f Mob skip the illustrations to bia 2, takes place nd so that the tips lie exactly on the rising surfaces 2.

Claims (1)

Protection claims Protection claims Bxskxe: xRxtxxt! :: V.;. 1) Electrical «ignition element with a) on an insulating body existing metal film, which is the power supply clock electrode Metallic conductive Connects to each other and after application of the stream evaporated, characterized by such Training of the Wner a Uie den M $ t42Xv (5) load-bearing surface or Ylüohea (2) = is formed into dough or are * 2) ignition element according to claim 1, characterized in that it is maeichnet a above the imaginary line (?) ala pyramid or in front Partially cone of attached body is present 3) ignition element according to claims 1-2, thereby gekennaeiohnet) that the metal film on the dome (fi ,.) and the surfaces (4) is stronger than on the surface or surfaces (2). 4) Zundelea. ent according to claims 1-3 <gekenMeidnoet through a tapering towards dee feilea (9), ia Insulating body (1) provided central channel (8) in which as a center electrode one in the same direction partially tapering tube (10) is iwests 5) ignition element according to claim 4, characterized by such a conicity of the channel (6) that the cone in the upper part of the channel (8) is stronger than below the same. 6) Ignition element according to claims 4-5t, characterized in that the lowest part of the channel (7) is cylindrical. 7) ignition element according to claims 6, characterized by that the tube (10) is cylindrical in its lower Weil. 8) ignition element according to claims 1-7, characterized in that that over then lower. protruding from the insulating body (1) Part of the tube (10) a pipe section (13) pulled and with the Tube (10) is connected by, for example, soldering or gluing. 9) ignition element according to claims 1-8, characterized by the insulating body (1) in the form of a cylinder in position pickup electrode (14) with a radially inwardly drawn edge (15) which terminates in one or more tips (16). 10) ignition element according to Anapmch 9, characterized in that the The pick-up electrode (14) is pulled over the insulating body (1) and beaded at the points (17). 11) ignition element according to claims 1-10, characterized in that small triangles are cut off from one or more of the contact tips (16) at the points (18) perpendicular to the base line (17). 12) Ignition element according to claims 1-11 thus identified records that the contact tip baw.-sit (16) the surface or surfaces (2) with a reduced force rest.