SE430723B - PROCEDURE AND DEVICE FOR ASTADCOM A WELL-DEFINED AND ELECTRICALLY CONDUCTIVE BRIDGE BETWEEN TWO POLE CROPS - Google Patents

Description

& “2Û2719-4 PRIOR ART Electric igniters or detonators of the kind mentioned are previously known, for example through the Swedish patent 77.04435-2. In the element belonging to the igniter, said bridge must have a relatively small mass in order to achieve a desired speed in the igniter. The bridge is then mechanically anchored not only in the pole bodies but also in the insulating body in order to obtain a large mechanical strength for the bridge as such with its associated attachment points in the pole bodies.

It is then essential that the bridge can be assigned a predetermined mass so that the exact electrical resistances and heat generation values obtained in the bridge can be predetermined with great accuracy.

The determination of the exact resistances is the basis for calculating the amount of electrical energy required for the triggering of the detonator or equivalent, the heat development in the bridge, time course, etc. that shall apply to the current construction case.

In the case of associated types of detonator manufacturing or equivalent manufacturing, it has been proposed to first coat the entire flat surface, which preferably consists of a finely ground end of the element, with the material used in the bridge and its connections. In the material layer thus covering the entire surface, certain parts of the layer have been laser cut out so that one or more bridges with associated connection points in the pole bodies have been formed. The electrically conductive material has been made of suitable metal which has been deposited on the flat surface in a suitable manner, for example by evaporation, sputtering or the like.

The material can consist of metals of various kinds that can be applied in one or more layers on the flat surface and consist of chromium, chromium alloy and / or gold or equivalent.

DESCRIPTION OF THE INVENTION TECHNICAL PROBLEM The use of lasers in connection with the profiling of the bridges and connections in question means that a relatively very complicated equipment must be used, which in turn 8: 202719 ~ 4 3 entails a relatively complicated manufacture which also requires large investments. The technology used so far therefore has its limitations.

THE SOLUTION The main object of the present invention is, inter alia, to solve the problems stated above and what can then mainly be considered characteristic of the Jet new procedure according to the invention is that the element together with a number of similar elements is placed in the elements corresponding to the herb. in each fixture is so degradable in its associated recess against the action of a spring force that its flat surface coincides with a common surface, preferably an upper surface, of the fixture, that Pen mask having selected portions in said recesses in the fixture resistable through holes with predetermined configurations are placed on a common surface of the fixture, and that the bridges and their connections to the polar bodies forming material, such as gold, chrome, Lrom readings, etc., are deposited on the flat surfaces of the elements via the ¿enom¿ end holes in the mask, the configurations being chosen so that nänia bridges and connections are formed.

What can essentially be considered to characterize an anorene for the implementation of said method is that it comprises a fixture which is provided with a number of recesses which are respectively arranged. to receive an element of said kind, that the fixture is designed or is cooperable with one or more spring means which for each element provides a spring force, against the action of which the element is slidable in its associated recess so that its flat surface coincides with a common and orifices located on the surface of the fixture, that it also comprises a mask which is arranged to be applicable with its surface to said common surface of the fixture, that the mask is made with holes through which are opposed selected portions in the respective recess on the fixture. The mask is placed on the common surface, and that each hole is made with a configuration corresponding to the bridge and its connections on the pole bodies on the respective elements so that the bridges and connections are applicable by depositing the Get bridges and the connections bilßanñe. 81202719- 4 material, eg gold, chrome, and / or chrome alloy infer, etc.

In further developments of the inventive concept, building details for the anoräning are specified in more detail. In doing so, special care is taken with how the mask or cover plate is to be designed with its associated holes and applied to the fixture. The configurations of the holes through the holes are further specified, as well as the spring (s) to be arranged at the fixture in question.

'BENEFITS.

Despite the simple construction of the new structure, one and the only possible method for producing metal bridges on the corresponding types of elements, bridges with a markedly small spread are obtained with regard to the physical properties mentioned in the introduction. The reproducibility is good despite the relatively simple manufacturing method and the edge sharpness is very good on the metal bridges finally obtained on the elements. The slab or cover plate can be produced in a manner known per se by the so-called electroforming, which contributes to low production costs despite the great accuracy obtained. It is thus prepared that the igniter can be used as an electric igniter for electronic spark plugs, electric propeller screws, etc. {DESCRIPTION OF THE DRAWINGS Presently proposed embodiments of a method and a pinion according to the invention will be described in the following below with reference to the accompanying long drawings where shows an element of a kind known per se in an electric lighter placed in a fixture belonging to the new device, to which partly a mask for enabling the deposition of a metal bridge and its associated connections, and partly a spring plate for providing a resistance for the element placed in the fixture, co mo ro -: | -§ * ol 4: - figure 2 in horizontal section shows the element and the fixture according to figure 1, and the metal bridge with the associated connections at the element's pole bodies is shown indrekkaäe, figure 3 in horizontal view shows a new method at Get and the new anoräning utilized mask with a number of through holes, through which the material of the bridges and connections is eponymous, for 4 l longitudinal section and enlarged in relation to figure 3 shows the design of a through hole, and figure 5 in horizontal view shows an example of the configuration of the respective hall in the mask according to Figure 3.

The electric igniter or electric lighter, in which the invention is intended to be used, is assumed to be known per se and can hereby be referred to in the Swedish patent. The igniter or device further comprises an element 1 having first and second electrically conductive pole bodies 2 and 3, respectively. The element shown in the figure is of the type in which the first pole body is coaxially arranged inside another pole body 3. However, the invention is not limit to this arrangement for the polar bodies. These are made of electrically conductive material and are applied in the various applications for the different polarities. An insulating body 4 of non-electrical material is arranged between the polar bodies, which has a substantially coefficient of volume expansion as the material in the polar bodies. In Figure 2, the end faces of the pole bodies and the insulating body are indicated by 2a, 3a and 4a, respectively. The mentioned end surfaces are ground with great accuracy and are part of a common, preferably flat surface. At this flat surface a metal bridge with associated connections shall be arranged which in Figure 2 are indented and indicated by 5, 6 and 7, respectively. In accordance with the above, the bridge shall have a predetermined mass and the end connections 6 and 7 of the bridge shall be be designed so that a reliable anchoring precedes the end surfaces 3a and Qa, respectively, of the first and second poles 8.2102i719 ~ 4 bodies. The bridge is then intended to conduct a current from the first yolk body to the second pole body, or vice versa, in connection with polarity connections to the first and second pole bodies from a source of electricity not shown here. The bridge must furthermore be designed in such a way that it generates heat when conducting an electric current of a predetermined size, by means of which an ignition charge or equivalent charge not shown here is to be initiated. A lapse of time can then be built into the initiation to the extent that the bridge develops its initiating heat in a shorter time for a larger current and vice versa in a longer time for a lower current. According to Figure 1, the element has an outwardly cylindrical part 1 'and a part projecting therefrom which is included in the first pole body 2. A fixture 8 is provided with a number, preferably a larger number, of recesses 9. In the respective recess is an element which can be lowered and the recess shows an inner shoulder surface 10 against which a lower surface 1a on said circular part of the element abuts when the element is completely lowered in its associated recess 9 in the fixture. However, the recess also has a tapered part 9a which extends through the goods of the fixture to the underside Ba of the fixture. The part of the first pole body projecting from the cylindrical part of the element is intended to extend through said tapered hole part 9a and out, below said fixture lower surface 8a with a part 2a. The fixture is then provided with an upper surface 8b which is flat similar to the lower surface 8a of the fixture. The recess in the fixture is further designed so that the flat end surface of the element composed of the end surfaces 2a, 3a and 4a coincides with the upper surface 8b of the fixture and in this position, as shown in figure 1, the part 2a of the first pole body slides down past the lower surface 8a .

A mask or cover plate 11 is applied to the upper surface 8b of the fixture, the lower surface 11a of which abuts against the upper surface Bb of the fixture. Against the lower surface 8a of the fixture there is correspondingly a spring disc 12; which in the case shown consists of a metal spring disc with individual springs 12a for the respective recesses in the fixture.

The respective individual spring 12a is intended to cooperate with the part 2a of the first pole body projecting from the fixture so that a restraining force is obtained for the element 1 lowered in the recess 9. The restraining force F tends to press the element upwards, causing the mask or cover plate to 11 is attached to the fixture pressing of the flat end surface of the element is obtained against the lower surface 11a of the mask. The spring disc itself can have a different design and, for example, consist of an elastic rubber cloth or the like. In Figure 1, the holding function of the mask against the upper surface 8b of the fixture is indicated by a holding clamp 13. The mask and the spring plate have mutual control means o between the mask and the fixture on one side and the fixture and the spring plate on the other side. Said control means have been indicated by 14 and 15, respectively.

The mask is formed with through holes 11b which are oppositely selected portions on the flat surface of the element or selected portions of the cross section of the fixture recess. Said selected portions correspond to the final horizontal configurations on the metal bridge 5 and its associated connections 6 and 7, respectively. Via said through-hole 11b are deposited in a manner known per se, for example by evaporation, sputtering, magnetronization, or the like of the material to be form the bridges and connections. As different deposition methods are assumed to be well known per se, they should not be discussed in more detail here. Figure 3 shows an example of a mask or cover plate with a number of recesses shown in detail. The design of the mask and the number of recesses can be varied depending on the manufacturing equipment used in each individual case. The mask is preferably produced by means of so-called electroforming, which is also assumed to be well known per se. In order to obtain good tolerances, the mask is further developed in layers. Figure 4 shows enlarged in relation to the Eguren 3 the design of the through hole 11b. Figure 5 shows in horizontal view the configuration of the respective through hole 11b, which configuration thus determines the final design of the metal bridge 5 'and its associated connections 6' and 7 '. The connections are substantially widened in relation to the horizontal section of the metal bridge 5 '. The extended connections are for securing a reliable attachment to the end surfaces 2a and 3a of the first and second pole bodies, respectively. Figure 4 indicates that the respective through holes 11b in the mask have a first hole portion 11b 'extending through the entire goods in the mask and a second hole portion 11b "extending through fixture portions 8c extending between the The enlarged connection parts 6 'and 7'. Said portions 8c have a height A which 'preferably well below the thickness B of the mask. Said height A may for instance be 0.025 mm. mm. The tolerances for this hole width can be made with great accuracy and constitute one or more thousandths of 1 mm.

The enlarged parts 6 'and 7' according to Fig. 5 may have circular horizontal sections and so for example the circular part G 'may have a size of 1.0 in 0.03 mm, while the circular orifice part 7' may have a size of 0.6 in 0.03 mm.

A method which utilizes the device described above for providing a well-defined and electrically conductive open bridge on a flat surface of an element included in an electric igniter can be mainly characterized by the following features. A number of elements are placed in recesses in a fixture 8. Respective elements 1 are so slidable in their associated recess against the action of a spring force F that its flat surface as in the embodiment shown is formed by end surfaces 2a, 3a and 4a on the pole bodies 2 and 3 and an insulating body 4 arranged between them coincides with a common surface Sb of the fixture. A mask 11 or a cover plate having selected portions in said recesses in the fixture or on the element opposable through holes 11b with predetermined configurations, an example of which is shown in Figure 5, is placed on the common surface 8b of the fixture. The bridges 5 and their connections 6, 7 to the material forming the pole bodies are deposited on the flat surfaces Za, 3a and 4a of the elements via said through holes * in the mask, the configurations being chosen so that said bridges and connections are formed.

The invention is not limited to the embodiment shown above as an example, but may be subject to modifications within the scope of the appended claims and the inventive concept. 82027í9 ~ 4 For example, more than one metal bridge, for example two or more, with associated connecting parts can be applied to the flat surface. Two or more bridges can also have the same connecting parts. In all cases, the anchorage secures the bridge and its connections to the pole bodies and the insulating body located between them.

Claims (9)

82-0271 9- 4 10 PATENT REQUIREMENTS Method for providing a well-defined and electrically conductive bridge (5) on a flat surface (2a, Ba, 4a) on an element (1) included in, for example, an electrical igniter, in which first and second pole bodies (2, 3) in electrically conductive material and an insulating body (4) arranged between said pole bodies and made of electrically insulating material extends into the surface, said bridge being intended to electrically connect the pole bodies and, depending on the fact that it conducts electrical energy of a predetermined size, generate heat. , by means of which initiation takes place of an igniter belonging and against or at the surface an ignition set or corresponding set, characterized in that the element (1) together with a number of similar elements is placed in the elements corresponding to recesses (9) in a fixture ( 8) where each element is so slidable in its associated recess against the action of a spring force (F) that its flat surface coincides with a common surface, preferably an upper surface (8b), on the fiat, that a mask (11) having selected portions in said recesses in the fixture resistable through holes (11b) with predetermined configurations is placed on the common surface (8b) of the fixture, and that a material forming the bridges and their connections to the zero bodies , for example gold, chromium, chromium alloys, etc., are deposited on the flat surfaces of the elements via said through holes in the mask, the configurations being chosen so that said bridges and connections are formed. Device for carrying out the method specified in claim 1 for providing a well-defined and electrically conductive bridge (5) on a flat surface (2a, 3a, 4a) on an element (1) incorporating, for example, in an electrical igniter, in which first and second pole bodies (2, 3) in electrically conductive material and an insulator body (4) arranged between said pole bodies and made of electrically insulating material extends into the surface, the bridge being intended to electrically connect the pole bodies and depending on whether it leads electrical energy of a predetermined size to generate heat, by means of which initiation takes place of an igniter belonging to and on or near the surface ignition set or corresponding set, characterized in that it comprises a fixture (8) which is provided with a number of recesses. (9) which are respectively arranged to receive an element (1) of said kind, that the fixture is designed or can be cooperated with one or more spring means (12) which for each element are provided. a spring force (F), against the action of which the element (1) is slidable in its associated recess so that its flat surface coincides with a common surface located at the mouths of the recesses on the fixture, that it also comprises a mask which is arranged to be applicable with its lower surface (11a) against said common surface (8b) of the fixture, that the mask is made with through holes which are opposed selected portions on the respective recess on the fixture when the mask is placed on the common surface (8b), and that each hole (11b) is made with a configuration corresponding to the bridge and its connections on the pole bodies of the respective elements so that the bridges and connections are applicable by depositing the material forming the bridges and connections, e.g. gold, chromium and / or chromium alloys, etc. . Device according to claim 2, characterized in that the mask (11) consists of a cover plate provided with said through hole (11b) which is made in a manner known per se by means of electroforming. 4. Device according to claim 2 or 3, characterized in that the mask or cover plate at the position of the respective bridge has a thinly remaining portion (8c) in relation to the total wall thickness (B) of the mask or board, in which a walking hollow part (11b ") for the longitudinal length of the bridge extends. 5. Device according to claim 4, characterized in that the width (C) of the continuous hole part is made with tolerances which constitute one or more thousandths of a millimeter. Device according to one of Claims 2 to 5, characterized in that the respective hole configuration comprises two extended parts serving as the connecting parts (6 ', 7') of the bridge at the ends of the bridge, and the extended parts extend through the entire goods of the mask. so that when depositing the material in question, they assume a higher height above the flat surface (2a, 3a, 4a) than the bridge. Device according to claim 6, characterized in that the widened parts íö 'and 7') are circular and that the first widened part (6 ') preferably has a larger area than the second widened part (7') . 82021719- 4 12 Device according to any one of claims 2-7, characterized in that it comprises a spring plate (12) arranged on the underside (8a) of the fixture which carries individual springs (12a) for each recess. Device according to any one of claims 2-8, characterized in that the respective recess in the fixture comprises an inner shoulder surface (10) or edge, against which the element (1) rests when it assumes its action against the action of the spring force (F ) depressed position in the recess, and that the recess is assigned a height extension corresponding to the height extension on a circular part (3 ') of the element, and the flat surface of the element constitutes an upper end surface which in said depressed position of the element is flush with the upper surface of the fixture and the lower surface of the mask as the latter abuts against said upper surface of the fixture.