FI89115B - FOERFARANDE FOER FAESTANDET AV EN RESONATORSTAV MOT ETT HOEGFREKVENSFILTERS VAEGG OCH HOEGFREKVENSFILTER - Google Patents

Description

1 89115

Method of attaching a resonator rod to a high frequency filter wall and a high frequency filter - Förfarande för fästandet av en resonatorstav mot ett eh högfrekvensfilters vägg och högfrekvensfilter 5

The invention relates to a method for attaching a resonator rod formed of a metal tube to a metal plate acting as one wall of a resonator housing so that the metal tube is perpendicular to the plate. A filter assembled from coaxial resonators is particularly useful in the frequency range from VHF frequencies to relatively low microwave frequencies, and especially in applications where small size and weight are not absolute requirements. The invention also relates to a filter made according to the method.

The resonator according to the introduction can be called a rod resonator or a coaxial resonator. The resonator 20 comprises a rod of conductive material, usually a copper tube, the outer surface of which is coated with a silver or silver alloy. The rod is placed in a metal housing so that it is surrounded on all sides at a distance by the conductive surface of the box. One end of the rod is conductively attached to one wall of the housing and there is a short free air gap between the other end and the surface of the housing. The length of the rod is chosen to be a quarter of the wavelength of the frequency at which the rod is desired to resonate, i.e. the structure forms a quarter-wave resonator. The signal can be introduced and applied to the resonator housing by inductive or capacitive coupling, and in practice this is done by inserting a suitable piece of coupling wire into the field of the resonator. By placing several resonator rods in the same housing, an electromagnetic coupling is created between the rods, and by utilizing the couplings 35, a filter with the desired properties can be obtained. In a filter, all resonator rods can be attached to the same housing wall, referred to as a comb-type filter. In order to provide a sufficient coupling field, the rods are usually made slightly shorter than a quarter of the wavelength and a plate or the like is placed at the open end of the rod, with which the capacitance of the head can be considerably increased. The rods can also be fastened in such a way that alternately the end of every other rod is fixed to the same wall and every end of the other rod is fixed to the wall opposite to this wall. In this case, the so-called interdigital filter. With this structure, the rods can be made close enough to each other for connection, in which case it is not necessary to use capacitance-increasing plates at the ends of the rods. However, such a filter is expensive and cumbersome to manufacture.

The filters described above have the most difficult step of attaching the re-15 sonator rod to the housing wall. Usually, the rods are attached to a separate plate, after which the structure is surrounded by a metal housing. Hereinafter, this plate is referred to as the base plate. There are at least two basic ways to attach the rod to the base plate. In Fig. 20 1, the resonator rod 1 is fixed to the metal base plate 2 so that a hole slightly smaller than the diameter of the rod is made in the base plate, the edges of which are chamfered so as to form an upward cone. A corresponding chamfer 5 is made at the lower edge of the rod 1. The inner surface of the rod is threaded 4.

The attachment of the rod to the base plate 2 now takes place by inserting the rod into the hole in the base plate, whereby the chamfered surfaces 5 of it and the rod face each other. From below, a bolt 6 is inserted into the rod, which, when twisted from its base 8, bites into the threads 4 and firmly tightens the rod 2 on the base plate 30. The washer 7 is used under the base of the bolt. Prior to mounting, a disc-shaped body 9 with a diameter slightly smaller than the inner diameter of the rod 1 is inserted into the rod 1. The disc-shaped body 9 has a hole in the middle into which a pin 11 has been inserted. The other end of the pin is threaded 13 for part of the distance.

II

3 89115 the disc 9 and the pin 11 are placed inside the rod 1, the outer surface of the rod is pressed at the disc 9, as a result of which a press connection is formed between the rod 1, the disc 9 and the pin 11. The rod is then placed in the hole in the base plate so that the chamfers between it and the rod come against each other. The pin 11 extends some distance to the opposite side of the base plate and after inserting the washer 7, the nut 12 can be screwed onto the pin 11. This provides a mechanically quite reliable attachment of the resonator rod to the washer.

10 These known fastening methods have some disadvantages. Because the filter is a high-frequency component, all conductive bodies in its electromagnetic field affect its operation. Filter-15, where a bolt or the like is placed inside the filter rod at its lower part, their effect must be taken into account when dimensioning the filter. In addition, a number of separate fastening parts are used in the known methods, which means additional work steps in the assembly of the filter. A major disadvantage of current-20 mounting methods is also that no resonator frequency preset can be performed.

The object of the present invention is to obviate the above-described drawbacks and to provide a resonator rod attachment to a washer which is very simple, requires little work, is mechanically reliable and which allows resonator pre-tuning within certain limits. The set object is achieved according to claim 1 by forming a conical beveled surface at the end of the metal tube and / or at the point 30 of the plate to which the metal tube is attached. The end of the metal tube is positioned against the surface of the plate and a compressive force is applied to the metal tube along its axis, perpendicular to the plate, the conical bevel surface converting said compressive force into a lateral force and providing a compressive and / or tamping joint between the metal tube and the plate.

4 89115

According to the invention, either the end of the resonator rod facing the base plate or the base plate is shaped in such a way that the attachment of the rod to the plate can be performed in a single step by forcing. In forcing, the end of the tube protrudes 5 sufficiently into the base plate material to provide a mechanically and electrically reliable connection. By influencing the forcing depth, the electrical length of the resonator rod can also be changed somewhat and thus its resonant frequency presetting can be performed.

10

The invention will be described with reference to the accompanying exemplary figures, in which Figure 1 shows a known resonator rod attachment to a base plate, Figure 2 shows another known mounting method, Figure 3A shows the shape of a resonator rod end in the method according to the invention, Figure 3B shows an unshaped and preformed base plate, shows a second finished joint in which the base plate is shaped in a different way, and Figure 6 shows a third joint.

Figures 1 and 2 have been described above in connection with the description of the prior art 25. Figures 3-6 use the same reference numerals as in Figures 1-2, where applicable. Figure 3A shows the shape of the end of a resonator rod used in one embodiment of the method of the invention. An inner chamfered surface 14 is formed at the end 3 of the wall 3 of the rod 1, whereby a sharp tip 17 is formed at the junction of the five-30 chamfered surface and the wall. According to the lower figure of Figure 3b, a cup-shaped recess 15 is made in the base plate 2, the diameter of which in the direction of the surface of the plate 35 corresponds to the outer diameter of the rod 1. In the immersion phase, a cup-shaped protrusion of a similar size is created on the opposite side of the plate. The depth of the immersion 15 can be chosen quite freely as desired and has an effect on the electrical properties of the resonator li, as will be explained later. Another purpose of the immersion is to assist in positioning the resonator rod 1. In the pressing step, the rod 1 is placed above the bevel surface 14 in the recess 15, whereby 5 it must be precisely positioned in the direction of the surface of the plate 2. The base plate 2 is placed against a suitable base. Positioning is especially important when numerous resonator rods are placed on the same base plate during fabrication. After positioning, a compression force F is applied to the rod as shown in Fig. 4, the direction of which is perpendicular to the plate 2. As a result of the compression, the tips 17 of the wall of the rod 1 penetrate the material of the base plate 2, push in and at the same time turn slightly outwards. This quickly and simply provides a very good mechanical and electrical connection between the rod and the base plate. By varying the depth of the embedding 15 in the base plate 2 and the compressive force F, the immersion depth of the rod 1 and thus its electrical length can be influenced, and thus the filter can be preset at this stage. The method can also be carried out using the base plate of the upper figure of Fig. 3B, in which no embeddings have been made. In this case, the positioning must be taken care of in some suitable way. When the rod 1 is pressed into the plate 2, the tip 17 penetrates the plate, pushes and possibly bends, as already described above.

25

Figure 5 shows another embodiment. No preparatory action has been taken on rod 1. Instead, a compressive force is applied to the base plate 2 to a circular area having a diameter approximately equal to the inner diameter 30 of the rod, being slightly larger than it. As a result of the compression, a cylindrical protrusion of the desired height has formed on the surface of the plate 2. The rod 1 is now pressed into a protrusion which penetrates into the tube and rests firmly on its inner wall.

Figure 6 shows a third embodiment of the joint. An inner chamfered surface 19 is first made at the end of the rod 1, whereby a tapered tip portion 21 is formed between it and the outer wall of the rod 21. A hole the size of the outer diameter of the rod is made in the base plate 2 into which the rod is inserted slightly outside the lower surface of the plate 2. A conical plug 20, e.g. made of metal-5 strip, is next inserted into the lower part of the rod, which is forced inside the rod. During the forcing, the wider part of the conical plug 20 comes into contact with the bevel surface 19 and forces its tip part 21 to bend, whereby the lower edge of the rod 1 spreads to the side. At the same time, the narrower top of the plug 20 presses the wall 10 of the rod against the edge of the opening in the base plate. This creates a good electrical and mechanical connection between the rod 1 and the base plate 2 in a simple operation.

The method according to the invention offers many advantages over known methods. Its advantages are reliability, repeatability, speed and affordability in terms of the tools required. By adjusting the depth at which the rod is pressed into the base plate, it is possible to pre-tune the high-frequency filter, because even a small change in the pressing depth substantially affects the electrical length of the rod. The invention can be applied both in the case of a single resonator and also in a high-frequency filter in which a common base plate has several resonator rods. Embodiments of the invention may be varied within wide limits while remaining within the scope of the claims.

Il

Claims (9)

A method for attaching a resonator rod formed of a metal tube (1) to a metal plate (2) acting as one wall of a resonator housing so that the metal tube is perpendicular to the plate (2), characterized in that - the end of the metal tube and / or the plate , to which the metal tube (1) is attached, a conical bevel surface (14; 19; 22) is formed, 10. positioning the end of the metal tube (1) against the surface of the plate (2), - aligning the metal tube (1) a compressive force (F), wherein the conical bevel surface (14; 19; 22) converts said compressive force into a lateral force, 15. the compressive force (F) is removed when it has provided a compressive and / or tamping connection between the metal tube (1) and the plate (2). Method according to claim 1, characterized in that the conical chamfered surface is an internal chamfered surface (14) made at the end of the metal tube, which forms an acute angle with the outer surface of the metal tube (1). Method according to Claim 2, characterized in that a plate-like recess (15) is provided in the plate (2), the diameter of which corresponds to the outer diameter of the metal tube, whereby the metal tube (1) is positioned in this recess. 30 Method according to claim 1, characterized in that the bevel surface (22) is formed by making a cylindrical protrusion (18) on the plate (2) around which the metal tube (1) is forced and whose diameter 35 is slightly larger than the inner diameter of the metal tube (1), the bevel surface (22) is formed in the area between the side surface and the top surface of the protrusion. β 89115 A method according to claim 1, characterized in that the conical bevel surface is an inner bevel surface (19) made at the end of the metal tube and the end of the metal tube (1) is placed in a hole in the plate (2) with a diameter corresponding to the outer diameter of the metal tube. ) is provided by forcing a separate conical plug (20) into the metal tube (1) so that its beveled surface comes into contact with the beveled surface (21) at the end of the metal tube. 10 A high-frequency filter, wherein the resonator rods formed of a metal tube (1) are attached to a metal plate (2) acting as one wall of the resonator housing so that the metal tubes are perpendicular to the plate (2), characterized in that between the metal tubes (1) and the plate (2) the joint is a compression and / or bulge joint. High-frequency filter according to Claim 6, characterized in that the beveled surfaces (5) formed at the ends of the metal tubes 20 (1) have penetrated the material of the plate (2). 7 89115 High-frequency filter according to Claim 6, characterized in that the walls of the 25 cylindrical protrusions (18) in the plate (2) are pressed against the inner surface of the metal tube (1). A high-frequency filter according to claim 6, characterized in that in the joint the end of the metal tube (1) 30 is placed in a hole made in the plate (2) and a conical plug (20) forced into the metal tube presses against the wall of said hole. Il 9 89115 Patentktrav