Method for attaching resonator part

Metal working – Method of mechanical manufacture – Electrical device making

Reexamination Certificate

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Details

C029S600000, C029S025350, C029S593000, C333S202000, C333S203000, C333S234000, C072S267000

Reexamination Certificate

active

06742240

ABSTRACT:

FIELD OF INVENTION
The invention relates to a method for attaching a part to a body of a resonator, which body is made by the process of extruding. The resonator may be a portion of a resonator filter.
BACKGROUND
Air-insulated coaxial resonators are popular e.g. in radio-frequency filters at base stations of mobile communication networks because of their relatively good electrical characteristics and good manufacturability. A coaxial resonator is most often a quarter-wave resonator where one end of the resonator is short-circuited, ie. the inner conductor and outer conductor of the resonator are in galvanic contact, and the other end is open. When manufacturing a filter comprising a plurality of resonators, it has to be taken into account that the desired frequency response of the filter may require inner conductors of different lengths. In addition, it may be necessary to compensate for the change in the resonance frequency caused by thermal expansion in the resonator structure.
There are several known methods for manufacturing coaxial resonators functioning as filter elements.
FIGS. 1 and 1
a
depict a known structure viewed from the side (
FIG. 1
) and from the bottom (
FIG. 1
a
). Shown in the figures are a resonator's outer conductor
111
, inner conductor
120
, and the bottom
112
. The outer conductor and the bottom have shown in longitudinal section in FIG.
1
. They constitute a single body
110
having a quadrangular cross section and a cylinder-shaped cavity. The body
110
is manufactured by the process of milling or extruding, for example. The inner conductor is in the said cavity, attached to the bottom
112
of the resonator so that the bottom provides the short circuit between the inner and outer conductor. In this example, the attachment of the inner conductor is realized using a screw
130
extending through the bottom to the inner conductor. The inner conductor may be of the same or different material than the body
110
. In the latter case, the temperature compensation in the resonator may be realized through the choice of materials.
A disadvantage of the method appearing in
FIGS. 1 and 1
a
is that the attachment of the inner conductor takes several manufacturing stages and the attachment strength does not meet the strictest requirements. Moreover, the interfaces between the different metals in the structure may cause harmful intermodulation products when using the device.
FIG. 2
shows a longitudinal section of another known structure. The figure shows the resonator's outer conductor
211
and bottom
212
. The resonator's inner conductor has now two parts: A lower part
213
nearer the bottom of the resonator and an upper part
220
forming a continuation of the lower part. In this example, the lower part
213
of the inner conductor, bottom
212
and the outer conductor
211
constitute a single body
210
. At the bottom end of the upper part of the inner conductor there is a cylindrical hollow
221
the diameter of which equals that of the lower part of the inner conductor. Thus the upper part
220
may be pushed onto the lower part
213
as a cap. The purpose of the upper part of the inner conductor is to provide for the temperature compensation in the resonator. A disadvantage of the manufacturing method appearing in
FIG. 2
is that the attachment of the inner conductor requires a separate manufacturing stage. Moreover, in this case, too, the risk of harmful intermodulation is apparent at the boundary surface of pressing joint.
SUMMARY
An object of the invention is to reduce the above-mentioned disadvantages associated with the prior art. The method according to the invention is characterized by that which is specified in the independent claim 1. Some preferred embodiments of the invention are specified in the other claims.
The basic idea of the invention is as follows: A resonator body is manufactured by means of extrusion. In the pushing part of the extrusion machine a recess is made which is shaped like a portion of the surface of the additional object to be attached to the body. The additional object, such as a portion of an inner conductor, is inserted prior to the extrusion in the recess so that said portion of the surface of the additional object is positioned tightly against the surface of the recess and the rest of the surface of the additional object remains free. In the extrusion stage, the pushing part with the additional object is pressed against the bloom of body whereby the material of the bloom is pressed tight against the free surface of the additional object. When the pushing part is retracted the additional object remains attached to the body thus formed. The extrusion machine may have several pushing parts, whereupon several additional objects will be attached at the same time in a manufacturing process of a filter.
An advantage of the invention is that in conjunction with the manufacturing of the body part of the structure being manufactured, parts may be added to the body without separate manufacturing steps. This means savings in the manufacturing costs. Another advantage of the invention is that the joint according to the invention between the additional part and body part is stronger and more uniform than similar prior-art joints. This means higher reliability of the structure and less intermodulation at the boundary surface of the joint. A further advantage of the invention is that in the case of several additional objects the inner conductors of the different resonators may be manufactured in different lengths, if necessary, by using recesses of different lengths in the pushing parts of the extrusion machine. The additional objects to be attached to the inner conductors may then be identical, which is advantageous from the standpoint of manufacture.


REFERENCES:
patent: 4398164 (1983-08-01), Nishikawa et al.
patent: 4422236 (1983-12-01), Ware, Jr. et al.
patent: 4507631 (1985-03-01), Louet et al.
patent: 4706051 (1987-11-01), Dieleman et al.
patent: 5990763 (1999-11-01), Sipila
patent: 6114928 (2000-09-01), Smith
patent: 1 452 508 (1969-04-01), None
patent: 26 07 334 (1977-08-01), None
patent: 26 38 570 (1978-03-01), None
patent: 0 126 930 (1984-12-01), None
patent: 1174245 (2002-01-01), None
patent: WO 97/21506 (1997-06-01), None

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