DE1062774B - Contactless short-circuit device for waveguides - Google Patents

Description

The subject of the main patent 1 035 711 is a contactless short-circuit slide for waveguides, consisting from a ceramic mass with a dielectric constant of at least 1000, in which Inside no conductive elements are attached and in which the axial length of the piston is the same the broad side of the waveguide or larger is selected. As set out in the main patent, was for similar Purposes the use of pistons known, which are made of a ceramic material with a DK of z. B. 100 exist and should act as a capacitive shunt. These known pistons consist of several concentric, cylindrical ceramic parts, the inner surfaces of which are metallized, while on the other hand their wall thickness is chosen to be as small as possible in order to achieve a large capacity. in the In contrast, the short-circuit slide according to the main patent is designed so that it is not as capacitive shunt is used, but causes a total reflection of the incoming waves and themselves therefore behaves similarly to a metallic piston. The electrical length of the piston is one Multiple of the wavelength.

The present invention provides that the subject of the main patent forming Short-circuit device is used as a static termination in a waveguide, in particular as Wall bushing, or in the case of a rotatable closing body, e.g. B. for the rotating scanning probe a test lead.

If, for example, a rectangular hollow pipeline is to be closed off, a body 3 ' made of a ceramic mass of very high DC (FIG. 1) can be used in this line 1 according to the invention. This ceramic body does not need to completely meet the cross-section of the hollow tube; For example, as shown in FIG. 1, a gap s can remain between the closing body 3 ' and the hollow pipeline, which gap can be up to 5% of the length. The larger the air gap between the body and the pipe wall, the larger the length of the closing body should be.

Furthermore, a ceramic mass according to the invention can be used, for example, to lead out, as illustrated in FIG. 2, a conductor 2 carrying a direct voltage in an insulated manner through a metallic wall 1 ' , without short waves from one to the other through the bushing thus formed Page. In this case the

electrical length —j = - must be large compared to Ve

of the wavelength used, namely the greater, the smaller the high-frequency losses of the ceramic mass 3, which are characterized by tg δ.

Contactless short-circuit device
for waveguides

Addendum to patent 1,035,711

Applicant:
Dipl.-Ing. Georg Spinner,
Munich 2, Linprunstr. 94

Dipl.-Ing. Georg Spinner, Munich, has been named as the inventor

The invention is also applicable to a rotatable closure body. Thus, Fig. 3 shows in a schematic Representation of the structure, known per se, of a measuring line 7 with a circumferential scanning probe 8, in which the usually made of metal drum body 4 according to the invention from a ceramic Mass with very high DK can be produced in order to excite vibrations in the Gaps formed between the metallic outer housing 1 ″ and the rotating measuring drum avoid.

Finally, FIG. 4 illustrates what is known as a rotary coupling, as is commonly used in order to be able to mechanically rotate two parts of a coaxial line relative to one another. According to the invention, the coupling parts 5 and 5 ' consist of a ceramic material of very high DK, these two parts slide on each other and the sliding ability is expediently achieved by a lubricant, such as. B. Gtyzerin, is increased. Likewise, the two abutting parts of the inner conductor can be bridged by an intermediate piece, denoted by 6 , made of such a ceramic mass and can be under spring tension. This has the advantage that the two line parts to be rotated against each other are short-circuited with each other in terms of high frequency without fear of the disturbances occurring in the case of poor metallic contact, as is the case with the known metallic rotary couplings.

Claims (1)

Patent claims: 1. Contactless short-circuit device for waveguides, which consist of a ceramic mass with a There is a dielectric constant of at least 1000, inside which there are no conductive elements 909 580/286