SU878129A1 - Slit bridge - Google Patents

Description

(54) CRANKSHAFT

The invention relates to microwave radio technology and can be used in devices with waveguide, high-power transmitting circuits.

A slot bridge is known, containing two waveguide segments connected along a wide wall, fitted with a flange, two supply waveguide segments and a quarter-wave groove mating flange, in which one of the waveguide supply segments is protruding beyond the plane of the matching flange by a quarter length waves, while in the flange there is a quarter-wave recess under each i5 of the supplying segments of waveguide 1.

However, the known device has a complex structure and insufficient coordination.

The purpose of the invention is to simplify the design and improve consistency.

To do this, in a slit bridge containing two waveguide sections connected along the wide wall, fitted with a flange, two supplying waveguide segments and a 25-flange with a quarter-wave groove, in which one of the supplying waveguide segments is attached that protrudes beyond the plane of the counterflange on quarter wavelength, while in flange 30

a quarter-wave recess is made under each of the supplying waveguide segments, another supplying waveguide segment is fixed in the counter flange and a quarter-wave groove made between adjacent wide walls of the supplying waveguides is made.

FIG. 1 shows the construction of the proposed device, FIG. 2 is a cross section along A-A of FIG. one.

The slotted bridge contains two waveguide segments 1 and 2, two waveguide sections 3 and 4, a flange 5, a mating flange 6, quarter-wave grooves 7 and 8 in the flange and a mating flange.

Slotted bridge works as follows.

The cross section A-A (Fig. 2) of the articulation region of pairs of segments 1 and 3, 2, and 4 of the waveguides can be represented as the cross section of two identical rectangular coaxial lines interconnected by closely spaced parallel regions. For independent electrical connection of the segments 1 and 3, 2 and 4 of the waveguides, it is necessary that the high-frequency power from the throttle junction of the segments 1 and 2 (2 and 4) of the waveguides does not penetrate the throttle junction of the segments 2 and 4 (1 and

3). It is known that in two feeder lines, electromagnetically connected by parallel sections located at a distance of 5, the communication power in the second line Yag, when the power in the first line is determined by the expression:

I / e / 1-e,

electric length of parallel E-related connected sections of the line, K Zoe- „„ / Zo3 + Zoo - coupling coefficient,

Zpe and Zflo

- wave resistances of this double line with even and odd excitation, respectively.

Thus, choosing the geometric length of the total throttle gap

/ 2 /.

equal to I / 2 (in -t-, we get

and the mutual influence of the junction of the segments I and 3 (2 and 4) of the waveguides on the junction of the segments 2 and 4 (1 and 3) will be absent. In the construction under consideration, the bending angle of segments 1 and 2 is 5 ° and the separation from each bend E does not exceed the bcc. , 05, which simplifies the configuration of the slot bridge compared to the prototype.

Thus, by means of the device proposed, a detachable throttle connection of the output arms of the slot-hole bridge with accelerating resonators is simplified.

9, the supply segments of the waveguides are arranged parallel and close to each other: the number of vacuum-tight connections decreases, the design and adjustment of the wavy slit supply bridge is simplified, it is possible to combine the resonators 9 segments 3 and 4 and the flange 6 into a single unit.

Claims (1)

1. “Accelerators. Issue XVI, Atomizdat, M., 1977, p. 6, fig. 1.1 (prototype).