SU1352558A1 - Flange joint of waveguides - Google Patents

Abstract

The invention relates to radio engineering, increases the speed and electro-tightness of the connection of waveguides. To increase the speed of the device, the locking ring 10 is fixed on cylindrical. the surface 13 of the flange 1 and placed inside the coupling 7 with the ability to move in the direction of the axis of the waveguide pipes 3 and 4. The compression spring is made in the form of a flat ring spring 1I and is installed inside the coupling 7. The longitudinal dimension of the spring 11 is smaller than the pitch of the spiral grooves 8. On the working surfaces 12 flanges 1 and 2 are made respectively centering annular ledge 16 and the groove 17 under it. The length of the protrusion 16 is longer than the distance from the surface 12 to the tips of the pins 5. A metallized ring 18 made of an elastic material is installed at the bottom of the groove 17 to increase the electro-hermeticity. 2 3.p. f-ly, 1 ill. S

Description

The invention relates to radio engineering, namely to waveguide technology and can be used in waveguide paths of radio engineering systems for various purposes.

The aim of the invention is to increase the speed of the connection of the waveguides and increase the electro-tightness.

The drawing shows the Fland connection waveguides, General view.

The flange connection of the waveguides contains the first 1 and second 2 flanges, waveguide pipes 3 and 4, pins 5 and holes 6 for pins 5, coupling 7 with spiral grooves 8 for fastening elements 9, locking ring Yu and a flat ring spring 11. Pins 5 and the holes 6 are located on the working surfaces 12 of the first 1 and second 2 flanders. The clutch 7 is located on the dylindrical surface 13 of the flange 1, the spiral grooves 8 are made on the inner surface 14 of the clutch 7, and the styling elements 9 are located on the flange 2. The locking ring 10 is fixed, for example screwed, on the cylindrical surface 13 of the flange 1 inside the clutch 7, flat an annular spring 11 is also installed inside the coupling 7 between its end 15, facing the flange 2, and the locking ring 10. The longitudinal size of the flat annular spring I1 is smaller than the pitch of the spiral grooves 8.

The flange connection of the waveguides may also contain a center iruyush 1st annular protrusion 16, made on the working surface 12 of the flange 1 and a groove 17 on the working surface 12 of the flange 2. The length of the centering annular protrusion 16 is longer than the working surface 12 to the peaks of the pins 5. To the bottom of the groove 17, a metallized ring 18 made of an elastic material, for example made of rubber, with a metal braid 19 placed over it can be installed.

The flange connection of the waveguides works as follows.

When flange 1 moves towards the flange 2, the centering annular protrusion 16 enters the groove 17, the flange 1 and 2 are dentary. At the far-gg surface of the first flange the flanges 1 and 2 are closest to each other and are placed inside the clutch In the holes 6, fixing the rotational position of the flanges 1 and 2 with the angle of displacement in the direction of the axis. When the waveguide pipes are pressed, the compression spring turns the coupling 7 around the axis of the waveguide in the form of flat ring spring pipes 3 and 4 Common elements 9, which are included in them. Stacking flanges 1

- and 2 occurs when the clutch 7 is rotated clockwise, when the clutch with its end 15, compressing the flat ring spring 11, presses the locking ring 10 and thereby moves the flange 1 to the flange 2. Since the pitch of the spiral grooves 8 exceeds the longitudinal size of the flat ring spring 11, i.e. the value of its full,. deflection, there is a reliable connection of flanges 1 and 2 with springing at a small angle of rotation of the coupling 7, which can be done with a single movement of the hand without interception. The angle of rotation of the coupling 7, which is necessary for connecting the flanges 1 and 2, can be adjusted by screwing the locking ring 10 onto the cylindrical surface of fpanda 1. In this way, a quick

connecting waveguide tubes 3 and 4.

The fixing of the position of the flanges 1 and 2 in the joined position is carried out by the self-braking of the spiral angle of the spiral grooves 8 (five degrees).

The metallized ring I8 of elastic material is pressed by the end of the centering annular protrusion 16 to the bottom of the groove 17,

electrical contact between the flanges, 1 and 2, i.e. good electro-tightness of their connection.

Formula 1 of the invention. Flange connection of waveguides, containing the first and second flanges fixed on the ends of the waveguide tubes, pins and holes for them, located on the working surfaces of the first and second flanges, coupling

located on the cylindrical surface of the first flange and having spiral slots on the inner surface under tensioning elements located on the cylindrical surface

the second flange, a locking ring and a compression spring, which is different in that, in order to increase the speed of connection of the waveguides, the locking ring is fixed on the cylinder 313 25588

the inside of the coupling between it, the length centered with its end facing the second jaw protrusion is larger than the spherical pin tops. the springs are smaller than the pitch of the spiral grooves. 3. The compound according to claims 1 and 2, that is, that

2. The connection according to claim 1, about tl and - the goal of electrochemical testing, so that the metal-surfaces of the first and second flanged Q-shaped ring of elastic mothers are mounted on the bottom of the groove respectively the centering annular protrusion pressed against it and the groove of the secondary annular protrusion pressed against it.

Claims (2)

Claim 1. Flange connection of waveguides 4θ, containing the first and second flanges, mounted on the ends of the waveguide tubes, pins and holes for them located on the working surfaces of the first and second flanges, a coupling / 45 located on the cylindrical surface of the first flange and having spiral surfaces grooves for coupling elements located on the cylindrical surface 50 of the second flange, a locking ring and a compression spring, characterized in that, in order to increase the speed of connection of the waveguides, the locking ring mounted on the cylindrical surface of the first flange and placed inside the coupling with the possibility of movement in the direction of the axis of the waveguide tubes, the compression spring is made in the form of a flat annular spring and is installed inside the coupling between its end face facing the second flange and the locking ring, while the longitudinal the size of the flat annular spring is less than the pitch of the spiral grooves. 2. Connection according to π.1, characterized in that on the working surfaces of the first and second flanges, a centering ring protrusion and a groove for it are respectively made, while the length of the centering ring protrusion is greater than the distance from the working surface of the first flange to the tops of the pins. ⁵ 3. Connection according to claims 1 and 2, characterized in that, in order to increase the electrical tightness, a metallized ring of elastic material is installed at the bottom of the groove, pressed against it by the end face of the centering ring protrusion.