SU1162003A1 - Versions of apparatus for jointing waveguides - Google Patents

Abstract

1. A device for connecting waveguides, containing two waveguides, on each of which a flange is installed, two diaphragms made of a material with low thermal conductivity, and a choke groove, different in that in order to increase the thermal separation between the waveguides and the loss of loss SECH power, each flange is provided with a protrusion corresponding in shape to the waveguide cross-section, the end of which is located in the plane of the waveguide end, two washers and a ring located between them are inserted, which are installed with axes a gap relative to the flanges and a radial gap relative to the protrusions, each diaphragm attached to the end of the protrusion of the corresponding flange and clamped between the end surfaces of the ring and the corresponding washer, each washer rigidly connected to the corresponding flange connecting rods made from a material with low thermal conductivity, and a choke -; on the groove is formed by the inner surface of the ring and the diaphragms / J A -, - "

Description

2, A device for connecting waveguides containing two waveguides, each of which has a flange, two diaphragms made of a material with low thermal conductivity, and a choke groove, characterized in that, in order to increase the thermal separation between the waveguides and reduce the microwave power loss the flanges are provided with protrusions, while the protrusion of the first flange corresponds in shape to the cross section of the waveguide and its end is located in the plane of the end face of the first waveguide, the protrusion of the second flange has an outer surface of cylindrical of a standard shape with a diameter smaller than the external diameter of the flange, and located on the side of the end of the second waveguide, two washers and a ring are inserted between them which are installed with an axial gap 162003

rum relative to flanges and radial clearance relative to protrusions, and a sleeve, with diaphragms attached to the end of the protrusion of the first flange and clamped between the end surfaces of the ring and the first washer, the other diaphragm clamped between the end surfaces of the ring and the second washer, as well as between the end surface the protrusion of the second flange and one end surface of the sleeve mounted on the second waveguide, the end of which is located in the plane of the other end surface of the sleeve, each washer is rigidly connected with a corresponding conductive flange connecting rods made of material with low thermal conductivity, and the throttle groove is formed inner surface of the ring, venshnimi surfaces of the sleeve and the diaphragm.

The invention relates to microwave radio technology and can be used in narrowband systems when cooling equipment to cryogenic temperatures.

A connection device for cooling equipment is known, comprising a dielectric contribution located inside a waveguide section, the walls of which are made of metallized fabric lj.

HejgocTaTKOM of a known device is that it has significant microwave power loss caused by the non-uniformity of the dielectric contribution.

Closest to the proposed technical essence is a device for connecting waveguides, containing two waveguides, on. Each of which is fitted with a flange, two diaphragms made of a material with LOW thermal conductivity, and a choke coil, while the diaphragms are made in the form of tubes, covering one of the waveguides 2J.

This device does not provide sufficient thermal isolation between

waveguides due to the large cross section of the diaphragms, which becomes especially significant with a large cross section of the waveguides, for example, in the decimeter range. In addition, there are large losses of microwave power coming through the gap between the flanges into the space between the orifice plates.

The purpose of the invention is to increase the thermal separation between the waveguides and reduce the microwave power loss.

According to the first variant, the goal is achieved by the fact that in a device for connecting waveguides, containing two waveguides, each of which has a flange, two diaphragms made of a material with low thermal conductivity, and a choke groove, each flange is provided with a protrusion corresponding to the shape of the waveguide cross section the end of which is located in the plane of the end of the waveguide, two washers and a ring located between them are inserted, which are installed with an axial gap relative to the flanges and a 3 radial gap with respect to the protrusions, each diaphragm is fixed at the end of the protrusion of the corresponding flange and clamped between the end surfaces of the ring and the corresponding washer, each washer being rigidly connected to the corresponding flange with connecting rods made of a material with low thermal conductivity, and the throttle cable is formed the inner surface of the ring and the diaphragms. According to the second variant, in the device for connecting waveguides, containing two waveguides, each of which has a flange, two diaphragms made of a material with low thermal conductivity, and a throttle groove, the flanges are provided with protrusions, and the protrusion of the first flange corresponds in shape to the cross-section of the waveguide and its end is located in the plane of the end of the first waveguide, the protrusion of the second flange has an outer surface of a cylindrical shape with a diameter smaller than the outer diameter of the flange, and is located on the side of the end face and the second waveguide, introduced two washers and a ring located between them, which are installed with an axial clearance relative to the flanges and a radial clearance relative to the protrusions, and a sleeve, with one I5 diaphragm attached to the end face of the protrusion of the first flange and clamped between the end surfaces of the ring and the first washer, another diffraction clamped between the end surfaces of the ring and the second washer, as well as between the end surface of the protrusion of the second flange and one end surface of the sleeve, mounted on the second waveguide, the end of which located in the plane of the other end surface of the sleeve, whereby the washer is rigidly connected to the corresponding flange with connecting rods made of a material with low thermal conductivity, and the throttle groove is formed by the inner surface of the ring, the outer surfaces of the tulk and the diaphragms. Figure 1 is a schematic representation of the proposed device for connecting waveguides made according to the first embodiment, the general view of figure 2 is a section A-A in figure 1 034 in the figure. The device is made according to the second option, a general view } figure 4 - section bb in fig.Z. The device for connecting waveguides, made according to the first embodiment, comprises a waveguide 1 on which a flange 2 is installed, equipped with a protrusion 3, a waveguide 4 on which a flange 5 is installed, equipped with a protrusion 6, aperture 7 and 8, made of a material with low thermal conductivity, and the throttle groove 9. The protrusion 3 of the flange 2 corresponds in shape to the cross section of waveguide 1, and the end of the protrusion 3 is located in the plane of the end of the waveguide 1. The protrusion 6 of the flange 5 corresponds in shape to the cross section of the waveguide 4, and the end of the protrusion 6 is located in the plane of the end of the waveguide 4. In addition, the device contains two washers 10 and 11 and a ring 12 located between them, which are installed with an axial clearance relative to flanges 2 and 5 with a radial clearance relative to the projections 3 and 6. Aperture 7 is fixed, ( attached or glued) on the end surface of the protrusion 3 of the flange 2, and the diaphragm 8 is fixed on the end surface of the protrusion 6 of the flange 5. The diaphragms 7 and 8 have a notch or electrically in the center. window (no metallization), the corresponding waveguide sizes have a cutout or electric window (no metallization) in the center, corresponding to the size of waveguides 1 and 4. At the same time, the diaphragm 7 is clamped between the end ovals of the ring 12 and the washer 10, and the diaphragm 8 between the face the surfaces of the washers 11 and the rings 12. The washers 10 and 11 are rigidly connected to the corresponding flanges 2 and 5 by connecting rods 13 ,. which are made of a material with low thermal conductivity. The choke 9 is formed by the inner surface of the ring 12 and the diaphragms 7 and 8, the distance between which (the height of the ring 12) is determined by design and technological considerations and is 0.5-1 mm. The diameter of the choke 9 is equal to b tn, where b is the distance between the wide walls of the waveguide; A lina waves in free space. The coupling device made according to the second embodiment, co5, holds a waveguide 1 on which a flange 2 is installed, equipped with a protrusion 3, a waveguide 4 on which a flange 5 is installed, equipped with a protrusion 6, diaphragms 7 and 8, made of a material with low thermal conductivity, and the throttle groove 9. The protrusion 3 of the flange 2 corresponds in shape to the cross section of the waveguide 1, the torus of the protrusion 3 is located in the plane of the waveguide 1. The protrusion 6 of the flange 5 has an outer surface of a cylindrical shape with a diameter smaller than the outer diameter of the flange 5, and Layer on the side of the waveguide Besides, the device according to the second variant contains two washers 10 and 11 and a ring .12 located between them, which are installed with an axial clearance relative to the flanges 2 and 5 and with a radial clearance relative to the projections 3 and 6, as well as the sleeve 13. Diaphragms 7 and 8 have a cut-out or a window in the center (no metallization) corresponding to the dimensions of waveguides 1 and 4. Diaphragm 7 is fixed at the end of the protrusion 3 (welded or glued) and clamped between the end surfaces of the washer 10 and the ring 12, diaphragm 8 sandwiched between face surfaces The rings 12 and washers 11, as well as between the end surface of the protrusion 6 of the flange 5 and one end surface of the sleeve 13 fixed on the waveguide 4, the end of which is located in the plane of the other end surface of the sleeve 13. The washers 10 and 11 are rigidly connected with the corresponding flanges 2 and 5 by connecting rods 14, which are made of a material with a low thermal conductivity. The throttle groove 9 is formed by the inner surface of the ring 12, the outer surfaces of the sleeve 13 and the diaphragms 7 and 8. The distance between the diaphragms 7 and 8 (the height of the ring 12) is L / 4, the inner diameter of the ring 12 is equal to L + 2 / h, where B is the distance between the wide walls of the waveguide; - wavelength in free space; h is the width of the coaxial part of the choke groove 9. The device for connecting the waves works in the following way. The diaphragms 7 and 8 are made of a dielectric material with a low thermal conductivity on which a thin layer of metal is deposited, which has a high adhesion to this material. For example, a metallized lavsan film of grade PET-OA TU 6-05-1579-78 or a metallized fabric (article 21-926) can be used. The connecting rods (13 for the first option, 14 for the second) are also made of a material with low thermal conductivity, for example, steel Kh18N10T GOST 5632-72, glass fiber textolite of the brand CBAM-ERS TU 301.4362-65 or titanium alloys VGZ-1, BP16 GOST 19807- 74. In addition, there is an air gap between the diaphragms 7 and 8, which is an effective thermal insulator. The heat flux when passing from waveguide 1 to waveguide 4 will be greatly attenuated as it encounters elements with high thermal resistance in its path. The losses of the microwave power in both versions of the device for connecting the waveguides are reduced compared with the prototype due to the fact that the throttle groove 9 is made closed. Thus, in both embodiments, the device for connecting waveguides realizes the air insulation between flanges 2 and 5, while the flanges 2 and 5 are interconnected by structural elements with low thermal conductivity and the throttle groove 9 is made closed, which has reduced heat passed by the adapter while reducing microwave power loss. With an increase in the cross section of the waveguides 1 and 4, the power of the heat flow passed by the device increases much more slowly than in the device prototype. For example, when the waveguide is 292-146 mm in cross section, the first version of the transition device reduces the power of the heat flow passing through it by 5 times compared with the prototype. To further reduce the power of the heat flow, it is possible to increase the radial dimensions of the throttle groove 9 (). The advantage of the second variant of the device for connecting waveguides is smaller radial dimensions.

1162003 / I- / I

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Claims (2)

1. A device for connecting waveguides, containing two waveguides, each of which has a flange, two diaphragms made of a material with low thermal conductivity, Fig. 1 of the flange and is clamped between the end surfaces of the ring and the corresponding washer, each washer being rigidly connected to the corresponding flange by connecting rods made of material with low thermal conductivity, and the throttle groove is formed by an internal 2. A device for connecting waveguides, containing two waveguides, each of which has a flange, two diaphragms made of a material with low thermal conductivity, and a throttle groove, characterized in that, in order to increase thermal isolation between the waveguides and reduce microwave power loss, the flanges are provided with protrusions, while the protrusion of the first flange corresponds in shape to the cross section of the waveguide and its end face is located in the plane of the end face of the first waveguide, the protrusion of the second flange has an outer cylindrical surface shaped with a diameter smaller than the outer diameter of the flange, and located on the side of the end of the second waveguide, two washers and a ring located between them are inserted, which are mounted with an axial clearance relative to the flanges and a radial clearance relative to the protrusions, and a sleeve, while it is made of diaphragms mounted on the end face of the protrusion of the first flange and sandwiched between the end surfaces of the ring and the first washer, another diaphragm is sandwiched between the end surfaces of the ring and the second washer, as well as between the end surface of the protrusion of the second flange and the end face of the sleeve mounted on the second waveguide, the end of which is located in the plane of the other end surface of the sleeve, each washer rigidly connected to the corresponding flange by connecting rods made of material with low thermal conductivity, and the throttle groove is formed by the inner surface of the ring, the crown surfaces of the sleeve and apertures.