RU2090956C1 - Antenna fairing - Google Patents

Abstract

FIELD: SHF antenna-feeder devices. SUBSTANCE: invention refers predominantly to antenna housings of high-speed homing rockets. Antenna fairing is manufactured in the form of dome from ceramic shell. Ceramic shell is joined to transition frame by means of layer of sealing compound, joint frame is joined to transition frame with the aid of rollers so that each frame can move radially relative to each other. Expansions of joint frame relative to transition joint made from invar emerging as result of aerodynamic heating are compensated by presence of clearances. Difference of thermal expansion coefficients of ceramic shell and transition frame made from invar are compensated by layer of sealing compound. EFFECT: increased dynamic and static strength of antenna fairing. 2 dwg

Description

 The invention relates to the field of microwave antenna feeder devices, mainly to designs of missile head antenna fairings.

Known antenna fairings in the form of a cap made of a ceramic shell, a metal frame, a connecting ring made of fiberglass, a rubber sealing ring, while the end face of the ceramic shell is glued to the flange of the metal frame with adhesive [1]
Also known are antenna fairings in the form of a cap made of a ceramic shell, transition section, with a gasket of insulating material, a metal frame, a metal cowl ring, and the ceramic shell at the junction with the transition section is conically tapering [2]
The problem to which this invention is directed is to increase the dynamic and static strength of the antenna cone structure.

 The fact is that ceramic materials (for example, quartz ceramics) are poorly consistent in their properties and thermal expansion coefficient (CTE) with ordinary metals. Under conditions of high-speed flight, significant temperature gradients arise, which lead to the destruction of the ceramic shell due to the thermal expansion of the metal frame, in addition, vibrations, shock and inertial loads act on the fairing, while the antenna fairing must be airtight.

 A known way to increase the dynamic and static strength of the antenna cowl structure is to use special alloys (for example, Invar) with KTR as the material of the frame, close to the KTP values of the ceramic shell material. These alloys have a high cost and are difficult to process; at the same time, it is not possible to fully match the materials of the ceramic shell and the metal frame in the temperature range of the working temperatures with the KTP.

 In FIG. 1 shows a General view of the antenna fairing of a rocket; figure 2 enlarged shows the attachment site of the ceramic shell of the antenna fairing to the butt frame of steel.

 An antenna cowl is proposed in the form of a cap made of ceramic shell 1, a transition frame from Invar 2, a heat-shielding ring made of fiberglass 3, unlike the prototype, a butt frame made of steel 4 has an annular fork groove, and a transition frame from Invar is connected to the cone-shaped tapering part of the ceramic shell by a layer sealant 5, the transitional Invar frame is connected to the butt frame of steel by rollers 6, the rollers in the frames are installed with a gap, which makes it possible to move one frame one relative to another, for decoupling the butt frame made of steel with the transition frame from the Invar, having different KTP, their connection is made with a gap of 7, for mating with the body of the rocket, studs 8 are provided.

 As can be seen from the design description, the ceramic shell has an elastic, “floating” connection due to the sealant layer 5. The tightness of the antenna cowl is additionally ensured by the sealant layer 9 and the rubber sealing ring 10. The aerodynamic heating of the expansion of the butt frame 4 relative to the transition frame from Invar 2 are compensated by the presence of gaps, and the differences between the KTR of the ceramic shell and the transition frame from the Invar are compensated by the gap filled with sealant 5.

Claims (1)

 Antenna fairing containing a cap made of ceramic shell conically tapering at the point of docking with the transitional frame, a connecting frame and a heat-shielding ring, characterized in that the transitional frame is made of Invar, the ceramic shell is attached to it by a layer of sealant, the docking frame is made of steel, has an annular fork groove, by means of which it is attached to the transitional frame by rollers, and the connection of the two frames is made with a gap, allowing them to mutual movement in the radial direction, and their inner surfaces are covered with a layer of sealant, in addition, the heat-shielding ring is made of fiberglass and introduced a rubber o-ring.

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