RU149852U1 - BLINDING DOCK DEVICE - Google Patents

Abstract

A blind docking device comprising a transition section with high-frequency connectors at the ends, with guides and articulating elements, characterized in that the device consists of two sections, in one of which a cup with a compression spring rigidly fastened at one end to the housing is mounted coaxially with one of the connectors and the second with an installation flange, the other connector is installed at an angle to the axis of the glass, and the second section is articulated with the first along the axis of the glass, and at the junction of these parts its body is equipped with a conical socket, and also tanovochnym flange, the junction reliability ensured force generated articulated objects, one of which is installed first, and the other - the second section.

Description

The utility model relates to radio equipment and can be used as a high-frequency connector in the antenna-feeder path, located in the object, which is divided according to the rules of work.

A known radio-frequency coaxial transition section comprising a housing, an inner conductor and an insulating washer, wherein the washer is made of a filled epoxy resin compound with phenolic microsphere filler, at the ends of the section there are threaded inserts for connecting cables to it (RF patent No. 82942 with priority dated November 19, 2008).

The disadvantage of the analogue is that the connectors are joined to its ends manually and also manually undocked.

As a prototype, the design of the transition section for connecting coaxial cables with connectors of the RD type is selected, having threaded ends in the form of a socket and an insert, to which coaxial cables are connected manually (see A. Epstein, Measuring Instruments of Microwaves, Publishing House "Shipbuilding" ”, L, 1965, p. 18, Fig. 1.6). The socket and insert have guide elements in the form of a conical sleeve and collet to ensure alignment of the docked cable connectors.

The disadvantage of this design is that to it, like to the analogue, cable connectors are joined manually and manually undocked. However, in some cases, it is necessary to dismember automatically without human intervention. This happens in separable rocket compartments, where, for example, an insert is installed on the structure of one compartment, and a socket is installed on the structure of another compartment, which are interconnected.

The objective of the utility model is to ensure articulation and dismemberment of a cable coaxial path installed in a separable object, automatically together with the separation of the parts of the object on which the coaxial section is mounted.

The problem is solved in that the device consists of two sections, in one of which a cup with a compression spring is rigidly mounted coaxially with one of the connectors

fastened at one end to the housing, and at the other with a mounting flange, the other connector is mounted at an angle to the axis of the glass. In this case, the second section is articulated with the first along the axis of the glass and at the junction of these parts, its body is equipped with a conical socket and an installation flange, and the articulation is ensured by the force created by the articulated objects, one of which has the first and the second sections on the other.

Each section with its flange is fixed rigidly on its object, for example, on the separated compartments of a ballistic missile.

When assembling the compartments, the connector installed coaxially with the spring cup falls into the socket of the second section and is centered by the cone along the axis of this section. As a result, there is an exact articulation along the axis of the insert and socket of these sections. The spring in the glass allows you to deviate during the docking sections and provides a reliable preload of the insert with a spring to a socket with a conical socket. The angle of the cone socket is selected so as to ensure the capture of the mating connector of the opposite section.

The essence of the utility model is illustrated in the drawing, where shown. The first section consists of: 1 - connector-insert; 2 - a glass fixed to the body coaxially with connector 1 with a screw; 3 - compression spring; 4 - the body of the first section; 5 - an adjusting flange; 6 - socket-insert. A cable, conditionally installed in the first compartment, is docked to connector 6.

The second section consists of: 7 - housing; 8 - conical bell; 9 - an adjusting flange; 10 - insert connector. The path cable installed in the second compartment is docked to connector 10.

When articulating the rocket compartments, the articulated compartments move towards each other and the insert 1 enters the conical socket 8. Due to the spring 3 and the socket 8, the first section is centered relative to the second and their exact articulation. In the docked form, the spring compresses the first section with the force to the second, providing reliable articulation of the sections. When undocking the compartments, the spring pushes the first section out of the bell of the second section, breaking up the sections.

Tests of the prototype of the proposed device showed that the device provides its tasks.

The technical result of the proposed utility model is the possibility of blind docking sections of the high-frequency path when assembling the rocket compartments and providing automatic partitioning of the path when undocking the rocket compartments.

Claims (1)

A blind docking device comprising a transition section with high-frequency connectors at the ends, with guides and articulating elements, characterized in that the device consists of two sections, in one of which a cup with a compression spring rigidly fastened at one end to the housing is mounted coaxially with one of the connectors and the second with an installation flange, the other connector is installed at an angle to the axis of the glass, and the second section is articulated with the first along the axis of the glass, and at the junction of these parts its body is equipped with a conical socket, and also tanovochnym flange, the junction reliability ensured force generated articulated objects, one of which is installed first, and the other - the second section.

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