RU193825U1 - COAXIAL CONNECTOR FOR ELECTRIC CONTACT OF THE IONIZING RADIATION METER - Google Patents

Abstract

The utility model relates to the field of nuclear instrumentation. The coaxial connector is designed for ionizing radiation detection units used as part of systems and instrument complexes at facilities with nuclear power plants, as well as at other facilities related to the receipt, processing and use of radioactive materials. The coaxial connector comprises a coaxial central cylindrical conductor interacting with the anode and an outer collet conductor interacting with the cathode. The outer conductor is made in the form of a through collet 1, equipped with limiters of axial movement of the meter body. In the continuous part of the collet 1 is placed an insulator 2 made of a ring of heat-resistant material. The ring of the insulator 2 is limited from movement in the collet 1. The central cylindrical conductor is made in the form of a cup 3, equipped with a shank 5. The shank 5 is placed in the hole of the annular insulator 2 and serves to ensure the alignment of the conductors and for electrical connection by the electronic part of the detection unit. In the cavity of the glass 3 is placed an elastic collector element 4, one end fixed to the bottom of the glass 3, providing electrical contact with the anode of the counter. The petals 7 of the collet 1 are fixed in the pressed position by the nut 8 and the lock nut 9. The technical result from the application of the proposed utility model is to expand the arsenal of technical means for connecting the ionizing radiation counter to an electric circuit with an extension of the counter's useful life. 8 s.p. f-ly; 1 ill.

Description

The utility model relates to the field of nuclear instrumentation. The coaxial connector is designed for ionizing radiation detection units used as part of systems and instrument complexes at facilities with nuclear power plants, as well as at other facilities associated with the receipt, processing and use of radioactive materials.

Known electrical connector meter according to patent GB No. 2338730 in the form of a metal tube, the disadvantage of which is the rigid installation of the meter, which can lead to its destruction during vibration and side loads, which ultimately leads to unreliability of the device.

Known coaxial connector according to the patent of Russian Federation No. 151741 U1, containing coaxial cylindrical conductors and collet cylindrical conductors, as well as a sleeve that prevents axial movement of the conductive elements, which can lead to the destruction of the contact element of the counter during lateral load or vibration, and, therefore, to low reliability of the device.

Known signal transmission unit, including a coaxial connector, according to the patent of Russian Federation No. 2649652 C1, comprising a central cylindrical conductor for interacting with the counter anode and an external collet conductor for connecting to the cathode, insulating elements, a clamping device. A disadvantage of the known device is the rigid connection of the central contact of the counter (anode) with the conductor, which can lead to the destruction of the counter under mechanical or thermal effects.

The task to which the proposed utility model is aimed is to increase the reliability of the device by reducing the influence of external destructive mechanical and thermal influences on the meter (primary transducer type SI28, SI502, etc.) as part of the detection unit, and therefore increase the reliability of flow detection ionizing radiation.

The technical result from the application of the proposed utility model is the expansion of the arsenal of technical means for connecting the ionizing radiation counter with an electric circuit and the electronic part of the detection unit with an extension of the life of the counter.

The specified technical result is achieved in that the coaxial connector for electrical contact of the ionizing radiation counter comprises a coaxial central cylindrical conductor interacting with the anode and an external collet conductor interacting with the cathode, an insulator and a clamping clamp device. The central cylindrical conductor is made to compensate for the deviation of the counter anode from the longitudinal axis. the outer conductor is made in the form of a through collet equipped with limiters for the axial movement of the meter body, and the insulator is made annular of heat-resistant material, and is placed in the continuous part of the collet.

The central cylindrical conductor is made in the form of a cup equipped with a shank, the shank is placed in the hole of the annular insulator and serves to connect to the electric circuit, and in the cavity of the cup there is an elastic collector element fixed at the bottom of the cup with one end, providing electrical contact of the conductor with the counter anode.

The elastic collector element is made in the form of a cylindrical compression spring, the turns of which at the end interacting with the anode are made in the form of a conical spiral facing the inside of the cylindrical part of the spring.

The elastic collector element is made in the form of at least two leaf springs, the ends of which interacting with the counter anode are bent outward.

The elastic collector element is made in the form of a packing of a thin conductive wire filling the cavity of the glass of the central conductor.

The continuous part of the collet is equipped with an electrically conductive element for connection to an electrical circuit.

The locking clamping device is made in the form of a nut and a lock nut, the thread of which interacts with a thread made on the outer surface of the continuous part of the collet.

The inner part of the locking petals of the collet is equipped with stops for supporting the meter body.

The clamping nut is made with an inner cone to provide a preload on the locking petals of the collet.

The utility model is illustrated in the drawing.

The figure shows a longitudinal section of a coaxial connector.

The connector contains a coaxial group of two insulated conductors intended for installation in the housing of the detection unit. The connector provides an electrical connection between the ionizing radiation counter and the electronic part of the detection unit. The central conductor of the connector is designed to interact with the anode of the meter, the outer peripheral conductor is designed to interact with the meter body, which is the cathode, and, at the same time, for mechanical fastening of the meter. The outer conductor is made in the form of a through collet 1. In the continuous part of the collet 1 there is an annular insulator 2, limited from axial movement in the collet by an internal ledge, interference fit, pin or other known method. The insulator 2 is made of heat-resistant material, in particular ceramics, fiberglass, which protects the meter from temperature effects.

The hole of the insulator 2 provides alignment and joint fastening of the collet 1 and the Central cylindrical conductor. The Central cylindrical conductor is made in the form of a glass 3, with a current-collecting element 4 placed in the cavity and a shank 5 placed outside on the bottom of the glass 3 in its blind part. The shank 5 passes into the hole of the insulator 2 and provides an electrical connection of the counter with the electronic part 6 of the detection unit. A thread is made on the shank 5.

The collector element 4 is made in the form of a compression spring of complex shape, or in the form of at least two leaf springs, or in the form of packing their thin wire filling the cavity of the glass 3.

A cylindrical spring is fixed at one end to the bottom of the cup 3, its second end interacts with the counter anode. Spring turns interacting with the anode are made in the form of a conical spiral facing the inside of the cylindrical part. Thus, the current-collecting element 4 in the form of a spring has a conical spring end facing the inside of the cylindrical part and provides electrical contact with the counter anode.

Flat leaf springs are also fixed at one end of the cup 3 at one end, and their second end is bent outward and provides an electrical connection to the counter anode.

Wire packing occupies the cavity of the glass 3, providing contact with the anode of the counter and the transmission of electrical impulses to the glass 3 of the Central conductor.

The execution of the collector element 4 of the Central cylindrical conductor elastic provides a significant reduction in lateral loads on the anode of the meter under external mechanical stress and compensates for its deformation during thermal stress.

The collet 1 of the external contact with its locking petals 7 interacts with the meter body. On the inner surface of the petals made stops for the meter body. The axial movement of the counter in the connector is limited by these stops. On the outer surface of the continuous part of the collet 1, a thread is made along which the nut 8 moves, compressing the fixing petals of the collet 1. A lock nut 9 is used to fix the position of the nut 8.

The nut 8 has an inner cone for reliable crimping of the petals of the collet 1. To the collet 1 is attached a plate conductor 10, designed to be connected to the conductor of the electrical circuit, providing electrical connection with the electronic part 6.

The device operates as follows. The counter is placed in the outer peripheral conductor, pushing the housing until it contacts with the stops on the fixing lugs 7 of the collet 1. The central contact of the counter (anode) comes into contact with the collector element 4 of the central conductor. The shank 5 of the Central conductor and the plate conductor 10 of the collet 1 are connected to the conductors of the electrical circuit. The collet petals 1 are squeezed by means of a nut 8 and fixed with a lock nut 9.

Under the influence of ionizing radiation, electrical pulses occur in the counter. When the circuit is closed, the connector provides reliable and loss-free transmission of pulses to the communication line with the recording equipment in the electronic part of the detection unit.

Thus, the use of the proposed coaxial connector provides a significant reduction in possible destructive effects on the central contact of the meter, which is fragile. The life of the meter is extended and the reliability of recording ionizing radiation is ensured.

Claims (9)

1. Coaxial connector for electrical contact of the ionizing radiation meter, comprising a coaxial central cylindrical conductor interacting with the anode, and an external collet conductor interacting with the cathode, an insulator, a clamping device, characterized in that the central cylindrical conductor is made to compensate for the deviation of the counter anode from the longitudinal axis, the outer conductor is made in the form of a through collet equipped with limiters of axial movement of the meter body the insulator, and the insulator is made annular of heat-resistant material and placed in the continuous part of the collet. 2. The coaxial connector according to claim 1, characterized in that the central cylindrical conductor is made in the form of a cup equipped with a shank, the shank is placed in the hole of the annular insulator and serves to connect to the electrical circuit, and an elastic collector element is placed in the cup cavity, fixed at one end at the bottom of the glass, providing electrical contact of the conductor with the anode of the counter. 3. The coaxial connector according to claim 2, characterized in that the elastic collector element is made in the form of a cylindrical compression spring, the turns of which at the end interacting with the anode are made in the form of a conical spiral facing the inside of the cylindrical part of the spring. 4. The coaxial connector according to claim 2, characterized in that the elastic collector element is made in the form of at least two leaf springs, the ends of which interacting with the counter anode, are bent outward. 5. The coaxial connector according to claim 2, characterized in that the elastic collector element is made in the form of a packing of thin conductive wire filling the cavity of the glass of the central conductor. 6. The coaxial connector according to claim 1, characterized in that the continuous part of the collet is equipped with an electrically conductive element for connection to an electrical circuit. 7. The coaxial connector according to claim 1, characterized in that the locking clamping device is made in the form of a nut and a lock nut, the thread of which interacts with a thread made on the outer surface of the continuous part of the collet. 8. The coaxial connector according to claim 1, characterized in that the inner part of the fixing petals of the collet is provided with stops for supporting the meter body. 9. The coaxial connector according to claim 7, characterized in that the clamping nut is made with an inner cone to provide a preload on the locking petals of the collet.

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