RU37879U1 - DEVICE FOR INSTALLING THE MEASURING SENSOR IN THE CAVITY OF A HIGH PRESSURE VESSEL - Google Patents

Abstract

A device for installing a measuring sensor in the cavity of a pressure vessel, containing a node for fixing the sensor relative to the vessel wall, characterized in that the fixing node includes a housing containing an outer flange for attaching to the vessel wall, and an internal step-through bore for placement of electric wires connecting it a current collector of the sensor with an electric connector external to the vessel, while a set of perforated round plates made of rubber and dielectric material, for example, of fiberglass, arranged alternately in the set and pressed by means of a push sleeve to the shoulder formed in the inner bore of the housing, the diameter of the holes in the plates made of dielectric material being 25-30% larger than the diameter of the holes passed through them electrical wires, the diameter of the holes in the plates made of rubber is equal to or less than the diameter of the mentioned wires, and the total thickness of all plates made of rubber, in a compressed state, is 20-30% less more than the total thickness of these plates in a free state.

Description

Device for installing a measuring sensor in the cavity of a pressure vessel

The utility model relates to electrical engineering and can be used to mount measuring sensors in the cavity of pressure vessels.

Various means are known for installing sensors monitoring a high-pressure gas parameter (temperature, pressure, gas composition, etc.) and transmitting an electric signal 6t of the sensor by wire to a measuring or signaling device.

Known electrical connector containing internal and external contacts, an insulator located between them, the shape of the end surface of which corresponds to the shape of the mating part of the electrical connector, and elements for mounting the connector on the panel, including an insulating sleeve with a flange, the insulator is made together with an insulating sleeve in the form an elongated body in which there is a through longitudinal channel (USSR patent No. 850029, IPC H01R 13/42, publication 1981).

Known mounting unit of a cylindrical electrical connector on the panel, containing the fixing unit, made in the form of a flange with a clip and the housing of a cylindrical electric connector, on the outer surface of which a fixing element is made, and the fixing unit is made in the form of two symmetrically mounted

MPK ™ 1K13 / 42, 13/72

relative to the plane of the sash’s connector, each of which is a half-cylinder with bent lips, the case of the cylindrical electric connector is made stepwise with longitudinal grooves, the clip is mounted on the panel from the side opposite to the fixing unit fixing side, and is made in the form of a plate with a central hole, the diameter of which is smaller than the diameter housing of a cylindrical electrical connector (ASSSSR No. 1686547, IPC H01R 13/62, 1991 publication).

The task of creating the proposed utility model is to expand the arsenal of hardware used to mount the measuring sensors in the cavity of the pressure vessels, and to provide the ability to quickly replace the sensor during scheduled preventive examinations and repairs without violating the tightness of the signal transmission lines from the sensor to the measuring or signaling device.

The dryness of the utility model is as follows.

A device for installing a measuring sensor in the cavity of a pressure vessel contains a sensor fixation unit relative to the vessel wall, wherein the fixation unit includes a housing containing an outer flange for fastening to the vessel wall, and an internal step-through bore for placing electric wires connecting the sensor collector with an electrical connector external to the vessel. A set of round perforated plates made of rubber and dielectric material, for example, fiberglass, and arranged alternately in the set, is placed in the inner bore of the case. The plates are pressed by means of a pressure sleeve to the shoulder formed in the inner bore of the housing. The diameter of the holes in the plates made of dielectric material is 25-30% larger than the diameter

the electric wires passed through them, the diameter of the holes in the plates made of rubber is equal to or less than the diameter of the mentioned wires, and the total thickness of all plates made of rubber, when pressed, is 20-30% less than the total thickness of these plates in the free state.

The drawing shows the proposed device for installing a measuring sensor in the cavity of the pressure vessel.

The device contains a node for fixing the measuring sensor I relative to the wall 2 of the pressure vessel. The fixation unit includes a cylindrical body 3 with an outer flange 4 and a through stepwise internal bore 5. An arm 6 is attached to the end of the vessel 3 located inside the vessel, to which the sensor 1 is attached using the bracket 7, and a flat connector 9 is attached via the plate 8. of the connector 9 into the inner bore 5 of the housing 3, the wires 10 are fixed to the end of the housing by a bracket I. On the other side of the housing 3, a glass 12 is mounted with an electrical connector 13 to which the wires 10 coming from the connector are fastened (for example, by soldering) volume 9. A set of round perforated plates 14, 15 is installed in the inner bore, alternately made of rubber and dielectric material, for example, fiberglass, and pressed by means of the pressure sleeve 16 and pressure nut 17 to the shoulder 18 formed in the inner bore of the housing. A decompression hole 19 is made in the wall of the glass 12. An annular groove 20 is formed on the outer surface of the housing with a sealing ring 21. The diameter of the holes in the plates 14 made of dielectric material is 25-30% higher than the diameter of the wires 10 passed through them and the diameter the holes in the plates 15 made of rubber is equal to or less than the diameter of the wires 10.

When assembling the device with a pressure nut 17, a set of perforated plates 14, 15 is compressed through the sleeve 16, ensuring a tight installation of the wires 10 coming from the flat connector 9 to the electrical connector 13. After checking the tightness, the wires 10 are soldered to the flat connector 9 from one end and the other end to the electrical connector 13. The electrical terminals of the sensor 1 is inserted into the flat connector 9.

When mounting the device on the wall of the pressure vessel, the housing 3 of the fixation unit is attached to the wall 2 by means of a flange 4, and the seal of the housing is provided by a sealing ring 21.

Using the proposed device ensures the tightness of the signal transmission lines from the sensor located in the cavity with a high pressure of the gas medium to the measuring or signaling device, and the ability to quickly replace the sensor during scheduled preventive examinations and repairs without violating the tightness of the signal transmission lines from the sensor.

Claims (1)

A device for installing a measuring sensor in the cavity of a pressure vessel, containing a node for fixing the sensor relative to the vessel wall, characterized in that the fixing node includes a housing containing an outer flange for attaching to the vessel wall, and an internal step-through bore for placement of electric wires connecting it a current collector of the sensor with an electric connector external to the vessel, while a set of perforated round plates made of rubber and dielectric material, for example, of fiberglass, arranged alternately in the set and pressed by means of a push sleeve to the shoulder formed in the inner bore of the housing, the diameter of the holes in the plates made of dielectric material being 25-30% larger than the diameter of the holes passed through them electrical wires, the diameter of the holes in the plates made of rubber is equal to or less than the diameter of the mentioned wires, and the total thickness of all plates made of rubber, in a compressed state, is 20-30% less more than the total thickness of these plates in a free state.