RU2653852C2 - Combined wet connector - Google Patents

Abstract

FIELD: ship building.

SUBSTANCE: invention relates to marine underwater technology, namely to the transmission of electrical energy and information streams from one closed hermetic volume to another closed hermetic volume. A combined wet connector for non-contact transmission of electrical energy from a submarine cable to an electronic underwater device and the exchange of information streams with an electronic underwater device contains a detachable magnetic circuit (1-2-3), made of two halves, one of which, together with primary winding (1), is located in the pressure seal of the submarine cable, the other together with secondary winding (3) is placed in the mating body of the through connection, which is a pressure seal of the underwater device, and contains a detachable optical communication channel.

EFFECT: invention provides a combination of advantages when operating under water non-contact transmission of electrical energy and a pin optical connector for transfer of information streams.

1 cl, 4 dwg

Description

The invention relates to marine underwater technology, namely to the transmission of electrical energy and information flows from one closed sealed volume to another closed sealed volume.

A known method of contactless charging of batteries autonomous logging geophysical instruments (RF patent No. 2338064) using transformer coupling between inductors in the instrument module and in the charge module.

Known inductive power supply system with registration of the type of battery (RF application No.2010138844), where the device remote from the inductive power source contains a secondary coil for contactless energy reception from the inductive power source.

As the closest analogue, the method of recharging the battery of an underwater object (RF patent No. 2401496) is used, in which the battery of an underwater autonomous apparatus is recharged under water while combining the primary and secondary windings of the transformer.

The closest technical solution to the proposed device is a pressure seal for non-contact transfer of electrical energy from an underwater cable to a radio electronic underwater vehicle (RF patent No. 2563578), comprising a detachable magnetic circuit made of two halves, one of which, together with the primary winding, is located in the hermetic hub of the underwater cable, the other, together with the secondary winding, is located in the reciprocal part of the hermetic inlet - the hermetic part of the underwater vehicle, with the plane of the connector of the halves of the magnetic circuit located spacers of the pressure seal connector, and the device of the mechanical tightening of the pressurized joints extrudes fluid from the space between the connector planes, for which a strip of soft water-repellent insulating material is installed on the connector plane of one of the parts of the pressure seal in the plane of the connector with the property of restoration of shape when mechanical stress is removed such as rubber.

The aim of the invention is the combination of advantages in the operation under water of non-contact transmission of electrical energy and a pin optical connector for transmitting information flows.

Figure 1 shows the combined wet connector.

The combined wet connector for non-contact transmission of electric energy from an underwater cable to an underwater electronic device and for exchanging information flows with an electronic underwater device contains a detachable magnetic circuit (1-2-3) and a detachable optical communication channel (4-5). The detachable magnetic circuit (1-2-3) is made of two halves, one of which, together with the primary winding (1) and the core (2), is placed in the underwater cable hermetic part, the other, together with the secondary winding (3), is placed in the mating part of the wet connector - pressurized underwater device or pressurized another cable. At the same time, the combined wet connector for non-contact transmission of electrical energy from the underwater cable to the underwater electronic device and the exchange of information flows with the electronic electronic underwater device is characterized in that:

- on the axis of the combined connector is placed the connector of the optical information transmission channel, consisting of two parts (4-5) located on two parts of the combined connector, and when both parts of the combined connector are connected, two parts of the connector (4-5) of the optical information transmission channel are in direct physical contact;

- a hollow ferromagnetic core is placed along the axis of the combined connector, inside of which, when connecting both parts of the combined connector, an optical channel connector is located, the hollow ferromagnetic core being covered by two magnetically connected coils, which ensures maximum mutual magnetic interaction of these coils;

- the information channel on copper conductors (6) is connected to a personal converter of the electric signal into optical (7), then the signal converted to optical goes to the connector of the optical channel (4-5);

- independent information channels (6) are connected to the transducers (8) “electrical signal - optical signal”, after which the signal goes to the optical connector (4-5) and the inverse transformation (7) is performed on the response side of the connector (4-5) “ optical signal - an electric signal ”, then after conversion the signal goes through independent information channels (9);

- the primary winding is supplied from a high-frequency converter “direct current - alternating current”, and is powered from a high DC voltage (of the order of 500-400 V), which allows transferring copper cables over a distance of several kilometers with small losses through a small cross-section line;

- the primary winding (1) is the load of a high-frequency (15-40 kHz) converter from direct to alternating current (DC-AC);

- the secondary winding (3) is connected to an AC to DC converter (AC-DC), which feeds the underwater device.

Information sources

application number2010138844

Patent No. 2,338,064

Patent No. 2401496

Patent No. 2563578

Claims (5)

Combined wet connector for non-contact transfer of electrical energy from an underwater cable to an electronic subsea device and exchange of information flows with an electronic subsea device, comprising a detachable magnetic circuit made of two halves, one of which, together with the primary winding, is located in the underwater cable hermetic hub, the other together with the secondary the winding is located in the reciprocal part of the hermetic inlet - the hermetic node of the underwater device, and comprising a detachable optical communication channel, characterized in the fact that: - on the axis of the combined wet connector is placed the connector of the optical information transmission channel, consisting of two parts located on two parts of the combined connector, and when both parts of the combined connector are connected, the two parts of the optical information transmission channel connector are in direct physical contact; - a hollow ferromagnetic core is placed along the axis of the combined wet connector, inside of which, when connecting both parts of the combined connector, an optical channel connector is located, the hollow ferromagnetic core being covered by two magnetically connected coils, which ensures maximum mutual magnetic interaction of these coils; - the information channel on copper conductors is connected to a personal converter of the electric signal into optical, then the signal converted to optical goes to the connector of the optical channel; - independent information channels are connected to the “electric signal - optical signal” converters, and the reverse transformation “optical signal - electric signal” is performed on the return side of the connector.

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