SU819881A1 - Sleeve coupling for oil-filled seismic receiving devices - Google Patents

Description

(54) CONNECTING PIPE FOR OIL-FILLED SEISMOIDABLE CBS

each of which is provided with a clamping cap nut with an internal cone on the side opposite from the junction and contains a multi-contact electrical connector 2. The housing of each coupling half is made up of parts that are movable one relative to the other and are placed in the direction of the thrust bearing sleeve, and the clamping the cap nut, the movable part of the body is made with the outer cone, is spring-loaded and provided with a means for fastening the carrying cable, and the parts of the body of the coupling halves are sealed relative to Hard-hub sleeve.

B.1 filling the case of each half-coupling is composite, with parts moving one relative to another, and the presence of a spring compensates for the thinning of the protective sheath as a result of relaxation processes taking place in the material of the shell, which provides a more reliable fixing of the protective shell.

However, as a result of that. the case of each coupling half is made up of moving parts relative to another, the number of sealing places increases by more than 2 times (four sealing rings are inserted), which reduces the reliability of the coupling. The placement of additional sealing rings increases the length of the coupling, and this leads to a decrease in the reliability of the seismic mowers, as when winding the seismic mowers onto the drum, the length of the rigid part of the coupling increases the deformation of the protective sheath.

In addition, the composite housing of the half-coupling is difficult to handle, as it requires a higher class of accuracy and purity due to the mobility of its parts and the installation of sealing rings; a spring is also required for pressing the housing parts.

The aim of the invention is to increase the reliability of the coupling and simplify its design.

The goal is achieved by the fact that a coupler for oil-filled streamers with a protective sheath containing two coupling halves connected by a flare nut, each of which, on the end section on the side opposite to the butt, has a conical outer surface, two bushings with an inner conical surface covering the end the sections of the respective coupling halves with a gap in which a protective shell is placed on a part of the length are provided with two clips, each of which is mounted on a corresponding The coupling half, the coupling halves are made with a conical outer surface that expands in the direction opposite to the junction, the end part of the casing is turned out and fixed to the holder with a bandage, while the conical surfaces of the coupling halves and sleeves are made with a taper angle of 2-14 °.

In the preferred embodiment, each sleeve is integral with a longitudinal line of the connector.

The drawing shows the proposed coupling, a longitudinal section.

The coupling for oil-filled seismic streamers with a protective sheath 1 and a carrier cable 2 contains coupling halves 3 connected by a cap nut 4. In each coupling half there are sealed multi-contact plugs 5 of the electrical connector, which are coupled to the socket 6.

At the end portion 7 on the side opposite to the joint, each coupling half is made with a conical outer surface. On this site is a protective shell, the end of which

turned out and secured with a bandage 8 from a kapron thread. The bandage is placed on the holder 9, covering the sleeve 10 with a conical inner surface located above the conical surface of the coupling half. The sleeve is made of three segments, and the conical surfaces of the half-coupling and sleeve are made with a taper angle of 2-14 °. The sealing of the coupling half is provided with a rubber ring 11. The hole for pumping oil is closed

0 cork 12.

Coupling for oil-filled seismic streamers operates as follows. During towing of the seismic scythe, the oncoming counter-flow of the medium interacts with the protective sheath 1 made of a polymeric material, which is stretched from its influence, and the sheath thickness decreases accordingly. Since the end part of the shell is turned out and secured by means of a bandage 8 on the holder 9, covering the conical sleeve 10, the forces of the incident flow, stretching the protective sheath, move its end fixed part along section 7 with a conical surface, thereby compensating the thinning of the protective shell. Similarly, thinning of the protective sheath due to relaxation processes occurring in the shell material is compensated. Thus, the implementation of the coupling half with a conical outer surface, extending in the direction opposite to the joint, with a gap of 0.1-0.2 mm between the sleeve and the end section of the coupling half, ensures the operability of the coupling while reducing the shell thickness

5 to 0.2 mm.

Since the protective sheath is wedged by the opposing conical surfaces of the coupling half and the conical sleeve 10,

for ease of installation, as well as to reduce the length of the rigid part of the coupling, it is advisable to make the conical sleeve integral. In this case, the length of the coupling is reduced by a double the length of the conical sleeve.

Thus, the invention allows to ensure reliable preservation of the obtained level of compression of the walls of the protective sheath when loaded with its axial force arising during operation, since self-jamming of the walls of the protective sheath occurs due to the pressure of the fluid, which tends to pull the protective sheath out of the coupling. The relaxation processes occurring in the material of the protective sheath do not lead to a decrease in the friction forces holding the protective sheath in the coupling, since the protective sheath together with the sleeve and the sleeve moves along the conical section of the coupling half by an amount proportional to the deformation of the protective sheath due to axial forces acting on the protective sheath, which increases the reliability of the fixing of the protective sheath when exposed to significant axial tensile forces.

Claims (2)

1. Coupling coupling for oil-filled seismic receivers with protective a sheath containing two cap couplings connected with a cap nut, each of which, on the end section on the side opposite to the joint, is made with a conical outer surface; two bushings with the inner conical surface, covering the end sections of the corresponding plumes with a gap, in which a protective sheath is placed on a part of the length, characterized in that, in order to increase reliability and simplify the coupling, it is provided two clips, each of which is mounted on a corresponding sleeve, the coupling halves are made with a conical outer surface extending in the direction opposite to the junction, the end part of the casing is turned out and fixed on the holder with a bandage, while the conical surfaces of the coupling halves and sleeves are made with a taper angle constituting 2-14 °. 2. A clutch according to claim 1, characterized in that each sleeve is made integral with a longitudinal line of the connector. Sources of information taken into account in the examination 1. USSR author's certificate number 113924, cl. G 01 V 1/20, 1929. 2. USSR author's certificate number 609102, cl. G 01 V 1/20, 1978. 8 9 iO