SU883370A1 - Device for connecting cable to down-hole instrument - Google Patents

Description

(54) CONSTRUCTION FOR CONNECTING A CABLE WITH A BOTTOM

Surf

The invention relates to a technique for geophysical surveys of wells and can be applied to instruments that are lowered into a well on a geophysical cable. A cable tension sensor is known, which includes a lever mechanism with a spring, equipped with an electric transducer and a dial indicator 1. . The disadvantage of such a sensor is that it does not exclude a cable breakage at the heads of the downhole tool when it engages. A device for connecting a cable with a downhole tool is known, comprising a housing connected to the device, two kinematically; a rotating unit connected to each other, one of which is connected by a rod to a cable, and a spring located above the rotating unit {2. Its disadvantage is that if the device gets stuck during lifting, the device does not exclude an emergency situation. The purpose of the invention is to increase reliability by preventing cable breakage when lifting the device. This goal is achieved by the fact that the known cable lug is provided with an additional spring located on the rod between the case and the main spring, and the rigidity of the additional spring is greater than the main one. The drawing shows the proposed cable lug. It contains two independent. MO rotating assembly, one of which is connected with the downhole tool, and the other (with the cable). The node connected to the downhole tool contains a casing 1 with a pressure compensator 2, a sealing ring 3, an electrical input 4, a cap nut 5 and a displacement sensor 6 The assembly connected to the cable contains a sleeve 7 with current-collecting brushes 8, a compacted rod 9, undershirt 10. Between the upper part of the housing and the inner bearing shell there are a main 11 and an additional 12 springs. There is a stop ring 13 between the springs

the rod 9 has a stop for the retaining ring 13..

The bearing 10 serves for the free rotation of the node with the downhole tool and the node with the cable 14 relative to each other. The cap nut 5 serves to connect the cable lug with the well tool. The displacement sensor 6 is mounted on an insulating base, fixed to the housing and electrically connected to the electric power house 4. On the holder 7 current-collecting brushes 8 are installed, by means of which electrical contact is made and electrically connected to the cable 14. The retaining ring 13 and the stop on the rod 9 protects the spring from overloads when the device is stuck when lifting.

Cable lug works as follows.

In the initial state, when the device is attached to the cap nut 5, the spring 11 is compressed and the stop ring 13 lies on the stop, i.e. All the load is taken by an additional spring 12, which is almost not deformed by the weight of the device. Current collecting brushes are in the middle position of the displacement sensor. The cable tension indicator on the surface indicates that there is no emergency.

When a cable bypass occurs (for example, from an instrument jam when lowering through the annulus or when the instrument reaches the bottom, or when the instrument is blown out) the spring 11 is opened, the current collection brushes 8 slide down. A signal is transmitted to the surface that the cable has started to start up .- And if no measures are taken, the current collecting brushes 8 move further downwards to break the circuit, giving a signal to the surface Emergency situation. This signal can be used in the actuator to stop the winch.

When the device is lifted, if the device is stuck, the spring 12 is compressed and the sliding brush 8 slides along the displacement sensor upwards, giving a signal that the device is stuck and a signal is transmitted to the surface. If the lift is not stopped, the contact slides further, the circuit is broken, giving a signal to the surface. The actuator stops the winch.

The proposed cable lug helps prevent accidents associated with a cable break and save up to 2,000 rubles per well.

Claims (2)

1. Pomerantz L. I. and Chukin V. G, Apparatus and equipment for geophysical measurements well testing methods. M., Nedra, 1978, p. 288, 2. USSR author's certificate number 546704, cl. E 21 to 47/00, 1977.