SU927962A1 - Apparatus for running cable into well - Google Patents

Description

(5) DEVICE TO DOWN THE CABLE IN THE WELL

The invention relates to the oil and gas industry, and in particular to wellhead equipment used to run a cable with devices in the process of investigating gusher wells. A device for launching a cable into a well is known, comprising a housing, a cover with a gland and a cable feeding mechanism made in the form of a piston. with tapered spring element for gripping the cable. To drive a piston with a cable, a handle with an eccentric shaft is used, which, under the conditions of the flowing well, poses a danger to working at the wellhead. It is known a device for lowering a cable into a well, comprising a housing, a lid in which a head with a gland is installed, and a cable feeding mechanism made in the form of a differential piston with a spring-loaded sealing element 23. However, such a device has a complex structure individual source of energy. The aim of the invention is to simplify the design. The goal is achieved by the fact that the sealing element is installed on the side of the larger base of the piston and is spring-loaded relative to the head, while the piston and piston spaces are interconnected. FIG. 1 shows the proposed device, a general view; in fig. 2, section A-A in FIG. 1. The cable release device consists of a housing 1 and a cover 2 into which the stuffing box 3 is screwed with a set of rubber rings 4 and metal washers 5. The bottom box 6 serves to press the rubber rings. Inside the case 1 it is mounted for movement in the axial direction a differential piston 7 dividing the internal volume of the housing into the piston and supra piston cavities. The cable 8 passing through the axial channel of the piston is sealed therein by means of the seal 9. The upward piston travel is limited by the projections 10 on the inner surface of the cover.

In the upper part of the piston 7, an elastic conical sealing element 11 is installed, which in the uppermost position of the piston 7 is pressed by a spring 12 fixed on the end of the stuffing box 3.

The over-piston and sub-piston cavities are connected by a pipeline 13 with a remotely controlled shut-off organ k, which serves to communicate the cavities with itself and with the atmosphere,

The device is installed on the lubricator 15.

The device works as follows. .

With the open valve of the wellhead fittings, the liquid from the well under pressure enters the podporschebuy cavity of the device, moving the piston 7 to the upper position. Through the remotely controlled organ 14, the piston and the supra piston cavities communicate with each other. As the pressure in the above piston cavity increases, the elastic element 11 seizes the cable 8. When the pressures in both cavities equalize, the resultant force acting on the piston 7 is directed downwards all the difference between the areas of the upper and lower parts of the piston 7 and the latter begins to move with a cable clamped by the sealing element 11.

When the piston 7 reaches the lower position, the piston cavity is hydraulically separated from the above piston, and the latter is communicated with the atmosphere. The element 11, due to the elastic properties, releases the cable 8. The piston 7 under the pressure of fluid from the well moves to the upper position relative to the cable 8, which remains in the lower position due to the excess of the friction force in the stuffing box 3 over the friction force in the seal 9.

Making a reciprocating motion, the piston 7 pulls the cable 8 into the well. When the total weight of the cable and device becomes sufficient to overcome the pushing force, by means of a controlled body T, the piston cavity is separated from the piston and communicated with the atmosphere.

In the process of free descent and lifting of the cable 8, the element 11 plays the role of an intermediate gland, the preload of which is carried out by means of the stuffing box 3 and the spring 12

After lifting the device from the well, the valve of the wellhead fittings is closed, and the sub-piston cavity communicates with the atmosphere.

Thus, the proposed device with the simplicity of design, reliability and safety in operation facilitates the descent of the device into the well. Using an elastic conical cuff as an intermediate gland significantly reduces leakage from the well.

Claims (2)

1. USSR author's certificate According to the application number, cl. E 21 B 7/00 1980. 2. US patent number 2748870, cl. 166-77, publ. 1956 (prototype).