RU2446265C2 - Telescopic mast for drilling, development and repair of oil and gas wells - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: in compliance with proposed invention, mast telescoping mechanism is made up of two-rod long-stroke hydraulic cylinder with different-direction con rod travel. Said hydraulic cylinder has its bottom provided with working fluid feed channel while its top part provided with valve for complete release of air from hydraulic cylinder inner chambers in telescoping.

EFFECT: simple design, optimum operating characteristics.

2 dwg

Description

The claimed technical solution relates to the field of engineering, in particular to mechanisms for drilling and hoisting operations in the maintenance and repair of oil and gas wells.

Known telescopic tower lifting installation for repairing wells [1]. In the known device, the tower contains the upper and lower sections of the tower and a telescoping mechanism made in the form of a winch with a cable system.

Also known mast telescopic drilling rig, which contains the upper and lower sections and the telescoping mechanism, also made in the form of a winch with a cable system [2].

Known technical solutions have a number of operational disadvantages that are associated with insufficient reliability and design complexity.

The aim of the proposed technical solution is to simplify the design, increase reliability and ensure the most optimal operational characteristics of oil and gas installations for various purposes, incorporating telescopic masts.

This goal is achieved by the fact that in the mast of a telescopic installation for drilling, developing and repairing oil and gas wells containing the lower and upper sections, the upper section being placed in the lower section with the possibility of longitudinal movement by means of a telescoping mechanism, according to a utility model, the telescoping mechanism is made in the form two-rod long-stroke hydraulic cylinder with multidirectional movement of the rods, equipped in the lower part with a channel for supplying the working fluid, and in the upper part with a valve To complete the bleed air from the hydraulic cylinder internal cavities during telescoping.

The claimed technical solution is illustrated by drawings.

Figure 1 shows a General view of a telescopic mast with a telescoping mechanism; figure 2 is a General view of a two-rod hydraulic cylinder.

The telescopic mast contains the lower section 1 and the upper section 2. The upper section 2 of the telescopic mast is placed in the lower section 1 using guide surfaces, for example, having a cross-section in the shape of a channel. This design allows for the longitudinal movement of the upper section 2 of the mast relative to the lower section 1. The mechanism of movement (telescoping) of the upper section 2 of the mast relative to section 1 is made in the form of a hydraulic cylinder 3 containing two rods 4 and 5 located in the housing 6. The housing 6 of the hydraulic cylinder 3 is made of two parts interconnected by a technological hollow sleeve 7, which allows to improve the manufacturability of the proposed design. In the lower part 8 of the hydraulic cylinder 6, a lower rod 9 is installed, equipped with a channel 10 with a hydraulic damper 11 for supplying a working fluid. The rod 9 of the hydraulic cylinder 6 is made with a through cavity 12. In the upper part 13 of the hydraulic cylinder 6 there is an upper rod 14 made with a through cavity 15. In the end part of the rod 14, an air valve 16 is connected, communicating with the cavity 15 of the rod 14. Thus, the described hydraulic cylinder 6 has cavities 12 and 15 of the rods 9 and 14, respectively, which communicate through a through cavity made in the process coupling 7. The lower rod 9 of the hydraulic cylinder 6 is connected to the lower section 1 of the telescopic mast, to the upper rod 14 to the upper section 2. These connections are made traditionally for this type of structural implementation. The hydraulic cylinder 3 can be made either plunger type (seals are carried out on the surface of the rod), or piston type (seals are carried out on the surface of the cylinder).

The proposed technical solution works as follows.

After bringing the telescopic mast into a vertical position, the upper section 2 is extended to its working position. This is accomplished by supplying the working fluid in the cavity of the hydraulic cylinder 6 through the channel 10 and the hydraulic damper 11. The air in the cavities 12 and 15 of the rods 9 and 14 of the hydraulic cylinder 6 is vented to the atmosphere by means of the valve 16. After the internal cavities of the hydraulic cylinder 6 are completely filled with the working fluid, the valve 16 closes. A sign of sufficient air bleeding is the uniform (without jerking) extension of the upper section of the 2 mast. After the extension is completed, the upper section of the 2 masts is fixed in the working position with the help of stops (not shown conditionally) and further work can be continued in accordance with the required technological process for using the telescopic mast as part of an installation for drilling, developing and repairing oil and gas wells.

The proposed technical solution allows to simplify the design of the telescoping mechanism by eliminating a significant number of structural elements (winch, cable system, etc.). The use of a two-rod long-stroke hydraulic cylinder of an original design allows ensuring the reliability and efficiency of the telescoping mechanism. Moreover, it is the proposed design of the hydraulic cylinder that provides strength stability and safety of the mechanism of extension of the upper section of the telescopic mast, eliminates additional structural elements to prevent bending of the rod in case of loss of stability from load.

Information sources

1. Patent RU 2109913, 04/27/1998.

2. Patent RU 77632, 10.27.2008.

Claims (1)

The mast is a telescopic installation for drilling, developing and repairing oil and gas wells, containing the lower and upper sections, the upper section being placed in the lower section with the possibility of longitudinal movement by means of a telescoping mechanism, characterized in that the telescoping mechanism is made in the form of a two-rod long-stroke hydraulic cylinder with multidirectional movement rods equipped in the lower part with a channel for supplying a working fluid, and in the upper part with a valve for completely bleeding air from the inside them cavities of the hydraulic cylinder in the process of telescoping.

Images