RU84911U1 - RING MILLER - Google Patents

Abstract

1. An annular milling machine comprising a housing with a connecting thread, a cutting abrasive element, flushing radial channels at the lower end and grooves on the inner and outer surfaces of the housing, characterized in that the grooves on the inner surface of the housing are parallel and perpendicular to its longitudinal axis, and The lower part of the longitudinal grooves contains support inserts rigidly connected to the housing, on which a cutting-abrasive element is fixed, and the lateral longitudinal grooves on the outer surface of the housing are made with wide yayuscheysya top. ! 2. The milling cutter according to claim 1, characterized in that the lateral longitudinal grooves on the outer surface of the housing are made inclined to its generatrix. ! 3. The milling cutter according to claim 1, characterized in that the flushing radial channels at the lower end of the housing are made curved.

Description

The utility model relates to the oil and gas industry and can be used to eliminate accidents in drilled and exploited wells by milling emergency metal objects.

Known milling cutter, comprising a housing with a bottom, a working cavity in its lower part and coaxial holes made in the bottom, a destructive cutting-abrasive element installed under the bottom of the housing (see USSR Author's Certificate N 1504329, IPC Е21В 29/00, publ. .30.08.1989). However, the known milling cutter has a low penetration value and is not sufficiently reliable in operation.

The closest to the claimed utility model in terms of technical nature and the technical result achieved using the utility model is an annular milling cutter comprising a housing with a connecting thread, a cutting-abrasive element, flushing channels at the lower end and grooves on the inner and outer surfaces of the housing (I.P. Pustovoitenko Prevention and methods for eliminating accidents and complications in drilling (Moscow: Nedra, 1987, pp. 193-195). The design of the prototype also does not provide the necessary size of penetration and reliability, due to inefficient flushing during milling of emergency objects, which leads to jamming of the tool, and insufficient strength of the housing.

The task underlying the present utility model is to increase the reliability of operation and the size of penetration.

The problem is solved in that in an annular milling cutter containing a housing with a connecting thread, a cutting abrasive element, flushing radial channels at the lower end and grooves on the inner and outer surfaces of the housing, the grooves on the inner surface of the housing are parallel and perpendicular to its longitudinal axis, and in the lower part of the longitudinal grooves there are supporting inserts rigidly connected to the housing, on which a cutting-abrasive element is fixed, and lateral longitudinal grooves on the outer surface of the housing Execute a divergent upper part.

In addition, the lateral longitudinal grooves on the outer surface of the housing are made inclined to its generatrix

In addition, the flushing radial channels at the lower end of the housing are made curved.

The technical result of the utility model is that the implementation of the grooves on the inner surface of the mill body increases the washing efficiency by the proposed method, ensures flow and cavitation turbulence, improves chip removal to the outside, thereby preventing the formation of fracture products on the cutting part and jamming of the tool.

In addition, the edges of these grooves facilitate milling of the emergency object from the outside, increase the speed of penetration. The implementation of the outer lateral grooves with an expanding upper part also facilitates the removal of chips, cement, rock destroyed by flushing fluid. The fastening of the cutting-abrasive element on the support inserts located in the lower part of the longitudinal grooves on the inner surface of the housing, provides the creation of a monolithic housing, simplifies the technology of creating longitudinal grooves on the inner surface. In the case of performing longitudinal grooves on the outer surface of the housing inclined, the cutting conditions are improved, the working life of the milling cutter is increased, and its operational reliability is increased.

Performing end flushing radial channels curved also improves the cutting conditions, makes it smooth, shockless, thereby increasing the cutting speed and durability of the milling cutter.

Preferred embodiments of the utility model are described below based on the presented drawings, where:

figure 1 presents the annular milling cutter, a longitudinal section;

figure 2 is a view of figure 1;

figure 3 is a view of B in figure 1;

figure 4 - view In figure 1.

The milling cutter includes a housing 1 with a cutting abrasive element 2 at the lower end and a connecting thread 3. On the inner surface of the housing 1, grooves 4 are made parallel to the axis of the housing 1 and grooves 5 are perpendicular to the axis of the housing. Support inserts 6 are placed in the lower part of the grooves 4, rigidly associated with the housing 1, for example, by soldering or welding.

Insert 6 is a structural element that repeats and complements the internal and external forms of the housing 1, made of a hard alloy, for example, type VK. Element 2 is fixed on the inserts 6, as on the end of the housing.

On the outer surface of the housing 1, longitudinal grooves 7 are made with an expanding upper part 8 (Fig. 3) and radial end flushing channels 9 (Fig. 4).

Ring mill works as follows. The milling cutter is lowered on the drill string to the emergency stuck pipe (drill, tubing, pump rod or round object), capturing and passing it inside. Using a drill string, the mill is rotated, creating an axial force on the mill in the direction of the emergency string. The milling cutter element 2 drills the rock and foreign metal objects around the emergency pipe and at the same time drills the emergency pipe. In this case, the internal teeth (protrusions), which are formed by longitudinal 4 and annular 5 grooves, remove adhering sludge or part of metal from the outer surface of the emergency pipe, creating a predetermined size of the external diameter of the emergency pipe for subsequent capture by a fishing tool. When milling the emergency pipe, flushing fluid is pumped through the internal cavity of the milling cutter. With the passage of fluid through the annular grooves 5, cavitation occurs. When the bursting of air bubbles on the cutting surfaces of the cutting element 2 from microblows, these surfaces are cleaned of adhering chips and improve the cutting process. Shavings and sludge are carried out through the end channels 9 and the outer longitudinal grooves 7 from the bottom up.

Upon reaching the expansion 8 in the outer longitudinal groove 7, the solution with chips and sludge spreads in the expansion cavity and leaves it up into the space between the body and the casing. Due to the expansion of 8 facilitates the exit of the solution with the sludge up.

Milling is carried out to a predetermined depth necessary to capture the fishing tool. After that, the mill is lifted to the day surface.

The proposed design of the milling cutter provides effective flushing when milling emergency objects, allows you to create a monolithic body, which ultimately increases the reliability of the milling cutter and increases penetration.

Claims (3)

1. An annular milling machine comprising a housing with a connecting thread, a cutting abrasive element, flushing radial channels at the lower end and grooves on the inner and outer surfaces of the housing, characterized in that the grooves on the inner surface of the housing are parallel and perpendicular to its longitudinal axis, and The lower part of the longitudinal grooves contains support inserts rigidly connected to the housing, on which a cutting-abrasive element is fixed, and the lateral longitudinal grooves on the outer surface of the housing are made with wide yayuscheysya top. 2. The milling cutter according to claim 1, characterized in that the lateral longitudinal grooves on the outer surface of the housing are made inclined to its generatrix. 3. The milling cutter according to claim 1, characterized in that the flushing radial channels at the lower end of the housing are made curved.