RU54609U1 - SINGLE SCREW WASHING PUMP FOR DRILLING AND REPAIR OF WELLS - Google Patents

Abstract

The utility model relates to the field of drilling oil and gas wells, and in particular to technical means for drilling and repairing wells. The objective of the utility model is the creation of high pressure developed by the pump (15-20 MPa) with its small length. The inventive single-screw flushing pump for drilling and repairing wells consists of working bodies, including a screw stator and a screw rotor located inside it with the number of teeth one less than the number of teeth of the stator, suction and discharge pipes, a drive shaft mounted in bearings, and a hinge connecting the rotor and drive shaft. New in the device is that the working bodies are a multi-helical screw gerotor mechanism, with the number of rotor teeth being selected within 2-5, and the ratio of the pitch to the average diameter (C _t = T / D _cp. ) Of the screw surfaces of the working bodies is selected within 1.5-3.5.

Description

The invention relates to the field of drilling oil and gas wells, and in particular to technical means for drilling and repairing wells.

Known flushing pumps used in units for overhaul wells, as well as in mobile drilling rigs [1]. They are two or three piston (plunger) pumps. The disadvantage of these pumps is the large size and weight, as well as uneven flow.

Known single-screw flushing pump used for drilling and repairing wells and consisting of working bodies, including a screw stator and a screw rotor located inside it with the number of teeth is one less than the number of teeth of the stator, suction and discharge pipes, a drive shaft in bearings and a hinge connecting the rotor and drive shaft [2].

The principle of operation and the design of the working bodies of this pump (the rotor in contact with the rubberized stator) provides high technical and operational characteristics: uniformity of supply, optimal weight and size characteristics, the ability to pump high-viscosity liquids and gas-containing mixtures.

General-purpose single-screw pumps, manufactured according to GOST 18863-89, cover the feed ranges from 0.1 to 25 m ³ / h and pressure up to 10 kgf / m ² , which limits their use as flush pumps. The working bodies of these pumps is a screw pair with a single-start rotor and a double-start stator (kinematic ratio I = 1: 2). The disadvantage of single-screw pumps with such working bodies is the low pressure due to the small number of contact lines separating the inlet and outlet of the pump.

A possible way to increase the pressure is to significantly extend the working bodies, which is limited by the technological capabilities of manufacturing and leads to an increase in the axial dimension of the pump.

The objective of the utility model is the creation of high pressure developed by the pump (15-20 MPa) with its small length.

The problem is solved due to the fact that in a single-screw flushing pump for drilling and repairing wells, consisting of working bodies, including a screw stator and a screw rotor located inside it with the number of teeth one less than the number of teeth of the stator, suction and discharge nozzles, drive shaft installed in bearings, and the hinge connecting the rotor and the drive shaft, the working bodies are a multi-helical screw gerotor mechanism, and the number of teeth of the rotor is selected within 2-5, and the ratio the step to the average diameter (C _t = T / D _cp. ) of the screw surfaces of the working bodies is selected in the range of 1.5-3.5.

The multi-start gerotor mechanism allows to increase the working volume and the number of contact lines of the working parts of the pump.

In the inventive pump to increase the supply and pressure, the number of teeth of the rotor should be more than 1, preferably in the range of 2-5. A further increase in the number of rotor teeth is impractical due to a decrease in efficiency pump and increase inertial forces.

Another distinctive feature of the proposed pump is the shape of the helical surfaces of the working bodies, providing optimal energy performance of the pump. Maximum efficiency (reducing the length of contact lines) for a given working volume of the pump is achieved by the fact that the shape of the screw surfaces of the working bodies is selected so that the ratio of the step to the average diameter (C _t = T / D _cp. ) is within C _t = 1,5- 3,5.

The proposed pump is shown in figures 1 and 2.

Figure 1 gives a longitudinal section of the pump, and figure 2 is a transverse section along aa.

The pump consists of working bodies, including a screw stator 1 and a screw rotor 2 located inside it with the number of teeth one less than the number of teeth of the stator, suction 3 and discharge 4 nozzles, a drive shaft 5 in bearings 6 and a hinge 7 connecting the rotor and the drive shaft.

The pump is a planetary rotor machine with hydrostatic action.

The rotation of the screw rotor 2 of the pump is carried out by a drive shaft 5, driven by a hydraulic motor (not shown in Fig. 1). In this case, the special profile of the teeth of the rotor and stator forms closed cavities moving along the stator axis along the stator length, which separate the low and high pressure regions of the pumped liquid.

The inventive single-screw pump due to its small dimensions can be placed directly on the chassis of the mobile unit for repair and drilling of wells with a drive from the existing hydraulic motor on it; The pump can be applied in many industries.

Information sources

1. V.F. Abubakirov et al. Drilling equipment: T1. Directory. - M. Nedra, 2000, p. 170-176.

2. D.F. Baldenko, M.G. Bidman. Single screw pumps in the USSR and abroad. M., TsINTIkhimneftemash, 1972, p.1-14.

Claims (1)

A single-screw flushing pump for drilling and repairing wells, consisting of working bodies, including a screw stator and a screw rotor located inside it with the number of teeth one less than the number of teeth of the stator, suction and discharge pipes, a drive shaft installed in the bearings, and a hinge connecting the rotor and drive shaft, characterized in that the working bodies are a multi-helical screw gerotor mechanism, the number of teeth of the rotor being selected within 2-5, and the ratio of the pitch to the average diameter y _(t C = T / D _cp.) helical surfaces working organs selected in the range of 1.5-3.5.