SU43284A1 - Double acting pneumatic piston pump for deep wells - Google Patents

Description

The pneumatic pumps for deep wells are well-known with the use of a spool valve for compressed air, the stock of which is displaced by the movement of the piston rod common to the pistons.

In the proposed pump, the exhaust air is used as a working gas for aeration of the injected oil by installing an additional piston on the common pump rod for suction and supplying the exhaust air through the appropriate channels into the cavity filled with oil.

In FIG. 1 shows a longitudinal section of the pump; FIG. 2 is a cross-section of the nssap according to / - / fig. one; FIG. 3- the same for // - //; fkg 4 is the same for /// - ///; FIG. 5 the same, according to IV-IV; FIG. same for V-V; FIG. 7 - the same, according to VI-VI; FIG. 8 the same, according to VII-Vlf; FIG. 9 - the same according to VIII-VIII.

The pump is arranged and operates as follows. The two pistons 7 and / 7 and the plungers 25 and 27 are first mounted on the rod 4 and the second on the hollow rod 23. Both rods are interconnected by a coupling 27. All this, together with the corresponding cylinders and other parts, is encased in P pipes / lowers into the well, with coupling 33 pump sitting on the saddle of pump or casing pipes; this creates a hermetic fluid separation with the upper part of the well.

A compressor serving a group of wells will supply compressed air or gas to the pump; it may be heated to the melting point of paraffin; This is done both to increase air elasticity and to destroy the waxing of pipes.

Further, the pump operation cycle is described from the moment when the piston 7 is in the lower dead position, i.e. just opposite to the position shown in the drawing. The gas entering the pipe 7 through the opening F and the channel I passes between the walls of the casing 9 and the cylinder 8; gas movement is shown by a solid line with arrows. Through the spool box gas enters the cylinder 8 and begins to lift the piston 7 up. The piston 7, being connected by means of the rod 4 with the piston 17 and the plungers 25 and 27, does not sweat them behind itself, thus creating a vacuum and consequently pumping fluid from the well. The gas located above the piston 7 will be forced through the opening L through the channel between the cylinder and the casing into the second air cylinder and will be sucked through the opening E at the bottom of the cylinder by the piston 77. The movement of this gas is indicated by a dotted line with arrows. The gas is above

the piston 17 during its lifting upwards, as well as the piston 7, through the opening O in the upper part of the cylinder is displaced along the channel and through the opening P into the cylinder for the aerification of oil. During the lifting of the plunger 25, which is a glass that runs along the guide cylinder 30, a vacuum is created, secondly with the same plunger 27, which serves to prevent sand from getting to the parts of the plunger 25 and cylinder 5 (oil will be sucked. The parts of the plunger 25 and the cylinder VO are abundantly lubricated with oil that is located in the chamber above the plunger, and the oil is filled with all holes and voids at the time of lifting so that gas bags do not form; the hollow junction box is provided with a cuff 29.

At this half of the first cycle ends.

While the piston 7, reaching the upper flange, will block the holes in the upper and lower spool boxes, using spools A (Fig. 3), hit their rods at the top with the piston itself, and with the washer 7 /, gas from the pipe / through the openings K and I (Fig. 2 and 3) will begin to pass into the upper part of the cylinder 8, giving and moving down the piston 7. In the lower part of the cylinder the access of gas is stopped and the outlet is open. Falling down, the piston 7 will force down the associated piston / 7 and the plungers 25 and 27. At this time, the hole in the seat 32 will be closed by the valve 31 and the oil sucked in the first half of the cycle will enter the reservoir for receiving and aeration of oil. At the same time, from the lower part of the cylinder 8, the exhaust gas through the hole in the spool box and channel D, as shown by dotted lines, will be forced out by the piston 7 into the second air cylinder, where it will be sucked by the piston 17 through the hole E in the upper part of the cylinder, which has a valve 12 (fig. b) where it remains until the next piston stroke

up. The gas previously sucked up by the piston 17 from the first stroke upwards, from the bottom of the second air cylinder by the piston 17, as well as through the hole / 7 (Fig. 3) will be squeezed into the cylinder for receiving and aerating the oil through the hole P (Fig. 1) . And since oil has come here, it will also aerate here, while aeration will occur in the most active way, since the oil and gas that has arrived has great mobility, that is, turbulence. Laying is done to facilitate engine operation, since the liquid column will be much lighter, which will make it possible to use existing compressors. On subsequent passes, the aerated oil will pass through holes Z and 26 into the dead-end space and then rise to the wellhead. For very deep wells, two pumps can be put in depth, thereby lifting height will be halved.

The subject matter of the invention.

Claims (2)

1. A pneumatic double-action piston pump for deep wells, with a valve distributor for compressed air, whose rod is displaced by a movement common to the pistons of the pump rod, characterized in that in order to use the exhaust air as a working gas for aeration of pumped oil, in the cylinder pump, a common piston 77 is placed on the common rod, designed to suck and supply exhaust air through the corresponding channels through the hole) K into the cavity filled with oil. 2. In the pump according to claim 1, use a device for lubricating and removing T1 gas from gas penetrating between the plungers 25 and 27, consisting of a chamber with oil above the plunger that serves to fill the annular gap between the casing and the hollow stem, fitted with a 2P cuff. - -LiJi .- / Fkg 1 tm; tei, . ii; “, “- {i .; -ff , -: with with ) LOD: that lepaershy; abo; what m - iTOKe 1rDsachy poyeni ai: Erazhen - software .M, evoy zhom, .tljl