RU2087678C1 - Pneumatic-pulsing device - Google Patents

Abstract

FIELD: oil and gas industry. SUBSTANCE: this relates to equipment used in removing sedimentation from water-intake part of wells. Device has agent delivering pipe with proportioner of balls. Fixed on inner surface of lower part of pipe are seats with inclined passages. Axes of seat passages and agent delivering pipe are displaced. EFFECT: high efficiency. 3 dwg

Description

 Pneumopulse device refers to the equipment used in the exploration industry for the decommissioning of the water intake part of hydrogeological wells.

 Known shell borehole hydraulic production of friable minerals.

 In the design of the projectile, an air-pulse device was used, including an agent-feeding pipe with a dispenser of dropping balls in the upper part and with valve seats fixed on the inner surface on the walls of the lower part of the pipe. To deflect discarded balls, valve seats have inclined channels whose axes intersect with the axis of the agent-supply pipe. Ball deflectors are made in the form of perforated pipes connecting the channels of the seats.

 In a known design, the deviation of the discharged balls to ensure an advancing air passage into the well is achieved by moving the balls with impacts on the walls of the agent-feeding pipe along a broken path or along a perforated guide pipe, which leads to their rapid destruction.

 In the present invention, the goal is to simplify the design and increase the reliability of the device by directing the outgoing from the channels of the seats along the helix along the inner surface of the agent-supply pipe.

 This goal is achieved by the fact that the axis of the inclined channels of the seats are offset from the axis of the agent-feeding pipe, while the axis of the channels of the seats and agent-feeding pipe are made not parallel and not intersecting.

 The design of the pneumatic pulse device of a new design has elements of novelty and utility, the device is simple in design and reliable in operation.

 Figure 1 shows the design of a pneumatic pulse device in longitudinal section.

 Figure 2 valve seat in isometry.

 Figure 3 shows a section along I-I of the pneumatic pulse device depicted in figure 1.

 A device for air-pulse impact on a rock mass (Fig. 1, 2 and 3) includes an agent-supply pipe 1, on which a dispenser 2 with resettable balls 3 is installed in the upper part, in the lower part of the pipe 1, on its inner walls using couplings 4 valve seats are strengthened 5. Seats 5 are made with inclined channels 6, the axis 7 of which are offset from the axis 8 of the agent supply pipe. The axis 7 of the channels of the valve seats 5 and axis 8 of the agent supply pipe 1 are not parallel and do not intersect. Channel 6 of each seat 5 is made in relation to the inner wall of the agent-supply pipe 1 with respect to.

 Pneumopulse device operates as follows. A ball valve 3 is thrown into the agent supply pipe 1 lowered into the well by dispenser 2. Valve 3, having reached the pneumatic impulse device, is forced through channel 6 of the first upper seat 5, and then is guided along a spiral path along the inner surface of the agent supply pipe 1. The main pulse flow of compressed air directly through the channel of the agent-feeding pipe and all the channels of the subsequent lower saddles enter the well.

 When the ball valve 3 reaches the second from the top of the seat 5, the process is repeated. And so it goes on until valve 3 passes through all the channels 6 of the seats 5.

 Then the second ball valve 3 is thrown and the process is repeated.

 With this method of punching and subsequent movement, each ball 5 experiences relatively less dynamic shock loads and less collapses. In addition to raskolmatization of the filter part of hydrogeological wells, the pneumatic-pulsed device of the proposed design will also find application in works on cleaning the collector channels in the near-borehole rock mass, for example, when increasing oil recovery from producing wells, during downhole hydraulic production of loose minerals and other works.

Claims (1)

 An air-pulse device for influencing a rock mass, including an agent-feeding pipe with a dispenser with dropping balls in the upper part and valve seats with inclined channels fixed to the lower part on the inner surface of the pipes, characterized in that the axis of the inclined channels of the saddles are offset from the axis of the agent-supply pipe.

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