SU470588A1 - Device for installing an ice packer - Google Patents

Description

one

The invention relates to devices for installing packers in wells and can be used in hydraulic fracturing, hydroacid treatments and other works requiring temporary sealing of wells.

A device is known in which the use of a vortex tube and a sealer with a barrel rigidly associated with the housing is provided.

The aim of the invention is to provide the possibility of installing an ice packer without descending a pipe string. This is achieved by the fact that the nozzle is made with radial channels and is rigidly connected with a vortex tube.

The drawing schematically shows the described device.

It consists of a housing 1 with holes, a stop ring 2, a stop screw 3, an outlet pipe 4, a spring 5, a stop screw 6, a stop sleeve 7, a ball lock 8, a vortex pipe 9, a sealing ring 10, a figured sleeve 11, a nozzle 12 , diaphragm 13, overflow pipe 14, sealing rings 15, bushings with holes 16, pipe 17 with radial channels, barrel 18, wedge 19, thermocouples 20 with cable, sealer 21, ring pushers 22, ball lock 23 pushers, springs 24 and shlipsovogo site 25.

The device is lowered into the pump-tubing on the cable-cable, which is fixed together with the thermocouple 20 to the output pipe 4. To fix the device in the pipes at a predetermined depth, the descent of the device abruptly stops. Since the articulation of the housing 1 with the holes, the stop ring 2, the ball lock 8 and the barrel 18 on one side and the outlet pipe 4, the spring 5, the vortex tube 9, the sealing rings 10, 15, the figured sleeve 11, the sleeve with holes 16 and the pipe 17 with the radial channels on the other hand is telescopic, then when the descent device abruptly stops under the action of the Forces of Inertia, the housing with holes, the stop ring 2, the ball lock 8 and the barrel 18, squeezing

spring 5 are mixed together. When combining the upper radial channels of the nozzle 17 with the ball lock 23 of the pusher and the lower radial channels of the nozzle 17 - with the upper lock of the shlipSoDOGO node 25 balls of the locks

squeezed into the radial channels and release the pusher ring 22 and the upper locking of the slip unit 25, which, in turn, under the action of the spring 24, being in a compressed state, pushes the plates of the sleeves unit 25 down and the sealer 21 upwards. Plates of the shlpps assembly are mixed down and, advancing on a split cone, tightly wedge the device in the pump-compresor pipes. Gerling 21, thrust

on clip 19, seals the space between the device n pipes. The installation of the device at a predetermined depth is verified by the tension of the cable. Then the valve on the tubing is opened and the well is put into operation on the “torch”. Gas from the reservoir through the pipe 17, through the bypass pipe 14 and the nozzle 12 is directed into the second pipe 9. Under the action of excessive flow in the lower part of the device, due to losses in the nozzle 12, pipe 17, pipe 9 with the sleeve with holes 16, the figured sleeve And, the sealing rings 10, 15, the outlet pipe 4 and the spring 5 are pressed upwards against the stop of the sealing ring 10 into the stop sleeve 7. At the same time, the spring screw 5 cuts off the locking screw 3 that holds the stop ring 2, which limits the movement of the outlet pipe 4 up and also reaches ring seal 10, 15. The sleeve with holes 16 is located against the holes of the housing. In pipe 9, the gas flow is divided into two: hot and cold. The hot flow is directed upwards and through the openings in the upper part of the outlet pipe 4 enters the tubing, and the cold through the diaphragm 13, openings located in the lower part of the pipe 9, the sleeve with openings 16 and the body opening passes between the housing and tubing up. A cold note of gas cools the tubing in the interval between the openings of the housing and the upper part of the outlet pipe 4, and then mixes with the hot flow. A mixture of hot and cold gas enters the wellhead and is flared. After cooling the walls of the tubing to a negative temperature, water is fed into the annulus by the dosing pump, which freezes and creates an ice packer in a cooled interval.

The operation of the device is monitored using a thermocouple 20, which fixes the temperature of the hot stream. To reduce heat exchange between the hot and cold gas flows, the body with openings of the device is covered with heat insulating material.

After creating the ice tucker, the device is lifted to the surface. To do this, shut off valves at the wellhead, which makes it possible to equalize the gas pressure to n after the device. The cable 6 cuts off the screw 6 and lifts the outlet pipe 4, which slides up to the stop in the upper part of the vortex tube 9, providing actuation of the ball lock 8 and the mobility of the stop sleeve 7. This makes it possible to move upwards with further tension of the cable cable.

rigidly connected to the vortex tube 9 by the nozzle 17 with radial channels, which in the lower part is made with a smaller outer diameter. When the lower ball lock of the snap lock assembly 25 is against the lower part of the nozzle 17, the lock balls release the barrel 18 from engagement. At this time, the rise of the outlet pipe 4, the stop ring 2 and the spring 5 is limited by a protrusion in the upper part of the body, which allows the barrel 18 and the nozzle 17 to be lifted simultaneously. The slip assembly 25, which is in engagement with the flow pipes, remains in place until its cone is on nozzle 17. Due to the fact that the cone of the slip-knot

made split, its elements, shifting to the axis of the device, release the slip-bearing unit from engagement with the pipes. After that, the device is freely brought in from the well.

Subject invention

A device for installing an ice packer, consisting of a body with a vortex tube placed in it, a sealer with a barrel rigidly connected to the body, a slip block and a retainer, characterized in that in order to enable the ice packer to be installed without lowering the pipe string The nozzle is made with radial channels and is rigidly connected with a vortex tube.