RU2014115495A - Borehole Ejector - Google Patents

Abstract

1. A downhole ejector installed in a tubing string equipped with a packer with the possibility of removing it from the well, comprising a housing with radial holes, an nozzle axial to the housing, a receiving chamber, a mixing chamber with a diffuser, a check valve that interacts with the seat, a flow distributor, including axial, peripheral and radial channels, a sliding unit, a thrust sleeve and an adapter connected to the head for gripping the ejector with an installation tool in which the channels and the bore are made, I distinguish in that the axial channel in the flow distributor is made in the form of a blind hole communicating with the radial channels of the flow distributor, in the latter, by means of annular cuffs, a seat for the check valve with an abutment stop in the inner end of the bore, made from the lower end of the flow distributor, an axial blind hole and radial channels with a groove are made in the saddle, communicating with radial channels additionally made in the wall of the flow distributor, the latter bottom connected to a thrust sleeve, which is equipped with a filter and is installed in the tubing string by means of a sliding assembly and an annular collar with emphasis on the ledge of the inner surface of the tubing, additionally mounted in the tubing string, radial channels and a bore are made in the tubing wall, the last forms an annular cavity communicating with additional radial channels of the flow distributor, while the axial channel of the thrust sleeve communicates with peripheral distribution channels

Claims (7)

1. A downhole ejector installed in a tubing string equipped with a packer with the possibility of removing it from the well, comprising a housing with radial holes, an nozzle axial to the housing, a receiving chamber, a mixing chamber with a diffuser, a check valve that interacts with the seat, a flow distributor, including axial, peripheral and radial channels, a sliding unit, a thrust sleeve and an adapter connected to the head for gripping the ejector with an installation tool in which the channels and the bore are made, I distinguish in that the axial channel in the flow distributor is made in the form of a blind hole communicating with the radial channels of the flow distributor, in the latter, by means of annular cuffs, a seat for the check valve with an abutment stop in the inner end of the bore, made from the lower end of the flow distributor, an axial blind hole and radial channels with a groove are made in the saddle, communicating with radial channels additionally made in the wall of the flow distributor, the latter bottom connected to a thrust sleeve, which is equipped with a filter and is installed in the tubing string by means of a sliding assembly and an annular collar with emphasis on the ledge of the inner surface of the tubing, additionally mounted in the tubing string, radial channels and a bore are made in the tubing wall, the last forms an annular cavity communicating with additional radial channels of the flow distributor, while the axial channel of the thrust sleeve communicates with peripheral distribution channels flow nozzle, the latter on top is connected to the housing by means of a sleeve and installed in the tube by means of annular cuffs, forming an annular communication channel between the radial holes in the housing and channels in the flow distributor, while a nozzle is installed at the bottom of the housing, forming a communication camera between the peripheral channels and a nozzle, and the opposite end of the housing is connected to an adapter, inside of which there is a diffuser mounted in the head bore and communicating with its inclined walls Alami, and a mixing chamber, the latter at the level of radial openings in the housing wall forms, together with the nozzle receiving chamber. 2. The downhole ejector according to claim 1, characterized in that the diameter of the seat of the thrust sleeve of the ejector between the steps on the inner surface of the tube is at least not less than the diameter of the expanding collet. 3. The downhole ejector according to claim 1, characterized in that the sliding unit is made in the form of an expanding collet movably mounted on a thrust sleeve with a groove to a depth of at least equal to the height of the cams, axially limited by a thrust ring with a diameter of at least not more than the diameter of the seat of the thrust sleeve of the ejector between the ledges on the inner surface of the tube, and shear pins fixed to the thrust sleeve. 4. The downhole ejector according to claim 1, characterized in that the ledges on the inner surface of the tube are made with a slope with the ability to compress the cams of the expanding collet when landing and removing the ejector. 5. The downhole ejector according to claim 1, characterized in that the filter has an external guide cone for passing through the tube, the latter having an internal catching cone from the upper end. 6. The downhole ejector according to claim 1, characterized in that the radial channels in the wall of the tube are made in the form of longitudinal slots along the length of the bore. 7. The downhole ejector according to claim 1, characterized in that the diffuser is prefabricated, the upper part of which is connected to the head for the mounting tool, and the lower part is made in conjunction with the mixing chamber, moreover, stepwise with emphasis on the ledge of the inner surface of the housing.