RU75067U1 - LIQUID FLOW REGULATOR - Google Patents

Abstract

A fluid flow regulator comprising a choke half-housing provided with hollow ceramic fittings, wherein the cavity of each ceramic choke communicates with a separate hole made from one end of the choke half-housing, characterized in that additional openings are made coaxially to the holes from the second end of the choke half-housing, communicating with the cavity of the holes and with diameters equal to the diameter of the hole, moreover, from the side wall of the choke half-housing from different planes perpendicular to the axis of the choke half of the housing, perpendicular to the axis of each additional hole and the axis of the choke half-housing, a cylindrical sample is made with a thread on the cylindrical wall, moreover, a conical sample is made from the bottom of the cylindrical sample with a tapered surface tapering to the axis of the choke half-housing, and a nozzle holder made in the form of a truncated truncated a cone connected to a cylinder having a radial cylindrical sample, and a through groove made from the end of the cylinder opposite to the radially a cylindrical selection, moreover, a longitudinal groove is made on the side wall of the cylinder opposite to the proximal end face of the choke half-housing, and a threaded sample provided with a locking screw is made opposite the longitudinal groove on the choke half-shell; moreover, a spherical protrusion connected to the rod in the radial cylindrical sample of the choke holder is connected with the end of the screw, screwed onto the thread of the cylindrical selection of the fitting half-housing, and a diametrically located groove is made on the second end of the screw

Description

The utility model relates to devices designed to reduce the flow of fluid, for example, water injected into the well to maintain reservoir oil pressure.

Known fluid flow regulator (type PP. 0-30x210, passport РРЖ 00.00.000ПС, manufacturing plant LLC "LOZNA", 423250, Republic of Tatarstan, Leninogorsk, Tchaikovsky St., 40) containing a fitting half-case, equipped with hollow ceramic fittings, and the cavity of each ceramic fitting communicates with a separate hole made from one end of the fitting half-housing. A disadvantage of the known fluid flow regulator is its low utilization rate. To replace a ceramic fitting or several fittings, the fluid flow controller is completely removed from the pipeline. This consumes a significant portion of the operating time of the fluid flow controller and reduces the utilization rate.

The purpose of the utility model is to increase the coefficient of use of the fluid flow controller. This goal is achieved by the fact that in the fluid flow regulator containing a choke half-housing equipped with hollow ceramic fittings, the cavity of each ceramic choke communicating with a separate hole made from one end of the choke half-housing, from the second end of the choke half-shell, additional holes are made coaxially, communicating with the cavity of the holes, and with diameters equal to the diameter of the hole, moreover, from the side wall of the choke half-housing from different planes perpendicular to the axis a half-shell fitting, perpendicular to the axis of each additional hole and a half-shell axis, a cylindrical sample is made with thread on the cylindrical wall, and a conical sample is made from the bottom of the cylindrical sample with a tapered surface tapering to the axis of the chimney half-shell, and into a conical and cylindrical sample

a fitting holder is installed, made in the form of a truncated cone connected to a cylinder having a radial cylindrical selection, and a through groove made from the end of the cylinder opposite the radial cylindrical selection, and a longitudinal groove is made on the side wall of the cylinder opposite to the near end of the fitting half-housing, and opposite a threaded set is provided in the longitudinal groove on the choke half-housing, equipped with a locking screw, and a ball joint is installed in the radial cylindrical sample of the choke holder a different protrusion connected with a rod to the end of the screw, screwed onto the thread of the cylindrical selection of the fitting half-housing, moreover, a diametrically located groove is made on the second end of the screw, and a tube is wrapped opposite the diametric groove on the thread of the cylindrical selection, and a cylindrical one is made on the nozzle holder opposite each additional hole a sample equipped with a ceramic fitting, each ceramic fitting being fixed from axial movement by a retaining ring mounted on tsevom slot formed in a side wall of the cylindrical sample shtutseroderzhatelya, wherein shtutseroderzhatele on the bottom of a cylindrical sample of this sample is coaxially provided with an opening communicating with the opening of the choke half shell, and each end of the choke to the half shell germerichno fixed hollow cylinder arranged coaxially with the choke half shell.

Figure 1 shows a General view of the fluid flow regulator (hereinafter - the regulator) in the context; figure 2 is a view of I figure 1; figure 3 is a view II of figure 1.

The controller contains a choke half-housing 1 (Fig. 1), having, for example, two holes: upper 2 and lower 3, which are drilled from the right (in Fig. 1) end 4. From the upper part of the side wall 5 of the choke half-housing 1 from the left plane a perpendicular to the axis of the choke half-housing 1, perpendicular to the axis of the upper hole 2 and the axis of the choke half-housing 1, a cylindrical selection is made 6. From the lower part of the side wall 5 of choke half 1 from the right plane b , perpendicular to the axis of choke half-housing 1, perpendicular to the axis of the lower hole I 3 and the axis of the choke half-housing 1, made a cylindrical sample 7. On the side walls of these samples a thread 8 is cut (FIGS. 2 and 3). From the bottom of each cylindrical

samples 6 and 7, a conical sample 9 is made with a tapered surface tapering to the axis of the choke half of the housing 1. In the conical 9 and cylindrical samples 6 and 7, a fitting 11 and 12 are installed. They are made in the form of a truncated cone 13 connected to a cylinder 14 having a radial cylindrical a sample 15 and a through groove 16. The latter is made from the end face 17 of the cylinder 14 opposite the radial cylindrical sample 15. The side wall (position not given) of each cylinder 14 of the fitting 11 and 12 opposite to the near end face 18 and 4 of the fitting half 1 whisker, a longitudinal groove 19. Instead of the grooves 19 on the half shell 1 since the choke 18 and the ends 4 is threaded sample 20. On these samples wrapped locking screws 21 having a head 22 wrench. A spherical protrusion 23 is mounted in the radial cylindrical sample 15 of the fitting 1, connected by a rod 24 to the end face of the screw 25. This screw 25 is screwed onto the thread 8 of the cylindrical samples 6 and 7 of the half-housing 1. On the second end of each screw 25 there is a diametrically located groove 26 for screwdriver. Opposite the groove 26, plugs 27 with gasket 28 are screwed onto the thread 8 of the cylindrical samples 6 and 7. On the fittings 11 and 12, opposite each hole 2 and 3 and aligned with these holes, for example, on the left side of the truncated cones 13, a cylindrical sample 29 is made. Each one of them is equipped with a ceramic fitting 30 and 31. Each ceramic fitting 30 has openings 32 and is fixed from axial movement by a locking ring 33 mounted on an annular groove made on the side wall of a cylindrical sample 29 of the fitting. Filters 34 are installed between the left end face of the ceramic fittings 30 and 31 and the retaining rings 33. They are made in the form of a disk with through holes. On the half-case 1, coaxial holes 2 and 3 have additional holes 35 and 36 communicating with the cavity of the cylindrical selection 29. Diameter each additional hole 35 and 36 is chosen equal to the diameter of the hole 2. On the nozzle holders 11 and 12 opposite the holes 2 and 3 are made holes 37 and 38, communicating holes 32 of the ceramic fittings 30 and

31 with holes 2 and 3 of the fitting half-housing 1. To the left 18 and right 4 end of the fitting half-housing 1, a hollow cylinder 39 is installed hermetically mounted coaxially to the fitting half-housing 1.

The fluid flow controller operates as follows. A liquid, for example, water, passing under overpressure through the cavity 40 of the left hollow cylinder 39 enters through the openings 35 and 36 of the nipple half-housing 1, into the openings 32 of the ceramic fittings 30 and 31. Passing through the opening 32 of the ceramic fittings 30 and 31, due to the small flow area of this hole, water consumption is reduced. Next, the water through the openings 37 and 38 of the fitting 11 and 12 and the openings 2 and 3 of the fitting half-housing 1 enters the right cavity 40 of the hollow cylinder 39. From there, the water enters the cavity of the intake pipe (not shown in FIG.). During operation of the fluid flow controller, the holes 32 of the ceramic fittings 30 and 31 wear out and their diameter increases. Therefore, such a ceramic fitting is replaced with a new one. To do this, first reduce the water pressure in the regulator to atmospheric. Next, the locking screws 21, plugs 27 and screws 25 are unscrewed with a screwdriver for the groove 26. In this case, each spherical protrusion 23 of the screw 25, acting on the side wall of the radial cylindrical sample 15, pulls the fitting 11 and 12 from the cylindrical 6 and conical 9 samples. retaining ring 33 and filters 34, and then the worn ceramic fittings 30 and 31. Instead, install new ceramic fittings and lock them with retaining rings 33, pre-installing the filter 34. Assembled fittings 11 and 12 together with the screw 25 install t into cylindrical 6 and 7 and conical 9 samples. In this case, the longitudinal groove 19 of the cylinders 13 and 14 is installed opposite the locking screw 21. Then screw this screw 21, and then tighten screw 2 5. It pushes the fitting 11 12 with a spherical protrusion 23. At the same time, the truncated cone 13 of each fitting 11 and 12 is sealed in its conical sample 9, as in the initial position. Then screw plugs 27 on the thread 8 of the cylindrical sample 6 and 7.

In the proposed fluid flow regulator, the replacement of the ceramic fitting, unlike the prototype, is carried out by removing the fitting by unscrewing the plug, locking screw 21 and screw 25. This takes away

significantly less time than dismantling the controller itself, which is done in the prototype. Therefore, the proposed increases the utilization rate. Due to the execution of cylindrical and conical samples in different planes perpendicular to the axes of the holes and the choke half-housing, the conical samples are long (these conical samples even cross the choke axis, as shown in Fig. 1). Therefore, the conical landing of the fitting half-housing and the fitting holders is tight and does not pass water through these landings. This ensures the reliability of the fluid flow controller.

Information used: passport РРЖ 00.00.000ПС, type РР..0-30х210, manufacturing plant LLC “LOZNA”, 423250, Republic of Tatarstan, Leninogorsk, Tchaikovsky St., 40.

Claims (1)

A fluid flow regulator comprising a choke half-housing provided with hollow ceramic fittings, wherein the cavity of each ceramic choke communicates with a separate hole made from one end of the choke half-housing, characterized in that additional openings are made coaxially to the holes from the second end of the choke half-housing, communicating with the cavity of the holes and with diameters equal to the diameter of the hole, moreover, from the side wall of the choke half-housing from different planes perpendicular to the axis of the choke half of the housing, perpendicular to the axis of each additional hole and the axis of the choke half-housing, a cylindrical sample is made with a thread on the cylindrical wall, moreover, a conical sample is made from the bottom of the cylindrical sample with a tapered surface tapering to the axis of the choke half-housing, and a nozzle holder made in the form of a truncated truncated a cone connected to a cylinder having a radial cylindrical sample, and a through groove made from the end of the cylinder opposite to the radially a cylindrical selection, moreover, a longitudinal groove is made on the side wall of the cylinder opposite to the proximal end face of the choke half-housing, and a threaded sample provided with a locking screw is made opposite the longitudinal groove on the choke half-shell; moreover, a spherical protrusion connected to the rod in the radial cylindrical sample of the choke holder is connected with the end of the screw, screwed onto the thread of the cylindrical selection of the fitting half-housing, and a diametrically located groove is made on the second end of the screw moreover, a plug is screwed onto the thread of the cylindrical sample opposite the diametral groove, and a cylindrical sample equipped with a ceramic fitting is made on the nozzle holder opposite each additional opening of the nozzle half-housing, each ceramic fitting being fixed from axial movement by a locking ring mounted on an annular groove made on the side wall of the cylindrical samples of the nozzle holder, and on the nozzle holder from the bottom of the cylindrical sample coaxially to this sample TIFA communicating with the opening of the choke half shell, and each end of the choke to the half shell is sealed hollow cylinder arranged coaxially with the choke half shell.