RU2212566C1 - Suspension transportation device - Google Patents

Abstract

FIELD: mechanical engineering; materials handling facilities. SUBSTANCE: invention relates to device s designed for transportation of abrasive suspensions. Proposed device contains centrifugal pump, water-jet elevator, suspension feed branch pipe, fixed cylindrical-conical housing connected to intake of water-jet elevator and centrifugal pump. Housing accommodates conical head provided with drive for rotation around vertical axis. Liquid-phase receiver is installed in joint between cylindrical and conical parts of housing. Two separators are arranged on peripheral part of conical head with possibility of adjustment of distance between separators. Upper separator is connected with liquid-phase receiver. Cylindrical and conical baffles are fastened on liquid- phase receiver. Cylindrical cup is installed over conical head. EFFECT: improved efficiency of separation of suspension and capacity of device, irrespective of variations of operating conditions. 2 cl, 2 dwg

Description

 The invention is intended for transporting suspensions in various industries and is intended for transporting liquids with a significant suspension content having abrasive ability, since the use of conventional pumping equipment for this purpose leads to its rapid failure due to wear of the pump impellers by the abrasive action of the suspension's solid phase.

 A device for transporting suspensions containing a stationary housing, a chamber for separating the suspension, mounted for rotation around a vertical axis, a pump connected to the upper part of the chamber, and a water-jet elevator [USSR copyright certificate 1183717, BI 37, 07.10.85].

 The suspension to be transported is fed into the chamber for separating the suspension, which has an annular horizontal partition and 2 rows of windows for outputting the solid phase to intensify the separation process. The solid phase, passing through the windows, enters the receiving intake of the water-jet elevator. To withdraw the liquid phase in the upper part of the chamber, intake pipes of the pump are connected to the active nozzle of the water-jet elevator.

 The disadvantages of this device include the low separation efficiency with increased productivity, due to the possibility of the liquid phase penetrating into the windows for outputting the solid phase due to filtration by centrifugal forces and the ingress of solid particles into the scoop tubes of the pump, intended only for pumping the liquid phase.

 Closest to the proposed is a device for transporting suspensions containing a centrifugal pump, a cylindrical housing, a rotor mounted with the possibility of rotational movement around the vertical axis, and a water-jet elevator [Tulin V.V. Calculation and implementation of equipment for the separation of suspensions in relation to their transportation: Dis. ... cand. those. Sciences: 05.04.09. - M., 1984, p. 38, 53]. This device is taken as a prototype. Separation of the suspension occurs in the rotor, during rotation of which the solid phase of the suspension is deposited on the walls, is discharged through the windows and enters the receiving intake of the water-jet elevator. The liquid phase is discharged from the rotor through the disk into a pocket for collecting the liquid phase, connected to a centrifugal pump and the active nozzle of the water-jet elevator.

 The disadvantages of this device include the low efficiency of the separation of the suspension with a change in performance, due to the possibility of the penetration of the liquid phase through the windows and the ingress of solid particles through the disk into a pocket for collecting liquid.

 The separation efficiency in this device is highly dependent on fluctuations in performance and rotor numbers.

 The objective of the invention is the creation of a device for transporting a suspension, providing high efficiency separation of the suspension and high productivity of the process, independent of fluctuations in the operating parameters of the device.

 This object is achieved in that in a device for transporting suspensions containing a centrifugal pump, a water-jet elevator, a nozzle for supplying a suspension, a stationary body consisting of cylindrical and conical parts connected to a receiving intake of a water-jet elevator and a centrifugal pump located in its internal volume is conical a nozzle equipped with a rotational motion drive around a vertical axis, the suspension is divided by means of separation devices attached to the peripheral parts of the conical nozzle, in 3 layers. A layer of clarified suspension is discharged to the receiver of the liquid phase, a layer of thickened suspension strikes a cylindrical chipper installed in the zone at the junction of the cylindrical and conical parts of the body, and enters the receiving intake of the water-jet elevator. The intermediate layer passes between the separation devices, hits the conical chipper and is divided into the liquid phase that enters the receiver of the liquid phase along the conical chipper, and the solid that bounces from the conic chipper and enters the intake of the water-jet elevator. Low sensitivity to changes in operating parameters is achieved by placing two separation devices. This design allows the gap between the conical nozzle and the lower separation device to be minimal, ensuring the passage of only the concentrated solid phase of the suspension. The suspension passing between the separation devices undergoes further separation upon impact with a conical chipper. A cylindrical cup mounted above the conical nozzle prevents turbulence of the suspension in the feed zone of the conical nozzle, thereby reducing the likelihood of solid particles entering the liquid phase layer. This is especially important when changing the performance and rotation speed of the conical nozzle.

 In FIG. 1 is a diagram of a device for transporting a suspension; figure 2 shows a cylindrical chipper 7.

 The device for transporting suspensions contains a centrifugal pump 9, a water-jet elevator 10, a nozzle for supplying a suspension 4, a fixed cylinder-conical body 1 connected to a receiving intake of a water-jet elevator 10 and a centrifugal pump 9. A conical nozzle 2 is provided in the internal volume of the body 1, equipped with a rotary drive around a vertical axis 3, on the peripheral part of which are installed separation devices 5 and 6 with the ability to adjust the distance between them, with the upper communication It is a C phase liquid receiver 11, located at the junction of the cylindrical and conical parts of the housing 1. The liquid phase to receiver 11 attached 7 and cylindrical conical chippers 12, and over the conical nozzle 2 is mounted a cylindrical cup 8.

 The device operates as follows.

 The suspension to be transported from the pipe for supplying the suspension 4 enters the conical nozzle 2, where, when rotated by centrifugal forces, it rises along the nozzle and is divided into 3 layers using separation devices: a thickened suspension layer, a clarified suspension layer and an intermediate layer. The clarified suspension is discharged through the upper separation device 6 to the liquid phase receiver 11, and from it enters the centrifugal pump 9 connected to the active nozzle of the water-jet elevator 10. The thickened part of the suspension, passing through the gap between the lower separation device 5 and the conical nozzle 2, hits a cylindrical chipper 7 and falls into the intake of the water-jet elevator 10. The intermediate layer passes between the separation devices 5 and 6, hits the conical chipper 12 and is divided into a liquid phase, the cat The wet one flows into the receiver of the liquid phase, and the solid one, which bounces and enters the intake of the water-jet elevator 10, from where, carried away by the flow of the liquid phase from its active nozzle, enters the main pipeline 13. Thus, in the device for transporting suspensions, the kinetic energy reported liquid phase centrifugal pump is converted further to transport the solid phase.

Claims (2)

 1. A device for transporting suspensions containing a centrifugal pump, a water-jet elevator, a nozzle for supplying a suspension, a fixed cylindrical housing connected to a receiving intake of a water-jet elevator and a centrifugal pump, a conical nozzle located in its internal volume, equipped with a rotational drive around a vertical axis, and a liquid phase receiver mounted at the junction of the cylindrical and conical parts of the housing, characterized in that on the peripheral part of the conical nozzle azmescheny two separating devices with the possibility of adjusting the distance therebetween, the upper receiver is communicated with the liquid phase.  2. A device for transporting suspensions according to claim 1, characterized in that a cylindrical and conical chippers are attached to the liquid phase receiver, and a cylindrical cup is mounted above the conical nozzle.

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