SU1057121A1 - Device for regulating hydrocyclone sand opening - Google Patents

Abstract

A DEVICE FOR REGULATING THE HYDROCYCLONE SAND OPENING, containing a nozzle from an elastic material and an adjustment mechanism, made in the form of rigid curved plates installed evenly around the circumference, characterized in that, in order to increase the reliability of regulation, it is provided with a flexible element whose ends are connected to a return drive -available movement mounted on the compensating frame and the casing, inside which is placed the nozzle and the plates of the adjustment mechanism, while the upper bars gical plate movably mounted on the housing, the bottom ends covered by the flexible member, and the compensating frame is movably connected to the housing. (L ate yu

Description

The invention relates to the enrichment and classification of mineral raw materials, the thickening of sludge and the clarification of sludge water in hydrocyclones, and can also be applied to other industries where hydrocyclones are used.

A device for adjusting a sandy hole of a hydrcicloya is known, comprising a cylindrical body with a tangential inlet nozzle, a drainage nozzle and a slurry nozzle equipped with an elastic nozzle, a crimping device made in the form of rotating rollers fixed by radial bearings evenly circumferentially on the shafts on both sides of the elastic head one.

The disadvantages of this device are the small range of adjustment of the cross section of the sand hole and the fragility in the conditions of the abrasive effect of the sand flow of the pulp.

The closest to the proposed technical, essence and the achieved result is a device for adjusting a sandy hole of a hydrocyclone containing a nozzle from an elastic material and an adjustment mechanism made in the form of rigid curved plates installed evenly around the circumference 2. A disadvantage of the known device is the complexity of the design.

The purpose of the invention is to increase the reliability of regulation.

The goal is achieved by the fact that a device for adjusting a sandy hole of a hydrocyclone, containing a nozzle of an elastic material and an adjustment mechanism made in the form of rigid curved plates installed evenly around the circumference, is provided with a flexible element, the ends of which are connected to a reciprocating actuator mounted on a compensating frame, and a casing inside which the nozzle and the plates of the adjustment mechanism are placed, while the upper ends of the plates are movably fixed on the casing, the lower ends are covered by a flexible element, and the compensating frame is movably connected to the casing.

The proposed structural elements and their interrelation should ensure a uniform reduction in the cross section of the elastic nozzle hole from the free unstressed state to the compressed stress state not by stretching to the side of the symmetry axis, but by compressing the nozzle material to the symmetry axis when subjected to an adjustment mechanism (since any material under compression is less susceptible to wear than when stretched), to ensure a uniform increase in the cross section of the hole from the compressed stress state to the free unstressed But due to the elasticity of the packing material and the pressure of the sand flow, under the opposite action of the control mechanism, when changing the cross section of the sand hole of the elastic packing, the axis of it will move away from the axis of the hydrocyclone.

In addition, the elements of the device must ensure reliable protection of the regulating mechanism against moisture and solid particles of the pulp when it is discharged, the ability to use thick-walled sand-like nozzle from wear-resistant rubber with both conical and cylindrical outer surfaces, as well as the ability to quickly replace the elastic nozzle in case of wear, etc. without dismantling the adjustment mechanism.

In order to uniformly reduce the cross section of the sand hole of the elastic nozzle from the free unstressed state to the compressed stress state with uniform compression of the nozzle material to the axis of symmetry, the adjustment mechanism is made in the form of rigid bent plates installed evenly around the circumference and forming the external surface of the nozzle. The upper ends of the plates are movably, for example by means of a hinge, connected to the nozzle body, and the lower ends are covered by a flexible element, for example, a cable. When pushing the ends of the flexible element by means of a reciprocating drive, the lower ends of the plates begin to converge to the axis of symmetry, uniformly compressing the material of the nozzle and thereby uniformly reducing the cross section of the sand hole.

The prevention of the displacement of the center of the cross section of the orifice of the nozzle from the center of the hydrocyclone axis is provided by mounting the reciprocating drive on a compensating frame that is movably connected, for example, to a nozzle body. When pushing the ends of the flexible element, the lower ends of the bent plates begin to shift to the axis of symmetry, the center of the cross section of the elastic nozzle hole remains on the axis of symmetry, as the compensated-driven frame approaches the axis of the hydrocyclone.

By placing the elastic nozzle with a regulating mechanism in a closed case, the latter is reliably protected from moisture and solid particles of the pulp when it is discharged.

The use of thick-walled sand nozzles made of wear-resistant rubber with both conical and cylindrical outer surfaces. as well as the possibility of its quick replacement in case of wear (or, if necessary, increase or decrease its basic size) without dismantling the adjustment mechanism, is achieved due to that.

that the curved rigid plates of the adjustment mechanism only extend outside the elastic nozzle and are not fastened with a rigid connection to it (neither by reinforcement, nor by gluing, nor by a threaded connection), and the elastic nozzle itself is in a free unstressed state (with full relaxation the ends of the flexible element).

FIG. 1 shows a device for adjusting the sand orifice of a hydrocyclone, a general view; in fig. 2 shows section A-A in FIG. one.

The device contains a nozzle 1 of elastic material (for example, rubber), a closed case 2 with a flange and an adjustment mechanism placed inside it, including curved rigid plates 3, a flexible element 4 (for example, a cable), a drive 5 of reciprocating movement ( , screw), compensating frame b, hinges 7 and 8.

The elastic nozzle is loosely inserted into the housing 2 and fixed in this position by clamping it between the flanges of the housing 2 of the device proposed and the hydrcyclone flange (not shown). The curved plates 3 are arranged around the nozzle I evenly around the circumference and along the surfaces forming it. The upper ends of the plate 3 are movably, for example with the help of hinges 7, fixed on the body 2 with the possibility of swinging in the radial direction, and the lower ends of the plate 3 are looped by flexible element 4, the ends of which are connected to the drive 5 of reciprocating movement.

The actuator 5 is mounted on a compensating frame 6 and is kinematically associated with an electric actuator (not shown). The compensating frame 6 is movably, for example by means of hinges 8, connected to the body 2 with the possibility of swinging in the direction perpendicular to the axis of the nozzle.

The device works as follows.

When the actuator 5 stretches the ends of the flexible element 4, the latter is compressed through the plates 3 of the elastic nozzle 1, as a result of which the cross section of its bore hole decreases. In this case, the compensating frame 6 is deflected on the hinges 8 in such a way that the drive 5 approaches the axis of the elastic nozzle 1. Due to this, the elastic nozzle is evenly compressed from all sides and the circular cross-sectional shape is maintained.

bore hole. As the drive 5 approaches the ends of the flexible element 4, the compression of the elastic nozzle I by the flexible element through the plates 3 weakens, and the cross section of its orifice increases due to the elasticity of the nozzle material and the pressure of the sandy pulp flow passing through the nozzle. In this case, the compensating frame 6 deviates towards its initial position.

Ratio of the diameter of the through-hole of the elastic nozzle in a free, unstressed condition to the diameter of the through-hole of the compressed nozzle is 1: 3, 2, which is the main factor for reliable control of the separation process in a hydrocyclone with significant fluctuations of the grain size distribution and the content of solid in the initial hydrocyclone feed. .

The use of the proposed device for adjusting the sand hole, as compared to the prototype, will allow for a wide range of adjustment of the sand hole of the hydrocyclone, which is the main factor for reliable regulation of the separation process, by uniformly changing the size of the sand hole of the elastic nozzle.

In the proposed device, an operative control of the size of the through-hole of the nozzle is possible, for example, according to the reading of the rotation angle sensor of the electric drive of the adjustment mechanism, which is a good prerequisite for automatic control of subsequent limits.

In addition, the placement of the adjustment mechanism in a closed case provides reliable protection from moisture and abrasive particles, and the absence of rigid connections between curved rigid plates and an elastic nozzle provides the ability to quickly replace an elastic nozzle when it is worn or the need to stepwise change the range of adjustment of the sand hole.

The proposed device allows the use of standard commercially available sand nozzles made of wear-resistant rubber and does not require a special worker qualification and a considerable amount of time during its replacement. The annual economic effect from the use of the invention will be 21.2 thousand rubles.

(PU9.2

Claims (1)

DEVICE FOR REGULATING A SAND HOLE OF A HYDROCYCLONE, comprising a nozzle of elastic material and a control mechanism made in the form of rigid curved plates mounted uniformly around the circumference, characterized in that, in order to increase the reliability of regulation, it is equipped with a flexible element whose ends are connected to the drive back - translational movement mounted on the compensating frame and the casing, inside which the nozzle and plates of the control mechanism are placed, while the upper ends of the Astin is movably mounted on the housing, the lower ends are covered by a flexible element, and the compensating frame is movably connected to the housing. ϊ