RU2215586C1 - Luminescent separator for concentration of mineral raw material and device for separation of desired product for separators (versions) - Google Patents

Abstract

FIELD: mining industry; mining of diamonds. SUBSTANCE: proposed separator includes starting raw material loading unit, inclined chute of convex curvilinear shape in form of parabola described by formula y = kx², where k ranges from 0.15 to 0.3 for supply of raw material to zone of detection of desired product, unit for detection of desired product in flow of starting raw material and unit for separation of desired product which is connected with it, unit for separate accumulation of desired and tail products and unit for automatic control of separator. Units for separation of desired product for separator includes electro-mechanical drive connected with desired product cutoff. According to first version, cutoff is made in form of chute supported by one arm of lever and solenoid core is located under second arm of this lever. According to second version, cutoff is made in form of three gate blinds secured in fan-like pattern on axle of stepping motor. EFFECT: possibility of distribution of starting raw material in form of continuous mono-layer of particles; enhanced efficiency. 4 cl, 4 dwg

Description

 The invention relates to the mining industry, and more particularly to diamond mining. The most successfully claimed inventions can be used in search parties and in small processing plants for primary diamond separation.

 It is known that in separators, the uniformity of the feed stream, i.e. the uniformity of its distribution in the zone of detection of the desired material in the form of a continuous monolayer of particles passing along stable trajectories.

 In all luminescent separators, in which guide trays are used to deliver the feedstock to the detection zone of the desired product, they have the form of a straight groove, inclined at a certain acute angle to the horizon. In particular, from the patent of Russia 2131781 by class. 03 03/13/06, published on 06/20/99, the known separator for the enrichment of minerals, which is selected as the closest analogue of the inventive separator. The separator contains a loading device in the form of a loading hopper with a feeder placed underneath it, a rectilinear tray inclined at an acute angle to the horizon to supply raw materials to the detection zone of the desired product. In this zone there are two x-ray tubes and two photodetectors designed to detect the desired product. Under the detection zone is a device for separating the desired product, made in the form of a pneumatic cutter, and a device for collecting the desired product and collecting the tail product, made in the form of concentrate and tail compartments separated by a dividing wall. All nodes of the separator are connected to the automatic control unit.

 As was established by the author of the invention in all separators with straight trays, particles of the source material, falling on the initial section of such a tray, have a slight variation in the trajectories as a result of bouncing from it, which however continuously increases as the particles roll. As a result, when leaving the rectilinear tray and entering the detection zone, the particles of the source material have a large spread of trajectories, which disrupts the means of detecting the desired material and adversely affects the extraction efficiency. This circumstance also leads to the fact that waste rock can enter the concentrate compartment of the device for separate collection of the desired and tail products, bypassing the cutoff device of the separation.

 In addition to the quality of supply of raw materials to the detection zone of the desired material, the design of the separation device of the desired product also affects the efficiency of the separator. In particular, in the above separator according to Russian patent 2131781, the device for separating the desired product is made in the form of a pneumatic cutter. Air cutters are reliable in operation and are widely used in separators. However, pneumatic cut-offs require the presence of a line or cylinders of compressed air, which complicates or even eliminates their use in separators at small processing plants or during prospecting.

 From the point of view of mobility, devices for separating the desired material based on an electromechanical drive are more acceptable. The closest analogue of the claimed devices for separating the required material for separators is the device used in the PASA-1m model radioluminescent separator (see the book by M. A. Fishman and V. I. Zelenkov. The practice of beneficiation of non-ferrous and rare metals, Volume V "Extraction of gold and diamonds from ores and placers. "M.: Nedra, 1967, p. 215-216, Fig. 62). The device consists of a vertical plate-type cutter, mechanically connected with the movable core of the electromagnet, which is the drive of the cutter. The electromagnet case with a winding is brought up at one end with the possibility of rotation in a vertical plane. Inside the winding there is a massive retractable core protruding outward from the other end of the housing. The cutter is made in the form of a massive profiled plate, rigidly fixed on one end of the horizontal shaft, on the other end of which a one-arm lever is rigidly fixed, pivotally connected to the rod, fixed in turn at the end of the core of the electromagnet. In this case, all elements of the device to increase their strength characteristics are made massive.

 When the desired product enters the detection zone, it begins to luminesce. Its light flash is converted into an electrical impulse, which, after conversion, enters the winding of the electromagnet. As a result of this, the core rises, being pulled into the winding. In this case, with the help of the lever, the rod rotates the shaft with a cutter, which diverts the diamond into the trap. After the termination of the electrical impulse, the massive core of the electromagnet goes down, leaving the winding. In this case, with the help of the lever, the rod rotates the shaft with the cutter in the opposite direction, returning the cutter to its original state.

 Such a device for separating the desired product provides the separator with significantly greater mobility compared with the above device based on the pneumatic cutter. However, the use in this device as an electromechanical drive of an electromagnet with a massive movable core, which is mechanically connected to the cutoff by a chain of massive intermediate transmission elements. reduces the speed and reliability of the device. This ultimately reduces the efficiency of the separator in which this device is used.

 The basis of the present invention was the task of developing the design of a luminescent separator for the enrichment of mineral raw materials, in which the tray for supplying raw materials to the detection zone of the desired product would be made in such a way as to ensure distribution of the raw material in the form of a continuous monolayer of particles passing along stable trajectories, due to which, the separator efficiency is improved.

 The basis of the present invention was also the task of developing the design of devices for separating the desired product for separators, in which the electromechanical drives and shutoffs would be made in such a way as to increase the speed of the device and its reliability, thereby increasing the efficiency of extraction of the desired product.

The task related to the separator is solved by the fact that in the luminescent separator for the enrichment of mineral raw materials containing a feed device for loading raw materials, an inclined tray for supplying raw materials to the detection zone of the desired product, a device for detecting the desired product in the feed stream and the associated separation device the desired product, the device for separate collection of the desired and tail products, as well as the device for automatic control of the separator, new is that the inclined tray has convex curvilinear shape in the form of a parabola, described by the formula y = kx ² , where k has a value from 0.15 to 0.3.

 Due to this solution, the surface of the tray has a shape close to the flight path of the pieces of feedstock, flying from the exit of the feeder to the initial section of the tray and having a slight variation in the paths after contact with the tray. In this case, the insignificance of the variation of the flight paths of the pieces of feedstock as it moves along the tray of this shape is preserved. As a result of this, after the initial feedstock leaves the tray, its distribution is uniform in the detection zone in the form of a continuous monolayer of particles moving along stable trajectories. This provides a clear fixation of the desired product, in particular diamonds, and facilitates its cutting off when such a stream enters the separation unit of the desired material, which increases the extraction efficiency.

 The problem associated with the device for separating the desired product is solved due to the fact that the cutter is made in the form of a tray in the device for separating the desired product for the separator, which contains an electromechanical drive in the form of an electromagnet with which the cutter of the desired product is connected one end of which is mounted on a horizontal axis with the possibility of rotation around it, and between the tray and the electromagnet there is a pusher in the form of a two-shouldered lever mounted on the same axis as the tray, and one arm of which rests the tray and under the other arm is fixed core of the electromagnet.

 Thanks to this solution, the core of the electromagnet has no mechanical connection with the cutter, and its movement occurs as a result of the pulsed action of electromagnetic forces, which increases the speed of the device and its reliability and ultimately increases the efficiency of the device.

 The problem is also solved due to the fact that in the device for separating the desired product for the separator, which contains an electromechanical drive with which the cutter of the desired product is connected, it is new that the drive is made in the form of a stepper motor, and the cutter in the form of three slide shutters, fixed fan-shaped at the same angle with respect to each other on the axis of the engine, and four fixed walls adjacent to the free ends of the curtains, and forming three product-channel.

 Thanks to this solution, between the electromechanical drive and the cutter, there are no intermediate connecting elements at all, which increases the speed of the device and increases its reliability. The device does not have idle shutter shutter shutters to return them to their original position, so that its speed is doubled. All this affects the efficiency of the device.

Below the essence of the claimed invention is explained in more detail with specific examples of their implementation with reference to the accompanying drawings, in which:
figure 1 shows a block diagram of the inventive luminescent separator;
figure 2 is a drawing of one of the variants of the claimed device separation of the desired product, side view;
in FIG. 3 is a drawing of another embodiment of the inventive device for separating the desired product in two positions, "a" and "b", a top view.

The luminescent separator for the enrichment of mineral raw materials (figure 1) contains a device 1 for loading pieces 2 of the original, for example, diamond-containing raw materials, consisting of a loading hopper 3 and a feeder 4 located below it, mainly vibrating. Below the feeder 4 is an inclined tray 5 for supplying raw materials to the detection zone 6 of the desired product. Tray 5 has a convex curved shape in the form of a parabola, described by the formula y = kx ² , where k has a value from 0.15 to 0.3. In this case, the boundary values of the coefficient k are selected from the following considerations. When the value of k is less than 0.15, the curvature of the tray 5 is so small that the source material arriving at its beginning will not roll along it, and its pieces 2 will accumulate and become stuck. When the value of k is more than 0.3, the curvature of the tray 5 will be such that it will no longer effectively influence the formation of the flow of material entering the detection zone 6. In the detection zone 6 of the desired product, an x-ray source 7 and a photomultiplier are used 8. Under the detection zone is a device 9 for separating the desired product, which can be used any of the claimed devices, which are discussed in detail below. The separation device 9 is connected to the device 10 for separate collection of the desired and tail products, consisting of a compartment-trap 11 for the desired product and separated from it by a dividing wall 12 of the compartment 13 for the tail product. The operation of all devices and separator blocks is provided by the device 14 for automatic control of the separator.

 The device for separating the desired product, presented in figure 2, contains an electromechanical drive in the form of an electromagnet 1 and a cutter in the form of a tray 2, placed on the housing 3 of the device. The electromagnet 1 consists of a winding 4 and a fixed core 5. The end of the tray 2 is mounted on the horizontal axis 6 with the possibility of rotation around it. Between the tray 2 and the electromagnet 1 on the axis 6, a pusher 7 is also rotatable around it in the form of a two-shouldered lever with shoulders 8 and 9. The tray 2 is supported on the shoulder 8 of the pusher 7. The shoulder 9 of the pusher is located between the end of the tray mounted on the axis 6, and the core 5 of the electromagnet below it. To stop the tray 2 when the device is triggered, the limiter 10 is designed.

 The device for separating the desired product, shown in FIG. 3 (top view), contains an electromechanical drive in the form of a stepper motor 1 and a cutter 2. The cutter 2 is made in the form of three slide shutters 3, fixed fan-shaped at the same angle with respect to each other on the axis 4 engine 1, and four fixed walls 5, adjacent to the free ends of the curtains and forming three product outlet channels 6, 7 and 8. Channels 6 and 8 are designed to receive the desired product and are connected to the trap compartment of the separate collection device Wash and tail products (not shown). Channel 7 is designed to receive the tail product and is connected with the tail section of the tail product of a separate collection device (not shown).

 The separator works as follows. Diamond-containing ore is poured into the hopper 3 (Fig. 1) of the loading device 1, from where its pieces 2 go to the feeder 4. From the feeder 4, the pieces 2 are fed to the initial section of the tray 5 and rolled down it. After the initial contact with the tray 5, pieces 2 have a slight variation in the trajectories. Moreover, the insignificance of the variation of the flight paths of the pieces 2 of the feedstock as it moves along the tray of a convex parabolic shape is preserved. As a result, the uniformity of its distribution in the detection zone 6 in the form of a continuous monolayer of pieces 2 moving along stable trajectories is ensured. This provides a clear fixation by the photomultiplier 8 of the luminescence of all diamonds present in the feedstock, and facilitates their cut-off when such a stream enters the device 9 for separating the desired material, thereby increasing the efficiency of the inventive separator.

 The device separation of the desired product, presented in figure 2 works as follows. In the initial state, in which the flow of diamonds-free feedstock enters the device, tray 2 and pusher 7 occupy position “a”. In this position of tray 2, material enters the tail compartment (not shown). When diamond enters the detection zone of the desired material of the separator, a voltage pulse is applied to the winding 4 of the electromagnet 1. The shoulder 9 of the pusher 7 is attracted to the core by the action of electromagnetic forces 5. In this case, the tray 2, under the action of the shoulder 8 of the pusher, goes into position "b" and has a maximum angular velocity of movement. In this position, the shoulder 9 of the pusher 7 abuts against the end of the core 5 and the pusher stops. Next, the tray 2 continues to move by inertia, continuing to rotate around axis 6, and its angular velocity begins to fall. By inertia, tray 2 moves from position “b” to position “c”, where its movement is stopped by limiter 10. When moving from position “b” to position “c”, tray 2 moves to an angle that overlaps all the scatter of the paths of passage of pieces of rock by the entrance to the separation device, which provides a clear separation of the desired product, which enters the trap compartment (not shown). With all this, the electromagnet is not mechanically connected with the cutter, which ensures the speed of the cutter, increases the reliability of the device and ultimately increases its efficiency.

 The device for separating the desired product, presented in figure 3, works as follows. In the initial state, the shutters 3 are either in position "a" or in position "b". The source material enters the device from above between the shutters 3 located opposite the channel 7 for receiving the tail product. When diamond enters the detection zone of the desired material of the separator, a series of pulses are received by the stepper motor 1, which ensures the rotation of the blinds 3 together with the axis 4 by an angle equal to the angle between the blinds. In this case, the device switches to the position opposite to the original one. As a result, the desired product is fed by the shutters 3 to either channel 6 or channel 8 for receiving the desired product, and empty material continues to flow into channel 7 for receiving the tail product. When another piece of the desired material falls into the separator definition zone, the axis 4 of the stepper motor 1 rotates in the opposite direction by the same angle and the curtain 3 returns to its original position, directing the desired product to another channel for its reception. Thus, this device does not have an idle shutter shutter to return it to its original position. This provides an increase in its speed in comparison with the closest analogue at least twice. At the same time, there are no any connecting elements between the drive and the cutter, which increases the reliability of the device. All this taken together increases the efficiency of extraction of the desired product.

 From the above specific examples of the implementation of the claimed inventions for any specialist in this field, the possibility of their implementation with a simultaneous solution of the tasks is obvious. It is also obvious that when implementing the inventions, minor changes can be made, which, however, will not go beyond them, defined by the following claims.

 The claimed invention is simple to implement. The use of these inventions makes it possible to create on their basis highly efficient and reliable small-sized luminescent separators, which are necessary when searching for diamond deposits and enriching the source material in the field.

Claims (3)

1. A luminescent separator for enriching mineral raw materials, comprising a feed device for loading raw materials, an inclined tray for supplying raw materials to the detection zone of the desired product, means for detecting the desired product in the feed stream and an associated device for separating the desired product, a device for separately collecting the desired and tail products , as well as a device for automatic control of the separator, characterized in that the inclined tray has a convex curvilinear shape in the form of a parabola, described by the formula
y = kx ² ,
where k has a value of 0.15-0.3.  2. A device for separating the desired product for the separator, containing an electromechanical drive in the form of an electromagnet, to which a cutter of the desired product is connected, characterized in that the cutter is made in the form of a tray, one end of which is mounted on a horizontal axis with the possibility of rotation around it, and between the tray and the electromagnet is a pusher in the form of a two-shouldered lever mounted on the same axis as the tray, the tray rests on one shoulder, and a fixed core of the electromagnet is located under the other shoulder.  3. A device for separating the desired product for the separator, containing an electromechanical drive, to which the cutter of the desired product is connected, characterized in that the drive is made in the form of a stepper motor, and the cutter is in the form of three slide shutters, fixed fan-shaped at the same angle with respect to each other on the axis of the engine, and four fixed walls adjacent to the free ends of the curtains and forming three product-removal channels.

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