RU227176U1 - Centrifugal gravity concentrator - Google Patents

Abstract

The utility model relates to the mining industry, namely the field of mineral processing, and can be used to separate mineral particles by density, in particular for the processing of ores and sands containing heavy fine-grained minerals, including gold and other metals. A centrifugal gravity concentrator contains a housing, closed on top with a lid, in which a concentration cone with annular recesses, grooves and holes is installed, a rotor located inside the housing, having an open part with a stationary supply pipe with an inlet hole, and a base on which a power distributor, a drive shaft, connected by a belt drive to the engine to ensure rotation of the concentration cone, a water jacket located between the concentration cone and the rotor housing, chutes for collecting the light fraction and concentrate outlet, a power frame with vibration supports connected to the wall of the concentrator housing, the lower part of the concentration cone is protected by a rubber lining , and the upper part of the cone is made of wear-resistant polyurethane rings cast onto a steel shell. The concentrator cover is made multilayer and lined, where a layer of rubber is placed between the metal outer and inner layers, and the inner metal wall of the cover is lined with a layer of ceramic plates. The technical result of the utility model is to increase the performance characteristics of the device against severe mechanical abrasion by increasing the wear resistance and damping of the cover. 3 salary f-ly, 3 ill.

Description

The utility model relates to the mining industry, namely the field of mineral processing, and can be used to separate mineral particles by density, in particular for the processing of ores and sands containing heavy fine-grained minerals, including gold and other metals.

The utility model can be successfully used to create centrifugal concentrators used in the beneficiation of minerals to separate minerals into heavy and light fractions, including the beneficiation of precious metal ores.

The well-known “Exploration centrifugal concentrator” RU 202258 contains a bowl with annular grooves on the inner surface, a drive mechanism for rotating the bowl around a vertical axis, a vertical shaft, an eccentric vibrator of the bowl, a housing, loading and unloading devices, a vertical shaft is equipped with a petal clutch for transmitting rotation to the bowl from electric motor.

The invention “Centrifugal concentrator” RU 276348 is known, having a hollow rotor installed with the possibility of rotation, connected to a centrifuging bowl placed in its cavity, including annular grooves-recesses with holes for injection of washing water entering through the hollow rotor shaft and the cavity between the walls of the rotor and the centrifuging bowls, a device for loading the enriched material into a centrifuging bowl, a device for supplying wash water and a device for removing the heavy fraction.

The invention “Centrifugal separator with a conical bowl and recesses distributed around an axis” AU1996057565 is known, which includes a cone with a flat base and a conical peripheral wall protruding upward from the base. The jacket surrounding the bowl allows water from the chamber between the bowl and the jacket to be forced through holes in the peripheral wall into the bowl to fluidize the materials within the bowl.

The closest to the claimed technical solution is the centrifugal concentrator RU 221065, which contains a concentration cone with annular grooves, grooves and holes, located inside the rotor housing, which has an open part with a stationary supply pipe with an inlet and a base on which the power distributor and drive shaft are rigidly fixed , connected by a belt drive to the engine to ensure rotation of the concentration cone, a water jacket located between the concentration cone and the rotor body, chutes for collecting the light fraction and concentrate outlet, rigidly connected to the rotor body, a power frame with vibration supports, rigidly connected to the wall of the rotor body . The shaft necks, intended for installation in bearings, are devoid of degrees of mobility, which allows the shaft in these places to carry out only rotational movement, and the power frame frame is rigidly fixed on the lower supports to the foundation and is made of structural low-alloy silicon-manganese steel, while the vibration supports of the power frame are The straps contain an outer steel cup and an inner rod made of a polyurethane composition. The lower part of the concentration cone consists of a rubber-lined wear part, and the upper part of the cone consists of polyurethane wear rings molded onto a stainless steel shell.

The centrifugal concentrators listed above have disadvantages such as high maintenance costs because... products are subject to severe mechanical wear.

The technical result of the utility model is to increase the performance characteristics of the device against severe mechanical abrasion by increasing the wear resistance and damping of the cover.

The technical result is achieved by the fact that the centrifugal gravity concentrator contains a housing, closed on top with a lid, in which a concentration cone with annular recesses, ribbed grooves and holes is installed, a rotor located inside the housing, having an open part with a stationary supply pipe with an inlet hole, and a base on which it is rigidly fixed. power distributor, drive shaft connected by a belt drive to the engine to ensure rotation of the concentration cone, water jacket located between the concentration cone and the rotor body, chutes for collecting the light fraction and concentrate outlet, power frame with vibration supports connected to the wall of the concentrator housing, lower part of the concentration cone is protected by a rubber lining, and the upper part of the cone is made of wear-resistant polyurethane rings cast onto a steel shell. What is new is that the concentrator cover is made multilayer and lined, where a layer of rubber is placed between the metal outer and inner layers, and the inner metal wall of the cover is lined with a layer of ceramic plates.

In a particular case of execution, Linatex brand rubber is used as a lining.

In a particular case of execution, a layer is used ceramic lining tiles containing 95% aluminum oxide.

In a particular case, the vibration supports of the load-bearing frame contain an external steel cup and an internal rubber rod.

Making the concentrator cover multilayer allows you to place a layer of lining, in particular wear-resistant rubber, between the metal layers, which provides additional protection against wear of the cover wall before replacing the worn ceramic lining.

Lining the inner wall of the lid with a layer of ceramic plates protects the wall from the strong mechanical impact of ore particles, which, when leaving the cone due to the high centrifugal force, fall on the walls of the lid and act as an abrasive, which leads to rapid abrasion of the lid wall. Ceramic plates are more resistant to abrasion. Ceramic lining, due to the combination of its advantages, helps to increase the protection of equipment from the effects of processed products. A thinner layer and low weight allow the lining to be installed in small areas. At the same time, the degree of wear is not reduced, and the level of withstanding load is in many ways superior to metal protection. Lightweight, durable and reliable, ceramic wear-resistant tiles form a lining layer that reduces operating costs. After all, the higher the grinding properties of the material being processed, the faster the lining wears out. Ceramics does not require regular restoration, and if defects occur, it is enough to replace damaged slabs without disturbing the entire layer. Therefore, the operation of production units does not stop for long. Thus, lining the lid with ceramics and placing a rubber layer between the metal layers increases the performance characteristics of the product as a whole, in particular against strong mechanical abrasion.

Also, providing additional wear resistance is achieved by the fact that the lower part of the concentration cone is protected by a rubber lining, and the upper part of the cone is made of wear-resistant polyurethane rings.

The essence of the technical solution is illustrated by graphic material, where in Fig. 1 shows a centrifugal concentrator, front cross-sectional view; FIG. Fig. 2 shows the concentration cone cover, front sectional view, Fig. 3 is an enlarged view of A in Fig. 2.

The positions in FIG. 1-3 the following elements are indicated: concentration cone - 1, loading feed pipe - 2, base - 3, on which the power distributor is rigidly fixed, drive shaft - 4, electric motor - 5, basket - 6, lower chute - 7 (for discharging concentrate ), upper chute 8 (for removing the light fraction), body - 9, cover - 10, outer layer of the cover - 11, rubber layer - 12, inner layer of the cover - 13, layer of ceramic plates - 14, frame - 15, vibration supports - 16 .

The centrifugal gravity concentrator contains a housing 9, closed at the top by a lid 10. The housing 9 contains a concentration cone 1 with annular recesses, ribbed grooves and holes, a rotor located inside the housing, which has an open part with a stationary supply pipe 2 with an inlet, and a base 3, on which it is rigidly fixed a power distributor, a drive shaft 4 connected by a belt drive to an electric motor 5 to ensure rotation of the concentration cone, a water jacket located between the concentration cone and the rotor body, a chute 8 for collecting the light fraction and a chute 7 for the concentrate outlet. The concentrator also contains a power frame 15 with vibration supports 16, rigidly connected to the wall of the housing 9. The lower part of the concentration cone consists of a rubber-lined wear part, and the upper part of the cone consists of wear-resistant polyurethane rings cast onto a shell, for example, made of stainless steel.

The concentrator cover 10 is made multilayer and lined. Between the metal outer layer 11 and the inner metal layer 13 of the lid wall there is a layer of rubber 12, for example, Linatex, and the inner metal wall 13 of the lid is lined with a layer of ceramic plates 14 with an aluminum oxide content of 95%.

The centrifugal gravity concentrator contains a concentration bowl having a base, a peripheral wall of the concentration cone, standing upward from the base to the open part of the bowl. The concentration bowl is attached to a drive shaft, which allows the concentration bowl to rotate around a central axis. In the specific embodiment shown, the drive shaft is supported by bearings. The engine drives the drive shaft through pulleys with a belt. The engine and bearings are mounted on a support frame.

A stationary feed pipe extends through the open portion of the bowl and is configured to provide feed in the form of a mixture of heavy and light solids in an aqueous suspension. The outlet of the aqueous suspension through the stationary supply pipe is located above the base. Power is supplied along the central axis of the centrifugal concentrator to a power distributor at the base. The feed is then deflected radially around the central axis. The feed then moves to the peripheral wall, where heavier particles are directed into the grooves of the centrifugal separator cone, while lighter particles in the feed pass over the cone grooves to the open part of the drain bowl. These particles, acting as an abrasive, when leaving the cone due to the high centrifugal force, fall on the walls of the lid, which leads to rapid abrasion of the wall. Ceramic plates are more resistant to abrasion. The material coming out of the open part of the bowl is collected and discharged by a chute.

The inner surface of the peripheral wall of the concentration cone of a centrifugal concentrator is made by molding the liner material onto a metal frame. The lower part of the concentration cone consists of a wear part lined with rubber, in which centrifugal force begins to act on the pulp, on which the principle of enrichment is based. The top of the cone consists of wear-resistant polyurethane rings molded onto a stainless steel shell. All these design features are aimed at increasing the performance characteristics of the concentrator against severe mechanical abrasion by increasing wear resistance.

The rotor housing (bowl) has a housing wall and a base. The wall of the concentration cone and the rotor housing form a water jacket. The holes connect the water jacket to the base of the annular recesses of the riffles. The water jacket has a fluid inlet (not shown) designed to force fluid under pressure into it. The liquid is supplied through a channel through the shaft. The fluid medium is water. The liquid is distributed in the water jacket and flows through the holes in the wall of the concentration cone into the annular recesses of the riffles. The wall of the concentration cone has many small holes. The holes may contain perforations of varying numbers and sizes. The pressurized fluid fluidizes the material collected in the annular recess of the grooves, resulting in the formation of a fluidized bed. The action of the fluidized bed is to separate the heavier material, which tends to collect in the recesses, from the lighter material, which tends to wash out of the recesses and flows from the open part of the bowl into a collection trough.

When the flush cycle begins, the rotor stops completely and the fluidization water valve opens for a few seconds. Opening the water valve while the rotor is stationary allows water to flush out all accumulated concentrate from the riffles of the concentration cone. The concentrate exits the concentration cone and is directed into the concentrate outlet chute.

The presented centrifugal gravity concentrator has improved performance characteristics, namely, it is resistant to strong mechanical abrasion due to increased wear resistance and damping of the cover.

Claims (4)

1. A centrifugal gravity concentrator containing a housing closed at the top with a lid, in which a concentration cone with annular recesses, grooves and holes is installed, a rotor located inside the housing, having an open part with a stationary supply pipe with an inlet hole and a base on which the power distributor is rigidly fixed, a drive shaft connected by a belt drive to the engine to ensure rotation of the concentration cone, a water jacket located between the concentration cone and the rotor housing, chutes for collecting the light fraction and concentrate outlet, a power frame with vibration supports connected to the wall of the concentrator housing, the lower part of the concentration cone is protected by a rubber lining, and the upper part of the cone is made of wear-resistant polyurethane rings cast onto a steel shell, characterized in that the concentrator cover is made multilayer and lined, where a layer of rubber is placed between the metal outer and inner layers, and the inner metal wall of the cover is lined with a layer of ceramic plates 2. Centrifugal gravity concentrator according to claim 1, characterized in that Linatex brand rubber is used as the lining. 3. Centrifugal gravity concentrator according to claim 1, characterized in that ceramic lining tiles with an aluminum oxide content of 95% are used as a layer of ceramic plates. 4. Centrifugal gravity concentrator according to claim 1, characterized in that it contains an external steel cup and an internal rubber rod as a vibration support.